cryptonite 0.15.1 → 0.30
raw patch · 287 files changed
Files
- CHANGELOG.md +146/−1
- Crypto/Cipher/AES.hs +6/−3
- Crypto/Cipher/AES/Primitive.hs +143/−8
- Crypto/Cipher/AESGCMSIV.hs +193/−0
- Crypto/Cipher/Blowfish/Box.hs +22/−4
- Crypto/Cipher/Blowfish/Primitive.hs +203/−146
- Crypto/Cipher/CAST5.hs +43/−0
- Crypto/Cipher/CAST5/Primitive.hs +573/−0
- Crypto/Cipher/Camellia/Primitive.hs +2/−2
- Crypto/Cipher/ChaCha.hs +9/−7
- Crypto/Cipher/RC4.hs +5/−0
- Crypto/Cipher/Salsa.hs +5/−5
- Crypto/Cipher/Twofish.hs +45/−0
- Crypto/Cipher/Twofish/Primitive.hs +311/−0
- Crypto/Cipher/Types.hs +3/−1
- Crypto/Cipher/Types/AEAD.hs +5/−5
- Crypto/Cipher/Types/Base.hs +9/−3
- Crypto/Cipher/Types/Block.hs +13/−21
- Crypto/Cipher/Types/Stream.hs +1/−1
- Crypto/Cipher/Types/Utils.hs +1/−1
- Crypto/Cipher/Utils.hs +18/−0
- Crypto/Cipher/XSalsa.hs +75/−0
- Crypto/ConstructHash/MiyaguchiPreneel.hs +68/−0
- Crypto/Data/AFIS.hs +2/−2
- Crypto/Data/Padding.hs +18/−1
- Crypto/ECC.hs +408/−0
- Crypto/ECC/Edwards25519.hs +370/−0
- Crypto/ECC/Simple/Prim.hs +207/−0
- Crypto/ECC/Simple/Types.hs +616/−0
- Crypto/Error/Types.hs +23/−6
- Crypto/Hash.hs +77/−32
- Crypto/Hash/Algorithms.hs +15/−4
- Crypto/Hash/Blake2.hs +162/−0
- Crypto/Hash/Blake2b.hs +71/−4
- Crypto/Hash/Blake2bp.hs +19/−12
- Crypto/Hash/Blake2s.hs +31/−6
- Crypto/Hash/Blake2sp.hs +15/−5
- Crypto/Hash/IO.hs +10/−12
- Crypto/Hash/Keccak.hs +21/−5
- Crypto/Hash/MD2.hs +9/−2
- Crypto/Hash/MD4.hs +9/−2
- Crypto/Hash/MD5.hs +15/−2
- Crypto/Hash/RIPEMD160.hs +9/−2
- Crypto/Hash/SHA1.hs +15/−2
- Crypto/Hash/SHA224.hs +15/−2
- Crypto/Hash/SHA256.hs +15/−2
- Crypto/Hash/SHA3.hs +21/−5
- Crypto/Hash/SHA384.hs +15/−2
- Crypto/Hash/SHA512.hs +15/−2
- Crypto/Hash/SHA512t.hs +13/−3
- Crypto/Hash/SHAKE.hs +131/−0
- Crypto/Hash/Skein256.hs +13/−3
- Crypto/Hash/Skein512.hs +21/−5
- Crypto/Hash/Tiger.hs +9/−2
- Crypto/Hash/Types.hs +67/−2
- Crypto/Hash/Whirlpool.hs +9/−2
- Crypto/Internal/Builder.hs +53/−0
- Crypto/Internal/ByteArray.hs +20/−0
- Crypto/Internal/Compat.hs +5/−5
- Crypto/Internal/CompatPrim.hs +20/−19
- Crypto/Internal/DeepSeq.hs +2/−0
- Crypto/Internal/Imports.hs +4/−0
- Crypto/Internal/Nat.hs +213/−0
- Crypto/Internal/WordArray.hs +17/−15
- Crypto/KDF/Argon2.hs +157/−0
- Crypto/KDF/BCrypt.hs +37/−13
- Crypto/KDF/BCryptPBKDF.hs +187/−0
- Crypto/KDF/HKDF.hs +9/−3
- Crypto/KDF/PBKDF2.hs +74/−1
- Crypto/MAC/CMAC.hs +2/−2
- Crypto/MAC/HMAC.hs +15/−6
- Crypto/MAC/KMAC.hs +144/−0
- Crypto/MAC/Poly1305.hs +5/−0
- Crypto/Number/Basic.hs +20/−4
- Crypto/Number/Compat.hs +41/−5
- Crypto/Number/F2m.hs +120/−59
- Crypto/Number/Generate.hs +1/−3
- Crypto/Number/ModArithmetic.hs +139/−19
- Crypto/Number/Nat.hs +63/−0
- Crypto/Number/Prime.hs +39/−17
- Crypto/Number/Serialize.hs +10/−9
- Crypto/Number/Serialize/Internal.hs +6/−6
- Crypto/Number/Serialize/Internal/LE.hs +75/−0
- Crypto/Number/Serialize/LE.hs +54/−0
- Crypto/OTP.hs +178/−0
- Crypto/PubKey/Curve25519.hs +22/−2
- Crypto/PubKey/Curve448.hs +116/−0
- Crypto/PubKey/DH.hs +7/−4
- Crypto/PubKey/DSA.hs +21/−25
- Crypto/PubKey/ECC/ECDSA.hs +53/−41
- Crypto/PubKey/ECC/P256.hs +102/−41
- Crypto/PubKey/ECC/Prim.hs +53/−18
- Crypto/PubKey/ECC/Types.hs +11/−10
- Crypto/PubKey/ECDSA.hs +272/−0
- Crypto/PubKey/ECIES.hs +48/−0
- Crypto/PubKey/Ed25519.hs +21/−7
- Crypto/PubKey/Ed448.hs +110/−49
- Crypto/PubKey/EdDSA.hs +390/−0
- Crypto/PubKey/ElGamal.hs +4/−4
- Crypto/PubKey/Internal.hs +23/−0
- Crypto/PubKey/RSA.hs +3/−4
- Crypto/PubKey/RSA/PKCS15.hs +10/−7
- Crypto/PubKey/RSA/PSS.hs +88/−28
- Crypto/PubKey/RSA/Prim.hs +2/−2
- Crypto/PubKey/RSA/Types.hs +5/−5
- Crypto/PubKey/Rabin/Basic.hs +230/−0
- Crypto/PubKey/Rabin/Modified.hs +101/−0
- Crypto/PubKey/Rabin/OAEP.hs +100/−0
- Crypto/PubKey/Rabin/RW.hs +166/−0
- Crypto/PubKey/Rabin/Types.hs +43/−0
- Crypto/Random.hs +16/−0
- Crypto/Random/ChaChaDRG.hs +2/−2
- Crypto/Random/Entropy/Backend.hs +6/−5
- Crypto/Random/Entropy/RDRand.hs +1/−1
- Crypto/Random/Entropy/Source.hs +3/−3
- Crypto/Random/Entropy/Unix.hs +3/−3
- Crypto/Random/Entropy/Unsafe.hs +2/−2
- Crypto/Random/Entropy/Windows.hs +2/−2
- Crypto/Random/EntropyPool.hs +6/−4
- Crypto/Random/Probabilistic.hs +1/−1
- Crypto/Random/SystemDRG.hs +0/−1
- Crypto/Random/Types.hs +2/−3
- Crypto/System/CPU.hs +64/−0
- Crypto/Tutorial.hs +195/−0
- README.md +37/−40
- benchs/Bench.hs +384/−0
- benchs/Number/F2m.hs +53/−0
- cbits/aes/block128.h +58/−7
- cbits/aes/generic.c +28/−24
- cbits/aes/gf.c +100/−26
- cbits/aes/gf.h +6/−2
- cbits/aes/x86ni.c +105/−25
- cbits/aes/x86ni.h +16/−1
- cbits/aes/x86ni_impl.c +55/−5
- cbits/argon2/argon2.c +142/−0
- cbits/argon2/argon2.h +267/−0
- cbits/argon2/blamka-round-opt.h +180/−0
- cbits/argon2/blamka-round-ref.h +56/−0
- cbits/argon2/core.c +701/−0
- cbits/argon2/core.h +234/−0
- cbits/argon2/opt.c +186/−0
- cbits/argon2/opt.h +35/−0
- cbits/argon2/ref.c +185/−0
- cbits/argon2/ref.h +35/−0
- cbits/argon2/thread.c +57/−0
- cbits/argon2/thread.h +67/−0
- cbits/blake2/ref/blake2-impl.h +86/−63
- cbits/blake2/ref/blake2-kat.h +0/−16467
- cbits/blake2/ref/blake2.h +124/−79
- cbits/blake2/ref/blake2b-ref.c +156/−182
- cbits/blake2/ref/blake2bp-ref.c +134/−66
- cbits/blake2/ref/blake2s-ref.c +152/−179
- cbits/blake2/ref/blake2sp-ref.c +133/−71
- cbits/blake2/sse/blake2-config.h +12/−12
- cbits/blake2/sse/blake2-impl.h +90/−66
- cbits/blake2/sse/blake2.h +125/−80
- cbits/blake2/sse/blake2b-load-sse2.h +10/−10
- cbits/blake2/sse/blake2b-load-sse41.h +10/−10
- cbits/blake2/sse/blake2b-round.h +12/−12
- cbits/blake2/sse/blake2b.c +185/−215
- cbits/blake2/sse/blake2bp.c +158/−60
- cbits/blake2/sse/blake2s-load-sse2.h +10/−9
- cbits/blake2/sse/blake2s-load-sse41.h +10/−10
- cbits/blake2/sse/blake2s-load-xop.h +17/−15
- cbits/blake2/sse/blake2s-round.h +11/−11
- cbits/blake2/sse/blake2s.c +181/−205
- cbits/blake2/sse/blake2sp.c +160/−61
- cbits/cryptonite_aes.c +393/−34
- cbits/cryptonite_aes.h +32/−2
- cbits/cryptonite_align.h +140/−0
- cbits/cryptonite_blake2b.c +3/−3
- cbits/cryptonite_blake2bp.c +3/−3
- cbits/cryptonite_blake2s.c +3/−3
- cbits/cryptonite_blake2sp.c +3/−3
- cbits/cryptonite_chacha.c +20/−23
- cbits/cryptonite_hash_prefix.c +90/−0
- cbits/cryptonite_hash_prefix.h +65/−0
- cbits/cryptonite_keccak.c +0/−159
- cbits/cryptonite_keccak.h +0/−43
- cbits/cryptonite_md4.c +17/−4
- cbits/cryptonite_md5.c +44/−8
- cbits/cryptonite_md5.h +1/−0
- cbits/cryptonite_pbkdf2.c +390/−0
- cbits/cryptonite_pbkdf2.h +31/−0
- cbits/cryptonite_poly1305.c +16/−20
- cbits/cryptonite_rdrand.c +1/−1
- cbits/cryptonite_ripemd.c +19/−8
- cbits/cryptonite_salsa.c +18/−23
- cbits/cryptonite_scrypt.c +3/−12
- cbits/cryptonite_sha1.c +46/−9
- cbits/cryptonite_sha1.h +4/−1
- cbits/cryptonite_sha256.c +48/−5
- cbits/cryptonite_sha256.h +4/−0
- cbits/cryptonite_sha3.c +104/−11
- cbits/cryptonite_sha3.h +25/−1
- cbits/cryptonite_sha512.c +54/−5
- cbits/cryptonite_sha512.h +5/−1
- cbits/cryptonite_skein256.c +13/−4
- cbits/cryptonite_skein512.c +13/−4
- cbits/cryptonite_tiger.c +16/−7
- cbits/cryptonite_whirlpool.c +0/−1
- cbits/cryptonite_xsalsa.c +90/−0
- cbits/cryptonite_xsalsa.h +38/−0
- cbits/curve25519/curve25519-donna-c64.c +447/−0
- cbits/decaf/ed448goldilocks/decaf.c +1642/−0
- cbits/decaf/ed448goldilocks/decaf_all.c +3/−0
- cbits/decaf/ed448goldilocks/decaf_tables.c +354/−0
- cbits/decaf/ed448goldilocks/eddsa.c +326/−0
- cbits/decaf/ed448goldilocks/scalar.c +341/−0
- cbits/decaf/include/arch_32/arch_intrinsics.h +22/−0
- cbits/decaf/include/arch_ref64/arch_intrinsics.h +22/−0
- cbits/decaf/include/constant_time.h +362/−0
- cbits/decaf/include/decaf.h +32/−0
- cbits/decaf/include/decaf/common.h +116/−0
- cbits/decaf/include/decaf/ed448.h +227/−0
- cbits/decaf/include/decaf/point_255.h +1/−0
- cbits/decaf/include/decaf/point_448.h +724/−0
- cbits/decaf/include/decaf/sha512.h +1/−0
- cbits/decaf/include/decaf/shake.h +96/−0
- cbits/decaf/include/field.h +107/−0
- cbits/decaf/include/portable_endian.h +6/−0
- cbits/decaf/include/word.h +281/−0
- cbits/decaf/p448/arch_32/f_impl.c +101/−0
- cbits/decaf/p448/arch_32/f_impl.h +40/−0
- cbits/decaf/p448/arch_ref64/f_impl.c +302/−0
- cbits/decaf/p448/arch_ref64/f_impl.h +38/−0
- cbits/decaf/p448/f_arithmetic.c +46/−0
- cbits/decaf/p448/f_field.h +108/−0
- cbits/decaf/p448/f_generic.c +133/−0
- cbits/decaf/utils.c +43/−0
- cbits/ed25519/ed25519-cryptonite-exts.h +246/−0
- cbits/ed25519/ed25519-donna-impl-base.h +7/−1
- cbits/ed25519/ed25519.c +1/−0
- cbits/ed448/x448.c +0/−311
- cbits/ed448/x448.h +0/−25
- cbits/include32/p256/p256.h +167/−0
- cbits/include32/p256/p256_gf.h +779/−0
- cbits/include64/p256/p256.h +167/−0
- cbits/include64/p256/p256_gf.h +713/−0
- cbits/p256/p256.c +161/−21
- cbits/p256/p256.h +0/−162
- cbits/p256/p256_ec.c +35/−748
- cryptonite.cabal +182/−30
- tests/BCrypt.hs +4/−0
- tests/BCryptPBKDF.hs +75/−0
- tests/BlockCipher.hs +44/−14
- tests/ECC.hs +343/−0
- tests/ECC/Edwards25519.hs +147/−0
- tests/ECDSA.hs +61/−0
- tests/Hash.hs +122/−1
- tests/KAT_AES.hs +22/−1
- tests/KAT_AES/KATCCM.hs +155/−0
- tests/KAT_AES/KATGCM.hs +8/−0
- tests/KAT_AESGCMSIV.hs +494/−0
- tests/KAT_AFIS.hs +2/−2
- tests/KAT_Argon2.hs +42/−0
- tests/KAT_CAST5.hs +15/−0
- tests/KAT_Curve25519.hs +2/−0
- tests/KAT_Curve448.hs +25/−0
- tests/KAT_Ed25519.hs +49/−15
- tests/KAT_Ed448.hs +78/−13
- tests/KAT_EdDSA.hs +131/−0
- tests/KAT_HKDF.hs +1/−4
- tests/KAT_HMAC.hs +9/−9
- tests/KAT_KMAC.hs +129/−0
- tests/KAT_MiyaguchiPreneel.hs +49/−0
- tests/KAT_OTP.hs +101/−0
- tests/KAT_PBKDF2.hs +37/−3
- tests/KAT_PubKey.hs +6/−2
- tests/KAT_PubKey/DSA.hs +227/−7
- tests/KAT_PubKey/ECC.hs +27/−3
- tests/KAT_PubKey/ECDSA.hs +437/−8
- tests/KAT_PubKey/OAEP.hs +7/−7
- tests/KAT_PubKey/P256.hs +80/−35
- tests/KAT_PubKey/PSS.hs +180/−305
- tests/KAT_PubKey/RSA.hs +102/−0
- tests/KAT_PubKey/Rabin.hs +145/−0
- tests/KAT_RC4.hs +2/−2
- tests/KAT_Scrypt.hs +2/−2
- tests/KAT_Twofish.hs +45/−0
- tests/Number.hs +42/−13
- tests/Number/F2m.hs +111/−0
- tests/Padding.hs +14/−2
- tests/Salsa.hs +1/−1
- tests/Tests.hs +40/−3
- tests/Utils.hs +6/−7
- tests/XSalsa.hs +128/−0
CHANGELOG.md view
@@ -1,9 +1,154 @@-## 0.15.1+## 0.30 +* Fix some C symbol blake2b prefix to be cryptonite_ prefix (fix mixing with other C library)+* add hmac-lazy+* Fix compilation with GHC 9.2+* Drop support for GHC8.0, GHC8.2, GHC8.4, GHC8.6++## 0.29++* advance compilation with gmp breakage due to change upstream+* Add native EdDSA support++## 0.28++* Add hash constant time capability+* Prevent possible overflow during hashing by hashing in 4GB chunks++## 0.27++* Optimise AES GCM and CCM+* Optimise P256R1 implementation+* Various AES-NI building improvements+* Add better ECDSA support+* Add XSalsa derive+* Implement square roots for ECC binary curve+* Various tests and benchmarks++## 0.26++* Add Rabin cryptosystem (and variants)+* Add bcrypt_pbkdf key derivation function+* Optimize Blowfish implementation+* Add KMAC (Keccak Message Authentication Code)+* Add ECDSA sign/verify digest APIs+* Hash algorithms with runtime output length+* Update blake2 to latest upstream version+* RSA-PSS with arbitrary key size+* SHAKE with output length not divisible by 8+* Add Read and Data instances for Digest type+* Improve P256 scalar primitives+* Fix hash truncation bug in DSA+* Fix cost parsing for bcrypt+* Fix ECC failures on arm64+* Correction to PKCS#1 v1.5 padding+* Use powModSecInteger when available+* Drop GHC 7.8 and GHC 7.10 support, refer to pkg-guidelines+* Optimise GCM mode+* Add little endian serialization of integer++## 0.25++* Improve digest binary conversion efficiency+* AES CCM support+* Add MonadFailure instance for CryptoFailable+* Various misc improvements on documentation+* Edwards25519 lowlevel arithmetic support+* P256 add point negation+* Improvement in ECC (benchmark, better normalization)+* Blake2 improvements to context size+* Use gauge instead of criterion+* Use haskell-ci for CI scripts+* Improve Digest memory representation to be 2 less Ints and one less boxing+ moving from `UArray` to `Block`++## 0.24++* Ed25519: generateSecret & Documentation updates+* Repair tutorial+* RSA: Allow signing digest directly+* IV add: fix overflow behavior+* P256: validate point when decoding+* Compilation fix with deepseq disabled+* Improve Curve448 and use decaf for Ed448+* Compilation flag blake2 sse merged in sse support+* Process unaligned data better in hashes and AES, on architecture needing alignment+* Drop support for ghc 7.6+* Add ability to create random generator Seed from binary data and+ loosen constraint on ChaChaDRG seed from ByteArray to ByteArrayAccess.+* Add 3 associated types with the HashAlgorithm class, to get+ access to the constant for BlockSize, DigestSize and ContextSize at the type level.+ the related function that this replaced will be deprecated in later release, and+ eventually removed.++API CHANGES:++* Improve ECDH safety to return failure for bad inputs (e.g. public point in small order subgroup).+ To go back to previous behavior you can replace `ecdh` by `ecdhRaw`. It's recommended to+ use `ecdh` and handle the error appropriately.+* Users defining their own HashAlgorithm needs to define the+ HashBlockSize, HashDigest, HashInternalContextSize associated types++## 0.23++* Digest memory usage improvement by using unpinned memory+* Fix generateBetween to generate within the right bounds+* Add pure Twofish implementation+* Fix memory allocation in P256 when using a temp point+* Consolidate hash benchmark code+* Add Nat-length Blake2 support (GHC > 8.0)+* Update tutorial++## 0.22++* Add Argon2 (Password Hashing Competition winner) hash function+* Update blake2 to latest upstream version+* Add extra blake2 hashing size+* Add faster PBKDF2 functions for SHA1/SHA256/SHA512+* Add SHAKE128 and SHAKE256+* Cleanup prime generation, and add tests+* Add Time-based One Time Password (TOTP) and HMAC-based One Time Password (HOTP)+* Rename Ed448 module name to Curve448, old module name still valid for now++## 0.21++* Drop automated tests with GHC 7.0, GHC 7.4, GHC 7.6. support dropped, but probably still working.+* Improve non-aligned support in C sources, ChaCha and SHA3 now probably work on arch without support for unaligned access. not complete or tested.+* Add another ECC framework that is more flexible, allowing different implementations to work instead of+ the existing Pure haskell NIST implementation.+* Add ECIES basic primitives+* Add XSalsa20 stream cipher+* Process partial buffer correctly with Poly1305++## 0.20++* Fixed hash truncation used in ECDSA signature & verification (Olivier Chéron)+* Fix ECDH when scalar and coordinate bit sizes differ (Olivier Chéron)+* Speed up ECDSA verification using Shamir's trick (Olivier Chéron)+* Fix rdrand on windows++## 0.19++* Add tutorial (Yann Esposito)+* Derive Show instance for better interaction with Show pretty printer (Eric Mertens)++## 0.18++* Re-used standard rdrand instructions instead of bytedump of rdrand instruction+* Improvement to F2m, including lots of tests (Andrew Lelechenko) * Add error check on salt length in bcrypt++## 0.17++* Add Miyaguchi-Preneel construction (Kei Hibino) * Fix buffer length in scrypt (Luke Taylor) * build fixes for i686 and arm related to rdrand++## 0.16+ * Fix basepoint for Ed448++* Enable 64-bit Curve25519 implementation ## 0.15
Crypto/Cipher/AES.hs view
@@ -14,6 +14,7 @@ import Crypto.Error import Crypto.Cipher.Types+import Crypto.Cipher.Utils import Crypto.Cipher.Types.Block import Crypto.Cipher.AES.Primitive import Crypto.Internal.Imports@@ -33,18 +34,19 @@ instance Cipher AES128 where cipherName _ = "AES128" cipherKeySize _ = KeySizeFixed 16- cipherInit k = AES128 `fmap` initAES k+ cipherInit k = AES128 <$> (initAES =<< validateKeySize (undefined :: AES128) k) instance Cipher AES192 where cipherName _ = "AES192" cipherKeySize _ = KeySizeFixed 24- cipherInit k = AES192 `fmap` initAES k+ cipherInit k = AES192 <$> (initAES =<< validateKeySize (undefined :: AES192) k) instance Cipher AES256 where cipherName _ = "AES256" cipherKeySize _ = KeySizeFixed 32- cipherInit k = AES256 `fmap` initAES k+ cipherInit k = AES256 <$> (initAES =<< validateKeySize (undefined :: AES256) k) + #define INSTANCE_BLOCKCIPHER(CSTR) \ instance BlockCipher CSTR where \ { blockSize _ = 16 \@@ -55,6 +57,7 @@ ; ctrCombine (CSTR aes) (IV iv) = encryptCTR aes (IV iv) \ ; aeadInit AEAD_GCM (CSTR aes) iv = CryptoPassed $ AEAD (gcmMode aes) (gcmInit aes iv) \ ; aeadInit AEAD_OCB (CSTR aes) iv = CryptoPassed $ AEAD (ocbMode aes) (ocbInit aes iv) \+ ; aeadInit (AEAD_CCM n m l) (CSTR aes) iv = AEAD (ccmMode aes) <$> ccmInit aes iv n m l \ ; aeadInit _ _ _ = CryptoFailed CryptoError_AEADModeNotSupported \ }; \ instance BlockCipher128 CSTR where \
Crypto/Cipher/AES/Primitive.hs view
@@ -11,39 +11,46 @@ -- module Crypto.Cipher.AES.Primitive (- -- * block cipher data types+ -- * Block cipher data types AES -- * Authenticated encryption block cipher types , AESGCM , AESOCB - -- * creation+ -- * Creation , initAES - -- * misc+ -- * Miscellanea , genCTR , genCounter - -- * encryption+ -- * Encryption , encryptECB , encryptCBC , encryptCTR , encryptXTS - -- * decryption+ -- * Decryption , decryptECB , decryptCBC , decryptCTR , decryptXTS - -- * incremental GCM+ -- * CTR with 32-bit wrapping+ , combineC32++ -- * Incremental GCM , gcmMode , gcmInit - -- * incremental OCB+ -- * Incremental OCB , ocbMode , ocbInit++ -- * CCM+ , ccmMode+ , ccmInit ) where import Data.Word@@ -73,6 +80,7 @@ ctrCombine = encryptCTR aeadInit AEAD_GCM aes iv = CryptoPassed $ AEAD (gcmMode aes) (gcmInit aes iv) aeadInit AEAD_OCB aes iv = CryptoPassed $ AEAD (ocbMode aes) (ocbInit aes iv)+ aeadInit (AEAD_CCM n m l) aes iv = AEAD (ccmMode aes) <$> ccmInit aes iv n m l aeadInit _ _ _ = CryptoFailed CryptoError_AEADModeNotSupported instance BlockCipher128 AES where xtsEncrypt = encryptXTS@@ -96,7 +104,16 @@ , aeadImplFinalize = ocbFinish aes } +-- | Create an AES AEAD implementation for CCM+ccmMode :: AES -> AEADModeImpl AESCCM+ccmMode aes = AEADModeImpl+ { aeadImplAppendHeader = ccmAppendAAD aes+ , aeadImplEncrypt = ccmEncrypt aes+ , aeadImplDecrypt = ccmDecrypt aes+ , aeadImplFinalize = ccmFinish aes+ } + -- | AES Context (pre-processed key) newtype AES = AES ScrubbedBytes deriving (NFData)@@ -109,12 +126,19 @@ newtype AESOCB = AESOCB ScrubbedBytes deriving (NFData) +-- | AESCCM State+newtype AESCCM = AESCCM ScrubbedBytes+ deriving (NFData)+ sizeGCM :: Int-sizeGCM = 80+sizeGCM = 320 sizeOCB :: Int sizeOCB = 160 +sizeCCM :: Int+sizeCCM = 80+ keyToPtr :: AES -> (Ptr AES -> IO a) -> IO a keyToPtr (AES b) f = withByteArray b (f . castPtr) @@ -152,6 +176,13 @@ a <- withByteArray newSt $ \gcmStPtr -> f (castPtr gcmStPtr) aesPtr return (a, AESOCB newSt) +withCCMKeyAndCopySt :: AES -> AESCCM -> (Ptr AESCCM -> Ptr AES -> IO a) -> IO (a, AESCCM)+withCCMKeyAndCopySt aes (AESCCM ccmSt) f =+ keyToPtr aes $ \aesPtr -> do+ newSt <- B.copy ccmSt (\_ -> return ())+ a <- withByteArray newSt $ \ccmStPtr -> f (castPtr ccmStPtr) aesPtr+ return (a, AESCCM newSt)+ -- | Initialize a new context with a key -- -- Key needs to be of length 16, 24 or 32 bytes. Any other values will return failure@@ -289,6 +320,21 @@ -> ba -- ^ output decrypted decryptXTS = doXTS c_aes_decrypt_xts +-- | encrypt/decrypt using Counter mode (32-bit wrapping used in AES-GCM-SIV)+{-# NOINLINE combineC32 #-}+combineC32 :: ByteArray ba+ => AES -- ^ AES Context+ -> IV AES -- ^ initial vector of AES block size (usually representing a 128 bit integer)+ -> ba -- ^ plaintext input+ -> ba -- ^ ciphertext output+combineC32 ctx iv input+ | len <= 0 = B.empty+ | B.length iv /= 16 = error $ "AES error: IV length must be block size (16). Its length is: " ++ show (B.length iv)+ | otherwise = B.allocAndFreeze len doEncrypt+ where doEncrypt o = withKeyAndIV ctx iv $ \k v -> withByteArray input $ \i ->+ c_aes_encrypt_c32 (castPtr o) k v i (fromIntegral len)+ len = B.length input+ {-# INLINE doECB #-} doECB :: ByteArray ba => (Ptr b -> Ptr AES -> CString -> CUInt -> IO ())@@ -447,6 +493,78 @@ where computeTag = B.allocAndFreeze 16 $ \t -> withOCBKeyAndCopySt ctx ocb (c_aes_ocb_finish (castPtr t)) >> return () +ccmGetM :: CCM_M -> Int+ccmGetL :: CCM_L -> Int+ccmGetM m = case m of+ CCM_M4 -> 4+ CCM_M6 -> 6+ CCM_M8 -> 8+ CCM_M10 -> 10+ CCM_M12 -> 12+ CCM_M14 -> 14+ CCM_M16 -> 16++ccmGetL l = case l of+ CCM_L2 -> 2+ CCM_L3 -> 3+ CCM_L4 -> 4++-- | initialize a ccm context+{-# NOINLINE ccmInit #-}+ccmInit :: ByteArrayAccess iv => AES -> iv -> Int -> CCM_M -> CCM_L -> CryptoFailable AESCCM+ccmInit ctx iv n m l+ | 15 - li /= B.length iv = CryptoFailed CryptoError_IvSizeInvalid+ | otherwise = unsafeDoIO $ do+ sm <- B.alloc sizeCCM $ \ccmStPtr ->+ withKeyAndIV ctx iv $ \k v ->+ c_aes_ccm_init (castPtr ccmStPtr) k v (fromIntegral $ B.length iv) (fromIntegral n) (fromIntegral mi) (fromIntegral li)+ return $ CryptoPassed (AESCCM sm)+ where+ mi = ccmGetM m+ li = ccmGetL l++-- | append data which is only going to be authenticated to the CCM context.+--+-- needs to happen after initialization and before appending encryption/decryption data.+{-# NOINLINE ccmAppendAAD #-}+ccmAppendAAD :: ByteArrayAccess aad => AES -> AESCCM -> aad -> AESCCM+ccmAppendAAD ctx ccm input = unsafeDoIO $ snd <$> withCCMKeyAndCopySt ctx ccm doAppend+ where doAppend ccmStPtr aesPtr =+ withByteArray input $ \i -> c_aes_ccm_aad ccmStPtr aesPtr i (fromIntegral $ B.length input)++-- | append data to encrypt and append to the CCM context+--+-- the bytearray needs to be a multiple of AES block size, unless it's the last call to this function.+-- needs to happen after AAD appending, or after initialization if no AAD data.+{-# NOINLINE ccmEncrypt #-}+ccmEncrypt :: ByteArray ba => AES -> AESCCM -> ba -> (ba, AESCCM)+ccmEncrypt ctx ccm input = unsafeDoIO $ withCCMKeyAndCopySt ctx ccm cbcmacAndIv+ where len = B.length input+ cbcmacAndIv ccmStPtr aesPtr =+ B.alloc len $ \o ->+ withByteArray input $ \i ->+ c_aes_ccm_encrypt (castPtr o) ccmStPtr aesPtr i (fromIntegral len)++-- | append data to decrypt and append to the CCM context+--+-- the bytearray needs to be a multiple of AES block size, unless it's the last call to this function.+-- needs to happen after AAD appending, or after initialization if no AAD data.+{-# NOINLINE ccmDecrypt #-}+ccmDecrypt :: ByteArray ba => AES -> AESCCM -> ba -> (ba, AESCCM)+ccmDecrypt ctx ccm input = unsafeDoIO $ withCCMKeyAndCopySt ctx ccm cbcmacAndIv+ where len = B.length input+ cbcmacAndIv ccmStPtr aesPtr =+ B.alloc len $ \o ->+ withByteArray input $ \i ->+ c_aes_ccm_decrypt (castPtr o) ccmStPtr aesPtr i (fromIntegral len)++-- | Generate the Tag from CCM context+{-# NOINLINE ccmFinish #-}+ccmFinish :: AES -> AESCCM -> Int -> AuthTag+ccmFinish ctx ccm taglen = AuthTag $ B.take taglen computeTag+ where computeTag = B.allocAndFreeze 16 $ \t ->+ withCCMKeyAndCopySt ctx ccm (c_aes_ccm_finish (castPtr t)) >> return ()+ ------------------------------------------------------------------------ foreign import ccall "cryptonite_aes.h cryptonite_aes_initkey" c_aes_init :: Ptr AES -> CString -> CUInt -> IO ()@@ -478,6 +596,9 @@ foreign import ccall "cryptonite_aes.h cryptonite_aes_encrypt_ctr" c_aes_encrypt_ctr :: CString -> Ptr AES -> Ptr Word8 -> CString -> CUInt -> IO () +foreign import ccall "cryptonite_aes.h cryptonite_aes_encrypt_c32"+ c_aes_encrypt_c32 :: CString -> Ptr AES -> Ptr Word8 -> CString -> CUInt -> IO ()+ foreign import ccall "cryptonite_aes.h cryptonite_aes_gcm_init" c_aes_gcm_init :: Ptr AESGCM -> Ptr AES -> Ptr Word8 -> CUInt -> IO () @@ -508,3 +629,17 @@ foreign import ccall "cryptonite_aes.h cryptonite_aes_ocb_finish" c_aes_ocb_finish :: CString -> Ptr AESOCB -> Ptr AES -> IO () +foreign import ccall "cryptonite_aes.h cryptonite_aes_ccm_init"+ c_aes_ccm_init :: Ptr AESCCM -> Ptr AES -> Ptr Word8 -> CUInt -> CUInt -> CInt -> CInt -> IO ()++foreign import ccall "cryptonite_aes.h cryptonite_aes_ccm_aad"+ c_aes_ccm_aad :: Ptr AESCCM -> Ptr AES -> CString -> CUInt -> IO ()++foreign import ccall "cryptonite_aes.h cryptonite_aes_ccm_encrypt"+ c_aes_ccm_encrypt :: CString -> Ptr AESCCM -> Ptr AES -> CString -> CUInt -> IO ()++foreign import ccall "cryptonite_aes.h cryptonite_aes_ccm_decrypt"+ c_aes_ccm_decrypt :: CString -> Ptr AESCCM -> Ptr AES -> CString -> CUInt -> IO ()++foreign import ccall "cryptonite_aes.h cryptonite_aes_ccm_finish"+ c_aes_ccm_finish :: CString -> Ptr AESCCM -> Ptr AES -> IO ()
+ Crypto/Cipher/AESGCMSIV.hs view
@@ -0,0 +1,193 @@+-- |+-- Module : Crypto.Cipher.AESGCMSIV+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : experimental+-- Portability : unknown+--+-- Implementation of AES-GCM-SIV, an AEAD scheme with nonce misuse resistance+-- defined in <https://tools.ietf.org/html/rfc8452 RFC 8452>.+--+-- To achieve the nonce misuse-resistance property, encryption requires two+-- passes on the plaintext, hence no streaming API is provided. This AEAD+-- operates on complete inputs held in memory. For simplicity, the+-- implementation of decryption uses a similar pattern, with performance+-- penalty compared to an implementation which is able to merge both passes.+--+-- The specification allows inputs up to 2^36 bytes but this implementation+-- requires AAD and plaintext/ciphertext to be both smaller than 2^32 bytes.+{-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+module Crypto.Cipher.AESGCMSIV+ ( Nonce+ , nonce+ , generateNonce+ , encrypt+ , decrypt+ ) where++import Data.Bits+import Data.Word++import Foreign.C.Types+import Foreign.C.String+import Foreign.Ptr (Ptr, plusPtr)+import Foreign.Storable (peekElemOff, poke, pokeElemOff)++import Data.ByteArray+import qualified Data.ByteArray as B+import Data.Memory.Endian (toLE)+import Data.Memory.PtrMethods (memXor)++import Crypto.Cipher.AES.Primitive+import Crypto.Cipher.Types+import Crypto.Error+import Crypto.Internal.Compat (unsafeDoIO)+import Crypto.Random+++-- 12-byte nonces++-- | Nonce value for AES-GCM-SIV, always 12 bytes.+newtype Nonce = Nonce Bytes deriving (Show, Eq, ByteArrayAccess)++-- | Nonce smart constructor. Accepts only 12-byte inputs.+nonce :: ByteArrayAccess iv => iv -> CryptoFailable Nonce+nonce iv+ | B.length iv == 12 = CryptoPassed (Nonce $ B.convert iv)+ | otherwise = CryptoFailed CryptoError_IvSizeInvalid++-- | Generate a random nonce for use with AES-GCM-SIV.+generateNonce :: MonadRandom m => m Nonce+generateNonce = Nonce <$> getRandomBytes 12+++-- POLYVAL (mutable context)++newtype Polyval = Polyval Bytes++polyvalInit :: ScrubbedBytes -> IO Polyval+polyvalInit h = Polyval <$> doInit+ where doInit = B.alloc 272 $ \pctx -> B.withByteArray h $ \ph ->+ c_aes_polyval_init pctx ph++polyvalUpdate :: ByteArrayAccess ba => Polyval -> ba -> IO ()+polyvalUpdate (Polyval ctx) bs = B.withByteArray ctx $ \pctx ->+ B.withByteArray bs $ \pbs -> c_aes_polyval_update pctx pbs sz+ where sz = fromIntegral (B.length bs)++polyvalFinalize :: Polyval -> IO ScrubbedBytes+polyvalFinalize (Polyval ctx) = B.alloc 16 $ \dst ->+ B.withByteArray ctx $ \pctx -> c_aes_polyval_finalize pctx dst++foreign import ccall unsafe "cryptonite_aes.h cryptonite_aes_polyval_init"+ c_aes_polyval_init :: Ptr Polyval -> CString -> IO ()++foreign import ccall "cryptonite_aes.h cryptonite_aes_polyval_update"+ c_aes_polyval_update :: Ptr Polyval -> CString -> CUInt -> IO ()++foreign import ccall unsafe "cryptonite_aes.h cryptonite_aes_polyval_finalize"+ c_aes_polyval_finalize :: Ptr Polyval -> CString -> IO ()+++-- Key Generation++le32iv :: Word32 -> Nonce -> Bytes+le32iv n (Nonce iv) = B.allocAndFreeze 16 $ \ptr -> do+ poke ptr (toLE n)+ copyByteArrayToPtr iv (ptr `plusPtr` 4)++deriveKeys :: BlockCipher128 aes => aes -> Nonce -> (ScrubbedBytes, AES)+deriveKeys aes iv =+ case cipherKeySize aes of+ KeySizeFixed sz | sz `mod` 8 == 0 ->+ let mak = buildKey [0 .. 1]+ key = buildKey [2 .. fromIntegral (sz `div` 8) + 1]+ mek = throwCryptoError (cipherInit key)+ in (mak, mek)+ _ -> error "AESGCMSIV: invalid cipher"+ where+ idx n = ecbEncrypt aes (le32iv n iv) `takeView` 8+ buildKey = B.concat . map idx+++-- Encryption and decryption++lengthInvalid :: ByteArrayAccess ba => ba -> Bool+lengthInvalid bs+ | finiteBitSize len > 32 = len >= 1 `unsafeShiftL` 32+ | otherwise = False+ where len = B.length bs++-- | AEAD encryption with the specified key and nonce. The key must be given+-- as an initialized 'Crypto.Cipher.AES.AES128' or 'Crypto.Cipher.AES.AES256'+-- cipher.+--+-- Lengths of additional data and plaintext must be less than 2^32 bytes,+-- otherwise an exception is thrown.+encrypt :: (BlockCipher128 aes, ByteArrayAccess aad, ByteArray ba)+ => aes -> Nonce -> aad -> ba -> (AuthTag, ba)+encrypt aes iv aad plaintext+ | lengthInvalid aad = error "AESGCMSIV: aad is too large"+ | lengthInvalid plaintext = error "AESGCMSIV: plaintext is too large"+ | otherwise = (AuthTag tag, ciphertext)+ where+ (mak, mek) = deriveKeys aes iv+ ss = getSs mak aad plaintext+ tag = buildTag mek ss iv+ ciphertext = combineC32 mek (transformTag tag) plaintext++-- | AEAD decryption with the specified key and nonce. The key must be given+-- as an initialized 'Crypto.Cipher.AES.AES128' or 'Crypto.Cipher.AES.AES256'+-- cipher.+--+-- Lengths of additional data and ciphertext must be less than 2^32 bytes,+-- otherwise an exception is thrown.+decrypt :: (BlockCipher128 aes, ByteArrayAccess aad, ByteArray ba)+ => aes -> Nonce -> aad -> ba -> AuthTag -> Maybe ba+decrypt aes iv aad ciphertext (AuthTag tag)+ | lengthInvalid aad = error "AESGCMSIV: aad is too large"+ | lengthInvalid ciphertext = error "AESGCMSIV: ciphertext is too large"+ | tag `constEq` buildTag mek ss iv = Just plaintext+ | otherwise = Nothing+ where+ (mak, mek) = deriveKeys aes iv+ ss = getSs mak aad plaintext+ plaintext = combineC32 mek (transformTag tag) ciphertext++-- Calculate S_s = POLYVAL(mak, X_1, X_2, ...).+getSs :: (ByteArrayAccess aad, ByteArrayAccess ba)+ => ScrubbedBytes -> aad -> ba -> ScrubbedBytes+getSs mak aad plaintext = unsafeDoIO $ do+ ctx <- polyvalInit mak+ polyvalUpdate ctx aad+ polyvalUpdate ctx plaintext+ polyvalUpdate ctx (lb :: Bytes) -- the "length block"+ polyvalFinalize ctx+ where+ lb = B.allocAndFreeze 16 $ \ptr -> do+ pokeElemOff ptr 0 (toLE64 $ B.length aad)+ pokeElemOff ptr 1 (toLE64 $ B.length plaintext)+ toLE64 x = toLE (fromIntegral x * 8 :: Word64)++-- XOR the first 12 bytes of S_s with the nonce and clear the most significant+-- bit of the last byte.+tagInput :: ScrubbedBytes -> Nonce -> Bytes+tagInput ss (Nonce iv) =+ B.copyAndFreeze ss $ \ptr ->+ B.withByteArray iv $ \ivPtr -> do+ memXor ptr ptr ivPtr 12+ b <- peekElemOff ptr 15+ pokeElemOff ptr 15 (b .&. (0x7f :: Word8))++-- Encrypt the result with AES using the message-encryption key to produce the+-- tag.+buildTag :: BlockCipher128 aes => aes -> ScrubbedBytes -> Nonce -> Bytes+buildTag mek ss iv = ecbEncrypt mek (tagInput ss iv)++-- The initial counter block is the tag with the most significant bit of the+-- last byte set to one.+transformTag :: Bytes -> IV AES+transformTag tag = toIV $ B.copyAndFreeze tag $ \ptr ->+ peekElemOff ptr 15 >>= pokeElemOff ptr 15 . (.|. (0x80 :: Word8))+ where toIV bs = let Just iv = makeIV (bs :: Bytes) in iv
Crypto/Cipher/Blowfish/Box.hs view
@@ -5,15 +5,33 @@ -- Portability : Good {-# LANGUAGE MagicHash #-} module Crypto.Cipher.Blowfish.Box- ( createKeySchedule+ ( KeySchedule(..)+ , createKeySchedule+ , copyKeySchedule ) where -import Crypto.Internal.WordArray (mutableArray32FromAddrBE, MutableArray32)+import Crypto.Internal.WordArray (MutableArray32,+ mutableArray32FromAddrBE,+ mutableArrayRead32,+ mutableArrayWrite32) +newtype KeySchedule = KeySchedule MutableArray32++-- | Copy the state of one key schedule into the other.+-- The first parameter is the destination and the second the source.+copyKeySchedule :: KeySchedule -> KeySchedule -> IO ()+copyKeySchedule (KeySchedule dst) (KeySchedule src) = loop 0+ where+ loop 1042 = return ()+ loop i = do+ w32 <-mutableArrayRead32 src i+ mutableArrayWrite32 dst i w32+ loop (i + 1)+ -- | Create a key schedule mutable array of the pbox followed by -- all the sboxes.-createKeySchedule :: IO MutableArray32-createKeySchedule = mutableArray32FromAddrBE 1042 "\+createKeySchedule :: IO KeySchedule+createKeySchedule = KeySchedule `fmap` mutableArray32FromAddrBE 1042 "\ \\x24\x3f\x6a\x88\x85\xa3\x08\xd3\x13\x19\x8a\x2e\x03\x70\x73\x44\ \\xa4\x09\x38\x22\x29\x9f\x31\xd0\x08\x2e\xfa\x98\xec\x4e\x6c\x89\ \\x45\x28\x21\xe6\x38\xd0\x13\x77\xbe\x54\x66\xcf\x34\xe9\x0c\x6c\
Crypto/Cipher/Blowfish/Primitive.hs view
@@ -5,197 +5,254 @@ -- Portability : Good -- Rewritten by Vincent Hanquez (c) 2015+-- Lars Petersen (c) 2018 -- -- Original code: -- Crypto.Cipher.Blowfish.Primitive, copyright (c) 2012 Stijn van Drongelen -- based on: BlowfishAux.hs (C) 2002 HardCore SoftWare, Doug Hoyte -- (as found in Crypto-4.2.4)-+{-# LANGUAGE BangPatterns #-} module Crypto.Cipher.Blowfish.Primitive ( Context , initBlowfish , encrypt , decrypt- , eksBlowfish+ , KeySchedule+ , createKeySchedule+ , freezeKeySchedule+ , expandKey+ , expandKeyWithSalt+ , cipherBlockMutable ) where -import Control.Monad (when)+import Control.Monad (when) import Data.Bits import Data.Memory.Endian import Data.Word +import Crypto.Cipher.Blowfish.Box import Crypto.Error+import Crypto.Internal.ByteArray (ByteArray, ByteArrayAccess)+import qualified Crypto.Internal.ByteArray as B import Crypto.Internal.Compat import Crypto.Internal.Imports-import Crypto.Internal.ByteArray (ByteArrayAccess, ByteArray, Bytes)-import qualified Crypto.Internal.ByteArray as B-import Crypto.Internal.Words import Crypto.Internal.WordArray-import Crypto.Cipher.Blowfish.Box --- | variable keyed blowfish state-data Context = BF (Int -> Word32) -- p- (Int -> Word32) -- sbox0- (Int -> Word32) -- sbox1- (Int -> Word32) -- sbox2- (Int -> Word32) -- sbox2+newtype Context = Context Array32 instance NFData Context where- rnf (BF p a b c d) = p `seq` a `seq` b `seq` c `seq` d `seq` ()+ rnf a = a `seq` () +-- | Initialize a new Blowfish context from a key.+--+-- key needs to be between 0 and 448 bits.+initBlowfish :: ByteArrayAccess key => key -> CryptoFailable Context+initBlowfish key+ | B.length key > (448 `div` 8) = CryptoFailed CryptoError_KeySizeInvalid+ | otherwise = CryptoPassed $ unsafeDoIO $ do+ ks <- createKeySchedule+ expandKey ks key+ freezeKeySchedule ks++-- | Get an immutable Blowfish context by freezing a mutable key schedule.+freezeKeySchedule :: KeySchedule -> IO Context+freezeKeySchedule (KeySchedule ma) = Context `fmap` mutableArray32Freeze ma++expandKey :: (ByteArrayAccess key) => KeySchedule -> key -> IO ()+expandKey ks@(KeySchedule ma) key = do+ when (B.length key > 0) $ iterKeyStream key 0 0 $ \i l r a0 a1 cont-> do+ mutableArrayWriteXor32 ma i l+ mutableArrayWriteXor32 ma (i + 1) r+ when (i + 2 < 18) (cont a0 a1)+ loop 0 0 0+ where+ loop i l r = do+ n <- cipherBlockMutable ks (fromIntegral l `shiftL` 32 .|. fromIntegral r)+ let nl = fromIntegral (n `shiftR` 32)+ nr = fromIntegral (n .&. 0xffffffff)+ mutableArrayWrite32 ma i nl+ mutableArrayWrite32 ma (i + 1) nr+ when (i < 18 + 1024) (loop (i + 2) nl nr)++expandKeyWithSalt :: (ByteArrayAccess key, ByteArrayAccess salt)+ => KeySchedule+ -> key+ -> salt+ -> IO ()+expandKeyWithSalt ks key salt+ | B.length salt == 16 = expandKeyWithSalt128 ks key (fromBE $ B.toW64BE salt 0) (fromBE $ B.toW64BE salt 8)+ | otherwise = expandKeyWithSaltAny ks key salt++expandKeyWithSaltAny :: (ByteArrayAccess key, ByteArrayAccess salt)+ => KeySchedule -- ^ The key schedule+ -> key -- ^ The key+ -> salt -- ^ The salt+ -> IO ()+expandKeyWithSaltAny ks@(KeySchedule ma) key salt = do+ when (B.length key > 0) $ iterKeyStream key 0 0 $ \i l r a0 a1 cont-> do+ mutableArrayWriteXor32 ma i l+ mutableArrayWriteXor32 ma (i + 1) r+ when (i + 2 < 18) (cont a0 a1)+ -- Go through the entire key schedule overwriting the P-Array and S-Boxes+ when (B.length salt > 0) $ iterKeyStream salt 0 0 $ \i l r a0 a1 cont-> do+ let l' = xor l a0+ let r' = xor r a1+ n <- cipherBlockMutable ks (fromIntegral l' `shiftL` 32 .|. fromIntegral r')+ let nl = fromIntegral (n `shiftR` 32)+ nr = fromIntegral (n .&. 0xffffffff)+ mutableArrayWrite32 ma i nl+ mutableArrayWrite32 ma (i + 1) nr+ when (i + 2 < 18 + 1024) (cont nl nr)++expandKeyWithSalt128 :: ByteArrayAccess ba+ => KeySchedule -- ^ The key schedule+ -> ba -- ^ The key+ -> Word64 -- ^ First word of the salt+ -> Word64 -- ^ Second word of the salt+ -> IO ()+expandKeyWithSalt128 ks@(KeySchedule ma) key salt1 salt2 = do+ when (B.length key > 0) $ iterKeyStream key 0 0 $ \i l r a0 a1 cont-> do+ mutableArrayWriteXor32 ma i l+ mutableArrayWriteXor32 ma (i + 1) r+ when (i + 2 < 18) (cont a0 a1)+ -- Go through the entire key schedule overwriting the P-Array and S-Boxes+ loop 0 salt1 salt1 salt2+ where+ loop i input slt1 slt2+ | i == 1042 = return ()+ | otherwise = do+ n <- cipherBlockMutable ks input+ let nl = fromIntegral (n `shiftR` 32)+ nr = fromIntegral (n .&. 0xffffffff)+ mutableArrayWrite32 ma i nl+ mutableArrayWrite32 ma (i+1) nr+ loop (i+2) (n `xor` slt2) slt2 slt1+ -- | Encrypt blocks -- -- Input need to be a multiple of 8 bytes encrypt :: ByteArray ba => Context -> ba -> ba-encrypt = cipher+encrypt ctx ba+ | B.length ba == 0 = B.empty+ | B.length ba `mod` 8 /= 0 = error "invalid data length"+ | otherwise = B.mapAsWord64 (cipherBlock ctx False) ba -- | Decrypt blocks -- -- Input need to be a multiple of 8 bytes decrypt :: ByteArray ba => Context -> ba -> ba-decrypt = cipher . decryptContext--decryptContext :: Context -> Context-decryptContext (BF p s0 s1 s2 s3) = BF (\i -> p (17-i)) s0 s1 s2 s3--cipher :: ByteArray ba => Context -> ba -> ba-cipher ctx b- | B.length b == 0 = B.empty- | B.length b `mod` 8 /= 0 = error "invalid data length"- | otherwise = B.mapAsWord64 (coreCrypto ctx) b---- | Initialize a new Blowfish context from a key.------ key needs to be between 0 and 448 bits.-initBlowfish :: ByteArrayAccess key => key -> CryptoFailable Context-initBlowfish key- | len > (448 `div` 8) = CryptoFailed CryptoError_KeySizeInvalid- | otherwise = CryptoPassed $ makeKeySchedule key (Nothing :: Maybe (Bytes, Int))- where len = B.length key+decrypt ctx ba+ | B.length ba == 0 = B.empty+ | B.length ba `mod` 8 /= 0 = error "invalid data length"+ | otherwise = B.mapAsWord64 (cipherBlock ctx True) ba --- | The BCrypt "expensive key schedule" version of blowfish.+-- | Encrypt or decrypt a single block of 64 bits. ----- Salt must be 128 bits--- Cost must be between 4 and 31 inclusive--- See <https://www.usenix.org/conference/1999-usenix-annual-technical-conference/future-adaptable-password-scheme>-eksBlowfish :: (ByteArrayAccess salt, ByteArrayAccess password) => Int -> salt -> password -> Context-eksBlowfish cost salt key- | B.length salt /= 16 = error "bcrypt salt must be 16 bytes"- | otherwise = makeKeySchedule key (Just (salt, cost))--coreCrypto :: Context -> Word64 -> Word64-coreCrypto (BF p s0 s1 s2 s3) input = doRound input 0- where- -- transform the input over 16 rounds+-- The inverse argument decides whether to encrypt or decrypt.+cipherBlock :: Context -> Bool -> Word64 -> Word64+cipherBlock (Context ar) inverse input = doRound input 0+ where+ -- | Transform the input over 16 rounds doRound :: Word64 -> Int -> Word64- doRound i roundIndex+ doRound !i roundIndex | roundIndex == 16 = let final = (fromIntegral (p 16) `shiftL` 32) .|. fromIntegral (p 17) in rotateL (i `xor` final) 32 | otherwise =- let newr = fromIntegral (i `shiftR` 32) `xor` (p roundIndex)- newi = ((i `shiftL` 32) `xor` (f newr)) .|. (fromIntegral newr)+ let newr = fromIntegral (i `shiftR` 32) `xor` p roundIndex+ newi = ((i `shiftL` 32) `xor` f newr) .|. fromIntegral newr in doRound newi (roundIndex+1)++ -- | The Blowfish Feistel function F f :: Word32 -> Word64- f t = let a = s0 (fromIntegral $ (t `shiftR` 24) .&. 0xff)- b = s1 (fromIntegral $ (t `shiftR` 16) .&. 0xff)- c = s2 (fromIntegral $ (t `shiftR` 8) .&. 0xff)- d = s3 (fromIntegral $ t .&. 0xff)+ f t = let a = s0 (0xff .&. (t `shiftR` 24))+ b = s1 (0xff .&. (t `shiftR` 16))+ c = s2 (0xff .&. (t `shiftR` 8))+ d = s3 (0xff .&. t) in fromIntegral (((a + b) `xor` c) + d) `shiftL` 32 ---- | Create a key schedule for either plain Blowfish or the BCrypt "EKS" version--- For the expensive version, the salt and cost factor are supplied. Salt must be--- a 128-bit byte array.------ The standard case is just a single key expansion with the salt set to zero.-makeKeySchedule :: (ByteArrayAccess key, ByteArrayAccess salt) => key-> Maybe (salt, Int) -> Context-makeKeySchedule keyBytes saltCost =- let v = unsafeDoIO $ do- mv <- createKeySchedule- case saltCost of- -- Standard blowfish- Nothing -> expandKey mv 0 0 keyBytes- -- The expensive case- Just (s, cost) -> do- let (salt1, salt2) = splitSalt s- expandKey mv salt1 salt2 keyBytes- forM_ [1..2^cost :: Int] $ \_ -> do- expandKey mv 0 0 keyBytes- expandKey mv 0 0 s- mutableArray32Freeze mv- in BF (\i -> arrayRead32 v i)- (\i -> arrayRead32 v (s0+i))- (\i -> arrayRead32 v (s1+i))- (\i -> arrayRead32 v (s2+i))- (\i -> arrayRead32 v (s3+i))- where- splitSalt s = (fromBE (B.toW64BE s 0), fromBE (B.toW64BE s 8))-- -- Indices of the S-Box arrays, each containing 256 32-bit words- -- The first 18 words contain the P-Array of subkeys- s0 = 18- s1 = 274- s2 = 530- s3 = 786+ -- | S-Box arrays, each containing 256 32-bit words+ -- The first 18 words contain the P-Array of subkeys+ s0, s1, s2, s3 :: Word32 -> Word32+ s0 i = arrayRead32 ar (fromIntegral i + 18)+ s1 i = arrayRead32 ar (fromIntegral i + 274)+ s2 i = arrayRead32 ar (fromIntegral i + 530)+ s3 i = arrayRead32 ar (fromIntegral i + 786)+ p :: Int -> Word32+ p i | inverse = arrayRead32 ar (17 - i)+ | otherwise = arrayRead32 ar i -expandKey :: ByteArrayAccess ba- => MutableArray32 -- ^ The key schedule- -> Word64 -- ^ First word of the salt- -> Word64 -- ^ Second word of the salt- -> ba -- ^ The key- -> IO ()-expandKey mv salt1 salt2 key = do- when (len > 0) $ forM_ [0..17] $ \i -> do- let a = B.index key ((i * 4 + 0) `mod` len)- b = B.index key ((i * 4 + 1) `mod` len)- c = B.index key ((i * 4 + 2) `mod` len)- d = B.index key ((i * 4 + 3) `mod` len)- k = (fromIntegral a `shiftL` 24) .|.- (fromIntegral b `shiftL` 16) .|.- (fromIntegral c `shiftL` 8) .|.- (fromIntegral d)- mutableArrayWriteXor32 mv i k- prepare mv- return ()- where- len = B.length key+-- | Blowfish encrypt a Word using the current state of the key schedule+cipherBlockMutable :: KeySchedule -> Word64 -> IO Word64+cipherBlockMutable (KeySchedule ma) input = doRound input 0+ where+ -- | Transform the input over 16 rounds+ doRound !i roundIndex+ | roundIndex == 16 = do+ pVal1 <- mutableArrayRead32 ma 16+ pVal2 <- mutableArrayRead32 ma 17+ let final = (fromIntegral pVal1 `shiftL` 32) .|. fromIntegral pVal2+ return $ rotateL (i `xor` final) 32+ | otherwise = do+ pVal <- mutableArrayRead32 ma roundIndex+ let newr = fromIntegral (i `shiftR` 32) `xor` pVal+ newr' <- f newr+ let newi = ((i `shiftL` 32) `xor` newr') .|. fromIntegral newr+ doRound newi (roundIndex+1) - -- | Go through the entire key schedule overwriting the P-Array and S-Boxes- prepare mctx = loop 0 salt1 salt1 salt2- where loop i input slt1 slt2- | i == 1042 = return ()- | otherwise = do- ninput <- coreCryptoMutable input- let (nl, nr) = w64to32 ninput- mutableArrayWrite32 mctx i nl- mutableArrayWrite32 mctx (i+1) nr- loop (i+2) (ninput `xor` slt2) slt2 slt1+ -- | The Blowfish Feistel function F+ f :: Word32 -> IO Word64+ f t = do+ a <- s0 (0xff .&. (t `shiftR` 24))+ b <- s1 (0xff .&. (t `shiftR` 16))+ c <- s2 (0xff .&. (t `shiftR` 8))+ d <- s3 (0xff .&. t)+ return (fromIntegral (((a + b) `xor` c) + d) `shiftL` 32) - -- | Blowfish encrypt a Word using the current state of the key schedule- coreCryptoMutable :: Word64 -> IO Word64- coreCryptoMutable input = doRound input 0- where doRound i roundIndex- | roundIndex == 16 = do- pVal1 <- mutableArrayRead32 mctx 16- pVal2 <- mutableArrayRead32 mctx 17- let final = (fromIntegral pVal1 `shiftL` 32) .|. fromIntegral pVal2- return $ rotateL (i `xor` final) 32- | otherwise = do- pVal <- mutableArrayRead32 mctx roundIndex- let newr = fromIntegral (i `shiftR` 32) `xor` pVal- newr' <- f newr- let newi = ((i `shiftL` 32) `xor` newr') .|. (fromIntegral newr)- doRound newi (roundIndex+1)+ -- | S-Box arrays, each containing 256 32-bit words+ -- The first 18 words contain the P-Array of subkeys+ s0, s1, s2, s3 :: Word32 -> IO Word32+ s0 i = mutableArrayRead32 ma (fromIntegral i + 18)+ s1 i = mutableArrayRead32 ma (fromIntegral i + 274)+ s2 i = mutableArrayRead32 ma (fromIntegral i + 530)+ s3 i = mutableArrayRead32 ma (fromIntegral i + 786) - -- The Blowfish Feistel function F- f :: Word32 -> IO Word64- f t = do a <- mutableArrayRead32 mctx (s0 + fromIntegral ((t `shiftR` 24) .&. 0xff))- b <- mutableArrayRead32 mctx (s1 + fromIntegral ((t `shiftR` 16) .&. 0xff))- c <- mutableArrayRead32 mctx (s2 + fromIntegral ((t `shiftR` 8) .&. 0xff))- d <- mutableArrayRead32 mctx (s3 + fromIntegral (t .&. 0xff))- return (fromIntegral (((a + b) `xor` c) + d) `shiftL` 32)- where s0 = 18- s1 = 274- s2 = 530- s3 = 786+iterKeyStream :: (ByteArrayAccess x)+ => x+ -> Word32+ -> Word32+ -> (Int -> Word32 -> Word32 -> Word32 -> Word32 -> (Word32 -> Word32 -> IO ()) -> IO ())+ -> IO ()+iterKeyStream x a0 a1 g = f 0 0 a0 a1+ where+ len = B.length x+ -- Avoiding the modulo operation when interating over the ring+ -- buffer is assumed to be more efficient here. All other+ -- implementations do this, too. The branch prediction shall prefer+ -- the branch with the increment.+ n j = if j + 1 >= len then 0 else j + 1+ f i j0 b0 b1 = g i l r b0 b1 (f (i + 2) j8)+ where+ j1 = n j0+ j2 = n j1+ j3 = n j2+ j4 = n j3+ j5 = n j4+ j6 = n j5+ j7 = n j6+ j8 = n j7+ x0 = fromIntegral (B.index x j0)+ x1 = fromIntegral (B.index x j1)+ x2 = fromIntegral (B.index x j2)+ x3 = fromIntegral (B.index x j3)+ x4 = fromIntegral (B.index x j4)+ x5 = fromIntegral (B.index x j5)+ x6 = fromIntegral (B.index x j6)+ x7 = fromIntegral (B.index x j7)+ l = shiftL x0 24 .|. shiftL x1 16 .|. shiftL x2 8 .|. x3+ r = shiftL x4 24 .|. shiftL x5 16 .|. shiftL x6 8 .|. x7+{-# INLINE iterKeyStream #-}+-- Benchmarking shows that GHC considers this function too big to inline+-- although forcing inlining causes an actual improvement.+-- It is assumed that all function calls (especially the continuation)+-- collapse into a tight loop after inlining.
+ Crypto/Cipher/CAST5.hs view
@@ -0,0 +1,43 @@+-- |+-- Module : Crypto.Cipher.CAST5+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : stable+-- Portability : good+--+module Crypto.Cipher.CAST5+ ( CAST5+ ) where++import Crypto.Error+import Crypto.Cipher.Types+import Crypto.Cipher.CAST5.Primitive+import Crypto.Internal.ByteArray (ByteArrayAccess)+import qualified Crypto.Internal.ByteArray as B++-- | CAST5 block cipher (also known as CAST-128). Key is between+-- 40 and 128 bits.+newtype CAST5 = CAST5 Key++instance Cipher CAST5 where+ cipherName _ = "CAST5"+ cipherKeySize _ = KeySizeRange 5 16+ cipherInit = initCAST5++instance BlockCipher CAST5 where+ blockSize _ = 8+ ecbEncrypt (CAST5 k) = B.mapAsWord64 (encrypt k)+ ecbDecrypt (CAST5 k) = B.mapAsWord64 (decrypt k)++initCAST5 :: ByteArrayAccess key => key -> CryptoFailable CAST5+initCAST5 bs+ | len < 5 = CryptoFailed CryptoError_KeySizeInvalid+ | len < 16 = CryptoPassed (CAST5 $ buildKey short padded)+ | len == 16 = CryptoPassed (CAST5 $ buildKey False bs)+ | otherwise = CryptoFailed CryptoError_KeySizeInvalid+ where+ len = B.length bs+ short = len <= 10++ padded :: B.Bytes+ padded = B.convert bs `B.append` B.replicate (16 - len) 0
+ Crypto/Cipher/CAST5/Primitive.hs view
@@ -0,0 +1,573 @@+{-# LANGUAGE MagicHash #-}++-----------------------------------------------------------------------------+-- |+-- Module : Crypto.Cipher.CAST5.Primitive+-- License : BSD-style+--+-- Haskell implementation of the CAST-128 Encryption Algorithm+--+-----------------------------------------------------------------------------+++module Crypto.Cipher.CAST5.Primitive+ ( encrypt+ , decrypt+ , Key()+ , buildKey+ ) where++import Control.Monad (void, (>=>))++import Data.Bits+import Data.Memory.Endian+import Data.Word++import Crypto.Internal.ByteArray (ByteArrayAccess)+import qualified Crypto.Internal.ByteArray as B+import Crypto.Internal.WordArray+++-- Data Types++data P = P {-# UNPACK #-} !Word32 -- left word+ {-# UNPACK #-} !Word32 -- right word++data Q = Q {-# UNPACK #-} !Word32 {-# UNPACK #-} !Word32+ {-# UNPACK #-} !Word32 {-# UNPACK #-} !Word32++-- | All subkeys for 12 or 16 rounds+data Key = K12 {-# UNPACK #-} !Array32 -- [ km1, kr1, km2, kr2, ..., km12, kr12 ]+ | K16 {-# UNPACK #-} !Array32 -- [ km1, kr1, km2, kr2, ..., km16, kr16 ]+++-- Big-endian Transformations++decomp64 :: Word64 -> P+decomp64 x = P (fromIntegral (x `shiftR` 32)) (fromIntegral x)++comp64 :: P -> Word64+comp64 (P l r) = (fromIntegral l `shiftL` 32) .|. fromIntegral r++decomp32 :: Word32 -> (Word8, Word8, Word8, Word8)+decomp32 x =+ let a = fromIntegral (x `shiftR` 24)+ b = fromIntegral (x `shiftR` 16)+ c = fromIntegral (x `shiftR` 8)+ d = fromIntegral x+ in (a, b, c, d)+++-- Encryption++-- | Encrypts a block using the specified key+encrypt :: Key -> Word64 -> Word64+encrypt k = comp64 . cast_enc k . decomp64++cast_enc :: Key -> P -> P+cast_enc (K12 a) (P l0 r0) = P r12 r11+ where+ r1 = type1 a 0 l0 r0+ r2 = type2 a 2 r0 r1+ r3 = type3 a 4 r1 r2+ r4 = type1 a 6 r2 r3+ r5 = type2 a 8 r3 r4+ r6 = type3 a 10 r4 r5+ r7 = type1 a 12 r5 r6+ r8 = type2 a 14 r6 r7+ r9 = type3 a 16 r7 r8+ r10 = type1 a 18 r8 r9+ r11 = type2 a 20 r9 r10+ r12 = type3 a 22 r10 r11++cast_enc (K16 a) p = P r16 r15+ where+ P r12 r11 = cast_enc (K12 a) p++ r13 = type1 a 24 r11 r12+ r14 = type2 a 26 r12 r13+ r15 = type3 a 28 r13 r14+ r16 = type1 a 30 r14 r15++-- Decryption++-- | Decrypts a block using the specified key+decrypt :: Key -> Word64 -> Word64+decrypt k = comp64 . cast_dec k . decomp64++cast_dec :: Key -> P -> P+cast_dec (K12 a) (P r12 r11) = P l0 r0+ where+ r10 = type3 a 22 r12 r11+ r9 = type2 a 20 r11 r10+ r8 = type1 a 18 r10 r9+ r7 = type3 a 16 r9 r8+ r6 = type2 a 14 r8 r7+ r5 = type1 a 12 r7 r6+ r4 = type3 a 10 r6 r5+ r3 = type2 a 8 r5 r4+ r2 = type1 a 6 r4 r3+ r1 = type3 a 4 r3 r2+ r0 = type2 a 2 r2 r1+ l0 = type1 a 0 r1 r0++cast_dec (K16 a) (P r16 r15) = cast_dec (K12 a) (P r12 r11)+ where+ r14 = type1 a 30 r16 r15+ r13 = type3 a 28 r15 r14+ r12 = type2 a 26 r14 r13+ r11 = type1 a 24 r13 r12+++-- Non-Identical Rounds++type1 :: Array32 -> Int -> Word32 -> Word32 -> Word32+type1 arr idx l r =+ let km = arrayRead32 arr idx+ kr = arrayRead32 arr (idx + 1)+ j = (km + r) `rotateL` fromIntegral kr+ (ja, jb, jc, jd) = decomp32 j+ in l `xor` (((sbox_s1 ja `xor` sbox_s2 jb) - sbox_s3 jc) + sbox_s4 jd)++type2 :: Array32 -> Int -> Word32 -> Word32 -> Word32+type2 arr idx l r =+ let km = arrayRead32 arr idx+ kr = arrayRead32 arr (idx + 1)+ j = (km `xor` r) `rotateL` fromIntegral kr+ (ja, jb, jc, jd) = decomp32 j+ in l `xor` (((sbox_s1 ja - sbox_s2 jb) + sbox_s3 jc) `xor` sbox_s4 jd)++type3 :: Array32 -> Int -> Word32 -> Word32 -> Word32+type3 arr idx l r =+ let km = arrayRead32 arr idx+ kr = arrayRead32 arr (idx + 1)+ j = (km - r) `rotateL` fromIntegral kr+ (ja, jb, jc, jd) = decomp32 j+ in l `xor` (((sbox_s1 ja + sbox_s2 jb) `xor` sbox_s3 jc) - sbox_s4 jd)+++-- Key Schedule++-- | Precompute "masking" and "rotation" subkeys+buildKey :: ByteArrayAccess key+ => Bool -- ^ @True@ for short keys that only need 12 rounds+ -> key -- ^ Input key padded to 16 bytes+ -> Key -- ^ Output data structure+buildKey isShort key =+ let P x0123 x4567 = decomp64 (fromBE $ B.toW64BE key 0)+ P x89AB xCDEF = decomp64 (fromBE $ B.toW64BE key 8)+ in keySchedule isShort (Q x0123 x4567 x89AB xCDEF)++keySchedule :: Bool -> Q -> Key+keySchedule isShort x+ | isShort = K12 $ allocArray32AndFreeze 24 $ \ma ->+ void (steps123 ma 0 x >>= skip4 >>= steps123 ma 1)++ | otherwise = K16 $ allocArray32AndFreeze 32 $ \ma ->+ void (steps123 ma 0 x >>= step4 ma 24 >>= steps123 ma 1 >>= step4 ma 25)++ where+ sbox_s56785 a b c d e = sbox_s5 a `xor` sbox_s6 b `xor` sbox_s7 c `xor` sbox_s8 d `xor` sbox_s5 e+ sbox_s56786 a b c d e = sbox_s5 a `xor` sbox_s6 b `xor` sbox_s7 c `xor` sbox_s8 d `xor` sbox_s6 e+ sbox_s56787 a b c d e = sbox_s5 a `xor` sbox_s6 b `xor` sbox_s7 c `xor` sbox_s8 d `xor` sbox_s7 e+ sbox_s56788 a b c d e = sbox_s5 a `xor` sbox_s6 b `xor` sbox_s7 c `xor` sbox_s8 d `xor` sbox_s8 e++ steps123 ma off = step1 ma off >=> step2 ma (off + 8) >=> step3 ma (off + 16)++ step1 :: MutableArray32 -> Int -> Q -> IO Q+ step1 ma off (Q x0123 x4567 x89AB xCDEF) = do+ let (x8, x9, xA, xB) = decomp32 x89AB+ (xC, xD, xE, xF) = decomp32 xCDEF++ z0123 = x0123 `xor` sbox_s56787 xD xF xC xE x8+ z4567 = x89AB `xor` sbox_s56788 z0 z2 z1 z3 xA+ z89AB = xCDEF `xor` sbox_s56785 z7 z6 z5 z4 x9+ zCDEF = x4567 `xor` sbox_s56786 zA z9 zB z8 xB++ (z0, z1, z2, z3) = decomp32 z0123+ (z4, z5, z6, z7) = decomp32 z4567+ (z8, z9, zA, zB) = decomp32 z89AB+ (zC, zD, zE, zF) = decomp32 zCDEF++ mutableArrayWrite32 ma (off + 0) $ sbox_s56785 z8 z9 z7 z6 z2+ mutableArrayWrite32 ma (off + 2) $ sbox_s56786 zA zB z5 z4 z6+ mutableArrayWrite32 ma (off + 4) $ sbox_s56787 zC zD z3 z2 z9+ mutableArrayWrite32 ma (off + 6) $ sbox_s56788 zE zF z1 z0 zC+ return (Q z0123 z4567 z89AB zCDEF)++ step2 :: MutableArray32 -> Int -> Q -> IO Q+ step2 ma off (Q z0123 z4567 z89AB zCDEF) = do+ let (z0, z1, z2, z3) = decomp32 z0123+ (z4, z5, z6, z7) = decomp32 z4567++ x0123 = z89AB `xor` sbox_s56787 z5 z7 z4 z6 z0+ x4567 = z0123 `xor` sbox_s56788 x0 x2 x1 x3 z2+ x89AB = z4567 `xor` sbox_s56785 x7 x6 x5 x4 z1+ xCDEF = zCDEF `xor` sbox_s56786 xA x9 xB x8 z3++ (x0, x1, x2, x3) = decomp32 x0123+ (x4, x5, x6, x7) = decomp32 x4567+ (x8, x9, xA, xB) = decomp32 x89AB+ (xC, xD, xE, xF) = decomp32 xCDEF++ mutableArrayWrite32 ma (off + 0) $ sbox_s56785 x3 x2 xC xD x8+ mutableArrayWrite32 ma (off + 2) $ sbox_s56786 x1 x0 xE xF xD+ mutableArrayWrite32 ma (off + 4) $ sbox_s56787 x7 x6 x8 x9 x3+ mutableArrayWrite32 ma (off + 6) $ sbox_s56788 x5 x4 xA xB x7+ return (Q x0123 x4567 x89AB xCDEF)++ step3 :: MutableArray32 -> Int -> Q -> IO Q+ step3 ma off (Q x0123 x4567 x89AB xCDEF) = do+ let (x8, x9, xA, xB) = decomp32 x89AB+ (xC, xD, xE, xF) = decomp32 xCDEF++ z0123 = x0123 `xor` sbox_s56787 xD xF xC xE x8+ z4567 = x89AB `xor` sbox_s56788 z0 z2 z1 z3 xA+ z89AB = xCDEF `xor` sbox_s56785 z7 z6 z5 z4 x9+ zCDEF = x4567 `xor` sbox_s56786 zA z9 zB z8 xB++ (z0, z1, z2, z3) = decomp32 z0123+ (z4, z5, z6, z7) = decomp32 z4567+ (z8, z9, zA, zB) = decomp32 z89AB+ (zC, zD, zE, zF) = decomp32 zCDEF++ mutableArrayWrite32 ma (off + 0) $ sbox_s56785 z3 z2 zC zD z9+ mutableArrayWrite32 ma (off + 2) $ sbox_s56786 z1 z0 zE zF zC+ mutableArrayWrite32 ma (off + 4) $ sbox_s56787 z7 z6 z8 z9 z2+ mutableArrayWrite32 ma (off + 6) $ sbox_s56788 z5 z4 zA zB z6+ return (Q z0123 z4567 z89AB zCDEF)++ step4 :: MutableArray32 -> Int -> Q -> IO Q+ step4 ma off (Q z0123 z4567 z89AB zCDEF) = do+ let (z0, z1, z2, z3) = decomp32 z0123+ (z4, z5, z6, z7) = decomp32 z4567++ x0123 = z89AB `xor` sbox_s56787 z5 z7 z4 z6 z0+ x4567 = z0123 `xor` sbox_s56788 x0 x2 x1 x3 z2+ x89AB = z4567 `xor` sbox_s56785 x7 x6 x5 x4 z1+ xCDEF = zCDEF `xor` sbox_s56786 xA x9 xB x8 z3++ (x0, x1, x2, x3) = decomp32 x0123+ (x4, x5, x6, x7) = decomp32 x4567+ (x8, x9, xA, xB) = decomp32 x89AB+ (xC, xD, xE, xF) = decomp32 xCDEF++ mutableArrayWrite32 ma (off + 0) $ sbox_s56785 x8 x9 x7 x6 x3+ mutableArrayWrite32 ma (off + 2) $ sbox_s56786 xA xB x5 x4 x7+ mutableArrayWrite32 ma (off + 4) $ sbox_s56787 xC xD x3 x2 x8+ mutableArrayWrite32 ma (off + 6) $ sbox_s56788 xE xF x1 x0 xD+ return (Q x0123 x4567 x89AB xCDEF)++ skip4 :: Q -> IO Q+ skip4 (Q z0123 z4567 z89AB zCDEF) = do+ let (z0, z1, z2, z3) = decomp32 z0123+ (z4, z5, z6, z7) = decomp32 z4567++ x0123 = z89AB `xor` sbox_s56787 z5 z7 z4 z6 z0+ x4567 = z0123 `xor` sbox_s56788 x0 x2 x1 x3 z2+ x89AB = z4567 `xor` sbox_s56785 x7 x6 x5 x4 z1+ xCDEF = zCDEF `xor` sbox_s56786 xA x9 xB x8 z3++ (x0, x1, x2, x3) = decomp32 x0123+ (x4, x5, x6, x7) = decomp32 x4567+ (x8, x9, xA, xB) = decomp32 x89AB++ return (Q x0123 x4567 x89AB xCDEF)++-- S-Boxes++sbox_s1 :: Word8 -> Word32+sbox_s1 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\x30\xfb\x40\xd4\x9f\xa0\xff\x0b\x6b\xec\xcd\x2f\x3f\x25\x8c\x7a\x1e\x21\x3f\x2f\x9c\x00\x4d\xd3\x60\x03\xe5\x40\xcf\x9f\xc9\x49\+ \\xbf\xd4\xaf\x27\x88\xbb\xbd\xb5\xe2\x03\x40\x90\x98\xd0\x96\x75\x6e\x63\xa0\xe0\x15\xc3\x61\xd2\xc2\xe7\x66\x1d\x22\xd4\xff\x8e\+ 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\\xb1\xb6\xab\x8a\xc7\x13\x58\xdd\x63\x85\xc5\x45\x11\x0f\x93\x5d\x57\x53\x8a\xd5\x6a\x39\x04\x93\xe6\x3d\x37\xe0\x2a\x54\xf6\xb3\+ \\x3a\x78\x7d\x5f\x62\x76\xa0\xb5\x19\xa6\xfc\xdf\x7a\x42\x20\x6a\x29\xf9\xd4\xd5\xf6\x1b\x18\x91\xbb\x72\x27\x5e\xaa\x50\x81\x67\+ \\x38\x90\x10\x91\xc6\xb5\x05\xeb\x84\xc7\xcb\x8c\x2a\xd7\x5a\x0f\x87\x4a\x14\x27\xa2\xd1\x93\x6b\x2a\xd2\x86\xaf\xaa\x56\xd2\x91\+ \\xd7\x89\x43\x60\x42\x5c\x75\x0d\x93\xb3\x9e\x26\x18\x71\x84\xc9\x6c\x00\xb3\x2d\x73\xe2\xbb\x14\xa0\xbe\xbc\x3c\x54\x62\x37\x79\+ \\x64\x45\x9e\xab\x3f\x32\x8b\x82\x77\x18\xcf\x82\x59\xa2\xce\xa6\x04\xee\x00\x2e\x89\xfe\x78\xe6\x3f\xab\x09\x50\x32\x5f\xf6\xc2\+ \\x81\x38\x3f\x05\x69\x63\xc5\xc8\x76\xcb\x5a\xd6\xd4\x99\x74\xc9\xca\x18\x0d\xcf\x38\x07\x82\xd5\xc7\xfa\x5c\xf6\x8a\xc3\x15\x11\+ \\x35\xe7\x9e\x13\x47\xda\x91\xd0\xf4\x0f\x90\x86\xa7\xe2\x41\x9e\x31\x36\x62\x41\x05\x1e\xf4\x95\xaa\x57\x3b\x04\x4a\x80\x5d\x8d\+ \\x54\x83\x00\xd0\x00\x32\x2a\x3c\xbf\x64\xcd\xdf\xba\x57\xa6\x8e\x75\xc6\x37\x2b\x50\xaf\xd3\x41\xa7\xc1\x32\x75\x91\x5a\x0b\xf5\+ \\x6b\x54\xbf\xab\x2b\x0b\x14\x26\xab\x4c\xc9\xd7\x44\x9c\xcd\x82\xf7\xfb\xf2\x65\xab\x85\xc5\xf3\x1b\x55\xdb\x94\xaa\xd4\xe3\x24\+ \\xcf\xa4\xbd\x3f\x2d\xea\xa3\xe2\x9e\x20\x4d\x02\xc8\xbd\x25\xac\xea\xdf\x55\xb3\xd5\xbd\x9e\x98\xe3\x12\x31\xb2\x2a\xd5\xad\x6c\+ \\x95\x43\x29\xde\xad\xbe\x45\x28\xd8\x71\x0f\x69\xaa\x51\xc9\x0f\xaa\x78\x6b\xf6\x22\x51\x3f\x1e\xaa\x51\xa7\x9b\x2a\xd3\x44\xcc\+ \\x7b\x5a\x41\xf0\xd3\x7c\xfb\xad\x1b\x06\x95\x05\x41\xec\xe4\x91\xb4\xc3\x32\xe6\x03\x22\x68\xd4\xc9\x60\x0a\xcc\xce\x38\x7e\x6d\+ \\xbf\x6b\xb1\x6c\x6a\x70\xfb\x78\x0d\x03\xd9\xc9\xd4\xdf\x39\xde\xe0\x10\x63\xda\x47\x36\xf4\x64\x5a\xd3\x28\xd8\xb3\x47\xcc\x96\+ \\x75\xbb\x0f\xc3\x98\x51\x1b\xfb\x4f\xfb\xcc\x35\xb5\x8b\xcf\x6a\xe1\x1f\x0a\xbc\xbf\xc5\xfe\x4a\xa7\x0a\xec\x10\xac\x39\x57\x0a\+ \\x3f\x04\x44\x2f\x61\x88\xb1\x53\xe0\x39\x7a\x2e\x57\x27\xcb\x79\x9c\xeb\x41\x8f\x1c\xac\xd6\x8d\x2a\xd3\x7c\x96\x01\x75\xcb\x9d\+ \\xc6\x9d\xff\x09\xc7\x5b\x65\xf0\xd9\xdb\x40\xd8\xec\x0e\x77\x79\x47\x44\xea\xd4\xb1\x1c\x32\x74\xdd\x24\xcb\x9e\x7e\x1c\x54\xbd\+ \\xf0\x11\x44\xf9\xd2\x24\x0e\xb1\x96\x75\xb3\xfd\xa3\xac\x37\x55\xd4\x7c\x27\xaf\x51\xc8\x5f\x4d\x56\x90\x75\x96\xa5\xbb\x15\xe6\+ \\x58\x03\x04\xf0\xca\x04\x2c\xf1\x01\x1a\x37\xea\x8d\xbf\xaa\xdb\x35\xba\x3e\x4a\x35\x26\xff\xa0\xc3\x7b\x4d\x09\xbc\x30\x6e\xd9\+ \\x98\xa5\x26\x66\x56\x48\xf7\x25\xff\x5e\x56\x9d\x0c\xed\x63\xd0\x7c\x63\xb2\xcf\x70\x0b\x45\xe1\xd5\xea\x50\xf1\x85\xa9\x28\x72\+ \\xaf\x1f\xbd\xa7\xd4\x23\x48\x70\xa7\x87\x0b\xf3\x2d\x3b\x4d\x79\x42\xe0\x41\x98\x0c\xd0\xed\xe7\x26\x47\x0d\xb8\xf8\x81\x81\x4c\+ \\x47\x4d\x6a\xd7\x7c\x0c\x5e\x5c\xd1\x23\x19\x59\x38\x1b\x72\x98\xf5\xd2\xf4\xdb\xab\x83\x86\x53\x6e\x2f\x1e\x23\x83\x71\x9c\x9e\+ \\xbd\x91\xe0\x46\x9a\x56\x45\x6e\xdc\x39\x20\x0c\x20\xc8\xc5\x71\x96\x2b\xda\x1c\xe1\xe6\x96\xff\xb1\x41\xab\x08\x7c\xca\x89\xb9\+ \\x1a\x69\xe7\x83\x02\xcc\x48\x43\xa2\xf7\xc5\x79\x42\x9e\xf4\x7d\x42\x7b\x16\x9c\x5a\xc9\xf0\x49\xdd\x8f\x0f\x00\x5c\x81\x65\xbf"#++sbox_s2 :: Word8 -> Word32+sbox_s2 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\x1f\x20\x10\x94\xef\x0b\xa7\x5b\x69\xe3\xcf\x7e\x39\x3f\x43\x80\xfe\x61\xcf\x7a\xee\xc5\x20\x7a\x55\x88\x9c\x94\x72\xfc\x06\x51\+ \\xad\xa7\xef\x79\x4e\x1d\x72\x35\xd5\x5a\x63\xce\xde\x04\x36\xba\x99\xc4\x30\xef\x5f\x0c\x07\x94\x18\xdc\xdb\x7d\xa1\xd6\xef\xf3\+ \\xa0\xb5\x2f\x7b\x59\xe8\x36\x05\xee\x15\xb0\x94\xe9\xff\xd9\x09\xdc\x44\x00\x86\xef\x94\x44\x59\xba\x83\xcc\xb3\xe0\xc3\xcd\xfb\+ \\xd1\xda\x41\x81\x3b\x09\x2a\xb1\xf9\x97\xf1\xc1\xa5\xe6\xcf\x7b\x01\x42\x0d\xdb\xe4\xe7\xef\x5b\x25\xa1\xff\x41\xe1\x80\xf8\x06\+ \\x1f\xc4\x10\x80\x17\x9b\xee\x7a\xd3\x7a\xc6\xa9\xfe\x58\x30\xa4\x98\xde\x8b\x7f\x77\xe8\x3f\x4e\x79\x92\x92\x69\x24\xfa\x9f\x7b\+ \\xe1\x13\xc8\x5b\xac\xc4\x00\x83\xd7\x50\x35\x25\xf7\xea\x61\x5f\x62\x14\x31\x54\x0d\x55\x4b\x63\x5d\x68\x11\x21\xc8\x66\xc3\x59\+ \\x3d\x63\xcf\x73\xce\xe2\x34\xc0\xd4\xd8\x7e\x87\x5c\x67\x2b\x21\x07\x1f\x61\x81\x39\xf7\x62\x7f\x36\x1e\x30\x84\xe4\xeb\x57\x3b\+ \\x60\x2f\x64\xa4\xd6\x3a\xcd\x9c\x1b\xbc\x46\x35\x9e\x81\x03\x2d\x27\x01\xf5\x0c\x99\x84\x7a\xb4\xa0\xe3\xdf\x79\xba\x6c\xf3\x8c\+ \\x10\x84\x30\x94\x25\x37\xa9\x5e\xf4\x6f\x6f\xfe\xa1\xff\x3b\x1f\x20\x8c\xfb\x6a\x8f\x45\x8c\x74\xd9\xe0\xa2\x27\x4e\xc7\x3a\x34\+ \\xfc\x88\x4f\x69\x3e\x4d\xe8\xdf\xef\x0e\x00\x88\x35\x59\x64\x8d\x8a\x45\x38\x8c\x1d\x80\x43\x66\x72\x1d\x9b\xfd\xa5\x86\x84\xbb\+ \\xe8\x25\x63\x33\x84\x4e\x82\x12\x12\x8d\x80\x98\xfe\xd3\x3f\xb4\xce\x28\x0a\xe1\x27\xe1\x9b\xa5\xd5\xa6\xc2\x52\xe4\x97\x54\xbd\+ \\xc5\xd6\x55\xdd\xeb\x66\x70\x64\x77\x84\x0b\x4d\xa1\xb6\xa8\x01\x84\xdb\x26\xa9\xe0\xb5\x67\x14\x21\xf0\x43\xb7\xe5\xd0\x58\x60\+ \\x54\xf0\x30\x84\x06\x6f\xf4\x72\xa3\x1a\xa1\x53\xda\xdc\x47\x55\xb5\x62\x5d\xbf\x68\x56\x1b\xe6\x83\xca\x6b\x94\x2d\x6e\xd2\x3b\+ \\xec\xcf\x01\xdb\xa6\xd3\xd0\xba\xb6\x80\x3d\x5c\xaf\x77\xa7\x09\x33\xb4\xa3\x4c\x39\x7b\xc8\xd6\x5e\xe2\x2b\x95\x5f\x0e\x53\x04\+ \\x81\xed\x6f\x61\x20\xe7\x43\x64\xb4\x5e\x13\x78\xde\x18\x63\x9b\x88\x1c\xa1\x22\xb9\x67\x26\xd1\x80\x49\xa7\xe8\x22\xb7\xda\x7b\+ \\x5e\x55\x2d\x25\x52\x72\xd2\x37\x79\xd2\x95\x1c\xc6\x0d\x89\x4c\x48\x8c\xb4\x02\x1b\xa4\xfe\x5b\xa4\xb0\x9f\x6b\x1c\xa8\x15\xcf\+ \\xa2\x0c\x30\x05\x88\x71\xdf\x63\xb9\xde\x2f\xcb\x0c\xc6\xc9\xe9\x0b\xee\xff\x53\xe3\x21\x45\x17\xb4\x54\x28\x35\x9f\x63\x29\x3c\+ \\xee\x41\xe7\x29\x6e\x1d\x2d\x7c\x50\x04\x52\x86\x1e\x66\x85\xf3\xf3\x34\x01\xc6\x30\xa2\x2c\x95\x31\xa7\x08\x50\x60\x93\x0f\x13\+ \\x73\xf9\x84\x17\xa1\x26\x98\x59\xec\x64\x5c\x44\x52\xc8\x77\xa9\xcd\xff\x33\xa6\xa0\x2b\x17\x41\x7c\xba\xd9\xa2\x21\x80\x03\x6f\+ \\x50\xd9\x9c\x08\xcb\x3f\x48\x61\xc2\x6b\xd7\x65\x64\xa3\xf6\xab\x80\x34\x26\x76\x25\xa7\x5e\x7b\xe4\xe6\xd1\xfc\x20\xc7\x10\xe6\+ \\xcd\xf0\xb6\x80\x17\x84\x4d\x3b\x31\xee\xf8\x4d\x7e\x08\x24\xe4\x2c\xcb\x49\xeb\x84\x6a\x3b\xae\x8f\xf7\x78\x88\xee\x5d\x60\xf6\+ \\x7a\xf7\x56\x73\x2f\xdd\x5c\xdb\xa1\x16\x31\xc1\x30\xf6\x6f\x43\xb3\xfa\xec\x54\x15\x7f\xd7\xfa\xef\x85\x79\xcc\xd1\x52\xde\x58\+ \\xdb\x2f\xfd\x5e\x8f\x32\xce\x19\x30\x6a\xf9\x7a\x02\xf0\x3e\xf8\x99\x31\x9a\xd5\xc2\x42\xfa\x0f\xa7\xe3\xeb\xb0\xc6\x8e\x49\x06\+ \\xb8\xda\x23\x0c\x80\x82\x30\x28\xdc\xde\xf3\xc8\xd3\x5f\xb1\x71\x08\x8a\x1b\xc8\xbe\xc0\xc5\x60\x61\xa3\xc9\xe8\xbc\xa8\xf5\x4d\+ \\xc7\x2f\xef\xfa\x22\x82\x2e\x99\x82\xc5\x70\xb4\xd8\xd9\x4e\x89\x8b\x1c\x34\xbc\x30\x1e\x16\xe6\x27\x3b\xe9\x79\xb0\xff\xea\xa6\+ \\x61\xd9\xb8\xc6\x00\xb2\x48\x69\xb7\xff\xce\x3f\x08\xdc\x28\x3b\x43\xda\xf6\x5a\xf7\xe1\x97\x98\x76\x19\xb7\x2f\x8f\x1c\x9b\xa4\+ \\xdc\x86\x37\xa0\x16\xa7\xd3\xb1\x9f\xc3\x93\xb7\xa7\x13\x6e\xeb\xc6\xbc\xc6\x3e\x1a\x51\x37\x42\xef\x68\x28\xbc\x52\x03\x65\xd6\+ \\x2d\x6a\x77\xab\x35\x27\xed\x4b\x82\x1f\xd2\x16\x09\x5c\x6e\x2e\xdb\x92\xf2\xfb\x5e\xea\x29\xcb\x14\x58\x92\xf5\x91\x58\x4f\x7f\+ \\x54\x83\x69\x7b\x26\x67\xa8\xcc\x85\x19\x60\x48\x8c\x4b\xac\xea\x83\x38\x60\xd4\x0d\x23\xe0\xf9\x6c\x38\x7e\x8a\x0a\xe6\xd2\x49\+ \\xb2\x84\x60\x0c\xd8\x35\x73\x1d\xdc\xb1\xc6\x47\xac\x4c\x56\xea\x3e\xbd\x81\xb3\x23\x0e\xab\xb0\x64\x38\xbc\x87\xf0\xb5\xb1\xfa\+ \\x8f\x5e\xa2\xb3\xfc\x18\x46\x42\x0a\x03\x6b\x7a\x4f\xb0\x89\xbd\x64\x9d\xa5\x89\xa3\x45\x41\x5e\x5c\x03\x83\x23\x3e\x5d\x3b\xb9\+ \\x43\xd7\x95\x72\x7e\x6d\xd0\x7c\x06\xdf\xdf\x1e\x6c\x6c\xc4\xef\x71\x60\xa5\x39\x73\xbf\xbe\x70\x83\x87\x76\x05\x45\x23\xec\xf1"#++sbox_s3 :: Word8 -> Word32+sbox_s3 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\x8d\xef\xc2\x40\x25\xfa\x5d\x9f\xeb\x90\x3d\xbf\xe8\x10\xc9\x07\x47\x60\x7f\xff\x36\x9f\xe4\x4b\x8c\x1f\xc6\x44\xae\xce\xca\x90\+ \\xbe\xb1\xf9\xbf\xee\xfb\xca\xea\xe8\xcf\x19\x50\x51\xdf\x07\xae\x92\x0e\x88\x06\xf0\xad\x05\x48\xe1\x3c\x8d\x83\x92\x70\x10\xd5\+ \\x11\x10\x7d\x9f\x07\x64\x7d\xb9\xb2\xe3\xe4\xd4\x3d\x4f\x28\x5e\xb9\xaf\xa8\x20\xfa\xde\x82\xe0\xa0\x67\x26\x8b\x82\x72\x79\x2e\+ \\x55\x3f\xb2\xc0\x48\x9a\xe2\x2b\xd4\xef\x97\x94\x12\x5e\x3f\xbc\x21\xff\xfc\xee\x82\x5b\x1b\xfd\x92\x55\xc5\xed\x12\x57\xa2\x40\+ \\x4e\x1a\x83\x02\xba\xe0\x7f\xff\x52\x82\x46\xe7\x8e\x57\x14\x0e\x33\x73\xf7\xbf\x8c\x9f\x81\x88\xa6\xfc\x4e\xe8\xc9\x82\xb5\xa5\+ \\xa8\xc0\x1d\xb7\x57\x9f\xc2\x64\x67\x09\x4f\x31\xf2\xbd\x3f\x5f\x40\xff\xf7\xc1\x1f\xb7\x8d\xfc\x8e\x6b\xd2\xc1\x43\x7b\xe5\x9b\+ \\x99\xb0\x3d\xbf\xb5\xdb\xc6\x4b\x63\x8d\xc0\xe6\x55\x81\x9d\x99\xa1\x97\xc8\x1c\x4a\x01\x2d\x6e\xc5\x88\x4a\x28\xcc\xc3\x6f\x71\+ \\xb8\x43\xc2\x13\x6c\x07\x43\xf1\x83\x09\x89\x3c\x0f\xed\xdd\x5f\x2f\x7f\xe8\x50\xd7\xc0\x7f\x7e\x02\x50\x7f\xbf\x5a\xfb\x9a\x04\+ \\xa7\x47\xd2\xd0\x16\x51\x19\x2e\xaf\x70\xbf\x3e\x58\xc3\x13\x80\x5f\x98\x30\x2e\x72\x7c\xc3\xc4\x0a\x0f\xb4\x02\x0f\x7f\xef\x82\+ \\x8c\x96\xfd\xad\x5d\x2c\x2a\xae\x8e\xe9\x9a\x49\x50\xda\x88\xb8\x84\x27\xf4\xa0\x1e\xac\x57\x90\x79\x6f\xb4\x49\x82\x52\xdc\x15\+ \\xef\xbd\x7d\x9b\xa6\x72\x59\x7d\xad\xa8\x40\xd8\x45\xf5\x45\x04\xfa\x5d\x74\x03\xe8\x3e\xc3\x05\x4f\x91\x75\x1a\x92\x56\x69\xc2\+ \\x23\xef\xe9\x41\xa9\x03\xf1\x2e\x60\x27\x0d\xf2\x02\x76\xe4\xb6\x94\xfd\x65\x74\x92\x79\x85\xb2\x82\x76\xdb\xcb\x02\x77\x81\x76\+ \\xf8\xaf\x91\x8d\x4e\x48\xf7\x9e\x8f\x61\x6d\xdf\xe2\x9d\x84\x0e\x84\x2f\x7d\x83\x34\x0c\xe5\xc8\x96\xbb\xb6\x82\x93\xb4\xb1\x48\+ \\xef\x30\x3c\xab\x98\x4f\xaf\x28\x77\x9f\xaf\x9b\x92\xdc\x56\x0d\x22\x4d\x1e\x20\x84\x37\xaa\x88\x7d\x29\xdc\x96\x27\x56\xd3\xdc\+ \\x8b\x90\x7c\xee\xb5\x1f\xd2\x40\xe7\xc0\x7c\xe3\xe5\x66\xb4\xa1\xc3\xe9\x61\x5e\x3c\xf8\x20\x9d\x60\x94\xd1\xe3\xcd\x9c\xa3\x41\+ \\x5c\x76\x46\x0e\x00\xea\x98\x3b\xd4\xd6\x78\x81\xfd\x47\x57\x2c\xf7\x6c\xed\xd9\xbd\xa8\x22\x9c\x12\x7d\xad\xaa\x43\x8a\x07\x4e\+ \\x1f\x97\xc0\x90\x08\x1b\xdb\x8a\x93\xa0\x7e\xbe\xb9\x38\xca\x15\x97\xb0\x3c\xff\x3d\xc2\xc0\xf8\x8d\x1a\xb2\xec\x64\x38\x0e\x51\+ \\x68\xcc\x7b\xfb\xd9\x0f\x27\x88\x12\x49\x01\x81\x5d\xe5\xff\xd4\xdd\x7e\xf8\x6a\x76\xa2\xe2\x14\xb9\xa4\x03\x68\x92\x5d\x95\x8f\+ \\x4b\x39\xff\xfa\xba\x39\xae\xe9\xa4\xff\xd3\x0b\xfa\xf7\x93\x3b\x6d\x49\x86\x23\x19\x3c\xbc\xfa\x27\x62\x75\x45\x82\x5c\xf4\x7a\+ \\x61\xbd\x8b\xa0\xd1\x1e\x42\xd1\xce\xad\x04\xf4\x12\x7e\xa3\x92\x10\x42\x8d\xb7\x82\x72\xa9\x72\x92\x70\xc4\xa8\x12\x7d\xe5\x0b\+ \\x28\x5b\xa1\xc8\x3c\x62\xf4\x4f\x35\xc0\xea\xa5\xe8\x05\xd2\x31\x42\x89\x29\xfb\xb4\xfc\xdf\x82\x4f\xb6\x6a\x53\x0e\x7d\xc1\x5b\+ \\x1f\x08\x1f\xab\x10\x86\x18\xae\xfc\xfd\x08\x6d\xf9\xff\x28\x89\x69\x4b\xcc\x11\x23\x6a\x5c\xae\x12\xde\xca\x4d\x2c\x3f\x8c\xc5\+ \\xd2\xd0\x2d\xfe\xf8\xef\x58\x96\xe4\xcf\x52\xda\x95\x15\x5b\x67\x49\x4a\x48\x8c\xb9\xb6\xa8\x0c\x5c\x8f\x82\xbc\x89\xd3\x6b\x45\+ \\x3a\x60\x94\x37\xec\x00\xc9\xa9\x44\x71\x52\x53\x0a\x87\x4b\x49\xd7\x73\xbc\x40\x7c\x34\x67\x1c\x02\x71\x7e\xf6\x4f\xeb\x55\x36\+ \\xa2\xd0\x2f\xff\xd2\xbf\x60\xc4\xd4\x3f\x03\xc0\x50\xb4\xef\x6d\x07\x47\x8c\xd1\x00\x6e\x18\x88\xa2\xe5\x3f\x55\xb9\xe6\xd4\xbc\+ \\xa2\x04\x80\x16\x97\x57\x38\x33\xd7\x20\x7d\x67\xde\x0f\x8f\x3d\x72\xf8\x7b\x33\xab\xcc\x4f\x33\x76\x88\xc5\x5d\x7b\x00\xa6\xb0\+ \\x94\x7b\x00\x01\x57\x00\x75\xd2\xf9\xbb\x88\xf8\x89\x42\x01\x9e\x42\x64\xa5\xff\x85\x63\x02\xe0\x72\xdb\xd9\x2b\xee\x97\x1b\x69\+ \\x6e\xa2\x2f\xde\x5f\x08\xae\x2b\xaf\x7a\x61\x6d\xe5\xc9\x87\x67\xcf\x1f\xeb\xd2\x61\xef\xc8\xc2\xf1\xac\x25\x71\xcc\x82\x39\xc2\+ \\x67\x21\x4c\xb8\xb1\xe5\x83\xd1\xb7\xdc\x3e\x62\x7f\x10\xbd\xce\xf9\x0a\x5c\x38\x0f\xf0\x44\x3d\x60\x6e\x6d\xc6\x60\x54\x3a\x49\+ \\x57\x27\xc1\x48\x2b\xe9\x8a\x1d\x8a\xb4\x17\x38\x20\xe1\xbe\x24\xaf\x96\xda\x0f\x68\x45\x84\x25\x99\x83\x3b\xe5\x60\x0d\x45\x7d\+ \\x28\x2f\x93\x50\x83\x34\xb3\x62\xd9\x1d\x11\x20\x2b\x6d\x8d\xa0\x64\x2b\x1e\x31\x9c\x30\x5a\x00\x52\xbc\xe6\x88\x1b\x03\x58\x8a\+ \\xf7\xba\xef\xd5\x41\x42\xed\x9c\xa4\x31\x5c\x11\x83\x32\x3e\xc5\xdf\xef\x46\x36\xa1\x33\xc5\x01\xe9\xd3\x53\x1c\xee\x35\x37\x83"#++sbox_s4 :: Word8 -> Word32+sbox_s4 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\x9d\xb3\x04\x20\x1f\xb6\xe9\xde\xa7\xbe\x7b\xef\xd2\x73\xa2\x98\x4a\x4f\x7b\xdb\x64\xad\x8c\x57\x85\x51\x04\x43\xfa\x02\x0e\xd1\+ \\x7e\x28\x7a\xff\xe6\x0f\xb6\x63\x09\x5f\x35\xa1\x79\xeb\xf1\x20\xfd\x05\x9d\x43\x64\x97\xb7\xb1\xf3\x64\x1f\x63\x24\x1e\x4a\xdf\+ \\x28\x14\x7f\x5f\x4f\xa2\xb8\xcd\xc9\x43\x00\x40\x0c\xc3\x22\x20\xfd\xd3\x0b\x30\xc0\xa5\x37\x4f\x1d\x2d\x00\xd9\x24\x14\x7b\x15\+ \\xee\x4d\x11\x1a\x0f\xca\x51\x67\x71\xff\x90\x4c\x2d\x19\x5f\xfe\x1a\x05\x64\x5f\x0c\x13\xfe\xfe\x08\x1b\x08\xca\x05\x17\x01\x21\+ \\x80\x53\x01\x00\xe8\x3e\x5e\xfe\xac\x9a\xf4\xf8\x7f\xe7\x27\x01\xd2\xb8\xee\x5f\x06\xdf\x42\x61\xbb\x9e\x9b\x8a\x72\x93\xea\x25\+ \\xce\x84\xff\xdf\xf5\x71\x88\x01\x3d\xd6\x4b\x04\xa2\x6f\x26\x3b\x7e\xd4\x84\x00\x54\x7e\xeb\xe6\x44\x6d\x4c\xa0\x6c\xf3\xd6\xf5\+ \\x26\x49\xab\xdf\xae\xa0\xc7\xf5\x36\x33\x8c\xc1\x50\x3f\x7e\x93\xd3\x77\x20\x61\x11\xb6\x38\xe1\x72\x50\x0e\x03\xf8\x0e\xb2\xbb\+ \\xab\xe0\x50\x2e\xec\x8d\x77\xde\x57\x97\x1e\x81\xe1\x4f\x67\x46\xc9\x33\x54\x00\x69\x20\x31\x8f\x08\x1d\xbb\x99\xff\xc3\x04\xa5\+ \\x4d\x35\x18\x05\x7f\x3d\x5c\xe3\xa6\xc8\x66\xc6\x5d\x5b\xcc\xa9\xda\xec\x6f\xea\x9f\x92\x6f\x91\x9f\x46\x22\x2f\x39\x91\x46\x7d\+ \\xa5\xbf\x6d\x8e\x11\x43\xc4\x4f\x43\x95\x83\x02\xd0\x21\x4e\xeb\x02\x20\x83\xb8\x3f\xb6\x18\x0c\x18\xf8\x93\x1e\x28\x16\x58\xe6\+ \\x26\x48\x6e\x3e\x8b\xd7\x8a\x70\x74\x77\xe4\xc1\xb5\x06\xe0\x7c\xf3\x2d\x0a\x25\x79\x09\x8b\x02\xe4\xea\xbb\x81\x28\x12\x3b\x23\+ \\x69\xde\xad\x38\x15\x74\xca\x16\xdf\x87\x1b\x62\x21\x1c\x40\xb7\xa5\x1a\x9e\xf9\x00\x14\x37\x7b\x04\x1e\x8a\xc8\x09\x11\x40\x03\+ \\xbd\x59\xe4\xd2\xe3\xd1\x56\xd5\x4f\xe8\x76\xd5\x2f\x91\xa3\x40\x55\x7b\xe8\xde\x00\xea\xe4\xa7\x0c\xe5\xc2\xec\x4d\xb4\xbb\xa6\+ \\xe7\x56\xbd\xff\xdd\x33\x69\xac\xec\x17\xb0\x35\x06\x57\x23\x27\x99\xaf\xc8\xb0\x56\xc8\xc3\x91\x6b\x65\x81\x1c\x5e\x14\x61\x19\+ \\x6e\x85\xcb\x75\xbe\x07\xc0\x02\xc2\x32\x55\x77\x89\x3f\xf4\xec\x5b\xbf\xc9\x2d\xd0\xec\x3b\x25\xb7\x80\x1a\xb7\x8d\x6d\x3b\x24\+ \\x20\xc7\x63\xef\xc3\x66\xa5\xfc\x9c\x38\x28\x80\x0a\xce\x32\x05\xaa\xc9\x54\x8a\xec\xa1\xd7\xc7\x04\x1a\xfa\x32\x1d\x16\x62\x5a\+ \\x67\x01\x90\x2c\x9b\x75\x7a\x54\x31\xd4\x77\xf7\x91\x26\xb0\x31\x36\xcc\x6f\xdb\xc7\x0b\x8b\x46\xd9\xe6\x6a\x48\x56\xe5\x5a\x79\+ \\x02\x6a\x4c\xeb\x52\x43\x7e\xff\x2f\x8f\x76\xb4\x0d\xf9\x80\xa5\x86\x74\xcd\xe3\xed\xda\x04\xeb\x17\xa9\xbe\x04\x2c\x18\xf4\xdf\+ \\xb7\x74\x7f\x9d\xab\x2a\xf7\xb4\xef\xc3\x4d\x20\x2e\x09\x6b\x7c\x17\x41\xa2\x54\xe5\xb6\xa0\x35\x21\x3d\x42\xf6\x2c\x1c\x7c\x26\+ \\x61\xc2\xf5\x0f\x65\x52\xda\xf9\xd2\xc2\x31\xf8\x25\x13\x0f\x69\xd8\x16\x7f\xa2\x04\x18\xf2\xc8\x00\x1a\x96\xa6\x0d\x15\x26\xab\+ \\x63\x31\x5c\x21\x5e\x0a\x72\xec\x49\xba\xfe\xfd\x18\x79\x08\xd9\x8d\x0d\xbd\x86\x31\x11\x70\xa7\x3e\x9b\x64\x0c\xcc\x3e\x10\xd7\+ \\xd5\xca\xd3\xb6\x0c\xae\xc3\x88\xf7\x30\x01\xe1\x6c\x72\x8a\xff\x71\xea\xe2\xa1\x1f\x9a\xf3\x6e\xcf\xcb\xd1\x2f\xc1\xde\x84\x17\+ \\xac\x07\xbe\x6b\xcb\x44\xa1\xd8\x8b\x9b\x0f\x56\x01\x39\x88\xc3\xb1\xc5\x2f\xca\xb4\xbe\x31\xcd\xd8\x78\x28\x06\x12\xa3\xa4\xe2\+ \\x6f\x7d\xe5\x32\x58\xfd\x7e\xb6\xd0\x1e\xe9\x00\x24\xad\xff\xc2\xf4\x99\x0f\xc5\x97\x11\xaa\xc5\x00\x1d\x7b\x95\x82\xe5\xe7\xd2\+ \\x10\x98\x73\xf6\x00\x61\x30\x96\xc3\x2d\x95\x21\xad\xa1\x21\xff\x29\x90\x84\x15\x7f\xbb\x97\x7f\xaf\x9e\xb3\xdb\x29\xc9\xed\x2a\+ \\x5c\xe2\xa4\x65\xa7\x30\xf3\x2c\xd0\xaa\x3f\xe8\x8a\x5c\xc0\x91\xd4\x9e\x2c\xe7\x0c\xe4\x54\xa9\xd6\x0a\xcd\x86\x01\x5f\x19\x19\+ \\x77\x07\x91\x03\xde\xa0\x3a\xf6\x78\xa8\x56\x5e\xde\xe3\x56\xdf\x21\xf0\x5c\xbe\x8b\x75\xe3\x87\xb3\xc5\x06\x51\xb8\xa5\xc3\xef\+ \\xd8\xee\xb6\xd2\xe5\x23\xbe\x77\xc2\x15\x45\x29\x2f\x69\xef\xdf\xaf\xe6\x7a\xfb\xf4\x70\xc4\xb2\xf3\xe0\xeb\x5b\xd6\xcc\x98\x76\+ \\x39\xe4\x46\x0c\x1f\xda\x85\x38\x19\x87\x83\x2f\xca\x00\x73\x67\xa9\x91\x44\xf8\x29\x6b\x29\x9e\x49\x2f\xc2\x95\x92\x66\xbe\xab\+ \\xb5\x67\x6e\x69\x9b\xd3\xdd\xda\xdf\x7e\x05\x2f\xdb\x25\x70\x1c\x1b\x5e\x51\xee\xf6\x53\x24\xe6\x6a\xfc\xe3\x6c\x03\x16\xcc\x04\+ \\x86\x44\x21\x3e\xb7\xdc\x59\xd0\x79\x65\x29\x1f\xcc\xd6\xfd\x43\x41\x82\x39\x79\x93\x2b\xcd\xf6\xb6\x57\xc3\x4d\x4e\xdf\xd2\x82\+ \\x7a\xe5\x29\x0c\x3c\xb9\x53\x6b\x85\x1e\x20\xfe\x98\x33\x55\x7e\x13\xec\xf0\xb0\xd3\xff\xb3\x72\x3f\x85\xc5\xc1\x0a\xef\x7e\xd2"#++sbox_s5 :: Word8 -> Word32+sbox_s5 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\x7e\xc9\x0c\x04\x2c\x6e\x74\xb9\x9b\x0e\x66\xdf\xa6\x33\x79\x11\xb8\x6a\x7f\xff\x1d\xd3\x58\xf5\x44\xdd\x9d\x44\x17\x31\x16\x7f\+ \\x08\xfb\xf1\xfa\xe7\xf5\x11\xcc\xd2\x05\x1b\x00\x73\x5a\xba\x00\x2a\xb7\x22\xd8\x38\x63\x81\xcb\xac\xf6\x24\x3a\x69\xbe\xfd\x7a\+ \\xe6\xa2\xe7\x7f\xf0\xc7\x20\xcd\xc4\x49\x48\x16\xcc\xf5\xc1\x80\x38\x85\x16\x40\x15\xb0\xa8\x48\xe6\x8b\x18\xcb\x4c\xaa\xde\xff\+ \\x5f\x48\x0a\x01\x04\x12\xb2\xaa\x25\x98\x14\xfc\x41\xd0\xef\xe2\x4e\x40\xb4\x8d\x24\x8e\xb6\xfb\x8d\xba\x1c\xfe\x41\xa9\x9b\x02\+ \\x1a\x55\x0a\x04\xba\x8f\x65\xcb\x72\x51\xf4\xe7\x95\xa5\x17\x25\xc1\x06\xec\xd7\x97\xa5\x98\x0a\xc5\x39\xb9\xaa\x4d\x79\xfe\x6a\+ \\xf2\xf3\xf7\x63\x68\xaf\x80\x40\xed\x0c\x9e\x56\x11\xb4\x95\x8b\xe1\xeb\x5a\x88\x87\x09\xe6\xb0\xd7\xe0\x71\x56\x4e\x29\xfe\xa7\+ \\x63\x66\xe5\x2d\x02\xd1\xc0\x00\xc4\xac\x8e\x05\x93\x77\xf5\x71\x0c\x05\x37\x2a\x57\x85\x35\xf2\x22\x61\xbe\x02\xd6\x42\xa0\xc9\+ \\xdf\x13\xa2\x80\x74\xb5\x5b\xd2\x68\x21\x99\xc0\xd4\x21\xe5\xec\x53\xfb\x3c\xe8\xc8\xad\xed\xb3\x28\xa8\x7f\xc9\x3d\x95\x99\x81\+ \\x5c\x1f\xf9\x00\xfe\x38\xd3\x99\x0c\x4e\xff\x0b\x06\x24\x07\xea\xaa\x2f\x4f\xb1\x4f\xb9\x69\x76\x90\xc7\x95\x05\xb0\xa8\xa7\x74\+ \\xef\x55\xa1\xff\xe5\x9c\xa2\xc2\xa6\xb6\x2d\x27\xe6\x6a\x42\x63\xdf\x65\x00\x1f\x0e\xc5\x09\x66\xdf\xdd\x55\xbc\x29\xde\x06\x55\+ \\x91\x1e\x73\x9a\x17\xaf\x89\x75\x32\xc7\x91\x1c\x89\xf8\x94\x68\x0d\x01\xe9\x80\x52\x47\x55\xf4\x03\xb6\x3c\xc9\x0c\xc8\x44\xb2\+ \\xbc\xf3\xf0\xaa\x87\xac\x36\xe9\xe5\x3a\x74\x26\x01\xb3\xd8\x2b\x1a\x9e\x74\x49\x64\xee\x2d\x7e\xcd\xdb\xb1\xda\x01\xc9\x49\x10\+ \\xb8\x68\xbf\x80\x0d\x26\xf3\xfd\x93\x42\xed\xe7\x04\xa5\xc2\x84\x63\x67\x37\xb6\x50\xf5\xb6\x16\xf2\x47\x66\xe3\x8e\xca\x36\xc1\+ \\x13\x6e\x05\xdb\xfe\xf1\x83\x91\xfb\x88\x7a\x37\xd6\xe7\xf7\xd4\xc7\xfb\x7d\xc9\x30\x63\xfc\xdf\xb6\xf5\x89\xde\xec\x29\x41\xda\+ \\x26\xe4\x66\x95\xb7\x56\x64\x19\xf6\x54\xef\xc5\xd0\x8d\x58\xb7\x48\x92\x54\x01\xc1\xba\xcb\x7f\xe5\xff\x55\x0f\xb6\x08\x30\x49\+ \\x5b\xb5\xd0\xe8\x87\xd7\x2e\x5a\xab\x6a\x6e\xe1\x22\x3a\x66\xce\xc6\x2b\xf3\xcd\x9e\x08\x85\xf9\x68\xcb\x3e\x47\x08\x6c\x01\x0f\+ \\xa2\x1d\xe8\x20\xd1\x8b\x69\xde\xf3\xf6\x57\x77\xfa\x02\xc3\xf6\x40\x7e\xda\xc3\xcb\xb3\xd5\x50\x17\x93\x08\x4d\xb0\xd7\x0e\xba\+ \\x0a\xb3\x78\xd5\xd9\x51\xfb\x0c\xde\xd7\xda\x56\x41\x24\xbb\xe4\x94\xca\x0b\x56\x0f\x57\x55\xd1\xe0\xe1\xe5\x6e\x61\x84\xb5\xbe\+ \\x58\x0a\x24\x9f\x94\xf7\x4b\xc0\xe3\x27\x88\x8e\x9f\x7b\x55\x61\xc3\xdc\x02\x80\x05\x68\x77\x15\x64\x6c\x6b\xd7\x44\x90\x4d\xb3\+ \\x66\xb4\xf0\xa3\xc0\xf1\x64\x8a\x69\x7e\xd5\xaf\x49\xe9\x2f\xf6\x30\x9e\x37\x4f\x2c\xb6\x35\x6a\x85\x80\x85\x73\x49\x91\xf8\x40\+ \\x76\xf0\xae\x02\x08\x3b\xe8\x4d\x28\x42\x1c\x9a\x44\x48\x94\x06\x73\x6e\x4c\xb8\xc1\x09\x29\x10\x8b\xc9\x5f\xc6\x7d\x86\x9c\xf4\+ \\x13\x4f\x61\x6f\x2e\x77\x11\x8d\xb3\x1b\x2b\xe1\xaa\x90\xb4\x72\x3c\xa5\xd7\x17\x7d\x16\x1b\xba\x9c\xad\x90\x10\xaf\x46\x2b\xa2\+ \\x9f\xe4\x59\xd2\x45\xd3\x45\x59\xd9\xf2\xda\x13\xdb\xc6\x54\x87\xf3\xe4\xf9\x4e\x17\x6d\x48\x6f\x09\x7c\x13\xea\x63\x1d\xa5\xc7\+ \\x44\x5f\x73\x82\x17\x56\x83\xf4\xcd\xc6\x6a\x97\x70\xbe\x02\x88\xb3\xcd\xcf\x72\x6e\x5d\xd2\xf3\x20\x93\x60\x79\x45\x9b\x80\xa5\+ \\xbe\x60\xe2\xdb\xa9\xc2\x31\x01\xeb\xa5\x31\x5c\x22\x4e\x42\xf2\x1c\x5c\x15\x72\xf6\x72\x1b\x2c\x1a\xd2\xff\xf3\x8c\x25\x40\x4e\+ \\x32\x4e\xd7\x2f\x40\x67\xb7\xfd\x05\x23\x13\x8e\x5c\xa3\xbc\x78\xdc\x0f\xd6\x6e\x75\x92\x22\x83\x78\x4d\x6b\x17\x58\xeb\xb1\x6e\+ \\x44\x09\x4f\x85\x3f\x48\x1d\x87\xfc\xfe\xae\x7b\x77\xb5\xff\x76\x8c\x23\x02\xbf\xaa\xf4\x75\x56\x5f\x46\xb0\x2a\x2b\x09\x28\x01\+ \\x3d\x38\xf5\xf7\x0c\xa8\x1f\x36\x52\xaf\x4a\x8a\x66\xd5\xe7\xc0\xdf\x3b\x08\x74\x95\x05\x51\x10\x1b\x5a\xd7\xa8\xf6\x1e\xd5\xad\+ \\x6c\xf6\xe4\x79\x20\x75\x81\x84\xd0\xce\xfa\x65\x88\xf7\xbe\x58\x4a\x04\x68\x26\x0f\xf6\xf8\xf3\xa0\x9c\x7f\x70\x53\x46\xab\xa0\+ \\x5c\xe9\x6c\x28\xe1\x76\xed\xa3\x6b\xac\x30\x7f\x37\x68\x29\xd2\x85\x36\x0f\xa9\x17\xe3\xfe\x2a\x24\xb7\x97\x67\xf5\xa9\x6b\x20\+ \\xd6\xcd\x25\x95\x68\xff\x1e\xbf\x75\x55\x44\x2c\xf1\x9f\x06\xbe\xf9\xe0\x65\x9a\xee\xb9\x49\x1d\x34\x01\x07\x18\xbb\x30\xca\xb8\+ \\xe8\x22\xfe\x15\x88\x57\x09\x83\x75\x0e\x62\x49\xda\x62\x7e\x55\x5e\x76\xff\xa8\xb1\x53\x45\x46\x6d\x47\xde\x08\xef\xe9\xe7\xd4"#++sbox_s6 :: Word8 -> Word32+sbox_s6 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\xf6\xfa\x8f\x9d\x2c\xac\x6c\xe1\x4c\xa3\x48\x67\xe2\x33\x7f\x7c\x95\xdb\x08\xe7\x01\x68\x43\xb4\xec\xed\x5c\xbc\x32\x55\x53\xac\+ \\xbf\x9f\x09\x60\xdf\xa1\xe2\xed\x83\xf0\x57\x9d\x63\xed\x86\xb9\x1a\xb6\xa6\xb8\xde\x5e\xbe\x39\xf3\x8f\xf7\x32\x89\x89\xb1\x38\+ \\x33\xf1\x49\x61\xc0\x19\x37\xbd\xf5\x06\xc6\xda\xe4\x62\x5e\x7e\xa3\x08\xea\x99\x4e\x23\xe3\x3c\x79\xcb\xd7\xcc\x48\xa1\x43\x67\+ \\xa3\x14\x96\x19\xfe\xc9\x4b\xd5\xa1\x14\x17\x4a\xea\xa0\x18\x66\xa0\x84\xdb\x2d\x09\xa8\x48\x6f\xa8\x88\x61\x4a\x29\x00\xaf\x98\+ \\x01\x66\x59\x91\xe1\x99\x28\x63\xc8\xf3\x0c\x60\x2e\x78\xef\x3c\xd0\xd5\x19\x32\xcf\x0f\xec\x14\xf7\xca\x07\xd2\xd0\xa8\x20\x72\+ \\xfd\x41\x19\x7e\x93\x05\xa6\xb0\xe8\x6b\xe3\xda\x74\xbe\xd3\xcd\x37\x2d\xa5\x3c\x4c\x7f\x44\x48\xda\xb5\xd4\x40\x6d\xba\x0e\xc3\+ \\x08\x39\x19\xa7\x9f\xba\xee\xd9\x49\xdb\xcf\xb0\x4e\x67\x0c\x53\x5c\x3d\x9c\x01\x64\xbd\xb9\x41\x2c\x0e\x63\x6a\xba\x7d\xd9\xcd\+ \\xea\x6f\x73\x88\xe7\x0b\xc7\x62\x35\xf2\x9a\xdb\x5c\x4c\xdd\x8d\xf0\xd4\x8d\x8c\xb8\x81\x53\xe2\x08\xa1\x98\x66\x1a\xe2\xea\xc8\+ \\x28\x4c\xaf\x89\xaa\x92\x82\x23\x93\x34\xbe\x53\x3b\x3a\x21\xbf\x16\x43\x4b\xe3\x9a\xea\x39\x06\xef\xe8\xc3\x6e\xf8\x90\xcd\xd9\+ \\x80\x22\x6d\xae\xc3\x40\xa4\xa3\xdf\x7e\x9c\x09\xa6\x94\xa8\x07\x5b\x7c\x5e\xcc\x22\x1d\xb3\xa6\x9a\x69\xa0\x2f\x68\x81\x8a\x54\+ \\xce\xb2\x29\x6f\x53\xc0\x84\x3a\xfe\x89\x36\x55\x25\xbf\xe6\x8a\xb4\x62\x8a\xbc\xcf\x22\x2e\xbf\x25\xac\x6f\x48\xa9\xa9\x93\x87\+ \\x53\xbd\xdb\x65\xe7\x6f\xfb\xe7\xe9\x67\xfd\x78\x0b\xa9\x35\x63\x8e\x34\x2b\xc1\xe8\xa1\x1b\xe9\x49\x80\x74\x0d\xc8\x08\x7d\xfc\+ \\x8d\xe4\xbf\x99\xa1\x11\x01\xa0\x7f\xd3\x79\x75\xda\x5a\x26\xc0\xe8\x1f\x99\x4f\x95\x28\xcd\x89\xfd\x33\x9f\xed\xb8\x78\x34\xbf\+ \\x5f\x04\x45\x6d\x22\x25\x86\x98\xc9\xc4\xc8\x3b\x2d\xc1\x56\xbe\x4f\x62\x8d\xaa\x57\xf5\x5e\xc5\xe2\x22\x0a\xbe\xd2\x91\x6e\xbf\+ \\x4e\xc7\x5b\x95\x24\xf2\xc3\xc0\x42\xd1\x5d\x99\xcd\x0d\x7f\xa0\x7b\x6e\x27\xff\xa8\xdc\x8a\xf0\x73\x45\xc1\x06\xf4\x1e\x23\x2f\+ \\x35\x16\x23\x86\xe6\xea\x89\x26\x33\x33\xb0\x94\x15\x7e\xc6\xf2\x37\x2b\x74\xaf\x69\x25\x73\xe4\xe9\xa9\xd8\x48\xf3\x16\x02\x89\+ \\x3a\x62\xef\x1d\xa7\x87\xe2\x38\xf3\xa5\xf6\x76\x74\x36\x48\x53\x20\x95\x10\x63\x45\x76\x69\x8d\xb6\xfa\xd4\x07\x59\x2a\xf9\x50\+ \\x36\xf7\x35\x23\x4c\xfb\x6e\x87\x7d\xa4\xce\xc0\x6c\x15\x2d\xaa\xcb\x03\x96\xa8\xc5\x0d\xfe\x5d\xfc\xd7\x07\xab\x09\x21\xc4\x2f\+ \\x89\xdf\xf0\xbb\x5f\xe2\xbe\x78\x44\x8f\x4f\x33\x75\x46\x13\xc9\x2b\x05\xd0\x8d\x48\xb9\xd5\x85\xdc\x04\x94\x41\xc8\x09\x8f\x9b\+ \\x7d\xed\xe7\x86\xc3\x9a\x33\x73\x42\x41\x00\x05\x6a\x09\x17\x51\x0e\xf3\xc8\xa6\x89\x00\x72\xd6\x28\x20\x76\x82\xa9\xa9\xf7\xbe\+ \\xbf\x32\x67\x9d\xd4\x5b\x5b\x75\xb3\x53\xfd\x00\xcb\xb0\xe3\x58\x83\x0f\x22\x0a\x1f\x8f\xb2\x14\xd3\x72\xcf\x08\xcc\x3c\x4a\x13\+ \\x8c\xf6\x31\x66\x06\x1c\x87\xbe\x88\xc9\x8f\x88\x60\x62\xe3\x97\x47\xcf\x8e\x7a\xb6\xc8\x52\x83\x3c\xc2\xac\xfb\x3f\xc0\x69\x76\+ \\x4e\x8f\x02\x52\x64\xd8\x31\x4d\xda\x38\x70\xe3\x1e\x66\x54\x59\xc1\x09\x08\xf0\x51\x30\x21\xa5\x6c\x5b\x68\xb7\x82\x2f\x8a\xa0\+ \\x30\x07\xcd\x3e\x74\x71\x9e\xef\xdc\x87\x26\x81\x07\x33\x40\xd4\x7e\x43\x2f\xd9\x0c\x5e\xc2\x41\x88\x09\x28\x6c\xf5\x92\xd8\x91\+ \\x08\xa9\x30\xf6\x95\x7e\xf3\x05\xb7\xfb\xff\xbd\xc2\x66\xe9\x6f\x6f\xe4\xac\x98\xb1\x73\xec\xc0\xbc\x60\xb4\x2a\x95\x34\x98\xda\+ \\xfb\xa1\xae\x12\x2d\x4b\xd7\x36\x0f\x25\xfa\xab\xa4\xf3\xfc\xeb\xe2\x96\x91\x23\x25\x7f\x0c\x3d\x93\x48\xaf\x49\x36\x14\x00\xbc\+ \\xe8\x81\x6f\x4a\x38\x14\xf2\x00\xa3\xf9\x40\x43\x9c\x7a\x54\xc2\xbc\x70\x4f\x57\xda\x41\xe7\xf9\xc2\x5a\xd3\x3a\x54\xf4\xa0\x84\+ \\xb1\x7f\x55\x05\x59\x35\x7c\xbe\xed\xbd\x15\xc8\x7f\x97\xc5\xab\xba\x5a\xc7\xb5\xb6\xf6\xde\xaf\x3a\x47\x9c\x3a\x53\x02\xda\x25\+ \\x65\x3d\x7e\x6a\x54\x26\x8d\x49\x51\xa4\x77\xea\x50\x17\xd5\x5b\xd7\xd2\x5d\x88\x44\x13\x6c\x76\x04\x04\xa8\xc8\xb8\xe5\xa1\x21\+ \\xb8\x1a\x92\x8a\x60\xed\x58\x69\x97\xc5\x5b\x96\xea\xec\x99\x1b\x29\x93\x59\x13\x01\xfd\xb7\xf1\x08\x8e\x8d\xfa\x9a\xb6\xf6\xf5\+ \\x3b\x4c\xbf\x9f\x4a\x5d\xe3\xab\xe6\x05\x1d\x35\xa0\xe1\xd8\x55\xd3\x6b\x4c\xf1\xf5\x44\xed\xeb\xb0\xe9\x35\x24\xbe\xbb\x8f\xbd\+ \\xa2\xd7\x62\xcf\x49\xc9\x2f\x54\x38\xb5\xf3\x31\x71\x28\xa4\x54\x48\x39\x29\x05\xa6\x5b\x1d\xb8\x85\x1c\x97\xbd\xd6\x75\xcf\x2f"#++sbox_s7 :: Word8 -> Word32+sbox_s7 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\x85\xe0\x40\x19\x33\x2b\xf5\x67\x66\x2d\xbf\xff\xcf\xc6\x56\x93\x2a\x8d\x7f\x6f\xab\x9b\xc9\x12\xde\x60\x08\xa1\x20\x28\xda\x1f\+ \\x02\x27\xbc\xe7\x4d\x64\x29\x16\x18\xfa\xc3\x00\x50\xf1\x8b\x82\x2c\xb2\xcb\x11\xb2\x32\xe7\x5c\x4b\x36\x95\xf2\xb2\x87\x07\xde\+ \\xa0\x5f\xbc\xf6\xcd\x41\x81\xe9\xe1\x50\x21\x0c\xe2\x4e\xf1\xbd\xb1\x68\xc3\x81\xfd\xe4\xe7\x89\x5c\x79\xb0\xd8\x1e\x8b\xfd\x43\+ \\x4d\x49\x50\x01\x38\xbe\x43\x41\x91\x3c\xee\x1d\x92\xa7\x9c\x3f\x08\x97\x66\xbe\xba\xee\xad\xf4\x12\x86\xbe\xcf\xb6\xea\xcb\x19\+ \\x26\x60\xc2\x00\x75\x65\xbd\xe4\x64\x24\x1f\x7a\x82\x48\xdc\xa9\xc3\xb3\xad\x66\x28\x13\x60\x86\x0b\xd8\xdf\xa8\x35\x6d\x1c\xf2\+ \\x10\x77\x89\xbe\xb3\xb2\xe9\xce\x05\x02\xaa\x8f\x0b\xc0\x35\x1e\x16\x6b\xf5\x2a\xeb\x12\xff\x82\xe3\x48\x69\x11\xd3\x4d\x75\x16\+ \\x4e\x7b\x3a\xff\x5f\x43\x67\x1b\x9c\xf6\xe0\x37\x49\x81\xac\x83\x33\x42\x66\xce\x8c\x93\x41\xb7\xd0\xd8\x54\xc0\xcb\x3a\x6c\x88\+ \\x47\xbc\x28\x29\x47\x25\xba\x37\xa6\x6a\xd2\x2b\x7a\xd6\x1f\x1e\x0c\x5c\xba\xfa\x44\x37\xf1\x07\xb6\xe7\x99\x62\x42\xd2\xd8\x16\+ \\x0a\x96\x12\x88\xe1\xa5\xc0\x6e\x13\x74\x9e\x67\x72\xfc\x08\x1a\xb1\xd1\x39\xf7\xf9\x58\x37\x45\xcf\x19\xdf\x58\xbe\xc3\xf7\x56\+ \\xc0\x6e\xba\x30\x07\x21\x1b\x24\x45\xc2\x88\x29\xc9\x5e\x31\x7f\xbc\x8e\xc5\x11\x38\xbc\x46\xe9\xc6\xe6\xfa\x14\xba\xe8\x58\x4a\+ \\xad\x4e\xbc\x46\x46\x8f\x50\x8b\x78\x29\x43\x5f\xf1\x24\x18\x3b\x82\x1d\xba\x9f\xaf\xf6\x0f\xf4\xea\x2c\x4e\x6d\x16\xe3\x92\x64\+ \\x92\x54\x4a\x8b\x00\x9b\x4f\xc3\xab\xa6\x8c\xed\x9a\xc9\x6f\x78\x06\xa5\xb7\x9a\xb2\x85\x6e\x6e\x1a\xec\x3c\xa9\xbe\x83\x86\x88\+ \\x0e\x08\x04\xe9\x55\xf1\xbe\x56\xe7\xe5\x36\x3b\xb3\xa1\xf2\x5d\xf7\xde\xbb\x85\x61\xfe\x03\x3c\x16\x74\x62\x33\x3c\x03\x4c\x28\+ \\xda\x6d\x0c\x74\x79\xaa\xc5\x6c\x3c\xe4\xe1\xad\x51\xf0\xc8\x02\x98\xf8\xf3\x5a\x16\x26\xa4\x9f\xee\xd8\x2b\x29\x1d\x38\x2f\xe3\+ \\x0c\x4f\xb9\x9a\xbb\x32\x57\x78\x3e\xc6\xd9\x7b\x6e\x77\xa6\xa9\xcb\x65\x8b\x5c\xd4\x52\x30\xc7\x2b\xd1\x40\x8b\x60\xc0\x3e\xb7\+ \\xb9\x06\x8d\x78\xa3\x37\x54\xf4\xf4\x30\xc8\x7d\xc8\xa7\x13\x02\xb9\x6d\x8c\x32\xeb\xd4\xe7\xbe\xbe\x8b\x9d\x2d\x79\x79\xfb\x06\+ \\xe7\x22\x53\x08\x8b\x75\xcf\x77\x11\xef\x8d\xa4\xe0\x83\xc8\x58\x8d\x6b\x78\x6f\x5a\x63\x17\xa6\xfa\x5c\xf7\xa0\x5d\xda\x00\x33\+ \\xf2\x8e\xbf\xb0\xf5\xb9\xc3\x10\xa0\xea\xc2\x80\x08\xb9\x76\x7a\xa3\xd9\xd2\xb0\x79\xd3\x42\x17\x02\x1a\x71\x8d\x9a\xc6\x33\x6a\+ \\x27\x11\xfd\x60\x43\x80\x50\xe3\x06\x99\x08\xa8\x3d\x7f\xed\xc4\x82\x6d\x2b\xef\x4e\xeb\x84\x76\x48\x8d\xcf\x25\x36\xc9\xd5\x66\+ \\x28\xe7\x4e\x41\xc2\x61\x0a\xca\x3d\x49\xa9\xcf\xba\xe3\xb9\xdf\xb6\x5f\x8d\xe6\x92\xae\xaf\x64\x3a\xc7\xd5\xe6\x9e\xa8\x05\x09\+ \\xf2\x2b\x01\x7d\xa4\x17\x3f\x70\xdd\x1e\x16\xc3\x15\xe0\xd7\xf9\x50\xb1\xb8\x87\x2b\x9f\x4f\xd5\x62\x5a\xba\x82\x6a\x01\x79\x62\+ \\x2e\xc0\x1b\x9c\x15\x48\x8a\xa9\xd7\x16\xe7\x40\x40\x05\x5a\x2c\x93\xd2\x9a\x22\xe3\x2d\xbf\x9a\x05\x87\x45\xb9\x34\x53\xdc\x1e\+ \\xd6\x99\x29\x6e\x49\x6c\xff\x6f\x1c\x9f\x49\x86\xdf\xe2\xed\x07\xb8\x72\x42\xd1\x19\xde\x7e\xae\x05\x3e\x56\x1a\x15\xad\x6f\x8c\+ \\x66\x62\x6c\x1c\x71\x54\xc2\x4c\xea\x08\x2b\x2a\x93\xeb\x29\x39\x17\xdc\xb0\xf0\x58\xd4\xf2\xae\x9e\xa2\x94\xfb\x52\xcf\x56\x4c\+ \\x98\x83\xfe\x66\x2e\xc4\x05\x81\x76\x39\x53\xc3\x01\xd6\x69\x2e\xd3\xa0\xc1\x08\xa1\xe7\x16\x0e\xe4\xf2\xdf\xa6\x69\x3e\xd2\x85\+ \\x74\x90\x46\x98\x4c\x2b\x0e\xdd\x4f\x75\x76\x56\x5d\x39\x33\x78\xa1\x32\x23\x4f\x3d\x32\x1c\x5d\xc3\xf5\xe1\x94\x4b\x26\x93\x01\+ \\xc7\x9f\x02\x2f\x3c\x99\x7e\x7e\x5e\x4f\x95\x04\x3f\xfa\xfb\xbd\x76\xf7\xad\x0e\x29\x66\x93\xf4\x3d\x1f\xce\x6f\xc6\x1e\x45\xbe\+ \\xd3\xb5\xab\x34\xf7\x2b\xf9\xb7\x1b\x04\x34\xc0\x4e\x72\xb5\x67\x55\x92\xa3\x3d\xb5\x22\x93\x01\xcf\xd2\xa8\x7f\x60\xae\xb7\x67\+ \\x18\x14\x38\x6b\x30\xbc\xc3\x3d\x38\xa0\xc0\x7d\xfd\x16\x06\xf2\xc3\x63\x51\x9b\x58\x9d\xd3\x90\x54\x79\xf8\xe6\x1c\xb8\xd6\x47\+ \\x97\xfd\x61\xa9\xea\x77\x59\xf4\x2d\x57\x53\x9d\x56\x9a\x58\xcf\xe8\x4e\x63\xad\x46\x2e\x1b\x78\x65\x80\xf8\x7e\xf3\x81\x79\x14\+ \\x91\xda\x55\xf4\x40\xa2\x30\xf3\xd1\x98\x8f\x35\xb6\xe3\x18\xd2\x3f\xfa\x50\xbc\x3d\x40\xf0\x21\xc3\xc0\xbd\xae\x49\x58\xc2\x4c\+ \\x51\x8f\x36\xb2\x84\xb1\xd3\x70\x0f\xed\xce\x83\x87\x8d\xda\xda\xf2\xa2\x79\xc7\x94\xe0\x1b\xe8\x90\x71\x6f\x4b\x95\x4b\x8a\xa3"#++sbox_s8 :: Word8 -> Word32+sbox_s8 i = arrayRead32 t (fromIntegral i)+ where+ t = array32FromAddrBE 256+ "\xe2\x16\x30\x0d\xbb\xdd\xff\xfc\xa7\xeb\xda\xbd\x35\x64\x80\x95\x77\x89\xf8\xb7\xe6\xc1\x12\x1b\x0e\x24\x16\x00\x05\x2c\xe8\xb5\+ \\x11\xa9\xcf\xb0\xe5\x95\x2f\x11\xec\xe7\x99\x0a\x93\x86\xd1\x74\x2a\x42\x93\x1c\x76\xe3\x81\x11\xb1\x2d\xef\x3a\x37\xdd\xdd\xfc\+ \\xde\x9a\xde\xb1\x0a\x0c\xc3\x2c\xbe\x19\x70\x29\x84\xa0\x09\x40\xbb\x24\x3a\x0f\xb4\xd1\x37\xcf\xb4\x4e\x79\xf0\x04\x9e\xed\xfd\+ \\x0b\x15\xa1\x5d\x48\x0d\x31\x68\x8b\xbb\xde\x5a\x66\x9d\xed\x42\xc7\xec\xe8\x31\x3f\x8f\x95\xe7\x72\xdf\x19\x1b\x75\x80\x33\x0d\+ \\x94\x07\x42\x51\x5c\x7d\xcd\xfa\xab\xbe\x6d\x63\xaa\x40\x21\x64\xb3\x01\xd4\x0a\x02\xe7\xd1\xca\x53\x57\x1d\xae\x7a\x31\x82\xa2\+ \\x12\xa8\xdd\xec\xfd\xaa\x33\x5d\x17\x6f\x43\xe8\x71\xfb\x46\xd4\x38\x12\x90\x22\xce\x94\x9a\xd4\xb8\x47\x69\xad\x96\x5b\xd8\x62\+ \\x82\xf3\xd0\x55\x66\xfb\x97\x67\x15\xb8\x0b\x4e\x1d\x5b\x47\xa0\x4c\xfd\xe0\x6f\xc2\x8e\xc4\xb8\x57\xe8\x72\x6e\x64\x7a\x78\xfc\+ \\x99\x86\x5d\x44\x60\x8b\xd5\x93\x6c\x20\x0e\x03\x39\xdc\x5f\xf6\x5d\x0b\x00\xa3\xae\x63\xaf\xf2\x7e\x8b\xd6\x32\x70\x10\x8c\x0c\+ \\xbb\xd3\x50\x49\x29\x98\xdf\x04\x98\x0c\xf4\x2a\x9b\x6d\xf4\x91\x9e\x7e\xdd\x53\x06\x91\x85\x48\x58\xcb\x7e\x07\x3b\x74\xef\x2e\+ \\x52\x2f\xff\xb1\xd2\x47\x08\xcc\x1c\x7e\x27\xcd\xa4\xeb\x21\x5b\x3c\xf1\xd2\xe2\x19\xb4\x7a\x38\x42\x4f\x76\x18\x35\x85\x60\x39\+ \\x9d\x17\xde\xe7\x27\xeb\x35\xe6\xc9\xaf\xf6\x7b\x36\xba\xf5\xb8\x09\xc4\x67\xcd\xc1\x89\x10\xb1\xe1\x1d\xbf\x7b\x06\xcd\x1a\xf8\+ \\x71\x70\xc6\x08\x2d\x5e\x33\x54\xd4\xde\x49\x5a\x64\xc6\xd0\x06\xbc\xc0\xc6\x2c\x3d\xd0\x0d\xb3\x70\x8f\x8f\x34\x77\xd5\x1b\x42\+ \\x26\x4f\x62\x0f\x24\xb8\xd2\xbf\x15\xc1\xb7\x9e\x46\xa5\x25\x64\xf8\xd7\xe5\x4e\x3e\x37\x81\x60\x78\x95\xcd\xa5\x85\x9c\x15\xa5\+ \\xe6\x45\x97\x88\xc3\x7b\xc7\x5f\xdb\x07\xba\x0c\x06\x76\xa3\xab\x7f\x22\x9b\x1e\x31\x84\x2e\x7b\x24\x25\x9f\xd7\xf8\xbe\xf4\x72\+ \\x83\x5f\xfc\xb8\x6d\xf4\xc1\xf2\x96\xf5\xb1\x95\xfd\x0a\xf0\xfc\xb0\xfe\x13\x4c\xe2\x50\x6d\x3d\x4f\x9b\x12\xea\xf2\x15\xf2\x25\+ \\xa2\x23\x73\x6f\x9f\xb4\xc4\x28\x25\xd0\x49\x79\x34\xc7\x13\xf8\xc4\x61\x81\x87\xea\x7a\x6e\x98\x7c\xd1\x6e\xfc\x14\x36\x87\x6c\+ \\xf1\x54\x41\x07\xbe\xde\xee\x14\x56\xe9\xaf\x27\xa0\x4a\xa4\x41\x3c\xf7\xc8\x99\x92\xec\xba\xe6\xdd\x67\x01\x6d\x15\x16\x82\xeb\+ \\xa8\x42\xee\xdf\xfd\xba\x60\xb4\xf1\x90\x7b\x75\x20\xe3\x03\x0f\x24\xd8\xc2\x9e\xe1\x39\x67\x3b\xef\xa6\x3f\xb8\x71\x87\x30\x54\+ \\xb6\xf2\xcf\x3b\x9f\x32\x64\x42\xcb\x15\xa4\xcc\xb0\x1a\x45\x04\xf1\xe4\x7d\x8d\x84\x4a\x1b\xe5\xba\xe7\xdf\xdc\x42\xcb\xda\x70\+ \\xcd\x7d\xae\x0a\x57\xe8\x5b\x7a\xd5\x3f\x5a\xf6\x20\xcf\x4d\x8c\xce\xa4\xd4\x28\x79\xd1\x30\xa4\x34\x86\xeb\xfb\x33\xd3\xcd\xdc\+ \\x77\x85\x3b\x53\x37\xef\xfc\xb5\xc5\x06\x87\x78\xe5\x80\xb3\xe6\x4e\x68\xb8\xf4\xc5\xc8\xb3\x7e\x0d\x80\x9e\xa2\x39\x8f\xeb\x7c\+ \\x13\x2a\x4f\x94\x43\xb7\x95\x0e\x2f\xee\x7d\x1c\x22\x36\x13\xbd\xdd\x06\xca\xa2\x37\xdf\x93\x2b\xc4\x24\x82\x89\xac\xf3\xeb\xc3\+ \\x57\x15\xf6\xb7\xef\x34\x78\xdd\xf2\x67\x61\x6f\xc1\x48\xcb\xe4\x90\x52\x81\x5e\x5e\x41\x0f\xab\xb4\x8a\x24\x65\x2e\xda\x7f\xa4\+ \\xe8\x7b\x40\xe4\xe9\x8e\xa0\x84\x58\x89\xe9\xe1\xef\xd3\x90\xfc\xdd\x07\xd3\x5b\xdb\x48\x56\x94\x38\xd7\xe5\xb2\x57\x72\x01\x01\+ \\x73\x0e\xde\xbc\x5b\x64\x31\x13\x94\x91\x7e\x4f\x50\x3c\x2f\xba\x64\x6f\x12\x82\x75\x23\xd2\x4a\xe0\x77\x96\x95\xf9\xc1\x7a\x8f\+ \\x7a\x5b\x21\x21\xd1\x87\xb8\x96\x29\x26\x3a\x4d\xba\x51\x0c\xdf\x81\xf4\x7c\x9f\xad\x11\x63\xed\xea\x7b\x59\x65\x1a\x00\x72\x6e\+ \\x11\x40\x30\x92\x00\xda\x6d\x77\x4a\x0c\xdd\x61\xad\x1f\x46\x03\x60\x5b\xdf\xb0\x9e\xed\xc3\x64\x22\xeb\xe6\xa8\xce\xe7\xd2\x8a\+ \\xa0\xe7\x36\xa0\x55\x64\xa6\xb9\x10\x85\x32\x09\xc7\xeb\x8f\x37\x2d\xe7\x05\xca\x89\x51\x57\x0f\xdf\x09\x82\x2b\xbd\x69\x1a\x6c\+ \\xaa\x12\xe4\xf2\x87\x45\x1c\x0f\xe0\xf6\xa2\x7a\x3a\xda\x48\x19\x4c\xf1\x76\x4f\x0d\x77\x1c\x2b\x67\xcd\xb1\x56\x35\x0d\x83\x84\+ \\x59\x38\xfa\x0f\x42\x39\x9e\xf3\x36\x99\x7b\x07\x0e\x84\x09\x3d\x4a\xa9\x3e\x61\x83\x60\xd8\x7b\x1f\xa9\x8b\x0c\x11\x49\x38\x2c\+ \\xe9\x76\x25\xa5\x06\x14\xd1\xb7\x0e\x25\x24\x4b\x0c\x76\x83\x47\x58\x9e\x8d\x82\x0d\x20\x59\xd1\xa4\x66\xbb\x1e\xf8\xda\x0a\x82\+ \\x04\xf1\x91\x30\xba\x6e\x4e\xc0\x99\x26\x51\x64\x1e\xe7\x23\x0d\x50\xb2\xad\x80\xea\xee\x68\x01\x8d\xb2\xa2\x83\xea\x8b\xf5\x9e"#
Crypto/Cipher/Camellia/Primitive.hs view
@@ -6,8 +6,8 @@ -- Stability : experimental -- Portability : Good ----- this only cover Camellia 128 bits for now, API will change once--- 192 and 256 mode are implemented too+-- This only cover Camellia 128 bits for now. The API will change once+-- 192 and 256 mode are implemented too. {-# LANGUAGE MagicHash #-} module Crypto.Cipher.Camellia.Primitive ( Camellia
Crypto/Cipher/ChaCha.hs view
@@ -12,7 +12,7 @@ , combine , generate , State- -- * simple interface for DRG purpose+ -- * Simple interface for DRG purpose , initializeSimple , generateSimple , StateSimple@@ -41,24 +41,26 @@ -> nonce -- ^ the nonce (64 or 96 bits) -> State -- ^ the initial ChaCha state initialize nbRounds key nonce- | not (kLen `elem` [16,32]) = error "ChaCha: key length should be 128 or 256 bits"- | not (nonceLen `elem` [8,12]) = error "ChaCha: nonce length should be 64 or 96 bits"- | not (nbRounds `elem` [8,12,20]) = error "ChaCha: rounds should be 8, 12 or 20"+ | kLen `notElem` [16,32] = error "ChaCha: key length should be 128 or 256 bits"+ | nonceLen `notElem` [8,12] = error "ChaCha: nonce length should be 64 or 96 bits"+ | nbRounds `notElem` [8,12,20] = error "ChaCha: rounds should be 8, 12 or 20" | otherwise = unsafeDoIO $ do stPtr <- B.alloc 132 $ \stPtr -> B.withByteArray nonce $ \noncePtr -> B.withByteArray key $ \keyPtr ->- ccryptonite_chacha_init stPtr (fromIntegral nbRounds) kLen keyPtr nonceLen noncePtr+ ccryptonite_chacha_init stPtr nbRounds kLen keyPtr nonceLen noncePtr return $ State stPtr where kLen = B.length key nonceLen = B.length nonce -- | Initialize simple ChaCha State-initializeSimple :: ByteArray seed+--+-- The seed need to be at least 40 bytes long+initializeSimple :: ByteArrayAccess seed => seed -- ^ a 40 bytes long seed -> StateSimple initializeSimple seed- | sLen /= 40 = error "ChaCha Random: seed length should be 40 bytes"+ | sLen < 40 = error "ChaCha Random: seed length should be 40 bytes" | otherwise = unsafeDoIO $ do stPtr <- B.alloc 64 $ \stPtr -> B.withByteArray seed $ \seedPtr ->
Crypto/Cipher/RC4.hs view
@@ -30,6 +30,11 @@ import Crypto.Internal.Imports -- | The encryption state for RC4+--+-- This type is an instance of 'ByteArrayAccess' for debugging purpose. Internal+-- layout is architecture dependent, may contain uninitialized data fragments,+-- and change in future versions. The bytearray should not be used as input to+-- cryptographic algorithms. newtype State = State ScrubbedBytes deriving (ByteArrayAccess,NFData)
Crypto/Cipher/Salsa.hs view
@@ -11,7 +11,7 @@ ( initialize , combine , generate- , State+ , State(..) ) where import Crypto.Internal.ByteArray (ByteArrayAccess, ByteArray, ScrubbedBytes)@@ -33,14 +33,14 @@ -> nonce -- ^ the nonce (64 or 96 bits) -> State -- ^ the initial Salsa state initialize nbRounds key nonce- | not (kLen `elem` [16,32]) = error "Salsa: key length should be 128 or 256 bits"- | not (nonceLen `elem` [8,12]) = error "Salsa: nonce length should be 64 or 96 bits"- | not (nbRounds `elem` [8,12,20]) = error "Salsa: rounds should be 8, 12 or 20"+ | kLen `notElem` [16,32] = error "Salsa: key length should be 128 or 256 bits"+ | nonceLen `notElem` [8,12] = error "Salsa: nonce length should be 64 or 96 bits"+ | nbRounds `notElem` [8,12,20] = error "Salsa: rounds should be 8, 12 or 20" | otherwise = unsafeDoIO $ do stPtr <- B.alloc 132 $ \stPtr -> B.withByteArray nonce $ \noncePtr -> B.withByteArray key $ \keyPtr ->- ccryptonite_salsa_init stPtr (fromIntegral nbRounds) kLen keyPtr nonceLen noncePtr+ ccryptonite_salsa_init stPtr nbRounds kLen keyPtr nonceLen noncePtr return $ State stPtr where kLen = B.length key nonceLen = B.length nonce
+ Crypto/Cipher/Twofish.hs view
@@ -0,0 +1,45 @@+module Crypto.Cipher.Twofish+ ( Twofish128+ , Twofish192+ , Twofish256+ ) where++import Crypto.Cipher.Twofish.Primitive+import Crypto.Cipher.Types+import Crypto.Cipher.Utils++newtype Twofish128 = Twofish128 Twofish++instance Cipher Twofish128 where+ cipherName _ = "Twofish128"+ cipherKeySize _ = KeySizeFixed 16+ cipherInit key = Twofish128 <$> (initTwofish =<< validateKeySize (undefined :: Twofish128) key)++instance BlockCipher Twofish128 where+ blockSize _ = 16+ ecbEncrypt (Twofish128 key) = encrypt key+ ecbDecrypt (Twofish128 key) = decrypt key++newtype Twofish192 = Twofish192 Twofish++instance Cipher Twofish192 where+ cipherName _ = "Twofish192"+ cipherKeySize _ = KeySizeFixed 24+ cipherInit key = Twofish192 <$> (initTwofish =<< validateKeySize (undefined :: Twofish192) key)++instance BlockCipher Twofish192 where+ blockSize _ = 16+ ecbEncrypt (Twofish192 key) = encrypt key+ ecbDecrypt (Twofish192 key) = decrypt key++newtype Twofish256 = Twofish256 Twofish++instance Cipher Twofish256 where+ cipherName _ = "Twofish256"+ cipherKeySize _ = KeySizeFixed 32+ cipherInit key = Twofish256 <$> (initTwofish =<< validateKeySize (undefined :: Twofish256) key)++instance BlockCipher Twofish256 where+ blockSize _ = 16+ ecbEncrypt (Twofish256 key) = encrypt key+ ecbDecrypt (Twofish256 key) = decrypt key
+ Crypto/Cipher/Twofish/Primitive.hs view
@@ -0,0 +1,311 @@+{-# LANGUAGE MagicHash #-}+{-# LANGUAGE BangPatterns #-}+module Crypto.Cipher.Twofish.Primitive+ ( Twofish+ , initTwofish+ , encrypt+ , decrypt+ ) where++import Crypto.Error+import Crypto.Internal.ByteArray (ByteArray)+import qualified Crypto.Internal.ByteArray as B+import Crypto.Internal.WordArray+import Data.Word+import Data.Bits+import Data.List++-- Based on the Golang referance implementation+-- https://github.com/golang/crypto/blob/master/twofish/twofish.go+++-- BlockSize is the constant block size of Twofish.+blockSize :: Int+blockSize = 16++mdsPolynomial, rsPolynomial :: Word32+mdsPolynomial = 0x169 -- x^8 + x^6 + x^5 + x^3 + 1, see [TWOFISH] 4.2+rsPolynomial = 0x14d -- x^8 + x^6 + x^3 + x^2 + 1, see [TWOFISH] 4.3++data Twofish = Twofish { s :: (Array32, Array32, Array32, Array32)+ , k :: Array32 }++data ByteSize = Bytes16 | Bytes24 | Bytes32 deriving (Eq)++data KeyPackage ba = KeyPackage { rawKeyBytes :: ba+ , byteSize :: ByteSize }++buildPackage :: ByteArray ba => ba -> Maybe (KeyPackage ba)+buildPackage key+ | B.length key == 16 = return $ KeyPackage key Bytes16+ | B.length key == 24 = return $ KeyPackage key Bytes24+ | B.length key == 32 = return $ KeyPackage key Bytes32+ | otherwise = Nothing++-- | Initialize a 128-bit, 192-bit, or 256-bit key+--+-- Return the initialized key or a error message if the given+-- keyseed was not 16-bytes in length.+initTwofish :: ByteArray key+ => key -- ^ The key to create the twofish context+ -> CryptoFailable Twofish+initTwofish key =+ case buildPackage key of Nothing -> CryptoFailed CryptoError_KeySizeInvalid+ Just keyPackage -> CryptoPassed Twofish { k = generatedK, s = generatedS }+ where generatedK = array32 40 $ genK keyPackage+ generatedS = genSboxes keyPackage $ sWords key++mapBlocks :: ByteArray ba => (ba -> ba) -> ba -> ba+mapBlocks operation input+ | B.null rest = blockOutput+ | otherwise = blockOutput `B.append` mapBlocks operation rest+ where (block, rest) = B.splitAt blockSize input+ blockOutput = operation block++-- | Encrypts the given ByteString using the given Key+encrypt :: ByteArray ba+ => Twofish -- ^ The key to use+ -> ba -- ^ The data to encrypt+ -> ba+encrypt cipher = mapBlocks (encryptBlock cipher)++encryptBlock :: ByteArray ba => Twofish -> ba -> ba+encryptBlock Twofish { s = (s1, s2, s3, s4), k = ks } message = store32ls ts+ where (a, b, c, d) = load32ls message+ a' = a `xor` arrayRead32 ks 0+ b' = b `xor` arrayRead32 ks 1+ c' = c `xor` arrayRead32 ks 2+ d' = d `xor` arrayRead32 ks 3+ (!a'', !b'', !c'', !d'') = foldl' shuffle (a', b', c', d') [0..7]+ ts = (c'' `xor` arrayRead32 ks 4, d'' `xor` arrayRead32 ks 5, a'' `xor` arrayRead32 ks 6, b'' `xor` arrayRead32 ks 7)++ shuffle :: (Word32, Word32, Word32, Word32) -> Int -> (Word32, Word32, Word32, Word32)+ shuffle (!retA, !retB, !retC, !retD) ind = (retA', retB', retC', retD')+ where [k0, k1, k2, k3] = fmap (\offset -> arrayRead32 ks $ (8 + 4 * ind) + offset) [0..3]+ t2 = byteIndex s2 retB `xor` byteIndex s3 (shiftR retB 8) `xor` byteIndex s4 (shiftR retB 16) `xor` byteIndex s1 (shiftR retB 24)+ t1 = (byteIndex s1 retA `xor` byteIndex s2 (shiftR retA 8) `xor` byteIndex s3 (shiftR retA 16) `xor` byteIndex s4 (shiftR retA 24)) + t2+ retC' = rotateR (retC `xor` (t1 + k0)) 1+ retD' = rotateL retD 1 `xor` (t1 + t2 + k1)+ t2' = byteIndex s2 retD' `xor` byteIndex s3 (shiftR retD' 8) `xor` byteIndex s4 (shiftR retD' 16) `xor` byteIndex s1 (shiftR retD' 24)+ t1' = (byteIndex s1 retC' `xor` byteIndex s2 (shiftR retC' 8) `xor` byteIndex s3 (shiftR retC' 16) `xor` byteIndex s4 (shiftR retC' 24)) + t2'+ retA' = rotateR (retA `xor` (t1' + k2)) 1+ retB' = rotateL retB 1 `xor` (t1' + t2' + k3)++-- Unsafe, no bounds checking+byteIndex :: Array32 -> Word32 -> Word32+byteIndex xs ind = arrayRead32 xs $ fromIntegral byte+ where byte = ind `mod` 256++-- | Decrypts the given ByteString using the given Key+decrypt :: ByteArray ba+ => Twofish -- ^ The key to use+ -> ba -- ^ The data to decrypt+ -> ba+decrypt cipher = mapBlocks (decryptBlock cipher)++{- decryption for 128 bits blocks -}+decryptBlock :: ByteArray ba => Twofish -> ba -> ba+decryptBlock Twofish { s = (s1, s2, s3, s4), k = ks } message = store32ls ixs+ where (a, b, c, d) = load32ls message+ a' = c `xor` arrayRead32 ks 6+ b' = d `xor` arrayRead32 ks 7+ c' = a `xor` arrayRead32 ks 4+ d' = b `xor` arrayRead32 ks 5+ (!a'', !b'', !c'', !d'') = foldl' unshuffle (a', b', c', d') [8, 7..1]+ ixs = (a'' `xor` arrayRead32 ks 0, b'' `xor` arrayRead32 ks 1, c'' `xor` arrayRead32 ks 2, d'' `xor` arrayRead32 ks 3)++ unshuffle :: (Word32, Word32, Word32, Word32) -> Int -> (Word32, Word32, Word32, Word32)+ unshuffle (!retA, !retB, !retC, !retD) ind = (retA', retB', retC', retD')+ where [k0, k1, k2, k3] = fmap (\offset -> arrayRead32 ks $ (4 + 4 * ind) + offset) [0..3]+ t2 = byteIndex s2 retD `xor` byteIndex s3 (shiftR retD 8) `xor` byteIndex s4 (shiftR retD 16) `xor` byteIndex s1 (shiftR retD 24)+ t1 = (byteIndex s1 retC `xor` byteIndex s2 (shiftR retC 8) `xor` byteIndex s3 (shiftR retC 16) `xor` byteIndex s4 (shiftR retC 24)) + t2+ retA' = rotateL retA 1 `xor` (t1 + k2)+ retB' = rotateR (retB `xor` (t2 + t1 + k3)) 1+ t2' = byteIndex s2 retB' `xor` byteIndex s3 (shiftR retB' 8) `xor` byteIndex s4 (shiftR retB' 16) `xor` byteIndex s1 (shiftR retB' 24)+ t1' = (byteIndex s1 retA' `xor` byteIndex s2 (shiftR retA' 8) `xor` byteIndex s3 (shiftR retA' 16) `xor` byteIndex s4 (shiftR retA' 24)) + t2'+ retC' = rotateL retC 1 `xor` (t1' + k0)+ retD' = rotateR (retD `xor` (t2' + t1' + k1)) 1++sbox0 :: Int -> Word8+sbox0 = arrayRead8 t+ where t = array8+ "\xa9\x67\xb3\xe8\x04\xfd\xa3\x76\x9a\x92\x80\x78\xe4\xdd\xd1\x38\+ \\x0d\xc6\x35\x98\x18\xf7\xec\x6c\x43\x75\x37\x26\xfa\x13\x94\x48\+ \\xf2\xd0\x8b\x30\x84\x54\xdf\x23\x19\x5b\x3d\x59\xf3\xae\xa2\x82\+ \\x63\x01\x83\x2e\xd9\x51\x9b\x7c\xa6\xeb\xa5\xbe\x16\x0c\xe3\x61\+ \\xc0\x8c\x3a\xf5\x73\x2c\x25\x0b\xbb\x4e\x89\x6b\x53\x6a\xb4\xf1\+ \\xe1\xe6\xbd\x45\xe2\xf4\xb6\x66\xcc\x95\x03\x56\xd4\x1c\x1e\xd7\+ \\xfb\xc3\x8e\xb5\xe9\xcf\xbf\xba\xea\x77\x39\xaf\x33\xc9\x62\x71\+ \\x81\x79\x09\xad\x24\xcd\xf9\xd8\xe5\xc5\xb9\x4d\x44\x08\x86\xe7\+ \\xa1\x1d\xaa\xed\x06\x70\xb2\xd2\x41\x7b\xa0\x11\x31\xc2\x27\x90\+ \\x20\xf6\x60\xff\x96\x5c\xb1\xab\x9e\x9c\x52\x1b\x5f\x93\x0a\xef\+ \\x91\x85\x49\xee\x2d\x4f\x8f\x3b\x47\x87\x6d\x46\xd6\x3e\x69\x64\+ \\x2a\xce\xcb\x2f\xfc\x97\x05\x7a\xac\x7f\xd5\x1a\x4b\x0e\xa7\x5a\+ \\x28\x14\x3f\x29\x88\x3c\x4c\x02\xb8\xda\xb0\x17\x55\x1f\x8a\x7d\+ \\x57\xc7\x8d\x74\xb7\xc4\x9f\x72\x7e\x15\x22\x12\x58\x07\x99\x34\+ \\x6e\x50\xde\x68\x65\xbc\xdb\xf8\xc8\xa8\x2b\x40\xdc\xfe\x32\xa4\+ \\xca\x10\x21\xf0\xd3\x5d\x0f\x00\x6f\x9d\x36\x42\x4a\x5e\xc1\xe0"#++sbox1 :: Int -> Word8+sbox1 = arrayRead8 t+ where t = array8+ "\x75\xf3\xc6\xf4\xdb\x7b\xfb\xc8\x4a\xd3\xe6\x6b\x45\x7d\xe8\x4b\+ \\xd6\x32\xd8\xfd\x37\x71\xf1\xe1\x30\x0f\xf8\x1b\x87\xfa\x06\x3f\+ \\x5e\xba\xae\x5b\x8a\x00\xbc\x9d\x6d\xc1\xb1\x0e\x80\x5d\xd2\xd5\+ \\xa0\x84\x07\x14\xb5\x90\x2c\xa3\xb2\x73\x4c\x54\x92\x74\x36\x51\+ \\x38\xb0\xbd\x5a\xfc\x60\x62\x96\x6c\x42\xf7\x10\x7c\x28\x27\x8c\+ \\x13\x95\x9c\xc7\x24\x46\x3b\x70\xca\xe3\x85\xcb\x11\xd0\x93\xb8\+ \\xa6\x83\x20\xff\x9f\x77\xc3\xcc\x03\x6f\x08\xbf\x40\xe7\x2b\xe2\+ \\x79\x0c\xaa\x82\x41\x3a\xea\xb9\xe4\x9a\xa4\x97\x7e\xda\x7a\x17\+ \\x66\x94\xa1\x1d\x3d\xf0\xde\xb3\x0b\x72\xa7\x1c\xef\xd1\x53\x3e\+ \\x8f\x33\x26\x5f\xec\x76\x2a\x49\x81\x88\xee\x21\xc4\x1a\xeb\xd9\+ \\xc5\x39\x99\xcd\xad\x31\x8b\x01\x18\x23\xdd\x1f\x4e\x2d\xf9\x48\+ \\x4f\xf2\x65\x8e\x78\x5c\x58\x19\x8d\xe5\x98\x57\x67\x7f\x05\x64\+ \\xaf\x63\xb6\xfe\xf5\xb7\x3c\xa5\xce\xe9\x68\x44\xe0\x4d\x43\x69\+ \\x29\x2e\xac\x15\x59\xa8\x0a\x9e\x6e\x47\xdf\x34\x35\x6a\xcf\xdc\+ \\x22\xc9\xc0\x9b\x89\xd4\xed\xab\x12\xa2\x0d\x52\xbb\x02\x2f\xa9\+ \\xd7\x61\x1e\xb4\x50\x04\xf6\xc2\x16\x25\x86\x56\x55\x09\xbe\x91"#++rs :: [[Word8]]+rs = [ [0x01, 0xA4, 0x55, 0x87, 0x5A, 0x58, 0xDB, 0x9E]+ , [0xA4, 0x56, 0x82, 0xF3, 0x1E, 0xC6, 0x68, 0xE5]+ , [0x02, 0xA1, 0xFC, 0xC1, 0x47, 0xAE, 0x3D, 0x19]+ , [0xA4, 0x55, 0x87, 0x5A, 0x58, 0xDB, 0x9E, 0x03] ]++++load32ls :: ByteArray ba => ba -> (Word32, Word32, Word32, Word32)+load32ls message = (intify q1, intify q2, intify q3, intify q4)+ where (half1, half2) = B.splitAt 8 message+ (q1, q2) = B.splitAt 4 half1+ (q3, q4) = B.splitAt 4 half2++ intify :: ByteArray ba => ba -> Word32+ intify bytes = foldl' (\int (!word, !ind) -> int .|. shiftL (fromIntegral word) (ind * 8) ) 0 (zip (B.unpack bytes) [0..])++store32ls :: ByteArray ba => (Word32, Word32, Word32, Word32) -> ba+store32ls (a, b, c, d) = B.pack $ concatMap splitWordl [a, b, c, d]+ where splitWordl :: Word32 -> [Word8]+ splitWordl w = fmap (\ind -> fromIntegral $ shiftR w (8 * ind)) [0..3]+++-- Create S words+sWords :: ByteArray ba => ba -> [Word8]+sWords key = sWord+ where word64Count = B.length key `div` 2+ sWord = concatMap (\wordIndex ->+ map (\rsRow ->+ foldl' (\acc (!rsVal, !colIndex) ->+ acc `xor` gfMult rsPolynomial (B.index key $ 8 * wordIndex + colIndex) rsVal+ ) 0 (zip rsRow [0..])+ ) rs+ ) [0..word64Count - 1]++data Column = Zero | One | Two | Three deriving (Show, Eq, Enum, Bounded)++genSboxes :: KeyPackage ba -> [Word8] -> (Array32, Array32, Array32, Array32)+genSboxes keyPackage ws = (mkArray b0', mkArray b1', mkArray b2', mkArray b3')+ where range = [0..255]+ mkArray = array32 256+ [w0, w1, w2, w3, w4, w5, w6, w7, w8, w9, w10, w11, w12, w13, w14, w15] = take 16 ws+ (b0', b1', b2', b3') = sboxBySize $ byteSize keyPackage++ sboxBySize :: ByteSize -> ([Word32], [Word32], [Word32], [Word32])+ sboxBySize Bytes16 = (b0, b1, b2, b3)+ where !b0 = fmap mapper range+ where mapper :: Int -> Word32+ mapper byte = mdsColumnMult ((sbox1 . fromIntegral) ((sbox0 . fromIntegral $ sbox0 byte `xor` w0) `xor` w4)) Zero+ !b1 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox0 . fromIntegral) ((sbox0 . fromIntegral $ sbox1 byte `xor` w1) `xor` w5)) One+ !b2 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox1 . fromIntegral) ((sbox1 . fromIntegral $ sbox0 byte `xor` w2) `xor` w6)) Two+ !b3 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox0 . fromIntegral) ((sbox1 . fromIntegral $ sbox1 byte `xor` w3) `xor` w7)) Three++ sboxBySize Bytes24 = (b0, b1, b2, b3)+ where !b0 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox1 . fromIntegral) ((sbox0 . fromIntegral) ((sbox0 . fromIntegral $ sbox1 byte `xor` w0) `xor` w4) `xor` w8)) Zero+ !b1 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox0 . fromIntegral) ((sbox0 . fromIntegral) ((sbox1 . fromIntegral $ sbox1 byte `xor` w1) `xor` w5) `xor` w9)) One+ !b2 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox1 . fromIntegral) ((sbox1 . fromIntegral) ((sbox0 . fromIntegral $ sbox0 byte `xor` w2) `xor` w6) `xor` w10)) Two+ !b3 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox0 . fromIntegral) ((sbox1 . fromIntegral) ((sbox1 . fromIntegral $ sbox0 byte `xor` w3) `xor` w7) `xor` w11)) Three++ sboxBySize Bytes32 = (b0, b1, b2, b3)+ where !b0 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox1 . fromIntegral) ((sbox0 . fromIntegral) ((sbox0 . fromIntegral) ((sbox1 . fromIntegral $ sbox1 byte `xor` w0) `xor` w4) `xor` w8) `xor` w12)) Zero+ !b1 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox0 . fromIntegral) ((sbox0 . fromIntegral) ((sbox1 . fromIntegral) ((sbox1 . fromIntegral $ sbox0 byte `xor` w1) `xor` w5) `xor` w9) `xor` w13)) One+ !b2 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox1 . fromIntegral) ((sbox1 . fromIntegral) ((sbox0 . fromIntegral) ((sbox0 . fromIntegral $ sbox0 byte `xor` w2) `xor` w6) `xor` w10) `xor` w14)) Two+ !b3 = fmap mapper range+ where mapper byte = mdsColumnMult ((sbox0 . fromIntegral) ((sbox1 . fromIntegral) ((sbox1 . fromIntegral) ((sbox0 . fromIntegral $ sbox1 byte `xor` w3) `xor` w7) `xor` w11) `xor` w15)) Three++genK :: (ByteArray ba) => KeyPackage ba -> [Word32]+genK keyPackage = concatMap makeTuple [0..19]+ where makeTuple :: Word8 -> [Word32]+ makeTuple idx = [a + b', rotateL (2 * b' + a) 9]+ where tmp1 = replicate 4 $ 2 * idx+ tmp2 = fmap (+1) tmp1+ a = h tmp1 keyPackage 0+ b = h tmp2 keyPackage 1+ b' = rotateL b 8++h :: (ByteArray ba) => [Word8] -> KeyPackage ba -> Int -> Word32+h input keyPackage offset = foldl' xorMdsColMult 0 $ zip [y0f, y1f, y2f, y3f] $ enumFrom Zero+ where key = rawKeyBytes keyPackage+ [y0, y1, y2, y3] = take 4 input+ (!y0f, !y1f, !y2f, !y3f) = run (y0, y1, y2, y3) $ byteSize keyPackage++ run :: (Word8, Word8, Word8, Word8) -> ByteSize -> (Word8, Word8, Word8, Word8)+ run (!y0'', !y1'', !y2'', !y3'') Bytes32 = run (y0', y1', y2', y3') Bytes24+ where y0' = sbox1 (fromIntegral y0'') `xor` B.index key (4 * (6 + offset) + 0)+ y1' = sbox0 (fromIntegral y1'') `xor` B.index key (4 * (6 + offset) + 1)+ y2' = sbox0 (fromIntegral y2'') `xor` B.index key (4 * (6 + offset) + 2)+ y3' = sbox1 (fromIntegral y3'') `xor` B.index key (4 * (6 + offset) + 3)++ run (!y0'', !y1'', !y2'', !y3'') Bytes24 = run (y0', y1', y2', y3') Bytes16+ where y0' = sbox1 (fromIntegral y0'') `xor` B.index key (4 * (4 + offset) + 0)+ y1' = sbox1 (fromIntegral y1'') `xor` B.index key (4 * (4 + offset) + 1)+ y2' = sbox0 (fromIntegral y2'') `xor` B.index key (4 * (4 + offset) + 2)+ y3' = sbox0 (fromIntegral y3'') `xor` B.index key (4 * (4 + offset) + 3)++ run (!y0'', !y1'', !y2'', !y3'') Bytes16 = (y0', y1', y2', y3')+ where y0' = sbox1 . fromIntegral $ (sbox0 . fromIntegral $ (sbox0 (fromIntegral y0'') `xor` B.index key (4 * (2 + offset) + 0))) `xor` B.index key (4 * (0 + offset) + 0)+ y1' = sbox0 . fromIntegral $ (sbox0 . fromIntegral $ (sbox1 (fromIntegral y1'') `xor` B.index key (4 * (2 + offset) + 1))) `xor` B.index key (4 * (0 + offset) + 1)+ y2' = sbox1 . fromIntegral $ (sbox1 . fromIntegral $ (sbox0 (fromIntegral y2'') `xor` B.index key (4 * (2 + offset) + 2))) `xor` B.index key (4 * (0 + offset) + 2)+ y3' = sbox0 . fromIntegral $ (sbox1 . fromIntegral $ (sbox1 (fromIntegral y3'') `xor` B.index key (4 * (2 + offset) + 3))) `xor` B.index key (4 * (0 + offset) + 3)++ xorMdsColMult :: Word32 -> (Word8, Column) -> Word32+ xorMdsColMult acc wordAndIndex = acc `xor` uncurry mdsColumnMult wordAndIndex++mdsColumnMult :: Word8 -> Column -> Word32+mdsColumnMult !byte !col =+ case col of Zero -> input .|. rotateL mul5B 8 .|. rotateL mulEF 16 .|. rotateL mulEF 24+ One -> mulEF .|. rotateL mulEF 8 .|. rotateL mul5B 16 .|. rotateL input 24+ Two -> mul5B .|. rotateL mulEF 8 .|. rotateL input 16 .|. rotateL mulEF 24+ Three -> mul5B .|. rotateL input 8 .|. rotateL mulEF 16 .|. rotateL mul5B 24+ where input = fromIntegral byte+ mul5B = fromIntegral $ gfMult mdsPolynomial byte 0x5B+ mulEF = fromIntegral $ gfMult mdsPolynomial byte 0xEF++tupInd :: (Bits b) => b -> (a, a) -> a+tupInd b+ | testBit b 0 = snd+ | otherwise = fst++gfMult :: Word32 -> Word8 -> Word8 -> Word8+gfMult p a b = fromIntegral $ run a b' p' result 0+ where b' = (0, fromIntegral b)+ p' = (0, p)+ result = 0++ run :: Word8 -> (Word32, Word32) -> (Word32, Word32) -> Word32 -> Int -> Word32+ run a' b'' p'' result' count =+ if count == 7+ then result''+ else run a'' b''' p'' result'' (count + 1)+ where result'' = result' `xor` tupInd (a' .&. 1) b''+ a'' = shiftR a' 1+ b''' = (fst b'', tupInd (shiftR (snd b'') 7) p'' `xor` shiftL (snd b'') 1)
Crypto/Cipher/Types.hs view
@@ -5,7 +5,7 @@ -- Stability : Stable -- Portability : Excellent ----- symmetric cipher basic types+-- Symmetric cipher basic types -- {-# LANGUAGE DeriveDataTypeable #-} module Crypto.Cipher.Types@@ -21,6 +21,8 @@ -- , cfb8Decrypt -- * AEAD functions , AEADMode(..)+ , CCM_M(..)+ , CCM_L(..) , module Crypto.Cipher.Types.AEAD -- * Initial Vector type and constructor , IV
Crypto/Cipher/Types/AEAD.hs view
@@ -27,24 +27,24 @@ -- | Authenticated Encryption with Associated Data algorithms data AEAD cipher = forall st . AEAD { aeadModeImpl :: AEADModeImpl st- , aeadState :: st+ , aeadState :: !st } -- | Append some header information to an AEAD context aeadAppendHeader :: ByteArrayAccess aad => AEAD cipher -> aad -> AEAD cipher-aeadAppendHeader (AEAD impl st) aad = AEAD impl $ (aeadImplAppendHeader impl) st aad+aeadAppendHeader (AEAD impl st) aad = AEAD impl $ aeadImplAppendHeader impl st aad -- | Encrypt some data and update the AEAD context aeadEncrypt :: ByteArray ba => AEAD cipher -> ba -> (ba, AEAD cipher)-aeadEncrypt (AEAD impl st) ba = second (AEAD impl) $ (aeadImplEncrypt impl) st ba+aeadEncrypt (AEAD impl st) ba = second (AEAD impl) $ aeadImplEncrypt impl st ba -- | Decrypt some data and update the AEAD context aeadDecrypt :: ByteArray ba => AEAD cipher -> ba -> (ba, AEAD cipher)-aeadDecrypt (AEAD impl st) ba = second (AEAD impl) $ (aeadImplDecrypt impl) st ba+aeadDecrypt (AEAD impl st) ba = second (AEAD impl) $ aeadImplDecrypt impl st ba -- | Finalize the AEAD context and return the authentication tag aeadFinalize :: AEAD cipher -> Int -> AuthTag-aeadFinalize (AEAD impl st) n = (aeadImplFinalize impl) st n+aeadFinalize (AEAD impl st) = aeadImplFinalize impl st -- | Simple AEAD encryption aeadSimpleEncrypt :: (ByteArrayAccess aad, ByteArray ba)
Crypto/Cipher/Types/Base.hs view
@@ -5,7 +5,7 @@ -- Stability : Stable -- Portability : Excellent ----- symmetric cipher basic types+-- Symmetric cipher basic types -- {-# LANGUAGE ExistentialQuantification #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-}@@ -14,12 +14,15 @@ , Cipher(..) , AuthTag(..) , AEADMode(..)+ , CCM_M(..)+ , CCM_L(..) , DataUnitOffset ) where import Data.Word import Crypto.Internal.ByteArray (Bytes, ByteArrayAccess, ByteArray) import qualified Crypto.Internal.ByteArray as B+import Crypto.Internal.DeepSeq import Crypto.Error -- | Different specifier for key size in bytes@@ -34,15 +37,18 @@ -- | Authentication Tag for AE cipher mode newtype AuthTag = AuthTag { unAuthTag :: Bytes }- deriving (Show, ByteArrayAccess)+ deriving (Show, ByteArrayAccess, NFData) instance Eq AuthTag where (AuthTag a) == (AuthTag b) = B.constEq a b +data CCM_M = CCM_M4 | CCM_M6 | CCM_M8 | CCM_M10 | CCM_M12 | CCM_M14 | CCM_M16 deriving (Show, Eq)+data CCM_L = CCM_L2 | CCM_L3 | CCM_L4 deriving (Show, Eq)+ -- | AEAD Mode data AEADMode = AEAD_OCB -- OCB3- | AEAD_CCM+ | AEAD_CCM Int CCM_M CCM_L | AEAD_EAX | AEAD_CWC | AEAD_GCM
Crypto/Cipher/Types/Block.hs view
@@ -5,7 +5,7 @@ -- Stability : Stable -- Portability : Excellent ----- block cipher basic types+-- Block cipher basic types -- {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE ExistentialQuantification #-}@@ -16,7 +16,7 @@ -- * BlockCipher BlockCipher(..) , BlockCipher128(..)- -- * initialization vector (IV)+ -- * Initialization vector (IV) , IV(..) , makeIV , nullIV@@ -37,7 +37,6 @@ ) where import Data.Word-import Data.Monoid import Crypto.Error import Crypto.Cipher.Types.Base import Crypto.Cipher.Types.GF@@ -164,27 +163,20 @@ -- | Increment an IV by a number. -- -- Assume the IV is in Big Endian format.-ivAdd :: BlockCipher c => IV c -> Int -> IV c+ivAdd :: IV c -> Int -> IV c ivAdd (IV b) i = IV $ copy b where copy :: ByteArray bs => bs -> bs- copy bs = B.copyAndFreeze bs $ \p -> do- let until0 accu = do- r <- loop accu (B.length bs - 1) p- case r of- 0 -> return ()- _ -> until0 r- until0 i+ copy bs = B.copyAndFreeze bs $ loop i (B.length bs - 1) - loop :: Int -> Int -> Ptr Word8 -> IO Int- loop 0 _ _ = return 0- loop acc ofs p = do- v <- peek (p `plusPtr` ofs) :: IO Word8- let accv = acc + fromIntegral v- (hi,lo) = accv `divMod` 256- poke (p `plusPtr` ofs) (fromIntegral lo :: Word8)- if ofs == 0- then return hi- else loop hi (ofs - 1) p+ loop :: Int -> Int -> Ptr Word8 -> IO ()+ loop acc ofs p+ | ofs < 0 = return ()+ | otherwise = do+ v <- peek (p `plusPtr` ofs) :: IO Word8+ let accv = acc + fromIntegral v+ (hi,lo) = accv `divMod` 256+ poke (p `plusPtr` ofs) (fromIntegral lo :: Word8)+ loop hi (ofs - 1) p cbcEncryptGeneric :: (ByteArray ba, BlockCipher cipher) => cipher -> IV cipher -> ba -> ba cbcEncryptGeneric cipher ivini input = mconcat $ doEnc ivini $ chunk (blockSize cipher) input
Crypto/Cipher/Types/Stream.hs view
@@ -5,7 +5,7 @@ -- Stability : Stable -- Portability : Excellent ----- stream cipher basic types+-- Stream cipher basic types -- module Crypto.Cipher.Types.Stream ( StreamCipher(..)
Crypto/Cipher/Types/Utils.hs view
@@ -5,7 +5,7 @@ -- Stability : Stable -- Portability : Excellent ----- basic utility for cipher related stuff+-- Basic utility for cipher related stuff -- module Crypto.Cipher.Types.Utils where
+ Crypto/Cipher/Utils.hs view
@@ -0,0 +1,18 @@+module Crypto.Cipher.Utils+ ( validateKeySize+ ) where++import Crypto.Error+import Crypto.Cipher.Types++import Data.ByteArray as BA++validateKeySize :: (ByteArrayAccess key, Cipher cipher) => cipher -> key -> CryptoFailable key+validateKeySize c k = if validKeyLength+ then CryptoPassed k+ else CryptoFailed CryptoError_KeySizeInvalid+ where keyLength = BA.length k+ validKeyLength = case cipherKeySize c of+ KeySizeRange low high -> keyLength >= low && keyLength <= high+ KeySizeEnum lengths -> keyLength `elem` lengths+ KeySizeFixed s -> keyLength == s
+ Crypto/Cipher/XSalsa.hs view
@@ -0,0 +1,75 @@+-- |+-- Module : Crypto.Cipher.XSalsa+-- License : BSD-style+-- Maintainer : Brandon Hamilton <brandon.hamilton@gmail.com>+-- Stability : stable+-- Portability : good+--+-- Implementation of XSalsa20 algorithm+-- <https://cr.yp.to/snuffle/xsalsa-20081128.pdf>+-- Based on the Salsa20 algorithm with 256 bit key extended with 192 bit nonce++{-# LANGUAGE ForeignFunctionInterface #-}+module Crypto.Cipher.XSalsa+ ( initialize+ , derive+ , combine+ , generate+ , State+ ) where++import Crypto.Internal.ByteArray (ByteArrayAccess)+import qualified Crypto.Internal.ByteArray as B+import Crypto.Internal.Compat+import Crypto.Internal.Imports+import Foreign.Ptr+import Crypto.Cipher.Salsa hiding (initialize)++-- | Initialize a new XSalsa context with the number of rounds,+-- the key and the nonce associated.+initialize :: (ByteArrayAccess key, ByteArrayAccess nonce)+ => Int -- ^ number of rounds (8,12,20)+ -> key -- ^ the key (256 bits)+ -> nonce -- ^ the nonce (192 bits)+ -> State -- ^ the initial XSalsa state+initialize nbRounds key nonce+ | kLen /= 32 = error "XSalsa: key length should be 256 bits"+ | nonceLen /= 24 = error "XSalsa: nonce length should be 192 bits"+ | nbRounds `notElem` [8,12,20] = error "XSalsa: rounds should be 8, 12 or 20"+ | otherwise = unsafeDoIO $ do+ stPtr <- B.alloc 132 $ \stPtr ->+ B.withByteArray nonce $ \noncePtr ->+ B.withByteArray key $ \keyPtr ->+ ccryptonite_xsalsa_init stPtr nbRounds kLen keyPtr nonceLen noncePtr+ return $ State stPtr+ where kLen = B.length key+ nonceLen = B.length nonce++-- | Use an already initialized context and new nonce material to derive another+-- XSalsa context.+--+-- This allows a multi-level cascade where a first key @k1@ and nonce @n1@ is+-- used to get @HState(k1,n1)@, and this value is then used as key @k2@ to build+-- @XSalsa(k2,n2)@. Function 'initialize' is to be called with the first 192+-- bits of @n1|n2@, and the call to @derive@ should add the remaining 128 bits.+--+-- The output context always uses the same number of rounds as the input+-- context.+derive :: ByteArrayAccess nonce+ => State -- ^ base XSalsa state+ -> nonce -- ^ the remainder nonce (128 bits)+ -> State -- ^ the new XSalsa state+derive (State stPtr') nonce+ | nonceLen /= 16 = error "XSalsa: nonce length should be 128 bits"+ | otherwise = unsafeDoIO $ do+ stPtr <- B.copy stPtr' $ \stPtr ->+ B.withByteArray nonce $ \noncePtr ->+ ccryptonite_xsalsa_derive stPtr nonceLen noncePtr+ return $ State stPtr+ where nonceLen = B.length nonce++foreign import ccall "cryptonite_xsalsa_init"+ ccryptonite_xsalsa_init :: Ptr State -> Int -> Int -> Ptr Word8 -> Int -> Ptr Word8 -> IO ()++foreign import ccall "cryptonite_xsalsa_derive"+ ccryptonite_xsalsa_derive :: Ptr State -> Int -> Ptr Word8 -> IO ()
+ Crypto/ConstructHash/MiyaguchiPreneel.hs view
@@ -0,0 +1,68 @@+-- |+-- Module : Crypto.ConstructHash.MiyaguchiPreneel+-- License : BSD-style+-- Maintainer : Kei Hibino <ex8k.hibino@gmail.com>+-- Stability : experimental+-- Portability : unknown+--+-- Provide the hash function construction method from block cipher+-- <https://en.wikipedia.org/wiki/One-way_compression_function>+--+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+module Crypto.ConstructHash.MiyaguchiPreneel+ ( compute, compute'+ , MiyaguchiPreneel+ ) where++import Data.List (foldl')++import Crypto.Data.Padding (pad, Format (ZERO))+import Crypto.Cipher.Types+import Crypto.Error (throwCryptoError)+import Crypto.Internal.ByteArray (ByteArrayAccess, ByteArray, Bytes)+import qualified Crypto.Internal.ByteArray as B+++newtype MiyaguchiPreneel a = MP Bytes+ deriving (ByteArrayAccess)++instance Eq (MiyaguchiPreneel a) where+ MP b1 == MP b2 = B.constEq b1 b2+++-- | Compute Miyaguchi-Preneel one way compress using the supplied block cipher.+compute' :: (ByteArrayAccess bin, BlockCipher cipher)+ => (Bytes -> cipher) -- ^ key build function to compute Miyaguchi-Preneel. care about block-size and key-size+ -> bin -- ^ input message+ -> MiyaguchiPreneel cipher -- ^ output tag+compute' g = MP . foldl' (step $ g) (B.replicate bsz 0) . chunks . pad (ZERO bsz) . B.convert+ where+ bsz = blockSize ( g B.empty {- dummy to get block size -} )+ chunks msg+ | B.null msg = []+ | otherwise = (hd :: Bytes) : chunks tl+ where+ (hd, tl) = B.splitAt bsz msg++-- | Compute Miyaguchi-Preneel one way compress using the inferred block cipher.+-- Only safe when KEY-SIZE equals to BLOCK-SIZE.+--+-- Simple usage /mp' msg :: MiyaguchiPreneel AES128/+compute :: (ByteArrayAccess bin, BlockCipher cipher)+ => bin -- ^ input message+ -> MiyaguchiPreneel cipher -- ^ output tag+compute = compute' $ throwCryptoError . cipherInit++-- | computation step of Miyaguchi-Preneel+step :: (ByteArray ba, BlockCipher k)+ => (ba -> k)+ -> ba+ -> ba+ -> ba+step g iv msg =+ ecbEncrypt k msg `bxor` iv `bxor` msg+ where+ k = g iv++bxor :: ByteArray ba => ba -> ba -> ba+bxor = B.xor
Crypto/Data/AFIS.hs view
@@ -5,7 +5,7 @@ -- Stability : experimental -- Portability : unknown ----- haskell implementation of the Anti-forensic information splitter+-- Haskell implementation of the Anti-forensic information splitter -- available in LUKS. <http://clemens.endorphin.org/AFsplitter> -- -- The algorithm bloats an arbitrary secret with many bits that are necessary for@@ -77,7 +77,7 @@ diffuse hashAlg lastBlock blockSize fillRandomBlock g blockPtr = do let (rand :: Bytes, g') = randomBytesGenerate blockSize g- B.withByteArray rand $ \randPtr -> memCopy blockPtr randPtr (fromIntegral blockSize)+ B.withByteArray rand $ \randPtr -> memCopy blockPtr randPtr blockSize return g' -- | Merge previously diffused data back to the original data.
Crypto/Data/Padding.hs view
@@ -6,7 +6,7 @@ -- Portability : unknown -- -- Various cryptographic padding commonly used for block ciphers--- or assymetric systems.+-- or asymmetric systems. -- module Crypto.Data.Padding ( Format(..)@@ -21,6 +21,7 @@ data Format = PKCS5 -- ^ PKCS5: PKCS7 with hardcoded size of 8 | PKCS7 Int -- ^ PKCS7 with padding size between 1 and 255+ | ZERO Int -- ^ zero padding with block size deriving (Show, Eq) -- | Apply some pad to a bytearray@@ -30,6 +31,15 @@ where paddingString = B.replicate paddingByte (fromIntegral paddingByte) paddingByte = sz - (B.length bin `mod` sz)+pad (ZERO sz) bin = bin `B.append` paddingString+ where+ paddingString = B.replicate paddingSz 0+ paddingSz+ | len == 0 = sz+ | m == 0 = 0+ | otherwise = sz - m+ m = len `mod` sz+ len = B.length bin -- | Try to remove some padding from a bytearray. unpad :: ByteArray byteArray => Format -> byteArray -> Maybe byteArray@@ -46,3 +56,10 @@ paddingSz = fromIntegral paddingByte (content, padding) = B.splitAt (len - paddingSz) bin paddingWitness = B.replicate paddingSz paddingByte :: Bytes+unpad (ZERO sz) bin+ | len == 0 = Nothing+ | (len `mod` sz) /= 0 = Nothing+ | B.index bin (len - 1) /= 0 = Just bin+ | otherwise = Nothing+ where+ len = B.length bin
+ Crypto/ECC.hs view
@@ -0,0 +1,408 @@+-- |+-- Module : Crypto.ECC+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : unknown+--+-- Elliptic Curve Cryptography+--+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE FlexibleContexts #-}+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+{-# LANGUAGE TypeFamilies #-}+{-# LANGUAGE ScopedTypeVariables #-}+module Crypto.ECC+ ( Curve_P256R1(..)+ , Curve_P384R1(..)+ , Curve_P521R1(..)+ , Curve_X25519(..)+ , Curve_X448(..)+ , Curve_Edwards25519(..)+ , EllipticCurve(..)+ , EllipticCurveDH(..)+ , EllipticCurveArith(..)+ , EllipticCurveBasepointArith(..)+ , KeyPair(..)+ , SharedSecret(..)+ ) where++import qualified Crypto.PubKey.ECC.P256 as P256+import qualified Crypto.ECC.Edwards25519 as Edwards25519+import qualified Crypto.ECC.Simple.Types as Simple+import qualified Crypto.ECC.Simple.Prim as Simple+import Crypto.Random+import Crypto.Error+import Crypto.Internal.Imports+import Crypto.Internal.ByteArray (ByteArray, ByteArrayAccess, ScrubbedBytes)+import qualified Crypto.Internal.ByteArray as B+import Crypto.Number.Basic (numBits)+import Crypto.Number.Serialize (i2ospOf_, os2ip)+import qualified Crypto.Number.Serialize.LE as LE+import qualified Crypto.PubKey.Curve25519 as X25519+import qualified Crypto.PubKey.Curve448 as X448+import Data.ByteArray (convert)+import Data.Data (Data())+import Data.Kind (Type)+import Data.Proxy++-- | An elliptic curve key pair composed of the private part (a scalar), and+-- the associated point.+data KeyPair curve = KeyPair+ { keypairGetPublic :: !(Point curve)+ , keypairGetPrivate :: !(Scalar curve)+ }++newtype SharedSecret = SharedSecret ScrubbedBytes+ deriving (Eq, ByteArrayAccess, NFData)++class EllipticCurve curve where+ -- | Point on an Elliptic Curve+ type Point curve :: Type++ -- | Scalar in the Elliptic Curve domain+ type Scalar curve :: Type++ -- | Generate a new random scalar on the curve.+ -- The scalar will represent a number between 1 and the order of the curve non included+ curveGenerateScalar :: MonadRandom randomly => proxy curve -> randomly (Scalar curve)++ -- | Generate a new random keypair+ curveGenerateKeyPair :: MonadRandom randomly => proxy curve -> randomly (KeyPair curve)++ -- | Get the curve size in bits+ curveSizeBits :: proxy curve -> Int++ -- | Encode a elliptic curve point into binary form+ encodePoint :: ByteArray bs => proxy curve -> Point curve -> bs++ -- | Try to decode the binary form of an elliptic curve point+ decodePoint :: ByteArray bs => proxy curve -> bs -> CryptoFailable (Point curve)++class EllipticCurve curve => EllipticCurveDH curve where+ -- | Generate a Diffie hellman secret value.+ --+ -- This is generally just the .x coordinate of the resulting point, that+ -- is not hashed.+ --+ -- use `pointSmul` to keep the result in Point format.+ --+ -- /WARNING:/ Curve implementations may return a special value or an+ -- exception when the public point lies in a subgroup of small order.+ -- This function is adequate when the scalar is in expected range and+ -- contributory behaviour is not needed. Otherwise use 'ecdh'.+ ecdhRaw :: proxy curve -> Scalar curve -> Point curve -> SharedSecret+ ecdhRaw prx s = throwCryptoError . ecdh prx s++ -- | Generate a Diffie hellman secret value and verify that the result+ -- is not the point at infinity.+ --+ -- This additional test avoids risks existing with function 'ecdhRaw'.+ -- Implementations always return a 'CryptoError' instead of a special+ -- value or an exception.+ ecdh :: proxy curve -> Scalar curve -> Point curve -> CryptoFailable SharedSecret++class (EllipticCurve curve, Eq (Point curve)) => EllipticCurveArith curve where+ -- | Add points on a curve+ pointAdd :: proxy curve -> Point curve -> Point curve -> Point curve++ -- | Negate a curve point+ pointNegate :: proxy curve -> Point curve -> Point curve++ -- | Scalar Multiplication on a curve+ pointSmul :: proxy curve -> Scalar curve -> Point curve -> Point curve++-- -- | Scalar Inverse+-- scalarInverse :: Scalar curve -> Scalar curve++class (EllipticCurveArith curve, Eq (Scalar curve)) => EllipticCurveBasepointArith curve where+ -- | Get the curve order size in bits+ curveOrderBits :: proxy curve -> Int++ -- | Multiply a scalar with the curve base point+ pointBaseSmul :: proxy curve -> Scalar curve -> Point curve++ -- | Multiply the point @p@ with @s2@ and add a lifted to curve value @s1@+ pointsSmulVarTime :: proxy curve -> Scalar curve -> Scalar curve -> Point curve -> Point curve+ pointsSmulVarTime prx s1 s2 p = pointAdd prx (pointBaseSmul prx s1) (pointSmul prx s2 p)++ -- | Encode an elliptic curve scalar into big-endian form+ encodeScalar :: ByteArray bs => proxy curve -> Scalar curve -> bs++ -- | Try to decode the big-endian form of an elliptic curve scalar+ decodeScalar :: ByteArray bs => proxy curve -> bs -> CryptoFailable (Scalar curve)++ -- | Convert an elliptic curve scalar to an integer+ scalarToInteger :: proxy curve -> Scalar curve -> Integer++ -- | Try to create an elliptic curve scalar from an integer+ scalarFromInteger :: proxy curve -> Integer -> CryptoFailable (Scalar curve)++ -- | Add two scalars and reduce modulo the curve order+ scalarAdd :: proxy curve -> Scalar curve -> Scalar curve -> Scalar curve++ -- | Multiply two scalars and reduce modulo the curve order+ scalarMul :: proxy curve -> Scalar curve -> Scalar curve -> Scalar curve++-- | P256 Curve+--+-- also known as P256+data Curve_P256R1 = Curve_P256R1+ deriving (Show,Data)++instance EllipticCurve Curve_P256R1 where+ type Point Curve_P256R1 = P256.Point+ type Scalar Curve_P256R1 = P256.Scalar+ curveSizeBits _ = 256+ curveGenerateScalar _ = P256.scalarGenerate+ curveGenerateKeyPair _ = toKeyPair <$> P256.scalarGenerate+ where toKeyPair scalar = KeyPair (P256.toPoint scalar) scalar+ encodePoint _ p = mxy+ where+ mxy :: forall bs. ByteArray bs => bs+ mxy = B.concat [uncompressed, xy]+ where+ uncompressed, xy :: bs+ uncompressed = B.singleton 4+ xy = P256.pointToBinary p+ decodePoint _ mxy = case B.uncons mxy of+ Nothing -> CryptoFailed CryptoError_PointSizeInvalid+ Just (m,xy)+ -- uncompressed+ | m == 4 -> P256.pointFromBinary xy+ | otherwise -> CryptoFailed CryptoError_PointFormatInvalid++instance EllipticCurveArith Curve_P256R1 where+ pointAdd _ a b = P256.pointAdd a b+ pointNegate _ p = P256.pointNegate p+ pointSmul _ s p = P256.pointMul s p++instance EllipticCurveDH Curve_P256R1 where+ ecdhRaw _ s p = SharedSecret $ P256.pointDh s p+ ecdh prx s p = checkNonZeroDH (ecdhRaw prx s p)++instance EllipticCurveBasepointArith Curve_P256R1 where+ curveOrderBits _ = 256+ pointBaseSmul _ = P256.toPoint+ pointsSmulVarTime _ = P256.pointsMulVarTime+ encodeScalar _ = P256.scalarToBinary+ decodeScalar _ = P256.scalarFromBinary+ scalarToInteger _ = P256.scalarToInteger+ scalarFromInteger _ = P256.scalarFromInteger+ scalarAdd _ = P256.scalarAdd+ scalarMul _ = P256.scalarMul++data Curve_P384R1 = Curve_P384R1+ deriving (Show,Data)++instance EllipticCurve Curve_P384R1 where+ type Point Curve_P384R1 = Simple.Point Simple.SEC_p384r1+ type Scalar Curve_P384R1 = Simple.Scalar Simple.SEC_p384r1+ curveSizeBits _ = 384+ curveGenerateScalar _ = Simple.scalarGenerate+ curveGenerateKeyPair _ = toKeyPair <$> Simple.scalarGenerate+ where toKeyPair scalar = KeyPair (Simple.pointBaseMul scalar) scalar+ encodePoint _ point = encodeECPoint point+ decodePoint _ bs = decodeECPoint bs++instance EllipticCurveArith Curve_P384R1 where+ pointAdd _ a b = Simple.pointAdd a b+ pointNegate _ p = Simple.pointNegate p+ pointSmul _ s p = Simple.pointMul s p++instance EllipticCurveDH Curve_P384R1 where+ ecdh _ s p = encodeECShared prx (Simple.pointMul s p)+ where+ prx = Proxy :: Proxy Simple.SEC_p384r1++instance EllipticCurveBasepointArith Curve_P384R1 where+ curveOrderBits _ = 384+ pointBaseSmul _ = Simple.pointBaseMul+ pointsSmulVarTime _ = ecPointsMulVarTime+ encodeScalar _ = ecScalarToBinary+ decodeScalar _ = ecScalarFromBinary+ scalarToInteger _ = ecScalarToInteger+ scalarFromInteger _ = ecScalarFromInteger+ scalarAdd _ = ecScalarAdd+ scalarMul _ = ecScalarMul++data Curve_P521R1 = Curve_P521R1+ deriving (Show,Data)++instance EllipticCurve Curve_P521R1 where+ type Point Curve_P521R1 = Simple.Point Simple.SEC_p521r1+ type Scalar Curve_P521R1 = Simple.Scalar Simple.SEC_p521r1+ curveSizeBits _ = 521+ curveGenerateScalar _ = Simple.scalarGenerate+ curveGenerateKeyPair _ = toKeyPair <$> Simple.scalarGenerate+ where toKeyPair scalar = KeyPair (Simple.pointBaseMul scalar) scalar+ encodePoint _ point = encodeECPoint point+ decodePoint _ bs = decodeECPoint bs++instance EllipticCurveArith Curve_P521R1 where+ pointAdd _ a b = Simple.pointAdd a b+ pointNegate _ p = Simple.pointNegate p+ pointSmul _ s p = Simple.pointMul s p++instance EllipticCurveDH Curve_P521R1 where+ ecdh _ s p = encodeECShared prx (Simple.pointMul s p)+ where+ prx = Proxy :: Proxy Simple.SEC_p521r1++instance EllipticCurveBasepointArith Curve_P521R1 where+ curveOrderBits _ = 521+ pointBaseSmul _ = Simple.pointBaseMul+ pointsSmulVarTime _ = ecPointsMulVarTime+ encodeScalar _ = ecScalarToBinary+ decodeScalar _ = ecScalarFromBinary+ scalarToInteger _ = ecScalarToInteger+ scalarFromInteger _ = ecScalarFromInteger+ scalarAdd _ = ecScalarAdd+ scalarMul _ = ecScalarMul++data Curve_X25519 = Curve_X25519+ deriving (Show,Data)++instance EllipticCurve Curve_X25519 where+ type Point Curve_X25519 = X25519.PublicKey+ type Scalar Curve_X25519 = X25519.SecretKey+ curveSizeBits _ = 255+ curveGenerateScalar _ = X25519.generateSecretKey+ curveGenerateKeyPair _ = do+ s <- X25519.generateSecretKey+ return $ KeyPair (X25519.toPublic s) s+ encodePoint _ p = B.convert p+ decodePoint _ bs = X25519.publicKey bs++instance EllipticCurveDH Curve_X25519 where+ ecdhRaw _ s p = SharedSecret $ convert secret+ where secret = X25519.dh p s+ ecdh prx s p = checkNonZeroDH (ecdhRaw prx s p)++data Curve_X448 = Curve_X448+ deriving (Show,Data)++instance EllipticCurve Curve_X448 where+ type Point Curve_X448 = X448.PublicKey+ type Scalar Curve_X448 = X448.SecretKey+ curveSizeBits _ = 448+ curveGenerateScalar _ = X448.generateSecretKey+ curveGenerateKeyPair _ = do+ s <- X448.generateSecretKey+ return $ KeyPair (X448.toPublic s) s+ encodePoint _ p = B.convert p+ decodePoint _ bs = X448.publicKey bs++instance EllipticCurveDH Curve_X448 where+ ecdhRaw _ s p = SharedSecret $ convert secret+ where secret = X448.dh p s+ ecdh prx s p = checkNonZeroDH (ecdhRaw prx s p)++data Curve_Edwards25519 = Curve_Edwards25519+ deriving (Show,Data)++instance EllipticCurve Curve_Edwards25519 where+ type Point Curve_Edwards25519 = Edwards25519.Point+ type Scalar Curve_Edwards25519 = Edwards25519.Scalar+ curveSizeBits _ = 255+ curveGenerateScalar _ = Edwards25519.scalarGenerate+ curveGenerateKeyPair _ = toKeyPair <$> Edwards25519.scalarGenerate+ where toKeyPair scalar = KeyPair (Edwards25519.toPoint scalar) scalar+ encodePoint _ point = Edwards25519.pointEncode point+ decodePoint _ bs = Edwards25519.pointDecode bs++instance EllipticCurveArith Curve_Edwards25519 where+ pointAdd _ a b = Edwards25519.pointAdd a b+ pointNegate _ p = Edwards25519.pointNegate p+ pointSmul _ s p = Edwards25519.pointMul s p++instance EllipticCurveBasepointArith Curve_Edwards25519 where+ curveOrderBits _ = 253+ pointBaseSmul _ = Edwards25519.toPoint+ pointsSmulVarTime _ = Edwards25519.pointsMulVarTime+ encodeScalar _ = B.reverse . Edwards25519.scalarEncode+ decodeScalar _ bs+ | B.length bs == 32 = Edwards25519.scalarDecodeLong (B.reverse bs)+ | otherwise = CryptoFailed CryptoError_SecretKeySizeInvalid+ scalarToInteger _ s = LE.os2ip (Edwards25519.scalarEncode s :: B.Bytes)+ scalarFromInteger _ i =+ case LE.i2ospOf 32 i of+ Nothing -> CryptoFailed CryptoError_SecretKeySizeInvalid+ Just bs -> Edwards25519.scalarDecodeLong (bs :: B.Bytes)+ scalarAdd _ = Edwards25519.scalarAdd+ scalarMul _ = Edwards25519.scalarMul++checkNonZeroDH :: SharedSecret -> CryptoFailable SharedSecret+checkNonZeroDH s@(SharedSecret b)+ | B.constAllZero b = CryptoFailed CryptoError_ScalarMultiplicationInvalid+ | otherwise = CryptoPassed s++encodeECShared :: Simple.Curve curve => Proxy curve -> Simple.Point curve -> CryptoFailable SharedSecret+encodeECShared _ Simple.PointO = CryptoFailed CryptoError_ScalarMultiplicationInvalid+encodeECShared prx (Simple.Point x _) = CryptoPassed . SharedSecret $ i2ospOf_ (Simple.curveSizeBytes prx) x++encodeECPoint :: forall curve bs . (Simple.Curve curve, ByteArray bs) => Simple.Point curve -> bs+encodeECPoint Simple.PointO = error "encodeECPoint: cannot serialize point at infinity"+encodeECPoint (Simple.Point x y) = B.concat [uncompressed,xb,yb]+ where+ size = Simple.curveSizeBytes (Proxy :: Proxy curve)+ uncompressed, xb, yb :: bs+ uncompressed = B.singleton 4+ xb = i2ospOf_ size x+ yb = i2ospOf_ size y++decodeECPoint :: (Simple.Curve curve, ByteArray bs) => bs -> CryptoFailable (Simple.Point curve)+decodeECPoint mxy = case B.uncons mxy of+ Nothing -> CryptoFailed CryptoError_PointSizeInvalid+ Just (m,xy)+ -- uncompressed+ | m == 4 ->+ let siz = B.length xy `div` 2+ (xb,yb) = B.splitAt siz xy+ x = os2ip xb+ y = os2ip yb+ in Simple.pointFromIntegers (x,y)+ | otherwise -> CryptoFailed CryptoError_PointFormatInvalid++ecPointsMulVarTime :: forall curve . Simple.Curve curve+ => Simple.Scalar curve+ -> Simple.Scalar curve -> Simple.Point curve+ -> Simple.Point curve+ecPointsMulVarTime n1 = Simple.pointAddTwoMuls n1 g+ where g = Simple.curveEccG $ Simple.curveParameters (Proxy :: Proxy curve)++ecScalarFromBinary :: forall curve bs . (Simple.Curve curve, ByteArrayAccess bs)+ => bs -> CryptoFailable (Simple.Scalar curve)+ecScalarFromBinary ba+ | B.length ba /= size = CryptoFailed CryptoError_SecretKeySizeInvalid+ | otherwise = CryptoPassed (Simple.Scalar $ os2ip ba)+ where size = ecCurveOrderBytes (Proxy :: Proxy curve)++ecScalarToBinary :: forall curve bs . (Simple.Curve curve, ByteArray bs)+ => Simple.Scalar curve -> bs+ecScalarToBinary (Simple.Scalar s) = i2ospOf_ size s+ where size = ecCurveOrderBytes (Proxy :: Proxy curve)++ecScalarFromInteger :: forall curve . Simple.Curve curve+ => Integer -> CryptoFailable (Simple.Scalar curve)+ecScalarFromInteger s+ | numBits s > nb = CryptoFailed CryptoError_SecretKeySizeInvalid+ | otherwise = CryptoPassed (Simple.Scalar s)+ where nb = 8 * ecCurveOrderBytes (Proxy :: Proxy curve)++ecScalarToInteger :: Simple.Scalar curve -> Integer+ecScalarToInteger (Simple.Scalar s) = s++ecCurveOrderBytes :: Simple.Curve c => proxy c -> Int+ecCurveOrderBytes prx = (numBits n + 7) `div` 8+ where n = Simple.curveEccN $ Simple.curveParameters prx++ecScalarAdd :: forall curve . Simple.Curve curve+ => Simple.Scalar curve -> Simple.Scalar curve -> Simple.Scalar curve+ecScalarAdd (Simple.Scalar a) (Simple.Scalar b) = Simple.Scalar ((a + b) `mod` n)+ where n = Simple.curveEccN $ Simple.curveParameters (Proxy :: Proxy curve)++ecScalarMul :: forall curve . Simple.Curve curve+ => Simple.Scalar curve -> Simple.Scalar curve -> Simple.Scalar curve+ecScalarMul (Simple.Scalar a) (Simple.Scalar b) = Simple.Scalar ((a * b) `mod` n)+ where n = Simple.curveEccN $ Simple.curveParameters (Proxy :: Proxy curve)
+ Crypto/ECC/Edwards25519.hs view
@@ -0,0 +1,370 @@+-- |+-- Module : Crypto.ECC.Edwards25519+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : experimental+-- Portability : unknown+--+-- Arithmetic primitives over curve edwards25519.+--+-- Twisted Edwards curves are a familly of elliptic curves allowing+-- complete addition formulas without any special case and no point at+-- infinity. Curve edwards25519 is based on prime 2^255 - 19 for+-- efficient implementation. Equation and parameters are given in+-- <https://tools.ietf.org/html/rfc7748 RFC 7748>.+--+-- This module provides types and primitive operations that are useful+-- to implement cryptographic schemes based on curve edwards25519:+--+-- - arithmetic functions for point addition, doubling, negation,+-- scalar multiplication with an arbitrary point, with the base point,+-- etc.+--+-- - arithmetic functions dealing with scalars modulo the prime order+-- L of the base point+--+-- All functions run in constant time unless noted otherwise.+--+-- Warnings:+--+-- 1. Curve edwards25519 has a cofactor h = 8 so the base point does+-- not generate the entire curve and points with order 2, 4, 8 exist.+-- When implementing cryptographic algorithms, special care must be+-- taken using one of the following methods:+--+-- - points must be checked for membership in the prime-order+-- subgroup+--+-- - or cofactor must be cleared by multiplying points by 8+--+-- Utility functions are provided to implement this. Testing+-- subgroup membership with 'pointHasPrimeOrder' is 50-time slower+-- than call 'pointMulByCofactor'.+--+-- 2. Scalar arithmetic is always reduced modulo L, allowing fixed+-- length and constant execution time, but this reduction is valid+-- only when points are in the prime-order subgroup.+--+-- 3. Because of modular reduction in this implementation it is not+-- possible to multiply points directly by scalars like 8.s or L.+-- This has to be decomposed into several steps.+--+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+module Crypto.ECC.Edwards25519+ ( Scalar+ , Point+ -- * Scalars+ , scalarGenerate+ , scalarDecodeLong+ , scalarEncode+ -- * Points+ , pointDecode+ , pointEncode+ , pointHasPrimeOrder+ -- * Arithmetic functions+ , toPoint+ , scalarAdd+ , scalarMul+ , pointNegate+ , pointAdd+ , pointDouble+ , pointMul+ , pointMulByCofactor+ , pointsMulVarTime+ ) where++import Data.Word+import Foreign.C.Types+import Foreign.Ptr++import Crypto.Error+import Crypto.Internal.ByteArray (Bytes, ScrubbedBytes, withByteArray)+import qualified Crypto.Internal.ByteArray as B+import Crypto.Internal.Compat+import Crypto.Internal.Imports+import Crypto.Random+++scalarArraySize :: Int+scalarArraySize = 40 -- maximum [9 * 4 {- 32 bits -}, 5 * 8 {- 64 bits -}]++-- | A scalar modulo prime order of curve edwards25519.+newtype Scalar = Scalar ScrubbedBytes+ deriving (Show,NFData)++instance Eq Scalar where+ (Scalar s1) == (Scalar s2) = unsafeDoIO $+ withByteArray s1 $ \ps1 ->+ withByteArray s2 $ \ps2 ->+ fmap (/= 0) (ed25519_scalar_eq ps1 ps2)+ {-# NOINLINE (==) #-}++pointArraySize :: Int+pointArraySize = 160 -- maximum [4 * 10 * 4 {- 32 bits -}, 4 * 5 * 8 {- 64 bits -}]++-- | A point on curve edwards25519.+newtype Point = Point Bytes+ deriving NFData++instance Show Point where+ showsPrec d p =+ let bs = pointEncode p :: Bytes+ in showParen (d > 10) $ showString "Point "+ . shows (B.convertToBase B.Base16 bs :: Bytes)++instance Eq Point where+ (Point p1) == (Point p2) = unsafeDoIO $+ withByteArray p1 $ \pp1 ->+ withByteArray p2 $ \pp2 ->+ fmap (/= 0) (ed25519_point_eq pp1 pp2)+ {-# NOINLINE (==) #-}++-- | Generate a random scalar.+scalarGenerate :: MonadRandom randomly => randomly Scalar+scalarGenerate = throwCryptoError . scalarDecodeLong <$> generate+ where+ -- Scalar generation is based on a fixed number of bytes so that+ -- there is no timing leak. But because of modular reduction+ -- distribution is not uniform. We use many more bytes than+ -- necessary so the probability bias is small. With 512 bits we+ -- get 22% of scalars with a higher frequency, but the relative+ -- probability difference is only 2^(-260).+ generate :: MonadRandom randomly => randomly ScrubbedBytes+ generate = getRandomBytes 64++-- | Serialize a scalar to binary, i.e. a 32-byte little-endian+-- number.+scalarEncode :: B.ByteArray bs => Scalar -> bs+scalarEncode (Scalar s) =+ B.allocAndFreeze 32 $ \out ->+ withByteArray s $ \ps -> ed25519_scalar_encode out ps++-- | Deserialize a little-endian number as a scalar. Input array can+-- have any length from 0 to 64 bytes.+--+-- Note: it is not advised to put secret information in the 3 lowest+-- bits of a scalar if this scalar may be multiplied to untrusted+-- points outside the prime-order subgroup.+scalarDecodeLong :: B.ByteArrayAccess bs => bs -> CryptoFailable Scalar+scalarDecodeLong bs+ | B.length bs > 64 = CryptoFailed CryptoError_EcScalarOutOfBounds+ | otherwise = unsafeDoIO $ withByteArray bs initialize+ where+ len = fromIntegral $ B.length bs+ initialize inp = do+ s <- B.alloc scalarArraySize $ \ps ->+ ed25519_scalar_decode_long ps inp len+ return $ CryptoPassed (Scalar s)+{-# NOINLINE scalarDecodeLong #-}++-- | Add two scalars.+scalarAdd :: Scalar -> Scalar -> Scalar+scalarAdd (Scalar a) (Scalar b) =+ Scalar $ B.allocAndFreeze scalarArraySize $ \out ->+ withByteArray a $ \pa ->+ withByteArray b $ \pb ->+ ed25519_scalar_add out pa pb++-- | Multiply two scalars.+scalarMul :: Scalar -> Scalar -> Scalar+scalarMul (Scalar a) (Scalar b) =+ Scalar $ B.allocAndFreeze scalarArraySize $ \out ->+ withByteArray a $ \pa ->+ withByteArray b $ \pb ->+ ed25519_scalar_mul out pa pb++-- | Multiplies a scalar with the curve base point.+toPoint :: Scalar -> Point+toPoint (Scalar scalar) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray scalar $ \pscalar ->+ ed25519_point_base_scalarmul out pscalar++-- | Serialize a point to a 32-byte array.+--+-- Format is binary compatible with 'Crypto.PubKey.Ed25519.PublicKey'+-- from module "Crypto.PubKey.Ed25519".+pointEncode :: B.ByteArray bs => Point -> bs+pointEncode (Point p) =+ B.allocAndFreeze 32 $ \out ->+ withByteArray p $ \pp ->+ ed25519_point_encode out pp++-- | Deserialize a 32-byte array as a point, ensuring the point is+-- valid on edwards25519.+--+-- /WARNING:/ variable time+pointDecode :: B.ByteArrayAccess bs => bs -> CryptoFailable Point+pointDecode bs+ | B.length bs == 32 = unsafeDoIO $ withByteArray bs initialize+ | otherwise = CryptoFailed CryptoError_PointSizeInvalid+ where+ initialize inp = do+ (res, p) <- B.allocRet pointArraySize $ \pp ->+ ed25519_point_decode_vartime pp inp+ if res == 0 then return $ CryptoFailed CryptoError_PointCoordinatesInvalid+ else return $ CryptoPassed (Point p)+{-# NOINLINE pointDecode #-}++-- | Test whether a point belongs to the prime-order subgroup+-- generated by the base point. Result is 'True' for the identity+-- point.+--+-- @+-- pointHasPrimeOrder p = 'pointNegate' p == 'pointMul' l_minus_one p+-- @+pointHasPrimeOrder :: Point -> Bool+pointHasPrimeOrder (Point p) = unsafeDoIO $+ withByteArray p $ \pp ->+ fmap (/= 0) (ed25519_point_has_prime_order pp)+{-# NOINLINE pointHasPrimeOrder #-}++-- | Negate a point.+pointNegate :: Point -> Point+pointNegate (Point a) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray a $ \pa ->+ ed25519_point_negate out pa++-- | Add two points.+pointAdd :: Point -> Point -> Point+pointAdd (Point a) (Point b) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray a $ \pa ->+ withByteArray b $ \pb ->+ ed25519_point_add out pa pb++-- | Add a point to itself.+--+-- @+-- pointDouble p = 'pointAdd' p p+-- @+pointDouble :: Point -> Point+pointDouble (Point a) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray a $ \pa ->+ ed25519_point_double out pa++-- | Multiply a point by h = 8.+--+-- @+-- pointMulByCofactor p = 'pointMul' scalar_8 p+-- @+pointMulByCofactor :: Point -> Point+pointMulByCofactor (Point a) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray a $ \pa ->+ ed25519_point_mul_by_cofactor out pa++-- | Scalar multiplication over curve edwards25519.+--+-- Note: when the scalar had reduction modulo L and the input point+-- has a torsion component, the output point may not be in the+-- expected subgroup.+pointMul :: Scalar -> Point -> Point+pointMul (Scalar scalar) (Point base) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray scalar $ \pscalar ->+ withByteArray base $ \pbase ->+ ed25519_point_scalarmul out pbase pscalar++-- | Multiply the point @p@ with @s2@ and add a lifted to curve value @s1@.+--+-- @+-- pointsMulVarTime s1 s2 p = 'pointAdd' ('toPoint' s1) ('pointMul' s2 p)+-- @+--+-- /WARNING:/ variable time+pointsMulVarTime :: Scalar -> Scalar -> Point -> Point+pointsMulVarTime (Scalar s1) (Scalar s2) (Point p) =+ Point $ B.allocAndFreeze pointArraySize $ \out ->+ withByteArray s1 $ \ps1 ->+ withByteArray s2 $ \ps2 ->+ withByteArray p $ \pp ->+ ed25519_base_double_scalarmul_vartime out ps1 pp ps2++foreign import ccall unsafe "cryptonite_ed25519_scalar_eq"+ ed25519_scalar_eq :: Ptr Scalar+ -> Ptr Scalar+ -> IO CInt++foreign import ccall unsafe "cryptonite_ed25519_scalar_encode"+ ed25519_scalar_encode :: Ptr Word8+ -> Ptr Scalar+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_scalar_decode_long"+ ed25519_scalar_decode_long :: Ptr Scalar+ -> Ptr Word8+ -> CSize+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_scalar_add"+ ed25519_scalar_add :: Ptr Scalar -- sum+ -> Ptr Scalar -- a+ -> Ptr Scalar -- b+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_scalar_mul"+ ed25519_scalar_mul :: Ptr Scalar -- out+ -> Ptr Scalar -- a+ -> Ptr Scalar -- b+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_point_encode"+ ed25519_point_encode :: Ptr Word8+ -> Ptr Point+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_point_decode_vartime"+ ed25519_point_decode_vartime :: Ptr Point+ -> Ptr Word8+ -> IO CInt++foreign import ccall unsafe "cryptonite_ed25519_point_eq"+ ed25519_point_eq :: Ptr Point+ -> Ptr Point+ -> IO CInt++foreign import ccall "cryptonite_ed25519_point_has_prime_order"+ ed25519_point_has_prime_order :: Ptr Point+ -> IO CInt++foreign import ccall unsafe "cryptonite_ed25519_point_negate"+ ed25519_point_negate :: Ptr Point -- minus_a+ -> Ptr Point -- a+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_point_add"+ ed25519_point_add :: Ptr Point -- sum+ -> Ptr Point -- a+ -> Ptr Point -- b+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_point_double"+ ed25519_point_double :: Ptr Point -- two_a+ -> Ptr Point -- a+ -> IO ()++foreign import ccall unsafe "cryptonite_ed25519_point_mul_by_cofactor"+ ed25519_point_mul_by_cofactor :: Ptr Point -- eight_a+ -> Ptr Point -- a+ -> IO ()++foreign import ccall "cryptonite_ed25519_point_base_scalarmul"+ ed25519_point_base_scalarmul :: Ptr Point -- scaled+ -> Ptr Scalar -- scalar+ -> IO ()++foreign import ccall "cryptonite_ed25519_point_scalarmul"+ ed25519_point_scalarmul :: Ptr Point -- scaled+ -> Ptr Point -- base+ -> Ptr Scalar -- scalar+ -> IO ()++foreign import ccall "cryptonite_ed25519_base_double_scalarmul_vartime"+ ed25519_base_double_scalarmul_vartime :: Ptr Point -- combo+ -> Ptr Scalar -- scalar1+ -> Ptr Point -- base2+ -> Ptr Scalar -- scalar2+ -> IO ()
+ Crypto/ECC/Simple/Prim.hs view
@@ -0,0 +1,207 @@+-- | Elliptic Curve Arithmetic.+--+-- /WARNING:/ These functions are vulnerable to timing attacks.+{-# LANGUAGE ScopedTypeVariables #-}+module Crypto.ECC.Simple.Prim+ ( scalarGenerate+ , scalarFromInteger+ , pointAdd+ , pointNegate+ , pointDouble+ , pointBaseMul+ , pointMul+ , pointAddTwoMuls+ , pointFromIntegers+ , isPointAtInfinity+ , isPointValid+ ) where++import Data.Maybe+import Data.Proxy+import Crypto.Number.ModArithmetic+import Crypto.Number.F2m+import Crypto.Number.Generate (generateBetween)+import Crypto.ECC.Simple.Types+import Crypto.Error+import Crypto.Random++-- | Generate a valid scalar for a specific Curve+scalarGenerate :: forall randomly curve . (MonadRandom randomly, Curve curve) => randomly (Scalar curve)+scalarGenerate =+ Scalar <$> generateBetween 1 (n - 1)+ where+ n = curveEccN $ curveParameters (Proxy :: Proxy curve)++scalarFromInteger :: forall curve . Curve curve => Integer -> CryptoFailable (Scalar curve)+scalarFromInteger n+ | n < 0 || n >= mx = CryptoFailed $ CryptoError_EcScalarOutOfBounds+ | otherwise = CryptoPassed $ Scalar n+ where+ mx = case curveType (Proxy :: Proxy curve) of+ CurveBinary (CurveBinaryParam b) -> b+ CurvePrime (CurvePrimeParam p) -> p++--TODO: Extract helper function for `fromMaybe PointO...`++-- | Elliptic Curve point negation:+-- @pointNegate p@ returns point @q@ such that @pointAdd p q == PointO@.+pointNegate :: Curve curve => Point curve -> Point curve+pointNegate PointO = PointO+pointNegate point@(Point x y) =+ case curveType point of+ CurvePrime (CurvePrimeParam p) -> Point x (p - y)+ CurveBinary {} -> Point x (x `addF2m` y)++-- | Elliptic Curve point addition.+--+-- /WARNING:/ Vulnerable to timing attacks.+pointAdd :: Curve curve => Point curve -> Point curve -> Point curve+pointAdd PointO PointO = PointO+pointAdd PointO q = q+pointAdd p PointO = p+pointAdd p q+ | p == q = pointDouble p+ | p == pointNegate q = PointO+pointAdd point@(Point xp yp) (Point xq yq) =+ case ty of+ CurvePrime (CurvePrimeParam pr) -> fromMaybe PointO $ do+ s <- divmod (yp - yq) (xp - xq) pr+ let xr = (s ^ (2::Int) - xp - xq) `mod` pr+ yr = (s * (xp - xr) - yp) `mod` pr+ return $ Point xr yr+ CurveBinary (CurveBinaryParam fx) -> fromMaybe PointO $ do+ s <- divF2m fx (yp `addF2m` yq) (xp `addF2m` xq)+ let xr = mulF2m fx s s `addF2m` s `addF2m` xp `addF2m` xq `addF2m` a+ yr = mulF2m fx s (xp `addF2m` xr) `addF2m` xr `addF2m` yp+ return $ Point xr yr+ where+ ty = curveType point+ cc = curveParameters point+ a = curveEccA cc++-- | Elliptic Curve point doubling.+--+-- /WARNING:/ Vulnerable to timing attacks.+--+-- This perform the following calculation:+-- > lambda = (3 * xp ^ 2 + a) / 2 yp+-- > xr = lambda ^ 2 - 2 xp+-- > yr = lambda (xp - xr) - yp+--+-- With binary curve:+-- > xp == 0 => P = O+-- > otherwise =>+-- > s = xp + (yp / xp)+-- > xr = s ^ 2 + s + a+-- > yr = xp ^ 2 + (s+1) * xr+--+pointDouble :: Curve curve => Point curve -> Point curve+pointDouble PointO = PointO+pointDouble point@(Point xp yp) =+ case ty of+ CurvePrime (CurvePrimeParam pr) -> fromMaybe PointO $ do+ lambda <- divmod (3 * xp ^ (2::Int) + a) (2 * yp) pr+ let xr = (lambda ^ (2::Int) - 2 * xp) `mod` pr+ yr = (lambda * (xp - xr) - yp) `mod` pr+ return $ Point xr yr+ CurveBinary (CurveBinaryParam fx)+ | xp == 0 -> PointO+ | otherwise -> fromMaybe PointO $ do+ s <- return . addF2m xp =<< divF2m fx yp xp+ let xr = mulF2m fx s s `addF2m` s `addF2m` a+ yr = mulF2m fx xp xp `addF2m` mulF2m fx xr (s `addF2m` 1)+ return $ Point xr yr+ where+ ty = curveType point+ cc = curveParameters point+ a = curveEccA cc++-- | Elliptic curve point multiplication using the base+--+-- /WARNING:/ Vulnerable to timing attacks.+pointBaseMul :: Curve curve => Scalar curve -> Point curve+pointBaseMul n = pointMul n (curveEccG $ curveParameters (Proxy :: Proxy curve))++-- | Elliptic curve point multiplication (double and add algorithm).+--+-- /WARNING:/ Vulnerable to timing attacks.+pointMul :: Curve curve => Scalar curve -> Point curve -> Point curve+pointMul _ PointO = PointO+pointMul (Scalar n) p+ | n == 0 = PointO+ | n == 1 = p+ | odd n = pointAdd p (pointMul (Scalar (n - 1)) p)+ | otherwise = pointMul (Scalar (n `div` 2)) (pointDouble p)++-- | Elliptic curve double-scalar multiplication (uses Shamir's trick).+--+-- > pointAddTwoMuls n1 p1 n2 p2 == pointAdd (pointMul n1 p1)+-- > (pointMul n2 p2)+--+-- /WARNING:/ Vulnerable to timing attacks.+pointAddTwoMuls :: Curve curve => Scalar curve -> Point curve -> Scalar curve -> Point curve -> Point curve+pointAddTwoMuls _ PointO _ PointO = PointO+pointAddTwoMuls _ PointO n2 p2 = pointMul n2 p2+pointAddTwoMuls n1 p1 _ PointO = pointMul n1 p1+pointAddTwoMuls (Scalar n1) p1 (Scalar n2) p2 = go (n1, n2)+ where+ p0 = pointAdd p1 p2++ go (0, 0 ) = PointO+ go (k1, k2) =+ let q = pointDouble $ go (k1 `div` 2, k2 `div` 2)+ in case (odd k1, odd k2) of+ (True , True ) -> pointAdd p0 q+ (True , False ) -> pointAdd p1 q+ (False , True ) -> pointAdd p2 q+ (False , False ) -> q++-- | Check if a point is the point at infinity.+isPointAtInfinity :: Point curve -> Bool+isPointAtInfinity PointO = True+isPointAtInfinity _ = False++-- | Make a point on a curve from integer (x,y) coordinate+--+-- if the point is not valid related to the curve then an error is+-- returned instead of a point+pointFromIntegers :: forall curve . Curve curve => (Integer, Integer) -> CryptoFailable (Point curve)+pointFromIntegers (x,y)+ | isPointValid (Proxy :: Proxy curve) x y = CryptoPassed $ Point x y+ | otherwise = CryptoFailed $ CryptoError_PointCoordinatesInvalid++-- | check if a point is on specific curve+--+-- This perform three checks:+--+-- * x is not out of range+-- * y is not out of range+-- * the equation @y^2 = x^3 + a*x + b (mod p)@ holds+isPointValid :: Curve curve => proxy curve -> Integer -> Integer -> Bool+isPointValid proxy x y =+ case ty of+ CurvePrime (CurvePrimeParam p) ->+ let a = curveEccA cc+ b = curveEccB cc+ eqModP z1 z2 = (z1 `mod` p) == (z2 `mod` p)+ isValid e = e >= 0 && e < p+ in isValid x && isValid y && (y ^ (2 :: Int)) `eqModP` (x ^ (3 :: Int) + a * x + b)+ CurveBinary (CurveBinaryParam fx) ->+ let a = curveEccA cc+ b = curveEccB cc+ add = addF2m+ mul = mulF2m fx+ isValid e = modF2m fx e == e+ in and [ isValid x+ , isValid y+ , ((((x `add` a) `mul` x `add` y) `mul` x) `add` b `add` (squareF2m fx y)) == 0+ ]+ where+ ty = curveType proxy+ cc = curveParameters proxy++-- | div and mod+divmod :: Integer -> Integer -> Integer -> Maybe Integer+divmod y x m = do+ i <- inverse (x `mod` m) m+ return $ y * i `mod` m
+ Crypto/ECC/Simple/Types.hs view
@@ -0,0 +1,616 @@+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+-- |+-- Module : Crypto.ECC.Simple.Types+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : Experimental+-- Portability : Excellent+--+-- References:+-- <https://tools.ietf.org/html/rfc5915>+--+{-# OPTIONS_GHC -fno-warn-missing-signatures #-}+module Crypto.ECC.Simple.Types+ ( Curve(..)+ , Point(..)+ , Scalar(..)+ , CurveType(..)+ , CurveBinaryParam(..)+ , CurvePrimeParam(..)+ , curveSizeBits+ , curveSizeBytes+ , CurveParameters(..)+ -- * Specific curves definition+ , SEC_p112r1(..)+ , SEC_p112r2(..)+ , SEC_p128r1(..)+ , SEC_p128r2(..)+ , SEC_p160k1(..)+ , SEC_p160r1(..)+ , SEC_p160r2(..)+ , SEC_p192k1(..)+ , SEC_p192r1(..) -- aka prime192v1+ , SEC_p224k1(..)+ , SEC_p224r1(..)+ , SEC_p256k1(..)+ , SEC_p256r1(..) -- aka prime256v1+ , SEC_p384r1(..)+ , SEC_p521r1(..)+ , SEC_t113r1(..)+ , SEC_t113r2(..)+ , SEC_t131r1(..)+ , SEC_t131r2(..)+ , SEC_t163k1(..)+ , SEC_t163r1(..)+ , SEC_t163r2(..)+ , SEC_t193r1(..)+ , SEC_t193r2(..)+ , SEC_t233k1(..) -- aka NIST K-233+ , SEC_t233r1(..)+ , SEC_t239k1(..)+ , SEC_t283k1(..)+ , SEC_t283r1(..)+ , SEC_t409k1(..)+ , SEC_t409r1(..)+ , SEC_t571k1(..)+ , SEC_t571r1(..)+ ) where++import Data.Data+import Crypto.Internal.Imports+import Crypto.Number.Basic (numBits)++class Curve curve where+ curveParameters :: proxy curve -> CurveParameters curve+ curveType :: proxy curve -> CurveType++-- | get the size of the curve in bits+curveSizeBits :: Curve curve => proxy curve -> Int+curveSizeBits proxy =+ case curveType proxy of+ CurvePrime (CurvePrimeParam p) -> numBits p+ CurveBinary (CurveBinaryParam c) -> numBits c - 1++-- | get the size of the curve in bytes+curveSizeBytes :: Curve curve => proxy curve -> Int+curveSizeBytes proxy = (curveSizeBits proxy + 7) `div` 8++-- | Define common parameters in a curve definition+-- of the form: y^2 = x^3 + ax + b.+data CurveParameters curve = CurveParameters+ { curveEccA :: Integer -- ^ curve parameter a+ , curveEccB :: Integer -- ^ curve parameter b+ , curveEccG :: Point curve -- ^ base point+ , curveEccN :: Integer -- ^ order of G+ , curveEccH :: Integer -- ^ cofactor+ } deriving (Show,Eq,Data)++newtype CurveBinaryParam = CurveBinaryParam Integer+ deriving (Show,Read,Eq,Data)++newtype CurvePrimeParam = CurvePrimeParam Integer+ deriving (Show,Read,Eq,Data)++data CurveType =+ CurveBinary CurveBinaryParam+ | CurvePrime CurvePrimeParam+ deriving (Show,Read,Eq,Data)++-- | ECC Private Number+newtype Scalar curve = Scalar Integer+ deriving (Show,Read,Eq,Data,NFData)++-- | Define a point on a curve.+data Point curve =+ Point Integer Integer+ | PointO -- ^ Point at Infinity+ deriving (Show,Read,Eq,Data)++instance NFData (Point curve) where+ rnf (Point x y) = x `seq` y `seq` ()+ rnf PointO = ()++data SEC_p112r1 = SEC_p112r1 deriving (Show,Read,Eq)+data SEC_p112r2 = SEC_p112r2 deriving (Show,Read,Eq)+data SEC_p128r1 = SEC_p128r1 deriving (Show,Read,Eq)+data SEC_p128r2 = SEC_p128r2 deriving (Show,Read,Eq)+data SEC_p160k1 = SEC_p160k1 deriving (Show,Read,Eq)+data SEC_p160r1 = SEC_p160r1 deriving (Show,Read,Eq)+data SEC_p160r2 = SEC_p160r2 deriving (Show,Read,Eq)+data SEC_p192k1 = SEC_p192k1 deriving (Show,Read,Eq)+data SEC_p192r1 = SEC_p192r1 deriving (Show,Read,Eq)+data SEC_p224k1 = SEC_p224k1 deriving (Show,Read,Eq)+data SEC_p224r1 = SEC_p224r1 deriving (Show,Read,Eq)+data SEC_p256k1 = SEC_p256k1 deriving (Show,Read,Eq)+data SEC_p256r1 = SEC_p256r1 deriving (Show,Read,Eq)+data SEC_p384r1 = SEC_p384r1 deriving (Show,Read,Eq)+data SEC_p521r1 = SEC_p521r1 deriving (Show,Read,Eq)+data SEC_t113r1 = SEC_t113r1 deriving (Show,Read,Eq)+data SEC_t113r2 = SEC_t113r2 deriving (Show,Read,Eq)+data SEC_t131r1 = SEC_t131r1 deriving (Show,Read,Eq)+data SEC_t131r2 = SEC_t131r2 deriving (Show,Read,Eq)+data SEC_t163k1 = SEC_t163k1 deriving (Show,Read,Eq)+data SEC_t163r1 = SEC_t163r1 deriving (Show,Read,Eq)+data SEC_t163r2 = SEC_t163r2 deriving (Show,Read,Eq)+data SEC_t193r1 = SEC_t193r1 deriving (Show,Read,Eq)+data SEC_t193r2 = SEC_t193r2 deriving (Show,Read,Eq)+data SEC_t233k1 = SEC_t233k1 deriving (Show,Read,Eq)+data SEC_t233r1 = SEC_t233r1 deriving (Show,Read,Eq)+data SEC_t239k1 = SEC_t239k1 deriving (Show,Read,Eq)+data SEC_t283k1 = SEC_t283k1 deriving (Show,Read,Eq)+data SEC_t283r1 = SEC_t283r1 deriving (Show,Read,Eq)+data SEC_t409k1 = SEC_t409k1 deriving (Show,Read,Eq)+data SEC_t409r1 = SEC_t409r1 deriving (Show,Read,Eq)+data SEC_t571k1 = SEC_t571k1 deriving (Show,Read,Eq)+data SEC_t571r1 = SEC_t571r1 deriving (Show,Read,Eq)++-- | Define names for known recommended curves.+instance Curve SEC_p112r1 where+ curveType _ = typeSEC_p112r1+ curveParameters _ = paramSEC_p112r1++instance Curve SEC_p112r2 where+ curveType _ = typeSEC_p112r2+ curveParameters _ = paramSEC_p112r2++instance Curve SEC_p128r1 where+ curveType _ = typeSEC_p128r1+ curveParameters _ = paramSEC_p128r1++instance Curve SEC_p128r2 where+ curveType _ = typeSEC_p128r2+ curveParameters _ = paramSEC_p128r2++instance Curve SEC_p160k1 where+ curveType _ = typeSEC_p160k1+ curveParameters _ = paramSEC_p160k1++instance Curve SEC_p160r1 where+ curveType _ = typeSEC_p160r1+ curveParameters _ = paramSEC_p160r1++instance Curve SEC_p160r2 where+ curveType _ = typeSEC_p160r2+ curveParameters _ = paramSEC_p160r2++instance Curve SEC_p192k1 where+ curveType _ = typeSEC_p192k1+ curveParameters _ = paramSEC_p192k1++instance Curve SEC_p192r1 where+ curveType _ = typeSEC_p192r1+ curveParameters _ = paramSEC_p192r1++instance Curve SEC_p224k1 where+ curveType _ = typeSEC_p224k1+ curveParameters _ = paramSEC_p224k1++instance Curve SEC_p224r1 where+ curveType _ = typeSEC_p224r1+ curveParameters _ = paramSEC_p224r1++instance Curve SEC_p256k1 where+ curveType _ = typeSEC_p256k1+ curveParameters _ = paramSEC_p256k1++instance Curve SEC_p256r1 where+ curveType _ = typeSEC_p256r1+ curveParameters _ = paramSEC_p256r1++instance Curve SEC_p384r1 where+ curveType _ = typeSEC_p384r1+ curveParameters _ = paramSEC_p384r1++instance Curve SEC_p521r1 where+ curveType _ = typeSEC_p521r1+ curveParameters _ = paramSEC_p521r1++instance Curve SEC_t113r1 where+ curveType _ = typeSEC_t113r1+ curveParameters _ = paramSEC_t113r1++instance Curve SEC_t113r2 where+ curveType _ = typeSEC_t113r2+ curveParameters _ = paramSEC_t113r2++instance Curve SEC_t131r1 where+ curveType _ = typeSEC_t131r1+ curveParameters _ = paramSEC_t131r1++instance Curve SEC_t131r2 where+ curveType _ = typeSEC_t131r2+ curveParameters _ = paramSEC_t131r2++instance Curve SEC_t163k1 where+ curveType _ = typeSEC_t163k1+ curveParameters _ = paramSEC_t163k1++instance Curve SEC_t163r1 where+ curveType _ = typeSEC_t163r1+ curveParameters _ = paramSEC_t163r1++instance Curve SEC_t163r2 where+ curveType _ = typeSEC_t163r2+ curveParameters _ = paramSEC_t163r2++instance Curve SEC_t193r1 where+ curveType _ = typeSEC_t193r1+ curveParameters _ = paramSEC_t193r1++instance Curve SEC_t193r2 where+ curveType _ = typeSEC_t193r2+ curveParameters _ = paramSEC_t193r2++instance Curve SEC_t233k1 where+ curveType _ = typeSEC_t233k1+ curveParameters _ = paramSEC_t233k1++instance Curve SEC_t233r1 where+ curveType _ = typeSEC_t233r1+ curveParameters _ = paramSEC_t233r1++instance Curve SEC_t239k1 where+ curveType _ = typeSEC_t239k1+ curveParameters _ = paramSEC_t239k1++instance Curve SEC_t283k1 where+ curveType _ = typeSEC_t283k1+ curveParameters _ = paramSEC_t283k1++instance Curve SEC_t283r1 where+ curveType _ = typeSEC_t283r1+ curveParameters _ = paramSEC_t283r1++instance Curve SEC_t409k1 where+ curveType _ = typeSEC_t409k1+ curveParameters _ = paramSEC_t409k1++instance Curve SEC_t409r1 where+ curveType _ = typeSEC_t409r1+ curveParameters _ = paramSEC_t409r1++instance Curve SEC_t571k1 where+ curveType _ = typeSEC_t571k1+ curveParameters _ = paramSEC_t571k1++instance Curve SEC_t571r1 where+ curveType _ = typeSEC_t571r1+ curveParameters _ = paramSEC_t571r1++{-+curvesOIDs :: [ (CurveName, [Integer]) ]+curvesOIDs =+ [ (SEC_p112r1, [1,3,132,0,6])+ , (SEC_p112r2, [1,3,132,0,7])+ , (SEC_p128r1, [1,3,132,0,28])+ , (SEC_p128r2, [1,3,132,0,29])+ , (SEC_p160k1, [1,3,132,0,9])+ , (SEC_p160r1, [1,3,132,0,8])+ , (SEC_p160r2, [1,3,132,0,30])+ , (SEC_p192k1, [1,3,132,0,31])+ , (SEC_p192r1, [1,2,840,10045,3,1,1])+ , (SEC_p224k1, [1,3,132,0,32])+ , (SEC_p224r1, [1,3,132,0,33])+ , (SEC_p256k1, [1,3,132,0,10])+ , (SEC_p256r1, [1,2,840,10045,3,1,7])+ , (SEC_p384r1, [1,3,132,0,34])+ , (SEC_p521r1, [1,3,132,0,35])+ , (SEC_t113r1, [1,3,132,0,4])+ , (SEC_t113r2, [1,3,132,0,5])+ , (SEC_t131r1, [1,3,132,0,22])+ , (SEC_t131r2, [1,3,132,0,23])+ , (SEC_t163k1, [1,3,132,0,1])+ , (SEC_t163r1, [1,3,132,0,2])+ , (SEC_t163r2, [1,3,132,0,15])+ , (SEC_t193r1, [1,3,132,0,24])+ , (SEC_t193r2, [1,3,132,0,25])+ , (SEC_t233k1, [1,3,132,0,26])+ , (SEC_t233r1, [1,3,132,0,27])+ , (SEC_t239k1, [1,3,132,0,3])+ , (SEC_t283k1, [1,3,132,0,16])+ , (SEC_t283r1, [1,3,132,0,17])+ , (SEC_t409k1, [1,3,132,0,36])+ , (SEC_t409r1, [1,3,132,0,37])+ , (SEC_t571k1, [1,3,132,0,38])+ , (SEC_t571r1, [1,3,132,0,39])+ ]+-}++typeSEC_p112r1 = CurvePrime $ CurvePrimeParam 0xdb7c2abf62e35e668076bead208b+paramSEC_p112r1 = CurveParameters+ { curveEccA = 0xdb7c2abf62e35e668076bead2088+ , curveEccB = 0x659ef8ba043916eede8911702b22+ , curveEccG = Point 0x09487239995a5ee76b55f9c2f098+ 0xa89ce5af8724c0a23e0e0ff77500+ , curveEccN = 0xdb7c2abf62e35e7628dfac6561c5+ , curveEccH = 1+ }+typeSEC_p112r2 = CurvePrime $ CurvePrimeParam 0xdb7c2abf62e35e668076bead208b+paramSEC_p112r2 = CurveParameters+ { curveEccA = 0x6127c24c05f38a0aaaf65c0ef02c+ , curveEccB = 0x51def1815db5ed74fcc34c85d709+ , curveEccG = Point 0x4ba30ab5e892b4e1649dd0928643+ 0xadcd46f5882e3747def36e956e97+ , curveEccN = 0x36df0aafd8b8d7597ca10520d04b+ , curveEccH = 4+ }+typeSEC_p128r1 = CurvePrime $ CurvePrimeParam 0xfffffffdffffffffffffffffffffffff+paramSEC_p128r1 = CurveParameters+ { curveEccA = 0xfffffffdfffffffffffffffffffffffc+ , curveEccB = 0xe87579c11079f43dd824993c2cee5ed3+ , curveEccG = Point 0x161ff7528b899b2d0c28607ca52c5b86+ 0xcf5ac8395bafeb13c02da292dded7a83+ , curveEccN = 0xfffffffe0000000075a30d1b9038a115+ , curveEccH = 1+ }+typeSEC_p128r2 = CurvePrime $ CurvePrimeParam 0xfffffffdffffffffffffffffffffffff+paramSEC_p128r2 = CurveParameters+ { curveEccA = 0xd6031998d1b3bbfebf59cc9bbff9aee1+ , curveEccB = 0x5eeefca380d02919dc2c6558bb6d8a5d+ , curveEccG = Point 0x7b6aa5d85e572983e6fb32a7cdebc140+ 0x27b6916a894d3aee7106fe805fc34b44+ , curveEccN = 0x3fffffff7fffffffbe0024720613b5a3+ , curveEccH = 4+ }+typeSEC_p160k1 = CurvePrime $ CurvePrimeParam 0x00fffffffffffffffffffffffffffffffeffffac73+paramSEC_p160k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000+ , curveEccB = 0x000000000000000000000000000000000000000007+ , curveEccG = Point 0x003b4c382ce37aa192a4019e763036f4f5dd4d7ebb+ 0x00938cf935318fdced6bc28286531733c3f03c4fee+ , curveEccN = 0x0100000000000000000001b8fa16dfab9aca16b6b3+ , curveEccH = 1+ }+typeSEC_p160r1 = CurvePrime $ CurvePrimeParam 0x00ffffffffffffffffffffffffffffffff7fffffff+paramSEC_p160r1 = CurveParameters+ { curveEccA = 0x00ffffffffffffffffffffffffffffffff7ffffffc+ , curveEccB = 0x001c97befc54bd7a8b65acf89f81d4d4adc565fa45+ , curveEccG = Point 0x004a96b5688ef573284664698968c38bb913cbfc82+ 0x0023a628553168947d59dcc912042351377ac5fb32+ , curveEccN = 0x0100000000000000000001f4c8f927aed3ca752257+ , curveEccH = 1+ }+typeSEC_p160r2 = CurvePrime $ CurvePrimeParam 0x00fffffffffffffffffffffffffffffffeffffac73+paramSEC_p160r2 = CurveParameters+ { curveEccA = 0x00fffffffffffffffffffffffffffffffeffffac70+ , curveEccB = 0x00b4e134d3fb59eb8bab57274904664d5af50388ba+ , curveEccG = Point 0x0052dcb034293a117e1f4ff11b30f7199d3144ce6d+ 0x00feaffef2e331f296e071fa0df9982cfea7d43f2e+ , curveEccN = 0x0100000000000000000000351ee786a818f3a1a16b+ , curveEccH = 1+ }+typeSEC_p192k1 = CurvePrime $ CurvePrimeParam 0xfffffffffffffffffffffffffffffffffffffffeffffee37+paramSEC_p192k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000+ , curveEccB = 0x000000000000000000000000000000000000000000000003+ , curveEccG = Point 0xdb4ff10ec057e9ae26b07d0280b7f4341da5d1b1eae06c7d+ 0x9b2f2f6d9c5628a7844163d015be86344082aa88d95e2f9d+ , curveEccN = 0xfffffffffffffffffffffffe26f2fc170f69466a74defd8d+ , curveEccH = 1+ }+typeSEC_p192r1 = CurvePrime $ CurvePrimeParam 0xfffffffffffffffffffffffffffffffeffffffffffffffff+paramSEC_p192r1 = CurveParameters+ { curveEccA = 0xfffffffffffffffffffffffffffffffefffffffffffffffc+ , curveEccB = 0x64210519e59c80e70fa7e9ab72243049feb8deecc146b9b1+ , curveEccG = Point 0x188da80eb03090f67cbf20eb43a18800f4ff0afd82ff1012+ 0x07192b95ffc8da78631011ed6b24cdd573f977a11e794811+ , curveEccN = 0xffffffffffffffffffffffff99def836146bc9b1b4d22831+ , curveEccH = 1+ }+typeSEC_p224k1 = CurvePrime $ CurvePrimeParam 0x00fffffffffffffffffffffffffffffffffffffffffffffffeffffe56d+paramSEC_p224k1 = CurveParameters+ { curveEccA = 0x0000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x0000000000000000000000000000000000000000000000000000000005+ , curveEccG = Point 0x00a1455b334df099df30fc28a169a467e9e47075a90f7e650eb6b7a45c+ 0x007e089fed7fba344282cafbd6f7e319f7c0b0bd59e2ca4bdb556d61a5+ , curveEccN = 0x010000000000000000000000000001dce8d2ec6184caf0a971769fb1f7+ , curveEccH = 1+ }+typeSEC_p224r1 = CurvePrime $ CurvePrimeParam 0xffffffffffffffffffffffffffffffff000000000000000000000001+paramSEC_p224r1 = CurveParameters+ { curveEccA = 0xfffffffffffffffffffffffffffffffefffffffffffffffffffffffe+ , curveEccB = 0xb4050a850c04b3abf54132565044b0b7d7bfd8ba270b39432355ffb4+ , curveEccG = Point 0xb70e0cbd6bb4bf7f321390b94a03c1d356c21122343280d6115c1d21+ 0xbd376388b5f723fb4c22dfe6cd4375a05a07476444d5819985007e34+ , curveEccN = 0xffffffffffffffffffffffffffff16a2e0b8f03e13dd29455c5c2a3d+ , curveEccH = 1+ }+typeSEC_p256k1 = CurvePrime $ CurvePrimeParam 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f+paramSEC_p256k1 = CurveParameters+ { curveEccA = 0x0000000000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x0000000000000000000000000000000000000000000000000000000000000007+ , curveEccG = Point 0x79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798+ 0x483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8+ , curveEccN = 0xfffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141+ , curveEccH = 1+ }+typeSEC_p256r1 = CurvePrime $ CurvePrimeParam 0xffffffff00000001000000000000000000000000ffffffffffffffffffffffff+paramSEC_p256r1 = CurveParameters+ { curveEccA = 0xffffffff00000001000000000000000000000000fffffffffffffffffffffffc+ , curveEccB = 0x5ac635d8aa3a93e7b3ebbd55769886bc651d06b0cc53b0f63bce3c3e27d2604b+ , curveEccG = Point 0x6b17d1f2e12c4247f8bce6e563a440f277037d812deb33a0f4a13945d898c296+ 0x4fe342e2fe1a7f9b8ee7eb4a7c0f9e162bce33576b315ececbb6406837bf51f5+ , curveEccN = 0xffffffff00000000ffffffffffffffffbce6faada7179e84f3b9cac2fc632551+ , curveEccH = 1+ }+typeSEC_p384r1 = CurvePrime $ CurvePrimeParam 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffeffffffff0000000000000000ffffffff+paramSEC_p384r1 = CurveParameters+ { curveEccA = 0xfffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffeffffffff0000000000000000fffffffc+ , curveEccB = 0xb3312fa7e23ee7e4988e056be3f82d19181d9c6efe8141120314088f5013875ac656398d8a2ed19d2a85c8edd3ec2aef+ , curveEccG = Point 0xaa87ca22be8b05378eb1c71ef320ad746e1d3b628ba79b9859f741e082542a385502f25dbf55296c3a545e3872760ab7+ 0x3617de4a96262c6f5d9e98bf9292dc29f8f41dbd289a147ce9da3113b5f0b8c00a60b1ce1d7e819d7a431d7c90ea0e5f+ , curveEccN = 0xffffffffffffffffffffffffffffffffffffffffffffffffc7634d81f4372ddf581a0db248b0a77aecec196accc52973+ , curveEccH = 1+ }+typeSEC_p521r1 = CurvePrime $ CurvePrimeParam 0x01ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff+paramSEC_p521r1 = CurveParameters+ { curveEccA = 0x01fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffc+ , curveEccB = 0x0051953eb9618e1c9a1f929a21a0b68540eea2da725b99b315f3b8b489918ef109e156193951ec7e937b1652c0bd3bb1bf073573df883d2c34f1ef451fd46b503f00+ , curveEccG = Point 0x00c6858e06b70404e9cd9e3ecb662395b4429c648139053fb521f828af606b4d3dbaa14b5e77efe75928fe1dc127a2ffa8de3348b3c1856a429bf97e7e31c2e5bd66+ 0x011839296a789a3bc0045c8a5fb42c7d1bd998f54449579b446817afbd17273e662c97ee72995ef42640c550b9013fad0761353c7086a272c24088be94769fd16650+ , curveEccN = 0x01fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffa51868783bf2f966b7fcc0148f709a5d03bb5c9b8899c47aebb6fb71e91386409+ , curveEccH = 1+ }+typeSEC_t113r1 = CurveBinary $ CurveBinaryParam 0x020000000000000000000000000201+paramSEC_t113r1 = CurveParameters+ { curveEccA = 0x003088250ca6e7c7fe649ce85820f7+ , curveEccB = 0x00e8bee4d3e2260744188be0e9c723+ , curveEccG = Point 0x009d73616f35f4ab1407d73562c10f+ 0x00a52830277958ee84d1315ed31886+ , curveEccN = 0x0100000000000000d9ccec8a39e56f+ , curveEccH = 2+ }+typeSEC_t113r2 = CurveBinary $ CurveBinaryParam 0x020000000000000000000000000201+paramSEC_t113r2 = CurveParameters+ { curveEccA = 0x00689918dbec7e5a0dd6dfc0aa55c7+ , curveEccB = 0x0095e9a9ec9b297bd4bf36e059184f+ , curveEccG = Point 0x01a57a6a7b26ca5ef52fcdb8164797+ 0x00b3adc94ed1fe674c06e695baba1d+ , curveEccN = 0x010000000000000108789b2496af93+ , curveEccH = 2+ }+typeSEC_t131r1 = CurveBinary $ CurveBinaryParam 0x080000000000000000000000000000010d+paramSEC_t131r1 = CurveParameters+ { curveEccA = 0x07a11b09a76b562144418ff3ff8c2570b8+ , curveEccB = 0x0217c05610884b63b9c6c7291678f9d341+ , curveEccG = Point 0x0081baf91fdf9833c40f9c181343638399+ 0x078c6e7ea38c001f73c8134b1b4ef9e150+ , curveEccN = 0x0400000000000000023123953a9464b54d+ , curveEccH = 2+ }+typeSEC_t131r2 = CurveBinary $ CurveBinaryParam 0x080000000000000000000000000000010d+paramSEC_t131r2 = CurveParameters+ { curveEccA = 0x03e5a88919d7cafcbf415f07c2176573b2+ , curveEccB = 0x04b8266a46c55657ac734ce38f018f2192+ , curveEccG = Point 0x0356dcd8f2f95031ad652d23951bb366a8+ 0x0648f06d867940a5366d9e265de9eb240f+ , curveEccN = 0x0400000000000000016954a233049ba98f+ , curveEccH = 2+ }+typeSEC_t163k1 = CurveBinary $ CurveBinaryParam 0x0800000000000000000000000000000000000000c9+paramSEC_t163k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000001+ , curveEccB = 0x000000000000000000000000000000000000000001+ , curveEccG = Point 0x02fe13c0537bbc11acaa07d793de4e6d5e5c94eee8+ 0x0289070fb05d38ff58321f2e800536d538ccdaa3d9+ , curveEccN = 0x04000000000000000000020108a2e0cc0d99f8a5ef+ , curveEccH = 2+ }+typeSEC_t163r1 = CurveBinary $ CurveBinaryParam 0x0800000000000000000000000000000000000000c9+paramSEC_t163r1 = CurveParameters+ { curveEccA = 0x07b6882caaefa84f9554ff8428bd88e246d2782ae2+ , curveEccB = 0x0713612dcddcb40aab946bda29ca91f73af958afd9+ , curveEccG = Point 0x0369979697ab43897789566789567f787a7876a654+ 0x00435edb42efafb2989d51fefce3c80988f41ff883+ , curveEccN = 0x03ffffffffffffffffffff48aab689c29ca710279b+ , curveEccH = 2+ }+typeSEC_t163r2 = CurveBinary $ CurveBinaryParam 0x0800000000000000000000000000000000000000c9+paramSEC_t163r2 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000001+ , curveEccB = 0x020a601907b8c953ca1481eb10512f78744a3205fd+ , curveEccG = Point 0x03f0eba16286a2d57ea0991168d4994637e8343e36+ 0x00d51fbc6c71a0094fa2cdd545b11c5c0c797324f1+ , curveEccN = 0x040000000000000000000292fe77e70c12a4234c33+ , curveEccH = 2+ }+typeSEC_t193r1 = CurveBinary $ CurveBinaryParam 0x02000000000000000000000000000000000000000000008001+paramSEC_t193r1 = CurveParameters+ { curveEccA = 0x0017858feb7a98975169e171f77b4087de098ac8a911df7b01+ , curveEccB = 0x00fdfb49bfe6c3a89facadaa7a1e5bbc7cc1c2e5d831478814+ , curveEccG = Point 0x01f481bc5f0ff84a74ad6cdf6fdef4bf6179625372d8c0c5e1+ 0x0025e399f2903712ccf3ea9e3a1ad17fb0b3201b6af7ce1b05+ , curveEccN = 0x01000000000000000000000000c7f34a778f443acc920eba49+ , curveEccH = 2+ }+typeSEC_t193r2 = CurveBinary $ CurveBinaryParam 0x02000000000000000000000000000000000000000000008001+paramSEC_t193r2 = CurveParameters+ { curveEccA = 0x0163f35a5137c2ce3ea6ed8667190b0bc43ecd69977702709b+ , curveEccB = 0x00c9bb9e8927d4d64c377e2ab2856a5b16e3efb7f61d4316ae+ , curveEccG = Point 0x00d9b67d192e0367c803f39e1a7e82ca14a651350aae617e8f+ 0x01ce94335607c304ac29e7defbd9ca01f596f927224cdecf6c+ , curveEccN = 0x010000000000000000000000015aab561b005413ccd4ee99d5+ , curveEccH = 2+ }+typeSEC_t233k1 = CurveBinary $ CurveBinaryParam 0x020000000000000000000000000000000000000004000000000000000001+paramSEC_t233k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x000000000000000000000000000000000000000000000000000000000001+ , curveEccG = Point 0x017232ba853a7e731af129f22ff4149563a419c26bf50a4c9d6eefad6126+ 0x01db537dece819b7f70f555a67c427a8cd9bf18aeb9b56e0c11056fae6a3+ , curveEccN = 0x008000000000000000000000000000069d5bb915bcd46efb1ad5f173abdf+ , curveEccH = 4+ }+typeSEC_t233r1 = CurveBinary $ CurveBinaryParam 0x020000000000000000000000000000000000000004000000000000000001+paramSEC_t233r1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000001+ , curveEccB = 0x0066647ede6c332c7f8c0923bb58213b333b20e9ce4281fe115f7d8f90ad+ , curveEccG = Point 0x00fac9dfcbac8313bb2139f1bb755fef65bc391f8b36f8f8eb7371fd558b+ 0x01006a08a41903350678e58528bebf8a0beff867a7ca36716f7e01f81052+ , curveEccN = 0x01000000000000000000000000000013e974e72f8a6922031d2603cfe0d7+ , curveEccH = 2+ }+typeSEC_t239k1 = CurveBinary $ CurveBinaryParam 0x800000000000000000004000000000000000000000000000000000000001+paramSEC_t239k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x000000000000000000000000000000000000000000000000000000000001+ , curveEccG = Point 0x29a0b6a887a983e9730988a68727a8b2d126c44cc2cc7b2a6555193035dc+ 0x76310804f12e549bdb011c103089e73510acb275fc312a5dc6b76553f0ca+ , curveEccN = 0x2000000000000000000000000000005a79fec67cb6e91f1c1da800e478a5+ , curveEccH = 4+ }+typeSEC_t283k1 = CurveBinary $ CurveBinaryParam 0x0800000000000000000000000000000000000000000000000000000000000000000010a1+paramSEC_t283k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x000000000000000000000000000000000000000000000000000000000000000000000001+ , curveEccG = Point 0x0503213f78ca44883f1a3b8162f188e553cd265f23c1567a16876913b0c2ac2458492836+ 0x01ccda380f1c9e318d90f95d07e5426fe87e45c0e8184698e45962364e34116177dd2259+ , curveEccN = 0x01ffffffffffffffffffffffffffffffffffe9ae2ed07577265dff7f94451e061e163c61+ , curveEccH = 4+ }+typeSEC_t283r1 = CurveBinary $ CurveBinaryParam 0x0800000000000000000000000000000000000000000000000000000000000000000010a1+paramSEC_t283r1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000000000000000001+ , curveEccB = 0x027b680ac8b8596da5a4af8a19a0303fca97fd7645309fa2a581485af6263e313b79a2f5+ , curveEccG = Point 0x05f939258db7dd90e1934f8c70b0dfec2eed25b8557eac9c80e2e198f8cdbecd86b12053+ 0x03676854fe24141cb98fe6d4b20d02b4516ff702350eddb0826779c813f0df45be8112f4+ , curveEccN = 0x03ffffffffffffffffffffffffffffffffffef90399660fc938a90165b042a7cefadb307+ , curveEccH = 2+ }+typeSEC_t409k1 = CurveBinary $ CurveBinaryParam 0x02000000000000000000000000000000000000000000000000000000000000000000000000000000008000000000000000000001+paramSEC_t409k1 = CurveParameters+ { curveEccA = 0x00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001+ , curveEccG = Point 0x0060f05f658f49c1ad3ab1890f7184210efd0987e307c84c27accfb8f9f67cc2c460189eb5aaaa62ee222eb1b35540cfe9023746+ 0x01e369050b7c4e42acba1dacbf04299c3460782f918ea427e6325165e9ea10e3da5f6c42e9c55215aa9ca27a5863ec48d8e0286b+ , curveEccN = 0x007ffffffffffffffffffffffffffffffffffffffffffffffffffe5f83b2d4ea20400ec4557d5ed3e3e7ca5b4b5c83b8e01e5fcf+ , curveEccH = 4+ }+typeSEC_t409r1 = CurveBinary $ CurveBinaryParam 0x02000000000000000000000000000000000000000000000000000000000000000000000000000000008000000000000000000001+paramSEC_t409r1 = CurveParameters+ { curveEccA = 0x00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001+ , curveEccB = 0x0021a5c2c8ee9feb5c4b9a753b7b476b7fd6422ef1f3dd674761fa99d6ac27c8a9a197b272822f6cd57a55aa4f50ae317b13545f+ , curveEccG = Point 0x015d4860d088ddb3496b0c6064756260441cde4af1771d4db01ffe5b34e59703dc255a868a1180515603aeab60794e54bb7996a7+ 0x0061b1cfab6be5f32bbfa78324ed106a7636b9c5a7bd198d0158aa4f5488d08f38514f1fdf4b4f40d2181b3681c364ba0273c706+ , curveEccN = 0x010000000000000000000000000000000000000000000000000001e2aad6a612f33307be5fa47c3c9e052f838164cd37d9a21173+ , curveEccH = 2+ }+typeSEC_t571k1 = CurveBinary $ CurveBinaryParam 0x080000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000425+paramSEC_t571k1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000+ , curveEccB = 0x000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001+ , curveEccG = Point 0x026eb7a859923fbc82189631f8103fe4ac9ca2970012d5d46024804801841ca44370958493b205e647da304db4ceb08cbbd1ba39494776fb988b47174dca88c7e2945283a01c8972+ 0x0349dc807f4fbf374f4aeade3bca95314dd58cec9f307a54ffc61efc006d8a2c9d4979c0ac44aea74fbebbb9f772aedcb620b01a7ba7af1b320430c8591984f601cd4c143ef1c7a3+ , curveEccN = 0x020000000000000000000000000000000000000000000000000000000000000000000000131850e1f19a63e4b391a8db917f4138b630d84be5d639381e91deb45cfe778f637c1001+ , curveEccH = 4+ }+typeSEC_t571r1 = CurveBinary $ CurveBinaryParam 0x080000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000425+paramSEC_t571r1 = CurveParameters+ { curveEccA = 0x000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001+ , curveEccB = 0x02f40e7e2221f295de297117b7f3d62f5c6a97ffcb8ceff1cd6ba8ce4a9a18ad84ffabbd8efa59332be7ad6756a66e294afd185a78ff12aa520e4de739baca0c7ffeff7f2955727a+ , curveEccG = Point 0x0303001d34b856296c16c0d40d3cd7750a93d1d2955fa80aa5f40fc8db7b2abdbde53950f4c0d293cdd711a35b67fb1499ae60038614f1394abfa3b4c850d927e1e7769c8eec2d19+ 0x037bf27342da639b6dccfffeb73d69d78c6c27a6009cbbca1980f8533921e8a684423e43bab08a576291af8f461bb2a8b3531d2f0485c19b16e2f1516e23dd3c1a4827af1b8ac15b+ , curveEccN = 0x03ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffe661ce18ff55987308059b186823851ec7dd9ca1161de93d5174d66e8382e9bb2fe84e47+ , curveEccH = 2+ }
Crypto/Error/Types.hs view
@@ -8,6 +8,7 @@ -- Cryptographic Error enumeration and handling -- {-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Error.Types ( CryptoError(..) , CryptoFailable(..)@@ -21,23 +22,37 @@ import qualified Control.Exception as E import Data.Data -import Crypto.Internal.Imports+import Basement.Monad (MonadFailure(..)) -- | Enumeration of all possible errors that can be found in this library data CryptoError = -- symmetric cipher errors CryptoError_KeySizeInvalid | CryptoError_IvSizeInvalid+ | CryptoError_SeedSizeInvalid | CryptoError_AEADModeNotSupported -- public key cryptography error | CryptoError_SecretKeySizeInvalid | CryptoError_SecretKeyStructureInvalid | CryptoError_PublicKeySizeInvalid | CryptoError_SharedSecretSizeInvalid+ -- elliptic cryptography error+ | CryptoError_EcScalarOutOfBounds+ | CryptoError_PointSizeInvalid+ | CryptoError_PointFormatInvalid+ | CryptoError_PointFormatUnsupported+ | CryptoError_PointCoordinatesInvalid+ | CryptoError_ScalarMultiplicationInvalid -- Message authentification error | CryptoError_MacKeyInvalid | CryptoError_AuthenticationTagSizeInvalid- deriving (Show,Eq,Enum,Data,Typeable)+ -- Prime generation error+ | CryptoError_PrimeSizeInvalid+ -- Parameter errors+ | CryptoError_SaltTooSmall+ | CryptoError_OutputLengthTooSmall+ | CryptoError_OutputLengthTooBig+ deriving (Show,Eq,Enum,Data) instance E.Exception CryptoError @@ -52,10 +67,8 @@ data CryptoFailable a = CryptoPassed a | CryptoFailed CryptoError+ deriving (Show) -instance Show a => Show (CryptoFailable a) where- show (CryptoPassed a) = "CryptoPassed " ++ show a- show (CryptoFailed err) = "CryptoFailed " ++ show err instance Eq a => Eq (CryptoFailable a) where (==) (CryptoPassed a) (CryptoPassed b) = a == b (==) (CryptoFailed e1) (CryptoFailed e2) = e1 == e2@@ -69,11 +82,15 @@ pure a = CryptoPassed a (<*>) fm m = fm >>= \p -> m >>= \r2 -> return (p r2) instance Monad CryptoFailable where- return a = CryptoPassed a+ return = pure (>>=) m1 m2 = do case m1 of CryptoPassed a -> m2 a CryptoFailed e -> CryptoFailed e++instance MonadFailure CryptoFailable where+ type Failure CryptoFailable = CryptoError+ mFail = CryptoFailed -- | Throw an CryptoError as exception on CryptoFailed result, -- otherwise return the computed value
Crypto/Hash.hs view
@@ -16,6 +16,8 @@ -- > hexSha3_512 :: ByteString -> String -- > hexSha3_512 bs = show (hash bs :: Digest SHA3_512) --+{-# LANGUAGE ScopedTypeVariables #-}+{-# LANGUAGE BangPatterns #-} module Crypto.Hash ( -- * Types@@ -23,78 +25,109 @@ , Digest -- * Functions , digestFromByteString- -- * hash methods parametrized by algorithm+ -- * Hash methods parametrized by algorithm , hashInitWith , hashWith- -- * hash methods+ , hashPrefixWith+ -- * Hash methods , hashInit , hashUpdates , hashUpdate , hashFinalize+ , hashFinalizePrefix , hashBlockSize , hashDigestSize , hash+ , hashPrefix , hashlazy -- * Hash algorithms , module Crypto.Hash.Algorithms ) where -import Control.Monad+import Basement.Types.OffsetSize (CountOf (..))+import Basement.Block (Block, unsafeFreeze)+import Basement.Block.Mutable (copyFromPtr, new)+import Crypto.Internal.Compat (unsafeDoIO) import Crypto.Hash.Types import Crypto.Hash.Algorithms-import Foreign.Ptr (Ptr)+import Foreign.Ptr (Ptr, plusPtr) import Crypto.Internal.ByteArray (ByteArrayAccess) import qualified Crypto.Internal.ByteArray as B import qualified Data.ByteString.Lazy as L+import Data.Word (Word8)+import Data.Int (Int32) -- | Hash a strict bytestring into a digest. hash :: (ByteArrayAccess ba, HashAlgorithm a) => ba -> Digest a hash bs = hashFinalize $ hashUpdate hashInit bs +-- | Hash the first N bytes of a bytestring, with code path independent from N.+hashPrefix :: (ByteArrayAccess ba, HashAlgorithmPrefix a) => ba -> Int -> Digest a+hashPrefix = hashFinalizePrefix hashInit+ -- | Hash a lazy bytestring into a digest. hashlazy :: HashAlgorithm a => L.ByteString -> Digest a hashlazy lbs = hashFinalize $ hashUpdates hashInit (L.toChunks lbs) -- | Initialize a new context for this hash algorithm-hashInit :: HashAlgorithm a- => Context a-hashInit = doInit undefined B.allocAndFreeze- where- doInit :: HashAlgorithm a => a -> (Int -> (Ptr (Context a) -> IO ()) -> B.Bytes) -> Context a- doInit alg alloc = Context $ alloc (hashInternalContextSize alg) hashInternalInit-{-# NOINLINE hashInit #-}+hashInit :: forall a . HashAlgorithm a => Context a+hashInit = Context $ B.allocAndFreeze (hashInternalContextSize (undefined :: a)) $ \(ptr :: Ptr (Context a)) ->+ hashInternalInit ptr -- | run hashUpdates on one single bytestring and return the updated context. hashUpdate :: (ByteArrayAccess ba, HashAlgorithm a) => Context a -> ba -> Context a-hashUpdate ctx b = hashUpdates ctx [b]+hashUpdate ctx b+ | B.null b = ctx+ | otherwise = hashUpdates ctx [b] -- | Update the context with a list of strict bytestring, -- and return a new context with the updates.-hashUpdates :: (HashAlgorithm a, ByteArrayAccess ba)+hashUpdates :: forall a ba . (HashAlgorithm a, ByteArrayAccess ba) => Context a -> [ba] -> Context a-hashUpdates c l = doUpdates (B.copyAndFreeze c)- where doUpdates :: HashAlgorithm a => ((Ptr (Context a) -> IO ()) -> B.Bytes) -> Context a- doUpdates copy = Context $ copy $ \ctx ->- mapM_ (\b -> B.withByteArray b $ \d -> hashInternalUpdate ctx d (fromIntegral $ B.length b)) l-{-# NOINLINE hashUpdates #-}+hashUpdates c l+ | null ls = c+ | otherwise = Context $ B.copyAndFreeze c $ \(ctx :: Ptr (Context a)) ->+ mapM_ (\b -> B.withByteArray b (processBlocks ctx (B.length b))) ls+ where+ ls = filter (not . B.null) l+ -- process the data in 2GB chunks to fit in uint32_t and Int on 32 bit systems+ processBlocks ctx bytesLeft dataPtr+ | bytesLeft == 0 = return ()+ | otherwise = do+ hashInternalUpdate ctx dataPtr (fromIntegral actuallyProcessed)+ processBlocks ctx (bytesLeft - actuallyProcessed) (dataPtr `plusPtr` actuallyProcessed)+ where+ actuallyProcessed = min bytesLeft (fromIntegral (maxBound :: Int32)) -- | Finalize a context and return a digest.-hashFinalize :: HashAlgorithm a+hashFinalize :: forall a . HashAlgorithm a => Context a -> Digest a-hashFinalize c = doFinalize undefined (B.copy c) (B.allocAndFreeze)- where doFinalize :: HashAlgorithm alg- => alg- -> ((Ptr (Context alg) -> IO ()) -> IO B.Bytes)- -> (Int -> (Ptr (Digest alg) -> IO ()) -> B.Bytes)- -> Digest alg- doFinalize alg copy allocDigest =- Digest $ allocDigest (hashDigestSize alg) $ \dig ->- (void $ copy $ \ctx -> hashInternalFinalize ctx dig)-{-# NOINLINE hashFinalize #-}+hashFinalize !c =+ Digest $ B.allocAndFreeze (hashDigestSize (undefined :: a)) $ \(dig :: Ptr (Digest a)) -> do+ ((!_) :: B.Bytes) <- B.copy c $ \(ctx :: Ptr (Context a)) -> hashInternalFinalize ctx dig+ return () +-- | Update the context with the first N bytes of a bytestring and return the+-- digest. The code path is independent from N but much slower than a normal+-- 'hashUpdate'. The function can be called for the last bytes of a message, in+-- order to exclude a variable padding, without leaking the padding length. The+-- begining of the message, never impacted by the padding, should preferably go+-- through 'hashUpdate' for better performance.+hashFinalizePrefix :: forall a ba . (HashAlgorithmPrefix a, ByteArrayAccess ba)+ => Context a+ -> ba+ -> Int+ -> Digest a+hashFinalizePrefix !c b len =+ Digest $ B.allocAndFreeze (hashDigestSize (undefined :: a)) $ \(dig :: Ptr (Digest a)) -> do+ ((!_) :: B.Bytes) <- B.copy c $ \(ctx :: Ptr (Context a)) ->+ B.withByteArray b $ \d ->+ hashInternalFinalizePrefix ctx d (fromIntegral $ B.length b) (fromIntegral len) dig+ return ()+ -- | Initialize a new context for a specified hash algorithm hashInitWith :: HashAlgorithm alg => alg -> Context alg hashInitWith _ = hashInit@@ -103,14 +136,26 @@ hashWith :: (ByteArrayAccess ba, HashAlgorithm alg) => alg -> ba -> Digest alg hashWith _ = hash +-- | Run the 'hashPrefix' function but takes an explicit hash algorithm parameter+hashPrefixWith :: (ByteArrayAccess ba, HashAlgorithmPrefix alg) => alg -> ba -> Int -> Digest alg+hashPrefixWith _ = hashPrefix+ -- | Try to transform a bytearray into a Digest of specific algorithm. -- -- If the digest is not the right size for the algorithm specified, then -- Nothing is returned.-digestFromByteString :: (HashAlgorithm a, ByteArrayAccess ba) => ba -> Maybe (Digest a)+digestFromByteString :: forall a ba . (HashAlgorithm a, ByteArrayAccess ba) => ba -> Maybe (Digest a) digestFromByteString = from undefined where- from :: (HashAlgorithm a, ByteArrayAccess ba) => a -> ba -> Maybe (Digest a)+ from :: a -> ba -> Maybe (Digest a) from alg bs- | B.length bs == (hashDigestSize alg) = (Just $ Digest $ B.convert bs)+ | B.length bs == (hashDigestSize alg) = Just $ Digest $ unsafeDoIO $ copyBytes bs | otherwise = Nothing++ copyBytes :: ba -> IO (Block Word8)+ copyBytes ba = do+ muArray <- new count+ B.withByteArray ba $ \ptr -> copyFromPtr ptr muArray 0 count+ unsafeFreeze muArray+ where+ count = CountOf (B.length ba)
Crypto/Hash/Algorithms.hs view
@@ -1,4 +1,3 @@-{-# LANGUAGE CPP #-} -- | -- Module : Crypto.Hash.Algorithms -- License : BSD-style@@ -10,11 +9,17 @@ -- module Crypto.Hash.Algorithms ( HashAlgorithm- -- * hash algorithms+ , HashAlgorithmPrefix+ -- * Hash algorithms+ , Blake2s_160(..) , Blake2s_224(..)- , Blake2sp_224(..) , Blake2s_256(..)+ , Blake2sp_224(..) , Blake2sp_256(..)+ , Blake2b_160(..)+ , Blake2b_224(..)+ , Blake2b_256(..)+ , Blake2b_384(..) , Blake2b_512(..) , Blake2bp_512(..) , MD2(..)@@ -37,6 +42,10 @@ , SHA3_256(..) , SHA3_384(..) , SHA3_512(..)+ , SHAKE128(..)+ , SHAKE256(..)+ , Blake2b(..), Blake2bp(..)+ , Blake2s(..), Blake2sp(..) , Skein256_224(..) , Skein256_256(..) , Skein512_224(..)@@ -46,7 +55,7 @@ , Whirlpool(..) ) where -import Crypto.Hash.Types (HashAlgorithm)+import Crypto.Hash.Types (HashAlgorithm, HashAlgorithmPrefix) import Crypto.Hash.Blake2s import Crypto.Hash.Blake2sp import Crypto.Hash.Blake2b@@ -67,3 +76,5 @@ import Crypto.Hash.Skein256 import Crypto.Hash.Skein512 import Crypto.Hash.Whirlpool+import Crypto.Hash.SHAKE+import Crypto.Hash.Blake2
+ Crypto/Hash/Blake2.hs view
@@ -0,0 +1,162 @@+-- |+-- Module : Crypto.Hash.Blake2+-- License : BSD-style+-- Maintainer : Nicolas Di Prima <nicolas@primetype.co.uk>+-- Stability : experimental+-- Portability : unknown+--+-- Module containing the binding functions to work with the+-- Blake2+--+-- Implementation based from [RFC7693](https://tools.ietf.org/html/rfc7693)+--+-- Please consider the following when chosing a hash:+--+-- Algorithm | Target | Collision | Digest Size |+-- Identifier | Arch | Security | in bytes |+-- ---------------+--------+-----------+-------------++-- id-blake2b160 | 64-bit | 2**80 | 20 |+-- id-blake2b256 | 64-bit | 2**128 | 32 |+-- id-blake2b384 | 64-bit | 2**192 | 48 |+-- id-blake2b512 | 64-bit | 2**256 | 64 |+-- ---------------+--------+-----------+-------------++-- id-blake2s128 | 32-bit | 2**64 | 16 |+-- id-blake2s160 | 32-bit | 2**80 | 20 |+-- id-blake2s224 | 32-bit | 2**112 | 28 |+-- id-blake2s256 | 32-bit | 2**128 | 32 |+-- ---------------+--------+-----------+-------------++--+{-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE ScopedTypeVariables #-}+{-# LANGUAGE KindSignatures #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-}+module Crypto.Hash.Blake2+ ( Blake2s(..)+ , Blake2sp(..)+ , Blake2b(..)+ , Blake2bp(..)+ ) where++import Crypto.Hash.Types+import Foreign.Ptr (Ptr)+import Data.Data+import Data.Word (Word8, Word32)+import GHC.TypeLits (Nat, KnownNat)+import Crypto.Internal.Nat++-- | Fast and secure alternative to SHA1 and HMAC-SHA1+--+-- It is espacially known to target 32bits architectures.+--+-- Known supported digest sizes:+--+-- * Blake2s 160+-- * Blake2s 224+-- * Blake2s 256+--+data Blake2s (bitlen :: Nat) = Blake2s+ deriving (Show,Data)++instance (IsDivisibleBy8 bitlen, KnownNat bitlen, IsAtLeast bitlen 8, IsAtMost bitlen 256)+ => HashAlgorithm (Blake2s bitlen)+ where+ type HashBlockSize (Blake2s bitlen) = 64+ type HashDigestSize (Blake2s bitlen) = Div8 bitlen+ type HashInternalContextSize (Blake2s bitlen) = 136+ hashBlockSize _ = 64+ hashDigestSize _ = byteLen (Proxy :: Proxy bitlen)+ hashInternalContextSize _ = 136+ hashInternalInit p = c_blake2s_init p (integralNatVal (Proxy :: Proxy bitlen))+ hashInternalUpdate = c_blake2s_update+ hashInternalFinalize p = c_blake2s_finalize p (integralNatVal (Proxy :: Proxy bitlen))++foreign import ccall unsafe "cryptonite_blake2s_init"+ c_blake2s_init :: Ptr (Context a) -> Word32 -> IO ()+foreign import ccall "cryptonite_blake2s_update"+ c_blake2s_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO ()+foreign import ccall unsafe "cryptonite_blake2s_finalize"+ c_blake2s_finalize :: Ptr (Context a) -> Word32 -> Ptr (Digest a) -> IO ()++-- | Fast cryptographic hash.+--+-- It is especially known to target 64bits architectures.+--+-- Known supported digest sizes:+--+-- * Blake2b 160+-- * Blake2b 224+-- * Blake2b 256+-- * Blake2b 384+-- * Blake2b 512+--+data Blake2b (bitlen :: Nat) = Blake2b+ deriving (Show,Data)++instance (IsDivisibleBy8 bitlen, KnownNat bitlen, IsAtLeast bitlen 8, IsAtMost bitlen 512)+ => HashAlgorithm (Blake2b bitlen)+ where+ type HashBlockSize (Blake2b bitlen) = 128+ type HashDigestSize (Blake2b bitlen) = Div8 bitlen+ type HashInternalContextSize (Blake2b bitlen) = 248+ hashBlockSize _ = 128+ hashDigestSize _ = byteLen (Proxy :: Proxy bitlen)+ hashInternalContextSize _ = 248+ hashInternalInit p = c_blake2b_init p (integralNatVal (Proxy :: Proxy bitlen))+ hashInternalUpdate = c_blake2b_update+ hashInternalFinalize p = c_blake2b_finalize p (integralNatVal (Proxy :: Proxy bitlen))++foreign import ccall unsafe "cryptonite_blake2b_init"+ c_blake2b_init :: Ptr (Context a) -> Word32 -> IO ()+foreign import ccall "cryptonite_blake2b_update"+ c_blake2b_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO ()+foreign import ccall unsafe "cryptonite_blake2b_finalize"+ c_blake2b_finalize :: Ptr (Context a) -> Word32 -> Ptr (Digest a) -> IO ()++data Blake2sp (bitlen :: Nat) = Blake2sp+ deriving (Show,Data)++instance (IsDivisibleBy8 bitlen, KnownNat bitlen, IsAtLeast bitlen 8, IsAtMost bitlen 256)+ => HashAlgorithm (Blake2sp bitlen)+ where+ type HashBlockSize (Blake2sp bitlen) = 64+ type HashDigestSize (Blake2sp bitlen) = Div8 bitlen+ type HashInternalContextSize (Blake2sp bitlen) = 2185+ hashBlockSize _ = 64+ hashDigestSize _ = byteLen (Proxy :: Proxy bitlen)+ hashInternalContextSize _ = 2185+ hashInternalInit p = c_blake2sp_init p (integralNatVal (Proxy :: Proxy bitlen))+ hashInternalUpdate = c_blake2sp_update+ hashInternalFinalize p = c_blake2sp_finalize p (integralNatVal (Proxy :: Proxy bitlen))++foreign import ccall unsafe "cryptonite_blake2sp_init"+ c_blake2sp_init :: Ptr (Context a) -> Word32 -> IO ()+foreign import ccall "cryptonite_blake2sp_update"+ c_blake2sp_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO ()+foreign import ccall unsafe "cryptonite_blake2sp_finalize"+ c_blake2sp_finalize :: Ptr (Context a) -> Word32 -> Ptr (Digest a) -> IO ()++data Blake2bp (bitlen :: Nat) = Blake2bp+ deriving (Show,Data)++instance (IsDivisibleBy8 bitlen, KnownNat bitlen, IsAtLeast bitlen 8, IsAtMost bitlen 512)+ => HashAlgorithm (Blake2bp bitlen)+ where+ type HashBlockSize (Blake2bp bitlen) = 128+ type HashDigestSize (Blake2bp bitlen) = Div8 bitlen+ type HashInternalContextSize (Blake2bp bitlen) = 2325+ hashBlockSize _ = 128+ hashDigestSize _ = byteLen (Proxy :: Proxy bitlen)+ hashInternalContextSize _ = 2325+ hashInternalInit p = c_blake2bp_init p (integralNatVal (Proxy :: Proxy bitlen))+ hashInternalUpdate = c_blake2bp_update+ hashInternalFinalize p = c_blake2bp_finalize p (integralNatVal (Proxy :: Proxy bitlen))+++foreign import ccall unsafe "cryptonite_blake2bp_init"+ c_blake2bp_init :: Ptr (Context a) -> Word32 -> IO ()+foreign import ccall "cryptonite_blake2bp_update"+ c_blake2bp_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO ()+foreign import ccall unsafe "cryptonite_blake2bp_finalize"+ c_blake2bp_finalize :: Ptr (Context a) -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/Blake2b.hs view
@@ -5,27 +5,94 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Blake2b cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Blake2b- ( Blake2b_512 (..)+ ( Blake2b_160 (..), Blake2b_224 (..), Blake2b_256 (..), Blake2b_384 (..), Blake2b_512 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) +-- | Blake2b (160 bits) cryptographic hash algorithm+data Blake2b_160 = Blake2b_160+ deriving (Show,Data)++instance HashAlgorithm Blake2b_160 where+ type HashBlockSize Blake2b_160 = 128+ type HashDigestSize Blake2b_160 = 20+ type HashInternalContextSize Blake2b_160 = 248+ hashBlockSize _ = 128+ hashDigestSize _ = 20+ hashInternalContextSize _ = 248+ hashInternalInit p = c_blake2b_init p 160+ hashInternalUpdate = c_blake2b_update+ hashInternalFinalize p = c_blake2b_finalize p 160++-- | Blake2b (224 bits) cryptographic hash algorithm+data Blake2b_224 = Blake2b_224+ deriving (Show,Data)++instance HashAlgorithm Blake2b_224 where+ type HashBlockSize Blake2b_224 = 128+ type HashDigestSize Blake2b_224 = 28+ type HashInternalContextSize Blake2b_224 = 248+ hashBlockSize _ = 128+ hashDigestSize _ = 28+ hashInternalContextSize _ = 248+ hashInternalInit p = c_blake2b_init p 224+ hashInternalUpdate = c_blake2b_update+ hashInternalFinalize p = c_blake2b_finalize p 224++-- | Blake2b (256 bits) cryptographic hash algorithm+data Blake2b_256 = Blake2b_256+ deriving (Show,Data)++instance HashAlgorithm Blake2b_256 where+ type HashBlockSize Blake2b_256 = 128+ type HashDigestSize Blake2b_256 = 32+ type HashInternalContextSize Blake2b_256 = 248+ hashBlockSize _ = 128+ hashDigestSize _ = 32+ hashInternalContextSize _ = 248+ hashInternalInit p = c_blake2b_init p 256+ hashInternalUpdate = c_blake2b_update+ hashInternalFinalize p = c_blake2b_finalize p 256++-- | Blake2b (384 bits) cryptographic hash algorithm+data Blake2b_384 = Blake2b_384+ deriving (Show,Data)++instance HashAlgorithm Blake2b_384 where+ type HashBlockSize Blake2b_384 = 128+ type HashDigestSize Blake2b_384 = 48+ type HashInternalContextSize Blake2b_384 = 248+ hashBlockSize _ = 128+ hashDigestSize _ = 48+ hashInternalContextSize _ = 248+ hashInternalInit p = c_blake2b_init p 384+ hashInternalUpdate = c_blake2b_update+ hashInternalFinalize p = c_blake2b_finalize p 384+ -- | Blake2b (512 bits) cryptographic hash algorithm data Blake2b_512 = Blake2b_512- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Blake2b_512 where+ type HashBlockSize Blake2b_512 = 128+ type HashDigestSize Blake2b_512 = 64+ type HashInternalContextSize Blake2b_512 = 248 hashBlockSize _ = 128 hashDigestSize _ = 64- hashInternalContextSize _ = 361+ hashInternalContextSize _ = 248 hashInternalInit p = c_blake2b_init p 512 hashInternalUpdate = c_blake2b_update hashInternalFinalize p = c_blake2b_finalize p 512
Crypto/Hash/Blake2bp.hs view
@@ -5,37 +5,44 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Blake2bp cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Blake2bp ( Blake2bp_512 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Blake2bp (512 bits) cryptographic hash algorithm data Blake2bp_512 = Blake2bp_512- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Blake2bp_512 where+ type HashBlockSize Blake2bp_512 = 128+ type HashDigestSize Blake2bp_512 = 64+ type HashInternalContextSize Blake2bp_512 = 1768 hashBlockSize _ = 128 hashDigestSize _ = 64- hashInternalContextSize _ = 2325- hashInternalInit p = c_blake2sp_init p 512- hashInternalUpdate = c_blake2sp_update- hashInternalFinalize p = c_blake2sp_finalize p 512+ hashInternalContextSize _ = 1768+ hashInternalInit p = c_blake2bp_init p 512+ hashInternalUpdate = c_blake2bp_update+ hashInternalFinalize p = c_blake2bp_finalize p 512 -foreign import ccall unsafe "cryptonite_blake2sp_init"- c_blake2sp_init :: Ptr (Context a) -> Word32 -> IO ()+foreign import ccall unsafe "cryptonite_blake2bp_init"+ c_blake2bp_init :: Ptr (Context a) -> Word32 -> IO () -foreign import ccall "cryptonite_blake2sp_update"- c_blake2sp_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO ()+foreign import ccall "cryptonite_blake2bp_update"+ c_blake2bp_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO () -foreign import ccall unsafe "cryptonite_blake2sp_finalize"- c_blake2sp_finalize :: Ptr (Context a) -> Word32 -> Ptr (Digest a) -> IO ()+foreign import ccall unsafe "cryptonite_blake2bp_finalize"+ c_blake2bp_finalize :: Ptr (Context a) -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/Blake2s.hs view
@@ -5,39 +5,64 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Blake2s cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Blake2s- ( Blake2s_224 (..), Blake2s_256 (..)+ ( Blake2s_160 (..), Blake2s_224 (..), Blake2s_256 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) +-- | Blake2s (160 bits) cryptographic hash algorithm+data Blake2s_160 = Blake2s_160+ deriving (Show,Data)++instance HashAlgorithm Blake2s_160 where+ type HashBlockSize Blake2s_160 = 64+ type HashDigestSize Blake2s_160 = 20+ type HashInternalContextSize Blake2s_160 = 136+ hashBlockSize _ = 64+ hashDigestSize _ = 20+ hashInternalContextSize _ = 136+ hashInternalInit p = c_blake2s_init p 160+ hashInternalUpdate = c_blake2s_update+ hashInternalFinalize p = c_blake2s_finalize p 160+ -- | Blake2s (224 bits) cryptographic hash algorithm data Blake2s_224 = Blake2s_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Blake2s_224 where+ type HashBlockSize Blake2s_224 = 64+ type HashDigestSize Blake2s_224 = 28+ type HashInternalContextSize Blake2s_224 = 136 hashBlockSize _ = 64 hashDigestSize _ = 28- hashInternalContextSize _ = 185+ hashInternalContextSize _ = 136 hashInternalInit p = c_blake2s_init p 224 hashInternalUpdate = c_blake2s_update hashInternalFinalize p = c_blake2s_finalize p 224 -- | Blake2s (256 bits) cryptographic hash algorithm data Blake2s_256 = Blake2s_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Blake2s_256 where+ type HashBlockSize Blake2s_256 = 64+ type HashDigestSize Blake2s_256 = 32+ type HashInternalContextSize Blake2s_256 = 136 hashBlockSize _ = 64 hashDigestSize _ = 32- hashInternalContextSize _ = 185+ hashInternalContextSize _ = 136 hashInternalInit p = c_blake2s_init p 256 hashInternalUpdate = c_blake2s_update hashInternalFinalize p = c_blake2s_finalize p 256
Crypto/Hash/Blake2sp.hs view
@@ -5,39 +5,49 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Blake2sp cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Blake2sp ( Blake2sp_224 (..), Blake2sp_256 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Blake2sp (224 bits) cryptographic hash algorithm data Blake2sp_224 = Blake2sp_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Blake2sp_224 where+ type HashBlockSize Blake2sp_224 = 64+ type HashDigestSize Blake2sp_224 = 28+ type HashInternalContextSize Blake2sp_224 = 1752 hashBlockSize _ = 64 hashDigestSize _ = 28- hashInternalContextSize _ = 2185+ hashInternalContextSize _ = 1752 hashInternalInit p = c_blake2sp_init p 224 hashInternalUpdate = c_blake2sp_update hashInternalFinalize p = c_blake2sp_finalize p 224 -- | Blake2sp (256 bits) cryptographic hash algorithm data Blake2sp_256 = Blake2sp_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Blake2sp_256 where+ type HashBlockSize Blake2sp_256 = 64+ type HashDigestSize Blake2sp_256 = 32+ type HashInternalContextSize Blake2sp_256 = 1752 hashBlockSize _ = 64 hashDigestSize _ = 32- hashInternalContextSize _ = 2185+ hashInternalContextSize _ = 1752 hashInternalInit p = c_blake2sp_init p 256 hashInternalUpdate = c_blake2sp_update hashInternalFinalize p = c_blake2sp_finalize p 256
Crypto/Hash/IO.hs view
@@ -8,6 +8,7 @@ -- Generalized impure cryptographic hash interface -- {-# LANGUAGE GeneralizedNewtypeDeriving #-}+{-# LANGUAGE ScopedTypeVariables #-} module Crypto.Hash.IO ( HashAlgorithm(..) , MutableContext@@ -23,6 +24,11 @@ import Foreign.Ptr -- | A Mutable hash context+--+-- This type is an instance of 'B.ByteArrayAccess' for debugging purpose.+-- Internal layout is architecture dependent, may contain uninitialized data+-- fragments, and change in future versions. The bytearray should not be used+-- as input to cryptographic algorithms. newtype MutableContext a = MutableContext B.Bytes deriving (B.ByteArrayAccess) @@ -51,18 +57,10 @@ hashInternalUpdate ctx d (fromIntegral $ B.length dat) -- | Finalize a mutable hash context and compute a digest-hashMutableFinalize :: HashAlgorithm a => MutableContext a -> IO (Digest a)-hashMutableFinalize mc = doFinalize undefined (B.withByteArray mc) B.alloc- where doFinalize :: HashAlgorithm alg- => alg- -> ((Ptr (Context alg) -> IO ()) -> IO ())- -> (Int -> (Ptr (Digest alg) -> IO ()) -> IO B.Bytes)- -> IO (Digest alg)- doFinalize alg withCtx allocDigest = do- b <- allocDigest (hashDigestSize alg) $ \dig ->- withCtx $ \ctx ->- hashInternalFinalize ctx dig- return $ Digest b+hashMutableFinalize :: forall a . HashAlgorithm a => MutableContext a -> IO (Digest a)+hashMutableFinalize mc = do+ b <- B.alloc (hashDigestSize (undefined :: a)) $ \dig -> B.withByteArray mc $ \(ctx :: Ptr (Context a)) -> hashInternalFinalize ctx dig+ return $ Digest b -- | Reset the mutable context to the initial state of the hash hashMutableReset :: HashAlgorithm a => MutableContext a -> IO ()
Crypto/Hash/Keccak.hs view
@@ -5,24 +5,31 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Keccak cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Keccak ( Keccak_224 (..), Keccak_256 (..), Keccak_384 (..), Keccak_512 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Keccak (224 bits) cryptographic hash algorithm data Keccak_224 = Keccak_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Keccak_224 where+ type HashBlockSize Keccak_224 = 144+ type HashDigestSize Keccak_224 = 28+ type HashInternalContextSize Keccak_224 = 352 hashBlockSize _ = 144 hashDigestSize _ = 28 hashInternalContextSize _ = 352@@ -32,9 +39,12 @@ -- | Keccak (256 bits) cryptographic hash algorithm data Keccak_256 = Keccak_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Keccak_256 where+ type HashBlockSize Keccak_256 = 136+ type HashDigestSize Keccak_256 = 32+ type HashInternalContextSize Keccak_256 = 344 hashBlockSize _ = 136 hashDigestSize _ = 32 hashInternalContextSize _ = 344@@ -44,9 +54,12 @@ -- | Keccak (384 bits) cryptographic hash algorithm data Keccak_384 = Keccak_384- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Keccak_384 where+ type HashBlockSize Keccak_384 = 104+ type HashDigestSize Keccak_384 = 48+ type HashInternalContextSize Keccak_384 = 312 hashBlockSize _ = 104 hashDigestSize _ = 48 hashInternalContextSize _ = 312@@ -56,9 +69,12 @@ -- | Keccak (512 bits) cryptographic hash algorithm data Keccak_512 = Keccak_512- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Keccak_512 where+ type HashBlockSize Keccak_512 = 72+ type HashDigestSize Keccak_512 = 64+ type HashInternalContextSize Keccak_512 = 280 hashBlockSize _ = 72 hashDigestSize _ = 64 hashInternalContextSize _ = 280
Crypto/Hash/MD2.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- MD2 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.MD2 ( MD2 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | MD2 cryptographic hash algorithm data MD2 = MD2- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm MD2 where+ type HashBlockSize MD2 = 16+ type HashDigestSize MD2 = 16+ type HashInternalContextSize MD2 = 96 hashBlockSize _ = 16 hashDigestSize _ = 16 hashInternalContextSize _ = 96
Crypto/Hash/MD4.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- MD4 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.MD4 ( MD4 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | MD4 cryptographic hash algorithm data MD4 = MD4- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm MD4 where+ type HashBlockSize MD4 = 64+ type HashDigestSize MD4 = 16+ type HashInternalContextSize MD4 = 96 hashBlockSize _ = 64 hashDigestSize _ = 16 hashInternalContextSize _ = 96
Crypto/Hash/MD5.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- MD5 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.MD5 ( MD5 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | MD5 cryptographic hash algorithm data MD5 = MD5- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm MD5 where+ type HashBlockSize MD5 = 64+ type HashDigestSize MD5 = 16+ type HashInternalContextSize MD5 = 96 hashBlockSize _ = 64 hashDigestSize _ = 16 hashInternalContextSize _ = 96@@ -27,6 +34,9 @@ hashInternalUpdate = c_md5_update hashInternalFinalize = c_md5_finalize +instance HashAlgorithmPrefix MD5 where+ hashInternalFinalizePrefix = c_md5_finalize_prefix+ foreign import ccall unsafe "cryptonite_md5_init" c_md5_init :: Ptr (Context a)-> IO () @@ -35,3 +45,6 @@ foreign import ccall unsafe "cryptonite_md5_finalize" c_md5_finalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()++foreign import ccall "cryptonite_md5_finalize_prefix"+ c_md5_finalize_prefix :: Ptr (Context a) -> Ptr Word8 -> Word32 -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/RIPEMD160.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- RIPEMD160 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.RIPEMD160 ( RIPEMD160 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | RIPEMD160 cryptographic hash algorithm data RIPEMD160 = RIPEMD160- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm RIPEMD160 where+ type HashBlockSize RIPEMD160 = 64+ type HashDigestSize RIPEMD160 = 20+ type HashInternalContextSize RIPEMD160 = 128 hashBlockSize _ = 64 hashDigestSize _ = 20 hashInternalContextSize _ = 128
Crypto/Hash/SHA1.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA1 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA1 ( SHA1 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA1 cryptographic hash algorithm data SHA1 = SHA1- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA1 where+ type HashBlockSize SHA1 = 64+ type HashDigestSize SHA1 = 20+ type HashInternalContextSize SHA1 = 96 hashBlockSize _ = 64 hashDigestSize _ = 20 hashInternalContextSize _ = 96@@ -27,6 +34,9 @@ hashInternalUpdate = c_sha1_update hashInternalFinalize = c_sha1_finalize +instance HashAlgorithmPrefix SHA1 where+ hashInternalFinalizePrefix = c_sha1_finalize_prefix+ foreign import ccall unsafe "cryptonite_sha1_init" c_sha1_init :: Ptr (Context a)-> IO () @@ -35,3 +45,6 @@ foreign import ccall unsafe "cryptonite_sha1_finalize" c_sha1_finalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()++foreign import ccall "cryptonite_sha1_finalize_prefix"+ c_sha1_finalize_prefix :: Ptr (Context a) -> Ptr Word8 -> Word32 -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/SHA224.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA224 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA224 ( SHA224 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA224 cryptographic hash algorithm data SHA224 = SHA224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA224 where+ type HashBlockSize SHA224 = 64+ type HashDigestSize SHA224 = 28+ type HashInternalContextSize SHA224 = 192 hashBlockSize _ = 64 hashDigestSize _ = 28 hashInternalContextSize _ = 192@@ -27,6 +34,9 @@ hashInternalUpdate = c_sha224_update hashInternalFinalize = c_sha224_finalize +instance HashAlgorithmPrefix SHA224 where+ hashInternalFinalizePrefix = c_sha224_finalize_prefix+ foreign import ccall unsafe "cryptonite_sha224_init" c_sha224_init :: Ptr (Context a)-> IO () @@ -35,3 +45,6 @@ foreign import ccall unsafe "cryptonite_sha224_finalize" c_sha224_finalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()++foreign import ccall "cryptonite_sha224_finalize_prefix"+ c_sha224_finalize_prefix :: Ptr (Context a) -> Ptr Word8 -> Word32 -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/SHA256.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA256 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA256 ( SHA256 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA256 cryptographic hash algorithm data SHA256 = SHA256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA256 where+ type HashBlockSize SHA256 = 64+ type HashDigestSize SHA256 = 32+ type HashInternalContextSize SHA256 = 192 hashBlockSize _ = 64 hashDigestSize _ = 32 hashInternalContextSize _ = 192@@ -27,6 +34,9 @@ hashInternalUpdate = c_sha256_update hashInternalFinalize = c_sha256_finalize +instance HashAlgorithmPrefix SHA256 where+ hashInternalFinalizePrefix = c_sha256_finalize_prefix+ foreign import ccall unsafe "cryptonite_sha256_init" c_sha256_init :: Ptr (Context a)-> IO () @@ -35,3 +45,6 @@ foreign import ccall unsafe "cryptonite_sha256_finalize" c_sha256_finalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()++foreign import ccall "cryptonite_sha256_finalize_prefix"+ c_sha256_finalize_prefix :: Ptr (Context a) -> Ptr Word8 -> Word32 -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/SHA3.hs view
@@ -5,24 +5,31 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA3 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA3 ( SHA3_224 (..), SHA3_256 (..), SHA3_384 (..), SHA3_512 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA3 (224 bits) cryptographic hash algorithm data SHA3_224 = SHA3_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA3_224 where+ type HashBlockSize SHA3_224 = 144+ type HashDigestSize SHA3_224 = 28+ type HashInternalContextSize SHA3_224 = 352 hashBlockSize _ = 144 hashDigestSize _ = 28 hashInternalContextSize _ = 352@@ -32,9 +39,12 @@ -- | SHA3 (256 bits) cryptographic hash algorithm data SHA3_256 = SHA3_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA3_256 where+ type HashBlockSize SHA3_256 = 136+ type HashDigestSize SHA3_256 = 32+ type HashInternalContextSize SHA3_256 = 344 hashBlockSize _ = 136 hashDigestSize _ = 32 hashInternalContextSize _ = 344@@ -44,9 +54,12 @@ -- | SHA3 (384 bits) cryptographic hash algorithm data SHA3_384 = SHA3_384- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA3_384 where+ type HashBlockSize SHA3_384 = 104+ type HashDigestSize SHA3_384 = 48+ type HashInternalContextSize SHA3_384 = 312 hashBlockSize _ = 104 hashDigestSize _ = 48 hashInternalContextSize _ = 312@@ -56,9 +69,12 @@ -- | SHA3 (512 bits) cryptographic hash algorithm data SHA3_512 = SHA3_512- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA3_512 where+ type HashBlockSize SHA3_512 = 72+ type HashDigestSize SHA3_512 = 64+ type HashInternalContextSize SHA3_512 = 280 hashBlockSize _ = 72 hashDigestSize _ = 64 hashInternalContextSize _ = 280
Crypto/Hash/SHA384.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA384 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA384 ( SHA384 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA384 cryptographic hash algorithm data SHA384 = SHA384- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA384 where+ type HashBlockSize SHA384 = 128+ type HashDigestSize SHA384 = 48+ type HashInternalContextSize SHA384 = 256 hashBlockSize _ = 128 hashDigestSize _ = 48 hashInternalContextSize _ = 256@@ -27,6 +34,9 @@ hashInternalUpdate = c_sha384_update hashInternalFinalize = c_sha384_finalize +instance HashAlgorithmPrefix SHA384 where+ hashInternalFinalizePrefix = c_sha384_finalize_prefix+ foreign import ccall unsafe "cryptonite_sha384_init" c_sha384_init :: Ptr (Context a)-> IO () @@ -35,3 +45,6 @@ foreign import ccall unsafe "cryptonite_sha384_finalize" c_sha384_finalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()++foreign import ccall "cryptonite_sha384_finalize_prefix"+ c_sha384_finalize_prefix :: Ptr (Context a) -> Ptr Word8 -> Word32 -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/SHA512.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA512 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA512 ( SHA512 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA512 cryptographic hash algorithm data SHA512 = SHA512- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA512 where+ type HashBlockSize SHA512 = 128+ type HashDigestSize SHA512 = 64+ type HashInternalContextSize SHA512 = 256 hashBlockSize _ = 128 hashDigestSize _ = 64 hashInternalContextSize _ = 256@@ -27,6 +34,9 @@ hashInternalUpdate = c_sha512_update hashInternalFinalize = c_sha512_finalize +instance HashAlgorithmPrefix SHA512 where+ hashInternalFinalizePrefix = c_sha512_finalize_prefix+ foreign import ccall unsafe "cryptonite_sha512_init" c_sha512_init :: Ptr (Context a)-> IO () @@ -35,3 +45,6 @@ foreign import ccall unsafe "cryptonite_sha512_finalize" c_sha512_finalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()++foreign import ccall "cryptonite_sha512_finalize_prefix"+ c_sha512_finalize_prefix :: Ptr (Context a) -> Ptr Word8 -> Word32 -> Word32 -> Ptr (Digest a) -> IO ()
Crypto/Hash/SHA512t.hs view
@@ -5,24 +5,31 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- SHA512t cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.SHA512t ( SHA512t_224 (..), SHA512t_256 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | SHA512t (224 bits) cryptographic hash algorithm data SHA512t_224 = SHA512t_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA512t_224 where+ type HashBlockSize SHA512t_224 = 128+ type HashDigestSize SHA512t_224 = 28+ type HashInternalContextSize SHA512t_224 = 256 hashBlockSize _ = 128 hashDigestSize _ = 28 hashInternalContextSize _ = 256@@ -32,9 +39,12 @@ -- | SHA512t (256 bits) cryptographic hash algorithm data SHA512t_256 = SHA512t_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm SHA512t_256 where+ type HashBlockSize SHA512t_256 = 128+ type HashDigestSize SHA512t_256 = 32+ type HashInternalContextSize SHA512t_256 = 256 hashBlockSize _ = 128 hashDigestSize _ = 32 hashInternalContextSize _ = 256
+ Crypto/Hash/SHAKE.hs view
@@ -0,0 +1,131 @@+-- |+-- Module : Crypto.Hash.SHAKE+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : unknown+--+-- Module containing the binding functions to work with the+-- SHA3 extendable output functions (SHAKE).+--+{-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE KindSignatures #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE ScopedTypeVariables #-}+{-# LANGUAGE TypeOperators #-}+{-# LANGUAGE TypeFamilies #-}+{-# LANGUAGE UndecidableInstances #-}+module Crypto.Hash.SHAKE+ ( SHAKE128 (..), SHAKE256 (..), HashSHAKE (..)+ ) where++import Control.Monad (when)+import Crypto.Hash.Types+import Foreign.Ptr (Ptr, castPtr)+import Foreign.Storable (Storable(..))+import Data.Bits+import Data.Data+import Data.Word (Word8, Word32)++import GHC.TypeLits (Nat, KnownNat, type (+))+import Crypto.Internal.Nat++-- | Type class of SHAKE algorithms.+class HashAlgorithm a => HashSHAKE a where+ -- | Alternate finalization needed for cSHAKE+ cshakeInternalFinalize :: Ptr (Context a) -> Ptr (Digest a) -> IO ()+ -- | Get the digest bit length+ cshakeOutputLength :: a -> Int++-- | SHAKE128 (128 bits) extendable output function. Supports an arbitrary+-- digest size, to be specified as a type parameter of kind 'Nat'.+--+-- Note: outputs from @'SHAKE128' n@ and @'SHAKE128' m@ for the same input are+-- correlated (one being a prefix of the other). Results are unrelated to+-- 'SHAKE256' results.+data SHAKE128 (bitlen :: Nat) = SHAKE128+ deriving (Show, Data)++instance KnownNat bitlen => HashAlgorithm (SHAKE128 bitlen) where+ type HashBlockSize (SHAKE128 bitlen) = 168+ type HashDigestSize (SHAKE128 bitlen) = Div8 (bitlen + 7)+ type HashInternalContextSize (SHAKE128 bitlen) = 376+ hashBlockSize _ = 168+ hashDigestSize _ = byteLen (Proxy :: Proxy bitlen)+ hashInternalContextSize _ = 376+ hashInternalInit p = c_sha3_init p 128+ hashInternalUpdate = c_sha3_update+ hashInternalFinalize = shakeFinalizeOutput (Proxy :: Proxy bitlen)++instance KnownNat bitlen => HashSHAKE (SHAKE128 bitlen) where+ cshakeInternalFinalize = cshakeFinalizeOutput (Proxy :: Proxy bitlen)+ cshakeOutputLength _ = integralNatVal (Proxy :: Proxy bitlen)++-- | SHAKE256 (256 bits) extendable output function. Supports an arbitrary+-- digest size, to be specified as a type parameter of kind 'Nat'.+--+-- Note: outputs from @'SHAKE256' n@ and @'SHAKE256' m@ for the same input are+-- correlated (one being a prefix of the other). Results are unrelated to+-- 'SHAKE128' results.+data SHAKE256 (bitlen :: Nat) = SHAKE256+ deriving (Show, Data)++instance KnownNat bitlen => HashAlgorithm (SHAKE256 bitlen) where+ type HashBlockSize (SHAKE256 bitlen) = 136+ type HashDigestSize (SHAKE256 bitlen) = Div8 (bitlen + 7)+ type HashInternalContextSize (SHAKE256 bitlen) = 344+ hashBlockSize _ = 136+ hashDigestSize _ = byteLen (Proxy :: Proxy bitlen)+ hashInternalContextSize _ = 344+ hashInternalInit p = c_sha3_init p 256+ hashInternalUpdate = c_sha3_update+ hashInternalFinalize = shakeFinalizeOutput (Proxy :: Proxy bitlen)++instance KnownNat bitlen => HashSHAKE (SHAKE256 bitlen) where+ cshakeInternalFinalize = cshakeFinalizeOutput (Proxy :: Proxy bitlen)+ cshakeOutputLength _ = integralNatVal (Proxy :: Proxy bitlen)++shakeFinalizeOutput :: KnownNat bitlen+ => proxy bitlen+ -> Ptr (Context a)+ -> Ptr (Digest a)+ -> IO ()+shakeFinalizeOutput d ctx dig = do+ c_sha3_finalize_shake ctx+ c_sha3_output ctx dig (byteLen d)+ shakeTruncate d (castPtr dig)++cshakeFinalizeOutput :: KnownNat bitlen+ => proxy bitlen+ -> Ptr (Context a)+ -> Ptr (Digest a)+ -> IO ()+cshakeFinalizeOutput d ctx dig = do+ c_sha3_finalize_cshake ctx+ c_sha3_output ctx dig (byteLen d)+ shakeTruncate d (castPtr dig)++shakeTruncate :: KnownNat bitlen => proxy bitlen -> Ptr Word8 -> IO ()+shakeTruncate d ptr =+ when (bits > 0) $ do+ byte <- peekElemOff ptr index+ pokeElemOff ptr index (byte .&. mask)+ where+ mask = (1 `shiftL` bits) - 1+ (index, bits) = integralNatVal d `divMod` 8++foreign import ccall unsafe "cryptonite_sha3_init"+ c_sha3_init :: Ptr (Context a) -> Word32 -> IO ()++foreign import ccall "cryptonite_sha3_update"+ c_sha3_update :: Ptr (Context a) -> Ptr Word8 -> Word32 -> IO ()++foreign import ccall unsafe "cryptonite_sha3_finalize_shake"+ c_sha3_finalize_shake :: Ptr (Context a) -> IO ()++foreign import ccall unsafe "cryptonite_sha3_finalize_cshake"+ c_sha3_finalize_cshake :: Ptr (Context a) -> IO ()++foreign import ccall unsafe "cryptonite_sha3_output"+ c_sha3_output :: Ptr (Context a) -> Ptr (Digest a) -> Word32 -> IO ()
Crypto/Hash/Skein256.hs view
@@ -5,24 +5,31 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Skein256 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Skein256 ( Skein256_224 (..), Skein256_256 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Skein256 (224 bits) cryptographic hash algorithm data Skein256_224 = Skein256_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Skein256_224 where+ type HashBlockSize Skein256_224 = 32+ type HashDigestSize Skein256_224 = 28+ type HashInternalContextSize Skein256_224 = 96 hashBlockSize _ = 32 hashDigestSize _ = 28 hashInternalContextSize _ = 96@@ -32,9 +39,12 @@ -- | Skein256 (256 bits) cryptographic hash algorithm data Skein256_256 = Skein256_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Skein256_256 where+ type HashBlockSize Skein256_256 = 32+ type HashDigestSize Skein256_256 = 32+ type HashInternalContextSize Skein256_256 = 96 hashBlockSize _ = 32 hashDigestSize _ = 32 hashInternalContextSize _ = 96
Crypto/Hash/Skein512.hs view
@@ -5,24 +5,31 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Skein512 cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Skein512 ( Skein512_224 (..), Skein512_256 (..), Skein512_384 (..), Skein512_512 (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Skein512 (224 bits) cryptographic hash algorithm data Skein512_224 = Skein512_224- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Skein512_224 where+ type HashBlockSize Skein512_224 = 64+ type HashDigestSize Skein512_224 = 28+ type HashInternalContextSize Skein512_224 = 160 hashBlockSize _ = 64 hashDigestSize _ = 28 hashInternalContextSize _ = 160@@ -32,9 +39,12 @@ -- | Skein512 (256 bits) cryptographic hash algorithm data Skein512_256 = Skein512_256- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Skein512_256 where+ type HashBlockSize Skein512_256 = 64+ type HashDigestSize Skein512_256 = 32+ type HashInternalContextSize Skein512_256 = 160 hashBlockSize _ = 64 hashDigestSize _ = 32 hashInternalContextSize _ = 160@@ -44,9 +54,12 @@ -- | Skein512 (384 bits) cryptographic hash algorithm data Skein512_384 = Skein512_384- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Skein512_384 where+ type HashBlockSize Skein512_384 = 64+ type HashDigestSize Skein512_384 = 48+ type HashInternalContextSize Skein512_384 = 160 hashBlockSize _ = 64 hashDigestSize _ = 48 hashInternalContextSize _ = 160@@ -56,9 +69,12 @@ -- | Skein512 (512 bits) cryptographic hash algorithm data Skein512_512 = Skein512_512- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Skein512_512 where+ type HashBlockSize Skein512_512 = 64+ type HashDigestSize Skein512_512 = 64+ type HashInternalContextSize Skein512_512 = 160 hashBlockSize _ = 64 hashDigestSize _ = 64 hashInternalContextSize _ = 160
Crypto/Hash/Tiger.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Tiger cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Tiger ( Tiger (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Tiger cryptographic hash algorithm data Tiger = Tiger- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Tiger where+ type HashBlockSize Tiger = 64+ type HashDigestSize Tiger = 24+ type HashInternalContextSize Tiger = 96 hashBlockSize _ = 64 hashDigestSize _ = 24 hashInternalContextSize _ = 96
Crypto/Hash/Types.hs view
@@ -8,8 +8,13 @@ -- Crypto hash types definitions -- {-# LANGUAGE GeneralizedNewtypeDeriving #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE ScopedTypeVariables #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Types ( HashAlgorithm(..)+ , HashAlgorithmPrefix(..) , Context(..) , Digest(..) ) where@@ -17,7 +22,15 @@ import Crypto.Internal.Imports import Crypto.Internal.ByteArray (ByteArrayAccess, Bytes) import qualified Crypto.Internal.ByteArray as B+import Control.Monad.ST+import Data.Char (digitToInt, isHexDigit) import Foreign.Ptr (Ptr)+import Basement.Block (Block, unsafeFreeze)+import Basement.Block.Mutable (MutableBlock, new, unsafeWrite)+import Basement.NormalForm (deepseq)+import Basement.Types.OffsetSize (CountOf(..), Offset(..))+import GHC.TypeLits (Nat)+import Data.Data (Data) -- | Class representing hashing algorithms. --@@ -25,6 +38,13 @@ -- and lowlevel. the Hash module takes care of -- hidding the mutable interface properly. class HashAlgorithm a where+ -- | Associated type for the block size of the hash algorithm+ type HashBlockSize a :: Nat+ -- | Associated type for the digest size of the hash algorithm+ type HashDigestSize a :: Nat+ -- | Associated type for the internal context size of the hash algorithm+ type HashInternalContextSize a :: Nat+ -- | Get the block size of a hash algorithm hashBlockSize :: a -> Int -- | Get the digest size of a hash algorithm@@ -40,19 +60,64 @@ -- | Finalize the context and set the digest raw memory to the right value hashInternalFinalize :: Ptr (Context a) -> Ptr (Digest a) -> IO () +-- | Hashing algorithms with a constant-time implementation.+class HashAlgorithm a => HashAlgorithmPrefix a where+ -- | Update the context with the first N bytes of a buffer and finalize this+ -- context. The code path executed is independent from N and depends only+ -- on the complete buffer length.+ hashInternalFinalizePrefix :: Ptr (Context a)+ -> Ptr Word8 -> Word32+ -> Word32+ -> Ptr (Digest a)+ -> IO ()+ {- hashContextGetAlgorithm :: HashAlgorithm a => Context a -> a hashContextGetAlgorithm = undefined -} -- | Represent a context for a given hash algorithm.+--+-- This type is an instance of 'ByteArrayAccess' for debugging purpose. Internal+-- layout is architecture dependent, may contain uninitialized data fragments,+-- and change in future versions. The bytearray should not be used as input to+-- cryptographic algorithms. newtype Context a = Context Bytes deriving (ByteArrayAccess,NFData) -- | Represent a digest for a given hash algorithm.-newtype Digest a = Digest Bytes- deriving (Eq,Ord,ByteArrayAccess,NFData)+--+-- This type is an instance of 'ByteArrayAccess' from package+-- <https://hackage.haskell.org/package/memory memory>.+-- Module "Data.ByteArray" provides many primitives to work with those values+-- including conversion to other types.+--+-- Creating a digest from a bytearray is also possible with function+-- 'Crypto.Hash.digestFromByteString'.+newtype Digest a = Digest (Block Word8)+ deriving (Eq,Ord,ByteArrayAccess, Data) +instance NFData (Digest a) where+ rnf (Digest u) = u `deepseq` ()+ instance Show (Digest a) where show (Digest bs) = map (toEnum . fromIntegral) $ B.unpack (B.convertToBase B.Base16 bs :: Bytes)++instance HashAlgorithm a => Read (Digest a) where+ readsPrec _ str = runST $ do mut <- new (CountOf len)+ loop mut len str+ where+ len = hashDigestSize (undefined :: a)++ loop :: MutableBlock Word8 s -> Int -> String -> ST s [(Digest a, String)]+ loop mut 0 cs = (\b -> [(Digest b, cs)]) <$> unsafeFreeze mut+ loop _ _ [] = return []+ loop _ _ [_] = return []+ loop mut n (c:(d:ds))+ | not (isHexDigit c) = return []+ | not (isHexDigit d) = return []+ | otherwise = do+ let w8 = fromIntegral $ digitToInt c * 16 + digitToInt d+ unsafeWrite mut (Offset $ len - n) w8+ loop mut (n - 1) ds
Crypto/Hash/Whirlpool.hs view
@@ -5,21 +5,28 @@ -- Stability : experimental -- Portability : unknown ----- module containing the binding functions to work with the+-- Module containing the binding functions to work with the -- Whirlpool cryptographic hash. -- {-# LANGUAGE ForeignFunctionInterface #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeFamilies #-} module Crypto.Hash.Whirlpool ( Whirlpool (..) ) where import Crypto.Hash.Types import Foreign.Ptr (Ptr)+import Data.Data import Data.Word (Word8, Word32) -- | Whirlpool cryptographic hash algorithm data Whirlpool = Whirlpool- deriving (Show)+ deriving (Show,Data) instance HashAlgorithm Whirlpool where+ type HashBlockSize Whirlpool = 64+ type HashDigestSize Whirlpool = 64+ type HashInternalContextSize Whirlpool = 168 hashBlockSize _ = 64 hashDigestSize _ = 64 hashInternalContextSize _ = 168
+ Crypto/Internal/Builder.hs view
@@ -0,0 +1,53 @@+-- |+-- Module : Crypto.Internal.Builder+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : stable+-- Portability : Good+--+-- Delaying and merging ByteArray allocations. This is similar to module+-- "Data.ByteArray.Pack" except the total length is computed automatically based+-- on what is appended.+--+{-# LANGUAGE BangPatterns #-}+module Crypto.Internal.Builder+ ( Builder+ , buildAndFreeze+ , builderLength+ , byte+ , bytes+ , zero+ ) where++import Data.ByteArray (ByteArray, ByteArrayAccess)+import qualified Data.ByteArray as B+import Data.Memory.PtrMethods (memSet)++import Foreign.Ptr (Ptr, plusPtr)+import Foreign.Storable (poke)++import Crypto.Internal.Imports hiding (empty)++data Builder = Builder !Int (Ptr Word8 -> IO ()) -- size and initializer++instance Semigroup Builder where+ (Builder s1 f1) <> (Builder s2 f2) = Builder (s1 + s2) f+ where f p = f1 p >> f2 (p `plusPtr` s1)++builderLength :: Builder -> Int+builderLength (Builder s _) = s++buildAndFreeze :: ByteArray ba => Builder -> ba+buildAndFreeze (Builder s f) = B.allocAndFreeze s f++byte :: Word8 -> Builder+byte !b = Builder 1 (`poke` b)++bytes :: ByteArrayAccess ba => ba -> Builder+bytes bs = Builder (B.length bs) (B.copyByteArrayToPtr bs)++zero :: Int -> Builder+zero s = if s > 0 then Builder s (\p -> memSet p 0 s) else empty++empty :: Builder+empty = Builder 0 (const $ return ())
Crypto/Internal/ByteArray.hs view
@@ -7,13 +7,33 @@ -- -- Simple and efficient byte array types --+{-# LANGUAGE BangPatterns #-} {-# OPTIONS_HADDOCK hide #-} module Crypto.Internal.ByteArray ( module Data.ByteArray , module Data.ByteArray.Mapping , module Data.ByteArray.Encoding+ , constAllZero ) where import Data.ByteArray import Data.ByteArray.Mapping import Data.ByteArray.Encoding++import Data.Bits ((.|.))+import Data.Word (Word8)+import Foreign.Ptr (Ptr)+import Foreign.Storable (peekByteOff)++import Crypto.Internal.Compat (unsafeDoIO)++constAllZero :: ByteArrayAccess ba => ba -> Bool+constAllZero b = unsafeDoIO $ withByteArray b $ \p -> loop p 0 0+ where+ loop :: Ptr b -> Int -> Word8 -> IO Bool+ loop p i !acc+ | i == len = return $! acc == 0+ | otherwise = do+ e <- peekByteOff p i+ loop p (i+1) (acc .|. e)+ len = Data.ByteArray.length b
Crypto/Internal/Compat.hs view
@@ -5,8 +5,8 @@ -- Stability : stable -- Portability : Good ----- This module try to keep all the difference between versions of base--- or other needed packages, so that modules don't need to use CPP+-- This module tries to keep all the difference between versions of base+-- or other needed packages, so that modules don't need to use CPP. -- {-# LANGUAGE CPP #-} module Crypto.Internal.Compat@@ -19,10 +19,10 @@ import Data.Word import Data.Bits --- | perform io for hashes that do allocation and ffi.--- unsafeDupablePerformIO is used when possible as the+-- | Perform io for hashes that do allocation and FFI.+-- 'unsafeDupablePerformIO' is used when possible as the -- computation is pure and the output is directly linked--- to the input. we also do not modify anything after it has+-- to the input. We also do not modify anything after it has -- been returned to the user. unsafeDoIO :: IO a -> a #if __GLASGOW_HASKELL__ > 704
Crypto/Internal/CompatPrim.hs view
@@ -5,11 +5,11 @@ -- Stability : stable -- Portability : Compat ----- This module try to keep all the difference between versions of ghc primitive+-- This module tries to keep all the difference between versions of ghc primitive -- or other needed packages, so that modules don't need to use CPP. -- -- Note that MagicHash and CPP conflicts in places, making it "more interesting"--- to write compat code for primitives+-- to write compat code for primitives. -- {-# LANGUAGE CPP #-} {-# LANGUAGE BangPatterns #-}@@ -23,15 +23,21 @@ , convert4To32 ) where -import GHC.Prim #if !defined(ARCH_IS_LITTLE_ENDIAN) && !defined(ARCH_IS_BIG_ENDIAN) import Data.Memory.Endian (getSystemEndianness, Endianness(..)) #endif --- | byteswap Word# to or from Big Endian+#if __GLASGOW_HASKELL__ >= 902+import GHC.Prim+#else+import GHC.Prim hiding (Word32#)+type Word32# = Word#+#endif++-- | Byteswap Word# to or from Big Endian ----- on a big endian machine, this function is a nop.-be32Prim :: Word# -> Word#+-- On a big endian machine, this function is a nop.+be32Prim :: Word32# -> Word32# #ifdef ARCH_IS_LITTLE_ENDIAN be32Prim = byteswap32Prim #elif defined(ARCH_IS_BIG_ENDIAN)@@ -40,10 +46,10 @@ be32Prim w = if getSystemEndianness == LittleEndian then byteswap32Prim w else w #endif --- | byteswap Word# to or from Little Endian+-- | Byteswap Word# to or from Little Endian ----- on a little endian machine, this function is a nop.-le32Prim :: Word# -> Word#+-- On a little endian machine, this function is a nop.+le32Prim :: Word32# -> Word32# #ifdef ARCH_IS_LITTLE_ENDIAN le32Prim w = w #elif defined(ARCH_IS_BIG_ENDIAN)@@ -54,19 +60,14 @@ -- | Simple compatibility for byteswap the lower 32 bits of a Word# -- at the primitive level-byteswap32Prim :: Word# -> Word#-#if __GLASGOW_HASKELL__ >= 708-byteswap32Prim w = byteSwap32# w+byteswap32Prim :: Word32# -> Word32#+#if __GLASGOW_HASKELL__ >= 902+byteswap32Prim w = wordToWord32# (byteSwap32# (word32ToWord# w)) #else-byteswap32Prim w =- let !a = uncheckedShiftL# w 24#- !b = and# (uncheckedShiftL# w 8#) 0x00ff0000##- !c = and# (uncheckedShiftRL# w 8#) 0x0000ff00##- !d = and# (uncheckedShiftRL# w 24#) 0x000000ff##- in or# a (or# b (or# c d))+byteswap32Prim w = byteSwap32# w #endif --- | combine 4 word8 [a,b,c,d] to a word32 representing [a,b,c,d]+-- | Combine 4 word8 [a,b,c,d] to a word32 representing [a,b,c,d] convert4To32 :: Word# -> Word# -> Word# -> Word# -> Word# convert4To32 a b c d = or# (or# c1 c2) (or# c3 c4)
Crypto/Internal/DeepSeq.hs view
@@ -30,4 +30,6 @@ instance NFData Bytes where rnf b = b `seq` () instance NFData ScrubbedBytes where rnf b = b `seq` () +instance NFData Integer where rnf i = i `seq` ()+ #endif
Crypto/Internal/Imports.hs view
@@ -5,11 +5,15 @@ -- Stability : experimental -- Portability : unknown --+{-# LANGUAGE CPP #-} module Crypto.Internal.Imports ( module X ) where import Data.Word as X+#if !(MIN_VERSION_base(4,11,0))+import Data.Semigroup as X (Semigroup(..))+#endif import Control.Applicative as X import Control.Monad as X (forM, forM_, void) import Control.Arrow as X (first, second)
+ Crypto/Internal/Nat.hs view
@@ -0,0 +1,213 @@+{-# LANGUAGE CPP #-}+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE ConstraintKinds #-}+{-# LANGUAGE TypeOperators #-}+{-# LANGUAGE TypeFamilies #-}+{-# LANGUAGE UndecidableInstances #-}+module Crypto.Internal.Nat+ ( type IsDivisibleBy8+ , type IsAtMost, type IsAtLeast+ , byteLen+ , integralNatVal+ , type IsDiv8+ , type Div8+ , type Mod8+ ) where++import GHC.TypeLits++byteLen :: (KnownNat bitlen, Num a) => proxy bitlen -> a+byteLen d = fromInteger ((natVal d + 7) `div` 8)++integralNatVal :: (KnownNat bitlen, Num a) => proxy bitlen -> a+integralNatVal = fromInteger . natVal++type family IsLE (bitlen :: Nat) (n :: Nat) (c :: Bool) where+ IsLE _ _ 'True = 'True+#if MIN_VERSION_base(4,9,0)+ IsLE bitlen n 'False = TypeError+ ( ('Text "bitlen " ':<>: 'ShowType bitlen ':<>: 'Text " is greater than " ':<>: 'ShowType n)+ ':$$: ('Text "You have tried to use an invalid Digest size. Please, refer to the documentation.")+ )+#else+ IsLE bitlen n 'False = 'False+#endif++-- | ensure the given `bitlen` is lesser or equal to `n`+--+type IsAtMost (bitlen :: Nat) (n :: Nat) = IsLE bitlen n (bitlen <=? n) ~ 'True++type family IsGE (bitlen :: Nat) (n :: Nat) (c :: Bool) where+ IsGE _ _ 'True = 'True+#if MIN_VERSION_base(4,9,0)+ IsGE bitlen n 'False = TypeError+ ( ('Text "bitlen " ':<>: 'ShowType bitlen ':<>: 'Text " is lesser than " ':<>: 'ShowType n)+ ':$$: ('Text "You have tried to use an invalid Digest size. Please, refer to the documentation.")+ )+#else+ IsGE bitlen n 'False = 'False+#endif++-- | ensure the given `bitlen` is greater or equal to `n`+--+type IsAtLeast (bitlen :: Nat) (n :: Nat) = IsGE bitlen n (n <=? bitlen) ~ 'True++type family Div8 (bitLen :: Nat) where+ Div8 0 = 0+ Div8 1 = 0+ Div8 2 = 0+ Div8 3 = 0+ Div8 4 = 0+ Div8 5 = 0+ Div8 6 = 0+ Div8 7 = 0+ Div8 8 = 1+ Div8 9 = 1+ Div8 10 = 1+ Div8 11 = 1+ Div8 12 = 1+ Div8 13 = 1+ Div8 14 = 1+ Div8 15 = 1+ Div8 16 = 2+ Div8 17 = 2+ Div8 18 = 2+ Div8 19 = 2+ Div8 20 = 2+ Div8 21 = 2+ Div8 22 = 2+ Div8 23 = 2+ Div8 24 = 3+ Div8 25 = 3+ Div8 26 = 3+ Div8 27 = 3+ Div8 28 = 3+ Div8 29 = 3+ Div8 30 = 3+ Div8 31 = 3+ Div8 32 = 4+ Div8 33 = 4+ Div8 34 = 4+ Div8 35 = 4+ Div8 36 = 4+ Div8 37 = 4+ Div8 38 = 4+ Div8 39 = 4+ Div8 40 = 5+ Div8 41 = 5+ Div8 42 = 5+ Div8 43 = 5+ Div8 44 = 5+ Div8 45 = 5+ Div8 46 = 5+ Div8 47 = 5+ Div8 48 = 6+ Div8 49 = 6+ Div8 50 = 6+ Div8 51 = 6+ Div8 52 = 6+ Div8 53 = 6+ Div8 54 = 6+ Div8 55 = 6+ Div8 56 = 7+ Div8 57 = 7+ Div8 58 = 7+ Div8 59 = 7+ Div8 60 = 7+ Div8 61 = 7+ Div8 62 = 7+ Div8 63 = 7+ Div8 64 = 8+ Div8 n = 8 + Div8 (n - 64)++type family IsDiv8 (bitLen :: Nat) (n :: Nat) where+ IsDiv8 _ 0 = 'True+#if MIN_VERSION_base(4,9,0)+ IsDiv8 bitLen 1 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+ IsDiv8 bitLen 2 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+ IsDiv8 bitLen 3 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+ IsDiv8 bitLen 4 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+ IsDiv8 bitLen 5 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+ IsDiv8 bitLen 6 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+ IsDiv8 bitLen 7 = TypeError ('Text "bitLen " ':<>: 'ShowType bitLen ':<>: 'Text " is not divisible by 8")+#else+ IsDiv8 _ 1 = 'False+ IsDiv8 _ 2 = 'False+ IsDiv8 _ 3 = 'False+ IsDiv8 _ 4 = 'False+ IsDiv8 _ 5 = 'False+ IsDiv8 _ 6 = 'False+ IsDiv8 _ 7 = 'False+#endif+ IsDiv8 _ n = IsDiv8 n (Mod8 n)++type family Mod8 (n :: Nat) where+ Mod8 0 = 0+ Mod8 1 = 1+ Mod8 2 = 2+ Mod8 3 = 3+ Mod8 4 = 4+ Mod8 5 = 5+ Mod8 6 = 6+ Mod8 7 = 7+ Mod8 8 = 0+ Mod8 9 = 1+ Mod8 10 = 2+ Mod8 11 = 3+ Mod8 12 = 4+ Mod8 13 = 5+ Mod8 14 = 6+ Mod8 15 = 7+ Mod8 16 = 0+ Mod8 17 = 1+ Mod8 18 = 2+ Mod8 19 = 3+ Mod8 20 = 4+ Mod8 21 = 5+ Mod8 22 = 6+ Mod8 23 = 7+ Mod8 24 = 0+ Mod8 25 = 1+ Mod8 26 = 2+ Mod8 27 = 3+ Mod8 28 = 4+ Mod8 29 = 5+ Mod8 30 = 6+ Mod8 31 = 7+ Mod8 32 = 0+ Mod8 33 = 1+ Mod8 34 = 2+ Mod8 35 = 3+ Mod8 36 = 4+ Mod8 37 = 5+ Mod8 38 = 6+ Mod8 39 = 7+ Mod8 40 = 0+ Mod8 41 = 1+ Mod8 42 = 2+ Mod8 43 = 3+ Mod8 44 = 4+ Mod8 45 = 5+ Mod8 46 = 6+ Mod8 47 = 7+ Mod8 48 = 0+ Mod8 49 = 1+ Mod8 50 = 2+ Mod8 51 = 3+ Mod8 52 = 4+ Mod8 53 = 5+ Mod8 54 = 6+ Mod8 55 = 7+ Mod8 56 = 0+ Mod8 57 = 1+ Mod8 58 = 2+ Mod8 59 = 3+ Mod8 60 = 4+ Mod8 61 = 5+ Mod8 62 = 6+ Mod8 63 = 7+ Mod8 n = Mod8 (n - 64)++-- | ensure the given `bitlen` is divisible by 8+--+type IsDivisibleBy8 bitLen = IsDiv8 bitLen bitLen ~ 'True
Crypto/Internal/WordArray.hs view
@@ -1,5 +1,5 @@ -- |--- Module : Crypto.Internal.Compat+-- Module : Crypto.Internal.WordArray -- License : BSD-style -- Maintainer : Vincent Hanquez <vincent@snarc.org> -- Stability : stable@@ -8,7 +8,7 @@ -- Small and self contained array representation -- with limited safety for internal use. ----- the array produced should never be exposed to the user directly+-- The array produced should never be exposed to the user directly. -- {-# LANGUAGE BangPatterns #-} {-# LANGUAGE MagicHash #-}@@ -20,6 +20,8 @@ , MutableArray32 , array8 , array32+ , array32FromAddrBE+ , allocArray32AndFreeze , mutableArray32 , array64 , arrayRead8@@ -58,20 +60,20 @@ -- | Create an Array of Word32 of specific size from a list of Word32 array32 :: Int -> [Word32] -> Array32-array32 (I# n) l = unsafeDoIO $ IO $ \s ->- case newAlignedPinnedByteArray# (n *# 4#) 4# s of- (# s', mbarr #) -> loop 0# s' mbarr l- where- loop _ st mb [] = freezeArray mb st- loop i st mb ((W32# x):xs)- | booleanPrim (i ==# n) = freezeArray mb st- | otherwise =- let !st' = writeWord32Array# mb i x st- in loop (i +# 1#) st' mb xs- freezeArray mb st =- case unsafeFreezeByteArray# mb st of- (# st', b #) -> (# st', Array32 b #)+array32 n l = unsafeDoIO (mutableArray32 n l >>= mutableArray32Freeze) {-# NOINLINE array32 #-}++-- | Create an Array of BE Word32 aliasing an Addr+array32FromAddrBE :: Int -> Addr# -> Array32+array32FromAddrBE n a =+ unsafeDoIO (mutableArray32FromAddrBE n a >>= mutableArray32Freeze)+{-# NOINLINE array32FromAddrBE #-}++-- | Create an Array of Word32 using an initializer+allocArray32AndFreeze :: Int -> (MutableArray32 -> IO ()) -> Array32+allocArray32AndFreeze n f =+ unsafeDoIO (mutableArray32 n [] >>= \m -> f m >> mutableArray32Freeze m)+{-# NOINLINE allocArray32AndFreeze #-} -- | Create an Array of Word64 of specific size from a list of Word64 array64 :: Int -> [Word64] -> Array64
+ Crypto/KDF/Argon2.hs view
@@ -0,0 +1,157 @@+-- |+-- Module : Crypto.KDF.Argon2+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : unknown+--+-- Argon2 hashing function (P-H-C winner)+--+-- Recommended to use this module qualified+--+-- File started from Argon2.hs, from Oliver Charles+-- at https://github.com/ocharles/argon2+--+module Crypto.KDF.Argon2+ (+ Options(..)+ , TimeCost+ , MemoryCost+ , Parallelism+ , Variant(..)+ , Version(..)+ , defaultOptions+ -- * Hashing function+ , hash+ ) where++import Crypto.Internal.ByteArray (ByteArray, ByteArrayAccess)+import qualified Crypto.Internal.ByteArray as B+import Crypto.Error+import Control.Monad (when)+import Data.Word+import Foreign.C+import Foreign.Ptr++-- | Which variant of Argon2 to use. You should choose the variant that is most+-- applicable to your intention to hash inputs.+data Variant =+ Argon2d -- ^ Argon2d is faster than Argon2i and uses data-depending memory access,+ -- which makes it suitable for cryptocurrencies and applications with no+ -- threats from side-channel timing attacks.+ | Argon2i -- ^ Argon2i uses data-independent memory access, which is preferred+ -- for password hashing and password-based key derivation. Argon2i+ -- is slower as it makes more passes over the memory to protect from+ -- tradeoff attacks.+ | Argon2id -- ^ Argon2id is a hybrid of Argon2i and Argon2d, using a combination+ -- of data-depending and data-independent memory accesses, which gives+ -- some of Argon2i's resistance to side-channel cache timing attacks+ -- and much of Argon2d's resistance to GPU cracking attacks+ deriving (Eq,Ord,Read,Show,Enum,Bounded)++-- | Which version of Argon2 to use+data Version = Version10 | Version13+ deriving (Eq,Ord,Read,Show,Enum,Bounded)++-- | The time cost, which defines the amount of computation realized and therefore the execution time, given in number of iterations.+--+-- 'FFI.ARGON2_MIN_TIME' <= 'hashIterations' <= 'FFI.ARGON2_MAX_TIME'+type TimeCost = Word32++-- | The memory cost, which defines the memory usage, given in kibibytes.+--+-- max 'FFI.ARGON2_MIN_MEMORY' (8 * 'hashParallelism') <= 'hashMemory' <= 'FFI.ARGON2_MAX_MEMORY'+type MemoryCost = Word32++-- | A parallelism degree, which defines the number of parallel threads.+--+-- 'FFI.ARGON2_MIN_LANES' <= 'hashParallelism' <= 'FFI.ARGON2_MAX_LANES' && 'FFI.ARGON_MIN_THREADS' <= 'hashParallelism' <= 'FFI.ARGON2_MAX_THREADS'+type Parallelism = Word32++-- | Parameters that can be adjusted to change the runtime performance of the+-- hashing.+data Options = Options+ { iterations :: !TimeCost+ , memory :: !MemoryCost+ , parallelism :: !Parallelism+ , variant :: !Variant -- ^ Which variant of Argon2 to use.+ , version :: !Version -- ^ Which version of Argon2 to use.+ }+ deriving (Eq,Ord,Read,Show)++saltMinLength :: Int+saltMinLength = 8++outputMinLength :: Int+outputMinLength = 4++-- specification allows up to 2^32-1 but this is too big for a signed Int+-- on a 32-bit architecture, so we limit tag length to 2^31-1 bytes+outputMaxLength :: Int+outputMaxLength = 0x7fffffff++defaultOptions :: Options+defaultOptions =+ Options { iterations = 1+ , memory = 2 ^ (17 :: Int)+ , parallelism = 4+ , variant = Argon2i+ , version = Version13+ }++hash :: (ByteArrayAccess password, ByteArrayAccess salt, ByteArray out)+ => Options+ -> password+ -> salt+ -> Int+ -> CryptoFailable out+hash options password salt outLen+ | saltLen < saltMinLength = CryptoFailed CryptoError_SaltTooSmall+ | outLen < outputMinLength = CryptoFailed CryptoError_OutputLengthTooSmall+ | outLen > outputMaxLength = CryptoFailed CryptoError_OutputLengthTooBig+ | otherwise = CryptoPassed $ B.allocAndFreeze outLen $ \out -> do+ res <- B.withByteArray password $ \pPass ->+ B.withByteArray salt $ \pSalt ->+ argon2_hash (iterations options)+ (memory options)+ (parallelism options)+ pPass+ (csizeOfInt passwordLen)+ pSalt+ (csizeOfInt saltLen)+ out+ (csizeOfInt outLen)+ (cOfVariant $ variant options)+ (cOfVersion $ version options)+ when (res /= 0) $ error "argon2: hash: internal error"+ where+ saltLen = B.length salt+ passwordLen = B.length password++data Pass+data Salt+data HashOut++type CVariant = CInt -- valid value is 0 (Argon2d), 1 (Argon2i) and 2 (Argon2id)+type CVersion = CInt -- valid value is 0x10, 0x13++cOfVersion :: Version -> CVersion+cOfVersion Version10 = 0x10+cOfVersion Version13 = 0x13++cOfVariant :: Variant -> CVariant+cOfVariant Argon2d = 0+cOfVariant Argon2i = 1+cOfVariant Argon2id = 2++csizeOfInt :: Int -> CSize+csizeOfInt = fromIntegral++foreign import ccall unsafe "cryptonite_argon2_hash"+ argon2_hash :: Word32 -> Word32 -> Word32+ -> Ptr Pass -> CSize+ -> Ptr Salt -> CSize+ -> Ptr HashOut -> CSize+ -> CVariant+ -> CVersion+ -> IO CInt
Crypto/KDF/BCrypt.hs view
@@ -11,7 +11,7 @@ -- >>> validatePassword password bcryptHash -- >>> True -- >>> let otherPassword = B.pack "otherpassword"--- >>> otherHash <- hashPassword 12 otherPasssword :: IO B.ByteString+-- >>> otherHash <- hashPassword 12 otherPassword :: IO B.ByteString -- >>> validatePassword otherPassword otherHash -- >>> True --@@ -27,13 +27,16 @@ -- salt and hash bytes (each separately Base64 encoded. Incrementing the -- cost parameter approximately doubles the time taken to calculate the hash. ----- The different version numbers have evolved because of bugs in the standard--- C implementations. The most up to date version is @2b@ and this--- implementation the @2b@ version prefix, but will also attempt to validate+-- The different version numbers evolved to account for bugs in the standard+-- C implementations. They don't represent different versions of the algorithm+-- itself and in most cases should produce identical results.+-- The most up to date version is @2b@ and this implementation uses the+-- @2b@ version prefix, but will also attempt to validate -- against hashes with versions @2a@ and @2y@. Version @2@ or @2x@ will be -- rejected. No attempt is made to differentiate between the different versions -- when validating a password, but in practice this shouldn't cause any problems--- if passwords are UTF-8 encoded (which they should be).+-- if passwords are UTF-8 encoded (which they should be) and less than 256+-- characters long. -- -- The cost parameter can be between 4 and 31 inclusive, but anything less than -- 10 is probably not strong enough. High values may be prohibitively slow@@ -49,11 +52,16 @@ ) where -import Control.Monad (unless, when)-import Crypto.Cipher.Blowfish.Primitive (eksBlowfish, encrypt)-import Crypto.Random (MonadRandom, getRandomBytes)-import Data.ByteArray (ByteArrayAccess, ByteArray, Bytes)-import qualified Data.ByteArray as B+import Control.Monad (forM_, unless, when)+import Crypto.Cipher.Blowfish.Primitive (Context, createKeySchedule,+ encrypt, expandKey,+ expandKeyWithSalt,+ freezeKeySchedule)+import Crypto.Internal.Compat+import Crypto.Random (MonadRandom, getRandomBytes)+import Data.ByteArray (ByteArray, ByteArrayAccess,+ Bytes)+import qualified Data.ByteArray as B import Data.ByteArray.Encoding import Data.Char @@ -93,7 +101,7 @@ bcrypt cost salt password = B.concat [header, B.snoc costBytes dollar, b64 salt, b64 hash] where hash = rawHash 'b' realCost salt password- header = B.pack [dollar, fromIntegral (ord '2'), fromIntegral (ord 'a'), dollar]+ header = B.pack [dollar, fromIntegral (ord '2'), fromIntegral (ord 'b'), dollar] dollar = fromIntegral (ord '$') zero = fromIntegral (ord '0') costBytes = B.pack [zero + fromIntegral (realCost `div` 10), zero + fromIntegral (realCost `mod` 10)]@@ -133,7 +141,7 @@ -- Truncate the password if necessary and append a null byte for C compatibility key = B.snoc (B.take 72 password) 0 - ctx = eksBlowfish cost salt key+ ctx = expensiveBlowfishContext key salt cost -- The BCrypt plaintext: "OrpheanBeholderScryDoubt" orpheanBeholder = B.pack [79,114,112,104,101,97,110,66,101,104,111,108,100,101,114,83,99,114,121,68,111,117,98,116]@@ -156,10 +164,26 @@ costTens = fromIntegral (B.index bc 4) - zero costUnits = fromIntegral (B.index bc 5) - zero version = chr (fromIntegral (B.index bc 2))- cost = costUnits + (if costTens == 0 then 0 else 10^costTens) :: Int+ cost = costUnits + 10*costTens :: Int decodeSaltHash saltHash = do let (s, h) = B.splitAt 22 saltHash salt <- convertFromBase Base64OpenBSD s hash <- convertFromBase Base64OpenBSD h return (salt, hash)++-- | Create a key schedule for the BCrypt "EKS" version.+--+-- Salt must be a 128-bit byte array.+-- Cost must be between 4 and 31 inclusive+-- See <https://www.usenix.org/conference/1999-usenix-annual-technical-conference/future-adaptable-password-scheme>+expensiveBlowfishContext :: (ByteArrayAccess key, ByteArrayAccess salt) => key-> salt -> Int -> Context+expensiveBlowfishContext keyBytes saltBytes cost+ | B.length saltBytes /= 16 = error "bcrypt salt must be 16 bytes"+ | otherwise = unsafeDoIO $ do+ ks <- createKeySchedule+ expandKeyWithSalt ks keyBytes saltBytes+ forM_ [1..2^cost :: Int] $ \_ -> do+ expandKey ks keyBytes+ expandKey ks saltBytes+ freezeKeySchedule ks
+ Crypto/KDF/BCryptPBKDF.hs view
@@ -0,0 +1,187 @@+-- |+-- Module : Crypto.KDF.BCryptPBKDF+-- License : BSD-style+-- Stability : experimental+-- Portability : Good+--+-- Port of the bcrypt_pbkdf key derivation function from OpenBSD+-- as described at <http://man.openbsd.org/bcrypt_pbkdf.3>.+module Crypto.KDF.BCryptPBKDF+ ( Parameters (..)+ , generate+ , hashInternal+ )+where++import Basement.Block (MutableBlock)+import qualified Basement.Block as Block+import qualified Basement.Block.Mutable as Block+import Basement.Monad (PrimState)+import Basement.Types.OffsetSize (CountOf (..), Offset (..))+import Control.Exception (finally)+import Control.Monad (when)+import qualified Crypto.Cipher.Blowfish.Box as Blowfish+import qualified Crypto.Cipher.Blowfish.Primitive as Blowfish+import Crypto.Hash.Algorithms (SHA512 (..))+import Crypto.Hash.Types (Context,+ hashDigestSize,+ hashInternalContextSize,+ hashInternalFinalize,+ hashInternalInit,+ hashInternalUpdate)+import Crypto.Internal.Compat (unsafeDoIO)+import Data.Bits+import qualified Data.ByteArray as B+import Data.Foldable (forM_)+import Data.Memory.PtrMethods (memCopy, memSet, memXor)+import Data.Word+import Foreign.Ptr (Ptr, castPtr)+import Foreign.Storable (peekByteOff, pokeByteOff)++data Parameters = Parameters+ { iterCounts :: Int -- ^ The number of user-defined iterations for the algorithm+ -- (must be > 0)+ , outputLength :: Int -- ^ The number of bytes to generate out of BCryptPBKDF+ -- (must be in 1..1024)+ } deriving (Eq, Ord, Show)++-- | Derive a key of specified length using the bcrypt_pbkdf algorithm.+generate :: (B.ByteArray pass, B.ByteArray salt, B.ByteArray output)+ => Parameters+ -> pass+ -> salt+ -> output+generate params pass salt+ | iterCounts params < 1 = error "BCryptPBKDF: iterCounts must be > 0"+ | keyLen < 1 || keyLen > 1024 = error "BCryptPBKDF: outputLength must be in 1..1024"+ | otherwise = B.unsafeCreate keyLen deriveKey+ where+ outLen, tmpLen, blkLen, keyLen, passLen, saltLen, ctxLen, hashLen, blocks :: Int+ outLen = 32+ tmpLen = 32+ blkLen = 4+ passLen = B.length pass+ saltLen = B.length salt+ keyLen = outputLength params+ ctxLen = hashInternalContextSize SHA512+ hashLen = hashDigestSize SHA512 -- 64+ blocks = (keyLen + outLen - 1) `div` outLen++ deriveKey :: Ptr Word8 -> IO ()+ deriveKey keyPtr = do+ -- Allocate all necessary memory. The algorihm shall not allocate+ -- any more dynamic memory after this point. Blocks need to be pinned+ -- as pointers to them are passed to the SHA512 implementation.+ ksClean <- Blowfish.createKeySchedule+ ksDirty <- Blowfish.createKeySchedule+ ctxMBlock <- Block.newPinned (CountOf ctxLen :: CountOf Word8)+ outMBlock <- Block.newPinned (CountOf outLen :: CountOf Word8)+ tmpMBlock <- Block.newPinned (CountOf tmpLen :: CountOf Word8)+ blkMBlock <- Block.newPinned (CountOf blkLen :: CountOf Word8)+ passHashMBlock <- Block.newPinned (CountOf hashLen :: CountOf Word8)+ saltHashMBlock <- Block.newPinned (CountOf hashLen :: CountOf Word8)+ -- Finally erase all memory areas that contain information from+ -- which the derived key could be reconstructed.+ -- As all MutableBlocks are pinned it shall be guaranteed that+ -- no temporary trampoline buffers are allocated.+ finallyErase outMBlock $ finallyErase passHashMBlock $+ B.withByteArray pass $ \passPtr->+ B.withByteArray salt $ \saltPtr->+ Block.withMutablePtr ctxMBlock $ \ctxPtr->+ Block.withMutablePtr outMBlock $ \outPtr->+ Block.withMutablePtr tmpMBlock $ \tmpPtr->+ Block.withMutablePtr blkMBlock $ \blkPtr->+ Block.withMutablePtr passHashMBlock $ \passHashPtr->+ Block.withMutablePtr saltHashMBlock $ \saltHashPtr-> do+ -- Hash the password.+ let shaPtr = castPtr ctxPtr :: Ptr (Context SHA512)+ hashInternalInit shaPtr+ hashInternalUpdate shaPtr passPtr (fromIntegral passLen)+ hashInternalFinalize shaPtr (castPtr passHashPtr)+ passHashBlock <- Block.unsafeFreeze passHashMBlock+ forM_ [1..blocks] $ \block-> do+ -- Poke the increased block counter.+ Block.unsafeWrite blkMBlock 0 (fromIntegral $ block `shiftR` 24)+ Block.unsafeWrite blkMBlock 1 (fromIntegral $ block `shiftR` 16)+ Block.unsafeWrite blkMBlock 2 (fromIntegral $ block `shiftR` 8)+ Block.unsafeWrite blkMBlock 3 (fromIntegral $ block `shiftR` 0)+ -- First round (slightly different).+ hashInternalInit shaPtr+ hashInternalUpdate shaPtr saltPtr (fromIntegral saltLen)+ hashInternalUpdate shaPtr blkPtr (fromIntegral blkLen)+ hashInternalFinalize shaPtr (castPtr saltHashPtr)+ Block.unsafeFreeze saltHashMBlock >>= \x-> do+ Blowfish.copyKeySchedule ksDirty ksClean+ hashInternalMutable ksDirty passHashBlock x tmpMBlock+ memCopy outPtr tmpPtr outLen+ -- Remaining rounds.+ forM_ [2..iterCounts params] $ const $ do+ hashInternalInit shaPtr+ hashInternalUpdate shaPtr tmpPtr (fromIntegral tmpLen)+ hashInternalFinalize shaPtr (castPtr saltHashPtr)+ Block.unsafeFreeze saltHashMBlock >>= \x-> do+ Blowfish.copyKeySchedule ksDirty ksClean+ hashInternalMutable ksDirty passHashBlock x tmpMBlock+ memXor outPtr outPtr tmpPtr outLen+ -- Spread the current out buffer evenly over the key buffer.+ -- After both loops have run every byte of the key buffer+ -- will have been written to exactly once and every byte+ -- of the output will have been used.+ forM_ [0..outLen - 1] $ \outIdx-> do+ let keyIdx = outIdx * blocks + block - 1+ when (keyIdx < keyLen) $ do+ w8 <- peekByteOff outPtr outIdx :: IO Word8+ pokeByteOff keyPtr keyIdx w8++-- | Internal hash function used by `generate`.+--+-- Normal users should not need this.+hashInternal :: (B.ByteArrayAccess pass, B.ByteArrayAccess salt, B.ByteArray output)+ => pass+ -> salt+ -> output+hashInternal passHash saltHash+ | B.length passHash /= 64 = error "passHash must be 512 bits"+ | B.length saltHash /= 64 = error "saltHash must be 512 bits"+ | otherwise = unsafeDoIO $ do+ ks0 <- Blowfish.createKeySchedule+ outMBlock <- Block.newPinned 32+ hashInternalMutable ks0 passHash saltHash outMBlock+ B.convert `fmap` Block.freeze outMBlock++hashInternalMutable :: (B.ByteArrayAccess pass, B.ByteArrayAccess salt)+ => Blowfish.KeySchedule+ -> pass+ -> salt+ -> MutableBlock Word8 (PrimState IO)+ -> IO ()+hashInternalMutable bfks passHash saltHash outMBlock = do+ Blowfish.expandKeyWithSalt bfks passHash saltHash+ forM_ [0..63 :: Int] $ const $ do+ Blowfish.expandKey bfks saltHash+ Blowfish.expandKey bfks passHash+ -- "OxychromaticBlowfishSwatDynamite" represented as 4 Word64 in big-endian.+ store 0 =<< cipher 64 0x4f78796368726f6d+ store 8 =<< cipher 64 0x61746963426c6f77+ store 16 =<< cipher 64 0x6669736853776174+ store 24 =<< cipher 64 0x44796e616d697465+ where+ store :: Offset Word8 -> Word64 -> IO ()+ store o w64 = do+ Block.unsafeWrite outMBlock (o + 0) (fromIntegral $ w64 `shiftR` 32)+ Block.unsafeWrite outMBlock (o + 1) (fromIntegral $ w64 `shiftR` 40)+ Block.unsafeWrite outMBlock (o + 2) (fromIntegral $ w64 `shiftR` 48)+ Block.unsafeWrite outMBlock (o + 3) (fromIntegral $ w64 `shiftR` 56)+ Block.unsafeWrite outMBlock (o + 4) (fromIntegral $ w64 `shiftR` 0)+ Block.unsafeWrite outMBlock (o + 5) (fromIntegral $ w64 `shiftR` 8)+ Block.unsafeWrite outMBlock (o + 6) (fromIntegral $ w64 `shiftR` 16)+ Block.unsafeWrite outMBlock (o + 7) (fromIntegral $ w64 `shiftR` 24)+ cipher :: Int -> Word64 -> IO Word64+ cipher 0 block = return block+ cipher i block = Blowfish.cipherBlockMutable bfks block >>= cipher (i - 1)++finallyErase :: MutableBlock Word8 (PrimState IO) -> IO () -> IO ()+finallyErase mblock action =+ action `finally` Block.withMutablePtr mblock (\ptr-> memSet ptr 0 len)+ where+ CountOf len = Block.mutableLengthBytes mblock
Crypto/KDF/HKDF.hs view
@@ -18,15 +18,21 @@ ) where import Data.Word-import Crypto.Hash +import Crypto.Hash import Crypto.MAC.HMAC-import Crypto.Internal.ByteArray (ScrubbedBytes, Bytes, ByteArray, ByteArrayAccess)+import Crypto.Internal.ByteArray (ScrubbedBytes, ByteArray, ByteArrayAccess) import qualified Crypto.Internal.ByteArray as B -- | Pseudo Random Key data PRK a = PRK (HMAC a) | PRK_NoExpand ScrubbedBytes deriving (Eq) +instance ByteArrayAccess (PRK a) where+ length (PRK hm) = B.length hm+ length (PRK_NoExpand sb) = B.length sb+ withByteArray (PRK hm) = B.withByteArray hm+ withByteArray (PRK_NoExpand sb) = B.withByteArray sb+ -- | Extract a Pseudo Random Key using the parameter and the underlaying hash mechanism extract :: (HashAlgorithm a, ByteArrayAccess salt, ByteArrayAccess ikm) => salt -- ^ Salt@@ -38,7 +44,7 @@ -- -- Only use when guaranteed to have a good quality and random data to use directly as key. -- This effectively skip a HMAC with key=salt and data=key.-extractSkip :: (HashAlgorithm a, ByteArrayAccess ikm)+extractSkip :: ByteArrayAccess ikm => ikm -> PRK a extractSkip ikm = PRK_NoExpand $ B.convert ikm
Crypto/KDF/PBKDF2.hs view
@@ -8,17 +8,23 @@ -- Password Based Key Derivation Function 2 -- {-# LANGUAGE BangPatterns #-}+{-# LANGUAGE ForeignFunctionInterface #-}+ module Crypto.KDF.PBKDF2 ( PRF , prfHMAC , Parameters(..) , generate+ , fastPBKDF2_SHA1+ , fastPBKDF2_SHA256+ , fastPBKDF2_SHA512 ) where import Data.Word import Data.Bits import Foreign.Marshal.Alloc-import Foreign.Ptr (plusPtr)+import Foreign.Ptr (plusPtr, Ptr)+import Foreign.C.Types (CUInt(..), CSize(..)) import Crypto.Hash (HashAlgorithm) import qualified Crypto.MAC.HMAC as HMAC@@ -100,3 +106,70 @@ c = fromIntegral ((w `shiftR` 8) .&. 0xff) d = fromIntegral (w .&. 0xff) {-# NOINLINE generate #-}++fastPBKDF2_SHA1 :: (ByteArrayAccess password, ByteArrayAccess salt, ByteArray out)+ => Parameters+ -> password+ -> salt+ -> out+fastPBKDF2_SHA1 params password salt =+ B.allocAndFreeze (outputLength params) $ \outPtr ->+ B.withByteArray password $ \passPtr ->+ B.withByteArray salt $ \saltPtr ->+ c_cryptonite_fastpbkdf2_hmac_sha1+ passPtr (fromIntegral $ B.length password)+ saltPtr (fromIntegral $ B.length salt)+ (fromIntegral $ iterCounts params)+ outPtr (fromIntegral $ outputLength params)++fastPBKDF2_SHA256 :: (ByteArrayAccess password, ByteArrayAccess salt, ByteArray out)+ => Parameters+ -> password+ -> salt+ -> out+fastPBKDF2_SHA256 params password salt =+ B.allocAndFreeze (outputLength params) $ \outPtr ->+ B.withByteArray password $ \passPtr ->+ B.withByteArray salt $ \saltPtr ->+ c_cryptonite_fastpbkdf2_hmac_sha256+ passPtr (fromIntegral $ B.length password)+ saltPtr (fromIntegral $ B.length salt)+ (fromIntegral $ iterCounts params)+ outPtr (fromIntegral $ outputLength params)++fastPBKDF2_SHA512 :: (ByteArrayAccess password, ByteArrayAccess salt, ByteArray out)+ => Parameters+ -> password+ -> salt+ -> out+fastPBKDF2_SHA512 params password salt =+ B.allocAndFreeze (outputLength params) $ \outPtr ->+ B.withByteArray password $ \passPtr ->+ B.withByteArray salt $ \saltPtr ->+ c_cryptonite_fastpbkdf2_hmac_sha512+ passPtr (fromIntegral $ B.length password)+ saltPtr (fromIntegral $ B.length salt)+ (fromIntegral $ iterCounts params)+ outPtr (fromIntegral $ outputLength params)+++foreign import ccall unsafe "cryptonite_pbkdf2.h cryptonite_fastpbkdf2_hmac_sha1"+ c_cryptonite_fastpbkdf2_hmac_sha1 :: Ptr Word8 -> CSize+ -> Ptr Word8 -> CSize+ -> CUInt+ -> Ptr Word8 -> CSize+ -> IO ()++foreign import ccall unsafe "cryptonite_pbkdf2.h cryptonite_fastpbkdf2_hmac_sha256"+ c_cryptonite_fastpbkdf2_hmac_sha256 :: Ptr Word8 -> CSize+ -> Ptr Word8 -> CSize+ -> CUInt+ -> Ptr Word8 -> CSize+ -> IO ()++foreign import ccall unsafe "cryptonite_pbkdf2.h cryptonite_fastpbkdf2_hmac_sha512"+ c_cryptonite_fastpbkdf2_hmac_sha512 :: Ptr Word8 -> CSize+ -> Ptr Word8 -> CSize+ -> CUInt+ -> Ptr Word8 -> CSize+ -> IO ()
Crypto/MAC/CMAC.hs view
@@ -5,7 +5,7 @@ -- Stability : experimental -- Portability : unknown ----- provide the CMAC (Cipher based Message Authentification Code) base algorithm.+-- Provide the CMAC (Cipher based Message Authentification Code) base algorithm. -- <http://en.wikipedia.org/wiki/CMAC> -- <http://csrc.nist.gov/publications/nistpubs/800-38B/SP_800-38B.pdf> --@@ -94,7 +94,7 @@ cipherIPT :: BlockCipher k => k -> [Word8]-cipherIPT = expandIPT . blockSize where+cipherIPT = expandIPT . blockSize -- Data type which represents the smallest irreducibule binary polynomial -- against specified degree.
Crypto/MAC/HMAC.hs view
@@ -5,15 +5,16 @@ -- Stability : experimental -- Portability : unknown ----- provide the HMAC (Hash based Message Authentification Code) base algorithm.+-- Provide the HMAC (Hash based Message Authentification Code) base algorithm. -- <http://en.wikipedia.org/wiki/HMAC> -- {-# LANGUAGE BangPatterns #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} module Crypto.MAC.HMAC ( hmac+ , hmacLazy , HMAC(..)- -- * incremental+ -- * Incremental , Context(..) , initialize , update@@ -24,27 +25,35 @@ import Crypto.Hash hiding (Context) import qualified Crypto.Hash as Hash (Context) import Crypto.Hash.IO-import Crypto.Internal.ByteArray (ScrubbedBytes, ByteArray, ByteArrayAccess)+import Crypto.Internal.ByteArray (ScrubbedBytes, ByteArrayAccess) import qualified Crypto.Internal.ByteArray as B import Data.Memory.PtrMethods import Crypto.Internal.Compat-import Crypto.Internal.Imports+import qualified Data.ByteString.Lazy as L -- | Represent an HMAC that is a phantom type with the hash used to produce the mac. ----- The Eq instance is constant time.+-- The Eq instance is constant time. No Show instance is provided, to avoid+-- printing by mistake. newtype HMAC a = HMAC { hmacGetDigest :: Digest a } deriving (ByteArrayAccess) instance Eq (HMAC a) where (HMAC b1) == (HMAC b2) = B.constEq b1 b2 --- | compute a MAC using the supplied hashing function+-- | Compute a MAC using the supplied hashing function hmac :: (ByteArrayAccess key, ByteArrayAccess message, HashAlgorithm a) => key -- ^ Secret key -> message -- ^ Message to MAC -> HMAC a hmac secret msg = finalize $ updates (initialize secret) [msg]++-- | Compute a MAC using the supplied hashing function, for a lazy input+hmacLazy :: (ByteArrayAccess key, HashAlgorithm a)+ => key -- ^ Secret key+ -> L.ByteString -- ^ Message to MAC+ -> HMAC a+hmacLazy secret msg = finalize $ updates (initialize secret) (L.toChunks msg) -- | Represent an ongoing HMAC state, that can be appended with 'update' -- and finalize to an HMAC with 'hmacFinalize'
+ Crypto/MAC/KMAC.hs view
@@ -0,0 +1,144 @@+-- |+-- Module : Crypto.MAC.KMAC+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : experimental+-- Portability : unknown+--+-- Provide the KMAC (Keccak Message Authentication Code) algorithm, derived from+-- the SHA-3 base algorithm Keccak and defined in NIST SP800-185.+--+{-# LANGUAGE BangPatterns #-}+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+{-# LANGUAGE ScopedTypeVariables #-}+module Crypto.MAC.KMAC+ ( HashSHAKE+ , kmac+ , KMAC(..)+ -- * Incremental+ , Context+ , initialize+ , update+ , updates+ , finalize+ ) where++import qualified Crypto.Hash as H+import Crypto.Hash.SHAKE (HashSHAKE(..))+import Crypto.Hash.Types (HashAlgorithm(..), Digest(..))+import qualified Crypto.Hash.Types as H+import Crypto.Internal.Builder+import Crypto.Internal.Imports+import Foreign.Ptr (Ptr)+import Data.Bits (shiftR)+import Data.ByteArray (ByteArrayAccess)+import qualified Data.ByteArray as B+++-- cSHAKE++cshakeInit :: forall a name string prefix . (HashSHAKE a, ByteArrayAccess name, ByteArrayAccess string, ByteArrayAccess prefix)+ => name -> string -> prefix -> H.Context a+cshakeInit n s p = H.Context $ B.allocAndFreeze c $ \(ptr :: Ptr (H.Context a)) -> do+ hashInternalInit ptr+ B.withByteArray b $ \d -> hashInternalUpdate ptr d (fromIntegral $ B.length b)+ B.withByteArray p $ \d -> hashInternalUpdate ptr d (fromIntegral $ B.length p)+ where+ c = hashInternalContextSize (undefined :: a)+ w = hashBlockSize (undefined :: a)+ x = encodeString n <> encodeString s+ b = buildAndFreeze (bytepad x w) :: B.Bytes++cshakeUpdate :: (HashSHAKE a, ByteArrayAccess ba)+ => H.Context a -> ba -> H.Context a+cshakeUpdate = H.hashUpdate++cshakeUpdates :: (HashSHAKE a, ByteArrayAccess ba)+ => H.Context a -> [ba] -> H.Context a+cshakeUpdates = H.hashUpdates++cshakeFinalize :: forall a suffix . (HashSHAKE a, ByteArrayAccess suffix)+ => H.Context a -> suffix -> Digest a+cshakeFinalize !c s =+ Digest $ B.allocAndFreeze (hashDigestSize (undefined :: a)) $ \dig -> do+ ((!_) :: B.Bytes) <- B.copy c $ \(ctx :: Ptr (H.Context a)) -> do+ B.withByteArray s $ \d ->+ hashInternalUpdate ctx d (fromIntegral $ B.length s)+ cshakeInternalFinalize ctx dig+ return ()+++-- KMAC++-- | Represent a KMAC that is a phantom type with the hash used to produce the+-- mac.+--+-- The Eq instance is constant time. No Show instance is provided, to avoid+-- printing by mistake.+newtype KMAC a = KMAC { kmacGetDigest :: Digest a }+ deriving (ByteArrayAccess,NFData)++instance Eq (KMAC a) where+ (KMAC b1) == (KMAC b2) = B.constEq b1 b2++-- | Compute a KMAC using the supplied customization string and key.+kmac :: (HashSHAKE a, ByteArrayAccess string, ByteArrayAccess key, ByteArrayAccess ba)+ => string -> key -> ba -> KMAC a+kmac str key msg = finalize $ updates (initialize str key) [msg]++-- | Represent an ongoing KMAC state, that can be appended with 'update' and+-- finalized to a 'KMAC' with 'finalize'.+newtype Context a = Context (H.Context a)++-- | Initialize a new incremental KMAC context with the supplied customization+-- string and key.+initialize :: forall a string key . (HashSHAKE a, ByteArrayAccess string, ByteArrayAccess key)+ => string -> key -> Context a+initialize str key = Context $ cshakeInit n str p+ where+ n = B.pack [75,77,65,67] :: B.Bytes -- "KMAC"+ w = hashBlockSize (undefined :: a)+ p = buildAndFreeze (bytepad (encodeString key) w) :: B.ScrubbedBytes++-- | Incrementally update a KMAC context.+update :: (HashSHAKE a, ByteArrayAccess ba) => Context a -> ba -> Context a+update (Context ctx) = Context . cshakeUpdate ctx++-- | Incrementally update a KMAC context with multiple inputs.+updates :: (HashSHAKE a, ByteArrayAccess ba) => Context a -> [ba] -> Context a+updates (Context ctx) = Context . cshakeUpdates ctx++-- | Finalize a KMAC context and return the KMAC.+finalize :: forall a . HashSHAKE a => Context a -> KMAC a+finalize (Context ctx) = KMAC $ cshakeFinalize ctx suffix+ where+ l = cshakeOutputLength (undefined :: a)+ suffix = buildAndFreeze (rightEncode l) :: B.Bytes+++-- Utilities++bytepad :: Builder -> Int -> Builder+bytepad x w = prefix <> x <> zero padLen+ where+ prefix = leftEncode w+ padLen = (w - builderLength prefix - builderLength x) `mod` w++encodeString :: ByteArrayAccess bin => bin -> Builder+encodeString s = leftEncode (8 * B.length s) <> bytes s++leftEncode :: Int -> Builder+leftEncode x = byte len <> digits+ where+ digits = i2osp x+ len = fromIntegral (builderLength digits)++rightEncode :: Int -> Builder+rightEncode x = digits <> byte len+ where+ digits = i2osp x+ len = fromIntegral (builderLength digits)++i2osp :: Int -> Builder+i2osp i | i >= 256 = i2osp (shiftR i 8) <> byte (fromIntegral i)+ | otherwise = byte (fromIntegral i)
Crypto/MAC/Poly1305.hs view
@@ -33,6 +33,11 @@ import Crypto.Error -- | Poly1305 State+--+-- This type is an instance of 'ByteArrayAccess' for debugging purpose. Internal+-- layout is architecture dependent, may contain uninitialized data fragments,+-- and change in future versions. The bytearray should not be used as input to+-- cryptographic algorithms. newtype State = State ScrubbedBytes deriving (ByteArrayAccess)
Crypto/Number/Basic.hs view
@@ -13,12 +13,15 @@ , log2 , numBits , numBytes+ , asPowerOf2AndOdd ) where +import Data.Bits+ import Crypto.Number.Compat --- | sqrti returns two integer (l,b) so that l <= sqrt i <= b--- the implementation is quite naive, use an approximation for the first number+-- | @sqrti@ returns two integers @(l,b)@ so that @l <= sqrt i <= b@.+-- The implementation is quite naive, use an approximation for the first number -- and use a dichotomy algorithm to compute the bound relatively efficiently. sqrti :: Integer -> (Integer, Integer) sqrti i@@ -49,7 +52,7 @@ else iter (lb+d) ub sq a = a * a --- | get the extended GCD of two integer using integer divMod+-- | Get the extended GCD of two integer using integer divMod -- -- gcde 'a' 'b' find (x,y,gcd(a,b)) where ax + by = d --@@ -63,7 +66,7 @@ let (q, r) = a' `divMod` b' in f t (r, sa - (q * sb), ta - (q * tb)) --- | check if a list of integer are all even+-- | Check if a list of integer are all even areEven :: [Integer] -> Bool areEven = and . map even @@ -98,3 +101,16 @@ -- | Compute the number of bytes for an integer numBytes :: Integer -> Int numBytes n = gmpSizeInBytes n `onGmpUnsupported` ((numBits n + 7) `div` 8)++-- | Express an integer as an odd number and a power of 2+asPowerOf2AndOdd :: Integer -> (Int, Integer)+asPowerOf2AndOdd a+ | a == 0 = (0, 0)+ | odd a = (0, a)+ | a < 0 = let (e, a1) = asPowerOf2AndOdd $ abs a in (e, -a1)+ | isPowerOf2 a = (log2 a, 1)+ | otherwise = loop a 0+ where + isPowerOf2 n = (n /= 0) && ((n .&. (n - 1)) == 0)+ loop n pw = if n `mod` 2 == 0 then loop (n `div` 2) (pw + 1)+ else (pw, n)
Crypto/Number/Compat.hs view
@@ -22,7 +22,9 @@ , gmpSizeInBytes , gmpSizeInBits , gmpExportInteger+ , gmpExportIntegerLE , gmpImportInteger+ , gmpImportIntegerLE ) where #ifndef MIN_VERSION_integer_gmp@@ -70,8 +72,12 @@ -- | Compute the power modulus using extra security to remain constant -- time wise through GMP gmpPowModSecInteger :: Integer -> Integer -> Integer -> GmpSupported Integer-#if MIN_VERSION_integer_gmp(1,0,0)+#if MIN_VERSION_integer_gmp(1,1,0) gmpPowModSecInteger _ _ _ = GmpUnsupported+#elif MIN_VERSION_integer_gmp(1,0,2)+gmpPowModSecInteger b e m = GmpSupported (powModSecInteger b e m)+#elif MIN_VERSION_integer_gmp(1,0,0)+gmpPowModSecInteger _ _ _ = GmpUnsupported #elif MIN_VERSION_integer_gmp(0,5,1) gmpPowModSecInteger b e m = GmpSupported (powModSecInteger b e m) #else@@ -99,7 +105,9 @@ -- | Get the next prime from a specific value through GMP gmpNextPrime :: Integer -> GmpSupported Integer-#if MIN_VERSION_integer_gmp(0,5,1)+#if MIN_VERSION_integer_gmp(1,1,0)+gmpNextPrime _ = GmpUnsupported+#elif MIN_VERSION_integer_gmp(0,5,1) gmpNextPrime n = GmpSupported (nextPrimeInteger n) #else gmpNextPrime _ = GmpUnsupported@@ -107,7 +115,9 @@ -- | Test if a number is prime using Miller Rabin gmpTestPrimeMillerRabin :: Int -> Integer -> GmpSupported Bool-#if MIN_VERSION_integer_gmp(0,5,1)+#if MIN_VERSION_integer_gmp(1,1,0)+gmpTestPrimeMillerRabin _ _ = GmpUnsupported+#elif MIN_VERSION_integer_gmp(0,5,1) gmpTestPrimeMillerRabin (I# tries) !n = GmpSupported $ case testPrimeInteger n tries of 0# -> False@@ -132,7 +142,7 @@ gmpSizeInBits _ = GmpUnsupported #endif --- | Export an integer to a memory+-- | Export an integer to a memory (big-endian) gmpExportInteger :: Integer -> Ptr Word8 -> GmpSupported (IO ()) #if MIN_VERSION_integer_gmp(1,0,0) gmpExportInteger n (Ptr addr) = GmpSupported $ do@@ -146,7 +156,21 @@ gmpExportInteger _ _ = GmpUnsupported #endif --- | Import an integer from a memory+-- | Export an integer to a memory (little-endian)+gmpExportIntegerLE :: Integer -> Ptr Word8 -> GmpSupported (IO ())+#if MIN_VERSION_integer_gmp(1,0,0)+gmpExportIntegerLE n (Ptr addr) = GmpSupported $ do+ _ <- exportIntegerToAddr n addr 0#+ return ()+#elif MIN_VERSION_integer_gmp(0,5,1)+gmpExportIntegerLE n (Ptr addr) = GmpSupported $ IO $ \s ->+ case exportIntegerToAddr n addr 0# s of+ (# s2, _ #) -> (# s2, () #)+#else+gmpExportIntegerLE _ _ = GmpUnsupported+#endif++-- | Import an integer from a memory (big-endian) gmpImportInteger :: Int -> Ptr Word8 -> GmpSupported (IO Integer) #if MIN_VERSION_integer_gmp(1,0,0) gmpImportInteger (I# n) (Ptr addr) = GmpSupported $@@ -156,4 +180,16 @@ importIntegerFromAddr addr (int2Word# n) 1# s #else gmpImportInteger _ _ = GmpUnsupported+#endif++-- | Import an integer from a memory (little-endian)+gmpImportIntegerLE :: Int -> Ptr Word8 -> GmpSupported (IO Integer)+#if MIN_VERSION_integer_gmp(1,0,0)+gmpImportIntegerLE (I# n) (Ptr addr) = GmpSupported $+ importIntegerFromAddr addr (int2Word# n) 0#+#elif MIN_VERSION_integer_gmp(0,5,1)+gmpImportIntegerLE (I# n) (Ptr addr) = GmpSupported $ IO $ \s ->+ importIntegerFromAddr addr (int2Word# n) 0# s+#else+gmpImportIntegerLE _ _ = GmpUnsupported #endif
Crypto/Number/F2m.hs view
@@ -9,100 +9,161 @@ -- not optimal and it doesn't provide protection against timing -- attacks. The 'm' parameter is implicitly derived from the irreducible -- polynomial where applicable.+ module Crypto.Number.F2m ( BinaryPolynomial , addF2m , mulF2m+ , squareF2m' , squareF2m+ , powF2m , modF2m+ , sqrtF2m , invF2m , divF2m ) where -import Data.Bits ((.&.),(.|.),xor,shift,testBit)+import Data.Bits (xor, shift, testBit, setBit)+import Data.List import Crypto.Number.Basic-import Crypto.Internal.Imports -- | Binary Polynomial represented by an integer type BinaryPolynomial = Integer --- | Addition over F₂m. This is just a synonym of 'xor'.-addF2m :: Integer -> Integer -> Integer+-- | Addition over F₂m. This is just a synonym of 'xor'.+addF2m :: Integer+ -> Integer+ -> Integer addF2m = xor {-# INLINE addF2m #-} --- | Binary polynomial reduction modulo using long division algorithm.-modF2m :: BinaryPolynomial -- ^ Irreducible binary polynomial- -> Integer -> Integer-modF2m fx = go- where- lfx = log2 fx- go n | s == 0 = n `xor` fx- | s < 0 = n- | otherwise = go $ n `xor` shift fx s+-- | Reduction by modulo over F₂m.+--+-- This function is undefined for negative arguments, because their bit+-- representation is platform-dependent. Zero modulus is also prohibited.+modF2m :: BinaryPolynomial -- ^ Modulus+ -> Integer+ -> Integer+modF2m fx i+ | fx < 0 || i < 0 = error "modF2m: negative number represent no binary polynomial"+ | fx == 0 = error "modF2m: cannot divide by zero polynomial"+ | fx == 1 = 0+ | otherwise = go i where- s = log2 n - lfx+ lfx = log2 fx+ go n | s == 0 = n `addF2m` fx+ | s < 0 = n+ | otherwise = go $ n `addF2m` shift fx s+ where s = log2 n - lfx {-# INLINE modF2m #-} -- | Multiplication over F₂m. ----- n1 * n2 (in F(2^m))-mulF2m :: BinaryPolynomial -- ^ Irreducible binary polynomial- -> Integer -> Integer -> Integer-mulF2m fx n1 n2 = modF2m fx- $ go (if n2 `mod` 2 == 1 then n1 else 0) (log2 n2)- where- go n s | s == 0 = n- | otherwise = if testBit n2 s- then go (n `xor` shift n1 s) (s - 1)- else go n (s - 1)+-- This function is undefined for negative arguments, because their bit+-- representation is platform-dependent. Zero modulus is also prohibited.+mulF2m :: BinaryPolynomial -- ^ Modulus+ -> Integer+ -> Integer+ -> Integer+mulF2m fx n1 n2+ | fx < 0+ || n1 < 0+ || n2 < 0 = error "mulF2m: negative number represent no binary polynomial"+ | fx == 0 = error "mulF2m: cannot multiply modulo zero polynomial"+ | otherwise = modF2m fx $ go (if n2 `mod` 2 == 1 then n1 else 0) (log2 n2)+ where+ go n s | s == 0 = n+ | otherwise = if testBit n2 s+ then go (n `addF2m` shift n1 s) (s - 1)+ else go n (s - 1) {-# INLINABLE mulF2m #-} -- | Squaring over F₂m.--- TODO: This is still slower than @mulF2m@.---- Multiplication table? C?-squareF2m :: BinaryPolynomial -- ^ Irreducible binary polynomial- -> Integer -> Integer-squareF2m fx = modF2m fx . square+--+-- This function is undefined for negative arguments, because their bit+-- representation is platform-dependent. Zero modulus is also prohibited.+squareF2m :: BinaryPolynomial -- ^ Modulus+ -> Integer+ -> Integer+squareF2m fx = modF2m fx . squareF2m' {-# INLINE squareF2m #-} -square :: Integer -> Integer-square n1 = go n1 ln1+-- | Squaring over F₂m without reduction by modulo.+--+-- The implementation utilizes the fact that for binary polynomial S(x) we have+-- S(x)^2 = S(x^2). In other words, insert a zero bit between every bits of argument: 1101 -> 1010001.+--+-- This function is undefined for negative arguments, because their bit+-- representation is platform-dependent.+squareF2m' :: Integer+ -> Integer+squareF2m' n+ | n < 0 = error "mulF2m: negative number represent no binary polynomial"+ | otherwise = foldl' (\acc s -> if testBit n s then setBit acc (2 * s) else acc) 0 [0 .. log2 n]+{-# INLINE squareF2m' #-}++-- | Exponentiation in F₂m by computing @a^b mod fx@.+--+-- This implements an exponentiation by squaring based solution. It inherits the+-- same restrictions as 'squareF2m'. Negative exponents are disallowed.+powF2m :: BinaryPolynomial -- ^Modulus+ -> Integer -- ^a+ -> Integer -- ^b+ -> Integer+powF2m fx a b+ | b < 0 = error "powF2m: negative exponents disallowed"+ | b == 0 = if fx > 1 then 1 else 0+ | even b = squareF2m fx x+ | otherwise = mulF2m fx a (squareF2m' x)+ where x = powF2m fx a (b `div` 2)++-- | Square rooot in F₂m.+--+-- We exploit the fact that @a^(2^m) = a@, or in particular, @a^(2^m - 1) = 1@+-- from a classical result by Lagrange. Thus the square root is simply @a^(2^(m+-- - 1))@.+sqrtF2m :: BinaryPolynomial -- ^Modulus+ -> Integer -- ^a+ -> Integer+sqrtF2m fx a = go (log2 fx - 1) a+ where go 0 x = x+ go n x = go (n - 1) (squareF2m fx x)++-- | Extended GCD algorithm for polynomials. For @a@ and @b@ returns @(g, u, v)@ such that @a * u + b * v == g@.+--+-- Reference: https://en.wikipedia.org/wiki/Polynomial_greatest_common_divisor#B.C3.A9zout.27s_identity_and_extended_GCD_algorithm+gcdF2m :: Integer+ -> Integer+ -> (Integer, Integer, Integer)+gcdF2m a b = go (a, b, 1, 0, 0, 1) where- ln1 = log2 n1- go n s | s == 0 = n- | otherwise = go (x .|. y) (s - 1)- where- x = shift (shift n (2 * (s - ln1) - 1)) (2 * (ln1 - s) + 2)- y = n .&. (shift 1 (2 * (ln1 - s) + 1) - 1)-{-# INLINE square #-}+ go (g, 0, u, _, v, _)+ = (g, u, v)+ go (r0, r1, s0, s1, t0, t1)+ = go (r1, r0 `addF2m` shift r1 j, s1, s0 `addF2m` shift s1 j, t1, t0 `addF2m` shift t1 j)+ where j = max 0 (log2 r0 - log2 r1) --- | Inversion of @n over F₂m using extended Euclidean algorithm.+-- | Modular inversion over F₂m.+-- If @n@ doesn't have an inverse, 'Nothing' is returned. ----- If @n doesn't have an inverse, Nothing is returned.-invF2m :: BinaryPolynomial -- ^ Irreducible binary polynomial- -> Integer -> Maybe Integer-invF2m _ 0 = Nothing-invF2m fx n- | n >= fx = Nothing- | otherwise = go n fx 1 0- where- go u v g1 g2- | u == 1 = Just $ modF2m fx g1- | j < 0 = go u (v `xor` shift u (-j)) g1 (g2 `xor` shift g1 (-j))- | otherwise = go (u `xor` shift v j) v (g1 `xor` shift g2 j) g2- where- j = log2 u - log2 v+-- This function is undefined for negative arguments, because their bit+-- representation is platform-dependent. Zero modulus is also prohibited.+invF2m :: BinaryPolynomial -- ^ Modulus+ -> Integer+ -> Maybe Integer+invF2m fx n = if g == 1 then Just (modF2m fx u) else Nothing+ where+ (g, u, _) = gcdF2m n fx {-# INLINABLE invF2m #-} -- | Division over F₂m. If the dividend doesn't have an inverse it returns -- 'Nothing'. ----- Compute n1 / n2-divF2m :: BinaryPolynomial -- ^ Irreducible binary polynomial- -> Integer -- ^ Dividend- -> Integer -- ^ Quotient- -> Maybe Integer+-- This function is undefined for negative arguments, because their bit+-- representation is platform-dependent. Zero modulus is also prohibited.+divF2m :: BinaryPolynomial -- ^ Modulus+ -> Integer -- ^ Dividend+ -> Integer -- ^ Divisor+ -> Maybe Integer -- ^ Quotient divF2m fx n1 n2 = mulF2m fx n1 <$> invF2m fx n2 {-# INLINE divF2m #-}
Crypto/Number/Generate.hs view
@@ -120,6 +120,4 @@ -- | generate a number between the inclusive bound [low,high]. generateBetween :: MonadRandom m => Integer -> Integer -> m Integer-generateBetween low high- | low == 1 = generateMax high >>= \r -> if r == 0 then generateBetween low high else return r- | otherwise = (low +) <$> generateMax (high - low + 1)+generateBetween low high = (low +) <$> generateMax (high - low + 1)
Crypto/Number/ModArithmetic.hs view
@@ -1,5 +1,4 @@ {-# LANGUAGE BangPatterns #-}-{-# LANGUAGE DeriveDataTypeable #-} -- | -- Module : Crypto.Number.ModArithmetic -- License : BSD-style@@ -9,26 +8,29 @@ module Crypto.Number.ModArithmetic (- -- * exponentiation+ -- * Exponentiation expSafe , expFast- -- * inverse computing+ -- * Inverse computing , inverse , inverseCoprimes+ , inverseFermat+ -- * Squares+ , jacobi+ , squareRoot ) where import Control.Exception (throw, Exception)-import Data.Typeable import Crypto.Number.Basic import Crypto.Number.Compat -- | Raised when two numbers are supposed to be coprimes but are not. data CoprimesAssertionError = CoprimesAssertionError- deriving (Show,Typeable)+ deriving (Show) instance Exception CoprimesAssertionError --- | Compute the modular exponentiation of base^exponant using+-- | Compute the modular exponentiation of base^exponent using -- algorithms design to avoid side channels and timing measurement -- -- Modulo need to be odd otherwise the normal fast modular exponentiation@@ -38,11 +40,10 @@ -- from expFast, and thus provide the same unstudied and dubious -- timing and side channels claims. ----- with GHC 7.10, the powModSecInteger is missing from integer-gmp--- (which is now integer-gmp2), so is has the same security as old--- ghc version.+-- Before GHC 8.4.2, powModSecInteger is missing from integer-gmp,+-- so expSafe has the same security as expFast. expSafe :: Integer -- ^ base- -> Integer -- ^ exponant+ -> Integer -- ^ exponent -> Integer -- ^ modulo -> Integer -- ^ result expSafe b e m@@ -52,30 +53,30 @@ | otherwise = gmpPowModInteger b e m `onGmpUnsupported` exponentiation b e m --- | Compute the modular exponentiation of base^exponant using+-- | Compute the modular exponentiation of base^exponent using -- the fastest algorithm without any consideration for -- hiding parameters. -- -- Use this function when all the parameters are public,--- otherwise 'expSafe' should be prefered.+-- otherwise 'expSafe' should be preferred. expFast :: Integer -- ^ base- -> Integer -- ^ exponant+ -> Integer -- ^ exponent -> Integer -- ^ modulo -> Integer -- ^ result expFast b e m = gmpPowModInteger b e m `onGmpUnsupported` exponentiation b e m --- | exponentiation computes modular exponentiation as b^e mod m+-- | @exponentiation@ computes modular exponentiation as /b^e mod m/ -- using repetitive squaring. exponentiation :: Integer -> Integer -> Integer -> Integer exponentiation b e m | b == 1 = b | e == 0 = 1 | e == 1 = b `mod` m- | even e = let p = (exponentiation b (e `div` 2) m) `mod` m+ | even e = let p = exponentiation b (e `div` 2) m `mod` m in (p^(2::Integer)) `mod` m | otherwise = (b * exponentiation b (e-1) m) `mod` m --- | inverse computes the modular inverse as in g^(-1) mod m+-- | @inverse@ computes the modular inverse as in /g^(-1) mod m/. inverse :: Integer -> Integer -> Maybe Integer inverse g m = gmpInverse g m `onGmpUnsupported` v where@@ -84,14 +85,133 @@ | otherwise = Just (x `mod` m) (x,_,d) = gcde g m --- | Compute the modular inverse of 2 coprime numbers.+-- | Compute the modular inverse of two coprime numbers. -- This is equivalent to inverse except that the result -- is known to exists. ----- if the numbers are not defined as coprime, this function--- will raise a CoprimesAssertionError.+-- If the numbers are not defined as coprime, this function+-- will raise a 'CoprimesAssertionError'. inverseCoprimes :: Integer -> Integer -> Integer inverseCoprimes g m = case inverse g m of Nothing -> throw CoprimesAssertionError Just i -> i++-- | Computes the Jacobi symbol (a/n).+-- 0 ≤ a < n; n ≥ 3 and odd.+--+-- The Legendre and Jacobi symbols are indistinguishable exactly when the+-- lower argument is an odd prime, in which case they have the same value.+--+-- See algorithm 2.149 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+jacobi :: Integer -> Integer -> Maybe Integer+jacobi a n+ | n < 3 || even n = Nothing+ | a == 0 || a == 1 = Just a+ | n <= a = jacobi (a `mod` n) n+ | a < 0 =+ let b = if n `mod` 4 == 1 then 1 else -1+ in fmap (*b) (jacobi (-a) n)+ | otherwise =+ let (e, a1) = asPowerOf2AndOdd a+ nMod8 = n `mod` 8+ nMod4 = n `mod` 4+ a1Mod4 = a1 `mod` 4+ s' = if even e || nMod8 == 1 || nMod8 == 7 then 1 else -1+ s = if nMod4 == 3 && a1Mod4 == 3 then -s' else s'+ n1 = n `mod` a1+ in if a1 == 1 then Just s+ else fmap (*s) (jacobi n1 a1)++-- | Modular inverse using Fermat's little theorem. This works only when+-- the modulus is prime but avoids side channels like in 'expSafe'.+inverseFermat :: Integer -> Integer -> Integer+inverseFermat g p = expSafe g (p - 2) p++-- | Raised when the assumption about the modulus is invalid.+data ModulusAssertionError = ModulusAssertionError+ deriving (Show)++instance Exception ModulusAssertionError++-- | Modular square root of @g@ modulo a prime @p@.+--+-- If the modulus is found not to be prime, the function will raise a+-- 'ModulusAssertionError'.+--+-- This implementation is variable time and should be used with public+-- parameters only.+squareRoot :: Integer -> Integer -> Maybe Integer+squareRoot p+ | p < 2 = throw ModulusAssertionError+ | otherwise =+ case p `divMod` 8 of+ (v, 3) -> method1 (2 * v + 1)+ (v, 7) -> method1 (2 * v + 2)+ (u, 5) -> method2 u+ (_, 1) -> tonelliShanks p+ (0, 2) -> \a -> Just (if even a then 0 else 1)+ _ -> throw ModulusAssertionError++ where+ x `eqMod` y = (x - y) `mod` p == 0++ validate g y | (y * y) `eqMod` g = Just y+ | otherwise = Nothing++ -- p == 4u + 3 and u' == u + 1+ method1 u' g =+ let y = expFast g u' p+ in validate g y++ -- p == 8u + 5+ method2 u g =+ let gamma = expFast (2 * g) u p+ g_gamma = g * gamma+ i = (2 * g_gamma * gamma) `mod` p+ y = (g_gamma * (i - 1)) `mod` p+ in validate g y++tonelliShanks :: Integer -> Integer -> Maybe Integer+tonelliShanks p a+ | aa == 0 = Just 0+ | otherwise =+ case expFast aa p2 p of+ b | b == p1 -> Nothing+ | b == 1 -> Just $ go (expFast aa ((s + 1) `div` 2) p)+ (expFast aa s p)+ (expFast n s p)+ e+ | otherwise -> throw ModulusAssertionError+ where+ aa = a `mod` p+ p1 = p - 1+ p2 = p1 `div` 2+ n = findN 2++ x `mul` y = (x * y) `mod` p++ pow2m 0 x = x+ pow2m i x = pow2m (i - 1) (x `mul` x)++ (e, s) = asPowerOf2AndOdd p1++ -- find a quadratic non-residue+ findN i+ | expFast i p2 p == p1 = i+ | otherwise = findN (i + 1)++ -- find m such that b^(2^m) == 1 (mod p)+ findM b i+ | b == 1 = i+ | otherwise = findM (b `mul` b) (i + 1)++ go !x b g !r+ | b == 1 = x+ | otherwise =+ let r' = findM b 0+ z = pow2m (r - r' - 1) g+ x' = x `mul` z+ b' = b `mul` g'+ g' = z `mul` z+ in go x' b' g' r'
+ Crypto/Number/Nat.hs view
@@ -0,0 +1,63 @@+-- |+-- Module : Crypto.Number.Nat+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : Good+--+-- Numbers at type level.+--+-- This module provides extensions to "GHC.TypeLits" and "GHC.TypeNats" useful+-- to work with cryptographic algorithms parameterized with a variable bit+-- length. Constraints like @'IsDivisibleBy8' n@ ensure that the type-level+-- parameter is applicable to the algorithm.+--+-- Functions are also provided to test whether constraints are satisfied from+-- values known at runtime. The following example shows how to discharge+-- 'IsDivisibleBy8' in a computation @fn@ requiring this constraint:+--+-- > withDivisibleBy8 :: Integer+-- > -> (forall proxy n . (KnownNat n, IsDivisibleBy8 n) => proxy n -> a)+-- > -> Maybe a+-- > withDivisibleBy8 len fn = do+-- > SomeNat p <- someNatVal len+-- > Refl <- isDivisibleBy8 p+-- > pure (fn p)+--+-- Function @withDivisibleBy8@ above returns 'Nothing' when the argument @len@+-- is negative or not divisible by 8.+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE TypeOperators #-}+module Crypto.Number.Nat+ ( type IsDivisibleBy8+ , type IsAtMost, type IsAtLeast+ , isDivisibleBy8+ , isAtMost+ , isAtLeast+ ) where++import Data.Type.Equality+import GHC.TypeLits+import Unsafe.Coerce (unsafeCoerce)++import Crypto.Internal.Nat++-- | get a runtime proof that the constraint @'IsDivisibleBy8' n@ is satified+isDivisibleBy8 :: KnownNat n => proxy n -> Maybe (IsDiv8 n n :~: 'True)+isDivisibleBy8 n+ | mod (natVal n) 8 == 0 = Just (unsafeCoerce Refl)+ | otherwise = Nothing++-- | get a runtime proof that the constraint @'IsAtMost' value bound@ is+-- satified+isAtMost :: (KnownNat value, KnownNat bound)+ => proxy value -> proxy' bound -> Maybe ((value <=? bound) :~: 'True)+isAtMost x y+ | natVal x <= natVal y = Just (unsafeCoerce Refl)+ | otherwise = Nothing++-- | get a runtime proof that the constraint @'IsAtLeast' value bound@ is+-- satified+isAtLeast :: (KnownNat value, KnownNat bound)+ => proxy value -> proxy' bound -> Maybe ((bound <=? value) :~: 'True)+isAtLeast = flip isAtMost
Crypto/Number/Prime.hs view
@@ -19,45 +19,67 @@ , isCoprime ) where -import Crypto.Internal.Imports- import Crypto.Number.Compat import Crypto.Number.Generate import Crypto.Number.Basic (sqrti, gcde) import Crypto.Number.ModArithmetic (expSafe) import Crypto.Random.Types import Crypto.Random.Probabilistic+import Crypto.Error import Data.Bits --- | returns if the number is probably prime.--- first a list of small primes are implicitely tested for divisibility,+-- | Returns if the number is probably prime.+-- First a list of small primes are implicitely tested for divisibility, -- then a fermat primality test is used with arbitrary numbers and--- then the Miller Rabin algorithm is used with an accuracy of 30 recursions+-- then the Miller Rabin algorithm is used with an accuracy of 30 recursions. isProbablyPrime :: Integer -> Bool isProbablyPrime !n | any (\p -> p `divides` n) (filter (< n) firstPrimes) = False- | primalityTestFermat 50 (n`div`2) n = primalityTestMillerRabin 30 n+ | n >= 2 && n <= 2903 = True+ | primalityTestFermat 50 (n `div` 2) n = primalityTestMillerRabin 30 n | otherwise = False --- | generate a prime number of the required bitsize+-- | Generate a prime number of the required bitsize (i.e. in the range+-- [2^(b-1)+2^(b-2), 2^b)).+--+-- May throw a 'CryptoError_PrimeSizeInvalid' if the requested size is less+-- than 5 bits, as the smallest prime meeting these conditions is 29.+-- This function requires that the two highest bits are set, so that when+-- multiplied with another prime to create a key, it is guaranteed to be of+-- the proper size. generatePrime :: MonadRandom m => Int -> m Integer generatePrime bits = do- sp <- generateParams bits (Just SetTwoHighest) True- return $ findPrimeFrom sp+ if bits < 5 then+ throwCryptoError $ CryptoFailed $ CryptoError_PrimeSizeInvalid+ else do+ sp <- generateParams bits (Just SetTwoHighest) True+ let prime = findPrimeFrom sp+ if prime < 1 `shiftL` bits then+ return $ prime+ else generatePrime bits --- | generate a prime number of the form 2p+1 where p is also prime.+-- | Generate a prime number of the form 2p+1 where p is also prime. -- it is also knowed as a Sophie Germaine prime or safe prime. -- -- The number of safe prime is significantly smaller to the number of prime, -- as such it shouldn't be used if this number is supposed to be kept safe.+--+-- May throw a 'CryptoError_PrimeSizeInvalid' if the requested size is less than+-- 6 bits, as the smallest safe prime with the two highest bits set is 59. generateSafePrime :: MonadRandom m => Int -> m Integer generateSafePrime bits = do- sp <- generateParams bits (Just SetTwoHighest) True- let p = findPrimeFromWith (\i -> isProbablyPrime (2*i+1)) (sp `div` 2)- return (2*p+1)+ if bits < 6 then+ throwCryptoError $ CryptoFailed $ CryptoError_PrimeSizeInvalid+ else do+ sp <- generateParams bits (Just SetTwoHighest) True+ let p = findPrimeFromWith (\i -> isProbablyPrime (2*i+1)) (sp `div` 2)+ let val = 2 * p + 1+ if val < 1 `shiftL` bits then+ return $ val+ else generateSafePrime bits --- | find a prime from a starting point where the property hold.+-- | Find a prime from a starting point where the property hold. findPrimeFromWith :: (Integer -> Bool) -> Integer -> Integer findPrimeFromWith prop !n | even n = findPrimeFromWith prop (n+1)@@ -69,7 +91,7 @@ then n else findPrimeFromWith prop (n+2) --- | find a prime from a starting point with no specific property.+-- | Find a prime from a starting point with no specific property. findPrimeFrom :: Integer -> Integer findPrimeFrom n = case gmpNextPrime n of@@ -105,7 +127,7 @@ factorise :: Integer -> Integer -> (Integer, Integer) factorise !si !vi | vi `testBit` 0 = (si, vi)- | otherwise = factorise (si+1) (vi `shiftR` 1) -- probably faster to not shift v continously, but just once.+ | otherwise = factorise (si+1) (vi `shiftR` 1) -- probably faster to not shift v continuously, but just once. expmod = expSafe -- when iteration reach zero, we have a probable prime@@ -161,7 +183,7 @@ isCoprime :: Integer -> Integer -> Bool isCoprime m n = case gcde m n of (_,_,d) -> d == 1 --- | list of the first primes till 2903..+-- | List of the first primes till 2903. firstPrimes :: [Integer] firstPrimes = [ 2 , 3 , 5 , 7 , 11 , 13 , 17 , 19 , 23 , 29
Crypto/Number/Serialize.hs view
@@ -5,7 +5,7 @@ -- Stability : experimental -- Portability : Good ----- fast serialization primitives for integer+-- Fast serialization primitives for integer {-# LANGUAGE BangPatterns #-} module Crypto.Number.Serialize ( i2osp@@ -19,22 +19,23 @@ import qualified Crypto.Internal.ByteArray as B import qualified Crypto.Number.Serialize.Internal as Internal --- | os2ip converts a byte string into a positive integer+-- | @os2ip@ converts a byte string into a positive integer. os2ip :: B.ByteArrayAccess ba => ba -> Integer os2ip bs = unsafeDoIO $ B.withByteArray bs (\p -> Internal.os2ip p (B.length bs)) --- | i2osp converts a positive integer into a byte string+-- | @i2osp@ converts a positive integer into a byte string. ----- first byte is MSB (most significant byte), last byte is the LSB (least significant byte)+-- The first byte is MSB (most significant byte); the last byte is the LSB (least significant byte) i2osp :: B.ByteArray ba => Integer -> ba i2osp 0 = B.allocAndFreeze 1 (\p -> Internal.i2osp 0 p 1 >> return ()) i2osp m = B.allocAndFreeze sz (\p -> Internal.i2osp m p sz >> return ()) where !sz = numBytes m --- | just like i2osp, but take an extra parameter for size.--- if the number is too big to fit in @len@ bytes, 'Nothing' is returned+-- | Just like 'i2osp', but takes an extra parameter for size.+-- If the number is too big to fit in @len@ bytes, 'Nothing' is returned -- otherwise the number is padded with 0 to fit the @len@ required.+{-# INLINABLE i2ospOf #-} i2ospOf :: B.ByteArray ba => Int -> Integer -> Maybe ba i2ospOf len m | len <= 0 = Nothing@@ -44,10 +45,10 @@ where !sz = numBytes m --- | just like i2ospOf except that it doesn't expect a failure: i.e.--- an integer larger than the number of output bytes requested+-- | Just like 'i2ospOf' except that it doesn't expect a failure: i.e.+-- an integer larger than the number of output bytes requested. ----- for example if you just took a modulo of the number that represent+-- For example if you just took a modulo of the number that represent -- the size (example the RSA modulo n). i2ospOf_ :: B.ByteArray ba => Int -> Integer -> ba i2ospOf_ len = maybe (error "i2ospOf_: integer is larger than expected") id . i2ospOf len
Crypto/Number/Serialize/Internal.hs view
@@ -5,7 +5,7 @@ -- Stability : experimental -- Portability : Good ----- fast serialization primitives for integer using raw pointers+-- Fast serialization primitives for integer using raw pointers {-# LANGUAGE BangPatterns #-} module Crypto.Number.Serialize.Internal ( i2osp@@ -21,12 +21,12 @@ import Foreign.Ptr import Foreign.Storable --- | fill a pointer with the big endian binary representation of an integer+-- | Fill a pointer with the big endian binary representation of an integer ----- if the room available @ptrSz is less than the number of bytes needed,+-- If the room available @ptrSz@ is less than the number of bytes needed, -- 0 is returned. Likewise if a parameter is invalid, 0 is returned. ----- returns the number of bytes written+-- Returns the number of bytes written i2osp :: Integer -> Ptr Word8 -> Int -> IO Int i2osp m ptr ptrSz | ptrSz <= 0 = return 0@@ -61,7 +61,7 @@ pokeByteOff p ofs (fromIntegral b :: Word8) export (ofs-1) i' --- | transform a big endian binary integer representation pointed by a pointer and a size+-- | Transform a big endian binary integer representation pointed by a pointer and a size -- into an integer os2ip :: Ptr Word8 -> Int -> IO Integer os2ip ptr ptrSz@@ -69,7 +69,7 @@ | otherwise = gmpImportInteger ptrSz ptr `onGmpUnsupported` loop 0 0 ptr where loop :: Integer -> Int -> Ptr Word8 -> IO Integer- loop !acc i p+ loop !acc i !p | i == ptrSz = return acc | otherwise = do w <- peekByteOff p i :: IO Word8
+ Crypto/Number/Serialize/Internal/LE.hs view
@@ -0,0 +1,75 @@+-- |+-- Module : Crypto.Number.Serialize.Internal.LE+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : Good+--+-- Fast serialization primitives for integer using raw pointers (little endian)+{-# LANGUAGE BangPatterns #-}+module Crypto.Number.Serialize.Internal.LE+ ( i2osp+ , i2ospOf+ , os2ip+ ) where++import Crypto.Number.Compat+import Crypto.Number.Basic+import Data.Bits+import Data.Memory.PtrMethods+import Data.Word (Word8)+import Foreign.Ptr+import Foreign.Storable++-- | Fill a pointer with the little endian binary representation of an integer+--+-- If the room available @ptrSz@ is less than the number of bytes needed,+-- 0 is returned. Likewise if a parameter is invalid, 0 is returned.+--+-- Returns the number of bytes written+i2osp :: Integer -> Ptr Word8 -> Int -> IO Int+i2osp m ptr ptrSz+ | ptrSz <= 0 = return 0+ | m < 0 = return 0+ | m == 0 = pokeByteOff ptr 0 (0 :: Word8) >> return 1+ | ptrSz < sz = return 0+ | otherwise = fillPtr ptr sz m >> return sz+ where+ !sz = numBytes m++-- | Similar to 'i2osp', except it will pad any remaining space with zero.+i2ospOf :: Integer -> Ptr Word8 -> Int -> IO Int+i2ospOf m ptr ptrSz+ | ptrSz <= 0 = return 0+ | m < 0 = return 0+ | ptrSz < sz = return 0+ | otherwise = do+ memSet ptr 0 ptrSz+ fillPtr ptr sz m+ return ptrSz+ where+ !sz = numBytes m++fillPtr :: Ptr Word8 -> Int -> Integer -> IO ()+fillPtr p sz m = gmpExportIntegerLE m p `onGmpUnsupported` export 0 m+ where+ export ofs i+ | ofs >= sz = return ()+ | otherwise = do+ let (i', b) = i `divMod` 256+ pokeByteOff p ofs (fromIntegral b :: Word8)+ export (ofs+1) i'++-- | Transform a little endian binary integer representation pointed by a+-- pointer and a size into an integer+os2ip :: Ptr Word8 -> Int -> IO Integer+os2ip ptr ptrSz+ | ptrSz <= 0 = return 0+ | otherwise = gmpImportIntegerLE ptrSz ptr `onGmpUnsupported` loop 0 (ptrSz-1) ptr+ where+ loop :: Integer -> Int -> Ptr Word8 -> IO Integer+ loop !acc i !p+ | i < 0 = return acc+ | otherwise = do+ w <- peekByteOff p i :: IO Word8+ loop ((acc `shiftL` 8) .|. fromIntegral w) (i-1) p
+ Crypto/Number/Serialize/LE.hs view
@@ -0,0 +1,54 @@+-- |+-- Module : Crypto.Number.Serialize.LE+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : Good+--+-- Fast serialization primitives for integer (little endian)+{-# LANGUAGE BangPatterns #-}+module Crypto.Number.Serialize.LE+ ( i2osp+ , os2ip+ , i2ospOf+ , i2ospOf_+ ) where++import Crypto.Number.Basic+import Crypto.Internal.Compat (unsafeDoIO)+import qualified Crypto.Internal.ByteArray as B+import qualified Crypto.Number.Serialize.Internal.LE as Internal++-- | @os2ip@ converts a byte string into a positive integer.+os2ip :: B.ByteArrayAccess ba => ba -> Integer+os2ip bs = unsafeDoIO $ B.withByteArray bs (\p -> Internal.os2ip p (B.length bs))++-- | @i2osp@ converts a positive integer into a byte string.+--+-- The first byte is LSB (least significant byte); the last byte is the MSB (most significant byte)+i2osp :: B.ByteArray ba => Integer -> ba+i2osp 0 = B.allocAndFreeze 1 (\p -> Internal.i2osp 0 p 1 >> return ())+i2osp m = B.allocAndFreeze sz (\p -> Internal.i2osp m p sz >> return ())+ where+ !sz = numBytes m++-- | Just like 'i2osp', but takes an extra parameter for size.+-- If the number is too big to fit in @len@ bytes, 'Nothing' is returned+-- otherwise the number is padded with 0 to fit the @len@ required.+{-# INLINABLE i2ospOf #-}+i2ospOf :: B.ByteArray ba => Int -> Integer -> Maybe ba+i2ospOf len m+ | len <= 0 = Nothing+ | m < 0 = Nothing+ | sz > len = Nothing+ | otherwise = Just $ B.unsafeCreate len (\p -> Internal.i2ospOf m p len >> return ())+ where+ !sz = numBytes m++-- | Just like 'i2ospOf' except that it doesn't expect a failure: i.e.+-- an integer larger than the number of output bytes requested.+--+-- For example if you just took a modulo of the number that represent+-- the size (example the RSA modulo n).+i2ospOf_ :: B.ByteArray ba => Int -> Integer -> ba+i2ospOf_ len = maybe (error "i2ospOf_: integer is larger than expected") id . i2ospOf len
+ Crypto/OTP.hs view
@@ -0,0 +1,178 @@+{-# LANGUAGE ScopedTypeVariables #-}++-- | One-time password implementation as defined by the+-- <http://tools.ietf.org/html/rfc4226 HOTP> and <http://tools.ietf.org/html/rfc6238 TOTP>+-- specifications.+--+-- Both implementations use a shared key between the client and the server. HOTP passwords+-- are based on a synchronized counter. TOTP passwords use the same approach but calculate+-- the counter as a number of time steps from the Unix epoch to the current time, thus+-- requiring that both client and server have synchronized clocks.+--+-- Probably the best-known use of TOTP is in Google's 2-factor authentication.+--+-- The TOTP API doesn't depend on any particular time package, so the user needs to supply+-- the current @OTPTime@ value, based on the system time. For example, using the @hourglass@+-- package, you could create a @getOTPTime@ function:+--+-- >>> import Time.System+-- >>> import Time.Types+-- >>>+-- >>> let getOTPTime = timeCurrent >>= \(Elapsed t) -> return (fromIntegral t :: OTPTime)+--+-- Or if you prefer, the @time@ package could be used:+--+-- >>> import Data.Time.Clock.POSIX+-- >>>+-- >>> let getOTPTime = getPOSIXTime >>= \t -> return (floor t :: OTPTime)+--++module Crypto.OTP+ ( OTP+ , OTPDigits (..)+ , OTPTime+ , hotp+ , resynchronize+ , totp+ , totpVerify+ , TOTPParams+ , ClockSkew (..)+ , defaultTOTPParams+ , mkTOTPParams+ )+where++import Data.Bits (shiftL, (.&.), (.|.))+import Data.ByteArray.Mapping (fromW64BE)+import Data.List (elemIndex)+import Data.Word+import Control.Monad (unless)+import Crypto.Hash (HashAlgorithm, SHA1(..))+import Crypto.MAC.HMAC+import Crypto.Internal.ByteArray (ByteArrayAccess, Bytes)+import qualified Crypto.Internal.ByteArray as B+++-- | A one-time password which is a sequence of 4 to 9 digits.+type OTP = Word32++-- | The strength of the calculated HOTP value, namely+-- the number of digits (between 4 and 9) in the extracted value.+data OTPDigits = OTP4 | OTP5 | OTP6 | OTP7 | OTP8 | OTP9 deriving (Show)++-- | An integral time value in seconds.+type OTPTime = Word64++hotp :: forall hash key. (HashAlgorithm hash, ByteArrayAccess key)+ => hash+ -> OTPDigits+ -- ^ Number of digits in the HOTP value extracted from the calculated HMAC+ -> key+ -- ^ Shared secret between the client and server+ -> Word64+ -- ^ Counter value synchronized between the client and server+ -> OTP+ -- ^ The HOTP value+hotp _ d k c = dt `mod` digitsPower d+ where+ mac = hmac k (fromW64BE c :: Bytes) :: HMAC hash+ offset = fromIntegral (B.index mac (B.length mac - 1) .&. 0xf)+ dt = (fromIntegral (B.index mac offset .&. 0x7f) `shiftL` 24) .|.+ (fromIntegral (B.index mac (offset + 1) .&. 0xff) `shiftL` 16) .|.+ (fromIntegral (B.index mac (offset + 2) .&. 0xff) `shiftL` 8) .|.+ fromIntegral (B.index mac (offset + 3) .&. 0xff)++-- | Attempt to resynchronize the server's counter value+-- with the client, given a sequence of HOTP values.+resynchronize :: (HashAlgorithm hash, ByteArrayAccess key)+ => hash+ -> OTPDigits+ -> Word16+ -- ^ The look-ahead window parameter. Up to this many values will+ -- be calculated and checked against the value(s) submitted by the client+ -> key+ -- ^ The shared secret+ -> Word64+ -- ^ The current server counter value+ -> (OTP, [OTP])+ -- ^ The first OTP submitted by the client and a list of additional+ -- sequential OTPs (which may be empty)+ -> Maybe Word64+ -- ^ The new counter value, synchronized with the client's current counter+ -- or Nothing if the submitted OTP values didn't match anywhere within the window+resynchronize h d s k c (p1, extras) = do+ offBy <- fmap fromIntegral (elemIndex p1 range)+ checkExtraOtps (c + offBy + 1) extras+ where+ checkExtraOtps ctr [] = Just ctr+ checkExtraOtps ctr (p:ps)+ | hotp h d k ctr /= p = Nothing+ | otherwise = checkExtraOtps (ctr + 1) ps++ range = map (hotp h d k)[c..c + fromIntegral s]++digitsPower :: OTPDigits -> Word32+digitsPower OTP4 = 10000+digitsPower OTP5 = 100000+digitsPower OTP6 = 1000000+digitsPower OTP7 = 10000000+digitsPower OTP8 = 100000000+digitsPower OTP9 = 1000000000+++data TOTPParams h = TP !h !OTPTime !Word16 !OTPDigits !ClockSkew deriving (Show)++data ClockSkew = NoSkew | OneStep | TwoSteps | ThreeSteps | FourSteps deriving (Enum, Show)++-- | The default TOTP configuration.+defaultTOTPParams :: TOTPParams SHA1+defaultTOTPParams = TP SHA1 0 30 OTP6 TwoSteps++-- | Create a TOTP configuration with customized parameters.+mkTOTPParams :: (HashAlgorithm hash)+ => hash+ -> OTPTime+ -- ^ The T0 parameter in seconds. This is the Unix time from which to start+ -- counting steps (default 0). Must be before the current time.+ -> Word16+ -- ^ The time step parameter X in seconds (default 30, maximum allowed 300)+ -> OTPDigits+ -- ^ Number of required digits in the OTP (default 6)+ -> ClockSkew+ -- ^ The number of time steps to check either side of the current value+ -- to allow for clock skew between client and server and or delay in+ -- submitting the value. The default is two time steps.+ -> Either String (TOTPParams hash)+mkTOTPParams h t0 x d skew = do+ unless (x > 0) (Left "Time step must be greater than zero")+ unless (x <= 300) (Left "Time step cannot be greater than 300 seconds")+ return (TP h t0 x d skew)++-- | Calculate a totp value for the given time.+totp :: (HashAlgorithm hash, ByteArrayAccess key)+ => TOTPParams hash+ -> key+ -- ^ The shared secret+ -> OTPTime+ -- ^ The time for which the OTP should be calculated.+ -- This is usually the current time as returned by @Data.Time.Clock.POSIX.getPOSIXTime@+ -> OTP+totp (TP h t0 x d _) k now = hotp h d k (timeToCounter now t0 x)++-- | Check a supplied TOTP value is valid for the given time,+-- within the window defined by the skew parameter.+totpVerify :: (HashAlgorithm hash, ByteArrayAccess key)+ => TOTPParams hash+ -> key+ -> OTPTime+ -> OTP+ -> Bool+totpVerify (TP h t0 x d skew) k now otp = otp `elem` map (hotp h d k) (range window [])+ where+ t = timeToCounter now t0 x+ window = fromIntegral (fromEnum skew)+ range 0 acc = t : acc+ range n acc = range (n-1) ((t-n) : (t+n) : acc)++timeToCounter :: Word64 -> Word64 -> Word16 -> Word64+timeToCounter now t0 x = (now - t0) `div` fromIntegral x
Crypto/PubKey/Curve25519.hs view
@@ -9,6 +9,7 @@ -- {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE MagicHash #-}+{-# LANGUAGE ScopedTypeVariables #-} module Crypto.PubKey.Curve25519 ( SecretKey , PublicKey@@ -17,13 +18,16 @@ , dhSecret , publicKey , secretKey- -- * methods+ -- * Methods , dh , toPublic+ , generateSecretKey ) where +import Data.Bits import Data.Word import Foreign.Ptr+import Foreign.Storable import GHC.Ptr import Crypto.Error@@ -31,6 +35,7 @@ import Crypto.Internal.Imports import Crypto.Internal.ByteArray (ByteArrayAccess, ScrubbedBytes, Bytes, withByteArray) import qualified Crypto.Internal.ByteArray as B+import Crypto.Random -- | A Curve25519 Secret key newtype SecretKey = SecretKey ScrubbedBytes@@ -86,7 +91,10 @@ | B.length bs == 32 = CryptoPassed $ DhSecret $ B.copyAndFreeze bs (\_ -> return ()) | otherwise = CryptoFailed CryptoError_SharedSecretSizeInvalid --- | Compute the Diffie Hellman secret from a public key and a secret key+-- | Compute the Diffie Hellman secret from a public key and a secret key.+--+-- This implementation may return an all-zero value as it does not check for+-- the condition. dh :: PublicKey -> SecretKey -> DhSecret dh (PublicKey pub) (SecretKey sec) = DhSecret <$> B.allocAndFreeze 32 $ \result ->@@ -104,6 +112,18 @@ where basePoint = Ptr "\x09\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"# {-# NOINLINE toPublic #-}++-- | Generate a secret key.+generateSecretKey :: MonadRandom m => m SecretKey+generateSecretKey = tweakToSecretKey <$> getRandomBytes 32+ where+ tweakToSecretKey :: ScrubbedBytes -> SecretKey+ tweakToSecretKey bin = SecretKey $ B.copyAndFreeze bin $ \inp -> do+ modifyByte inp 0 (\e0 -> e0 .&. 0xf8)+ modifyByte inp 31 (\e31 -> (e31 .&. 0x7f) .|. 0x40)++ modifyByte :: Ptr Word8 -> Int -> (Word8 -> Word8) -> IO ()+ modifyByte p n f = peekByteOff p n >>= pokeByteOff p n . f foreign import ccall "cryptonite_curve25519_donna" ccryptonite_curve25519 :: Ptr Word8 -- ^ public
+ Crypto/PubKey/Curve448.hs view
@@ -0,0 +1,116 @@+-- |+-- Module : Crypto.PubKey.Curve448+-- License : BSD-style+-- Maintainer : John Galt <jgalt@centromere.net>+-- Stability : experimental+-- Portability : unknown+--+-- Curve448 support+--+-- Internally uses Decaf point compression to omit the cofactor+-- and implementation by Mike Hamburg. Externally API and+-- data types are compatible with the encoding specified in RFC 7748.+--+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+module Crypto.PubKey.Curve448+ ( SecretKey+ , PublicKey+ , DhSecret+ -- * Smart constructors+ , dhSecret+ , publicKey+ , secretKey+ -- * Methods+ , dh+ , toPublic+ , generateSecretKey+ ) where++import Data.Word+import Foreign.Ptr++import Crypto.Error+import Crypto.Random+import Crypto.Internal.Compat+import Crypto.Internal.Imports+import Crypto.Internal.ByteArray (ByteArrayAccess, ScrubbedBytes, Bytes, withByteArray)+import qualified Crypto.Internal.ByteArray as B++-- | A Curve448 Secret key+newtype SecretKey = SecretKey ScrubbedBytes+ deriving (Show,Eq,ByteArrayAccess,NFData)++-- | A Curve448 public key+newtype PublicKey = PublicKey Bytes+ deriving (Show,Eq,ByteArrayAccess,NFData)++-- | A Curve448 Diffie Hellman secret related to a+-- public key and a secret key.+newtype DhSecret = DhSecret ScrubbedBytes+ deriving (Show,Eq,ByteArrayAccess,NFData)++-- | Try to build a public key from a bytearray+publicKey :: ByteArrayAccess bs => bs -> CryptoFailable PublicKey+publicKey bs+ | B.length bs == x448_bytes = CryptoPassed $ PublicKey $ B.copyAndFreeze bs (\_ -> return ())+ | otherwise = CryptoFailed CryptoError_PublicKeySizeInvalid++-- | Try to build a secret key from a bytearray+secretKey :: ByteArrayAccess bs => bs -> CryptoFailable SecretKey+secretKey bs+ | B.length bs == x448_bytes = unsafeDoIO $+ withByteArray bs $ \inp -> do+ valid <- isValidPtr inp+ if valid+ then (CryptoPassed . SecretKey) <$> B.copy bs (\_ -> return ())+ else return $ CryptoFailed CryptoError_SecretKeyStructureInvalid+ | otherwise = CryptoFailed CryptoError_SecretKeySizeInvalid+ where+ isValidPtr :: Ptr Word8 -> IO Bool+ isValidPtr _ =+ return True+{-# NOINLINE secretKey #-}++-- | Create a DhSecret from a bytearray object+dhSecret :: ByteArrayAccess b => b -> CryptoFailable DhSecret+dhSecret bs+ | B.length bs == x448_bytes = CryptoPassed $ DhSecret $ B.copyAndFreeze bs (\_ -> return ())+ | otherwise = CryptoFailed CryptoError_SharedSecretSizeInvalid++-- | Compute the Diffie Hellman secret from a public key and a secret key.+--+-- This implementation may return an all-zero value as it does not check for+-- the condition.+dh :: PublicKey -> SecretKey -> DhSecret+dh (PublicKey pub) (SecretKey sec) = DhSecret <$>+ B.allocAndFreeze x448_bytes $ \result ->+ withByteArray sec $ \psec ->+ withByteArray pub $ \ppub ->+ decaf_x448 result ppub psec+{-# NOINLINE dh #-}++-- | Create a public key from a secret key+toPublic :: SecretKey -> PublicKey+toPublic (SecretKey sec) = PublicKey <$>+ B.allocAndFreeze x448_bytes $ \result ->+ withByteArray sec $ \psec ->+ decaf_x448_derive_public_key result psec+{-# NOINLINE toPublic #-}++-- | Generate a secret key.+generateSecretKey :: MonadRandom m => m SecretKey+generateSecretKey = SecretKey <$> getRandomBytes x448_bytes++x448_bytes :: Int+x448_bytes = 448 `quot` 8++foreign import ccall "cryptonite_decaf_x448"+ decaf_x448 :: Ptr Word8 -- ^ public+ -> Ptr Word8 -- ^ basepoint+ -> Ptr Word8 -- ^ secret+ -> IO ()++foreign import ccall "cryptonite_decaf_x448_derive_public_key"+ decaf_x448_derive_public_key :: Ptr Word8 -- ^ public+ -> Ptr Word8 -- ^ secret+ -> IO ()
Crypto/PubKey/DH.hs view
@@ -33,19 +33,22 @@ { params_p :: Integer , params_g :: Integer , params_bits :: Int- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) +instance NFData Params where+ rnf (Params p g bits) = rnf p `seq` rnf g `seq` bits `seq` ()+ -- | Represent Diffie Hellman public number Y. newtype PublicNumber = PublicNumber Integer- deriving (Show,Read,Eq,Enum,Real,Num,Ord)+ deriving (Show,Read,Eq,Enum,Real,Num,Ord,NFData) -- | Represent Diffie Hellman private number X. newtype PrivateNumber = PrivateNumber Integer- deriving (Show,Read,Eq,Enum,Real,Num,Ord)+ deriving (Show,Read,Eq,Enum,Real,Num,Ord,NFData) -- | Represent Diffie Hellman shared secret. newtype SharedKey = SharedKey ScrubbedBytes- deriving (Show,Eq,ByteArrayAccess)+ deriving (Show,Eq,ByteArrayAccess,NFData) -- | generate params from a specific generator (2 or 5 are common values) -- we generate a safe prime (a prime number of the form 2p+1 where p is also prime)
Crypto/PubKey/DSA.hs view
@@ -14,13 +14,13 @@ , PrivateKey(..) , PublicNumber , PrivateNumber- -- * generation+ -- * Generation , generatePrivate , calculatePublic- -- * signature primitive+ -- * Signature primitive , sign , signWith- -- * verification primitive+ -- * Verification primitive , verify -- * Key pair , KeyPair(..)@@ -28,19 +28,18 @@ , toPrivateKey ) where -import Crypto.Random.Types-import Data.Bits (testBit)-import Data.Data-import Data.Maybe-import Crypto.Number.Basic (numBits)-import Crypto.Number.ModArithmetic (expFast, expSafe, inverse)-import Crypto.Number.Serialize-import Crypto.Number.Generate-import Crypto.Internal.ByteArray (ByteArrayAccess(length), convert, index, dropView, takeView)-import Crypto.Internal.Imports-import Crypto.Hash-import Prelude hiding (length) +import Data.Data+import Data.Maybe++import Crypto.Number.ModArithmetic (expFast, expSafe, inverse)+import Crypto.Number.Generate+import Crypto.Internal.ByteArray (ByteArrayAccess)+import Crypto.Internal.Imports+import Crypto.Hash+import Crypto.PubKey.Internal (dsaTruncHash)+import Crypto.Random.Types+ -- | DSA Public Number, usually embedded in DSA Public Key type PublicNumber = Integer @@ -52,7 +51,7 @@ { params_p :: Integer -- ^ DSA p , params_g :: Integer -- ^ DSA g , params_q :: Integer -- ^ DSA q- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) instance NFData Params where rnf (Params p g q) = p `seq` g `seq` q `seq` ()@@ -61,7 +60,7 @@ data Signature = Signature { sign_r :: Integer -- ^ DSA r , sign_s :: Integer -- ^ DSA s- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) instance NFData Signature where rnf (Signature r s) = r `seq` s `seq` ()@@ -70,7 +69,7 @@ data PublicKey = PublicKey { public_params :: Params -- ^ DSA parameters , public_y :: PublicNumber -- ^ DSA public Y- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) instance NFData PublicKey where rnf (PublicKey params y) = y `seq` params `seq` ()@@ -82,14 +81,14 @@ data PrivateKey = PrivateKey { private_params :: Params -- ^ DSA parameters , private_x :: PrivateNumber -- ^ DSA private X- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) instance NFData PrivateKey where rnf (PrivateKey params x) = x `seq` params `seq` () -- | Represent a DSA key pair data KeyPair = KeyPair Params PublicNumber PrivateNumber- deriving (Show,Read,Eq,Data,Typeable)+ deriving (Show,Read,Eq,Data) instance NFData KeyPair where rnf (KeyPair params y x) = x `seq` y `seq` params `seq` ()@@ -126,7 +125,7 @@ x = private_x pk -- compute r,s kInv = fromJust $ inverse k q- hm = os2ip $ hashWith hashAlg msg+ hm = dsaTruncHash hashAlg msg q r = expSafe g k p `mod` q s = (kInv * (hm + x * r)) `mod` q @@ -148,11 +147,8 @@ | otherwise = v == r where (Params p g q) = public_params pk y = public_y pk- hm = os2ip . truncateHash $ hashWith hashAlg m-+ hm = dsaTruncHash hashAlg m q w = fromJust $ inverse s q u1 = (hm*w) `mod` q u2 = (r*w) `mod` q v = ((expFast g u1 p) * (expFast y u2 p)) `mod` p `mod` q- -- if the hash is larger than the size of q, truncate it; FIXME: deal with the case of a q not evenly divisible by 8- truncateHash h = if numBits (os2ip h) > numBits q then takeView h (numBits q `div` 8) else dropView h 0
Crypto/PubKey/ECC/ECDSA.hs view
@@ -11,43 +11,46 @@ , toPublicKey , toPrivateKey , signWith+ , signDigestWith , sign+ , signDigest , verify+ , verifyDigest ) where import Control.Monad-import Crypto.Random.Types-import Data.Bits (shiftR)-import Crypto.Internal.ByteArray (ByteArrayAccess) import Data.Data++import Crypto.Hash+import Crypto.Internal.ByteArray (ByteArrayAccess) import Crypto.Number.ModArithmetic (inverse)-import Crypto.Number.Serialize import Crypto.Number.Generate import Crypto.PubKey.ECC.Types import Crypto.PubKey.ECC.Prim-import Crypto.Hash+import Crypto.PubKey.Internal (dsaTruncHashDigest)+import Crypto.Random.Types -- | Represent a ECDSA signature namely R and S. data Signature = Signature { sign_r :: Integer -- ^ ECDSA r , sign_s :: Integer -- ^ ECDSA s- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) -- | ECDSA Private Key. data PrivateKey = PrivateKey { private_curve :: Curve , private_d :: PrivateNumber- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) -- | ECDSA Public Key. data PublicKey = PublicKey { public_curve :: Curve , public_q :: PublicPoint- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) -- | ECDSA Key Pair. data KeyPair = KeyPair Curve PublicPoint PrivateNumber- deriving (Show,Read,Eq,Data,Typeable)+ deriving (Show,Read,Eq,Data) -- | Public key of a ECDSA Key pair. toPublicKey :: KeyPair -> PublicKey@@ -57,17 +60,16 @@ toPrivateKey :: KeyPair -> PrivateKey toPrivateKey (KeyPair curve _ priv) = PrivateKey curve priv --- | Sign message using the private key and an explicit k number.+-- | Sign digest using the private key and an explicit k number. -- -- /WARNING:/ Vulnerable to timing attacks.-signWith :: (ByteArrayAccess msg, HashAlgorithm hash)- => Integer -- ^ k random number- -> PrivateKey -- ^ private key- -> hash -- ^ hash function- -> msg -- ^ message to sign- -> Maybe Signature-signWith k (PrivateKey curve d) hashAlg msg = do- let z = tHash hashAlg msg n+signDigestWith :: HashAlgorithm hash+ => Integer -- ^ k random number+ -> PrivateKey -- ^ private key+ -> Digest hash -- ^ digest to sign+ -> Maybe Signature+signDigestWith k (PrivateKey curve d) digest = do+ let z = dsaTruncHashDigest digest n CurveCommon _ _ g n _ = common_curve curve let point = pointMul curve k g r <- case point of@@ -78,32 +80,47 @@ when (r == 0 || s == 0) Nothing return $ Signature r s --- | Sign message using the private key.+-- | Sign message using the private key and an explicit k number. -- -- /WARNING:/ Vulnerable to timing attacks.-sign :: (ByteArrayAccess msg, HashAlgorithm hash, MonadRandom m)- => PrivateKey -> hash -> msg -> m Signature-sign pk hashAlg msg = do+signWith :: (ByteArrayAccess msg, HashAlgorithm hash)+ => Integer -- ^ k random number+ -> PrivateKey -- ^ private key+ -> hash -- ^ hash function+ -> msg -- ^ message to sign+ -> Maybe Signature+signWith k pk hashAlg msg = signDigestWith k pk (hashWith hashAlg msg)++-- | Sign digest using the private key.+--+-- /WARNING:/ Vulnerable to timing attacks.+signDigest :: (HashAlgorithm hash, MonadRandom m)+ => PrivateKey -> Digest hash -> m Signature+signDigest pk digest = do k <- generateBetween 1 (n - 1)- case signWith k pk hashAlg msg of- Nothing -> sign pk hashAlg msg+ case signDigestWith k pk digest of+ Nothing -> signDigest pk digest Just sig -> return sig where n = ecc_n . common_curve $ private_curve pk --- | Verify a bytestring using the public key.-verify :: (ByteArrayAccess msg, HashAlgorithm hash) => hash -> PublicKey -> Signature -> msg -> Bool-verify _ (PublicKey _ PointO) _ _ = False-verify hashAlg pk@(PublicKey curve q) (Signature r s) msg+-- | Sign message using the private key.+--+-- /WARNING:/ Vulnerable to timing attacks.+sign :: (ByteArrayAccess msg, HashAlgorithm hash, MonadRandom m)+ => PrivateKey -> hash -> msg -> m Signature+sign pk hashAlg msg = signDigest pk (hashWith hashAlg msg)++-- | Verify a digest using the public key.+verifyDigest :: HashAlgorithm hash => PublicKey -> Signature -> Digest hash -> Bool+verifyDigest (PublicKey _ PointO) _ _ = False+verifyDigest pk@(PublicKey curve q) (Signature r s) digest | r < 1 || r >= n || s < 1 || s >= n = False | otherwise = maybe False (r ==) $ do w <- inverse s n- let z = tHash hashAlg msg n+ let z = dsaTruncHashDigest digest n u1 = z * w `mod` n u2 = r * w `mod` n- -- TODO: Use Shamir's trick- g' = pointMul curve u1 g- q' = pointMul curve u2 q- x = pointAdd curve g' q'+ x = pointAddTwoMuls curve u1 g u2 q case x of PointO -> Nothing Point x1 _ -> return $ x1 `mod` n@@ -111,11 +128,6 @@ g = ecc_g cc cc = common_curve $ public_curve pk --- | Truncate and hash.-tHash :: (ByteArrayAccess msg, HashAlgorithm hash) => hash -> msg -> Integer -> Integer-tHash hashAlg m n- | d > 0 = shiftR e d- | otherwise = e- where e = os2ip $ hashWith hashAlg m- d = log2 e - log2 n- log2 = ceiling . logBase (2 :: Double) . fromIntegral+-- | Verify a bytestring using the public key.+verify :: (ByteArrayAccess msg, HashAlgorithm hash) => hash -> PublicKey -> Signature -> msg -> Bool+verify hashAlg pk sig msg = verifyDigest pk sig (hashWith hashAlg msg)
Crypto/PubKey/ECC/P256.hs view
@@ -8,30 +8,37 @@ -- P256 support -- {-# LANGUAGE GeneralizedNewtypeDeriving #-}-{-# LANGUAGE BangPatterns #-} {-# LANGUAGE EmptyDataDecls #-} {-# OPTIONS_GHC -fno-warn-unused-binds #-} module Crypto.PubKey.ECC.P256 ( Scalar , Point- -- * point arithmetic+ -- * Point arithmetic , pointBase , pointAdd+ , pointNegate , pointMul+ , pointDh , pointsMulVarTime , pointIsValid+ , pointIsAtInfinity , toPoint+ , pointX , pointToIntegers , pointFromIntegers , pointToBinary , pointFromBinary- -- * scalar arithmetic+ , unsafePointFromBinary+ -- * Scalar arithmetic , scalarGenerate , scalarZero+ , scalarN , scalarIsZero , scalarAdd , scalarSub+ , scalarMul , scalarInv+ , scalarInvSafe , scalarCmp , scalarFromBinary , scalarToBinary@@ -42,7 +49,6 @@ import Data.Word import Foreign.Ptr import Foreign.C.Types-import Control.Monad import Crypto.Internal.Compat import Crypto.Internal.Imports@@ -56,11 +62,11 @@ -- | A P256 scalar newtype Scalar = Scalar ScrubbedBytes- deriving (Eq,ByteArrayAccess)+ deriving (Show,Eq,ByteArrayAccess,NFData) -- | A P256 point newtype Point = Point Bytes- deriving (Show,Eq)+ deriving (Show,Eq,NFData) scalarSize :: Int scalarSize = 32@@ -74,6 +80,9 @@ data P256Y data P256X +order :: Integer+order = 0xffffffff00000000ffffffffffffffffbce6faada7179e84f3b9cac2fc632551+ ------------------------------------------------------------------------ -- Point methods ------------------------------------------------------------------------@@ -104,14 +113,29 @@ withPoint a $ \ax ay -> withPoint b $ \bx by -> ccryptonite_p256e_point_add ax ay bx by dx dy +-- | Negate a point+pointNegate :: Point -> Point+pointNegate a = withNewPoint $ \dx dy ->+ withPoint a $ \ax ay ->+ ccryptonite_p256e_point_negate ax ay dx dy+ -- | Multiply a point by a scalar -- -- warning: variable time pointMul :: Scalar -> Point -> Point pointMul scalar p = withNewPoint $ \dx dy ->- withScalar scalar $ \n -> withPoint p $ \px py -> withScalarZero $ \nzero ->- ccryptonite_p256_points_mul_vartime nzero n px py dx dy+ withScalar scalar $ \n -> withPoint p $ \px py ->+ ccryptonite_p256e_point_mul n px py dx dy +-- | Similar to 'pointMul', serializing the x coordinate as binary.+-- When scalar is multiple of point order the result is all zero.+pointDh :: ByteArray binary => Scalar -> Point -> binary+pointDh scalar p =+ B.unsafeCreate scalarSize $ \dst -> withTempPoint $ \dx dy -> do+ withScalar scalar $ \n -> withPoint p $ \px py ->+ ccryptonite_p256e_point_mul n px py dx dy+ ccryptonite_p256_to_bin (castPtr dx) dst+ -- | multiply the point @p with @n2 and add a lifted to curve value @n1 -- -- > n1 * G + n2 * p@@ -128,6 +152,19 @@ r <- ccryptonite_p256_is_valid_point px py return (r /= 0) +-- | Check if a 'Point' is the point at infinity+pointIsAtInfinity :: Point -> Bool+pointIsAtInfinity (Point b) = constAllZero b++-- | Return the x coordinate as a 'Scalar' if the point is not at infinity+pointX :: Point -> Maybe Scalar+pointX p+ | pointIsAtInfinity p = Nothing+ | otherwise = Just $+ withNewScalarFreeze $ \d ->+ withPoint p $ \px _ ->+ ccryptonite_p256_mod ccryptonite_SECP256r1_n (castPtr px) (castPtr d)+ -- | Convert a point to (x,y) Integers pointToIntegers :: Point -> (Integer, Integer) pointToIntegers p = unsafeDoIO $ withPoint p $ \px py ->@@ -163,10 +200,19 @@ ccryptonite_p256_to_bin (castPtr px) dst ccryptonite_p256_to_bin (castPtr py) (dst `plusPtr` 32) --- | Convert from binary to a point+-- | Convert from binary to a valid point pointFromBinary :: ByteArrayAccess ba => ba -> CryptoFailable Point-pointFromBinary ba- | B.length ba /= pointSize = CryptoFailed $ CryptoError_PublicKeySizeInvalid+pointFromBinary ba = unsafePointFromBinary ba >>= validatePoint+ where+ validatePoint :: Point -> CryptoFailable Point+ validatePoint p+ | pointIsValid p = CryptoPassed p+ | otherwise = CryptoFailed CryptoError_PointCoordinatesInvalid++-- | Convert from binary to a point, possibly invalid+unsafePointFromBinary :: ByteArrayAccess ba => ba -> CryptoFailable Point+unsafePointFromBinary ba+ | B.length ba /= pointSize = CryptoFailed CryptoError_PublicKeySizeInvalid | otherwise = CryptoPassed $ withNewPoint $ \px py -> B.withByteArray ba $ \src -> do ccryptonite_p256_from_bin src (castPtr px)@@ -189,41 +235,40 @@ scalarZero :: Scalar scalarZero = withNewScalarFreeze $ \d -> ccryptonite_p256_init d +-- | The scalar representing the curve order+scalarN :: Scalar+scalarN = throwCryptoError (scalarFromInteger order)+ -- | Check if the scalar is 0 scalarIsZero :: Scalar -> Bool scalarIsZero s = unsafeDoIO $ withScalar s $ \d -> do result <- ccryptonite_p256_is_zero d return $ result /= 0 -scalarNeedReducing :: Ptr P256Scalar -> IO Bool-scalarNeedReducing d = do- c <- ccryptonite_p256_cmp d ccryptonite_SECP256r1_n- return (c >= 0)- -- | Perform addition between two scalars -- -- > a + b scalarAdd :: Scalar -> Scalar -> Scalar scalarAdd a b =- withNewScalarFreeze $ \d -> withScalar a $ \pa -> withScalar b $ \pb -> do- carry <- ccryptonite_p256_add pa pb d- when (carry /= 0) $ void $ ccryptonite_p256_sub d ccryptonite_SECP256r1_n d- needReducing <- scalarNeedReducing d- when needReducing $ do- ccryptonite_p256_mod ccryptonite_SECP256r1_n d d+ withNewScalarFreeze $ \d -> withScalar a $ \pa -> withScalar b $ \pb ->+ ccryptonite_p256e_modadd ccryptonite_SECP256r1_n pa pb d -- | Perform subtraction between two scalars -- -- > a - b scalarSub :: Scalar -> Scalar -> Scalar scalarSub a b =- withNewScalarFreeze $ \d -> withScalar a $ \pa -> withScalar b $ \pb -> do- borrow <- ccryptonite_p256_sub pa pb d- when (borrow /= 0) $ void $ ccryptonite_p256_add d ccryptonite_SECP256r1_n d- --needReducing <- scalarNeedReducing d- --when needReducing $ do- -- ccryptonite_p256_mod ccryptonite_SECP256r1_n d d+ withNewScalarFreeze $ \d -> withScalar a $ \pa -> withScalar b $ \pb ->+ ccryptonite_p256e_modsub ccryptonite_SECP256r1_n pa pb d +-- | Perform multiplication between two scalars+--+-- > a * b+scalarMul :: Scalar -> Scalar -> Scalar+scalarMul a b =+ withNewScalarFreeze $ \d -> withScalar a $ \pa -> withScalar b $ \pb ->+ ccryptonite_p256_modmul ccryptonite_SECP256r1_n pa 0 pb d+ -- | Give the inverse of the scalar -- -- > 1 / a@@ -234,6 +279,14 @@ withNewScalarFreeze $ \b -> withScalar a $ \pa -> ccryptonite_p256_modinv_vartime ccryptonite_SECP256r1_n pa b +-- | Give the inverse of the scalar using safe exponentiation+--+-- > 1 / a+scalarInvSafe :: Scalar -> Scalar+scalarInvSafe a =+ withNewScalarFreeze $ \b -> withScalar a $ \pa ->+ ccryptonite_p256e_scalar_invert pa b+ -- | Compare 2 Scalar scalarCmp :: Scalar -> Scalar -> Ordering scalarCmp a b = unsafeDoIO $@@ -244,7 +297,7 @@ -- | convert a scalar from binary scalarFromBinary :: ByteArrayAccess ba => ba -> CryptoFailable Scalar scalarFromBinary ba- | B.length ba /= scalarSize = CryptoFailed $ CryptoError_SecretKeySizeInvalid+ | B.length ba /= scalarSize = CryptoFailed CryptoError_SecretKeySizeInvalid | otherwise = CryptoPassed $ withNewScalarFreeze $ \p -> B.withByteArray ba $ \b -> ccryptonite_p256_from_bin b p@@ -282,18 +335,12 @@ withNewScalarFreeze f = Scalar $ B.allocAndFreeze scalarSize f {-# NOINLINE withNewScalarFreeze #-} -withTempScalar :: (Ptr P256Scalar -> IO a) -> IO a-withTempScalar f = allocTempScrubbed scalarSize (f . castPtr)+withTempPoint :: (Ptr P256X -> Ptr P256Y -> IO a) -> IO a+withTempPoint f = allocTempScrubbed pointSize (\p -> let px = castPtr p in f px (pxToPy px)) withScalar :: Scalar -> (Ptr P256Scalar -> IO a) -> IO a withScalar (Scalar d) f = B.withByteArray d f -withScalarZero :: (Ptr P256Scalar -> IO a) -> IO a-withScalarZero f =- withTempScalar $ \d -> do- ccryptonite_p256_init d- f d- allocTemp :: Int -> (Ptr Word8 -> IO a) -> IO a allocTemp n f = ignoreSnd <$> B.allocRet n f where@@ -322,18 +369,20 @@ ccryptonite_p256_is_zero :: Ptr P256Scalar -> IO CInt foreign import ccall "cryptonite_p256_clear" ccryptonite_p256_clear :: Ptr P256Scalar -> IO ()-foreign import ccall "cryptonite_p256_add"- ccryptonite_p256_add :: Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> IO CInt+foreign import ccall "cryptonite_p256e_modadd"+ ccryptonite_p256e_modadd :: Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> IO () foreign import ccall "cryptonite_p256_add_d" ccryptonite_p256_add_d :: Ptr P256Scalar -> P256Digit -> Ptr P256Scalar -> IO CInt-foreign import ccall "cryptonite_p256_sub"- ccryptonite_p256_sub :: Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> IO CInt+foreign import ccall "cryptonite_p256e_modsub"+ ccryptonite_p256e_modsub :: Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> IO () foreign import ccall "cryptonite_p256_cmp" ccryptonite_p256_cmp :: Ptr P256Scalar -> Ptr P256Scalar -> IO CInt foreign import ccall "cryptonite_p256_mod" ccryptonite_p256_mod :: Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> IO () foreign import ccall "cryptonite_p256_modmul" ccryptonite_p256_modmul :: Ptr P256Scalar -> Ptr P256Scalar -> P256Digit -> Ptr P256Scalar -> Ptr P256Scalar -> IO ()+foreign import ccall "cryptonite_p256e_scalar_invert"+ ccryptonite_p256e_scalar_invert :: Ptr P256Scalar -> Ptr P256Scalar -> IO () --foreign import ccall "cryptonite_p256_modinv" -- ccryptonite_p256_modinv :: Ptr P256Scalar -> Ptr P256Scalar -> Ptr P256Scalar -> IO () foreign import ccall "cryptonite_p256_modinv_vartime"@@ -347,6 +396,18 @@ ccryptonite_p256e_point_add :: Ptr P256X -> Ptr P256Y -> Ptr P256X -> Ptr P256Y -> Ptr P256X -> Ptr P256Y+ -> IO ()++foreign import ccall "cryptonite_p256e_point_negate"+ ccryptonite_p256e_point_negate :: Ptr P256X -> Ptr P256Y+ -> Ptr P256X -> Ptr P256Y+ -> IO ()++-- compute (out_x,out_y) = n * (in_x,in_y)+foreign import ccall "cryptonite_p256e_point_mul"+ ccryptonite_p256e_point_mul :: Ptr P256Scalar -- n+ -> Ptr P256X -> Ptr P256Y -- in_{x,y}+ -> Ptr P256X -> Ptr P256Y -- out_{x,y} -> IO () -- compute (out_x,out,y) = n1 * G + n2 * (in_x,in_y)
Crypto/PubKey/ECC/Prim.hs view
@@ -4,9 +4,11 @@ module Crypto.PubKey.ECC.Prim ( scalarGenerate , pointAdd+ , pointNegate , pointDouble , pointBaseMul , pointMul+ , pointAddTwoMuls , isPointAtInfinity , isPointValid ) where@@ -26,6 +28,13 @@ --TODO: Extract helper function for `fromMaybe PointO...` +-- | Elliptic Curve point negation:+-- @pointNegate c p@ returns point @q@ such that @pointAdd c p q == PointO@.+pointNegate :: Curve -> Point -> Point+pointNegate _ PointO = PointO+pointNegate (CurveFP c) (Point x y) = Point x (ecc_p c - y)+pointNegate CurveF2m{} (Point x y) = Point x (x `addF2m` y)+ -- | Elliptic Curve point addition. -- -- /WARNING:/ Vulnerable to timing attacks.@@ -33,22 +42,21 @@ pointAdd _ PointO PointO = PointO pointAdd _ PointO q = q pointAdd _ p PointO = p-pointAdd c@(CurveFP (CurvePrime pr _)) p@(Point xp yp) q@(Point xq yq)- | p == Point xq (-yq) = PointO- | p == q = pointDouble c p- | otherwise = fromMaybe PointO $ do- s <- divmod (yp - yq) (xp - xq) pr- let xr = (s ^ (2::Int) - xp - xq) `mod` pr- yr = (s * (xp - xr) - yp) `mod` pr- return $ Point xr yr-pointAdd c@(CurveF2m (CurveBinary fx cc)) p@(Point xp yp) q@(Point xq yq)- | p == Point xq (xq `addF2m` yq) = PointO- | p == q = pointDouble c p- | otherwise = fromMaybe PointO $ do- s <- divF2m fx (yp `addF2m` yq) (xp `addF2m` xq)- let xr = mulF2m fx s s `addF2m` s `addF2m` xp `addF2m` xq `addF2m` a- yr = mulF2m fx s (xp `addF2m` xr) `addF2m` xr `addF2m` yp- return $ Point xr yr+pointAdd c p q+ | p == q = pointDouble c p+ | p == pointNegate c q = PointO+pointAdd (CurveFP (CurvePrime pr _)) (Point xp yp) (Point xq yq)+ = fromMaybe PointO $ do+ s <- divmod (yp - yq) (xp - xq) pr+ let xr = (s ^ (2::Int) - xp - xq) `mod` pr+ yr = (s * (xp - xr) - yp) `mod` pr+ return $ Point xr yr+pointAdd (CurveF2m (CurveBinary fx cc)) (Point xp yp) (Point xq yq)+ = fromMaybe PointO $ do+ s <- divF2m fx (yp `addF2m` yq) (xp `addF2m` xq)+ let xr = mulF2m fx s s `addF2m` s `addF2m` xp `addF2m` xq `addF2m` a+ yr = mulF2m fx s (xp `addF2m` xr) `addF2m` xr `addF2m` yp+ return $ Point xr yr where a = ecc_a cc -- | Elliptic Curve point doubling.@@ -95,12 +103,39 @@ -- /WARNING:/ Vulnerable to timing attacks. pointMul :: Curve -> Integer -> Point -> Point pointMul _ _ PointO = PointO-pointMul c n p@(Point xp yp)- | n < 0 = pointMul c (-n) (Point xp (-yp))+pointMul c n p+ | n < 0 = pointMul c (-n) (pointNegate c p) | n == 0 = PointO | n == 1 = p | odd n = pointAdd c p (pointMul c (n - 1) p) | otherwise = pointMul c (n `div` 2) (pointDouble c p)++-- | Elliptic curve double-scalar multiplication (uses Shamir's trick).+--+-- > pointAddTwoMuls c n1 p1 n2 p2 == pointAdd c (pointMul c n1 p1)+-- > (pointMul c n2 p2)+--+-- /WARNING:/ Vulnerable to timing attacks.+pointAddTwoMuls :: Curve -> Integer -> Point -> Integer -> Point -> Point+pointAddTwoMuls _ _ PointO _ PointO = PointO+pointAddTwoMuls c _ PointO n2 p2 = pointMul c n2 p2+pointAddTwoMuls c n1 p1 _ PointO = pointMul c n1 p1+pointAddTwoMuls c n1 p1 n2 p2+ | n1 < 0 = pointAddTwoMuls c (-n1) (pointNegate c p1) n2 p2+ | n2 < 0 = pointAddTwoMuls c n1 p1 (-n2) (pointNegate c p2)+ | otherwise = go (n1, n2)++ where+ p0 = pointAdd c p1 p2++ go (0, 0 ) = PointO+ go (k1, k2) =+ let q = pointDouble c $ go (k1 `div` 2, k2 `div` 2)+ in case (odd k1, odd k2) of+ (True , True ) -> pointAdd c p0 q+ (True , False ) -> pointAdd c p1 q+ (False , True ) -> pointAdd c p2 q+ (False , False ) -> q -- | Check if a point is the point at infinity. isPointAtInfinity :: Point -> Bool
Crypto/PubKey/ECC/Types.hs view
@@ -1,12 +1,12 @@ {-# LANGUAGE DeriveDataTypeable #-} -- |--- Module : Crypto.PubKey.ECC.types+-- Module : Crypto.PubKey.ECC.Types -- License : BSD-style -- Maintainer : Vincent Hanquez <vincent@snarc.org> -- Stability : Experimental -- Portability : Excellent ----- references:+-- References: -- <https://tools.ietf.org/html/rfc5915> -- module Crypto.PubKey.ECC.Types@@ -21,7 +21,7 @@ , ecc_fx , ecc_p , CurveCommon(..)- -- * recommended curves definition+ -- * Recommended curves definition , CurveName(..) , getCurveByName ) where@@ -33,7 +33,7 @@ -- | Define either a binary curve or a prime curve. data Curve = CurveF2m CurveBinary -- ^ 𝔽(2^m) | CurveFP CurvePrime -- ^ 𝔽p- deriving (Show,Read,Eq,Data,Typeable)+ deriving (Show,Read,Eq,Data) -- | ECC Public Point type PublicPoint = Point@@ -44,7 +44,7 @@ -- | Define a point on a curve. data Point = Point Integer Integer | PointO -- ^ Point at Infinity- deriving (Show,Read,Eq,Data,Typeable)+ deriving (Show,Read,Eq,Data) instance NFData Point where rnf (Point x y) = x `seq` y `seq` ()@@ -53,7 +53,7 @@ -- | Define an elliptic curve in 𝔽(2^m). -- The firt parameter is the Integer representatioin of the irreducible polynomial f(x). data CurveBinary = CurveBinary Integer CurveCommon- deriving (Show,Read,Eq,Data,Typeable)+ deriving (Show,Read,Eq,Data) instance NFData CurveBinary where rnf (CurveBinary i cc) = i `seq` cc `seq` ()@@ -61,7 +61,7 @@ -- | Define an elliptic curve in 𝔽p. -- The first parameter is the Prime Number. data CurvePrime = CurvePrime Integer CurveCommon- deriving (Show,Read,Eq,Data,Typeable)+ deriving (Show,Read,Eq,Data) -- | Parameters in common between binary and prime curves. common_curve :: Curve -> CurveCommon@@ -84,7 +84,7 @@ , ecc_g :: Point -- ^ base point , ecc_n :: Integer -- ^ order of G , ecc_h :: Integer -- ^ cofactor- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) -- | Define names for known recommended curves. data CurveName =@@ -121,7 +121,7 @@ | SEC_t409r1 | SEC_t571k1 | SEC_t571r1- deriving (Show,Read,Eq,Ord,Enum,Bounded,Data,Typeable)+ deriving (Show,Read,Eq,Ord,Enum,Bounded,Data) {- curvesOIDs :: [ (CurveName, [Integer]) ]@@ -164,7 +164,8 @@ -- | get the size of the curve in bits curveSizeBits :: Curve -> Int-curveSizeBits = numBits . ecc_n . common_curve+curveSizeBits (CurveFP c) = numBits (ecc_p c)+curveSizeBits (CurveF2m c) = numBits (ecc_fx c) - 1 -- | Get the curve definition associated with a recommended known curve name. getCurveByName :: CurveName -> Curve
+ Crypto/PubKey/ECDSA.hs view
@@ -0,0 +1,272 @@+-- |+-- Module : Crypto.PubKey.ECDSA+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : unknown+--+-- Elliptic Curve Digital Signature Algorithm, with the parameterized+-- curve implementations provided by module "Crypto.ECC".+--+-- Public/private key pairs can be generated using+-- 'curveGenerateKeyPair' or decoded from binary.+--+-- /WARNING:/ Only curve P-256 has constant-time implementation.+-- Signature operations with P-384 and P-521 may leak the private key.+--+-- Signature verification should be safe for all curves.+{-# LANGUAGE BangPatterns #-}+{-# LANGUAGE FlexibleContexts #-}+{-# LANGUAGE ScopedTypeVariables #-}+{-# LANGUAGE StandaloneDeriving #-}+{-# LANGUAGE TypeFamilies #-}+{-# LANGUAGE UndecidableInstances #-}+module Crypto.PubKey.ECDSA+ ( EllipticCurveECDSA (..)+ -- * Public keys+ , PublicKey+ , encodePublic+ , decodePublic+ , toPublic+ -- * Private keys+ , PrivateKey+ , encodePrivate+ , decodePrivate+ -- * Signatures+ , Signature(..)+ , signatureFromIntegers+ , signatureToIntegers+ -- * Generation and verification+ , signWith+ , signDigestWith+ , sign+ , signDigest+ , verify+ , verifyDigest+ ) where++import Control.Monad++import Crypto.ECC+import qualified Crypto.ECC.Simple.Types as Simple+import Crypto.Error+import Crypto.Hash+import Crypto.Hash.Types+import Crypto.Internal.ByteArray (ByteArray, ByteArrayAccess)+import Crypto.Internal.Imports+import Crypto.Number.ModArithmetic (inverseFermat)+import qualified Crypto.PubKey.ECC.P256 as P256+import Crypto.Random.Types++import Data.Bits+import qualified Data.ByteArray as B+import Data.Data++import Foreign.Ptr (Ptr)+import Foreign.Storable (peekByteOff, pokeByteOff)++-- | Represent a ECDSA signature namely R and S.+data Signature curve = Signature+ { sign_r :: Scalar curve -- ^ ECDSA r+ , sign_s :: Scalar curve -- ^ ECDSA s+ }++deriving instance Eq (Scalar curve) => Eq (Signature curve)+deriving instance Show (Scalar curve) => Show (Signature curve)++instance NFData (Scalar curve) => NFData (Signature curve) where+ rnf (Signature r s) = rnf r `seq` rnf s `seq` ()++-- | ECDSA Public Key.+type PublicKey curve = Point curve++-- | ECDSA Private Key.+type PrivateKey curve = Scalar curve++-- | Elliptic curves with ECDSA capabilities.+class EllipticCurveBasepointArith curve => EllipticCurveECDSA curve where+ -- | Is a scalar in the accepted range for ECDSA+ scalarIsValid :: proxy curve -> Scalar curve -> Bool++ -- | Test whether the scalar is zero+ scalarIsZero :: proxy curve -> Scalar curve -> Bool+ scalarIsZero prx s = s == throwCryptoError (scalarFromInteger prx 0)++ -- | Scalar inversion modulo the curve order+ scalarInv :: proxy curve -> Scalar curve -> Maybe (Scalar curve)++ -- | Return the point X coordinate as a scalar+ pointX :: proxy curve -> Point curve -> Maybe (Scalar curve)++instance EllipticCurveECDSA Curve_P256R1 where+ scalarIsValid _ s = not (P256.scalarIsZero s)+ && P256.scalarCmp s P256.scalarN == LT++ scalarIsZero _ = P256.scalarIsZero++ scalarInv _ s = let inv = P256.scalarInvSafe s+ in if P256.scalarIsZero inv then Nothing else Just inv++ pointX _ = P256.pointX++instance EllipticCurveECDSA Curve_P384R1 where+ scalarIsValid _ = ecScalarIsValid (Proxy :: Proxy Simple.SEC_p384r1)++ scalarIsZero _ = ecScalarIsZero++ scalarInv _ = ecScalarInv (Proxy :: Proxy Simple.SEC_p384r1)++ pointX _ = ecPointX (Proxy :: Proxy Simple.SEC_p384r1)++instance EllipticCurveECDSA Curve_P521R1 where+ scalarIsValid _ = ecScalarIsValid (Proxy :: Proxy Simple.SEC_p521r1)++ scalarIsZero _ = ecScalarIsZero++ scalarInv _ = ecScalarInv (Proxy :: Proxy Simple.SEC_p521r1)++ pointX _ = ecPointX (Proxy :: Proxy Simple.SEC_p521r1)+++-- | Create a signature from integers (R, S).+signatureFromIntegers :: EllipticCurveECDSA curve+ => proxy curve -> (Integer, Integer) -> CryptoFailable (Signature curve)+signatureFromIntegers prx (r, s) =+ liftA2 Signature (scalarFromInteger prx r) (scalarFromInteger prx s)++-- | Get integers (R, S) from a signature.+--+-- The values can then be used to encode the signature to binary with+-- ASN.1.+signatureToIntegers :: EllipticCurveECDSA curve+ => proxy curve -> Signature curve -> (Integer, Integer)+signatureToIntegers prx sig =+ (scalarToInteger prx $ sign_r sig, scalarToInteger prx $ sign_s sig)++-- | Encode a public key into binary form, i.e. the uncompressed encoding+-- referenced from <https://tools.ietf.org/html/rfc5480 RFC 5480> section 2.2.+encodePublic :: (EllipticCurve curve, ByteArray bs)+ => proxy curve -> PublicKey curve -> bs+encodePublic = encodePoint++-- | Try to decode the binary form of a public key.+decodePublic :: (EllipticCurve curve, ByteArray bs)+ => proxy curve -> bs -> CryptoFailable (PublicKey curve)+decodePublic = decodePoint++-- | Encode a private key into binary form, i.e. the @privateKey@ field+-- described in <https://tools.ietf.org/html/rfc5915 RFC 5915>.+encodePrivate :: (EllipticCurveECDSA curve, ByteArray bs)+ => proxy curve -> PrivateKey curve -> bs+encodePrivate = encodeScalar++-- | Try to decode the binary form of a private key.+decodePrivate :: (EllipticCurveECDSA curve, ByteArray bs)+ => proxy curve -> bs -> CryptoFailable (PrivateKey curve)+decodePrivate = decodeScalar++-- | Create a public key from a private key.+toPublic :: EllipticCurveECDSA curve+ => proxy curve -> PrivateKey curve -> PublicKey curve+toPublic = pointBaseSmul++-- | Sign digest using the private key and an explicit k scalar.+signDigestWith :: (EllipticCurveECDSA curve, HashAlgorithm hash)+ => proxy curve -> Scalar curve -> PrivateKey curve -> Digest hash -> Maybe (Signature curve)+signDigestWith prx k d digest = do+ let z = tHashDigest prx digest+ point = pointBaseSmul prx k+ r <- pointX prx point+ kInv <- scalarInv prx k+ let s = scalarMul prx kInv (scalarAdd prx z (scalarMul prx r d))+ when (scalarIsZero prx r || scalarIsZero prx s) Nothing+ return $ Signature r s++-- | Sign message using the private key and an explicit k scalar.+signWith :: (EllipticCurveECDSA curve, ByteArrayAccess msg, HashAlgorithm hash)+ => proxy curve -> Scalar curve -> PrivateKey curve -> hash -> msg -> Maybe (Signature curve)+signWith prx k d hashAlg msg = signDigestWith prx k d (hashWith hashAlg msg)++-- | Sign a digest using hash and private key.+signDigest :: (EllipticCurveECDSA curve, MonadRandom m, HashAlgorithm hash)+ => proxy curve -> PrivateKey curve -> Digest hash -> m (Signature curve)+signDigest prx pk digest = do+ k <- curveGenerateScalar prx+ case signDigestWith prx k pk digest of+ Nothing -> signDigest prx pk digest+ Just sig -> return sig++-- | Sign a message using hash and private key.+sign :: (EllipticCurveECDSA curve, MonadRandom m, ByteArrayAccess msg, HashAlgorithm hash)+ => proxy curve -> PrivateKey curve -> hash -> msg -> m (Signature curve)+sign prx pk hashAlg msg = signDigest prx pk (hashWith hashAlg msg)++-- | Verify a digest using hash and public key.+verifyDigest :: (EllipticCurveECDSA curve, HashAlgorithm hash)+ => proxy curve -> PublicKey curve -> Signature curve -> Digest hash -> Bool+verifyDigest prx q (Signature r s) digest+ | not (scalarIsValid prx r) = False+ | not (scalarIsValid prx s) = False+ | otherwise = maybe False (r ==) $ do+ w <- scalarInv prx s+ let z = tHashDigest prx digest+ u1 = scalarMul prx z w+ u2 = scalarMul prx r w+ x = pointsSmulVarTime prx u1 u2 q+ pointX prx x+ -- Note: precondition q /= PointO is not tested because we assume+ -- point decoding never decodes point at infinity.++-- | Verify a signature using hash and public key.+verify :: (EllipticCurveECDSA curve, ByteArrayAccess msg, HashAlgorithm hash)+ => proxy curve -> hash -> PublicKey curve -> Signature curve -> msg -> Bool+verify prx hashAlg q sig msg = verifyDigest prx q sig (hashWith hashAlg msg)++-- | Truncate a digest based on curve order size.+tHashDigest :: (EllipticCurveECDSA curve, HashAlgorithm hash)+ => proxy curve -> Digest hash -> Scalar curve+tHashDigest prx (Digest digest) = throwCryptoError $ decodeScalar prx encoded+ where m = curveOrderBits prx+ d = m - B.length digest * 8+ (n, r) = m `divMod` 8+ n' = if r > 0 then succ n else n++ encoded+ | d > 0 = B.zero (n' - B.length digest) `B.append` digest+ | d == 0 = digest+ | r == 0 = B.take n digest+ | otherwise = shiftBytes digest++ shiftBytes bs = B.allocAndFreeze n' $ \dst ->+ B.withByteArray bs $ \src -> go dst src 0 0++ go :: Ptr Word8 -> Ptr Word8 -> Word8 -> Int -> IO ()+ go dst src !a i+ | i >= n' = return ()+ | otherwise = do+ b <- peekByteOff src i+ pokeByteOff dst i (unsafeShiftR b (8 - r) .|. unsafeShiftL a r)+ go dst src b (succ i)+++ecScalarIsValid :: Simple.Curve c => proxy c -> Simple.Scalar c -> Bool+ecScalarIsValid prx (Simple.Scalar s) = s > 0 && s < n+ where n = Simple.curveEccN $ Simple.curveParameters prx++ecScalarIsZero :: forall curve . Simple.Curve curve+ => Simple.Scalar curve -> Bool+ecScalarIsZero (Simple.Scalar a) = a == 0++ecScalarInv :: Simple.Curve c+ => proxy c -> Simple.Scalar c -> Maybe (Simple.Scalar c)+ecScalarInv prx (Simple.Scalar s)+ | i == 0 = Nothing+ | otherwise = Just $ Simple.Scalar i+ where n = Simple.curveEccN $ Simple.curveParameters prx+ i = inverseFermat s n++ecPointX :: Simple.Curve c+ => proxy c -> Simple.Point c -> Maybe (Simple.Scalar c)+ecPointX _ Simple.PointO = Nothing+ecPointX prx (Simple.Point x _) = Just (Simple.Scalar $ x `mod` n)+ where n = Simple.curveEccN $ Simple.curveParameters prx
+ Crypto/PubKey/ECIES.hs view
@@ -0,0 +1,48 @@+-- |+-- Module : Crypto.PubKey.ECIES+-- License : BSD-style+-- Maintainer : Vincent Hanquez <vincent@snarc.org>+-- Stability : experimental+-- Portability : unknown+--+-- IES with Elliptic curve <https://en.wikipedia.org/wiki/Integrated_Encryption_Scheme>+--+-- This is a simple cryptographic system between 2 parties using Elliptic Curve.+--+-- The sending party create a shared secret using the receiver public key, and use the shared secret+-- to generate cryptographic material for an symmetric encryption scheme (preferably authenticated encryption).+--+-- The receiving party receive the temporary ephemeral public key which is combined to its secret key+-- to create the shared secret which just like on the sending is used to generate cryptographic material.+--+-- This module doesn't provide any symmetric data encryption capability or any mean to derive+-- cryptographic key material for a symmetric key from the shared secret.+-- this is left to the user for now.+--+module Crypto.PubKey.ECIES+ ( deriveEncrypt+ , deriveDecrypt+ ) where++import Crypto.ECC+import Crypto.Error+import Crypto.Random++-- | Generate random a new Shared secret and the associated point+-- to do a ECIES style encryption+deriveEncrypt :: (MonadRandom randomly, EllipticCurveDH curve)+ => proxy curve -- ^ representation of the curve+ -> Point curve -- ^ the public key of the receiver+ -> randomly (CryptoFailable (Point curve, SharedSecret))+deriveEncrypt proxy pub = do+ (KeyPair rPoint rScalar) <- curveGenerateKeyPair proxy+ return $ (\s -> (rPoint, s)) `fmap` ecdh proxy rScalar pub++-- | Derive the shared secret with the receiver key+-- and the R point of the scheme.+deriveDecrypt :: EllipticCurveDH curve+ => proxy curve -- ^ representation of the curve+ -> Point curve -- ^ The received R (supposedly, randomly generated on the encrypt side)+ -> Scalar curve -- ^ The secret key of the receiver+ -> CryptoFailable SharedSecret+deriveDecrypt proxy point secret = ecdh proxy secret point
Crypto/PubKey/Ed25519.hs view
@@ -7,35 +7,42 @@ -- -- Ed25519 support --+{-# LANGUAGE BangPatterns #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-}-{-# LANGUAGE BangPatterns #-} module Crypto.PubKey.Ed25519 ( SecretKey , PublicKey , Signature+ -- * Size constants+ , publicKeySize+ , secretKeySize+ , signatureSize -- * Smart constructors , signature , publicKey , secretKey- -- * methods+ -- * Methods , toPublic , sign , verify+ , generateSecretKey ) where import Data.Word-import Foreign.Ptr import Foreign.C.Types+import Foreign.Ptr +import Crypto.Error+import Crypto.Internal.ByteArray (ByteArrayAccess, Bytes,+ ScrubbedBytes, withByteArray)+import qualified Crypto.Internal.ByteArray as B import Crypto.Internal.Compat import Crypto.Internal.Imports-import Crypto.Internal.ByteArray (ByteArrayAccess, withByteArray, ScrubbedBytes, Bytes)-import qualified Crypto.Internal.ByteArray as B-import Crypto.Error+import Crypto.Random -- | An Ed25519 Secret key newtype SecretKey = SecretKey ScrubbedBytes- deriving (Eq,ByteArrayAccess,NFData)+ deriving (Show,Eq,ByteArrayAccess,NFData) -- | An Ed25519 public key newtype PublicKey = PublicKey Bytes@@ -106,12 +113,19 @@ where !msgLen = B.length message +-- | Generate a secret key+generateSecretKey :: MonadRandom m => m SecretKey+generateSecretKey = SecretKey <$> getRandomBytes secretKeySize++-- | A public key is 32 bytes publicKeySize :: Int publicKeySize = 32 +-- | A secret key is 32 bytes secretKeySize :: Int secretKeySize = 32 +-- | A signature is 64 bytes signatureSize :: Int signatureSize = 64
Crypto/PubKey/Ed448.hs view
@@ -1,102 +1,163 @@ -- | -- Module : Crypto.PubKey.Ed448 -- License : BSD-style--- Maintainer : John Galt <jgalt@centromere.net>+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com> -- Stability : experimental -- Portability : unknown -- -- Ed448 support --+-- Internally uses Decaf point compression to omit the cofactor+-- and implementation by Mike Hamburg. Externally API and+-- data types are compatible with the encoding specified in RFC 8032.+--+{-# LANGUAGE BangPatterns #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-}-{-# LANGUAGE MagicHash #-} module Crypto.PubKey.Ed448 ( SecretKey , PublicKey- , DhSecret+ , Signature+ -- * Size constants+ , publicKeySize+ , secretKeySize+ , signatureSize -- * Smart constructors- , dhSecret+ , signature , publicKey , secretKey- -- * methods- , dh+ -- * Methods , toPublic+ , sign+ , verify+ , generateSecretKey ) where import Data.Word+import Foreign.C.Types import Foreign.Ptr-import GHC.Ptr import Crypto.Error+import Crypto.Internal.ByteArray (ByteArrayAccess, Bytes,+ ScrubbedBytes, withByteArray)+import qualified Crypto.Internal.ByteArray as B import Crypto.Internal.Compat import Crypto.Internal.Imports-import Crypto.Internal.ByteArray (ByteArrayAccess, ScrubbedBytes, Bytes, withByteArray)-import qualified Crypto.Internal.ByteArray as B+import Crypto.Random --- | A Ed448 Secret key+-- | An Ed448 Secret key newtype SecretKey = SecretKey ScrubbedBytes deriving (Show,Eq,ByteArrayAccess,NFData) --- | A Ed448 public key+-- | An Ed448 public key newtype PublicKey = PublicKey Bytes deriving (Show,Eq,ByteArrayAccess,NFData) --- | A Ed448 Diffie Hellman secret related to a--- public key and a secret key.-newtype DhSecret = DhSecret ScrubbedBytes+-- | An Ed448 signature+newtype Signature = Signature Bytes deriving (Show,Eq,ByteArrayAccess,NFData) -- | Try to build a public key from a bytearray-publicKey :: ByteArrayAccess bs => bs -> CryptoFailable PublicKey+publicKey :: ByteArrayAccess ba => ba -> CryptoFailable PublicKey publicKey bs- | B.length bs == x448_bytes = CryptoPassed $ PublicKey $ B.copyAndFreeze bs (\_ -> return ())- | otherwise = CryptoFailed CryptoError_PublicKeySizeInvalid+ | B.length bs == publicKeySize =+ CryptoPassed $ PublicKey $ B.copyAndFreeze bs (\_ -> return ())+ | otherwise =+ CryptoFailed $ CryptoError_PublicKeySizeInvalid -- | Try to build a secret key from a bytearray-secretKey :: ByteArrayAccess bs => bs -> CryptoFailable SecretKey+secretKey :: ByteArrayAccess ba => ba -> CryptoFailable SecretKey secretKey bs- | B.length bs == x448_bytes = unsafeDoIO $- withByteArray bs $ \inp -> do+ | B.length bs == secretKeySize = unsafeDoIO $ withByteArray bs initialize+ | otherwise = CryptoFailed CryptoError_SecretKeyStructureInvalid+ where+ initialize inp = do valid <- isValidPtr inp if valid then (CryptoPassed . SecretKey) <$> B.copy bs (\_ -> return ()) else return $ CryptoFailed CryptoError_SecretKeyStructureInvalid- | otherwise = CryptoFailed CryptoError_SecretKeySizeInvalid- where- isValidPtr :: Ptr Word8 -> IO Bool isValidPtr _ = return True {-# NOINLINE secretKey #-} --- | Create a DhSecret from a bytearray object-dhSecret :: ByteArrayAccess b => b -> CryptoFailable DhSecret-dhSecret bs- | B.length bs == x448_bytes = CryptoPassed $ DhSecret $ B.copyAndFreeze bs (\_ -> return ())- | otherwise = CryptoFailed CryptoError_SharedSecretSizeInvalid---- | Compute the Diffie Hellman secret from a public key and a secret key-dh :: PublicKey -> SecretKey -> DhSecret-dh (PublicKey pub) (SecretKey sec) = DhSecret <$>- B.allocAndFreeze x448_bytes $ \result ->- withByteArray sec $ \psec ->- withByteArray pub $ \ppub ->- ccryptonite_ed448 result psec ppub-{-# NOINLINE dh #-}+-- | Try to build a signature from a bytearray+signature :: ByteArrayAccess ba => ba -> CryptoFailable Signature+signature bs+ | B.length bs == signatureSize =+ CryptoPassed $ Signature $ B.copyAndFreeze bs (\_ -> return ())+ | otherwise =+ CryptoFailed CryptoError_SecretKeyStructureInvalid -- | Create a public key from a secret key toPublic :: SecretKey -> PublicKey toPublic (SecretKey sec) = PublicKey <$>- B.allocAndFreeze x448_bytes $ \result ->- withByteArray sec $ \psec ->- ccryptonite_ed448 result psec basePoint- where- basePoint = Ptr "\x05\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"#+ B.allocAndFreeze publicKeySize $ \result ->+ withByteArray sec $ \psec ->+ decaf_ed448_derive_public_key result psec {-# NOINLINE toPublic #-} -x448_bytes :: Int-x448_bytes = 448 `quot` 8+-- | Sign a message using the key pair+sign :: ByteArrayAccess ba => SecretKey -> PublicKey -> ba -> Signature+sign secret public message =+ Signature $ B.allocAndFreeze signatureSize $ \sig ->+ withByteArray secret $ \sec ->+ withByteArray public $ \pub ->+ withByteArray message $ \msg ->+ decaf_ed448_sign sig sec pub msg (fromIntegral msgLen) 0 no_context 0+ where+ !msgLen = B.length message -foreign import ccall "cryptonite_x448"- ccryptonite_ed448 :: Ptr Word8 -- ^ public- -> Ptr Word8 -- ^ secret- -> Ptr Word8 -- ^ basepoint- -> IO ()+-- | Verify a message+verify :: ByteArrayAccess ba => PublicKey -> ba -> Signature -> Bool+verify public message signatureVal = unsafeDoIO $+ withByteArray signatureVal $ \sig ->+ withByteArray public $ \pub ->+ withByteArray message $ \msg -> do+ r <- decaf_ed448_verify sig pub msg (fromIntegral msgLen) 0 no_context 0+ return (r /= 0)+ where+ !msgLen = B.length message++-- | Generate a secret key+generateSecretKey :: MonadRandom m => m SecretKey+generateSecretKey = SecretKey <$> getRandomBytes secretKeySize++-- | A public key is 57 bytes+publicKeySize :: Int+publicKeySize = 57++-- | A secret key is 57 bytes+secretKeySize :: Int+secretKeySize = 57++-- | A signature is 114 bytes+signatureSize :: Int+signatureSize = 114++no_context :: Ptr Word8+no_context = nullPtr -- not supported yet++foreign import ccall "cryptonite_decaf_ed448_derive_public_key"+ decaf_ed448_derive_public_key :: Ptr PublicKey -- public key+ -> Ptr SecretKey -- secret key+ -> IO ()++foreign import ccall "cryptonite_decaf_ed448_sign"+ decaf_ed448_sign :: Ptr Signature -- signature+ -> Ptr SecretKey -- secret+ -> Ptr PublicKey -- public+ -> Ptr Word8 -- message+ -> CSize -- message len+ -> Word8 -- prehashed+ -> Ptr Word8 -- context+ -> Word8 -- context len+ -> IO ()++foreign import ccall "cryptonite_decaf_ed448_verify"+ decaf_ed448_verify :: Ptr Signature -- signature+ -> Ptr PublicKey -- public+ -> Ptr Word8 -- message+ -> CSize -- message len+ -> Word8 -- prehashed+ -> Ptr Word8 -- context+ -> Word8 -- context len+ -> IO CInt
+ Crypto/PubKey/EdDSA.hs view
@@ -0,0 +1,390 @@+-- |+-- Module : Crypto.PubKey.EdDSA+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : experimental+-- Portability : unknown+--+-- EdDSA signature generation and verification, implemented in Haskell and+-- parameterized with elliptic curve and hash algorithm. Only edwards25519 is+-- supported at the moment.+--+-- The module provides \"context\" and \"prehash\" variants defined in+-- <https://tools.ietf.org/html/rfc8032 RFC 8032>.+--+-- This implementation is most useful when wanting to customize the hash+-- algorithm. See module "Crypto.PubKey.Ed25519" for faster Ed25519 with+-- SHA-512.+--+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE FlexibleContexts #-}+{-# LANGUAGE GeneralizedNewtypeDeriving #-}+{-# LANGUAGE OverloadedStrings #-}+{-# LANGUAGE RankNTypes #-}+{-# LANGUAGE ScopedTypeVariables #-}+{-# LANGUAGE TypeFamilies #-}+module Crypto.PubKey.EdDSA+ ( SecretKey+ , PublicKey+ , Signature+ -- * Curves with EdDSA implementation+ , EllipticCurveEdDSA(CurveDigestSize)+ , publicKeySize+ , secretKeySize+ , signatureSize+ -- * Smart constructors+ , signature+ , publicKey+ , secretKey+ -- * Methods+ , toPublic+ , sign+ , signCtx+ , signPh+ , verify+ , verifyCtx+ , verifyPh+ , generateSecretKey+ ) where++import Data.Bits+import Data.ByteArray (ByteArray, ByteArrayAccess, Bytes, ScrubbedBytes, View)+import qualified Data.ByteArray as B+import Data.ByteString (ByteString)+import Data.Proxy++import Crypto.ECC+import qualified Crypto.ECC.Edwards25519 as Edwards25519+import Crypto.Error+import Crypto.Hash (Digest)+import Crypto.Hash.IO+import Crypto.Random++import GHC.TypeLits (KnownNat, Nat)++import Crypto.Internal.Builder+import Crypto.Internal.Compat+import Crypto.Internal.Imports+import Crypto.Internal.Nat (integralNatVal)++import Foreign.Storable+++-- API++-- | An EdDSA Secret key+newtype SecretKey curve = SecretKey ScrubbedBytes+ deriving (Show,Eq,ByteArrayAccess,NFData)++-- | An EdDSA public key+newtype PublicKey curve hash = PublicKey Bytes+ deriving (Show,Eq,ByteArrayAccess,NFData)++-- | An EdDSA signature+newtype Signature curve hash = Signature Bytes+ deriving (Show,Eq,ByteArrayAccess,NFData)++-- | Elliptic curves with an implementation of EdDSA+class ( EllipticCurveBasepointArith curve+ , KnownNat (CurveDigestSize curve)+ ) => EllipticCurveEdDSA curve where++ -- | Size of the digest for this curve (in bytes)+ type CurveDigestSize curve :: Nat++ -- | Size of secret keys for this curve (in bytes)+ secretKeySize :: proxy curve -> Int++ -- hash with specified parameters+ hashWithDom :: (HashAlgorithm hash, ByteArrayAccess ctx, ByteArrayAccess msg)+ => proxy curve -> hash -> Bool -> ctx -> Builder -> msg -> Bytes++ -- conversion between scalar, point and public key+ pointPublic :: proxy curve -> Point curve -> PublicKey curve hash+ publicPoint :: proxy curve -> PublicKey curve hash -> CryptoFailable (Point curve)+ encodeScalarLE :: ByteArray bs => proxy curve -> Scalar curve -> bs+ decodeScalarLE :: ByteArrayAccess bs => proxy curve -> bs -> CryptoFailable (Scalar curve)++ -- how to use bits in a secret key+ scheduleSecret :: ( HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ )+ => proxy curve+ -> hash+ -> SecretKey curve+ -> (Scalar curve, View Bytes)++-- | Size of public keys for this curve (in bytes)+publicKeySize :: EllipticCurveEdDSA curve => proxy curve -> Int+publicKeySize prx = signatureSize prx `div` 2++-- | Size of signatures for this curve (in bytes)+signatureSize :: forall proxy curve . EllipticCurveEdDSA curve+ => proxy curve -> Int+signatureSize _ = integralNatVal (Proxy :: Proxy (CurveDigestSize curve))+++-- Constructors++-- | Try to build a public key from a bytearray+publicKey :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ba+ )+ => proxy curve -> hash -> ba -> CryptoFailable (PublicKey curve hash)+publicKey prx _ bs+ | B.length bs == publicKeySize prx =+ CryptoPassed (PublicKey $ B.convert bs)+ | otherwise =+ CryptoFailed CryptoError_PublicKeySizeInvalid++-- | Try to build a secret key from a bytearray+secretKey :: (EllipticCurveEdDSA curve, ByteArrayAccess ba)+ => proxy curve -> ba -> CryptoFailable (SecretKey curve)+secretKey prx bs+ | B.length bs == secretKeySize prx =+ CryptoPassed (SecretKey $ B.convert bs)+ | otherwise =+ CryptoFailed CryptoError_SecretKeyStructureInvalid++-- | Try to build a signature from a bytearray+signature :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ba+ )+ => proxy curve -> hash -> ba -> CryptoFailable (Signature curve hash)+signature prx _ bs+ | B.length bs == signatureSize prx =+ CryptoPassed (Signature $ B.convert bs)+ | otherwise =+ CryptoFailed CryptoError_SecretKeyStructureInvalid+++-- Conversions++-- | Generate a secret key+generateSecretKey :: (EllipticCurveEdDSA curve, MonadRandom m)+ => proxy curve -> m (SecretKey curve)+generateSecretKey prx = SecretKey <$> getRandomBytes (secretKeySize prx)++-- | Create a public key from a secret key+toPublic :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ )+ => proxy curve -> hash -> SecretKey curve -> PublicKey curve hash+toPublic prx alg priv =+ let p = pointBaseSmul prx (secretScalar prx alg priv)+ in pointPublic prx p++secretScalar :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ )+ => proxy curve -> hash -> SecretKey curve -> Scalar curve+secretScalar prx alg priv = fst (scheduleSecret prx alg priv)+++-- EdDSA signature generation & verification++-- | Sign a message using the key pair+sign :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess msg+ )+ => proxy curve -> SecretKey curve -> PublicKey curve hash -> msg -> Signature curve hash+sign prx = signCtx prx emptyCtx++-- | Verify a message+verify :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess msg+ )+ => proxy curve -> PublicKey curve hash -> msg -> Signature curve hash -> Bool+verify prx = verifyCtx prx emptyCtx++-- | Sign a message using the key pair under context @ctx@+signCtx :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ , ByteArrayAccess msg+ )+ => proxy curve -> ctx -> SecretKey curve -> PublicKey curve hash -> msg -> Signature curve hash+signCtx prx = signPhCtx prx False++-- | Verify a message under context @ctx@+verifyCtx :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ , ByteArrayAccess msg+ )+ => proxy curve -> ctx -> PublicKey curve hash -> msg -> Signature curve hash -> Bool+verifyCtx prx = verifyPhCtx prx False++-- | Sign a prehashed message using the key pair under context @ctx@+signPh :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ )+ => proxy curve -> ctx -> SecretKey curve -> PublicKey curve hash -> Digest prehash -> Signature curve hash+signPh prx = signPhCtx prx True++-- | Verify a prehashed message under context @ctx@+verifyPh :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ )+ => proxy curve -> ctx -> PublicKey curve hash -> Digest prehash -> Signature curve hash -> Bool+verifyPh prx = verifyPhCtx prx True++signPhCtx :: forall proxy curve hash ctx msg .+ ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ , ByteArrayAccess msg+ )+ => proxy curve -> Bool -> ctx -> SecretKey curve -> PublicKey curve hash -> msg -> Signature curve hash+signPhCtx prx ph ctx priv pub msg =+ let alg = undefined :: hash+ (s, prefix) = scheduleSecret prx alg priv+ digR = hashWithDom prx alg ph ctx (bytes prefix) msg+ r = decodeScalarNoErr prx digR+ pR = pointBaseSmul prx r+ bsR = encodePoint prx pR+ sK = getK prx ph ctx pub bsR msg+ sS = scalarAdd prx r (scalarMul prx sK s)+ in encodeSignature prx (bsR, pR, sS)++verifyPhCtx :: ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ , ByteArrayAccess msg+ )+ => proxy curve -> Bool -> ctx -> PublicKey curve hash -> msg -> Signature curve hash -> Bool+verifyPhCtx prx ph ctx pub msg sig =+ case doVerify of+ CryptoPassed verified -> verified+ CryptoFailed _ -> False+ where+ doVerify = do+ (bsR, pR, sS) <- decodeSignature prx sig+ nPub <- pointNegate prx `fmap` publicPoint prx pub+ let sK = getK prx ph ctx pub bsR msg+ pR' = pointsSmulVarTime prx sS sK nPub+ return (pR == pR')++emptyCtx :: Bytes+emptyCtx = B.empty++getK :: forall proxy curve hash ctx msg .+ ( EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ CurveDigestSize curve+ , ByteArrayAccess ctx+ , ByteArrayAccess msg+ )+ => proxy curve -> Bool -> ctx -> PublicKey curve hash -> Bytes -> msg -> Scalar curve+getK prx ph ctx (PublicKey pub) bsR msg =+ let alg = undefined :: hash+ digK = hashWithDom prx alg ph ctx (bytes bsR <> bytes pub) msg+ in decodeScalarNoErr prx digK++encodeSignature :: EllipticCurveEdDSA curve+ => proxy curve+ -> (Bytes, Point curve, Scalar curve)+ -> Signature curve hash+encodeSignature prx (bsR, _, sS) = Signature $ buildAndFreeze $+ bytes bsR <> bytes bsS <> zero len0+ where+ bsS = encodeScalarLE prx sS :: Bytes+ len0 = signatureSize prx - B.length bsR - B.length bsS++decodeSignature :: ( EllipticCurveEdDSA curve+ , HashDigestSize hash ~ CurveDigestSize curve+ )+ => proxy curve+ -> Signature curve hash+ -> CryptoFailable (Bytes, Point curve, Scalar curve)+decodeSignature prx (Signature bs) = do+ let (bsR, bsS) = B.splitAt (publicKeySize prx) bs+ pR <- decodePoint prx bsR+ sS <- decodeScalarLE prx bsS+ return (bsR, pR, sS)++-- implementations are supposed to decode any scalar up to the size of the digest+decodeScalarNoErr :: (EllipticCurveEdDSA curve, ByteArrayAccess bs)+ => proxy curve -> bs -> Scalar curve+decodeScalarNoErr prx = unwrap "decodeScalarNoErr" . decodeScalarLE prx++unwrap :: String -> CryptoFailable a -> a+unwrap name (CryptoFailed _) = error (name ++ ": assumption failed")+unwrap _ (CryptoPassed x) = x+++-- Ed25519 implementation++instance EllipticCurveEdDSA Curve_Edwards25519 where+ type CurveDigestSize Curve_Edwards25519 = 64+ secretKeySize _ = 32++ hashWithDom _ alg ph ctx bss+ | not ph && B.null ctx = digestDomMsg alg bss+ | otherwise = digestDomMsg alg (dom <> bss)+ where dom = bytes ("SigEd25519 no Ed25519 collisions" :: ByteString) <>+ byte (if ph then 1 else 0) <>+ byte (fromIntegral $ B.length ctx) <>+ bytes ctx++ pointPublic _ = PublicKey . Edwards25519.pointEncode+ publicPoint _ = Edwards25519.pointDecode+ encodeScalarLE _ = Edwards25519.scalarEncode+ decodeScalarLE _ = Edwards25519.scalarDecodeLong++ scheduleSecret prx alg priv =+ (decodeScalarNoErr prx clamped, B.dropView hashed 32)+ where+ hashed = digest alg $ \update -> update priv++ clamped :: Bytes+ clamped = B.copyAndFreeze (B.takeView hashed 32) $ \p -> do+ b0 <- peekElemOff p 0 :: IO Word8+ b31 <- peekElemOff p 31 :: IO Word8+ pokeElemOff p 31 ((b31 .&. 0x7F) .|. 0x40)+ pokeElemOff p 0 (b0 .&. 0xF8)+++{-+ Optimize hashing by limiting the number of roundtrips between Haskell and C.+ Hash "update" functions do not use unsafe FFI call, so better concanetate+ small fragments together and call the update function once.++ Using the IO hash interface avoids context buffer copies.++ Data type Digest is not used directly but converted to Bytes early. Any use of+ withByteArray on the unpinned Digest backend would require copy through a+ pinned trampoline.+-}++digestDomMsg :: (HashAlgorithm alg, ByteArrayAccess msg)+ => alg -> Builder -> msg -> Bytes+digestDomMsg alg bss bs = digest alg $ \update ->+ update (buildAndFreeze bss :: Bytes) >> update bs++digest :: HashAlgorithm alg+ => alg+ -> ((forall bs . ByteArrayAccess bs => bs -> IO ()) -> IO ())+ -> Bytes+digest alg fn = B.convert $ unsafeDoIO $ do+ mc <- hashMutableInitWith alg+ fn (hashMutableUpdate mc)+ hashMutableFinalize mc
Crypto/PubKey/ElGamal.hs view
@@ -19,17 +19,17 @@ , EphemeralKey(..) , SharedKey , Signature- -- * generation+ -- * Generation , generatePrivate , generatePublic- -- * encryption and decryption with no scheme+ -- * Encryption and decryption with no scheme , encryptWith , encrypt , decrypt- -- * signature primitives+ -- * Signature primitives , signWith , sign- -- * verification primitives+ -- * Verification primitives , verify ) where
Crypto/PubKey/Internal.hs view
@@ -8,10 +8,18 @@ module Crypto.PubKey.Internal ( and' , (&&!)+ , dsaTruncHash+ , dsaTruncHashDigest ) where +import Data.Bits (shiftR) import Data.List (foldl') +import Crypto.Hash+import Crypto.Internal.ByteArray (ByteArrayAccess)+import Crypto.Number.Basic (numBits)+import Crypto.Number.Serialize+ -- | This is a strict version of and and' :: [Bool] -> Bool and' l = foldl' (&&!) True l@@ -22,3 +30,18 @@ True &&! False = False False &&! True = False False &&! False = False++-- | Truncate and hash for DSA and ECDSA.+dsaTruncHash :: (ByteArrayAccess msg, HashAlgorithm hash) => hash -> msg -> Integer -> Integer+dsaTruncHash hashAlg = dsaTruncHashDigest . hashWith hashAlg++-- | Truncate a digest for DSA and ECDSA.+dsaTruncHashDigest :: HashAlgorithm hash => Digest hash -> Integer -> Integer+dsaTruncHashDigest digest n+ | d > 0 = shiftR e d+ | otherwise = e+ where e = os2ip digest+ d = hashDigestSize (getHashAlg digest) * 8 - numBits n++getHashAlg :: Digest hash -> hash+getHashAlg _ = undefined
Crypto/PubKey/RSA.hs view
@@ -10,13 +10,12 @@ , PublicKey(..) , PrivateKey(..) , Blinder(..)- -- * generation function+ -- * Generation function , generateWith , generate , generateBlinder ) where -import Crypto.Internal.Imports import Crypto.Random.Types import Crypto.Number.ModArithmetic (inverse, inverseCoprimes) import Crypto.Number.Generate (generateMax)@@ -55,7 +54,7 @@ -- generateWith :: (Integer, Integer) -- ^ chosen distinct primes p and q -> Int -- ^ size in bytes- -> Integer -- ^ RSA public exponant 'e'+ -> Integer -- ^ RSA public exponent 'e' -> Maybe (PublicKey, PrivateKey) generateWith (p,q) size e = case inverse e phi of@@ -81,7 +80,7 @@ -- | generate a pair of (private, public) key of size in bytes. generate :: MonadRandom m => Int -- ^ size in bytes- -> Integer -- ^ RSA public exponant 'e'+ -> Integer -- ^ RSA public exponent 'e' -> m (PublicKey, PrivateKey) generate size e = loop where
Crypto/PubKey/RSA/PKCS15.hs view
@@ -7,19 +7,19 @@ -- module Crypto.PubKey.RSA.PKCS15 (- -- * padding and unpadding+ -- * Padding and unpadding pad , padSignature , unpad- -- * private key operations+ -- * Private key operations , decrypt , decryptSafer , sign , signSafer- -- * public key operations+ -- * Public key operations , encrypt , verify- -- * hash ASN1 description+ -- * Hash ASN1 description , HashAlgorithmASN1 ) where @@ -111,8 +111,8 @@ -- | Produce a standard PKCS1.5 padding for signature padSignature :: ByteArray signature => Int -> signature -> Either Error signature padSignature klen signature- | klen < siglen+1 = Left SignatureTooLong- | otherwise = Right (B.pack padding `B.append` signature)+ | klen < siglen + 11 = Left SignatureTooLong+ | otherwise = Right (B.pack padding `B.append` signature) where siglen = B.length signature padding = 0 : 1 : (replicate (klen - siglen - 3) 0xff ++ [0])@@ -137,6 +137,8 @@ -- information from the timing of the operation, the blinder can be set to None. -- -- If unsure always set a blinder or use decryptSafer+--+-- The message is returned un-padded. decrypt :: Maybe Blinder -- ^ optional blinder -> PrivateKey -- ^ RSA private key -> ByteString -- ^ cipher text@@ -156,7 +158,8 @@ -- | encrypt a bytestring using the public key. ----- the message needs to be smaller than the key size - 11+-- The message needs to be smaller than the key size - 11.+-- The message should not be padded. encrypt :: MonadRandom m => PublicKey -> ByteString -> m (Either Error ByteString) encrypt pk m = do r <- pad (public_size pk) m
Crypto/PubKey/RSA/PSS.hs view
@@ -11,9 +11,13 @@ , defaultPSSParamsSHA1 -- * Sign and verify functions , signWithSalt+ , signDigestWithSalt , sign+ , signDigest , signSafer+ , signDigestSafer , verify+ , verifyDigest ) where import Crypto.Random.Types@@ -22,11 +26,13 @@ import Crypto.PubKey.RSA (generateBlinder) import Crypto.PubKey.MaskGenFunction import Crypto.Hash+import Crypto.Number.Basic (numBits) import Data.Bits (xor, shiftR, (.&.)) import Data.Word import Crypto.Internal.ByteArray (ByteArrayAccess, ByteArray)-import qualified Crypto.Internal.ByteArray as B (convert)+import qualified Crypto.Internal.ByteArray as B (convert, eq)+ import Data.ByteString (ByteString) import qualified Data.ByteString as B @@ -56,30 +62,43 @@ -- | Sign using the PSS parameters and the salt explicitely passed as parameters. -- -- the function ignore SaltLength from the PSS Parameters-signWithSalt :: HashAlgorithm hash- => ByteString -- ^ Salt to use- -> Maybe Blinder -- ^ optional blinder to use- -> PSSParams hash ByteString ByteString -- ^ PSS Parameters to use- -> PrivateKey -- ^ RSA Private Key- -> ByteString -- ^ Message to sign- -> Either Error ByteString-signWithSalt salt blinder params pk m- | k < hashLen + saltLen + 2 = Left InvalidParameters- | otherwise = Right $ dp blinder pk em- where mHash = B.convert $ hashWith (pssHash params) m- k = private_size pk- dbLen = k - hashLen - 1+signDigestWithSalt :: HashAlgorithm hash+ => ByteString -- ^ Salt to use+ -> Maybe Blinder -- ^ optional blinder to use+ -> PSSParams hash ByteString ByteString -- ^ PSS Parameters to use+ -> PrivateKey -- ^ RSA Private Key+ -> Digest hash -- ^ Message digest+ -> Either Error ByteString+signDigestWithSalt salt blinder params pk digest+ | emLen < hashLen + saltLen + 2 = Left InvalidParameters+ | otherwise = Right $ dp blinder pk em+ where k = private_size pk+ emLen = if emTruncate pubBits then k - 1 else k+ mHash = B.convert digest+ dbLen = emLen - hashLen - 1 saltLen = B.length salt hashLen = hashDigestSize (pssHash params)- pubBits = private_size pk * 8 -- to change if public_size is converted in bytes-+ pubBits = numBits (private_n pk) m' = B.concat [B.replicate 8 0,mHash,salt] h = B.convert $ hashWith (pssHash params) m' db = B.concat [B.replicate (dbLen - saltLen - 1) 0,B.singleton 1,salt]- dbmask = (pssMaskGenAlg params) h dbLen+ dbmask = pssMaskGenAlg params h dbLen maskedDB = B.pack $ normalizeToKeySize pubBits $ B.zipWith xor db dbmask em = B.concat [maskedDB, h, B.singleton (pssTrailerField params)] +-- | Sign using the PSS parameters and the salt explicitely passed as parameters.+--+-- the function ignore SaltLength from the PSS Parameters+signWithSalt :: HashAlgorithm hash+ => ByteString -- ^ Salt to use+ -> Maybe Blinder -- ^ optional blinder to use+ -> PSSParams hash ByteString ByteString -- ^ PSS Parameters to use+ -> PrivateKey -- ^ RSA Private Key+ -> ByteString -- ^ Message to sign+ -> Either Error ByteString+signWithSalt salt blinder params pk m = signDigestWithSalt salt blinder params pk mHash+ where mHash = hashWith (pssHash params) m+ -- | Sign using the PSS Parameters sign :: (HashAlgorithm hash, MonadRandom m) => Maybe Blinder -- ^ optional blinder to use@@ -91,6 +110,17 @@ salt <- getRandomBytes (pssSaltLength params) return (signWithSalt salt blinder params pk m) +-- | Sign using the PSS Parameters+signDigest :: (HashAlgorithm hash, MonadRandom m)+ => Maybe Blinder -- ^ optional blinder to use+ -> PSSParams hash ByteString ByteString -- ^ PSS Parameters to use+ -> PrivateKey -- ^ RSA Private Key+ -> Digest hash -- ^ Message digest+ -> m (Either Error ByteString)+signDigest blinder params pk digest = do+ salt <- getRandomBytes (pssSaltLength params)+ return (signDigestWithSalt salt blinder params pk digest)+ -- | Sign using the PSS Parameters and an automatically generated blinder. signSafer :: (HashAlgorithm hash, MonadRandom m) => PSSParams hash ByteString ByteString -- ^ PSS Parameters to use@@ -101,6 +131,16 @@ blinder <- generateBlinder (private_n pk) sign (Just blinder) params pk m +-- | Sign using the PSS Parameters and an automatically generated blinder.+signDigestSafer :: (HashAlgorithm hash, MonadRandom m)+ => PSSParams hash ByteString ByteString -- ^ PSS Parameters to use+ -> PrivateKey -- ^ private key+ -> Digest hash -- ^ message digst+ -> m (Either Error ByteString)+signDigestSafer params pk digest = do+ blinder <- generateBlinder (private_n pk)+ signDigest (Just blinder) params pk digest+ -- | Verify a signature using the PSS Parameters verify :: HashAlgorithm hash => PSSParams hash ByteString ByteString@@ -110,30 +150,50 @@ -> ByteString -- ^ Message to verify -> ByteString -- ^ Signature -> Bool-verify params pk m s- | public_size pk /= B.length s = False+verify params pk m = verifyDigest params pk mHash+ where mHash = hashWith (pssHash params) m++-- | Verify a signature using the PSS Parameters+verifyDigest :: HashAlgorithm hash+ => PSSParams hash ByteString ByteString+ -- ^ PSS Parameters to use to verify,+ -- this need to be identical to the parameters when signing+ -> PublicKey -- ^ RSA Public Key+ -> Digest hash -- ^ Digest to verify+ -> ByteString -- ^ Signature+ -> Bool+verifyDigest params pk digest s+ | B.length s /= k = False+ | B.any (/= 0) pre = False | B.last em /= pssTrailerField params = False- | not (B.all (== 0) ps0) = False+ | B.any (/= 0) ps0 = False | b1 /= B.singleton 1 = False- | otherwise = h == B.convert h'+ | otherwise = B.eq h h' where -- parameters hashLen = hashDigestSize (pssHash params)- dbLen = public_size pk - hashLen - 1- pubBits = public_size pk * 8 -- to change if public_size is converted in bytes+ mHash = B.convert digest+ k = public_size pk+ emLen = if emTruncate pubBits then k - 1 else k+ dbLen = emLen - hashLen - 1+ pubBits = numBits (public_n pk) -- unmarshall fields- em = ep pk s- maskedDB = B.take (B.length em - hashLen - 1) em+ (pre, em) = B.splitAt (k - emLen) (ep pk s) -- drop 0..1 byte+ maskedDB = B.take dbLen em h = B.take hashLen $ B.drop (B.length maskedDB) em- dbmask = (pssMaskGenAlg params) h dbLen+ dbmask = pssMaskGenAlg params h dbLen db = B.pack $ normalizeToKeySize pubBits $ B.zipWith xor maskedDB dbmask (ps0,z) = B.break (== 1) db (b1,salt) = B.splitAt 1 z- mHash = B.convert $ hashWith (pssHash params) m m' = B.concat [B.replicate 8 0,mHash,salt] h' = hashWith (pssHash params) m' +-- When the modulus has bit length 1 modulo 8 we drop the first byte.+emTruncate :: Int -> Bool+emTruncate bits = ((bits-1) .&. 0x7) == 0+ normalizeToKeySize :: Int -> [Word8] -> [Word8] normalizeToKeySize _ [] = [] -- very unlikely normalizeToKeySize bits (x:xs) = x .&. mask : xs where mask = if sh > 0 then 0xff `shiftR` (8-sh) else 0xff- sh = ((bits-1) .&. 0x7)+ sh = (bits-1) .&. 0x7+
Crypto/PubKey/RSA/Prim.hs view
@@ -7,9 +7,9 @@ -- module Crypto.PubKey.RSA.Prim (- -- * decrypt primitive+ -- * Decrypt primitive dp- -- * encrypt primitive+ -- * Encrypt primitive , ep ) where
Crypto/PubKey/RSA/Types.hs view
@@ -41,8 +41,8 @@ data PublicKey = PublicKey { public_size :: Int -- ^ size of key in bytes , public_n :: Integer -- ^ public p*q- , public_e :: Integer -- ^ public exponant e- } deriving (Show,Read,Eq,Data,Typeable)+ , public_e :: Integer -- ^ public exponent e+ } deriving (Show,Read,Eq,Data) instance NFData PublicKey where rnf (PublicKey sz n e) = rnf n `seq` rnf e `seq` sz `seq` ()@@ -59,13 +59,13 @@ -- data PrivateKey = PrivateKey { private_pub :: PublicKey -- ^ public part of a private key (size, n and e)- , private_d :: Integer -- ^ private exponant d+ , private_d :: Integer -- ^ private exponent d , private_p :: Integer -- ^ p prime number , private_q :: Integer -- ^ q prime number , private_dP :: Integer -- ^ d mod (p-1) , private_dQ :: Integer -- ^ d mod (q-1) , private_qinv :: Integer -- ^ q^(-1) mod p- } deriving (Show,Read,Eq,Data,Typeable)+ } deriving (Show,Read,Eq,Data) instance NFData PrivateKey where rnf (PrivateKey pub d p q dp dq qinv) =@@ -87,7 +87,7 @@ -- -- note the RSA private key contains already an instance of public key for efficiency newtype KeyPair = KeyPair PrivateKey- deriving (Show,Read,Eq,Data,Typeable,NFData)+ deriving (Show,Read,Eq,Data,NFData) -- | Public key of a RSA KeyPair toPublicKey :: KeyPair -> PublicKey
+ Crypto/PubKey/Rabin/Basic.hs view
@@ -0,0 +1,230 @@+-- |+-- Module : Crypto.PubKey.Rabin.Basic+-- License : BSD-style+-- Maintainer : Carlos Rodriguez-Vega <crodveg@yahoo.es>+-- Stability : experimental+-- Portability : unknown+--+-- Rabin cryptosystem for public-key cryptography and digital signature.+--+{-# LANGUAGE DeriveDataTypeable #-}+module Crypto.PubKey.Rabin.Basic+ ( PublicKey(..)+ , PrivateKey(..)+ , Signature(..)+ , generate+ , encrypt+ , encryptWithSeed+ , decrypt+ , sign+ , signWith+ , verify+ ) where++import Data.ByteString (ByteString)+import qualified Data.ByteString as B+import Data.Data+import Data.Either (rights)++import Crypto.Hash+import Crypto.Number.Basic (gcde, numBytes)+import Crypto.Number.ModArithmetic (expSafe, jacobi)+import Crypto.Number.Serialize (i2osp, i2ospOf_, os2ip)+import Crypto.PubKey.Rabin.OAEP +import Crypto.PubKey.Rabin.Types+import Crypto.Random (MonadRandom, getRandomBytes)++-- | Represent a Rabin public key.+data PublicKey = PublicKey+ { public_size :: Int -- ^ size of key in bytes+ , public_n :: Integer -- ^ public p*q+ } deriving (Show, Read, Eq, Data)++-- | Represent a Rabin private key.+data PrivateKey = PrivateKey+ { private_pub :: PublicKey+ , private_p :: Integer -- ^ p prime number+ , private_q :: Integer -- ^ q prime number+ , private_a :: Integer+ , private_b :: Integer+ } deriving (Show, Read, Eq, Data)++-- | Rabin Signature.+data Signature = Signature (Integer, Integer) deriving (Show, Read, Eq, Data)++-- | Generate a pair of (private, public) key of size in bytes.+-- Primes p and q are both congruent 3 mod 4.+--+-- See algorithm 8.11 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+generate :: MonadRandom m+ => Int+ -> m (PublicKey, PrivateKey)+generate size = do+ (p, q) <- generatePrimes size (\p -> p `mod` 4 == 3) (\q -> q `mod` 4 == 3)+ return $ generateKeys p q+ where + generateKeys p q =+ let n = p*q+ (a, b, _) = gcde p q + publicKey = PublicKey { public_size = size+ , public_n = n }+ privateKey = PrivateKey { private_pub = publicKey+ , private_p = p+ , private_q = q+ , private_a = a+ , private_b = b }+ in (publicKey, privateKey)++-- | Encrypt plaintext using public key an a predefined OAEP seed.+--+-- See algorithm 8.11 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+encryptWithSeed :: HashAlgorithm hash+ => ByteString -- ^ Seed+ -> OAEPParams hash ByteString ByteString -- ^ OAEP padding+ -> PublicKey -- ^ public key+ -> ByteString -- ^ plaintext+ -> Either Error ByteString+encryptWithSeed seed oaep pk m =+ let n = public_n pk+ k = numBytes n+ in do+ m' <- pad seed oaep k m+ let m'' = os2ip m'+ return $ i2osp $ expSafe m'' 2 n++-- | Encrypt plaintext using public key.+encrypt :: (HashAlgorithm hash, MonadRandom m)+ => OAEPParams hash ByteString ByteString -- ^ OAEP padding parameters+ -> PublicKey -- ^ public key+ -> ByteString -- ^ plaintext + -> m (Either Error ByteString)+encrypt oaep pk m = do+ seed <- getRandomBytes hashLen+ return $ encryptWithSeed seed oaep pk m+ where+ hashLen = hashDigestSize (oaepHash oaep) ++-- | Decrypt ciphertext using private key.+--+-- See algorithm 8.12 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+decrypt :: HashAlgorithm hash+ => OAEPParams hash ByteString ByteString -- ^ OAEP padding parameters+ -> PrivateKey -- ^ private key+ -> ByteString -- ^ ciphertext+ -> Maybe ByteString+decrypt oaep pk c =+ let p = private_p pk + q = private_q pk + a = private_a pk + b = private_b pk+ n = public_n $ private_pub pk+ k = numBytes n+ c' = os2ip c+ solutions = rights $ toList $ mapTuple (unpad oaep k . i2ospOf_ k) $ sqroot' c' p q a b n+ in if length solutions /= 1 then Nothing+ else Just $ head solutions+ where toList (w, x, y, z) = w:x:y:z:[]+ mapTuple f (w, x, y, z) = (f w, f x, f y, f z)++-- | Sign message using padding, hash algorithm and private key.+--+-- See <https://en.wikipedia.org/wiki/Rabin_signature_algorithm>.+signWith :: HashAlgorithm hash+ => ByteString -- ^ padding+ -> PrivateKey -- ^ private key+ -> hash -- ^ hash function+ -> ByteString -- ^ message to sign+ -> Either Error Signature+signWith padding pk hashAlg m = do+ h <- calculateHash padding pk hashAlg m+ signature <- calculateSignature h+ return signature+ where+ calculateSignature h =+ let p = private_p pk+ q = private_q pk + a = private_a pk + b = private_b pk+ n = public_n $ private_pub pk+ in if h >= n then Left MessageTooLong+ else let (r, _, _, _) = sqroot' h p q a b n+ in Right $ Signature (os2ip padding, r)++-- | Sign message using hash algorithm and private key.+--+-- See <https://en.wikipedia.org/wiki/Rabin_signature_algorithm>.+sign :: (MonadRandom m, HashAlgorithm hash)+ => PrivateKey -- ^ private key+ -> hash -- ^ hash function+ -> ByteString -- ^ message to sign+ -> m (Either Error Signature)+sign pk hashAlg m = do+ padding <- findPadding+ return $ signWith padding pk hashAlg m+ where + findPadding = do+ padding <- getRandomBytes 8+ case calculateHash padding pk hashAlg m of+ Right _ -> return padding+ _ -> findPadding++-- | Calculate hash of message and padding.+-- If the padding is valid, then the result of the hash operation is returned, otherwise an error.+calculateHash :: HashAlgorithm hash+ => ByteString -- ^ padding+ -> PrivateKey -- ^ private key+ -> hash -- ^ hash function+ -> ByteString -- ^ message to sign+ -> Either Error Integer+calculateHash padding pk hashAlg m = + let p = private_p pk+ q = private_q pk+ h = os2ip $ hashWith hashAlg $ B.append padding m+ in case (jacobi (h `mod` p) p, jacobi (h `mod` q) q) of+ (Just 1, Just 1) -> Right h+ _ -> Left InvalidParameters++-- | Verify signature using hash algorithm and public key.+--+-- See <https://en.wikipedia.org/wiki/Rabin_signature_algorithm>.+verify :: HashAlgorithm hash+ => PublicKey -- ^ private key+ -> hash -- ^ hash function+ -> ByteString -- ^ message+ -> Signature -- ^ signature+ -> Bool+verify pk hashAlg m (Signature (padding, s)) =+ let n = public_n pk+ p = i2osp padding+ h = os2ip $ hashWith hashAlg $ B.append p m + h' = expSafe s 2 n+ in h' == h++-- | Square roots modulo prime p where p is congruent 3 mod 4+-- Value a must be a quadratic residue modulo p (i.e. jacobi symbol (a/n) = 1).+--+-- See algorithm 3.36 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+sqroot :: Integer+ -> Integer -- ^ prime p+ -> (Integer, Integer)+sqroot a p =+ let r = expSafe a ((p + 1) `div` 4) p+ in (r, -r)++-- | Square roots modulo n given its prime factors p and q (both congruent 3 mod 4)+-- Value a must be a quadratic residue of both modulo p and modulo q (i.e. jacobi symbols (a/p) = (a/q) = 1).+-- +-- See algorithm 3.44 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+sqroot' :: Integer + -> Integer -- ^ prime p+ -> Integer -- ^ prime q+ -> Integer -- ^ c such that c*p + d*q = 1+ -> Integer -- ^ d such that c*p + d*q = 1+ -> Integer -- ^ n = p*q+ -> (Integer, Integer, Integer, Integer)+sqroot' a p q c d n =+ let (r, _) = sqroot a p+ (s, _) = sqroot a q+ x = (r*d*q + s*c*p) `mod` n+ y = (r*d*q - s*c*p) `mod` n+ in (x, (-x) `mod` n, y, (-y) `mod` n)
+ Crypto/PubKey/Rabin/Modified.hs view
@@ -0,0 +1,101 @@+-- |+-- Module : Crypto.PubKey.Rabin.Modified+-- License : BSD-style+-- Maintainer : Carlos Rodriguez-Vega <crodveg@yahoo.es>+-- Stability : experimental+-- Portability : unknown+--+-- Modified-Rabin public-key digital signature algorithm.+-- See algorithm 11.30 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+--+{-# LANGUAGE DeriveDataTypeable #-}+module Crypto.PubKey.Rabin.Modified+ ( PublicKey(..)+ , PrivateKey(..)+ , generate+ , sign+ , verify+ ) where++import Data.ByteString+import Data.Data++import Crypto.Hash+import Crypto.Number.ModArithmetic (expSafe, jacobi)+import Crypto.Number.Serialize (os2ip)+import Crypto.PubKey.Rabin.Types+import Crypto.Random.Types++-- | Represent a Modified-Rabin public key.+data PublicKey = PublicKey+ { public_size :: Int -- ^ size of key in bytes+ , public_n :: Integer -- ^ public p*q+ } deriving (Show, Read, Eq, Data)++-- | Represent a Modified-Rabin private key.+data PrivateKey = PrivateKey+ { private_pub :: PublicKey+ , private_p :: Integer -- ^ p prime number+ , private_q :: Integer -- ^ q prime number+ , private_d :: Integer+ } deriving (Show, Read, Eq, Data)++-- | Generate a pair of (private, public) key of size in bytes.+-- Prime p is congruent 3 mod 8 and prime q is congruent 7 mod 8.+generate :: MonadRandom m+ => Int + -> m (PublicKey, PrivateKey)+generate size = do+ (p, q) <- generatePrimes size (\p -> p `mod` 8 == 3) (\q -> q `mod` 8 == 7)+ return $ generateKeys p q+ where + generateKeys p q =+ let n = p*q + d = (n - p - q + 5) `div` 8+ publicKey = PublicKey { public_size = size+ , public_n = n }+ privateKey = PrivateKey { private_pub = publicKey+ , private_p = p+ , private_q = q+ , private_d = d }+ in (publicKey, privateKey)++-- | Sign message using hash algorithm and private key.+sign :: HashAlgorithm hash+ => PrivateKey -- ^ private key+ -> hash -- ^ hash function+ -> ByteString -- ^ message to sign+ -> Either Error Integer+sign pk hashAlg m =+ let d = private_d pk+ n = public_n $ private_pub pk+ h = os2ip $ hashWith hashAlg m+ limit = (n - 6) `div` 16+ in if h > limit then Left MessageTooLong+ else let h' = 16*h + 6+ in case jacobi h' n of+ Just 1 -> Right $ expSafe h' d n+ Just (-1) -> Right $ expSafe (h' `div` 2) d n+ _ -> Left InvalidParameters++-- | Verify signature using hash algorithm and public key.+verify :: HashAlgorithm hash+ => PublicKey -- ^ public key+ -> hash -- ^ hash function+ -> ByteString -- ^ message+ -> Integer -- ^ signature+ -> Bool+verify pk hashAlg m s =+ let n = public_n pk+ h = os2ip $ hashWith hashAlg m+ s' = expSafe s 2 n+ s'' = case s' `mod` 8 of+ 6 -> s'+ 3 -> 2*s'+ 7 -> n - s'+ 2 -> 2*(n - s')+ _ -> 0+ in case s'' `mod` 16 of+ 6 -> let h' = (s'' - 6) `div` 16+ in h' == h + _ -> False
+ Crypto/PubKey/Rabin/OAEP.hs view
@@ -0,0 +1,100 @@+-- |+-- Module : Crypto.PubKey.Rabin.OAEP+-- License : BSD-style+-- Maintainer : Carlos Rodriguez-Vega <crodveg@yahoo.es>+-- Stability : experimental+-- Portability : unknown+--+-- OAEP padding scheme.+-- See <http://en.wikipedia.org/wiki/Optimal_asymmetric_encryption_padding>.+--+module Crypto.PubKey.Rabin.OAEP+ ( OAEPParams(..)+ , defaultOAEPParams+ , pad+ , unpad+ ) where+ +import Data.ByteString (ByteString)+import qualified Data.ByteString as B+import Data.Bits (xor)++import Crypto.Hash+import Crypto.Internal.ByteArray (ByteArrayAccess, ByteArray)+import qualified Crypto.Internal.ByteArray as B (convert)+import Crypto.PubKey.MaskGenFunction+import Crypto.PubKey.Internal (and')+import Crypto.PubKey.Rabin.Types++-- | Parameters for OAEP padding.+data OAEPParams hash seed output = OAEPParams+ { oaepHash :: hash -- ^ hash function to use+ , oaepMaskGenAlg :: MaskGenAlgorithm seed output -- ^ mask Gen algorithm to use+ , oaepLabel :: Maybe ByteString -- ^ optional label prepended to message+ }++-- | Default Params with a specified hash function.+defaultOAEPParams :: (ByteArrayAccess seed, ByteArray output, HashAlgorithm hash)+ => hash+ -> OAEPParams hash seed output+defaultOAEPParams hashAlg =+ OAEPParams { oaepHash = hashAlg+ , oaepMaskGenAlg = mgf1 hashAlg+ , oaepLabel = Nothing+ }++-- | Pad a message using OAEP.+pad :: HashAlgorithm hash+ => ByteString -- ^ Seed+ -> OAEPParams hash ByteString ByteString -- ^ OAEP params to use+ -> Int -- ^ size of public key in bytes+ -> ByteString -- ^ Message pad+ -> Either Error ByteString+pad seed oaep k msg+ | k < 2*hashLen+2 = Left InvalidParameters+ | B.length seed /= hashLen = Left InvalidParameters+ | mLen > k - 2*hashLen-2 = Left MessageTooLong+ | otherwise = Right em+ where -- parameters+ mLen = B.length msg+ mgf = oaepMaskGenAlg oaep+ labelHash = hashWith (oaepHash oaep) (maybe B.empty id $ oaepLabel oaep)+ hashLen = hashDigestSize (oaepHash oaep)+ -- put fields+ ps = B.replicate (k - mLen - 2*hashLen - 2) 0+ db = B.concat [B.convert labelHash, ps, B.singleton 0x1, msg]+ dbmask = mgf seed (k - hashLen - 1)+ maskedDB = B.pack $ B.zipWith xor db dbmask+ seedMask = mgf maskedDB hashLen+ maskedSeed = B.pack $ B.zipWith xor seed seedMask+ em = B.concat [B.singleton 0x0, maskedSeed, maskedDB]++-- | Un-pad a OAEP encoded message.+unpad :: HashAlgorithm hash+ => OAEPParams hash ByteString ByteString -- ^ OAEP params to use+ -> Int -- ^ size of public key in bytes+ -> ByteString -- ^ encoded message (not encrypted)+ -> Either Error ByteString+unpad oaep k em+ | paddingSuccess = Right msg+ | otherwise = Left MessageNotRecognized+ where -- parameters+ mgf = oaepMaskGenAlg oaep+ labelHash = B.convert $ hashWith (oaepHash oaep) (maybe B.empty id $ oaepLabel oaep)+ hashLen = hashDigestSize (oaepHash oaep)+ -- getting em's fields+ (pb, em0) = B.splitAt 1 em+ (maskedSeed, maskedDB) = B.splitAt hashLen em0+ seedMask = mgf maskedDB hashLen+ seed = B.pack $ B.zipWith xor maskedSeed seedMask+ dbmask = mgf seed (k - hashLen - 1)+ db = B.pack $ B.zipWith xor maskedDB dbmask+ -- getting db's fields+ (labelHash', db1) = B.splitAt hashLen db+ (_, db2) = B.break (/= 0) db1+ (ps1, msg) = B.splitAt 1 db2++ paddingSuccess = and' [ labelHash' == labelHash -- no need for constant eq+ , ps1 == B.replicate 1 0x1+ , pb == B.replicate 1 0x0+ ]
+ Crypto/PubKey/Rabin/RW.hs view
@@ -0,0 +1,166 @@+-- |+-- Module : Crypto.PubKey.Rabin.RW+-- License : BSD-style+-- Maintainer : Carlos Rodriguez-Vega <crodveg@yahoo.es>+-- Stability : experimental+-- Portability : unknown+--+-- Rabin-Williams cryptosystem for public-key encryption and digital signature. +-- See pages 323 - 324 in "Computational Number Theory and Modern Cryptography" by Song Y. Yan.+-- Also inspired by https://github.com/vanilala/vncrypt/blob/master/vncrypt/vnrw_gmp.c.+-- +{-# LANGUAGE DeriveDataTypeable #-}+module Crypto.PubKey.Rabin.RW+ ( PublicKey(..)+ , PrivateKey(..)+ , generate+ , encrypt+ , encryptWithSeed+ , decrypt+ , sign+ , verify+ ) where++import Data.ByteString+import Data.Data++import Crypto.Hash+import Crypto.Number.Basic (numBytes)+import Crypto.Number.ModArithmetic (expSafe, jacobi)+import Crypto.Number.Serialize (i2osp, i2ospOf_, os2ip)+import Crypto.PubKey.Rabin.OAEP+import Crypto.PubKey.Rabin.Types+import Crypto.Random.Types++-- | Represent a Rabin-Williams public key.+data PublicKey = PublicKey+ { public_size :: Int -- ^ size of key in bytes+ , public_n :: Integer -- ^ public p*q+ } deriving (Show, Read, Eq, Data)++-- | Represent a Rabin-Williams private key.+data PrivateKey = PrivateKey+ { private_pub :: PublicKey+ , private_p :: Integer -- ^ p prime number+ , private_q :: Integer -- ^ q prime number+ , private_d :: Integer+ } deriving (Show, Read, Eq, Data)++-- | Generate a pair of (private, public) key of size in bytes.+-- Prime p is congruent 3 mod 8 and prime q is congruent 7 mod 8.+generate :: MonadRandom m+ => Int + -> m (PublicKey, PrivateKey)+generate size = do+ (p, q) <- generatePrimes size (\p -> p `mod` 8 == 3) (\q -> q `mod` 8 == 7) + return (generateKeys p q)+ where + generateKeys p q =+ let n = p*q + d = ((p - 1)*(q - 1) `div` 4 + 1) `div` 2+ publicKey = PublicKey { public_size = size+ , public_n = n }+ privateKey = PrivateKey { private_pub = publicKey+ , private_p = p+ , private_q = q+ , private_d = d }+ in (publicKey, privateKey)++-- | Encrypt plaintext using public key an a predefined OAEP seed.+--+-- See algorithm 8.11 in "Handbook of Applied Cryptography" by Alfred J. Menezes et al.+encryptWithSeed :: HashAlgorithm hash+ => ByteString -- ^ Seed+ -> OAEPParams hash ByteString ByteString -- ^ OAEP padding+ -> PublicKey -- ^ public key+ -> ByteString -- ^ plaintext+ -> Either Error ByteString+encryptWithSeed seed oaep pk m =+ let n = public_n pk+ k = numBytes n+ in do+ m' <- pad seed oaep k m+ m'' <- ep1 n $ os2ip m'+ return $ i2osp $ ep2 n m''++-- | Encrypt plaintext using public key.+encrypt :: (HashAlgorithm hash, MonadRandom m)+ => OAEPParams hash ByteString ByteString -- ^ OAEP padding parameters+ -> PublicKey -- ^ public key+ -> ByteString -- ^ plaintext + -> m (Either Error ByteString)+encrypt oaep pk m = do+ seed <- getRandomBytes hashLen+ return $ encryptWithSeed seed oaep pk m+ where+ hashLen = hashDigestSize (oaepHash oaep) ++-- | Decrypt ciphertext using private key.+decrypt :: HashAlgorithm hash+ => OAEPParams hash ByteString ByteString -- ^ OAEP padding parameters+ -> PrivateKey -- ^ private key+ -> ByteString -- ^ ciphertext+ -> Maybe ByteString+decrypt oaep pk c =+ let d = private_d pk + n = public_n $ private_pub pk+ k = numBytes n+ c' = i2ospOf_ k $ dp2 n $ dp1 d n $ os2ip c+ in case unpad oaep k c' of+ Left _ -> Nothing+ Right p -> Just p ++-- | Sign message using hash algorithm and private key.+sign :: HashAlgorithm hash+ => PrivateKey -- ^ private key+ -> hash -- ^ hash function+ -> ByteString -- ^ message to sign+ -> Either Error Integer+sign pk hashAlg m =+ let d = private_d pk+ n = public_n $ private_pub pk+ in do+ m' <- ep1 n $ os2ip $ hashWith hashAlg m+ return $ dp1 d n m' ++-- | Verify signature using hash algorithm and public key.+verify :: HashAlgorithm hash+ => PublicKey -- ^ public key+ -> hash -- ^ hash function+ -> ByteString -- ^ message+ -> Integer -- ^ signature+ -> Bool+verify pk hashAlg m s =+ let n = public_n pk+ h = os2ip $ hashWith hashAlg m+ h' = dp2 n $ ep2 n s+ in h' == h++-- | Encryption primitive 1+ep1 :: Integer -> Integer -> Either Error Integer+ep1 n m =+ let m' = 2*m + 1+ m'' = 2*m'+ m''' = 2*m''+ in case jacobi m' n of+ Just (-1) | m'' < n -> Right m''+ Just 1 | m''' < n -> Right m'''+ _ -> Left InvalidParameters++-- | Encryption primitive 2+ep2 :: Integer -> Integer -> Integer+ep2 n m = expSafe m 2 n++-- | Decryption primitive 1+dp1 :: Integer -> Integer -> Integer -> Integer+dp1 d n c = expSafe c d n++-- | Decryption primitive 2+dp2 :: Integer -> Integer -> Integer+dp2 n c = let c' = c `div` 2+ c'' = (n - c) `div` 2+ in case c `mod` 4 of+ 0 -> ((c' `div` 2 - 1) `div` 2)+ 1 -> ((c'' `div` 2 - 1) `div` 2)+ 2 -> ((c' - 1) `div` 2)+ _ -> ((c'' - 1) `div` 2)
+ Crypto/PubKey/Rabin/Types.hs view
@@ -0,0 +1,43 @@+-- |+-- Module : Crypto.PubKey.Rabin.Types+-- License : BSD-style+-- Maintainer : Carlos Rodriguez-Vega <crodveg@yahoo.es>+-- Stability : experimental+-- Portability : unknown+--+module Crypto.PubKey.Rabin.Types+ ( Error(..)+ , generatePrimes+ ) where++import Crypto.Number.Basic (numBits)+import Crypto.Number.Prime (generatePrime, findPrimeFromWith)+import Crypto.Random.Types++type PrimeCondition = Integer -> Bool++-- | Error possible during encryption, decryption or signing.+data Error = MessageTooLong -- ^ the message to encrypt is too long+ | MessageNotRecognized -- ^ the message decrypted doesn't have a OAEP structure+ | InvalidParameters -- ^ some parameters lead to breaking assumptions+ deriving (Show, Eq)++-- | Generate primes p & q+generatePrimes :: MonadRandom m + => Int -- ^ size in bytes + -> PrimeCondition -- ^ condition prime p must satisfy+ -> PrimeCondition -- ^ condition prime q must satisfy+ -> m (Integer, Integer) -- ^ chosen distinct primes p and q+generatePrimes size pCond qCond =+ let pBits = (8*(size `div` 2))+ qBits = (8*(size - (size `div` 2)))+ in do+ p <- generatePrime' pBits pCond+ q <- generatePrime' qBits qCond+ return (p, q)+ where+ generatePrime' bits cond = do+ pr' <- generatePrime bits+ let pr = findPrimeFromWith cond pr'+ if numBits pr == bits then return pr+ else generatePrime' bits cond
Crypto/Random.hs view
@@ -16,6 +16,7 @@ , seedNew , seedFromInteger , seedToInteger+ , seedFromBinary -- * Deterministic Random class , getSystemDRG , drgNew@@ -29,10 +30,12 @@ , MonadPseudoRandom ) where +import Crypto.Error import Crypto.Random.Types import Crypto.Random.ChaChaDRG import Crypto.Random.SystemDRG import Data.ByteArray (ByteArray, ByteArrayAccess, ScrubbedBytes)+import qualified Data.ByteArray as B import Crypto.Internal.Imports import qualified Crypto.Number.Serialize as Serialize@@ -56,6 +59,12 @@ seedFromInteger :: Integer -> Seed seedFromInteger i = Seed $ Serialize.i2ospOf_ seedLength (i `mod` 2^(seedLength * 8)) +-- | Convert a binary to a seed+seedFromBinary :: ByteArrayAccess b => b -> CryptoFailable Seed+seedFromBinary b+ | B.length b /= 40 = CryptoFailed (CryptoError_SeedSizeInvalid)+ | otherwise = CryptoPassed $ Seed $ B.convert b+ -- | Create a new DRG from system entropy drgNew :: MonadRandom randomly => randomly ChaChaDRG drgNew = drgNewSeed `fmap` seedNew@@ -71,6 +80,13 @@ -- -- It can also be used in other contexts provided the input -- has been properly randomly generated.+--+-- Note that the @Arbitrary@ instance provided by QuickCheck for 'Word64' does+-- not have a uniform distribution. It is often better to use instead+-- @arbitraryBoundedRandom@.+--+-- System endianness impacts how the tuple is interpreted and therefore changes+-- the resulting DRG. drgNewTest :: (Word64, Word64, Word64, Word64, Word64) -> ChaChaDRG drgNewTest = initializeWords
Crypto/Random/ChaChaDRG.hs view
@@ -14,7 +14,7 @@ import Crypto.Random.Types import Crypto.Internal.Imports-import Crypto.Internal.ByteArray (ByteArray, ScrubbedBytes)+import Crypto.Internal.ByteArray (ByteArray, ByteArrayAccess, ScrubbedBytes) import qualified Crypto.Internal.ByteArray as B import Foreign.Storable (pokeElemOff) @@ -29,7 +29,7 @@ -- | Initialize a new ChaCha context with the number of rounds, -- the key and the nonce associated.-initialize :: ByteArray seed+initialize :: ByteArrayAccess seed => seed -- ^ 40 bytes of seed -> ChaChaDRG -- ^ the initial ChaCha state initialize seed = ChaChaDRG $ C.initializeSimple seed
Crypto/Random/Entropy/Backend.hs view
@@ -14,6 +14,7 @@ ) where import Foreign.Ptr+import Data.Proxy import Data.Word (Word8) import Crypto.Random.Entropy.Source #ifdef SUPPORT_RDRAND@@ -30,12 +31,12 @@ supportedBackends = [ #ifdef SUPPORT_RDRAND- openBackend (undefined :: RDRand),+ openBackend (Proxy :: Proxy RDRand), #endif #ifdef WINDOWS- openBackend (undefined :: WinCryptoAPI)+ openBackend (Proxy :: Proxy WinCryptoAPI) #else- openBackend (undefined :: DevRandom), openBackend (undefined :: DevURandom)+ openBackend (Proxy :: Proxy DevRandom), openBackend (Proxy :: Proxy DevURandom) #endif ] @@ -43,9 +44,9 @@ data EntropyBackend = forall b . EntropySource b => EntropyBackend b -- | Open a backend handle-openBackend :: EntropySource b => b -> IO (Maybe EntropyBackend)+openBackend :: EntropySource b => Proxy b -> IO (Maybe EntropyBackend) openBackend b = fmap EntropyBackend `fmap` callOpen b- where callOpen :: EntropySource b => b -> IO (Maybe b)+ where callOpen :: EntropySource b => Proxy b -> IO (Maybe b) callOpen _ = entropyOpen -- | Gather randomness from an open handle
Crypto/Random/Entropy/RDRand.hs view
@@ -21,7 +21,7 @@ foreign import ccall unsafe "cryptonite_get_rand_bytes" c_get_rand_bytes :: Ptr Word8 -> CInt -> IO CInt --- | fake handle to Intel RDRand entropy cpu instruction+-- | Fake handle to Intel RDRand entropy CPU instruction data RDRand = RDRand instance EntropySource RDRand where
Crypto/Random/Entropy/Source.hs view
@@ -13,10 +13,10 @@ -- | A handle to an entropy maker, either a system capability -- or a hardware generator. class EntropySource a where- -- | try to open an handle for this source+ -- | Try to open an handle for this source entropyOpen :: IO (Maybe a)- -- | try to gather a number of entropy bytes into a buffer.- -- return the number of actual bytes gathered+ -- | Try to gather a number of entropy bytes into a buffer.+ -- Return the number of actual bytes gathered entropyGather :: a -> Ptr Word8 -> Int -> IO Int -- | Close an open handle entropyClose :: a -> IO ()
Crypto/Random/Entropy/Unix.hs view
@@ -22,10 +22,10 @@ type H = Handle type DeviceName = String --- | Entropy device /dev/random on unix system +-- | Entropy device @/dev/random@ on unix system newtype DevRandom = DevRandom DeviceName --- | Entropy device /dev/urandom on unix system +-- | Entropy device @/dev/urandom@ on unix system newtype DevURandom = DevURandom DeviceName instance EntropySource DevRandom where@@ -58,7 +58,7 @@ withDev filepath f = openDev filepath >>= \h -> case h of Nothing -> error ("device " ++ filepath ++ " cannot be grabbed")- Just fd -> f fd >>= \r -> (closeDev fd >> return r)+ Just fd -> f fd `E.finally` closeDev fd closeDev :: H -> IO () closeDev h = hClose h
Crypto/Random/Entropy/Unsafe.hs view
@@ -16,8 +16,8 @@ -- | Refill the entropy in a buffer ----- call each entropy backend in turn until the buffer has--- been replenish.+-- Call each entropy backend in turn until the buffer has+-- been replenished. -- -- If the buffer cannot be refill after 3 loopings, this will raise -- an User Error exception
Crypto/Random/Entropy/Windows.hs view
@@ -5,7 +5,7 @@ -- Stability : experimental -- Portability : Good ----- code originally from the entropy package and thus is:+-- Code originally from the entropy package and thus is: -- Copyright (c) Thomas DuBuisson. -- {-# LANGUAGE ForeignFunctionInterface #-}@@ -26,7 +26,7 @@ import Crypto.Random.Entropy.Source --- | handle to windows crypto API for random generation+-- | Handle to Windows crypto API for random generation data WinCryptoAPI = WinCryptoAPI instance EntropySource WinCryptoAPI where
Crypto/Random/EntropyPool.hs view
@@ -21,8 +21,8 @@ import Foreign.Marshal.Utils (copyBytes) import Foreign.Ptr (plusPtr, Ptr) --- | Pool of Entropy. contains a self mutating pool of entropy,--- that is always guarantee to contains data.+-- | Pool of Entropy. Contains a self-mutating pool of entropy,+-- that is always guaranteed to contain data. data EntropyPool = EntropyPool [EntropyBackend] (MVar Int) ScrubbedBytes -- size of entropy pool by default@@ -31,7 +31,8 @@ -- | Create a new entropy pool of a specific size ----- While you can create as many entropy pool as you want, the pool can be shared between multiples RNGs.+-- While you can create as many entropy pools as you want,+-- the pool can be shared between multiples RNGs. createEntropyPoolWith :: Int -> [EntropyBackend] -> IO EntropyPool createEntropyPoolWith poolSize backends = do m <- newMVar 0@@ -40,7 +41,8 @@ -- | Create a new entropy pool with a default size. ----- While you can create as many entropy pool as you want, the pool can be shared between multiples RNGs.+-- While you can create as many entropy pools as you want,+-- the pool can be shared between multiples RNGs. createEntropyPool :: IO EntropyPool createEntropyPool = do backends <- catMaybes `fmap` sequence supportedBackends
Crypto/Random/Probabilistic.hs view
@@ -20,7 +20,7 @@ -- This is useful for probabilistic algorithm like Miller Rabin -- probably prime algorithm, given appropriate choice of the heuristic ----- Generally, it's advise not to use this function.+-- Generally, it's advised not to use this function. probabilistic :: MonadPseudoRandom ChaChaDRG a -> a probabilistic f = fst $ withDRG drg f where {-# NOINLINE drg #-}
Crypto/Random/SystemDRG.hs view
@@ -14,7 +14,6 @@ import Crypto.Random.Types import Crypto.Random.Entropy.Unsafe import Crypto.Internal.Compat-import Crypto.Internal.Imports import Data.ByteArray (ScrubbedBytes, ByteArray) import Data.Memory.PtrMethods as B (memCopy) import Data.Maybe (catMaybes)
Crypto/Random/Types.hs view
@@ -15,10 +15,9 @@ import Crypto.Random.Entropy import Crypto.Internal.ByteArray-import Crypto.Internal.Imports -- | A monad constraint that allows to generate random bytes-class (Functor m, Monad m) => MonadRandom m where+class Monad m => MonadRandom m where getRandomBytes :: ByteArray byteArray => Int -> m byteArray -- | A Deterministic Random Generator (DRG) class@@ -47,7 +46,7 @@ in (f a, g3) instance DRG gen => Monad (MonadPseudoRandom gen) where- return a = MonadPseudoRandom $ \g -> (a, g)+ return = pure (>>=) m1 m2 = MonadPseudoRandom $ \g1 -> let (a, g2) = runPseudoRandom m1 g1 in runPseudoRandom (m2 a) g2
+ Crypto/System/CPU.hs view
@@ -0,0 +1,64 @@+-- |+-- Module : Crypto.System.CPU+-- License : BSD-style+-- Maintainer : Olivier Chéron <olivier.cheron@gmail.com>+-- Stability : experimental+-- Portability : unknown+--+-- Gives information about cryptonite runtime environment.+--+{-# LANGUAGE CPP #-}+{-# LANGUAGE DeriveDataTypeable #-}+{-# LANGUAGE ForeignFunctionInterface #-}+module Crypto.System.CPU+ ( ProcessorOption (..)+ , processorOptions+ ) where++import Data.Data+import Data.List (findIndices)+#ifdef SUPPORT_RDRAND+import Data.Maybe (isJust)+#endif+import Data.Word (Word8)+import Foreign.Ptr+import Foreign.Storable++import Crypto.Internal.Compat++#ifdef SUPPORT_RDRAND+import Crypto.Random.Entropy.RDRand+import Crypto.Random.Entropy.Source+#endif++-- | CPU options impacting cryptography implementation and library performance.+data ProcessorOption+ = AESNI -- ^ Support for AES instructions, with flag @support_aesni@+ | PCLMUL -- ^ Support for CLMUL instructions, with flag @support_pclmuldq@+ | RDRAND -- ^ Support for RDRAND instruction, with flag @support_rdrand@+ deriving (Show,Eq,Enum,Data)++-- | Options which have been enabled at compile time and are supported by the+-- current CPU.+processorOptions :: [ProcessorOption]+processorOptions = unsafeDoIO $ do+ p <- cryptonite_aes_cpu_init+ options <- traverse (getOption p) aesOptions+ rdrand <- hasRDRand+ return (decodeOptions options ++ [ RDRAND | rdrand ])+ where+ aesOptions = [ AESNI .. PCLMUL ]+ getOption p = peekElemOff p . fromEnum+ decodeOptions = map toEnum . findIndices (> 0)+{-# NOINLINE processorOptions #-}++hasRDRand :: IO Bool+#ifdef SUPPORT_RDRAND+hasRDRand = fmap isJust getRDRand+ where getRDRand = entropyOpen :: IO (Maybe RDRand)+#else+hasRDRand = return False+#endif++foreign import ccall unsafe "cryptonite_aes_cpu_init"+ cryptonite_aes_cpu_init :: IO (Ptr Word8)
+ Crypto/Tutorial.hs view
@@ -0,0 +1,195 @@+-- | Examples of how to use @cryptonite@.+module Crypto.Tutorial+ ( -- * API design+ -- $api_design++ -- * Hash algorithms+ -- $hash_algorithms++ -- * Symmetric block ciphers+ -- $symmetric_block_ciphers++ -- * Combining primitives+ -- $combining_primitives+ ) where++-- $api_design+--+-- APIs in cryptonite are often based on type classes from package+-- <https://hackage.haskell.org/package/memory memory>, notably+-- 'Data.ByteArray.ByteArrayAccess' and 'Data.ByteArray.ByteArray'.+-- Module "Data.ByteArray" provides many primitives that are useful to+-- work with cryptonite types. For example function 'Data.ByteArray.convert'+-- can transform one 'Data.ByteArray.ByteArrayAccess' concrete type like+-- 'Crypto.Hash.Digest' to a 'Data.ByteString.ByteString'.+--+-- Algorithms and functions needing random bytes are based on type class+-- 'Crypto.Random.Types.MonadRandom'. Implementation 'IO' uses a system source+-- of entropy. It is also possible to use a 'Crypto.Random.Types.DRG' with+-- 'Crypto.Random.Types.MonadPseudoRandom'+--+-- Error conditions are returned with data type 'Crypto.Error.CryptoFailable'.+-- Functions in module "Crypto.Error" can convert those values to runtime+-- exceptions, 'Maybe' or 'Either' values.++-- $hash_algorithms+--+-- Hashing a complete message:+--+-- > import Crypto.Hash+-- >+-- > import Data.ByteString (ByteString)+-- >+-- > exampleHashWith :: ByteString -> IO ()+-- > exampleHashWith msg = do+-- > putStrLn $ " sha1(" ++ show msg ++ ") = " ++ show (hashWith SHA1 msg)+-- > putStrLn $ "sha256(" ++ show msg ++ ") = " ++ show (hashWith SHA256 msg)+--+-- Hashing incrementally, with intermediate context allocations:+--+-- > {-# LANGUAGE OverloadedStrings #-}+-- >+-- > import Crypto.Hash+-- >+-- > import Data.ByteString (ByteString)+-- >+-- > exampleIncrWithAllocs :: IO ()+-- > exampleIncrWithAllocs = do+-- > let ctx0 = hashInitWith SHA3_512+-- > ctx1 = hashUpdate ctx0 ("The " :: ByteString)+-- > ctx2 = hashUpdate ctx1 ("quick " :: ByteString)+-- > ctx3 = hashUpdate ctx2 ("brown " :: ByteString)+-- > ctx4 = hashUpdate ctx3 ("fox " :: ByteString)+-- > ctx5 = hashUpdate ctx4 ("jumps " :: ByteString)+-- > ctx6 = hashUpdate ctx5 ("over " :: ByteString)+-- > ctx7 = hashUpdate ctx6 ("the " :: ByteString)+-- > ctx8 = hashUpdate ctx7 ("lazy " :: ByteString)+-- > ctx9 = hashUpdate ctx8 ("dog" :: ByteString)+-- > print (hashFinalize ctx9)+--+-- Hashing incrementally, updating context in place:+--+-- > {-# LANGUAGE OverloadedStrings #-}+-- >+-- > import Crypto.Hash.Algorithms+-- > import Crypto.Hash.IO+-- >+-- > import Data.ByteString (ByteString)+-- >+-- > exampleIncrInPlace :: IO ()+-- > exampleIncrInPlace = do+-- > ctx <- hashMutableInitWith SHA3_512+-- > hashMutableUpdate ctx ("The " :: ByteString)+-- > hashMutableUpdate ctx ("quick " :: ByteString)+-- > hashMutableUpdate ctx ("brown " :: ByteString)+-- > hashMutableUpdate ctx ("fox " :: ByteString)+-- > hashMutableUpdate ctx ("jumps " :: ByteString)+-- > hashMutableUpdate ctx ("over " :: ByteString)+-- > hashMutableUpdate ctx ("the " :: ByteString)+-- > hashMutableUpdate ctx ("lazy " :: ByteString)+-- > hashMutableUpdate ctx ("dog" :: ByteString)+-- > hashMutableFinalize ctx >>= print++-- $symmetric_block_ciphers+--+-- > {-# LANGUAGE OverloadedStrings #-}+-- > {-# LANGUAGE ScopedTypeVariables #-}+-- > {-# LANGUAGE GADTs #-}+-- >+-- > import Crypto.Cipher.AES (AES256)+-- > import Crypto.Cipher.Types (BlockCipher(..), Cipher(..), nullIV, KeySizeSpecifier(..), IV, makeIV)+-- > import Crypto.Error (CryptoFailable(..), CryptoError(..))+-- >+-- > import qualified Crypto.Random.Types as CRT+-- >+-- > import Data.ByteArray (ByteArray)+-- > import Data.ByteString (ByteString)+-- >+-- > -- | Not required, but most general implementation+-- > data Key c a where+-- > Key :: (BlockCipher c, ByteArray a) => a -> Key c a+-- >+-- > -- | Generates a string of bytes (key) of a specific length for a given block cipher+-- > genSecretKey :: forall m c a. (CRT.MonadRandom m, BlockCipher c, ByteArray a) => c -> Int -> m (Key c a)+-- > genSecretKey _ = fmap Key . CRT.getRandomBytes+-- >+-- > -- | Generate a random initialization vector for a given block cipher+-- > genRandomIV :: forall m c. (CRT.MonadRandom m, BlockCipher c) => c -> m (Maybe (IV c))+-- > genRandomIV _ = do+-- > bytes :: ByteString <- CRT.getRandomBytes $ blockSize (undefined :: c)+-- > return $ makeIV bytes+-- >+-- > -- | Initialize a block cipher+-- > initCipher :: (BlockCipher c, ByteArray a) => Key c a -> Either CryptoError c+-- > initCipher (Key k) = case cipherInit k of+-- > CryptoFailed e -> Left e+-- > CryptoPassed a -> Right a+-- >+-- > encrypt :: (BlockCipher c, ByteArray a) => Key c a -> IV c -> a -> Either CryptoError a+-- > encrypt secretKey initIV msg =+-- > case initCipher secretKey of+-- > Left e -> Left e+-- > Right c -> Right $ ctrCombine c initIV msg+-- >+-- > decrypt :: (BlockCipher c, ByteArray a) => Key c a -> IV c -> a -> Either CryptoError a+-- > decrypt = encrypt+-- >+-- > exampleAES256 :: ByteString -> IO ()+-- > exampleAES256 msg = do+-- > -- secret key needs 256 bits (32 * 8)+-- > secretKey <- genSecretKey (undefined :: AES256) 32+-- > mInitIV <- genRandomIV (undefined :: AES256)+-- > case mInitIV of+-- > Nothing -> error "Failed to generate and initialization vector."+-- > Just initIV -> do+-- > let encryptedMsg = encrypt secretKey initIV msg+-- > decryptedMsg = decrypt secretKey initIV =<< encryptedMsg+-- > case (,) <$> encryptedMsg <*> decryptedMsg of+-- > Left err -> error $ show err+-- > Right (eMsg, dMsg) -> do+-- > putStrLn $ "Original Message: " ++ show msg+-- > putStrLn $ "Message after encryption: " ++ show eMsg+-- > putStrLn $ "Message after decryption: " ++ show dMsg++-- $combining_primitives+--+-- This example shows how to use Curve25519, XSalsa and Poly1305 primitives to+-- emulate NaCl's @crypto_box@ construct.+--+-- > import qualified Data.ByteArray as BA+-- > import Data.ByteString (ByteString)+-- > import qualified Data.ByteString as B+-- >+-- > import qualified Crypto.Cipher.XSalsa as XSalsa+-- > import qualified Crypto.MAC.Poly1305 as Poly1305+-- > import qualified Crypto.PubKey.Curve25519 as X25519+-- >+-- > -- | Build a @crypto_box@ packet encrypting the specified content with a+-- > -- 192-bit nonce, receiver public key and sender private key.+-- > crypto_box content nonce pk sk = BA.convert tag `B.append` c+-- > where+-- > zero = B.replicate 16 0+-- > shared = X25519.dh pk sk+-- > (iv0, iv1) = B.splitAt 8 nonce+-- > state0 = XSalsa.initialize 20 shared (zero `B.append` iv0)+-- > state1 = XSalsa.derive state0 iv1+-- > (rs, state2) = XSalsa.generate state1 32+-- > (c, _) = XSalsa.combine state2 content+-- > tag = Poly1305.auth (rs :: ByteString) c+-- >+-- > -- | Try to open a @crypto_box@ packet and recover the content using the+-- > -- 192-bit nonce, sender public key and receiver private key.+-- > crypto_box_open packet nonce pk sk+-- > | B.length packet < 16 = Nothing+-- > | BA.constEq tag' tag = Just content+-- > | otherwise = Nothing+-- > where+-- > (tag', c) = B.splitAt 16 packet+-- > zero = B.replicate 16 0+-- > shared = X25519.dh pk sk+-- > (iv0, iv1) = B.splitAt 8 nonce+-- > state0 = XSalsa.initialize 20 shared (zero `B.append` iv0)+-- > state1 = XSalsa.derive state0 iv1+-- > (rs, state2) = XSalsa.generate state1 32+-- > (content, _) = XSalsa.combine state2 c+-- > tag = Poly1305.auth (rs :: ByteString) c
README.md view
@@ -2,29 +2,37 @@ ========== [](https://gitter.im/vincenthz/cryptonite?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)-[](https://travis-ci.org/vincenthz/cryptonite)+[](https://travis-ci.org/haskell-crypto/cryptonite) [](http://en.wikipedia.org/wiki/BSD_licenses) [](http://haskell.org) Cryptonite is a haskell repository of cryptographic primitives. Each crypto-algorithm have specificities, that are hard to wrap in common APIs and types,-so instead of trying to provide a common ground for algorithms that wouldn't-allow to provide all different usage or a really complicated system, this just-provide a non-consistant low-level API.+algorithm has specificities that are hard to wrap in common APIs and types,+so instead of trying to provide a common ground for algorithms, this package+provides a non-consistent low-level API. -If you have no idea what're you doing, please do not use this directly, rely on-higher level protocols or higher level implementation.+If you have no idea what you're doing, please do not use this directly.+Instead, rely on higher level protocols or implementations. Documentation: [cryptonite on hackage](http://hackage.haskell.org/package/cryptonite) +Stability+---------++Cryptonite APIs are stable, and we only strive to add, not change or remove.+Note that because the API exposed is wide and also expose internals things (for+power users and flexibility), certains APIs can be revised in extreme cases+where we can't just add.+ Versioning ---------- -Development versions are an incremental number prefixed by 0.-No specific meaning is associated with the versions, specially-no API stability.+Next version of `0.x` is `0.(x+1)`. There's no exceptions, or API related meaning+behind the numbers. -Production versions : TBD+Each versions of stackage (going back 3 stable LTS) has a cryptonite version+that we maintain with security fixes when necessary and are versioned with the+following `0.x.y` scheme. Coding Style ------------@@ -35,41 +43,24 @@ Support ------- -cryptonite supports the following platform:--* Windows >= 8-* OSX >= 10.8-* Linux-* BSDs--On the following architectures:--* x86-64-* i386--On the following haskell versions:--* GHC 7.0.x-* GHC 7.4.x-* GHC 7.6.x-* GHC 7.8.x-* GHC 7.10.x--Further platforms and architectures probably works too, but until maintainer(s) don't have regular-access to them, we can't commit for further support+See [Haskell packages guidelines](https://github.com/vincenthz/haskell-pkg-guidelines/blob/master/README.md#support) Known Building Issues --------------------- -on OSX <= 10.7, the system compiler doesn't understand the '-maes' option, and+On OSX <= 10.7, the system compiler doesn't understand the '-maes' option, and with the lack of autodetection feature builtin in .cabal file, it is left on the user to disable the aesni. See the [Disabling AESNI] section +On CentOS 7 the default C compiler includes intrinsic header files incompatible+with per-function target options. Solutions are to use GCC >= 4.9 or disable+flag *use_target_attributes* (see flag configuration examples below).+ Disabling AESNI --------------- -It may be useful to disable AESNI (for building, testing or runtime purpose), and one can do that with the-*support_aesni* flag.+It may be useful to disable AESNI for building, testing or runtime purposes.+This is achieved with the *support_aesni* flag. As part of configure of cryptonite: @@ -85,6 +76,13 @@ For help with cabal flags, see: [stackoverflow : is there a way to define flags for cabal](http://stackoverflow.com/questions/23523869/is-there-any-way-to-define-flags-for-cabal-dependencies) +Enabling PCLMULDQ+-----------------++When the C toolchain supports it, enabling flag *support_pclmuldq* can bring+additional security and performance for AES GCM. A CPU with the necessary+instruction set will use an alternate implementation selected at runtime.+ Links ----- @@ -95,14 +93,13 @@ * [Salsa](http://cr.yp.to/snuffle.html) * [Salsa128-test-vectors](https://github.com/alexwebr/salsa20/blob/master/test_vectors.128) * [Salsa256-test-vectors](https://github.com/alexwebr/salsa20/blob/master/test_vectors.256)+* [XSalsa](https://cr.yp.to/snuffle/xsalsa-20081128.pdf) * [PBKDF2](http://tools.ietf.org/html/rfc2898) * [PBKDF2-test-vectors](http://www.ietf.org/rfc/rfc6070.txt) * [Scrypt](http://www.tarsnap.com/scrypt.html) * [Curve25519](http://cr.yp.to/ecdh.html) * [Ed25519](http://ed25519.cr.yp.to/papers.html)+* [Ed448-Goldilocks](http://ed448goldilocks.sourceforge.net/)+* [EdDSA-test-vectors](http://www.ietf.org/rfc/rfc8032.txt) * [AFIS](http://clemens.endorphin.org/cryptography) -TODO-------* add support for XSalsa
+ benchs/Bench.hs view
@@ -0,0 +1,384 @@+{-# LANGUAGE OverloadedStrings #-}+{-# LANGUAGE ExistentialQuantification #-}+{-# LANGUAGE FlexibleContexts #-}+{-# LANGUAGE TypeFamilies #-}+module Main where++import Gauge.Main++import Crypto.Cipher.AES+import qualified Crypto.Cipher.AESGCMSIV as AESGCMSIV+import Crypto.Cipher.Blowfish+import Crypto.Cipher.CAST5+import qualified Crypto.Cipher.ChaChaPoly1305 as CP+import Crypto.Cipher.DES+import Crypto.Cipher.Twofish+import Crypto.Cipher.Types+import Crypto.ECC+import Crypto.Error+import Crypto.Hash+import qualified Crypto.KDF.BCrypt as BCrypt+import qualified Crypto.KDF.PBKDF2 as PBKDF2+import Crypto.Number.Basic (numBits)+import Crypto.Number.Generate+import qualified Crypto.PubKey.DH as DH+import qualified Crypto.PubKey.ECC.Types as ECC+import qualified Crypto.PubKey.ECC.Prim as ECC+import qualified Crypto.PubKey.ECDSA as ECDSA+import qualified Crypto.PubKey.Ed25519 as Ed25519+import qualified Crypto.PubKey.EdDSA as EdDSA+import Crypto.Random++import Control.DeepSeq (NFData)+import Data.ByteArray (ByteArray, Bytes)+import qualified Data.ByteString as B++import qualified Crypto.PubKey.ECC.P256 as P256++import Number.F2m++data HashAlg = forall alg . HashAlgorithm alg => HashAlg alg++benchHash =+ [ env oneKB $ \b -> bgroup "1KB" $ map (doHashBench b) hashAlgs+ , env oneMB $ \b -> bgroup "1MB" $ map (doHashBench b) hashAlgs+ ]+ where+ doHashBench b (name, HashAlg alg) = bench name $ nf (hashWith alg) b++ oneKB :: IO Bytes+ oneKB = getRandomBytes 1024++ oneMB :: IO Bytes+ oneMB = getRandomBytes $ 1024 * 1024++ hashAlgs =+ [ ("MD2", HashAlg MD2)+ , ("MD4", HashAlg MD4)+ , ("MD5", HashAlg MD5)+ , ("SHA1", HashAlg SHA1)+ , ("SHA224", HashAlg SHA224)+ , ("SHA256", HashAlg SHA256)+ , ("SHA384", HashAlg SHA384)+ , ("SHA512", HashAlg SHA512)+ , ("SHA512t_224", HashAlg SHA512t_224)+ , ("SHA512t_256", HashAlg SHA512t_256)+ , ("RIPEMD160", HashAlg RIPEMD160)+ , ("Tiger", HashAlg Tiger)+ --, ("Skein256-160", HashAlg Skein256_160)+ , ("Skein256-256", HashAlg Skein256_256)+ --, ("Skein512-160", HashAlg Skein512_160)+ , ("Skein512-384", HashAlg Skein512_384)+ , ("Skein512-512", HashAlg Skein512_512)+ --, ("Skein512-896", HashAlg Skein512_896)+ , ("Whirlpool", HashAlg Whirlpool)+ , ("Keccak-224", HashAlg Keccak_224)+ , ("Keccak-256", HashAlg Keccak_256)+ , ("Keccak-384", HashAlg Keccak_384)+ , ("Keccak-512", HashAlg Keccak_512)+ , ("SHA3-224", HashAlg SHA3_224)+ , ("SHA3-256", HashAlg SHA3_256)+ , ("SHA3-384", HashAlg SHA3_384)+ , ("SHA3-512", HashAlg SHA3_512)+ , ("Blake2b-160", HashAlg Blake2b_160)+ , ("Blake2b-224", HashAlg Blake2b_224)+ , ("Blake2b-256", HashAlg Blake2b_256)+ , ("Blake2b-384", HashAlg Blake2b_384)+ , ("Blake2b-512", HashAlg Blake2b_512)+ , ("Blake2s-160", HashAlg Blake2s_160)+ , ("Blake2s-224", HashAlg Blake2s_224)+ , ("Blake2s-256", HashAlg Blake2s_256)+ ]++benchPBKDF2 =+ [ bgroup "64"+ [ bench "cryptonite-PBKDF2-100-64" $ nf (pbkdf2 64) 100+ , bench "cryptonite-PBKDF2-1000-64" $ nf (pbkdf2 64) 1000+ , bench "cryptonite-PBKDF2-10000-64" $ nf (pbkdf2 64) 10000+ ]+ , bgroup "128"+ [ bench "cryptonite-PBKDF2-100-128" $ nf (pbkdf2 128) 100+ , bench "cryptonite-PBKDF2-1000-128" $ nf (pbkdf2 128) 1000+ , bench "cryptonite-PBKDF2-10000-128" $ nf (pbkdf2 128) 10000+ ]+ ]+ where+ pbkdf2 :: Int -> Int -> B.ByteString+ pbkdf2 n iter = PBKDF2.generate (PBKDF2.prfHMAC SHA512) (params n iter) mypass mysalt++ mypass, mysalt :: B.ByteString+ mypass = "password"+ mysalt = "salt"++ params n iter = PBKDF2.Parameters iter n++benchBCrypt =+ [ bench "cryptonite-BCrypt-4" $ nf bcrypt 4+ , bench "cryptonite-BCrypt-5" $ nf bcrypt 5+ , bench "cryptonite-BCrypt-7" $ nf bcrypt 7+ , bench "cryptonite-BCrypt-11" $ nf bcrypt 11+ ]+ where+ bcrypt :: Int -> B.ByteString+ bcrypt cost = BCrypt.bcrypt cost mysalt mypass++ mypass, mysalt :: B.ByteString+ mypass = "password"+ mysalt = "saltsaltsaltsalt"++benchBlockCipher =+ [ bgroup "ECB" benchECB+ , bgroup "CBC" benchCBC+ ]+ where+ benchECB =+ [ bench "DES-input=1024" $ nf (run (undefined :: DES) cipherInit key8) input1024+ , bench "Blowfish128-input=1024" $ nf (run (undefined :: Blowfish128) cipherInit key16) input1024+ , bench "Twofish128-input=1024" $ nf (run (undefined :: Twofish128) cipherInit key16) input1024+ , bench "CAST5-128-input=1024" $ nf (run (undefined :: CAST5) cipherInit key16) input1024+ , bench "AES128-input=1024" $ nf (run (undefined :: AES128) cipherInit key16) input1024+ , bench "AES256-input=1024" $ nf (run (undefined :: AES256) cipherInit key32) input1024+ ]+ where run :: (ByteArray ba, ByteArray key, BlockCipher c)+ => c -> (key -> CryptoFailable c) -> key -> ba -> ba+ run _witness initF key input =+ (ecbEncrypt (throwCryptoError (initF key))) input++ benchCBC =+ [ bench "DES-input=1024" $ nf (run (undefined :: DES) cipherInit key8 iv8) input1024+ , bench "Blowfish128-input=1024" $ nf (run (undefined :: Blowfish128) cipherInit key16 iv8) input1024+ , bench "Twofish128-input=1024" $ nf (run (undefined :: Twofish128) cipherInit key16 iv16) input1024+ , bench "CAST5-128-input=1024" $ nf (run (undefined :: CAST5) cipherInit key16 iv8) input1024+ , bench "AES128-input=1024" $ nf (run (undefined :: AES128) cipherInit key16 iv16) input1024+ , bench "AES256-input=1024" $ nf (run (undefined :: AES256) cipherInit key32 iv16) input1024+ ]+ where run :: (ByteArray ba, ByteArray key, BlockCipher c)+ => c -> (key -> CryptoFailable c) -> key -> IV c -> ba -> ba+ run _witness initF key iv input =+ (cbcEncrypt (throwCryptoError (initF key))) iv input++ key8 = B.replicate 8 0+ key16 = B.replicate 16 0+ key32 = B.replicate 32 0+ input1024 = B.replicate 1024 0++ iv8 :: BlockCipher c => IV c+ iv8 = maybe (error "iv size 8") id $ makeIV key8++ iv16 :: BlockCipher c => IV c+ iv16 = maybe (error "iv size 16") id $ makeIV key16++benchAE =+ [ bench "ChaChaPoly1305" $ nf (cp key32) (input64, input1024)+ , bench "AES-GCM" $ nf (gcm key32) (input64, input1024)+ , bench "AES-CCM" $ nf (ccm key32) (input64, input1024)+ , bench "AES-GCM-SIV" $ nf (gcmsiv key32) (input64, input1024)+ ]+ where cp k (ini, plain) =+ let iniState = throwCryptoError $ CP.initialize k (throwCryptoError $ CP.nonce12 nonce12)+ afterAAD = CP.finalizeAAD (CP.appendAAD ini iniState)+ (out, afterEncrypt) = CP.encrypt plain afterAAD+ outtag = CP.finalize afterEncrypt+ in (outtag, out)++ gcm k (ini, plain) =+ let ctx = throwCryptoError (cipherInit k) :: AES256+ state = throwCryptoError $ aeadInit AEAD_GCM ctx nonce12+ in aeadSimpleEncrypt state ini plain 16++ ccm k (ini, plain) =+ let ctx = throwCryptoError (cipherInit k) :: AES256+ mode = AEAD_CCM 1024 CCM_M16 CCM_L3+ state = throwCryptoError $ aeadInit mode ctx nonce12+ in aeadSimpleEncrypt state ini plain 16++ gcmsiv k (ini, plain) =+ let ctx = throwCryptoError (cipherInit k) :: AES256+ iv = throwCryptoError (AESGCMSIV.nonce nonce12)+ in AESGCMSIV.encrypt ctx iv ini plain++ input64 = B.replicate 64 0+ input1024 = B.replicate 1024 0++ nonce12 :: B.ByteString+ nonce12 = B.replicate 12 0++ key32 = B.replicate 32 0++benchECC =+ [ bench "pointAddTwoMuls-baseline" $ nf run_b (n1, p1, n2, p2)+ , bench "pointAddTwoMuls-optimized" $ nf run_o (n1, p1, n2, p2)+ , bench "pointAdd-ECC" $ nf run_c (p1, p2)+ , bench "pointMul-ECC" $ nf run_d (n1, p2)+ ]+ where run_b (n, p, k, q) = ECC.pointAdd c (ECC.pointMul c n p)+ (ECC.pointMul c k q)++ run_o (n, p, k, q) = ECC.pointAddTwoMuls c n p k q+ run_c (p, q) = ECC.pointAdd c p q+ run_d (n, p) = ECC.pointMul c n p++ c = ECC.getCurveByName ECC.SEC_p256r1+ p1 = ECC.pointBaseMul c n1+ p2 = ECC.pointBaseMul c n2+ n1 = 0x2ba9daf2363b2819e69b34a39cf496c2458a9b2a21505ea9e7b7cbca42dc7435+ n2 = 0xf054a7f60d10b8c2cf847ee90e9e029f8b0e971b09ca5f55c4d49921a11fadc1++benchP256 =+ [ bench "pointAddTwoMuls-P256" $ nf run_p (n1, p1, n2, p2)+ , bench "pointAdd-P256" $ nf run_q (p1, p2)+ , bench "pointMul-P256" $ nf run_t (n1, p1)+ ]+ where run_p (n, p, k, q) = P256.pointAdd (P256.pointMul n p) (P256.pointMul k q)+ run_q (p, q) = P256.pointAdd p q+ run_t (n, p) = P256.pointMul n p++ xS = 0xde2444bebc8d36e682edd27e0f271508617519b3221a8fa0b77cab3989da97c9+ yS = 0xc093ae7ff36e5380fc01a5aad1e66659702de80f53cec576b6350b243042a256+ xT = 0x55a8b00f8da1d44e62f6b3b25316212e39540dc861c89575bb8cf92e35e0986b+ yT = 0x5421c3209c2d6c704835d82ac4c3dd90f61a8a52598b9e7ab656e9d8c8b24316+ p1 = P256.pointFromIntegers (xS, yS)+ p2 = P256.pointFromIntegers (xT, yT)+ n1 = throwCryptoError $ P256.scalarFromInteger 0x2ba9daf2363b2819e69b34a39cf496c2458a9b2a21505ea9e7b7cbca42dc7435+ n2 = throwCryptoError $ P256.scalarFromInteger 0xf054a7f60d10b8c2cf847ee90e9e029f8b0e971b09ca5f55c4d49921a11fadc1++++benchFFDH = map doFFDHBench primes+ where+ doFFDHBench (e, p) =+ let bits = numBits p+ params = DH.Params { DH.params_p = p, DH.params_g = 2, DH.params_bits = bits }+ in env (generate e params) $ bench (show bits) . nf (run params)++ generate e params = do+ aPriv <- DH.PrivateNumber `fmap` generatePriv e+ bPriv <- DH.PrivateNumber `fmap` generatePriv e+ return (aPriv, DH.calculatePublic params bPriv)++ generatePriv e = generateParams e (Just SetHighest) False++ run params (priv, pub) = DH.getShared params priv pub++ -- RFC 7919: prime p with minimal size of exponent+ primes = [ (225, 0x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data CurveDH = forall c . (EllipticCurveDH c, NFData (Scalar c), NFData (Point c)) => CurveDH c++benchECDH = map doECDHBench curves+ where+ doECDHBench (name, CurveDH c) =+ let proxy = Just c -- using Maybe as Proxy+ in env (generate proxy) $ bench name . nf (run proxy)++ generate proxy = do+ KeyPair _ aScalar <- curveGenerateKeyPair proxy+ KeyPair bPoint _ <- curveGenerateKeyPair proxy+ return (aScalar, bPoint)++ run proxy (s, p) = throwCryptoError (ecdh proxy s p)++ curves = [ ("P256R1", CurveDH Curve_P256R1)+ , ("P384R1", CurveDH Curve_P384R1)+ , ("P521R1", CurveDH Curve_P521R1)+ , ("X25519", CurveDH Curve_X25519)+ , ("X448", CurveDH Curve_X448)+ ]++data CurveHashECDSA =+ forall curve hashAlg . (ECDSA.EllipticCurveECDSA curve,+ NFData (Scalar curve),+ NFData (Point curve),+ HashAlgorithm hashAlg) => CurveHashECDSA curve hashAlg++benchECDSA = map doECDSABench curveHashes+ where+ doECDSABench (name, CurveHashECDSA c hashAlg) =+ let proxy = Just c -- using Maybe as Proxy+ in bgroup name+ [ env (signGenerate proxy) $ bench "sign" . nfIO . signRun proxy hashAlg+ , env (verifyGenerate proxy hashAlg) $ bench "verify" . nf (verifyRun proxy hashAlg)+ ]++ signGenerate proxy = do+ m <- tenKB+ s <- curveGenerateScalar proxy+ return (s, m)++ signRun proxy hashAlg (priv, msg) = ECDSA.sign proxy priv hashAlg msg++ verifyGenerate proxy hashAlg = do+ m <- tenKB+ KeyPair p s <- curveGenerateKeyPair proxy+ sig <- ECDSA.sign proxy s hashAlg m+ return (p, sig, m)++ verifyRun proxy hashAlg (pub, sig, msg) = ECDSA.verify proxy hashAlg pub sig msg++ tenKB :: IO Bytes+ tenKB = getRandomBytes 10240++ curveHashes = [ ("secp256r1_sha256", CurveHashECDSA Curve_P256R1 SHA256)+ , ("secp384r1_sha384", CurveHashECDSA Curve_P384R1 SHA384)+ , ("secp521r1_sha512", CurveHashECDSA Curve_P521R1 SHA512)+ ]++benchEdDSA =+ [ bgroup "EdDSA-Ed25519" benchGenEd25519+ , bgroup "Ed25519" benchEd25519+ ]+ where+ benchGen prx alg =+ [ bench "sign" $ perBatchEnv (genEnv prx alg) (run_gen_sign prx)+ , bench "verify" $ perBatchEnv (genEnv prx alg) (run_gen_verify prx)+ ]++ benchGenEd25519 = benchGen (Just Curve_Edwards25519) SHA512+ benchEd25519 =+ [ bench "sign" $ perBatchEnv ed25519Env run_ed25519_sign+ , bench "verify" $ perBatchEnv ed25519Env run_ed25519_verify+ ]++ msg = B.empty -- empty message = worst-case scenario showing API overhead++ genEnv prx alg _ = do+ sec <- EdDSA.generateSecretKey prx+ let pub = EdDSA.toPublic prx alg sec+ sig = EdDSA.sign prx sec pub msg+ return (sec, pub, sig)++ run_gen_sign prx (sec, pub, _) = return (EdDSA.sign prx sec pub msg)++ run_gen_verify prx (_, pub, sig) = return (EdDSA.verify prx pub msg sig)++ ed25519Env _ = do+ sec <- Ed25519.generateSecretKey+ let pub = Ed25519.toPublic sec+ sig = Ed25519.sign sec pub msg+ return (sec, pub, sig)++ run_ed25519_sign (sec, pub, _) = return (Ed25519.sign sec pub msg)++ run_ed25519_verify (_, pub, sig) = return (Ed25519.verify pub msg sig)++main = defaultMain+ [ bgroup "hash" benchHash+ , bgroup "block-cipher" benchBlockCipher+ , bgroup "AE" benchAE+ , bgroup "pbkdf2" benchPBKDF2+ , bgroup "bcrypt" benchBCrypt+ , bgroup "ECC" benchECC+ , bgroup "P256" benchP256+ , bgroup "DH"+ [ bgroup "FFDH" benchFFDH+ , bgroup "ECDH" benchECDH+ ]+ , bgroup "ECDSA" benchECDSA+ , bgroup "EdDSA" benchEdDSA+ , bgroup "F2m" benchF2m+ ]
+ benchs/Number/F2m.hs view
@@ -0,0 +1,53 @@+{-# LANGUAGE PackageImports #-}++module Number.F2m (benchF2m) where++import Gauge.Main+import System.Random++import Crypto.Number.Basic (log2)+import Crypto.Number.F2m++genInteger :: Int -> Int -> Integer+genInteger salt bits+ = head+ . dropWhile ((< bits) . log2)+ . scanl (\a r -> a * 2^(31 :: Int) + abs r) 0+ . randoms+ . mkStdGen+ $ salt + bits++benchMod :: Int -> Benchmark+benchMod bits = bench (show bits) $ nf (modF2m m) a+ where+ m = genInteger 0 bits+ a = genInteger 1 (2 * bits)++benchMul :: Int -> Benchmark+benchMul bits = bench (show bits) $ nf (mulF2m m a) b+ where+ m = genInteger 0 bits+ a = genInteger 1 bits+ b = genInteger 2 bits++benchSquare :: Int -> Benchmark+benchSquare bits = bench (show bits) $ nf (squareF2m m) a+ where+ m = genInteger 0 bits+ a = genInteger 1 bits++benchInv :: Int -> Benchmark+benchInv bits = bench (show bits) $ nf (invF2m m) a+ where+ m = genInteger 0 bits+ a = genInteger 1 bits++bitsList :: [Int]+bitsList = [64, 128, 256, 512, 1024, 2048]++benchF2m =+ [ bgroup "modF2m" $ map benchMod bitsList+ , bgroup "mulF2m" $ map benchMul bitsList+ , bgroup "squareF2m" $ map benchSquare bitsList+ , bgroup "invF2m" $ map benchInv bitsList+ ]
cbits/aes/block128.h view
@@ -32,6 +32,7 @@ #define BLOCK128_H #include <cryptonite_bitfn.h>+#include <cryptonite_align.h> typedef union { uint64_t q[2];@@ -40,40 +41,80 @@ uint8_t b[16]; } block128; -static inline void block128_copy_bytes(block128 *block, uint8_t *src, uint32_t len)+static inline void block128_copy_bytes(block128 *block, const uint8_t *src, uint32_t len) { int i; for (i = 0; i < len; i++) block->b[i] = src[i]; } -static inline void block128_copy(block128 *d, const block128 *s)+static inline void block128_copy_aligned(block128 *d, const block128 *s) { d->q[0] = s->q[0]; d->q[1] = s->q[1]; } +static inline void block128_copy(block128 *d, const block128 *s)+{+ if (need_alignment(d, 8) || need_alignment(s, 8)) {+ block128_copy_bytes(d, (const uint8_t *) s, 16);+ } else {+ block128_copy_aligned(d, s);+ }+}+ static inline void block128_zero(block128 *d) { d->q[0] = 0; d->q[1] = 0; } -static inline void block128_xor(block128 *d, const block128 *s)+static inline void block128_xor_bytes(block128 *block, const uint8_t *src, uint32_t len) {+ int i;+ for (i = 0; i < len; i++) block->b[i] ^= src[i];+}++static inline void block128_xor_aligned(block128 *d, const block128 *s)+{ d->q[0] ^= s->q[0]; d->q[1] ^= s->q[1]; } -static inline void block128_vxor(block128 *d, const block128 *s1, const block128 *s2)+static inline void block128_xor(block128 *d, const block128 *s) {+ if (need_alignment(d, 8) || need_alignment(s, 8)) {+ block128_xor_bytes(d, (const uint8_t *) s, 16);+ } else {+ block128_xor_aligned(d, s);+ }+}++static inline void block128_vxor_bytes(block128 *block, const uint8_t *src1, const uint8_t *src2, uint32_t len)+{+ int i;+ for (i = 0; i < len; i++) block->b[i] = src1[i] ^ src2[i];+}++static inline void block128_vxor_aligned(block128 *d, const block128 *s1, const block128 *s2)+{ d->q[0] = s1->q[0] ^ s2->q[0]; d->q[1] = s1->q[1] ^ s2->q[1]; } -static inline void block128_xor_bytes(block128 *block, uint8_t *src, uint32_t len)+static inline void block128_vxor(block128 *d, const block128 *s1, const block128 *s2) {- int i;- for (i = 0; i < len; i++) block->b[i] ^= src[i];+ if (need_alignment(d, 8) || need_alignment(s1, 8) || need_alignment(s2, 8)) {+ block128_vxor_bytes(d, (const uint8_t *) s1, (const uint8_t *) s2, 16);+ } else {+ block128_vxor_aligned(d, s1, s2);+ } } +static inline void block128_byte_reverse(block128 *a)+{+ uint64_t s0 = a->q[0], s1 = a->q[1];+ a->q[0] = bitfn_swap64(s1);+ a->q[1] = bitfn_swap64(s0);+}+ static inline void block128_inc_be(block128 *b) { uint64_t v = be64_to_cpu(b->q[1]);@@ -82,6 +123,16 @@ b->q[1] = 0; } else b->q[1] = cpu_to_be64(v);+}++static inline void block128_inc32_be(block128 *b)+{+ b->d[3] = cpu_to_be32(be32_to_cpu(b->d[3]) + 1);+}++static inline void block128_inc32_le(block128 *b)+{+ b->d[0] = cpu_to_le32(le32_to_cpu(b->d[0]) + 1); } #ifdef IMPL_DEBUG
cbits/aes/generic.c view
@@ -324,21 +324,22 @@ static void aes_main(aes_key *key, uint8_t *state) { int i = 0;- uint8_t rk[16];+ uint32_t rk[4];+ uint8_t *rkptr = (uint8_t *) rk; - create_round_key(key->data, rk);- add_round_key(state, rk);+ create_round_key(key->data, rkptr);+ add_round_key(state, rkptr); for (i = 1; i < key->nbr; i++) {- create_round_key(key->data + 16 * i, rk);+ create_round_key(key->data + 16 * i, rkptr); shift_rows(state); mix_columns(state);- add_round_key(state, rk);+ add_round_key(state, rkptr); } - create_round_key(key->data + 16 * key->nbr, rk);+ create_round_key(key->data + 16 * key->nbr, rkptr); shift_rows(state);- add_round_key(state, rk);+ add_round_key(state, rkptr); } static void shift_rows_inv(uint8_t *state)@@ -374,21 +375,22 @@ static void aes_main_inv(aes_key *key, uint8_t *state) { int i = 0;- uint8_t rk[16];+ uint32_t rk[4];+ uint8_t *rkptr = (uint8_t *) rk; - create_round_key(key->data + 16 * key->nbr, rk);- add_round_key(state, rk);+ create_round_key(key->data + 16 * key->nbr, rkptr);+ add_round_key(state, rkptr); for (i = key->nbr - 1; i > 0; i--) {- create_round_key(key->data + 16 * i, rk);+ create_round_key(key->data + 16 * i, rkptr); shift_rows_inv(state);- add_round_key(state, rk);+ add_round_key(state, rkptr); mix_columns_inv(state); } - create_round_key(key->data, rk);+ create_round_key(key->data, rkptr); shift_rows_inv(state);- add_round_key(state, rk);+ add_round_key(state, rkptr); } /* Set the block values, for the block:@@ -405,26 +407,28 @@ void cryptonite_aes_generic_encrypt_block(aes_block *output, aes_key *key, aes_block *input) {- uint8_t block[16];- uint8_t *iptr, *optr;+ uint32_t block[4];+ uint8_t *iptr, *optr, *bptr; iptr = (uint8_t *) input; optr = (uint8_t *) output;- swap_block(block, iptr);- aes_main(key, block);- swap_block(optr, block);+ bptr = (uint8_t *) block;+ swap_block(bptr, iptr);+ aes_main(key, bptr);+ swap_block(optr, bptr); } void cryptonite_aes_generic_decrypt_block(aes_block *output, aes_key *key, aes_block *input) {- uint8_t block[16];- uint8_t *iptr, *optr;+ uint32_t block[4];+ uint8_t *iptr, *optr, *bptr; iptr = (uint8_t *) input; optr = (uint8_t *) output;- swap_block(block, iptr);- aes_main_inv(key, block);- swap_block(optr, block);+ bptr = (uint8_t *) block;+ swap_block(bptr, iptr);+ aes_main_inv(key, bptr);+ swap_block(optr, bptr); } void cryptonite_aes_generic_init(aes_key *key, uint8_t *origkey, uint8_t size)
cbits/aes/gf.c view
@@ -34,39 +34,113 @@ #include <aes/gf.h> #include <aes/x86ni.h> -/* this is a really inefficient way to GF multiply.- * the alternative without hw accel is building small tables- * to speed up the multiplication.- * TODO: optimise with tables+/* inplace GFMUL for xts mode */+void cryptonite_aes_generic_gf_mulx(block128 *a)+{+ const uint64_t gf_mask = cpu_to_le64(0x8000000000000000ULL);+ uint64_t r = ((a->q[1] & gf_mask) ? cpu_to_le64(0x87) : 0);+ a->q[1] = cpu_to_le64((le64_to_cpu(a->q[1]) << 1) | (a->q[0] & gf_mask ? 1 : 0));+ a->q[0] = cpu_to_le64(le64_to_cpu(a->q[0]) << 1) ^ r;+}+++/*+ * GF multiplication with Shoup's method and 4-bit table.+ *+ * We precompute the products of H with all 4-bit polynomials and store them in+ * a 'table_4bit' array. To avoid unnecessary byte swapping, the 16 blocks are+ * written to the table with qwords already converted to CPU order. Table+ * indices use the reflected bit ordering, i.e. polynomials X^0, X^1, X^2, X^3+ * map to bit positions 3, 2, 1, 0 respectively.+ *+ * To multiply an arbitrary block with H, the input block is decomposed in 4-bit+ * segments. We get the final result after 32 table lookups and additions, one+ * for each segment, interleaving multiplication by P(X)=X^4. */-void cryptonite_gf_mul(block128 *a, block128 *b)++/* convert block128 qwords between BE and CPU order */+static inline void block128_cpu_swap_be(block128 *a, const block128 *b) {- uint64_t a0, a1, v0, v1;+ a->q[1] = cpu_to_be64(b->q[1]);+ a->q[0] = cpu_to_be64(b->q[0]);+}++/* multiplication by P(X)=X, assuming qwords already in CPU order */+static inline void cpu_gf_mulx(block128 *a, const block128 *b)+{+ uint64_t v0 = b->q[0];+ uint64_t v1 = b->q[1];+ a->q[1] = v1 >> 1 | v0 << 63;+ a->q[0] = v0 >> 1 ^ ((0-(v1 & 1)) & 0xe100000000000000ULL);+}++static const uint64_t r4_0[] =+ { 0x0000000000000000ULL, 0x1c20000000000000ULL+ , 0x3840000000000000ULL, 0x2460000000000000ULL+ , 0x7080000000000000ULL, 0x6ca0000000000000ULL+ , 0x48c0000000000000ULL, 0x54e0000000000000ULL+ , 0xe100000000000000ULL, 0xfd20000000000000ULL+ , 0xd940000000000000ULL, 0xc560000000000000ULL+ , 0x9180000000000000ULL, 0x8da0000000000000ULL+ , 0xa9c0000000000000ULL, 0xb5e0000000000000ULL+ };++/* multiplication by P(X)=X^4, assuming qwords already in CPU order */+static inline void cpu_gf_mulx4(block128 *a, const block128 *b)+{+ uint64_t v0 = b->q[0];+ uint64_t v1 = b->q[1];+ a->q[1] = v1 >> 4 | v0 << 60;+ a->q[0] = v0 >> 4 ^ r4_0[v1 & 0xf];+}++/* initialize the 4-bit table given H */+void cryptonite_aes_generic_hinit(table_4bit htable, const block128 *h)+{+ block128 v, *p; int i, j; - a0 = a1 = 0;- v0 = cpu_to_be64(a->q[0]);- v1 = cpu_to_be64(a->q[1]);+ /* multiplication by 0 is 0 */+ block128_zero(&htable[0]); - for (i = 0; i < 16; i++)- for (j = 0x80; j != 0; j >>= 1) {- uint8_t x = b->b[i] & j;- a0 ^= x ? v0 : 0;- a1 ^= x ? v1 : 0;- x = (uint8_t) v1 & 1;- v1 = (v1 >> 1) | (v0 << 63);- v0 = (v0 >> 1) ^ (x ? (0xe1ULL << 56) : 0);+ /* at index 8=2^3 we have H.X^0 = H */+ i = 8;+ block128_cpu_swap_be(&htable[i], h); /* in CPU order */+ p = &htable[i];++ /* for other powers of 2, repeat multiplication by P(X)=X */+ for (i = 4; i > 0; i >>= 1)+ {+ cpu_gf_mulx(&htable[i], p);+ p = &htable[i];+ }++ /* remaining elements are linear combinations */+ for (i = 2; i < 16; i <<= 1) {+ p = &htable[i];+ v = *p;+ for (j = 1; j < i; j++) {+ p[j] = v;+ block128_xor_aligned(&p[j], &htable[j]); }- a->q[0] = cpu_to_be64(a0);- a->q[1] = cpu_to_be64(a1);+ } } -/* inplace GFMUL for xts mode */-void cryptonite_gf_mulx(block128 *a)+/* multiply a block with H */+void cryptonite_aes_generic_gf_mul(block128 *a, const table_4bit htable) {- const uint64_t gf_mask = cpu_to_le64(0x8000000000000000ULL);- uint64_t r = ((a->q[1] & gf_mask) ? cpu_to_le64(0x87) : 0);- a->q[1] = cpu_to_le64((le64_to_cpu(a->q[1]) << 1) | (a->q[0] & gf_mask ? 1 : 0));- a->q[0] = cpu_to_le64(le64_to_cpu(a->q[0]) << 1) ^ r;+ block128 b;+ int i;+ block128_zero(&b);+ for (i = 15; i >= 0; i--)+ {+ uint8_t v = a->b[i];+ block128_xor_aligned(&b, &htable[v & 0xf]); /* high bits (reflected) */+ cpu_gf_mulx4(&b, &b);+ block128_xor_aligned(&b, &htable[v >> 4]); /* low bits (reflected) */+ if (i > 0)+ cpu_gf_mulx4(&b, &b);+ else+ block128_cpu_swap_be(a, &b); /* restore BE order when done */+ } }-
cbits/aes/gf.h view
@@ -32,7 +32,11 @@ #include "aes/block128.h" -void cryptonite_gf_mul(block128 *a, block128 *b);-void cryptonite_gf_mulx(block128 *a);+typedef block128 table_4bit[16];++void cryptonite_aes_generic_gf_mulx(block128 *a);++void cryptonite_aes_generic_hinit(table_4bit htable, const block128 *h);+void cryptonite_aes_generic_gf_mul(block128 *a, const table_4bit htable); #endif
cbits/aes/x86ni.c view
@@ -35,6 +35,7 @@ #include <string.h> #include <cryptonite_aes.h> #include <cryptonite_cpu.h>+#include <aes/gf.h> #include <aes/x86ni.h> #include <aes/block128.h> @@ -45,6 +46,7 @@ /* old GCC version doesn't cope with the shuffle parameters, that can take 2 values (0xff and 0xaa) * in our case, passed as argument despite being a immediate 8 bits constant anyway. * un-factorise aes_128_key_expansion into 2 version that have the shuffle parameter explicitly set */+TARGET_AESNI static __m128i aes_128_key_expansion_ff(__m128i key, __m128i keygened) { keygened = _mm_shuffle_epi32(keygened, 0xff);@@ -54,6 +56,7 @@ return _mm_xor_si128(key, keygened); } +TARGET_AESNI static __m128i aes_128_key_expansion_aa(__m128i key, __m128i keygened) { keygened = _mm_shuffle_epi32(keygened, 0xaa);@@ -63,6 +66,7 @@ return _mm_xor_si128(key, keygened); } +TARGET_AESNI void cryptonite_aesni_init(aes_key *key, uint8_t *ikey, uint8_t size) { __m128i k[28];@@ -144,6 +148,7 @@ /* TO OPTIMISE: use pcmulqdq... or some faster code. * this is the lamest way of doing it, but i'm out of time. * this is basically a copy of gf_mulx in gf.c */+TARGET_AESNI static __m128i gfmulx(__m128i v) { uint64_t v_[2] ALIGNMENT(16);@@ -157,38 +162,113 @@ return v; } -static void unopt_gf_mul(block128 *a, block128 *b)+TARGET_AESNI+static __m128i gfmul_generic(__m128i tag, const table_4bit htable) {- uint64_t a0, a1, v0, v1;- int i, j;+ aes_block _t;+ _mm_store_si128((__m128i *) &_t, tag);+ cryptonite_aes_generic_gf_mul(&_t, htable);+ tag = _mm_load_si128((__m128i *) &_t);+ return tag;+} - a0 = a1 = 0;- v0 = cpu_to_be64(a->q[0]);- v1 = cpu_to_be64(a->q[1]);+#ifdef WITH_PCLMUL - for (i = 0; i < 16; i++)- for (j = 0x80; j != 0; j >>= 1) {- uint8_t x = b->b[i] & j;- a0 ^= x ? v0 : 0;- a1 ^= x ? v1 : 0;- x = (uint8_t) v1 & 1;- v1 = (v1 >> 1) | (v0 << 63);- v0 = (v0 >> 1) ^ (x ? (0xe1ULL << 56) : 0);- }- a->q[0] = cpu_to_be64(a0);- a->q[1] = cpu_to_be64(a1);+__m128i (*gfmul_branch_ptr)(__m128i a, const table_4bit t) = gfmul_generic;+#define gfmul(a,t) ((*gfmul_branch_ptr)(a,t))++/* See Intel carry-less-multiplication-instruction-in-gcm-mode-paper.pdf+ *+ * Adapted from figure 5, with additional byte swapping so that interface+ * is simimar to cryptonite_aes_generic_gf_mul.+ */+TARGET_AESNI_PCLMUL+static __m128i gfmul_pclmuldq(__m128i a, const table_4bit htable)+{+ __m128i b, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, tmp8, tmp9;+ __m128i bswap_mask = _mm_set_epi8(0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15);++ a = _mm_shuffle_epi8(a, bswap_mask);+ b = _mm_loadu_si128((__m128i *) htable);++ tmp3 = _mm_clmulepi64_si128(a, b, 0x00);+ tmp4 = _mm_clmulepi64_si128(a, b, 0x10);+ tmp5 = _mm_clmulepi64_si128(a, b, 0x01);+ tmp6 = _mm_clmulepi64_si128(a, b, 0x11);++ tmp4 = _mm_xor_si128(tmp4, tmp5);+ tmp5 = _mm_slli_si128(tmp4, 8);+ tmp4 = _mm_srli_si128(tmp4, 8);+ tmp3 = _mm_xor_si128(tmp3, tmp5);+ tmp6 = _mm_xor_si128(tmp6, tmp4);++ tmp7 = _mm_srli_epi32(tmp3, 31);+ tmp8 = _mm_srli_epi32(tmp6, 31);+ tmp3 = _mm_slli_epi32(tmp3, 1);+ tmp6 = _mm_slli_epi32(tmp6, 1);++ tmp9 = _mm_srli_si128(tmp7, 12);+ tmp8 = _mm_slli_si128(tmp8, 4);+ tmp7 = _mm_slli_si128(tmp7, 4);+ tmp3 = _mm_or_si128(tmp3, tmp7);+ tmp6 = _mm_or_si128(tmp6, tmp8);+ tmp6 = _mm_or_si128(tmp6, tmp9);++ tmp7 = _mm_slli_epi32(tmp3, 31);+ tmp8 = _mm_slli_epi32(tmp3, 30);+ tmp9 = _mm_slli_epi32(tmp3, 25);++ tmp7 = _mm_xor_si128(tmp7, tmp8);+ tmp7 = _mm_xor_si128(tmp7, tmp9);+ tmp8 = _mm_srli_si128(tmp7, 4);+ tmp7 = _mm_slli_si128(tmp7, 12);+ tmp3 = _mm_xor_si128(tmp3, tmp7);++ tmp2 = _mm_srli_epi32(tmp3, 1);+ tmp4 = _mm_srli_epi32(tmp3, 2);+ tmp5 = _mm_srli_epi32(tmp3, 7);+ tmp2 = _mm_xor_si128(tmp2, tmp4);+ tmp2 = _mm_xor_si128(tmp2, tmp5);+ tmp2 = _mm_xor_si128(tmp2, tmp8);+ tmp3 = _mm_xor_si128(tmp3, tmp2);+ tmp6 = _mm_xor_si128(tmp6, tmp3);++ return _mm_shuffle_epi8(tmp6, bswap_mask); } -static __m128i ghash_add(__m128i tag, __m128i h, __m128i m)+void cryptonite_aesni_hinit_pclmul(table_4bit htable, const block128 *h) {- aes_block _t, _h;- tag = _mm_xor_si128(tag, m);+ /* When pclmul is active we don't need to fill the table. Instead we just+ * store H at index 0. It is written in reverse order, so function+ * gfmul_pclmuldq will not byte-swap this value.+ */+ htable->q[0] = bitfn_swap64(h->q[1]);+ htable->q[1] = bitfn_swap64(h->q[0]);+} - _mm_store_si128((__m128i *) &_t, tag);- _mm_store_si128((__m128i *) &_h, h);- unopt_gf_mul(&_t, &_h);- tag = _mm_load_si128((__m128i *) &_t);- return tag;+TARGET_AESNI_PCLMUL+void cryptonite_aesni_gf_mul_pclmul(block128 *a, const table_4bit htable)+{+ __m128i _a, _b;+ _a = _mm_loadu_si128((__m128i *) a);+ _b = gfmul_pclmuldq(_a, htable);+ _mm_storeu_si128((__m128i *) a, _b);+}++void cryptonite_aesni_init_pclmul(void)+{+ gfmul_branch_ptr = gfmul_pclmuldq;+}++#else+#define gfmul(a,t) (gfmul_generic(a,t))+#endif++TARGET_AESNI+static inline __m128i ghash_add(__m128i tag, const table_4bit htable, __m128i m)+{+ tag = _mm_xor_si128(tag, m);+ return gfmul(tag, htable); } #define PRELOAD_ENC_KEYS128(k) \
cbits/aes/x86ni.h view
@@ -40,7 +40,16 @@ #include <cryptonite_aes.h> #include <aes/block128.h> +#ifdef WITH_TARGET_ATTRIBUTES+#define TARGET_AESNI __attribute__((target("ssse3,aes")))+#define TARGET_AESNI_PCLMUL __attribute__((target("sse4.1,aes,pclmul")))+#else+#define TARGET_AESNI+#define TARGET_AESNI_PCLMUL+#endif+ #ifdef IMPL_DEBUG+TARGET_AESNI static void block128_sse_print(__m128i m) { block128 b;@@ -64,6 +73,8 @@ void cryptonite_aesni_decrypt_cbc256(aes_block *out, aes_key *key, aes_block *_iv, aes_block *in, uint32_t blocks); void cryptonite_aesni_encrypt_ctr128(uint8_t *out, aes_key *key, aes_block *_iv, uint8_t *in, uint32_t length); void cryptonite_aesni_encrypt_ctr256(uint8_t *out, aes_key *key, aes_block *_iv, uint8_t *in, uint32_t length);+void cryptonite_aesni_encrypt_c32_128(uint8_t *out, aes_key *key, aes_block *_iv, uint8_t *in, uint32_t length);+void cryptonite_aesni_encrypt_c32_256(uint8_t *out, aes_key *key, aes_block *_iv, uint8_t *in, uint32_t length); void cryptonite_aesni_encrypt_xts128(aes_block *out, aes_key *key1, aes_key *key2, aes_block *_tweak, uint32_t spoint, aes_block *in, uint32_t blocks); void cryptonite_aesni_encrypt_xts256(aes_block *out, aes_key *key1, aes_key *key2,@@ -72,7 +83,11 @@ void cryptonite_aesni_gcm_encrypt128(uint8_t *out, aes_gcm *gcm, aes_key *key, uint8_t *in, uint32_t length); void cryptonite_aesni_gcm_encrypt256(uint8_t *out, aes_gcm *gcm, aes_key *key, uint8_t *in, uint32_t length); -void gf_mul_x86ni(block128 *res, block128 *a_, block128 *b_);+#ifdef WITH_PCLMUL+void cryptonite_aesni_init_pclmul(void);+void cryptonite_aesni_hinit_pclmul(table_4bit htable, const block128 *h);+void cryptonite_aesni_gf_mul_pclmul(block128 *a, const table_4bit htable);+#endif #endif
cbits/aes/x86ni_impl.c view
@@ -28,6 +28,7 @@ * SUCH DAMAGE. */ +TARGET_AESNI void SIZED(cryptonite_aesni_encrypt_block)(aes_block *out, aes_key *key, aes_block *in) { __m128i *k = (__m128i *) key->data;@@ -37,6 +38,7 @@ _mm_storeu_si128((__m128i *) out, m); } +TARGET_AESNI void SIZED(cryptonite_aesni_decrypt_block)(aes_block *out, aes_key *key, aes_block *in) { __m128i *k = (__m128i *) key->data;@@ -46,6 +48,7 @@ _mm_storeu_si128((__m128i *) out, m); } +TARGET_AESNI void SIZED(cryptonite_aesni_encrypt_ecb)(aes_block *out, aes_key *key, aes_block *in, uint32_t blocks) { __m128i *k = (__m128i *) key->data;@@ -58,6 +61,7 @@ } } +TARGET_AESNI void SIZED(cryptonite_aesni_decrypt_ecb)(aes_block *out, aes_key *key, aes_block *in, uint32_t blocks) { __m128i *k = (__m128i *) key->data;@@ -71,6 +75,7 @@ } } +TARGET_AESNI void SIZED(cryptonite_aesni_encrypt_cbc)(aes_block *out, aes_key *key, aes_block *_iv, aes_block *in, uint32_t blocks) { __m128i *k = (__m128i *) key->data;@@ -87,6 +92,7 @@ } } +TARGET_AESNI void SIZED(cryptonite_aesni_decrypt_cbc)(aes_block *out, aes_key *key, aes_block *_iv, aes_block *in, uint32_t blocks) { __m128i *k = (__m128i *) key->data;@@ -106,6 +112,7 @@ } } +TARGET_AESNI void SIZED(cryptonite_aesni_encrypt_ctr)(uint8_t *output, aes_key *key, aes_block *_iv, uint8_t *input, uint32_t len) { __m128i *k = (__m128i *) key->data;@@ -151,6 +158,49 @@ return ; } +TARGET_AESNI+void SIZED(cryptonite_aesni_encrypt_c32_)(uint8_t *output, aes_key *key, aes_block *_iv, uint8_t *input, uint32_t len)+{+ __m128i *k = (__m128i *) key->data;+ __m128i one = _mm_set_epi32(0,0,0,1);+ uint32_t nb_blocks = len / 16;+ uint32_t part_block_len = len % 16;++ /* get the IV */+ __m128i iv = _mm_loadu_si128((__m128i *) _iv);++ PRELOAD_ENC(k);++ for (; nb_blocks-- > 0; output += 16, input += 16) {+ /* encrypt the iv and and xor it the input block */+ __m128i tmp = iv;+ DO_ENC_BLOCK(tmp);+ __m128i m = _mm_loadu_si128((__m128i *) input);+ m = _mm_xor_si128(m, tmp);++ _mm_storeu_si128((__m128i *) output, m);+ /* iv += 1 */+ iv = _mm_add_epi32(iv, one);+ }++ if (part_block_len != 0) {+ aes_block block;+ memset(&block.b, 0, 16);+ memcpy(&block.b, input, part_block_len);++ __m128i m = _mm_loadu_si128((__m128i *) &block);+ __m128i tmp = iv;++ DO_ENC_BLOCK(tmp);+ m = _mm_xor_si128(m, tmp);+ _mm_storeu_si128((__m128i *) &block.b, m);+ memcpy(output, &block.b, part_block_len);+ }++ return ;+}++TARGET_AESNI void SIZED(cryptonite_aesni_encrypt_xts)(aes_block *out, aes_key *key1, aes_key *key2, aes_block *_tweak, uint32_t spoint, aes_block *in, uint32_t blocks) {@@ -181,6 +231,7 @@ } while (0); } +TARGET_AESNI void SIZED(cryptonite_aesni_gcm_encrypt)(uint8_t *output, aes_gcm *gcm, aes_key *key, uint8_t *input, uint32_t length) { __m128i *k = (__m128i *) key->data;@@ -191,7 +242,6 @@ gcm->length_input += length; - __m128i h = _mm_loadu_si128((__m128i *) &gcm->h); __m128i tag = _mm_loadu_si128((__m128i *) &gcm->tag); __m128i iv = _mm_loadu_si128((__m128i *) &gcm->civ); iv = _mm_shuffle_epi8(iv, bswap_mask);@@ -200,7 +250,7 @@ for (; nb_blocks-- > 0; output += 16, input += 16) { /* iv += 1 */- iv = _mm_add_epi64(iv, one);+ iv = _mm_add_epi32(iv, one); /* put back iv in big endian, encrypt it, * and xor it to input */@@ -209,7 +259,7 @@ __m128i m = _mm_loadu_si128((__m128i *) input); m = _mm_xor_si128(m, tmp); - tag = ghash_add(tag, h, m);+ tag = ghash_add(tag, gcm->htable, m); /* store it out */ _mm_storeu_si128((__m128i *) output, m);@@ -240,7 +290,7 @@ block128_copy_bytes(&block, input, part_block_len); /* iv += 1 */- iv = _mm_add_epi64(iv, one);+ iv = _mm_add_epi32(iv, one); /* put back iv in big endian mode, encrypt it and xor it with input */ __m128i tmp = _mm_shuffle_epi8(iv, bswap_mask);@@ -250,7 +300,7 @@ m = _mm_xor_si128(m, tmp); m = _mm_shuffle_epi8(m, mask); - tag = ghash_add(tag, h, m);+ tag = ghash_add(tag, gcm->htable, m); /* make output */ _mm_storeu_si128((__m128i *) &block.b, m);
+ cbits/argon2/argon2.c view
@@ -0,0 +1,142 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#include <string.h>+#include <stdlib.h>+#include <stdio.h>++#include "argon2.h"+#include "core.c"++int cryptonite_argon2_ctx(argon2_context *context, argon2_type type) {+ /* 1. Validate all inputs */+ int result = validate_inputs(context);+ uint32_t memory_blocks, segment_length;+ argon2_instance_t instance;++ if (ARGON2_OK != result) {+ return result;+ }++ if (Argon2_d != type && Argon2_i != type && Argon2_id != type) {+ return ARGON2_INCORRECT_TYPE;+ }++ /* 2. Align memory size */+ /* Minimum memory_blocks = 8L blocks, where L is the number of lanes */+ memory_blocks = context->m_cost;++ if (memory_blocks < 2 * ARGON2_SYNC_POINTS * context->lanes) {+ memory_blocks = 2 * ARGON2_SYNC_POINTS * context->lanes;+ }++ segment_length = memory_blocks / (context->lanes * ARGON2_SYNC_POINTS);+ /* Ensure that all segments have equal length */+ memory_blocks = segment_length * (context->lanes * ARGON2_SYNC_POINTS);++ instance.version = context->version;+ instance.memory = NULL;+ instance.passes = context->t_cost;+ instance.memory_blocks = memory_blocks;+ instance.segment_length = segment_length;+ instance.lane_length = segment_length * ARGON2_SYNC_POINTS;+ instance.lanes = context->lanes;+ instance.threads = context->threads;+ instance.type = type;++ /* 3. Initialization: Hashing inputs, allocating memory, filling first+ * blocks+ */+ result = initialize(&instance, context);++ if (ARGON2_OK != result) {+ return result;+ }++ /* 4. Filling memory */+ result = fill_memory_blocks(&instance);++ if (ARGON2_OK != result) {+ return result;+ }+ /* 5. Finalization */+ finalize(context, &instance);++ return ARGON2_OK;+}++int cryptonite_argon2_hash(const uint32_t t_cost, const uint32_t m_cost,+ const uint32_t parallelism, const void *pwd,+ const size_t pwdlen, const void *salt, const size_t saltlen,+ void *hash, const size_t hashlen, argon2_type type,+ const uint32_t version){++ argon2_context context;+ int result;+ uint8_t *out;++ if (hashlen > ARGON2_MAX_OUTLEN) {+ return ARGON2_OUTPUT_TOO_LONG;+ }++ if (hashlen < ARGON2_MIN_OUTLEN) {+ return ARGON2_OUTPUT_TOO_SHORT;+ }++ out = malloc(hashlen);+ if (!out) {+ return ARGON2_MEMORY_ALLOCATION_ERROR;+ }++ context.out = (uint8_t *)out;+ context.outlen = (uint32_t)hashlen;+ context.pwd = CONST_CAST(uint8_t *)pwd;+ context.pwdlen = (uint32_t)pwdlen;+ context.salt = CONST_CAST(uint8_t *)salt;+ context.saltlen = (uint32_t)saltlen;+ context.secret = NULL;+ context.secretlen = 0;+ context.ad = NULL;+ context.adlen = 0;+ context.t_cost = t_cost;+ context.m_cost = m_cost;+ context.lanes = parallelism;+ context.threads = parallelism;+ context.allocate_cbk = NULL;+ context.free_cbk = NULL;+ context.flags = ARGON2_DEFAULT_FLAGS;+ context.version = version;++ result = cryptonite_argon2_ctx(&context, type);++ if (result != ARGON2_OK) {+ clear_internal_memory(out, hashlen);+ free(out);+ return result;+ }++ /* if raw hash requested, write it */+ if (hash) {+ memcpy(hash, out, hashlen);+ }++ clear_internal_memory(out, hashlen);+ free(out);++ return ARGON2_OK;+}+
+ cbits/argon2/argon2.h view
@@ -0,0 +1,267 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef ARGON2_H+#define ARGON2_H++#include <stdint.h>+#include <stddef.h>+#include <limits.h>++#if defined(__cplusplus)+extern "C" {+#endif++/* Symbols visibility control */+#ifdef A2_VISCTL+#define ARGON2_PUBLIC __attribute__((visibility("default")))+#elif _MSC_VER+#define ARGON2_PUBLIC __declspec(dllexport)+#else+#define ARGON2_PUBLIC+#endif++/*+ * Argon2 input parameter restrictions+ */++/* Minimum and maximum number of lanes (degree of parallelism) */+#define ARGON2_MIN_LANES UINT32_C(1)+#define ARGON2_MAX_LANES UINT32_C(0xFFFFFF)++/* Minimum and maximum number of threads */+#define ARGON2_MIN_THREADS UINT32_C(1)+#define ARGON2_MAX_THREADS UINT32_C(0xFFFFFF)++/* Number of synchronization points between lanes per pass */+#define ARGON2_SYNC_POINTS UINT32_C(4)++/* Minimum and maximum digest size in bytes */+#define ARGON2_MIN_OUTLEN UINT32_C(4)+#define ARGON2_MAX_OUTLEN UINT32_C(0xFFFFFFFF)++/* Minimum and maximum number of memory blocks (each of BLOCK_SIZE bytes) */+#define ARGON2_MIN_MEMORY (2 * ARGON2_SYNC_POINTS) /* 2 blocks per slice */++#define ARGON2_MIN(a, b) ((a) < (b) ? (a) : (b))+/* Max memory size is addressing-space/2, topping at 2^32 blocks (4 TB) */+#define ARGON2_MAX_MEMORY_BITS \+ ARGON2_MIN(UINT32_C(32), (sizeof(void *) * CHAR_BIT - 10 - 1))+#define ARGON2_MAX_MEMORY \+ ARGON2_MIN(UINT32_C(0xFFFFFFFF), UINT64_C(1) << ARGON2_MAX_MEMORY_BITS)++/* Minimum and maximum number of passes */+#define ARGON2_MIN_TIME UINT32_C(1)+#define ARGON2_MAX_TIME UINT32_C(0xFFFFFFFF)++/* Minimum and maximum password length in bytes */+#define ARGON2_MIN_PWD_LENGTH UINT32_C(0)+#define ARGON2_MAX_PWD_LENGTH UINT32_C(0xFFFFFFFF)++/* Minimum and maximum associated data length in bytes */+#define ARGON2_MIN_AD_LENGTH UINT32_C(0)+#define ARGON2_MAX_AD_LENGTH UINT32_C(0xFFFFFFFF)++/* Minimum and maximum salt length in bytes */+#define ARGON2_MIN_SALT_LENGTH UINT32_C(8)+#define ARGON2_MAX_SALT_LENGTH UINT32_C(0xFFFFFFFF)++/* Minimum and maximum key length in bytes */+#define ARGON2_MIN_SECRET UINT32_C(0)+#define ARGON2_MAX_SECRET UINT32_C(0xFFFFFFFF)++/* Flags to determine which fields are securely wiped (default = no wipe). */+#define ARGON2_DEFAULT_FLAGS UINT32_C(0)+#define ARGON2_FLAG_CLEAR_PASSWORD (UINT32_C(1) << 0)+#define ARGON2_FLAG_CLEAR_SECRET (UINT32_C(1) << 1)++/* Global flag to determine if we are wiping internal memory buffers. This flag+ * is defined in core.c and deafults to 1 (wipe internal memory). */+//extern int FLAG_clear_internal_memory;++/* Error codes */+typedef enum Argon2_ErrorCodes {+ ARGON2_OK = 0,++ ARGON2_OUTPUT_PTR_NULL = -1,++ ARGON2_OUTPUT_TOO_SHORT = -2,+ ARGON2_OUTPUT_TOO_LONG = -3,++ ARGON2_PWD_TOO_SHORT = -4,+ ARGON2_PWD_TOO_LONG = -5,++ ARGON2_SALT_TOO_SHORT = -6,+ ARGON2_SALT_TOO_LONG = -7,++ ARGON2_AD_TOO_SHORT = -8,+ ARGON2_AD_TOO_LONG = -9,++ ARGON2_SECRET_TOO_SHORT = -10,+ ARGON2_SECRET_TOO_LONG = -11,++ ARGON2_TIME_TOO_SMALL = -12,+ ARGON2_TIME_TOO_LARGE = -13,++ ARGON2_MEMORY_TOO_LITTLE = -14,+ ARGON2_MEMORY_TOO_MUCH = -15,++ ARGON2_LANES_TOO_FEW = -16,+ ARGON2_LANES_TOO_MANY = -17,++ ARGON2_PWD_PTR_MISMATCH = -18, /* NULL ptr with non-zero length */+ ARGON2_SALT_PTR_MISMATCH = -19, /* NULL ptr with non-zero length */+ ARGON2_SECRET_PTR_MISMATCH = -20, /* NULL ptr with non-zero length */+ ARGON2_AD_PTR_MISMATCH = -21, /* NULL ptr with non-zero length */++ ARGON2_MEMORY_ALLOCATION_ERROR = -22,++ ARGON2_FREE_MEMORY_CBK_NULL = -23,+ ARGON2_ALLOCATE_MEMORY_CBK_NULL = -24,++ ARGON2_INCORRECT_PARAMETER = -25,+ ARGON2_INCORRECT_TYPE = -26,++ ARGON2_OUT_PTR_MISMATCH = -27,++ ARGON2_THREADS_TOO_FEW = -28,+ ARGON2_THREADS_TOO_MANY = -29,++ ARGON2_MISSING_ARGS = -30,++ ARGON2_ENCODING_FAIL = -31,++ ARGON2_DECODING_FAIL = -32,++ ARGON2_THREAD_FAIL = -33,++ ARGON2_DECODING_LENGTH_FAIL = -34,++ ARGON2_VERIFY_MISMATCH = -35+} argon2_error_codes;++/* Memory allocator types --- for external allocation */+typedef int (*allocate_fptr)(uint8_t **memory, size_t bytes_to_allocate);+typedef void (*deallocate_fptr)(uint8_t *memory, size_t bytes_to_allocate);++/* Argon2 external data structures */++/*+ *****+ * Context: structure to hold Argon2 inputs:+ * output array and its length,+ * password and its length,+ * salt and its length,+ * secret and its length,+ * associated data and its length,+ * number of passes, amount of used memory (in KBytes, can be rounded up a bit)+ * number of parallel threads that will be run.+ * All the parameters above affect the output hash value.+ * Additionally, two function pointers can be provided to allocate and+ * deallocate the memory (if NULL, memory will be allocated internally).+ * Also, three flags indicate whether to erase password, secret as soon as they+ * are pre-hashed (and thus not needed anymore), and the entire memory+ *****+ * Simplest situation: you have output array out[8], password is stored in+ * pwd[32], salt is stored in salt[16], you do not have keys nor associated+ * data. You need to spend 1 GB of RAM and you run 5 passes of Argon2d with+ * 4 parallel lanes.+ * You want to erase the password, but you're OK with last pass not being+ * erased. You want to use the default memory allocator.+ * Then you initialize:+ Argon2_Context(out,8,pwd,32,salt,16,NULL,0,NULL,0,5,1<<20,4,4,NULL,NULL,true,false,false,false)+ */+typedef struct Argon2_Context {+ uint8_t *out; /* output array */+ uint32_t outlen; /* digest length */++ uint8_t *pwd; /* password array */+ uint32_t pwdlen; /* password length */++ uint8_t *salt; /* salt array */+ uint32_t saltlen; /* salt length */++ uint8_t *secret; /* key array */+ uint32_t secretlen; /* key length */++ uint8_t *ad; /* associated data array */+ uint32_t adlen; /* associated data length */++ uint32_t t_cost; /* number of passes */+ uint32_t m_cost; /* amount of memory requested (KB) */+ uint32_t lanes; /* number of lanes */+ uint32_t threads; /* maximum number of threads */++ uint32_t version; /* version number */++ allocate_fptr allocate_cbk; /* pointer to memory allocator */+ deallocate_fptr free_cbk; /* pointer to memory deallocator */++ uint32_t flags; /* array of bool options */+} argon2_context;++/* Argon2 primitive type */+typedef enum Argon2_type {+ Argon2_d = 0,+ Argon2_i = 1,+ Argon2_id = 2+} argon2_type;++/* Version of the algorithm */+typedef enum Argon2_version {+ ARGON2_VERSION_10 = 0x10,+ ARGON2_VERSION_13 = 0x13,+ ARGON2_VERSION_NUMBER = ARGON2_VERSION_13+} argon2_version;++/*+ * Function that performs memory-hard hashing with certain degree of parallelism+ * @param context Pointer to the Argon2 internal structure+ * @return Error code if smth is wrong, ARGON2_OK otherwise+ */+ARGON2_PUBLIC int cryptonite_argon2_ctx(argon2_context *context, argon2_type type);++/**+ * Hashes a password with Argon2i, producing a raw hash by allocating memory at+ * @hash+ * @param t_cost Number of iterations+ * @param m_cost Sets memory usage to m_cost kibibytes+ * @param parallelism Number of threads and compute lanes+ * @param pwd Pointer to password+ * @param pwdlen Password size in bytes+ * @param salt Pointer to salt+ * @param saltlen Salt size in bytes+ * @param hash Buffer where to write the raw hash - updated by the function+ * @param hashlen Desired length of the hash in bytes+ * @pre Different parallelism levels will give different results+ * @pre Returns ARGON2_OK if successful+ */++/* generic function underlying the above ones */+ARGON2_PUBLIC int cryptonite_argon2_hash(const uint32_t t_cost, const uint32_t m_cost,+ const uint32_t parallelism, const void *pwd,+ const size_t pwdlen, const void *salt,+ const size_t saltlen, void *hash,+ const size_t hashlen, argon2_type type,+ const uint32_t version);+++#if defined(__cplusplus)+}+#endif++#endif
+ cbits/argon2/blamka-round-opt.h view
@@ -0,0 +1,180 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef BLAKE_ROUND_MKA_OPT_H+#define BLAKE_ROUND_MKA_OPT_H++#include "blake2-impl.h"++#include <emmintrin.h>+#if defined(__SSSE3__)+#include <tmmintrin.h> /* for _mm_shuffle_epi8 and _mm_alignr_epi8 */+#endif++#if defined(__XOP__) && (defined(__GNUC__) || defined(__clang__))+#include <x86intrin.h>+#endif++#if !defined(__XOP__)+#if defined(__SSSE3__)+#define r16 \+ (_mm_setr_epi8(2, 3, 4, 5, 6, 7, 0, 1, 10, 11, 12, 13, 14, 15, 8, 9))+#define r24 \+ (_mm_setr_epi8(3, 4, 5, 6, 7, 0, 1, 2, 11, 12, 13, 14, 15, 8, 9, 10))+#define _mm_roti_epi64(x, c) \+ (-(c) == 32) \+ ? _mm_shuffle_epi32((x), _MM_SHUFFLE(2, 3, 0, 1)) \+ : (-(c) == 24) \+ ? _mm_shuffle_epi8((x), r24) \+ : (-(c) == 16) \+ ? _mm_shuffle_epi8((x), r16) \+ : (-(c) == 63) \+ ? _mm_xor_si128(_mm_srli_epi64((x), -(c)), \+ _mm_add_epi64((x), (x))) \+ : _mm_xor_si128(_mm_srli_epi64((x), -(c)), \+ _mm_slli_epi64((x), 64 - (-(c))))+#else /* defined(__SSE2__) */+#define _mm_roti_epi64(r, c) \+ _mm_xor_si128(_mm_srli_epi64((r), -(c)), _mm_slli_epi64((r), 64 - (-(c))))+#endif+#else+#endif++static BLAKE2_INLINE __m128i fBlaMka(__m128i x, __m128i y) {+ const __m128i z = _mm_mul_epu32(x, y);+ return _mm_add_epi64(_mm_add_epi64(x, y), _mm_add_epi64(z, z));+}++#define G1(A0, B0, C0, D0, A1, B1, C1, D1) \+ do { \+ A0 = fBlaMka(A0, B0); \+ A1 = fBlaMka(A1, B1); \+ \+ D0 = _mm_xor_si128(D0, A0); \+ D1 = _mm_xor_si128(D1, A1); \+ \+ D0 = _mm_roti_epi64(D0, -32); \+ D1 = _mm_roti_epi64(D1, -32); \+ \+ C0 = fBlaMka(C0, D0); \+ C1 = fBlaMka(C1, D1); \+ \+ B0 = _mm_xor_si128(B0, C0); \+ B1 = _mm_xor_si128(B1, C1); \+ \+ B0 = _mm_roti_epi64(B0, -24); \+ B1 = _mm_roti_epi64(B1, -24); \+ } while ((void)0, 0)++#define G2(A0, B0, C0, D0, A1, B1, C1, D1) \+ do { \+ A0 = fBlaMka(A0, B0); \+ A1 = fBlaMka(A1, B1); \+ \+ D0 = _mm_xor_si128(D0, A0); \+ D1 = _mm_xor_si128(D1, A1); \+ \+ D0 = _mm_roti_epi64(D0, -16); \+ D1 = _mm_roti_epi64(D1, -16); \+ \+ C0 = fBlaMka(C0, D0); \+ C1 = fBlaMka(C1, D1); \+ \+ B0 = _mm_xor_si128(B0, C0); \+ B1 = _mm_xor_si128(B1, C1); \+ \+ B0 = _mm_roti_epi64(B0, -63); \+ B1 = _mm_roti_epi64(B1, -63); \+ } while ((void)0, 0)++#if defined(__SSSE3__)+#define DIAGONALIZE(A0, B0, C0, D0, A1, B1, C1, D1) \+ do { \+ __m128i t0 = _mm_alignr_epi8(B1, B0, 8); \+ __m128i t1 = _mm_alignr_epi8(B0, B1, 8); \+ B0 = t0; \+ B1 = t1; \+ \+ t0 = C0; \+ C0 = C1; \+ C1 = t0; \+ \+ t0 = _mm_alignr_epi8(D1, D0, 8); \+ t1 = _mm_alignr_epi8(D0, D1, 8); \+ D0 = t1; \+ D1 = t0; \+ } while ((void)0, 0)++#define UNDIAGONALIZE(A0, B0, C0, D0, A1, B1, C1, D1) \+ do { \+ __m128i t0 = _mm_alignr_epi8(B0, B1, 8); \+ __m128i t1 = _mm_alignr_epi8(B1, B0, 8); \+ B0 = t0; \+ B1 = t1; \+ \+ t0 = C0; \+ C0 = C1; \+ C1 = t0; \+ \+ t0 = _mm_alignr_epi8(D0, D1, 8); \+ t1 = _mm_alignr_epi8(D1, D0, 8); \+ D0 = t1; \+ D1 = t0; \+ } while ((void)0, 0)+#else /* SSE2 */+#define DIAGONALIZE(A0, B0, C0, D0, A1, B1, C1, D1) \+ do { \+ __m128i t0 = D0; \+ __m128i t1 = B0; \+ D0 = C0; \+ C0 = C1; \+ C1 = D0; \+ D0 = _mm_unpackhi_epi64(D1, _mm_unpacklo_epi64(t0, t0)); \+ D1 = _mm_unpackhi_epi64(t0, _mm_unpacklo_epi64(D1, D1)); \+ B0 = _mm_unpackhi_epi64(B0, _mm_unpacklo_epi64(B1, B1)); \+ B1 = _mm_unpackhi_epi64(B1, _mm_unpacklo_epi64(t1, t1)); \+ } while ((void)0, 0)++#define UNDIAGONALIZE(A0, B0, C0, D0, A1, B1, C1, D1) \+ do { \+ __m128i t0, t1; \+ t0 = C0; \+ C0 = C1; \+ C1 = t0; \+ t0 = B0; \+ t1 = D0; \+ B0 = _mm_unpackhi_epi64(B1, _mm_unpacklo_epi64(B0, B0)); \+ B1 = _mm_unpackhi_epi64(t0, _mm_unpacklo_epi64(B1, B1)); \+ D0 = _mm_unpackhi_epi64(D0, _mm_unpacklo_epi64(D1, D1)); \+ D1 = _mm_unpackhi_epi64(D1, _mm_unpacklo_epi64(t1, t1)); \+ } while ((void)0, 0)+#endif++#define BLAKE2_ROUND(A0, A1, B0, B1, C0, C1, D0, D1) \+ do { \+ G1(A0, B0, C0, D0, A1, B1, C1, D1); \+ G2(A0, B0, C0, D0, A1, B1, C1, D1); \+ \+ DIAGONALIZE(A0, B0, C0, D0, A1, B1, C1, D1); \+ \+ G1(A0, B0, C0, D0, A1, B1, C1, D1); \+ G2(A0, B0, C0, D0, A1, B1, C1, D1); \+ \+ UNDIAGONALIZE(A0, B0, C0, D0, A1, B1, C1, D1); \+ } while ((void)0, 0)++#endif
+ cbits/argon2/blamka-round-ref.h view
@@ -0,0 +1,56 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef BLAKE_ROUND_MKA_H+#define BLAKE_ROUND_MKA_H++#include "blake2.h"+#include "blake2-impl.h"++/*designed by the Lyra PHC team */+static BLAKE2_INLINE uint64_t fBlaMka(uint64_t x, uint64_t y) {+ const uint64_t m = UINT64_C(0xFFFFFFFF);+ const uint64_t xy = (x & m) * (y & m);+ return x + y + 2 * xy;+}++#define G(a, b, c, d) \+ do { \+ a = fBlaMka(a, b); \+ d = rotr64(d ^ a, 32); \+ c = fBlaMka(c, d); \+ b = rotr64(b ^ c, 24); \+ a = fBlaMka(a, b); \+ d = rotr64(d ^ a, 16); \+ c = fBlaMka(c, d); \+ b = rotr64(b ^ c, 63); \+ } while ((void)0, 0)++#define BLAKE2_ROUND_NOMSG(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, \+ v12, v13, v14, v15) \+ do { \+ G(v0, v4, v8, v12); \+ G(v1, v5, v9, v13); \+ G(v2, v6, v10, v14); \+ G(v3, v7, v11, v15); \+ G(v0, v5, v10, v15); \+ G(v1, v6, v11, v12); \+ G(v2, v7, v8, v13); \+ G(v3, v4, v9, v14); \+ } while ((void)0, 0)++#endif
+ cbits/argon2/core.c view
@@ -0,0 +1,701 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0+ * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++/*For memory wiping*/+#ifdef _MSC_VER+#include <windows.h>+#include <winbase.h> /* For SecureZeroMemory */+#endif+#if defined __STDC_LIB_EXT1__+#define __STDC_WANT_LIB_EXT1__ 1+#endif+#define VC_GE_2005(version) (version >= 1400)++#include <inttypes.h>+#include <stdio.h>+#include <stdlib.h>+#include <string.h>++#include "core.h"+#include "thread.c"+#include "blake2.h"+#include "blake2-impl.h"++#ifdef GENKAT+#include "genkat.h"+#endif++#ifdef SUPPORT_SSE+#include "opt.c"+#else+#include "ref.c"+#endif++#if defined(__clang__)+#if __has_attribute(optnone)+#define NOT_OPTIMIZED __attribute__((optnone))+#endif+#elif defined(__GNUC__)+#define GCC_VERSION \+ (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__)+#if GCC_VERSION >= 40400+#define NOT_OPTIMIZED __attribute__((optimize("O0")))+#endif+#endif+#ifndef NOT_OPTIMIZED+#define NOT_OPTIMIZED+#endif++/* Argon2 Team - Begin Code */+static int blake2b_long(void *pout, size_t outlen, const void *in, size_t inlen) {+ uint8_t *out = (uint8_t *)pout;+ blake2b_state blake_state;+ uint8_t outlen_bytes[sizeof(uint32_t)] = {0};+ int ret = -1;++ if (outlen > UINT32_MAX) {+ goto fail;+ }++ /* Ensure little-endian byte order! */+ store32(outlen_bytes, (uint32_t)outlen);++#define TRY(statement) \+ do { \+ ret = statement; \+ if (ret < 0) { \+ goto fail; \+ } \+ } while ((void)0, 0)++ if (outlen <= BLAKE2B_OUTBYTES) {+ TRY(_cryptonite_blake2b_init(&blake_state, outlen));+ TRY(_cryptonite_blake2b_update(&blake_state, outlen_bytes, sizeof(outlen_bytes)));+ TRY(_cryptonite_blake2b_update(&blake_state, in, inlen));+ TRY(_cryptonite_blake2b_final(&blake_state, out, outlen));+ } else {+ uint32_t toproduce;+ uint8_t out_buffer[BLAKE2B_OUTBYTES];+ uint8_t in_buffer[BLAKE2B_OUTBYTES];+ TRY(_cryptonite_blake2b_init(&blake_state, BLAKE2B_OUTBYTES));+ TRY(_cryptonite_blake2b_update(&blake_state, outlen_bytes, sizeof(outlen_bytes)));+ TRY(_cryptonite_blake2b_update(&blake_state, in, inlen));+ TRY(_cryptonite_blake2b_final(&blake_state, out_buffer, BLAKE2B_OUTBYTES));+ memcpy(out, out_buffer, BLAKE2B_OUTBYTES / 2);+ out += BLAKE2B_OUTBYTES / 2;+ toproduce = (uint32_t)outlen - BLAKE2B_OUTBYTES / 2;++ while (toproduce > BLAKE2B_OUTBYTES) {+ memcpy(in_buffer, out_buffer, BLAKE2B_OUTBYTES);+ TRY(_cryptonite_blake2b(out_buffer, BLAKE2B_OUTBYTES, in_buffer,+ BLAKE2B_OUTBYTES, NULL, 0));+ memcpy(out, out_buffer, BLAKE2B_OUTBYTES / 2);+ out += BLAKE2B_OUTBYTES / 2;+ toproduce -= BLAKE2B_OUTBYTES / 2;+ }++ memcpy(in_buffer, out_buffer, BLAKE2B_OUTBYTES);+ TRY(_cryptonite_blake2b(out_buffer, toproduce, in_buffer, BLAKE2B_OUTBYTES, NULL,+ 0));+ memcpy(out, out_buffer, toproduce);+ }+fail:+ clear_internal_memory(&blake_state, sizeof(blake_state));+ return ret;+#undef TRY+}+/* Argon2 Team - End Code */++/***************Instance and Position constructors**********/+static void init_block_value(block *b, uint8_t in) { memset(b->v, in, sizeof(b->v)); }++static void copy_block(block *dst, const block *src) {+ memcpy(dst->v, src->v, sizeof(uint64_t) * ARGON2_QWORDS_IN_BLOCK);+}++static void xor_block(block *dst, const block *src) {+ int i;+ for (i = 0; i < ARGON2_QWORDS_IN_BLOCK; ++i) {+ dst->v[i] ^= src->v[i];+ }+}++static void load_block(block *dst, const void *input) {+ unsigned i;+ for (i = 0; i < ARGON2_QWORDS_IN_BLOCK; ++i) {+ dst->v[i] = load64((const uint8_t *)input + i * sizeof(dst->v[i]));+ }+}++static void store_block(void *output, const block *src) {+ unsigned i;+ for (i = 0; i < ARGON2_QWORDS_IN_BLOCK; ++i) {+ store64((uint8_t *)output + i * sizeof(src->v[i]), src->v[i]);+ }+}++/***************Memory functions*****************/+static+int allocate_memory(const argon2_context *context, uint8_t **memory,+ size_t num, size_t size) {+ size_t memory_size = num*size;+ if (memory == NULL) {+ return ARGON2_MEMORY_ALLOCATION_ERROR;+ }++ /* 1. Check for multiplication overflow */+ if (size != 0 && memory_size / size != num) {+ return ARGON2_MEMORY_ALLOCATION_ERROR;+ }++ /* 2. Try to allocate with appropriate allocator */+ if (context->allocate_cbk) {+ (context->allocate_cbk)(memory, memory_size);+ } else {+ *memory = malloc(memory_size);+ }++ if (*memory == NULL) {+ return ARGON2_MEMORY_ALLOCATION_ERROR;+ }++ return ARGON2_OK;+}+static+void free_memory(const argon2_context *context, uint8_t *memory,+ size_t num, size_t size) {+ size_t memory_size = num*size;+ clear_internal_memory(memory, memory_size);+ if (context->free_cbk) {+ (context->free_cbk)(memory, memory_size);+ } else {+ free(memory);+ }+}++void NOT_OPTIMIZED secure_wipe_memory(void *v, size_t n) {+#if defined(_MSC_VER) && VC_GE_2005(_MSC_VER)+ SecureZeroMemory(v, n);+#elif defined memset_s+ memset_s(v, n, 0, n);+#elif defined(__OpenBSD__)+ explicit_bzero(v, n);+#else+ static void *(*const volatile memset_sec)(void *, int, size_t) = &memset;+ memset_sec(v, 0, n);+#endif+}++/* Memory clear flag defaults to true. */+static int FLAG_clear_internal_memory = 1;+static void clear_internal_memory(void *v, size_t n) {+ if (FLAG_clear_internal_memory && v) {+ secure_wipe_memory(v, n);+ }+}++static void finalize(const argon2_context *context, argon2_instance_t *instance) {+ if (context != NULL && instance != NULL) {+ block blockhash;+ uint32_t l;++ copy_block(&blockhash, instance->memory + instance->lane_length - 1);++ /* XOR the last blocks */+ for (l = 1; l < instance->lanes; ++l) {+ uint32_t last_block_in_lane =+ l * instance->lane_length + (instance->lane_length - 1);+ xor_block(&blockhash, instance->memory + last_block_in_lane);+ }++ /* Hash the result */+ {+ uint8_t blockhash_bytes[ARGON2_BLOCK_SIZE];+ store_block(blockhash_bytes, &blockhash);+ blake2b_long(context->out, context->outlen, blockhash_bytes,+ ARGON2_BLOCK_SIZE);+ /* clear blockhash and blockhash_bytes */+ clear_internal_memory(blockhash.v, ARGON2_BLOCK_SIZE);+ clear_internal_memory(blockhash_bytes, ARGON2_BLOCK_SIZE);+ }++#ifdef GENKAT+ print_tag(context->out, context->outlen);+#endif++ free_memory(context, (uint8_t *)instance->memory,+ instance->memory_blocks, sizeof(block));+ }+}++static uint32_t index_alpha(const argon2_instance_t *instance,+ const argon2_position_t *position, uint32_t pseudo_rand,+ int same_lane) {+ /*+ * Pass 0:+ * This lane : all already finished segments plus already constructed+ * blocks in this segment+ * Other lanes : all already finished segments+ * Pass 1+:+ * This lane : (SYNC_POINTS - 1) last segments plus already constructed+ * blocks in this segment+ * Other lanes : (SYNC_POINTS - 1) last segments+ */+ uint32_t reference_area_size;+ uint64_t relative_position;+ uint32_t start_position, absolute_position;++ if (0 == position->pass) {+ /* First pass */+ if (0 == position->slice) {+ /* First slice */+ reference_area_size =+ position->index - 1; /* all but the previous */+ } else {+ if (same_lane) {+ /* The same lane => add current segment */+ reference_area_size =+ position->slice * instance->segment_length ++ position->index - 1;+ } else {+ reference_area_size =+ position->slice * instance->segment_length ++ ((position->index == 0) ? (-1) : 0);+ }+ }+ } else {+ /* Second pass */+ if (same_lane) {+ reference_area_size = instance->lane_length -+ instance->segment_length + position->index -+ 1;+ } else {+ reference_area_size = instance->lane_length -+ instance->segment_length ++ ((position->index == 0) ? (-1) : 0);+ }+ }++ /* 1.2.4. Mapping pseudo_rand to 0..<reference_area_size-1> and produce+ * relative position */+ relative_position = pseudo_rand;+ relative_position = relative_position * relative_position >> 32;+ relative_position = reference_area_size - 1 -+ (reference_area_size * relative_position >> 32);++ /* 1.2.5 Computing starting position */+ start_position = 0;++ if (0 != position->pass) {+ start_position = (position->slice == ARGON2_SYNC_POINTS - 1)+ ? 0+ : (position->slice + 1) * instance->segment_length;+ }++ /* 1.2.6. Computing absolute position */+ absolute_position = (start_position + relative_position) %+ instance->lane_length; /* absolute position */+ return absolute_position;+}++/* Single-threaded version for p=1 case */+static int fill_memory_blocks_st(argon2_instance_t *instance) {+ uint32_t r, s, l;++ for (r = 0; r < instance->passes; ++r) {+ for (s = 0; s < ARGON2_SYNC_POINTS; ++s) {+ for (l = 0; l < instance->lanes; ++l) {+ argon2_position_t position = {r, l, (uint8_t)s, 0};+ fill_segment(instance, position);+ }+ }+#ifdef GENKAT+ internal_kat(instance, r); /* Print all memory blocks */+#endif+ }+ return ARGON2_OK;+}++#if !defined(ARGON2_NO_THREADS)++#ifdef _WIN32+static unsigned __stdcall fill_segment_thr(void *thread_data)+#else+static void *fill_segment_thr(void *thread_data)+#endif+{+ argon2_thread_data *my_data = thread_data;+ fill_segment(my_data->instance_ptr, my_data->pos);+ argon2_thread_exit();+ return 0;+}++/* Multi-threaded version for p > 1 case */+static int fill_memory_blocks_mt(argon2_instance_t *instance) {+ uint32_t r, s;+ argon2_thread_handle_t *thread = NULL;+ argon2_thread_data *thr_data = NULL;+ int rc = ARGON2_OK;++ /* 1. Allocating space for threads */+ thread = calloc(instance->lanes, sizeof(argon2_thread_handle_t));+ if (thread == NULL) {+ rc = ARGON2_MEMORY_ALLOCATION_ERROR;+ goto fail;+ }++ thr_data = calloc(instance->lanes, sizeof(argon2_thread_data));+ if (thr_data == NULL) {+ rc = ARGON2_MEMORY_ALLOCATION_ERROR;+ goto fail;+ }++ for (r = 0; r < instance->passes; ++r) {+ for (s = 0; s < ARGON2_SYNC_POINTS; ++s) {+ uint32_t l;++ /* 2. Calling threads */+ for (l = 0; l < instance->lanes; ++l) {+ argon2_position_t position;++ /* 2.1 Join a thread if limit is exceeded */+ if (l >= instance->threads) {+ if (argon2_thread_join(thread[l - instance->threads])) {+ rc = ARGON2_THREAD_FAIL;+ goto fail;+ }+ }++ /* 2.2 Create thread */+ position.pass = r;+ position.lane = l;+ position.slice = (uint8_t)s;+ position.index = 0;+ thr_data[l].instance_ptr =+ instance; /* preparing the thread input */+ memcpy(&(thr_data[l].pos), &position,+ sizeof(argon2_position_t));+ if (argon2_thread_create(&thread[l], &fill_segment_thr,+ (void *)&thr_data[l])) {+ rc = ARGON2_THREAD_FAIL;+ goto fail;+ }++ /* fill_segment(instance, position); */+ /*Non-thread equivalent of the lines above */+ }++ /* 3. Joining remaining threads */+ for (l = instance->lanes - instance->threads; l < instance->lanes;+ ++l) {+ if (argon2_thread_join(thread[l])) {+ rc = ARGON2_THREAD_FAIL;+ goto fail;+ }+ }+ }++#ifdef GENKAT+ internal_kat(instance, r); /* Print all memory blocks */+#endif+ }++fail:+ if (thread != NULL) {+ free(thread);+ }+ if (thr_data != NULL) {+ free(thr_data);+ }+ return rc;+}++#endif /* ARGON2_NO_THREADS */+static+int fill_memory_blocks(argon2_instance_t *instance) {+ if (instance == NULL || instance->lanes == 0) {+ return ARGON2_INCORRECT_PARAMETER;+ }+#if defined(ARGON2_NO_THREADS)+ return fill_memory_blocks_st(instance);+#else+ return instance->threads == 1 ?+ fill_memory_blocks_st(instance) : fill_memory_blocks_mt(instance);+#endif+}+static+int validate_inputs(const argon2_context *context) {+ if (NULL == context) {+ return ARGON2_INCORRECT_PARAMETER;+ }++ if (NULL == context->out) {+ return ARGON2_OUTPUT_PTR_NULL;+ }++ /* Validate output length */+ if (ARGON2_MIN_OUTLEN > context->outlen) {+ return ARGON2_OUTPUT_TOO_SHORT;+ }++ if (ARGON2_MAX_OUTLEN < context->outlen) {+ return ARGON2_OUTPUT_TOO_LONG;+ }++ /* Validate password (required param) */+ if (NULL == context->pwd) {+ if (0 != context->pwdlen) {+ return ARGON2_PWD_PTR_MISMATCH;+ }+ }++ if (ARGON2_MIN_PWD_LENGTH > context->pwdlen) {+ return ARGON2_PWD_TOO_SHORT;+ }++ if (ARGON2_MAX_PWD_LENGTH < context->pwdlen) {+ return ARGON2_PWD_TOO_LONG;+ }++ /* Validate salt (required param) */+ if (NULL == context->salt) {+ if (0 != context->saltlen) {+ return ARGON2_SALT_PTR_MISMATCH;+ }+ }++ if (ARGON2_MIN_SALT_LENGTH > context->saltlen) {+ return ARGON2_SALT_TOO_SHORT;+ }++ if (ARGON2_MAX_SALT_LENGTH < context->saltlen) {+ return ARGON2_SALT_TOO_LONG;+ }++ /* Validate secret (optional param) */+ if (NULL == context->secret) {+ if (0 != context->secretlen) {+ return ARGON2_SECRET_PTR_MISMATCH;+ }+ } else {+ if (ARGON2_MIN_SECRET > context->secretlen) {+ return ARGON2_SECRET_TOO_SHORT;+ }+ if (ARGON2_MAX_SECRET < context->secretlen) {+ return ARGON2_SECRET_TOO_LONG;+ }+ }++ /* Validate associated data (optional param) */+ if (NULL == context->ad) {+ if (0 != context->adlen) {+ return ARGON2_AD_PTR_MISMATCH;+ }+ } else {+ if (ARGON2_MIN_AD_LENGTH > context->adlen) {+ return ARGON2_AD_TOO_SHORT;+ }+ if (ARGON2_MAX_AD_LENGTH < context->adlen) {+ return ARGON2_AD_TOO_LONG;+ }+ }++ /* Validate memory cost */+ if (ARGON2_MIN_MEMORY > context->m_cost) {+ return ARGON2_MEMORY_TOO_LITTLE;+ }++ if (ARGON2_MAX_MEMORY < context->m_cost) {+ return ARGON2_MEMORY_TOO_MUCH;+ }++ if (context->m_cost < 8 * context->lanes) {+ return ARGON2_MEMORY_TOO_LITTLE;+ }++ /* Validate time cost */+ if (ARGON2_MIN_TIME > context->t_cost) {+ return ARGON2_TIME_TOO_SMALL;+ }++ if (ARGON2_MAX_TIME < context->t_cost) {+ return ARGON2_TIME_TOO_LARGE;+ }++ /* Validate lanes */+ if (ARGON2_MIN_LANES > context->lanes) {+ return ARGON2_LANES_TOO_FEW;+ }++ if (ARGON2_MAX_LANES < context->lanes) {+ return ARGON2_LANES_TOO_MANY;+ }++ /* Validate threads */+ if (ARGON2_MIN_THREADS > context->threads) {+ return ARGON2_THREADS_TOO_FEW;+ }++ if (ARGON2_MAX_THREADS < context->threads) {+ return ARGON2_THREADS_TOO_MANY;+ }++ if (NULL != context->allocate_cbk && NULL == context->free_cbk) {+ return ARGON2_FREE_MEMORY_CBK_NULL;+ }++ if (NULL == context->allocate_cbk && NULL != context->free_cbk) {+ return ARGON2_ALLOCATE_MEMORY_CBK_NULL;+ }++ return ARGON2_OK;+}+static+void fill_first_blocks(uint8_t *blockhash, const argon2_instance_t *instance) {+ uint32_t l;+ /* Make the first and second block in each lane as G(H0||i||0) or+ G(H0||i||1) */+ uint8_t blockhash_bytes[ARGON2_BLOCK_SIZE];+ for (l = 0; l < instance->lanes; ++l) {++ store32(blockhash + ARGON2_PREHASH_DIGEST_LENGTH, 0);+ store32(blockhash + ARGON2_PREHASH_DIGEST_LENGTH + 4, l);+ blake2b_long(blockhash_bytes, ARGON2_BLOCK_SIZE, blockhash,+ ARGON2_PREHASH_SEED_LENGTH);+ load_block(&instance->memory[l * instance->lane_length + 0],+ blockhash_bytes);++ store32(blockhash + ARGON2_PREHASH_DIGEST_LENGTH, 1);+ blake2b_long(blockhash_bytes, ARGON2_BLOCK_SIZE, blockhash,+ ARGON2_PREHASH_SEED_LENGTH);+ load_block(&instance->memory[l * instance->lane_length + 1],+ blockhash_bytes);+ }+ clear_internal_memory(blockhash_bytes, ARGON2_BLOCK_SIZE);+}+static+void initial_hash(uint8_t *blockhash, argon2_context *context,+ argon2_type type) {+ blake2b_state BlakeHash;+ uint8_t value[sizeof(uint32_t)];++ if (NULL == context || NULL == blockhash) {+ return;+ }++ _cryptonite_blake2b_init(&BlakeHash, ARGON2_PREHASH_DIGEST_LENGTH);++ store32(&value, context->lanes);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ store32(&value, context->outlen);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ store32(&value, context->m_cost);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ store32(&value, context->t_cost);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ store32(&value, context->version);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ store32(&value, (uint32_t)type);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ store32(&value, context->pwdlen);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ if (context->pwd != NULL) {+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)context->pwd,+ context->pwdlen);++ if (context->flags & ARGON2_FLAG_CLEAR_PASSWORD) {+ secure_wipe_memory(context->pwd, context->pwdlen);+ context->pwdlen = 0;+ }+ }++ store32(&value, context->saltlen);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ if (context->salt != NULL) {+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)context->salt,+ context->saltlen);+ }++ store32(&value, context->secretlen);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ if (context->secret != NULL) {+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)context->secret,+ context->secretlen);++ if (context->flags & ARGON2_FLAG_CLEAR_SECRET) {+ secure_wipe_memory(context->secret, context->secretlen);+ context->secretlen = 0;+ }+ }++ store32(&value, context->adlen);+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)&value, sizeof(value));++ if (context->ad != NULL) {+ _cryptonite_blake2b_update(&BlakeHash, (const uint8_t *)context->ad,+ context->adlen);+ }++ _cryptonite_blake2b_final(&BlakeHash, blockhash, ARGON2_PREHASH_DIGEST_LENGTH);+}+static+int initialize(argon2_instance_t *instance, argon2_context *context) {+ uint8_t blockhash[ARGON2_PREHASH_SEED_LENGTH];+ int result = ARGON2_OK;++ if (instance == NULL || context == NULL)+ return ARGON2_INCORRECT_PARAMETER;+ instance->context_ptr = context;++ /* 1. Memory allocation */+ result = allocate_memory(context, (uint8_t **)&(instance->memory),+ instance->memory_blocks, sizeof(block));+ if (result != ARGON2_OK) {+ return result;+ }++ /* 2. Initial hashing */+ /* H_0 + 8 extra bytes to produce the first blocks */+ /* uint8_t blockhash[ARGON2_PREHASH_SEED_LENGTH]; */+ /* Hashing all inputs */+ initial_hash(blockhash, context, instance->type);+ /* Zeroing 8 extra bytes */+ clear_internal_memory(blockhash + ARGON2_PREHASH_DIGEST_LENGTH,+ ARGON2_PREHASH_SEED_LENGTH -+ ARGON2_PREHASH_DIGEST_LENGTH);++#ifdef GENKAT+ initial_kat(blockhash, context, instance->type);+#endif++ /* 3. Creating first blocks, we always have at least two blocks in a slice+ */+ fill_first_blocks(blockhash, instance);+ /* Clearing the hash */+ clear_internal_memory(blockhash, ARGON2_PREHASH_SEED_LENGTH);++ return ARGON2_OK;+}
+ cbits/argon2/core.h view
@@ -0,0 +1,234 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef ARGON2_CORE_H+#define ARGON2_CORE_H++#include "argon2.h"++#if defined(_MSC_VER)+#define ALIGN(n) __declspec(align(16))+#elif defined(__GNUC__) || defined(__clang)+#define ALIGN(x) __attribute__((__aligned__(x)))+#else+#define ALIGN(x)+#endif++#define CONST_CAST(x) (x)(uintptr_t)++/**********************Argon2 internal constants*******************************/++enum argon2_core_constants {+ /* Memory block size in bytes */+ ARGON2_BLOCK_SIZE = 1024,+ ARGON2_QWORDS_IN_BLOCK = ARGON2_BLOCK_SIZE / 8,+ ARGON2_OWORDS_IN_BLOCK = ARGON2_BLOCK_SIZE / 16,++ /* Number of pseudo-random values generated by one call to Blake in Argon2i+ to+ generate reference block positions */+ ARGON2_ADDRESSES_IN_BLOCK = 128,++ /* Pre-hashing digest length and its extension*/+ ARGON2_PREHASH_DIGEST_LENGTH = 64,+ ARGON2_PREHASH_SEED_LENGTH = 72+};++/*************************Argon2 internal data types***********************/++/*+ * Structure for the (1KB) memory block implemented as 128 64-bit words.+ * Memory blocks can be copied, XORed. Internal words can be accessed by [] (no+ * bounds checking).+ */+typedef struct block_ { uint64_t v[ARGON2_QWORDS_IN_BLOCK]; } block;++/*****************Functions that work with the block******************/++/* Initialize each byte of the block with @in */+static void init_block_value(block *b, uint8_t in);++/* Copy block @src to block @dst */+static void copy_block(block *dst, const block *src);++/* XOR @src onto @dst bytewise */+static void xor_block(block *dst, const block *src);++/*+ * Argon2 instance: memory pointer, number of passes, amount of memory, type,+ * and derived values.+ * Used to evaluate the number and location of blocks to construct in each+ * thread+ */+typedef struct Argon2_instance_t {+ block *memory; /* Memory pointer */+ uint32_t version;+ uint32_t passes; /* Number of passes */+ uint32_t memory_blocks; /* Number of blocks in memory */+ uint32_t segment_length;+ uint32_t lane_length;+ uint32_t lanes;+ uint32_t threads;+ argon2_type type;+ int print_internals; /* whether to print the memory blocks */+ argon2_context *context_ptr; /* points back to original context */+} argon2_instance_t;++/*+ * Argon2 position: where we construct the block right now. Used to distribute+ * work between threads.+ */+typedef struct Argon2_position_t {+ uint32_t pass;+ uint32_t lane;+ uint8_t slice;+ uint32_t index;+} argon2_position_t;++/*Struct that holds the inputs for thread handling FillSegment*/+typedef struct Argon2_thread_data {+ argon2_instance_t *instance_ptr;+ argon2_position_t pos;+} argon2_thread_data;++/*************************Argon2 core functions********************************/++/* Allocates memory to the given pointer, uses the appropriate allocator as+ * specified in the context. Total allocated memory is num*size.+ * @param context argon2_context which specifies the allocator+ * @param memory pointer to the pointer to the memory+ * @param size the size in bytes for each element to be allocated+ * @param num the number of elements to be allocated+ * @return ARGON2_OK if @memory is a valid pointer and memory is allocated+ */+static int allocate_memory(const argon2_context *context, uint8_t **memory,+ size_t num, size_t size);++/*+ * Frees memory at the given pointer, uses the appropriate deallocator as+ * specified in the context. Also cleans the memory using clear_internal_memory.+ * @param context argon2_context which specifies the deallocator+ * @param memory pointer to buffer to be freed+ * @param size the size in bytes for each element to be deallocated+ * @param num the number of elements to be deallocated+ */+static void free_memory(const argon2_context *context, uint8_t *memory,+ size_t num, size_t size);++/* Function that securely cleans the memory. This ignores any flags set+ * regarding clearing memory. Usually one just calls clear_internal_memory.+ * @param mem Pointer to the memory+ * @param s Memory size in bytes+ */+static void secure_wipe_memory(void *v, size_t n);++/* Function that securely clears the memory if FLAG_clear_internal_memory is+ * set. If the flag isn't set, this function does nothing.+ * @param mem Pointer to the memory+ * @param s Memory size in bytes+ */+static void clear_internal_memory(void *v, size_t n);++/*+ * Computes absolute position of reference block in the lane following a skewed+ * distribution and using a pseudo-random value as input+ * @param instance Pointer to the current instance+ * @param position Pointer to the current position+ * @param pseudo_rand 32-bit pseudo-random value used to determine the position+ * @param same_lane Indicates if the block will be taken from the current lane.+ * If so we can reference the current segment+ * @pre All pointers must be valid+ */+static uint32_t index_alpha(const argon2_instance_t *instance,+ const argon2_position_t *position, uint32_t pseudo_rand,+ int same_lane);++/*+ * Function that validates all inputs against predefined restrictions and return+ * an error code+ * @param context Pointer to current Argon2 context+ * @return ARGON2_OK if everything is all right, otherwise one of error codes+ * (all defined in <argon2.h>+ */+static int validate_inputs(const argon2_context *context);++/*+ * Hashes all the inputs into @a blockhash[PREHASH_DIGEST_LENGTH], clears+ * password and secret if needed+ * @param context Pointer to the Argon2 internal structure containing memory+ * pointer, and parameters for time and space requirements.+ * @param blockhash Buffer for pre-hashing digest+ * @param type Argon2 type+ * @pre @a blockhash must have at least @a PREHASH_DIGEST_LENGTH bytes+ * allocated+ */+static void initial_hash(uint8_t *blockhash, argon2_context *context,+ argon2_type type);++/*+ * Function creates first 2 blocks per lane+ * @param instance Pointer to the current instance+ * @param blockhash Pointer to the pre-hashing digest+ * @pre blockhash must point to @a PREHASH_SEED_LENGTH allocated values+ */+static void fill_first_blocks(uint8_t *blockhash, const argon2_instance_t *instance);++/*+ * Function allocates memory, hashes the inputs with Blake, and creates first+ * two blocks. Returns the pointer to the main memory with 2 blocks per lane+ * initialized+ * @param context Pointer to the Argon2 internal structure containing memory+ * pointer, and parameters for time and space requirements.+ * @param instance Current Argon2 instance+ * @return Zero if successful, -1 if memory failed to allocate. @context->state+ * will be modified if successful.+ */+static int initialize(argon2_instance_t *instance, argon2_context *context);++/*+ * XORing the last block of each lane, hashing it, making the tag. Deallocates+ * the memory.+ * @param context Pointer to current Argon2 context (use only the out parameters+ * from it)+ * @param instance Pointer to current instance of Argon2+ * @pre instance->state must point to necessary amount of memory+ * @pre context->out must point to outlen bytes of memory+ * @pre if context->free_cbk is not NULL, it should point to a function that+ * deallocates memory+ */+static void finalize(const argon2_context *context, argon2_instance_t *instance);++/*+ * Function that fills the segment using previous segments also from other+ * threads+ * @param context current context+ * @param instance Pointer to the current instance+ * @param position Current position+ * @pre all block pointers must be valid+ */+static void fill_segment(const argon2_instance_t *instance,+ argon2_position_t position);++/*+ * Function that fills the entire memory t_cost times based on the first two+ * blocks in each lane+ * @param instance Pointer to the current instance+ * @return ARGON2_OK if successful, @context->state+ */+static int fill_memory_blocks(argon2_instance_t *instance);++#endif
+ cbits/argon2/opt.c view
@@ -0,0 +1,186 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#include <stdint.h>+#include <string.h>+#include <stdlib.h>++#include "argon2.h"+#include "opt.h"++#include "blake2/blake2.h"+#include "blake2/blamka-round-opt.h"++static void fill_block(__m128i *state, const block *ref_block, block *next_block,+ int with_xor) {+ __m128i block_XY[ARGON2_OWORDS_IN_BLOCK];+ unsigned int i;++ if (with_xor) {+ for (i = 0; i < ARGON2_OWORDS_IN_BLOCK; i++) {+ state[i] = _mm_xor_si128(+ state[i], _mm_loadu_si128((const __m128i *)ref_block->v + i));+ block_XY[i] = _mm_xor_si128(+ state[i], _mm_loadu_si128((const __m128i *)next_block->v + i));+ }+ } else {+ for (i = 0; i < ARGON2_OWORDS_IN_BLOCK; i++) {+ block_XY[i] = state[i] = _mm_xor_si128(+ state[i], _mm_loadu_si128((const __m128i *)ref_block->v + i));+ }+ }++ for (i = 0; i < 8; ++i) {+ BLAKE2_ROUND(state[8 * i + 0], state[8 * i + 1], state[8 * i + 2],+ state[8 * i + 3], state[8 * i + 4], state[8 * i + 5],+ state[8 * i + 6], state[8 * i + 7]);+ }++ for (i = 0; i < 8; ++i) {+ BLAKE2_ROUND(state[8 * 0 + i], state[8 * 1 + i], state[8 * 2 + i],+ state[8 * 3 + i], state[8 * 4 + i], state[8 * 5 + i],+ state[8 * 6 + i], state[8 * 7 + i]);+ }++ for (i = 0; i < ARGON2_OWORDS_IN_BLOCK; i++) {+ state[i] = _mm_xor_si128(state[i], block_XY[i]);+ _mm_storeu_si128((__m128i *)next_block->v + i, state[i]);+ }+}++static void next_addresses(block *address_block, block *input_block) {+ /*Temporary zero-initialized blocks*/+ __m128i zero_block[ARGON2_OWORDS_IN_BLOCK];+ __m128i zero2_block[ARGON2_OWORDS_IN_BLOCK];++ memset(zero_block, 0, sizeof(zero_block));+ memset(zero2_block, 0, sizeof(zero2_block));++ /*Increasing index counter*/+ input_block->v[6]++;++ /*First iteration of G*/+ fill_block(zero_block, input_block, address_block, 0);++ /*Second iteration of G*/+ fill_block(zero2_block, address_block, address_block, 0);+}++static void fill_segment(const argon2_instance_t *instance,+ argon2_position_t position) {+ block *ref_block = NULL, *curr_block = NULL;+ block address_block, input_block;+ uint64_t pseudo_rand, ref_index, ref_lane;+ uint32_t prev_offset, curr_offset;+ uint32_t starting_index, i;+ __m128i state[64];+ int data_independent_addressing;++ if (instance == NULL) {+ return;+ }++ data_independent_addressing =+ (instance->type == Argon2_i) ||+ (instance->type == Argon2_id && (position.pass == 0) &&+ (position.slice < ARGON2_SYNC_POINTS / 2));++ if (data_independent_addressing) {+ init_block_value(&input_block, 0);++ input_block.v[0] = position.pass;+ input_block.v[1] = position.lane;+ input_block.v[2] = position.slice;+ input_block.v[3] = instance->memory_blocks;+ input_block.v[4] = instance->passes;+ input_block.v[5] = instance->type;+ }++ starting_index = 0;++ if ((0 == position.pass) && (0 == position.slice)) {+ starting_index = 2; /* we have already generated the first two blocks */++ /* Don't forget to generate the first block of addresses: */+ if (data_independent_addressing) {+ next_addresses(&address_block, &input_block);+ }+ }++ /* Offset of the current block */+ curr_offset = position.lane * instance->lane_length ++ position.slice * instance->segment_length + starting_index;++ if (0 == curr_offset % instance->lane_length) {+ /* Last block in this lane */+ prev_offset = curr_offset + instance->lane_length - 1;+ } else {+ /* Previous block */+ prev_offset = curr_offset - 1;+ }++ memcpy(state, ((instance->memory + prev_offset)->v), ARGON2_BLOCK_SIZE);++ for (i = starting_index; i < instance->segment_length;+ ++i, ++curr_offset, ++prev_offset) {+ /*1.1 Rotating prev_offset if needed */+ if (curr_offset % instance->lane_length == 1) {+ prev_offset = curr_offset - 1;+ }++ /* 1.2 Computing the index of the reference block */+ /* 1.2.1 Taking pseudo-random value from the previous block */+ if (data_independent_addressing) {+ if (i % ARGON2_ADDRESSES_IN_BLOCK == 0) {+ next_addresses(&address_block, &input_block);+ }+ pseudo_rand = address_block.v[i % ARGON2_ADDRESSES_IN_BLOCK];+ } else {+ pseudo_rand = instance->memory[prev_offset].v[0];+ }++ /* 1.2.2 Computing the lane of the reference block */+ ref_lane = ((pseudo_rand >> 32)) % instance->lanes;++ if ((position.pass == 0) && (position.slice == 0)) {+ /* Can not reference other lanes yet */+ ref_lane = position.lane;+ }++ /* 1.2.3 Computing the number of possible reference block within the+ * lane.+ */+ position.index = i;+ ref_index = index_alpha(instance, &position, pseudo_rand & 0xFFFFFFFF,+ ref_lane == position.lane);++ /* 2 Creating a new block */+ ref_block =+ instance->memory + instance->lane_length * ref_lane + ref_index;+ curr_block = instance->memory + curr_offset;+ if (ARGON2_VERSION_10 == instance->version) {+ /* version 1.2.1 and earlier: overwrite, not XOR */+ fill_block(state, ref_block, curr_block, 0);+ } else {+ if(0 == position.pass) {+ fill_block(state, ref_block, curr_block, 0);+ } else {+ fill_block(state, ref_block, curr_block, 1);+ }+ }+ }+}
+ cbits/argon2/opt.h view
@@ -0,0 +1,35 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef ARGON2_OPT_H+#define ARGON2_OPT_H++#include "core.h"+#include <emmintrin.h>++/*+ * Function fills a new memory block and optionally XORs the old block over the new one.+ * Memory must be initialized.+ * @param state Pointer to the just produced block. Content will be updated(!)+ * @param ref_block Pointer to the reference block+ * @param next_block Pointer to the block to be XORed over. May coincide with @ref_block+ * @param with_xor Whether to XOR into the new block (1) or just overwrite (0)+ * @pre all block pointers must be valid+ */+static void fill_block(__m128i *s, const block *ref_block, block *next_block, int with_xor);++#endif /* ARGON2_OPT_H */
+ cbits/argon2/ref.c view
@@ -0,0 +1,185 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#include <stdint.h>+#include <string.h>+#include <stdlib.h>++#include "argon2.h"+#include "ref.h"++#include "blamka-round-ref.h"+#include "blake2-impl.h"+#include "blake2.h"+++static void fill_block(const block *prev_block, const block *ref_block,+ block *next_block, int with_xor) {+ block blockR, block_tmp;+ unsigned i;++ copy_block(&blockR, ref_block);+ xor_block(&blockR, prev_block);+ copy_block(&block_tmp, &blockR);+ /* Now blockR = ref_block + prev_block and block_tmp = ref_block + prev_block */+ if (with_xor) {+ /* Saving the next block contents for XOR over: */+ xor_block(&block_tmp, next_block);+ /* Now blockR = ref_block + prev_block and+ block_tmp = ref_block + prev_block + next_block */+ }++ /* Apply Blake2 on columns of 64-bit words: (0,1,...,15) , then+ (16,17,..31)... finally (112,113,...127) */+ for (i = 0; i < 8; ++i) {+ BLAKE2_ROUND_NOMSG(+ blockR.v[16 * i], blockR.v[16 * i + 1], blockR.v[16 * i + 2],+ blockR.v[16 * i + 3], blockR.v[16 * i + 4], blockR.v[16 * i + 5],+ blockR.v[16 * i + 6], blockR.v[16 * i + 7], blockR.v[16 * i + 8],+ blockR.v[16 * i + 9], blockR.v[16 * i + 10], blockR.v[16 * i + 11],+ blockR.v[16 * i + 12], blockR.v[16 * i + 13], blockR.v[16 * i + 14],+ blockR.v[16 * i + 15]);+ }++ /* Apply Blake2 on rows of 64-bit words: (0,1,16,17,...112,113), then+ (2,3,18,19,...,114,115).. finally (14,15,30,31,...,126,127) */+ for (i = 0; i < 8; i++) {+ BLAKE2_ROUND_NOMSG(+ blockR.v[2 * i], blockR.v[2 * i + 1], blockR.v[2 * i + 16],+ blockR.v[2 * i + 17], blockR.v[2 * i + 32], blockR.v[2 * i + 33],+ blockR.v[2 * i + 48], blockR.v[2 * i + 49], blockR.v[2 * i + 64],+ blockR.v[2 * i + 65], blockR.v[2 * i + 80], blockR.v[2 * i + 81],+ blockR.v[2 * i + 96], blockR.v[2 * i + 97], blockR.v[2 * i + 112],+ blockR.v[2 * i + 113]);+ }++ copy_block(next_block, &block_tmp);+ xor_block(next_block, &blockR);+}++static void next_addresses(block *address_block, block *input_block,+ const block *zero_block) {+ input_block->v[6]++;+ fill_block(zero_block, input_block, address_block, 0);+ fill_block(zero_block, address_block, address_block, 0);+}++static void fill_segment(const argon2_instance_t *instance,+ argon2_position_t position) {+ block *ref_block = NULL, *curr_block = NULL;+ block address_block, input_block, zero_block;+ uint64_t pseudo_rand, ref_index, ref_lane;+ uint32_t prev_offset, curr_offset;+ uint32_t starting_index;+ uint32_t i;+ int data_independent_addressing;++ if (instance == NULL) {+ return;+ }++ data_independent_addressing =+ (instance->type == Argon2_i) ||+ (instance->type == Argon2_id && (position.pass == 0) &&+ (position.slice < ARGON2_SYNC_POINTS / 2));++ if (data_independent_addressing) {+ init_block_value(&zero_block, 0);+ init_block_value(&input_block, 0);++ input_block.v[0] = position.pass;+ input_block.v[1] = position.lane;+ input_block.v[2] = position.slice;+ input_block.v[3] = instance->memory_blocks;+ input_block.v[4] = instance->passes;+ input_block.v[5] = instance->type;+ }++ starting_index = 0;++ if ((0 == position.pass) && (0 == position.slice)) {+ starting_index = 2; /* we have already generated the first two blocks */++ /* Don't forget to generate the first block of addresses: */+ if (data_independent_addressing) {+ next_addresses(&address_block, &input_block, &zero_block);+ }+ }++ /* Offset of the current block */+ curr_offset = position.lane * instance->lane_length ++ position.slice * instance->segment_length + starting_index;++ if (0 == curr_offset % instance->lane_length) {+ /* Last block in this lane */+ prev_offset = curr_offset + instance->lane_length - 1;+ } else {+ /* Previous block */+ prev_offset = curr_offset - 1;+ }++ for (i = starting_index; i < instance->segment_length;+ ++i, ++curr_offset, ++prev_offset) {+ /*1.1 Rotating prev_offset if needed */+ if (curr_offset % instance->lane_length == 1) {+ prev_offset = curr_offset - 1;+ }++ /* 1.2 Computing the index of the reference block */+ /* 1.2.1 Taking pseudo-random value from the previous block */+ if (data_independent_addressing) {+ if (i % ARGON2_ADDRESSES_IN_BLOCK == 0) {+ next_addresses(&address_block, &input_block, &zero_block);+ }+ pseudo_rand = address_block.v[i % ARGON2_ADDRESSES_IN_BLOCK];+ } else {+ pseudo_rand = instance->memory[prev_offset].v[0];+ }++ /* 1.2.2 Computing the lane of the reference block */+ ref_lane = ((pseudo_rand >> 32)) % instance->lanes;++ if ((position.pass == 0) && (position.slice == 0)) {+ /* Can not reference other lanes yet */+ ref_lane = position.lane;+ }++ /* 1.2.3 Computing the number of possible reference block within the+ * lane.+ */+ position.index = i;+ ref_index = index_alpha(instance, &position, pseudo_rand & 0xFFFFFFFF,+ ref_lane == position.lane);++ /* 2 Creating a new block */+ ref_block =+ instance->memory + instance->lane_length * ref_lane + ref_index;+ curr_block = instance->memory + curr_offset;+ if (ARGON2_VERSION_10 == instance->version) {+ /* version 1.2.1 and earlier: overwrite, not XOR */+ fill_block(instance->memory + prev_offset, ref_block, curr_block, 0);+ } else {+ if(0 == position.pass) {+ fill_block(instance->memory + prev_offset, ref_block,+ curr_block, 0);+ } else {+ fill_block(instance->memory + prev_offset, ref_block,+ curr_block, 1);+ }+ }+ }+}
+ cbits/argon2/ref.h view
@@ -0,0 +1,35 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef ARGON2_REF_H+#define ARGON2_REF_H++#include "core.h"++/*+ * Function fills a new memory block and optionally XORs the old block over the new one.+ * @next_block must be initialized.+ * @param prev_block Pointer to the previous block+ * @param ref_block Pointer to the reference block+ * @param next_block Pointer to the block to be constructed+ * @param with_xor Whether to XOR into the new block (1) or just overwrite (0)+ * @pre all block pointers must be valid+ */+static void fill_block(const block *prev_block, const block *ref_block,+ block *next_block, int with_xor);++#endif /* ARGON2_REF_H */
+ cbits/argon2/thread.c view
@@ -0,0 +1,57 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#if !defined(ARGON2_NO_THREADS)++#include "thread.h"+#if defined(_WIN32)+#include <windows.h>+#endif++static int argon2_thread_create(argon2_thread_handle_t *handle,+ argon2_thread_func_t func, void *args) {+ if (NULL == handle || func == NULL) {+ return -1;+ }+#if defined(_WIN32)+ *handle = _beginthreadex(NULL, 0, func, args, 0, NULL);+ return *handle != 0 ? 0 : -1;+#else+ return pthread_create(handle, NULL, func, args);+#endif+}++static int argon2_thread_join(argon2_thread_handle_t handle) {+#if defined(_WIN32)+ if (WaitForSingleObject((HANDLE)handle, INFINITE) == WAIT_OBJECT_0) {+ return CloseHandle((HANDLE)handle) != 0 ? 0 : -1;+ }+ return -1;+#else+ return pthread_join(handle, NULL);+#endif+}++static void argon2_thread_exit(void) {+#if defined(_WIN32)+ _endthreadex(0);+#else+ pthread_exit(NULL);+#endif+}++#endif /* ARGON2_NO_THREADS */
+ cbits/argon2/thread.h view
@@ -0,0 +1,67 @@+/*+ * Argon2 reference source code package - reference C implementations+ *+ * Copyright 2015+ * Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, and Samuel Neves+ *+ * You may use this work under the terms of a Creative Commons CC0 1.0 + * License/Waiver or the Apache Public License 2.0, at your option. The terms of+ * these licenses can be found at:+ *+ * - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ * - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0+ *+ * You should have received a copy of both of these licenses along with this+ * software. If not, they may be obtained at the above URLs.+ */++#ifndef ARGON2_THREAD_H+#define ARGON2_THREAD_H++#if !defined(ARGON2_NO_THREADS)++/*+ Here we implement an abstraction layer for the simpĺe requirements+ of the Argon2 code. We only require 3 primitives---thread creation,+ joining, and termination---so full emulation of the pthreads API+ is unwarranted. Currently we wrap pthreads and Win32 threads.++ The API defines 2 types: the function pointer type,+ argon2_thread_func_t,+ and the type of the thread handle---argon2_thread_handle_t.+*/+#if defined(_WIN32)+#include <process.h>+typedef unsigned(__stdcall *argon2_thread_func_t)(void *);+typedef uintptr_t argon2_thread_handle_t;+#else+#include <pthread.h>+typedef void *(*argon2_thread_func_t)(void *);+typedef pthread_t argon2_thread_handle_t;+#endif++/* Creates a thread+ * @param handle pointer to a thread handle, which is the output of this+ * function. Must not be NULL.+ * @param func A function pointer for the thread's entry point. Must not be+ * NULL.+ * @param args Pointer that is passed as an argument to @func. May be NULL.+ * @return 0 if @handle and @func are valid pointers and a thread is successfuly+ * created.+ */+static int argon2_thread_create(argon2_thread_handle_t *handle,+ argon2_thread_func_t func, void *args);++/* Waits for a thread to terminate+ * @param handle Handle to a thread created with argon2_thread_create.+ * @return 0 if @handle is a valid handle, and joining completed successfully.+*/+static int argon2_thread_join(argon2_thread_handle_t handle);++/* Terminate the current thread. Must be run inside a thread created by+ * argon2_thread_create.+*/+static void argon2_thread_exit(void);++#endif /* ARGON2_NO_THREADS */+#endif
cbits/blake2/ref/blake2-impl.h view
@@ -1,23 +1,36 @@ /* BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2_IMPL_H__-#define __BLAKE2_IMPL_H__+#ifndef BLAKE2_IMPL_H+#define BLAKE2_IMPL_H #include <stdint.h> #include <string.h> -static inline uint32_t load32( const void *src )+#if !defined(__cplusplus) && (!defined(__STDC_VERSION__) || __STDC_VERSION__ < 199901L)+ #if defined(_MSC_VER)+ #define BLAKE2_INLINE __inline+ #elif defined(__GNUC__)+ #define BLAKE2_INLINE __inline__+ #else+ #define BLAKE2_INLINE+ #endif+#else+ #define BLAKE2_INLINE inline+#endif++static BLAKE2_INLINE uint32_t load32( const void *src ) { #if defined(NATIVE_LITTLE_ENDIAN) uint32_t w;@@ -25,15 +38,14 @@ return w; #else const uint8_t *p = ( const uint8_t * )src;- uint32_t w = *p++;- w |= ( uint32_t )( *p++ ) << 8;- w |= ( uint32_t )( *p++ ) << 16;- w |= ( uint32_t )( *p++ ) << 24;- return w;+ return (( uint32_t )( p[0] ) << 0) |+ (( uint32_t )( p[1] ) << 8) |+ (( uint32_t )( p[2] ) << 16) |+ (( uint32_t )( p[3] ) << 24) ; #endif } -static inline uint64_t load64( const void *src )+static BLAKE2_INLINE uint64_t load64( const void *src ) { #if defined(NATIVE_LITTLE_ENDIAN) uint64_t w;@@ -41,97 +53,108 @@ return w; #else const uint8_t *p = ( const uint8_t * )src;- uint64_t w = *p++;- w |= ( uint64_t )( *p++ ) << 8;- w |= ( uint64_t )( *p++ ) << 16;- w |= ( uint64_t )( *p++ ) << 24;- w |= ( uint64_t )( *p++ ) << 32;- w |= ( uint64_t )( *p++ ) << 40;- w |= ( uint64_t )( *p++ ) << 48;- w |= ( uint64_t )( *p++ ) << 56;- return w;+ return (( uint64_t )( p[0] ) << 0) |+ (( uint64_t )( p[1] ) << 8) |+ (( uint64_t )( p[2] ) << 16) |+ (( uint64_t )( p[3] ) << 24) |+ (( uint64_t )( p[4] ) << 32) |+ (( uint64_t )( p[5] ) << 40) |+ (( uint64_t )( p[6] ) << 48) |+ (( uint64_t )( p[7] ) << 56) ; #endif } -static inline void store32( void *dst, uint32_t w )+static BLAKE2_INLINE uint16_t load16( const void *src ) { #if defined(NATIVE_LITTLE_ENDIAN)- memcpy(dst, &w, sizeof w);+ uint16_t w;+ memcpy(&w, src, sizeof w);+ return w; #else- uint8_t *p = ( uint8_t * )dst;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w;+ const uint8_t *p = ( const uint8_t * )src;+ return ( uint16_t )((( uint32_t )( p[0] ) << 0) |+ (( uint32_t )( p[1] ) << 8)); #endif } -static inline void store64( void *dst, uint64_t w )+static BLAKE2_INLINE void store16( void *dst, uint16_t w ) { #if defined(NATIVE_LITTLE_ENDIAN) memcpy(dst, &w, sizeof w); #else uint8_t *p = ( uint8_t * )dst; *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8; *p++ = ( uint8_t )w; #endif } -static inline uint64_t load48( const void *src )+static BLAKE2_INLINE void store32( void *dst, uint32_t w ) {- const uint8_t *p = ( const uint8_t * )src;- uint64_t w = *p++;- w |= ( uint64_t )( *p++ ) << 8;- w |= ( uint64_t )( *p++ ) << 16;- w |= ( uint64_t )( *p++ ) << 24;- w |= ( uint64_t )( *p++ ) << 32;- w |= ( uint64_t )( *p++ ) << 40;- return w;+#if defined(NATIVE_LITTLE_ENDIAN)+ memcpy(dst, &w, sizeof w);+#else+ uint8_t *p = ( uint8_t * )dst;+ p[0] = (uint8_t)(w >> 0);+ p[1] = (uint8_t)(w >> 8);+ p[2] = (uint8_t)(w >> 16);+ p[3] = (uint8_t)(w >> 24);+#endif } -static inline void store48( void *dst, uint64_t w )+static BLAKE2_INLINE void store64( void *dst, uint64_t w ) {+#if defined(NATIVE_LITTLE_ENDIAN)+ memcpy(dst, &w, sizeof w);+#else uint8_t *p = ( uint8_t * )dst;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w;+ p[0] = (uint8_t)(w >> 0);+ p[1] = (uint8_t)(w >> 8);+ p[2] = (uint8_t)(w >> 16);+ p[3] = (uint8_t)(w >> 24);+ p[4] = (uint8_t)(w >> 32);+ p[5] = (uint8_t)(w >> 40);+ p[6] = (uint8_t)(w >> 48);+ p[7] = (uint8_t)(w >> 56);+#endif } -static inline uint32_t rotl32( const uint32_t w, const unsigned c )+static BLAKE2_INLINE uint64_t load48( const void *src ) {- return ( w << c ) | ( w >> ( 32 - c ) );+ const uint8_t *p = ( const uint8_t * )src;+ return (( uint64_t )( p[0] ) << 0) |+ (( uint64_t )( p[1] ) << 8) |+ (( uint64_t )( p[2] ) << 16) |+ (( uint64_t )( p[3] ) << 24) |+ (( uint64_t )( p[4] ) << 32) |+ (( uint64_t )( p[5] ) << 40) ; } -static inline uint64_t rotl64( const uint64_t w, const unsigned c )+static BLAKE2_INLINE void store48( void *dst, uint64_t w ) {- return ( w << c ) | ( w >> ( 64 - c ) );+ uint8_t *p = ( uint8_t * )dst;+ p[0] = (uint8_t)(w >> 0);+ p[1] = (uint8_t)(w >> 8);+ p[2] = (uint8_t)(w >> 16);+ p[3] = (uint8_t)(w >> 24);+ p[4] = (uint8_t)(w >> 32);+ p[5] = (uint8_t)(w >> 40); } -static inline uint32_t rotr32( const uint32_t w, const unsigned c )+static BLAKE2_INLINE uint32_t rotr32( const uint32_t w, const unsigned c ) { return ( w >> c ) | ( w << ( 32 - c ) ); } -static inline uint64_t rotr64( const uint64_t w, const unsigned c )+static BLAKE2_INLINE uint64_t rotr64( const uint64_t w, const unsigned c ) { return ( w >> c ) | ( w << ( 64 - c ) ); } /* prevents compiler optimizing out memset() */-static inline void secure_zero_memory(void *v, size_t n)+static BLAKE2_INLINE void secure_zero_memory(void *v, size_t n) { static void *(*const volatile memset_v)(void *, int, size_t) = &memset; memset_v(v, 0, n); } #endif-
− cbits/blake2/ref/blake2-kat.h
@@ -1,16467 +0,0 @@-/*- BLAKE2 reference source code package - reference C implementations-- Written in 2012 by Samuel Neves <sneves@dei.uc.pt>-- To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.-- You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.-*/-#pragma once-#ifndef __BLAKE2_KAT_H__-#define __BLAKE2_KAT_H__---#include <stdint.h>--#define KAT_LENGTH 256----static const uint8_t blake2s_kat[KAT_LENGTH][BLAKE2S_OUTBYTES] =-{- {- 0x69, 0x21, 0x7A, 0x30, 0x79, 0x90, 0x80, 0x94,- 0xE1, 0x11, 0x21, 0xD0, 0x42, 0x35, 0x4A, 0x7C,- 0x1F, 0x55, 0xB6, 0x48, 0x2C, 0xA1, 0xA5, 0x1E,- 0x1B, 0x25, 0x0D, 0xFD, 0x1E, 0xD0, 0xEE, 0xF9- },- {- 0xE3, 0x4D, 0x74, 0xDB, 0xAF, 0x4F, 0xF4, 0xC6,- 0xAB, 0xD8, 0x71, 0xCC, 0x22, 0x04, 0x51, 0xD2,- 0xEA, 0x26, 0x48, 0x84, 0x6C, 0x77, 0x57, 0xFB,- 0xAA, 0xC8, 0x2F, 0xE5, 0x1A, 0xD6, 0x4B, 0xEA- },- {- 0xDD, 0xAD, 0x9A, 0xB1, 0x5D, 0xAC, 0x45, 0x49,- 0xBA, 0x42, 0xF4, 0x9D, 0x26, 0x24, 0x96, 0xBE,- 0xF6, 0xC0, 0xBA, 0xE1, 0xDD, 0x34, 0x2A, 0x88,- 0x08, 0xF8, 0xEA, 0x26, 0x7C, 0x6E, 0x21, 0x0C- },- {- 0xE8, 0xF9, 0x1C, 0x6E, 0xF2, 0x32, 0xA0, 0x41,- 0x45, 0x2A, 0xB0, 0xE1, 0x49, 0x07, 0x0C, 0xDD,- 0x7D, 0xD1, 0x76, 0x9E, 0x75, 0xB3, 0xA5, 0x92,- 0x1B, 0xE3, 0x78, 0x76, 0xC4, 0x5C, 0x99, 0x00- },- {- 0x0C, 0xC7, 0x0E, 0x00, 0x34, 0x8B, 0x86, 0xBA,- 0x29, 0x44, 0xD0, 0xC3, 0x20, 0x38, 0xB2, 0x5C,- 0x55, 0x58, 0x4F, 0x90, 0xDF, 0x23, 0x04, 0xF5,- 0x5F, 0xA3, 0x32, 0xAF, 0x5F, 0xB0, 0x1E, 0x20- },- {- 0xEC, 0x19, 0x64, 0x19, 0x10, 0x87, 0xA4, 0xFE,- 0x9D, 0xF1, 0xC7, 0x95, 0x34, 0x2A, 0x02, 0xFF,- 0xC1, 0x91, 0xA5, 0xB2, 0x51, 0x76, 0x48, 0x56,- 0xAE, 0x5B, 0x8B, 0x57, 0x69, 0xF0, 0xC6, 0xCD- },- {- 0xE1, 0xFA, 0x51, 0x61, 0x8D, 0x7D, 0xF4, 0xEB,- 0x70, 0xCF, 0x0D, 0x5A, 0x9E, 0x90, 0x6F, 0x80,- 0x6E, 0x9D, 0x19, 0xF7, 0xF4, 0xF0, 0x1E, 0x3B,- 0x62, 0x12, 0x88, 0xE4, 0x12, 0x04, 0x05, 0xD6- },- {- 0x59, 0x80, 0x01, 0xFA, 0xFB, 0xE8, 0xF9, 0x4E,- 0xC6, 0x6D, 0xC8, 0x27, 0xD0, 0x12, 0xCF, 0xCB,- 0xBA, 0x22, 0x28, 0x56, 0x9F, 0x44, 0x8E, 0x89,- 0xEA, 0x22, 0x08, 0xC8, 0xBF, 0x76, 0x92, 0x93- },- {- 0xC7, 0xE8, 0x87, 0xB5, 0x46, 0x62, 0x36, 0x35,- 0xE9, 0x3E, 0x04, 0x95, 0x59, 0x8F, 0x17, 0x26,- 0x82, 0x19, 0x96, 0xC2, 0x37, 0x77, 0x05, 0xB9,- 0x3A, 0x1F, 0x63, 0x6F, 0x87, 0x2B, 0xFA, 0x2D- },- {- 0xC3, 0x15, 0xA4, 0x37, 0xDD, 0x28, 0x06, 0x2A,- 0x77, 0x0D, 0x48, 0x19, 0x67, 0x13, 0x6B, 0x1B,- 0x5E, 0xB8, 0x8B, 0x21, 0xEE, 0x53, 0xD0, 0x32,- 0x9C, 0x58, 0x97, 0x12, 0x6E, 0x9D, 0xB0, 0x2C- },- {- 0xBB, 0x47, 0x3D, 0xED, 0xDC, 0x05, 0x5F, 0xEA,- 0x62, 0x28, 0xF2, 0x07, 0xDA, 0x57, 0x53, 0x47,- 0xBB, 0x00, 0x40, 0x4C, 0xD3, 0x49, 0xD3, 0x8C,- 0x18, 0x02, 0x63, 0x07, 0xA2, 0x24, 0xCB, 0xFF- },- {- 0x68, 0x7E, 0x18, 0x73, 0xA8, 0x27, 0x75, 0x91,- 0xBB, 0x33, 0xD9, 0xAD, 0xF9, 0xA1, 0x39, 0x12,- 0xEF, 0xEF, 0xE5, 0x57, 0xCA, 0xFC, 0x39, 0xA7,- 0x95, 0x26, 0x23, 0xE4, 0x72, 0x55, 0xF1, 0x6D- },- {- 0x1A, 0xC7, 0xBA, 0x75, 0x4D, 0x6E, 0x2F, 0x94,- 0xE0, 0xE8, 0x6C, 0x46, 0xBF, 0xB2, 0x62, 0xAB,- 0xBB, 0x74, 0xF4, 0x50, 0xEF, 0x45, 0x6D, 0x6B,- 0x4D, 0x97, 0xAA, 0x80, 0xCE, 0x6D, 0xA7, 0x67- },- {- 0x01, 0x2C, 0x97, 0x80, 0x96, 0x14, 0x81, 0x6B,- 0x5D, 0x94, 0x94, 0x47, 0x7D, 0x4B, 0x68, 0x7D,- 0x15, 0xB9, 0x6E, 0xB6, 0x9C, 0x0E, 0x80, 0x74,- 0xA8, 0x51, 0x6F, 0x31, 0x22, 0x4B, 0x5C, 0x98- },- {- 0x91, 0xFF, 0xD2, 0x6C, 0xFA, 0x4D, 0xA5, 0x13,- 0x4C, 0x7E, 0xA2, 0x62, 0xF7, 0x88, 0x9C, 0x32,- 0x9F, 0x61, 0xF6, 0xA6, 0x57, 0x22, 0x5C, 0xC2,- 0x12, 0xF4, 0x00, 0x56, 0xD9, 0x86, 0xB3, 0xF4- },- {- 0xD9, 0x7C, 0x82, 0x8D, 0x81, 0x82, 0xA7, 0x21,- 0x80, 0xA0, 0x6A, 0x78, 0x26, 0x83, 0x30, 0x67,- 0x3F, 0x7C, 0x4E, 0x06, 0x35, 0x94, 0x7C, 0x04,- 0xC0, 0x23, 0x23, 0xFD, 0x45, 0xC0, 0xA5, 0x2D- },- {- 0xEF, 0xC0, 0x4C, 0xDC, 0x39, 0x1C, 0x7E, 0x91,- 0x19, 0xBD, 0x38, 0x66, 0x8A, 0x53, 0x4E, 0x65,- 0xFE, 0x31, 0x03, 0x6D, 0x6A, 0x62, 0x11, 0x2E,- 0x44, 0xEB, 0xEB, 0x11, 0xF9, 0xC5, 0x70, 0x80- },- {- 0x99, 0x2C, 0xF5, 0xC0, 0x53, 0x44, 0x2A, 0x5F,- 0xBC, 0x4F, 0xAF, 0x58, 0x3E, 0x04, 0xE5, 0x0B,- 0xB7, 0x0D, 0x2F, 0x39, 0xFB, 0xB6, 0xA5, 0x03,- 0xF8, 0x9E, 0x56, 0xA6, 0x3E, 0x18, 0x57, 0x8A- },- {- 0x38, 0x64, 0x0E, 0x9F, 0x21, 0x98, 0x3E, 0x67,- 0xB5, 0x39, 0xCA, 0xCC, 0xAE, 0x5E, 0xCF, 0x61,- 0x5A, 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{- 0x04, 0x3B, 0x97, 0xE3, 0x36, 0xEE, 0x6F, 0xDB,- 0xBE, 0x2B, 0x50, 0xF2, 0x2A, 0xF8, 0x32, 0x75,- 0xA4, 0x08, 0x48, 0x05, 0xD2, 0xD5, 0x64, 0x59,- 0x62, 0x45, 0x4B, 0x6C, 0x9B, 0x80, 0x53, 0xA0- },- {- 0x56, 0x48, 0x35, 0xCB, 0xAE, 0xA7, 0x74, 0x94,- 0x85, 0x68, 0xBE, 0x36, 0xCF, 0x52, 0xFC, 0xDD,- 0x83, 0x93, 0x4E, 0xB0, 0xA2, 0x75, 0x12, 0xDB,- 0xE3, 0xE2, 0xDB, 0x47, 0xB9, 0xE6, 0x63, 0x5A- },- {- 0xF2, 0x1C, 0x33, 0xF4, 0x7B, 0xDE, 0x40, 0xA2,- 0xA1, 0x01, 0xC9, 0xCD, 0xE8, 0x02, 0x7A, 0xAF,- 0x61, 0xA3, 0x13, 0x7D, 0xE2, 0x42, 0x2B, 0x30,- 0x03, 0x5A, 0x04, 0xC2, 0x70, 0x89, 0x41, 0x83- },- {- 0x9D, 0xB0, 0xEF, 0x74, 0xE6, 0x6C, 0xBB, 0x84,- 0x2E, 0xB0, 0xE0, 0x73, 0x43, 0xA0, 0x3C, 0x5C,- 0x56, 0x7E, 0x37, 0x2B, 0x3F, 0x23, 0xB9, 0x43,- 0xC7, 0x88, 0xA4, 0xF2, 0x50, 0xF6, 0x78, 0x91- },- {- 0xAB, 0x8D, 0x08, 0x65, 0x5F, 0xF1, 0xD3, 0xFE,- 0x87, 0x58, 0xD5, 0x62, 0x23, 0x5F, 0xD2, 0x3E,- 0x7C, 0xF9, 0xDC, 0xAA, 0xD6, 0x58, 0x87, 0x2A,- 0x49, 0xE5, 0xD3, 0x18, 0x3B, 0x6C, 0xCE, 0xBD- },- {- 0x6F, 0x27, 0xF7, 0x7E, 0x7B, 0xCF, 0x46, 0xA1,- 0xE9, 0x63, 0xAD, 0xE0, 0x30, 0x97, 0x33, 0x54,- 0x30, 0x31, 0xDC, 0xCD, 0xD4, 0x7C, 0xAA, 0xC1,- 0x74, 0xD7, 0xD2, 0x7C, 0xE8, 0x07, 0x7E, 0x8B- },- {- 0xE3, 0xCD, 0x54, 0xDA, 0x7E, 0x44, 0x4C, 0xAA,- 0x62, 0x07, 0x56, 0x95, 0x25, 0xA6, 0x70, 0xEB,- 0xAE, 0x12, 0x78, 0xDE, 0x4E, 0x3F, 0xE2, 0x68,- 0x4B, 0x3E, 0x33, 0xF5, 0xEF, 0x90, 0xCC, 0x1B- },- {- 0xB2, 0xC3, 0xE3, 0x3A, 0x51, 0xD2, 0x2C, 0x4C,- 0x08, 0xFC, 0x09, 0x89, 0xC8, 0x73, 0xC9, 0xCC,- 0x41, 0x50, 0x57, 0x9B, 0x1E, 0x61, 0x63, 0xFA,- 0x69, 0x4A, 0xD5, 0x1D, 0x53, 0xD7, 0x12, 0xDC- },- {- 0xBE, 0x7F, 0xDA, 0x98, 0x3E, 0x13, 0x18, 0x9B,- 0x4C, 0x77, 0xE0, 0xA8, 0x09, 0x20, 0xB6, 0xE0,- 0xE0, 0xEA, 0x80, 0xC3, 0xB8, 0x4D, 0xBE, 0x7E,- 0x71, 0x17, 0xD2, 0x53, 0xF4, 0x81, 0x12, 0xF4- },- {- 0xB6, 0x00, 0x8C, 0x28, 0xFA, 0xE0, 0x8A, 0xA4,- 0x27, 0xE5, 0xBD, 0x3A, 0xAD, 0x36, 0xF1, 0x00,- 0x21, 0xF1, 0x6C, 0x77, 0xCF, 0xEA, 0xBE, 0xD0,- 0x7F, 0x97, 0xCC, 0x7D, 0xC1, 0xF1, 0x28, 0x4A- },- {- 0x6E, 0x4E, 0x67, 0x60, 0xC5, 0x38, 0xF2, 0xE9,- 0x7B, 0x3A, 0xDB, 0xFB, 0xBC, 0xDE, 0x57, 0xF8,- 0x96, 0x6B, 0x7E, 0xA8, 0xFC, 0xB5, 0xBF, 0x7E,- 0xFE, 0xC9, 0x13, 0xFD, 0x2A, 0x2B, 0x0C, 0x55- },- {- 0x4A, 0xE5, 0x1F, 0xD1, 0x83, 0x4A, 0xA5, 0xBD,- 0x9A, 0x6F, 0x7E, 0xC3, 0x9F, 0xC6, 0x63, 0x33,- 0x8D, 0xC5, 0xD2, 0xE2, 0x07, 0x61, 0x56, 0x6D,- 0x90, 0xCC, 0x68, 0xB1, 0xCB, 0x87, 0x5E, 0xD8- },- {- 0xB6, 0x73, 0xAA, 0xD7, 0x5A, 0xB1, 0xFD, 0xB5,- 0x40, 0x1A, 0xBF, 0xA1, 0xBF, 0x89, 0xF3, 0xAD,- 0xD2, 0xEB, 0xC4, 0x68, 0xDF, 0x36, 0x24, 0xA4,- 0x78, 0xF4, 0xFE, 0x85, 0x9D, 0x8D, 0x55, 0xE2- },- {- 0x13, 0xC9, 0x47, 0x1A, 0x98, 0x55, 0x91, 0x35,- 0x39, 0x83, 0x66, 0x60, 0x39, 0x8D, 0xA0, 0xF3,- 0xF9, 0x9A, 0xDA, 0x08, 0x47, 0x9C, 0x69, 0xD1,- 0xB7, 0xFC, 0xAA, 0x34, 0x61, 0xDD, 0x7E, 0x59- },- {- 0x2C, 0x11, 0xF4, 0xA7, 0xF9, 0x9A, 0x1D, 0x23,- 0xA5, 0x8B, 0xB6, 0x36, 0x35, 0x0F, 0xE8, 0x49,- 0xF2, 0x9C, 0xBA, 0xC1, 0xB2, 0xA1, 0x11, 0x2D,- 0x9F, 0x1E, 0xD5, 0xBC, 0x5B, 0x31, 0x3C, 0xCD- },- {- 0xC7, 0xD3, 0xC0, 0x70, 0x6B, 0x11, 0xAE, 0x74,- 0x1C, 0x05, 0xA1, 0xEF, 0x15, 0x0D, 0xD6, 0x5B,- 0x54, 0x94, 0xD6, 0xD5, 0x4C, 0x9A, 0x86, 0xE2,- 0x61, 0x78, 0x54, 0xE6, 0xAE, 0xEE, 0xBB, 0xD9- },- {- 0x19, 0x4E, 0x10, 0xC9, 0x38, 0x93, 0xAF, 0xA0,- 0x64, 0xC3, 0xAC, 0x04, 0xC0, 0xDD, 0x80, 0x8D,- 0x79, 0x1C, 0x3D, 0x4B, 0x75, 0x56, 0xE8, 0x9D,- 0x8D, 0x9C, 0xB2, 0x25, 0xC4, 0xB3, 0x33, 0x39- },- {- 0x6F, 0xC4, 0x98, 0x8B, 0x8F, 0x78, 0x54, 0x6B,- 0x16, 0x88, 0x99, 0x18, 0x45, 0x90, 0x8F, 0x13,- 0x4B, 0x6A, 0x48, 0x2E, 0x69, 0x94, 0xB3, 0xD4,- 0x83, 0x17, 0xBF, 0x08, 0xDB, 0x29, 0x21, 0x85- },- {- 0x56, 0x65, 0xBE, 0xB8, 0xB0, 0x95, 0x55, 0x25,- 0x81, 0x3B, 0x59, 0x81, 0xCD, 0x14, 0x2E, 0xD4,- 0xD0, 0x3F, 0xBA, 0x38, 0xA6, 0xF3, 0xE5, 0xAD,- 0x26, 0x8E, 0x0C, 0xC2, 0x70, 0xD1, 0xCD, 0x11- },- {- 0xB8, 0x83, 0xD6, 0x8F, 0x5F, 0xE5, 0x19, 0x36,- 0x43, 0x1B, 0xA4, 0x25, 0x67, 0x38, 0x05, 0x3B,- 0x1D, 0x04, 0x26, 0xD4, 0xCB, 0x64, 0xB1, 0x6E,- 0x83, 0xBA, 0xDC, 0x5E, 0x9F, 0xBE, 0x3B, 0x81- },- {- 0x53, 0xE7, 0xB2, 0x7E, 0xA5, 0x9C, 0x2F, 0x6D,- 0xBB, 0x50, 0x76, 0x9E, 0x43, 0x55, 0x4D, 0xF3,- 0x5A, 0xF8, 0x9F, 0x48, 0x22, 0xD0, 0x46, 0x6B,- 0x00, 0x7D, 0xD6, 0xF6, 0xDE, 0xAF, 0xFF, 0x02- },- {- 0x1F, 0x1A, 0x02, 0x29, 0xD4, 0x64, 0x0F, 0x01,- 0x90, 0x15, 0x88, 0xD9, 0xDE, 0xC2, 0x2D, 0x13,- 0xFC, 0x3E, 0xB3, 0x4A, 0x61, 0xB3, 0x29, 0x38,- 0xEF, 0xBF, 0x53, 0x34, 0xB2, 0x80, 0x0A, 0xFA- },- {- 0xC2, 0xB4, 0x05, 0xAF, 0xA0, 0xFA, 0x66, 0x68,- 0x85, 0x2A, 0xEE, 0x4D, 0x88, 0x04, 0x08, 0x53,- 0xFA, 0xB8, 0x00, 0xE7, 0x2B, 0x57, 0x58, 0x14,- 0x18, 0xE5, 0x50, 0x6F, 0x21, 0x4C, 0x7D, 0x1F- },- {- 0xC0, 0x8A, 0xA1, 0xC2, 0x86, 0xD7, 0x09, 0xFD,- 0xC7, 0x47, 0x37, 0x44, 0x97, 0x71, 0x88, 0xC8,- 0x95, 0xBA, 0x01, 0x10, 0x14, 0x24, 0x7E, 0x4E,- 0xFA, 0x8D, 0x07, 0xE7, 0x8F, 0xEC, 0x69, 0x5C- },- {- 0xF0, 0x3F, 0x57, 0x89, 0xD3, 0x33, 0x6B, 0x80,- 0xD0, 0x02, 0xD5, 0x9F, 0xDF, 0x91, 0x8B, 0xDB,- 0x77, 0x5B, 0x00, 0x95, 0x6E, 0xD5, 0x52, 0x8E,- 0x86, 0xAA, 0x99, 0x4A, 0xCB, 0x38, 0xFE, 0x2D- },-};-----static const uint8_t blake2s_keyed_kat[KAT_LENGTH][BLAKE2S_OUTBYTES] =-{- {- 0x48, 0xA8, 0x99, 0x7D, 0xA4, 0x07, 0x87, 0x6B,- 0x3D, 0x79, 0xC0, 0xD9, 0x23, 0x25, 0xAD, 0x3B,- 0x89, 0xCB, 0xB7, 0x54, 0xD8, 0x6A, 0xB7, 0x1A,- 0xEE, 0x04, 0x7A, 0xD3, 0x45, 0xFD, 0x2C, 0x49- },- {- 0x40, 0xD1, 0x5F, 0xEE, 0x7C, 0x32, 0x88, 0x30,- 0x16, 0x6A, 0xC3, 0xF9, 0x18, 0x65, 0x0F, 0x80,- 0x7E, 0x7E, 0x01, 0xE1, 0x77, 0x25, 0x8C, 0xDC,- 0x0A, 0x39, 0xB1, 0x1F, 0x59, 0x80, 0x66, 0xF1- },- {- 0x6B, 0xB7, 0x13, 0x00, 0x64, 0x4C, 0xD3, 0x99,- 0x1B, 0x26, 0xCC, 0xD4, 0xD2, 0x74, 0xAC, 0xD1,- 0xAD, 0xEA, 0xB8, 0xB1, 0xD7, 0x91, 0x45, 0x46,- 0xC1, 0x19, 0x8B, 0xBE, 0x9F, 0xC9, 0xD8, 0x03- },- {- 0x1D, 0x22, 0x0D, 0xBE, 0x2E, 0xE1, 0x34, 0x66,- 0x1F, 0xDF, 0x6D, 0x9E, 0x74, 0xB4, 0x17, 0x04,- 0x71, 0x05, 0x56, 0xF2, 0xF6, 0xE5, 0xA0, 0x91,- 0xB2, 0x27, 0x69, 0x74, 0x45, 0xDB, 0xEA, 0x6B- },- {- 0xF6, 0xC3, 0xFB, 0xAD, 0xB4, 0xCC, 0x68, 0x7A,- 0x00, 0x64, 0xA5, 0xBE, 0x6E, 0x79, 0x1B, 0xEC,- 0x63, 0xB8, 0x68, 0xAD, 0x62, 0xFB, 0xA6, 0x1B,- 0x37, 0x57, 0xEF, 0x9C, 0xA5, 0x2E, 0x05, 0xB2- },- {- 0x49, 0xC1, 0xF2, 0x11, 0x88, 0xDF, 0xD7, 0x69,- 0xAE, 0xA0, 0xE9, 0x11, 0xDD, 0x6B, 0x41, 0xF1,- 0x4D, 0xAB, 0x10, 0x9D, 0x2B, 0x85, 0x97, 0x7A,- 0xA3, 0x08, 0x8B, 0x5C, 0x70, 0x7E, 0x85, 0x98- },- {- 0xFD, 0xD8, 0x99, 0x3D, 0xCD, 0x43, 0xF6, 0x96,- 0xD4, 0x4F, 0x3C, 0xEA, 0x0F, 0xF3, 0x53, 0x45,- 0x23, 0x4E, 0xC8, 0xEE, 0x08, 0x3E, 0xB3, 0xCA,- 0xDA, 0x01, 0x7C, 0x7F, 0x78, 0xC1, 0x71, 0x43- },- {- 0xE6, 0xC8, 0x12, 0x56, 0x37, 0x43, 0x8D, 0x09,- 0x05, 0xB7, 0x49, 0xF4, 0x65, 0x60, 0xAC, 0x89,- 0xFD, 0x47, 0x1C, 0xF8, 0x69, 0x2E, 0x28, 0xFA,- 0xB9, 0x82, 0xF7, 0x3F, 0x01, 0x9B, 0x83, 0xA9- },- {- 0x19, 0xFC, 0x8C, 0xA6, 0x97, 0x9D, 0x60, 0xE6,- 0xED, 0xD3, 0xB4, 0x54, 0x1E, 0x2F, 0x96, 0x7C,- 0xED, 0x74, 0x0D, 0xF6, 0xEC, 0x1E, 0xAE, 0xBB,- 0xFE, 0x81, 0x38, 0x32, 0xE9, 0x6B, 0x29, 0x74- },- {- 0xA6, 0xAD, 0x77, 0x7C, 0xE8, 0x81, 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0x09, 0x99, 0xCA,- 0x66, 0x97, 0x6C, 0x74, 0x83, 0xAF, 0xE6, 0x31,- 0xD4, 0xED, 0xA2, 0x83, 0x14, 0x4F, 0x6D, 0xFC- },- {- 0xC4, 0x46, 0x6F, 0x84, 0x97, 0xCA, 0x2E, 0xEB,- 0x45, 0x83, 0xA0, 0xB0, 0x8E, 0x9D, 0x9A, 0xC7,- 0x43, 0x95, 0x70, 0x9F, 0xDA, 0x10, 0x9D, 0x24,- 0xF2, 0xE4, 0x46, 0x21, 0x96, 0x77, 0x9C, 0x5D- },- {- 0x75, 0xF6, 0x09, 0x33, 0x8A, 0xA6, 0x7D, 0x96,- 0x9A, 0x2A, 0xE2, 0xA2, 0x36, 0x2B, 0x2D, 0xA9,- 0xD7, 0x7C, 0x69, 0x5D, 0xFD, 0x1D, 0xF7, 0x22,- 0x4A, 0x69, 0x01, 0xDB, 0x93, 0x2C, 0x33, 0x64- },- {- 0x68, 0x60, 0x6C, 0xEB, 0x98, 0x9D, 0x54, 0x88,- 0xFC, 0x7C, 0xF6, 0x49, 0xF3, 0xD7, 0xC2, 0x72,- 0xEF, 0x05, 0x5D, 0xA1, 0xA9, 0x3F, 0xAE, 0xCD,- 0x55, 0xFE, 0x06, 0xF6, 0x96, 0x70, 0x98, 0xCA- },- {- 0x44, 0x34, 0x6B, 0xDE, 0xB7, 0xE0, 0x52, 0xF6,- 0x25, 0x50, 0x48, 0xF0, 0xD9, 0xB4, 0x2C, 0x42,- 0x5B, 0xAB, 0x9C, 0x3D, 0xD2, 0x41, 0x68, 0x21,- 0x2C, 0x3E, 0xCF, 0x1E, 0xBF, 0x34, 0xE6, 0xAE- },- {- 0x8E, 0x9C, 0xF6, 0xE1, 0xF3, 0x66, 0x47, 0x1F,- 0x2A, 0xC7, 0xD2, 0xEE, 0x9B, 0x5E, 0x62, 0x66,- 0xFD, 0xA7, 0x1F, 0x8F, 0x2E, 0x41, 0x09, 0xF2,- 0x23, 0x7E, 0xD5, 0xF8, 0x81, 0x3F, 0xC7, 0x18- },- {- 0x84, 0xBB, 0xEB, 0x84, 0x06, 0xD2, 0x50, 0x95,- 0x1F, 0x8C, 0x1B, 0x3E, 0x86, 0xA7, 0xC0, 0x10,- 0x08, 0x29, 0x21, 0x83, 0x3D, 0xFD, 0x95, 0x55,- 0xA2, 0xF9, 0x09, 0xB1, 0x08, 0x6E, 0xB4, 0xB8- },- {- 0xEE, 0x66, 0x6F, 0x3E, 0xEF, 0x0F, 0x7E, 0x2A,- 0x9C, 0x22, 0x29, 0x58, 0xC9, 0x7E, 0xAF, 0x35,- 0xF5, 0x1C, 0xED, 0x39, 0x3D, 0x71, 0x44, 0x85,- 0xAB, 0x09, 0xA0, 0x69, 0x34, 0x0F, 0xDF, 0x88- },- {- 0xC1, 0x53, 0xD3, 0x4A, 0x65, 0xC4, 0x7B, 0x4A,- 0x62, 0xC5, 0xCA, 0xCF, 0x24, 0x01, 0x09, 0x75,- 0xD0, 0x35, 0x6B, 0x2F, 0x32, 0xC8, 0xF5, 0xDA,- 0x53, 0x0D, 0x33, 0x88, 0x16, 0xAD, 0x5D, 0xE6- },- {- 0x9F, 0xC5, 0x45, 0x01, 0x09, 0xE1, 0xB7, 0x79,- 0xF6, 0xC7, 0xAE, 0x79, 0xD5, 0x6C, 0x27, 0x63,- 0x5C, 0x8D, 0xD4, 0x26, 0xC5, 0xA9, 0xD5, 0x4E,- 0x25, 0x78, 0xDB, 0x98, 0x9B, 0x8C, 0x3B, 0x4E- },- {- 0xD1, 0x2B, 0xF3, 0x73, 0x2E, 0xF4, 0xAF, 0x5C,- 0x22, 0xFA, 0x90, 0x35, 0x6A, 0xF8, 0xFC, 0x50,- 0xFC, 0xB4, 0x0F, 0x8F, 0x2E, 0xA5, 0xC8, 0x59,- 0x47, 0x37, 0xA3, 0xB3, 0xD5, 0xAB, 0xDB, 0xD7- },- {- 0x11, 0x03, 0x0B, 0x92, 0x89, 0xBB, 0xA5, 0xAF,- 0x65, 0x26, 0x06, 0x72, 0xAB, 0x6F, 0xEE, 0x88,- 0xB8, 0x74, 0x20, 0xAC, 0xEF, 0x4A, 0x17, 0x89,- 0xA2, 0x07, 0x3B, 0x7E, 0xC2, 0xF2, 0xA0, 0x9E- },- {- 0x69, 0xCB, 0x19, 0x2B, 0x84, 0x44, 0x00, 0x5C,- 0x8C, 0x0C, 0xEB, 0x12, 0xC8, 0x46, 0x86, 0x07,- 0x68, 0x18, 0x8C, 0xDA, 0x0A, 0xEC, 0x27, 0xA9,- 0xC8, 0xA5, 0x5C, 0xDE, 0xE2, 0x12, 0x36, 0x32- },- {- 0xDB, 0x44, 0x4C, 0x15, 0x59, 0x7B, 0x5F, 0x1A,- 0x03, 0xD1, 0xF9, 0xED, 0xD1, 0x6E, 0x4A, 0x9F,- 0x43, 0xA6, 0x67, 0xCC, 0x27, 0x51, 0x75, 0xDF,- 0xA2, 0xB7, 0x04, 0xE3, 0xBB, 0x1A, 0x9B, 0x83- },- {- 0x3F, 0xB7, 0x35, 0x06, 0x1A, 0xBC, 0x51, 0x9D,- 0xFE, 0x97, 0x9E, 0x54, 0xC1, 0xEE, 0x5B, 0xFA,- 0xD0, 0xA9, 0xD8, 0x58, 0xB3, 0x31, 0x5B, 0xAD,- 0x34, 0xBD, 0xE9, 0x99, 0xEF, 0xD7, 0x24, 0xDD- },-};-----static const uint8_t blake2b_kat[KAT_LENGTH][BLAKE2B_OUTBYTES] =-{- {- 0x78, 0x6A, 0x02, 0xF7, 0x42, 0x01, 0x59, 0x03,- 0xC6, 0xC6, 0xFD, 0x85, 0x25, 0x52, 0xD2, 0x72,- 0x91, 0x2F, 0x47, 0x40, 0xE1, 0x58, 0x47, 0x61,- 0x8A, 0x86, 0xE2, 0x17, 0xF7, 0x1F, 0x54, 0x19,- 0xD2, 0x5E, 0x10, 0x31, 0xAF, 0xEE, 0x58, 0x53,- 0x13, 0x89, 0x64, 0x44, 0x93, 0x4E, 0xB0, 0x4B,- 0x90, 0x3A, 0x68, 0x5B, 0x14, 0x48, 0xB7, 0x55,- 0xD5, 0x6F, 0x70, 0x1A, 0xFE, 0x9B, 0xE2, 0xCE- },- {- 0x2F, 0xA3, 0xF6, 0x86, 0xDF, 0x87, 0x69, 0x95,- 0x16, 0x7E, 0x7C, 0x2E, 0x5D, 0x74, 0xC4, 0xC7,- 0xB6, 0xE4, 0x8F, 0x80, 0x68, 0xFE, 0x0E, 0x44,- 0x20, 0x83, 0x44, 0xD4, 0x80, 0xF7, 0x90, 0x4C,- 0x36, 0x96, 0x3E, 0x44, 0x11, 0x5F, 0xE3, 0xEB,- 0x2A, 0x3A, 0xC8, 0x69, 0x4C, 0x28, 0xBC, 0xB4,- 0xF5, 0xA0, 0xF3, 0x27, 0x6F, 0x2E, 0x79, 0x48,- 0x7D, 0x82, 0x19, 0x05, 0x7A, 0x50, 0x6E, 0x4B- },- {- 0x1C, 0x08, 0x79, 0x8D, 0xC6, 0x41, 0xAB, 0xA9,- 0xDE, 0xE4, 0x35, 0xE2, 0x25, 0x19, 0xA4, 0x72,- 0x9A, 0x09, 0xB2, 0xBF, 0xE0, 0xFF, 0x00, 0xEF,- 0x2D, 0xCD, 0x8E, 0xD6, 0xF8, 0xA0, 0x7D, 0x15,- 0xEA, 0xF4, 0xAE, 0xE5, 0x2B, 0xBF, 0x18, 0xAB,- 0x56, 0x08, 0xA6, 0x19, 0x0F, 0x70, 0xB9, 0x04,- 0x86, 0xC8, 0xA7, 0xD4, 0x87, 0x37, 0x10, 0xB1,- 0x11, 0x5D, 0x3D, 0xEB, 0xBB, 0x43, 0x27, 0xB5- },- {- 0x40, 0xA3, 0x74, 0x72, 0x73, 0x02, 0xD9, 0xA4,- 0x76, 0x9C, 0x17, 0xB5, 0xF4, 0x09, 0xFF, 0x32,- 0xF5, 0x8A, 0xA2, 0x4F, 0xF1, 0x22, 0xD7, 0x60,- 0x3E, 0x4F, 0xDA, 0x15, 0x09, 0xE9, 0x19, 0xD4,- 0x10, 0x7A, 0x52, 0xC5, 0x75, 0x70, 0xA6, 0xD9,- 0x4E, 0x50, 0x96, 0x7A, 0xEA, 0x57, 0x3B, 0x11,- 0xF8, 0x6F, 0x47, 0x3F, 0x53, 0x75, 0x65, 0xC6,- 0x6F, 0x70, 0x39, 0x83, 0x0A, 0x85, 0xD1, 0x86- },- {- 0x77, 0xDD, 0xF4, 0xB1, 0x44, 0x25, 0xEB, 0x3D,- 0x05, 0x3C, 0x1E, 0x84, 0xE3, 0x46, 0x9D, 0x92,- 0xC4, 0xCD, 0x91, 0x0E, 0xD2, 0x0F, 0x92, 0x03,- 0x5E, 0x0C, 0x99, 0xD8, 0xA7, 0xA8, 0x6C, 0xEC,- 0xAF, 0x69, 0xF9, 0x66, 0x3C, 0x20, 0xA7, 0xAA,- 0x23, 0x0B, 0xC8, 0x2F, 0x60, 0xD2, 0x2F, 0xB4,- 0xA0, 0x0B, 0x09, 0xD3, 0xEB, 0x8F, 0xC6, 0x5E,- 0xF5, 0x47, 0xFE, 0x63, 0xC8, 0xD3, 0xDD, 0xCE- },- {- 0xCB, 0xAA, 0x0B, 0xA7, 0xD4, 0x82, 0xB1, 0xF3,- 0x01, 0x10, 0x9A, 0xE4, 0x10, 0x51, 0x99, 0x1A,- 0x32, 0x89, 0xBC, 0x11, 0x98, 0x00, 0x5A, 0xF2,- 0x26, 0xC5, 0xE4, 0xF1, 0x03, 0xB6, 0x65, 0x79,- 0xF4, 0x61, 0x36, 0x10, 0x44, 0xC8, 0xBA, 0x34,- 0x39, 0xFF, 0x12, 0xC5, 0x15, 0xFB, 0x29, 0xC5,- 0x21, 0x61, 0xB7, 0xEB, 0x9C, 0x28, 0x37, 0xB7,- 0x6A, 0x5D, 0xC3, 0x3F, 0x7C, 0xB2, 0xE2, 0xE8- },- {- 0xF9, 0x5D, 0x45, 0xCF, 0x69, 0xAF, 0x5C, 0x20,- 0x23, 0xBD, 0xB5, 0x05, 0x82, 0x1E, 0x62, 0xE8,- 0x5D, 0x7C, 0xAE, 0xDF, 0x7B, 0xED, 0xA1, 0x2C,- 0x02, 0x48, 0x77, 0x5B, 0x0C, 0x88, 0x20, 0x5E,- 0xEB, 0x35, 0xAF, 0x3A, 0x90, 0x81, 0x6F, 0x66,- 0x08, 0xCE, 0x7D, 0xD4, 0x4E, 0xC2, 0x8D, 0xB1,- 0x14, 0x06, 0x14, 0xE1, 0xDD, 0xEB, 0xF3, 0xAA,- 0x9C, 0xD1, 0x84, 0x3E, 0x0F, 0xAD, 0x2C, 0x36- },- {- 0x8F, 0x94, 0x5B, 0xA7, 0x00, 0xF2, 0x53, 0x0E,- 0x5C, 0x2A, 0x7D, 0xF7, 0xD5, 0xDC, 0xE0, 0xF8,- 0x3F, 0x9E, 0xFC, 0x78, 0xC0, 0x73, 0xFE, 0x71,- 0xAE, 0x1F, 0x88, 0x20, 0x4A, 0x4F, 0xD1, 0xCF,- 0x70, 0xA0, 0x73, 0xF5, 0xD1, 0xF9, 0x42, 0xED,- 0x62, 0x3A, 0xA1, 0x6E, 0x90, 0xA8, 0x71, 0x24,- 0x6C, 0x90, 0xC4, 0x5B, 0x62, 0x1B, 0x34, 0x01,- 0xA5, 0xDD, 0xBD, 0x9D, 0xF6, 0x26, 0x41, 0x65- },- {- 0xE9, 0x98, 0xE0, 0xDC, 0x03, 0xEC, 0x30, 0xEB,- 0x99, 0xBB, 0x6B, 0xFA, 0xAF, 0x66, 0x18, 0xAC,- 0xC6, 0x20, 0x32, 0x0D, 0x72, 0x20, 0xB3, 0xAF,- 0x2B, 0x23, 0xD1, 0x12, 0xD8, 0xE9, 0xCB, 0x12,- 0x62, 0xF3, 0xC0, 0xD6, 0x0D, 0x18, 0x3B, 0x1E,- 0xE7, 0xF0, 0x96, 0xD1, 0x2D, 0xAE, 0x42, 0xC9,- 0x58, 0x41, 0x86, 0x00, 0x21, 0x4D, 0x04, 0xF5,- 0xED, 0x6F, 0x5E, 0x71, 0x8B, 0xE3, 0x55, 0x66- },- {- 0x6A, 0x9A, 0x09, 0x0C, 0x61, 0xB3, 0x41, 0x0A,- 0xED, 0xE7, 0xEC, 0x91, 0x38, 0x14, 0x6C, 0xEB,- 0x2C, 0x69, 0x66, 0x2F, 0x46, 0x0C, 0x3D, 0xA5,- 0x3C, 0x65, 0x15, 0xC1, 0xEB, 0x31, 0xF4, 0x1C,- 0xA3, 0xD2, 0x80, 0xE5, 0x67, 0x88, 0x2F, 0x95,- 0xCF, 0x66, 0x4A, 0x94, 0x14, 0x7D, 0x78, 0xF4,- 0x2C, 0xFC, 0x71, 0x4A, 0x40, 0xD2, 0x2E, 0xF1,- 0x94, 0x70, 0xE0, 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0xE8, 0x73, 0x28, 0xCA, 0xA0, 0x21, 0x1E, 0x09,- 0x02, 0x7B, 0x05, 0x24, 0xAA, 0x3F, 0x4A, 0x84,- 0x99, 0x17, 0xB3, 0x58, 0x67, 0x47, 0xEB, 0xBB- },- {- 0x49, 0xF0, 0x14, 0xF5, 0xC6, 0x18, 0x22, 0xC8,- 0x99, 0xAB, 0x5C, 0xAE, 0x51, 0xBE, 0x40, 0x44,- 0xA4, 0x49, 0x5E, 0x77, 0x7D, 0xEB, 0x7D, 0xA9,- 0xB6, 0xD8, 0x49, 0x0E, 0xFB, 0xB8, 0x75, 0x30,- 0xAD, 0xF2, 0x93, 0xDA, 0xF0, 0x79, 0xF9, 0x4C,- 0x33, 0xB7, 0x04, 0x4E, 0xF6, 0x2E, 0x2E, 0x5B,- 0xB3, 0xEB, 0x11, 0xE1, 0x73, 0x04, 0xF8, 0x45,- 0x3E, 0xE6, 0xCE, 0x24, 0xF0, 0x33, 0xDD, 0xB0- },- {- 0x92, 0x33, 0x49, 0x03, 0x44, 0xE5, 0xB0, 0xDC,- 0x59, 0x12, 0x67, 0x1B, 0x7A, 0xE5, 0x4C, 0xEE,- 0x77, 0x30, 0xDB, 0xE1, 0xF4, 0xC7, 0xD9, 0x2A,- 0x4D, 0x3E, 0x3A, 0xAB, 0x50, 0x57, 0x17, 0x08,- 0xDB, 0x51, 0xDC, 0xF9, 0xC2, 0x94, 0x45, 0x91,- 0xDB, 0x65, 0x1D, 0xB3, 0x2D, 0x22, 0x93, 0x5B,- 0x86, 0x94, 0x49, 0x69, 0xBE, 0x77, 0xD5, 0xB5,- 0xFE, 0xAE, 0x6C, 0x38, 0x40, 0xA8, 0xDB, 0x26- },- {- 0xB6, 0xE7, 0x5E, 0x6F, 0x4C, 0x7F, 0x45, 0x3B,- 0x74, 0x65, 0xD2, 0x5B, 0x5A, 0xC8, 0xC7, 0x19,- 0x69, 0x02, 0xEA, 0xA9, 0x53, 0x87, 0x52, 0x28,- 0xC8, 0x63, 0x4E, 0x16, 0xE2, 0xAE, 0x1F, 0x38,- 0xBC, 0x32, 0x75, 0x30, 0x43, 0x35, 0xF5, 0x98,- 0x9E, 0xCC, 0xC1, 0xE3, 0x41, 0x67, 0xD4, 0xE6,- 0x8D, 0x77, 0x19, 0x96, 0x8F, 0xBA, 0x8E, 0x2F,- 0xE6, 0x79, 0x47, 0xC3, 0x5C, 0x48, 0xE8, 0x06- },- {- 0xCC, 0x14, 0xCA, 0x66, 0x5A, 0xF1, 0x48, 0x3E,- 0xFB, 0xC3, 0xAF, 0x80, 0x08, 0x0E, 0x65, 0x0D,- 0x50, 0x46, 0xA3, 0x93, 0x2F, 0x4F, 0x51, 0xF3,- 0xFE, 0x90, 0xA0, 0x70, 0x5E, 0xC2, 0x51, 0x04,- 0xAD, 0xF0, 0x78, 0x39, 0x26, 0x5D, 0xC5, 0x1D,- 0x43, 0x40, 0x14, 0x11, 0x24, 0x6E, 0x47, 0x4F,- 0x0D, 0x5E, 0x56, 0x37, 0xAF, 0x94, 0x76, 0x72,- 0x83, 0xD5, 0x3E, 0x06, 0x17, 0xE9, 0x81, 0xF4- },- {- 0x23, 0x0A, 0x1C, 0x85, 0x7C, 0xB2, 0xE7, 0x85,- 0x2E, 0x41, 0xB6, 0x47, 0xE9, 0x0E, 0x45, 0x85,- 0xD2, 0xD8, 0x81, 0xE1, 0x73, 0x4D, 0xC3, 0x89,- 0x55, 0x35, 0x6E, 0x8D, 0xD7, 0xBF, 0xF3, 0x90,- 0x53, 0x09, 0x2C, 0x6B, 0x38, 0xE2, 0x36, 0xE1,- 0x89, 0x95, 0x25, 0x64, 0x70, 0x73, 0xDD, 0xDF,- 0x68, 0x95, 0xD6, 0x42, 0x06, 0x32, 0x5E, 0x76,- 0x47, 0xF2, 0x75, 0x56, 0x7B, 0x25, 0x59, 0x09- },- {- 0xCB, 0xB6, 0x53, 0x21, 0xAC, 0x43, 0x6E, 0x2F,- 0xFD, 0xAB, 0x29, 0x36, 0x35, 0x9C, 0xE4, 0x90,- 0x23, 0xF7, 0xDE, 0xE7, 0x61, 0x4E, 0xF2, 0x8D,- 0x17, 0x3C, 0x3D, 0x27, 0xC5, 0xD1, 0xBF, 0xFA,- 0x51, 0x55, 0x3D, 0x43, 0x3F, 0x8E, 0xE3, 0xC9,- 0xE4, 0x9C, 0x05, 0xA2, 0xB8, 0x83, 0xCC, 0xE9,- 0x54, 0xC9, 0xA8, 0x09, 0x3B, 0x80, 0x61, 0x2A,- 0x0C, 0xDD, 0x47, 0x32, 0xE0, 0x41, 0xF9, 0x95- },- {- 0x3E, 0x7E, 0x57, 0x00, 0x74, 0x33, 0x72, 0x75,- 0xEF, 0xB5, 0x13, 0x15, 0x58, 0x80, 0x34, 0xC3,- 0xCF, 0x0D, 0xDD, 0xCA, 0x20, 0xB4, 0x61, 0x2E,- 0x0B, 0xD5, 0xB8, 0x81, 0xE7, 0xE5, 0x47, 0x6D,- 0x31, 0x9C, 0xE4, 0xFE, 0x9F, 0x19, 0x18, 0x6E,- 0x4C, 0x08, 0x26, 0xF4, 0x4F, 0x13, 0x1E, 0xB0,- 0x48, 0xE6, 0x5B, 0xE2, 0x42, 0xB1, 0x17, 0x2C,- 0x63, 0xBA, 0xDB, 0x12, 0x3A, 0xB0, 0xCB, 0xE8- },- {- 0xD3, 0x2E, 0x9E, 0xC0, 0x2D, 0x38, 0xD4, 0xE1,- 0xB8, 0x24, 0x9D, 0xF8, 0xDC, 0xB0, 0x0C, 0x5B,- 0x9C, 0x68, 0xEB, 0x89, 0x22, 0x67, 0x2E, 0x35,- 0x05, 0x39, 0x3B, 0x6A, 0x21, 0x0B, 0xA5, 0x6F,- 0x94, 0x96, 0xE5, 0xEE, 0x04, 0x90, 0xEF, 0x38,- 0x7C, 0x3C, 0xDE, 0xC0, 0x61, 0xF0, 0x6B, 0xC0,- 0x38, 0x2D, 0x93, 0x04, 0xCA, 0xFB, 0xB8, 0xE0,- 0xCD, 0x33, 0xD5, 0x70, 0x29, 0xE6, 0x2D, 0xF2- },- {- 0x8C, 0x15, 0x12, 0x46, 0x60, 0x89, 0xF0, 0x5B,- 0x37, 0x75, 0xC2, 0x62, 0xB6, 0x2D, 0x22, 0xB8,- 0x38, 0x54, 0xA8, 0x32, 0x18, 0x13, 0x0B, 0x4E,- 0xC9, 0x1B, 0x3C, 0xCB, 0xD2, 0x93, 0xD2, 0xA5,- 0x43, 0x02, 0xCE, 0xCA, 0xAB, 0x9B, 0x10, 0x0C,- 0x68, 0xD1, 0xE6, 0xDD, 0xC8, 0xF0, 0x7C, 0xDD,- 0xBD, 0xFE, 0x6F, 0xDA, 0xAA, 0xF0, 0x99, 0xCC,- 0x09, 0xD6, 0xB7, 0x25, 0x87, 0x9C, 0x63, 0x69- },- {- 0x91, 0xA7, 0xF6, 0x1C, 0x97, 0xC2, 0x91, 0x1E,- 0x4C, 0x81, 0x2E, 0xF7, 0x1D, 0x78, 0x0A, 0xD8,- 0xFA, 0x78, 0x87, 0x94, 0x56, 0x1D, 0x08, 0x30,- 0x3F, 0xD1, 0xC1, 0xCB, 0x60, 0x8A, 0x46, 0xA1,- 0x25, 0x63, 0x08, 0x6E, 0xC5, 0xB3, 0x9D, 0x47,- 0x1A, 0xED, 0x94, 0xFB, 0x0F, 0x6C, 0x67, 0x8A,- 0x43, 0xB8, 0x79, 0x29, 0x32, 0xF9, 0x02, 0x8D,- 0x77, 0x2A, 0x22, 0x76, 0x8E, 0xA2, 0x3A, 0x9B- },- {- 0x4F, 0x6B, 0xB2, 0x22, 0xA3, 0x95, 0xE8, 0xB1,- 0x8F, 0x6B, 0xA1, 0x55, 0x47, 0x7A, 0xED, 0x3F,- 0x07, 0x29, 0xAC, 0x9E, 0x83, 0xE1, 0x6D, 0x31,- 0xA2, 0xA8, 0xBC, 0x65, 0x54, 0x22, 0xB8, 0x37,- 0xC8, 0x91, 0xC6, 0x19, 0x9E, 0x6F, 0x0D, 0x75,- 0x79, 0x9E, 0x3B, 0x69, 0x15, 0x25, 0xC5, 0x81,- 0x95, 0x35, 0x17, 0xF2, 0x52, 0xC4, 0xB9, 0xE3,- 0xA2, 0x7A, 0x28, 0xFB, 0xAF, 0x49, 0x64, 0x4C- },- {- 0x5D, 0x06, 0xC0, 0x7E, 0x7A, 0x64, 0x6C, 0x41,- 0x3A, 0x50, 0x1C, 0x3F, 0x4B, 0xB2, 0xFC, 0x38,- 0x12, 0x7D, 0xE7, 0x50, 0x9B, 0x70, 0x77, 0xC4,- 0xD9, 0xB5, 0x61, 0x32, 0x01, 0xC1, 0xAA, 0x02,- 0xFD, 0x5F, 0x79, 0xD2, 0x74, 0x59, 0x15, 0xDD,- 0x57, 0xFB, 0xCB, 0x4C, 0xE0, 0x86, 0x95, 0xF6,- 0xEF, 0xC0, 0xCB, 0x3D, 0x2D, 0x33, 0x0E, 0x19,- 0xB4, 0xB0, 0xE6, 0x00, 0x4E, 0xA6, 0x47, 0x1E- },- {- 0xB9, 0x67, 0x56, 0xE5, 0x79, 0x09, 0x96, 0x8F,- 0x14, 0xB7, 0x96, 0xA5, 0xD3, 0x0F, 0x4C, 0x9D,- 0x67, 0x14, 0x72, 0xCF, 0x82, 0xC8, 0xCF, 0xB2,- 0xCA, 0xCA, 0x7A, 0xC7, 0xA4, 0x4C, 0xA0, 0xA1,- 0x4C, 0x98, 0x42, 0xD0, 0x0C, 0x82, 0xE3, 0x37,- 0x50, 0x2C, 0x94, 0xD5, 0x96, 0x0A, 0xCA, 0x4C,- 0x49, 0x2E, 0xA7, 0xB0, 0xDF, 0x91, 0x9D, 0xDF,- 0x1A, 0xAD, 0xA2, 0xA2, 0x75, 0xBB, 0x10, 0xD4- },- {- 0xFF, 0x0A, 0x01, 0x5E, 0x98, 0xDB, 0x9C, 0x99,- 0xF0, 0x39, 0x77, 0x71, 0x0A, 0xAC, 0x3E, 0x65,- 0x8C, 0x0D, 0x89, 0x6F, 0x6D, 0x71, 0xD6, 0x18,- 0xBA, 0x79, 0xDC, 0x6C, 0xF7, 0x2A, 0xC7, 0x5B,- 0x7C, 0x03, 0x8E, 0xB6, 0x86, 0x2D, 0xED, 0xE4,- 0x54, 0x3E, 0x14, 0x54, 0x13, 0xA6, 0x36, 0x8D,- 0x69, 0xF5, 0x72, 0x2C, 0x82, 0x7B, 0xA3, 0xEF,- 0x25, 0xB6, 0xAE, 0x64, 0x40, 0xD3, 0x92, 0x76- },- {- 0x5B, 0x21, 0xC5, 0xFD, 0x88, 0x68, 0x36, 0x76,- 0x12, 0x47, 0x4F, 0xA2, 0xE7, 0x0E, 0x9C, 0xFA,- 0x22, 0x01, 0xFF, 0xEE, 0xE8, 0xFA, 0xFA, 0xB5,- 0x79, 0x7A, 0xD5, 0x8F, 0xEF, 0xA1, 0x7C, 0x9B,- 0x5B, 0x10, 0x7D, 0xA4, 0xA3, 0xDB, 0x63, 0x20,- 0xBA, 0xAF, 0x2C, 0x86, 0x17, 0xD5, 0xA5, 0x1D,- 0xF9, 0x14, 0xAE, 0x88, 0xDA, 0x38, 0x67, 0xC2,- 0xD4, 0x1F, 0x0C, 0xC1, 0x4F, 0xA6, 0x79, 0x28- },-};-----static const uint8_t blake2b_keyed_kat[KAT_LENGTH][BLAKE2B_OUTBYTES] =-{- {- 0x10, 0xEB, 0xB6, 0x77, 0x00, 0xB1, 0x86, 0x8E,- 0xFB, 0x44, 0x17, 0x98, 0x7A, 0xCF, 0x46, 0x90,- 0xAE, 0x9D, 0x97, 0x2F, 0xB7, 0xA5, 0x90, 0xC2,- 0xF0, 0x28, 0x71, 0x79, 0x9A, 0xAA, 0x47, 0x86,- 0xB5, 0xE9, 0x96, 0xE8, 0xF0, 0xF4, 0xEB, 0x98,- 0x1F, 0xC2, 0x14, 0xB0, 0x05, 0xF4, 0x2D, 0x2F,- 0xF4, 0x23, 0x34, 0x99, 0x39, 0x16, 0x53, 0xDF,- 0x7A, 0xEF, 0xCB, 0xC1, 0x3F, 0xC5, 0x15, 0x68- },- {- 0x96, 0x1F, 0x6D, 0xD1, 0xE4, 0xDD, 0x30, 0xF6,- 0x39, 0x01, 0x69, 0x0C, 0x51, 0x2E, 0x78, 0xE4,- 0xB4, 0x5E, 0x47, 0x42, 0xED, 0x19, 0x7C, 0x3C,- 0x5E, 0x45, 0xC5, 0x49, 0xFD, 0x25, 0xF2, 0xE4,- 0x18, 0x7B, 0x0B, 0xC9, 0xFE, 0x30, 0x49, 0x2B,- 0x16, 0xB0, 0xD0, 0xBC, 0x4E, 0xF9, 0xB0, 0xF3,- 0x4C, 0x70, 0x03, 0xFA, 0xC0, 0x9A, 0x5E, 0xF1,- 0x53, 0x2E, 0x69, 0x43, 0x02, 0x34, 0xCE, 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0x97, 0x1E, 0x82, 0x20, 0x1D, 0xC5, 0x10, 0x70,- 0xFA, 0xA0, 0x37, 0x2A, 0xA4, 0x3E, 0x92, 0x48,- 0x4B, 0xE1, 0xC1, 0xE7, 0x3B, 0xA1, 0x09, 0x06,- 0xD5, 0xD1, 0x85, 0x3D, 0xB6, 0xA4, 0x10, 0x6E,- 0x0A, 0x7B, 0xF9, 0x80, 0x0D, 0x37, 0x3D, 0x6D,- 0xEE, 0x2D, 0x46, 0xD6, 0x2E, 0xF2, 0xA4, 0x61- },-};-----static const uint8_t blake2sp_kat[KAT_LENGTH][BLAKE2S_OUTBYTES] =-{- {- 0xDD, 0x0E, 0x89, 0x17, 0x76, 0x93, 0x3F, 0x43,- 0xC7, 0xD0, 0x32, 0xB0, 0x8A, 0x91, 0x7E, 0x25,- 0x74, 0x1F, 0x8A, 0xA9, 0xA1, 0x2C, 0x12, 0xE1,- 0xCA, 0xC8, 0x80, 0x15, 0x00, 0xF2, 0xCA, 0x4F- },- {- 0xA6, 0xB9, 0xEE, 0xCC, 0x25, 0x22, 0x7A, 0xD7,- 0x88, 0xC9, 0x9D, 0x3F, 0x23, 0x6D, 0xEB, 0xC8,- 0xDA, 0x40, 0x88, 0x49, 0xE9, 0xA5, 0x17, 0x89,- 0x78, 0x72, 0x7A, 0x81, 0x45, 0x7F, 0x72, 0x39- },- {- 0xDA, 0xCA, 0xDE, 0xCE, 0x7A, 0x8E, 0x6B, 0xF3,- 0xAB, 0xFE, 0x32, 0x4C, 0xA6, 0x95, 0x43, 0x69,- 0x84, 0xB8, 0x19, 0x5D, 0x29, 0xF6, 0xBB, 0xD8,- 0x96, 0xE4, 0x1E, 0x18, 0xE2, 0x1C, 0x91, 0x45- },- {- 0xED, 0x14, 0x41, 0x3B, 0x40, 0xDA, 0x68, 0x9F,- 0x1F, 0x7F, 0xED, 0x2B, 0x08, 0xDF, 0xF4, 0x5B,- 0x80, 0x92, 0xDB, 0x5E, 0xC2, 0xC3, 0x61, 0x0E,- 0x02, 0x72, 0x4D, 0x20, 0x2F, 0x42, 0x3C, 0x46- },- {- 0x9B, 0x8A, 0x52, 0x7B, 0x52, 0x72, 0x25, 0x0A,- 0x1E, 0xC3, 0x97, 0x38, 0x8F, 0x04, 0x09, 0x14,- 0x95, 0x48, 0x06, 0xE7, 0x94, 0xDB, 0x04, 0xB7,- 0x0A, 0x46, 0x11, 0xBC, 0x59, 0x58, 0x6A, 0x83- },- {- 0x2B, 0xB6, 0x33, 0x37, 0x29, 0x00, 0x0B, 0xE3,- 0xD5, 0xA2, 0x1B, 0x98, 0xF8, 0xE7, 0xEA, 0xD0,- 0x77, 0xF1, 0x51, 0xA5, 0x39, 0x39, 0x19, 0xEB,- 0x67, 0xC8, 0x76, 0xEE, 0x00, 0xBB, 0xBB, 0x04- },- {- 0x63, 0xC0, 0x14, 0x08, 0x15, 0x4A, 0xD1, 0x9D,- 0x7F, 0xB7, 0x39, 0xF3, 0x11, 0x78, 0x17, 0x80,- 0x46, 0x2C, 0xF2, 0xEE, 0xCC, 0xE6, 0x0F, 0x06,- 0x4E, 0x85, 0x34, 0x87, 0xC2, 0x72, 0xE3, 0xEB- },- {- 0x3D, 0x05, 0x1A, 0x11, 0x76, 0x01, 0x9C, 0xA3,- 0x7B, 0xF3, 0x3D, 0x60, 0x42, 0x7F, 0x8D, 0x9D,- 0x1C, 0x3A, 0xBD, 0x59, 0x82, 0x97, 0xCF, 0xB4,- 0x23, 0x5F, 0x74, 0x7D, 0x7C, 0x7C, 0x7F, 0xEC- },- {- 0x39, 0x1E, 0xA9, 0x12, 0xDF, 0x4D, 0x4D, 0x79,- 0xA4, 0x64, 0x6D, 0x9D, 0xA2, 0x54, 0x9A, 0x44,- 0x6D, 0x22, 0x40, 0xF6, 0x24, 0x15, 0xD0, 0x70,- 0xA2, 0xE0, 0x93, 0x99, 0x2B, 0x47, 0x1F, 0xBA- },- {- 0x32, 0x46, 0x40, 0x44, 0x0E, 0xA5, 0xC3, 0x08,- 0x2D, 0xDC, 0x30, 0x9E, 0x78, 0x09, 0xD7, 0x41,- 0xD6, 0xCC, 0x1B, 0x2D, 0x49, 0x0F, 0xF8, 0xC0,- 0x52, 0x12, 0x8A, 0x6E, 0xEB, 0x40, 0x9D, 0x62- },- {- 0xAB, 0x85, 0x5E, 0x6F, 0xA3, 0x9A, 0x5E, 0x8F,- 0xC9, 0x0E, 0xAC, 0xB9, 0x99, 0xC7, 0xF7, 0x8A,- 0xE7, 0x1E, 0x59, 0xC3, 0xD9, 0x7D, 0x60, 0xAF,- 0xE5, 0x17, 0xD5, 0x87, 0x92, 0x3B, 0x77, 0x11- },- {- 0x2A, 0x39, 0xDA, 0x45, 0x86, 0xEF, 0xC4, 0x77,- 0x85, 0xA7, 0xA8, 0xDA, 0x85, 0x68, 0x3A, 0x51,- 0x72, 0x4C, 0xDE, 0xF5, 0x41, 0x3B, 0x35, 0x6D,- 0xC4, 0xFB, 0x50, 0x05, 0x13, 0xF8, 0xFA, 0x2E- },- {- 0x8A, 0x00, 0x57, 0xC1, 0xF7, 0x8A, 0xD6, 0x21,- 0x45, 0x55, 0xC0, 0x67, 0x07, 0x33, 0xE2, 0x9A,- 0x4C, 0x7E, 0x95, 0x62, 0x27, 0x66, 0x0E, 0xFE,- 0xB1, 0xD7, 0xFC, 0x79, 0xF5, 0x8E, 0xC6, 0xF2- },- {- 0x07, 0x64, 0xB0, 0x01, 0x7F, 0x5B, 0xD9, 0x51,- 0xF0, 0x1D, 0x9F, 0xDF, 0x95, 0xC0, 0xCB, 0x41,- 0x38, 0x98, 0x5D, 0x84, 0x79, 0x9C, 0xD4, 0x29,- 0x84, 0xE2, 0x5B, 0x51, 0x28, 0x00, 0xE7, 0x3C- },- {- 0xCC, 0x02, 0x49, 0x56, 0x93, 0xC8, 0xE1, 0x84,- 0xAD, 0x2E, 0xD0, 0x9D, 0x53, 0x3D, 0xC3, 0x3B,- 0x76, 0xA7, 0x78, 0x3D, 0x62, 0x07, 0xFC, 0xAC,- 0xCB, 0x64, 0xF3, 0xED, 0x2C, 0x6D, 0x66, 0xE0- },- {- 0xC0, 0xDF, 0x49, 0xC2, 0x06, 0xA3, 0x42, 0x88,- 0x14, 0x32, 0x16, 0x84, 0x7D, 0xF3, 0x34, 0xD4,- 0x56, 0x9D, 0xAD, 0x73, 0xC2, 0xB1, 0xFF, 0x62,- 0x84, 0x88, 0x4F, 0xD3, 0x89, 0x41, 0xFB, 0x95- },- {- 0xB9, 0x19, 0x45, 0x19, 0xE4, 0x97, 0x8A, 0x9D,- 0xC8, 0x93, 0xB2, 0x8B, 0xD8, 0x08, 0xCD, 0xFA,- 0xBB, 0x1B, 0xD5, 0x10, 0xD8, 0x62, 0xB3, 0x17,- 0x1F, 0xF6, 0xE0, 0x17, 0xA4, 0x1B, 0x80, 0x4C- },- {- 0xBB, 0xA9, 0x27, 0xAC, 0xF1, 0x1B, 0xEB, 0xD3,- 0x62, 0xA3, 0xA3, 0xEB, 0x78, 0xC4, 0xBB, 0x65,- 0xE6, 0x02, 0xA8, 0x70, 0x9F, 0xCE, 0xF3, 0x8D,- 0xC6, 0xC8, 0xB7, 0xBD, 0xA6, 0x64, 0xC3, 0x2C- },- {- 0xEC, 0xB4, 0x90, 0x0A, 0x63, 0x92, 0x4E, 0x72,- 0x0D, 0x40, 0xF2, 0xD2, 0xB1, 0x4D, 0x1B, 0xB3,- 0x9C, 0x37, 0x01, 0xAD, 0x73, 0x46, 0xBD, 0x0B,- 0x67, 0x23, 0x42, 0x70, 0xBF, 0xBE, 0x7E, 0x70- },- {- 0xF8, 0x31, 0x5A, 0x21, 0xB2, 0x5E, 0x6B, 0xA8,- 0xBF, 0x59, 0xB1, 0x7B, 0x05, 0x91, 0x3B, 0x8C,- 0xA4, 0x65, 0x9F, 0x1C, 0xD8, 0x38, 0xFC, 0xC7,- 0x73, 0xC9, 0xEB, 0x12, 0xE7, 0x00, 0x4E, 0x09- },- {- 0x4B, 0x77, 0xAF, 0x67, 0xA9, 0x23, 0x2B, 0xF1,- 0x18, 0x4E, 0x57, 0x81, 0x82, 0x94, 0x03, 0x1E,- 0x55, 0xF1, 0xF8, 0x53, 0xC9, 0x4D, 0xBA, 0xB5,- 0x57, 0x75, 0x47, 0x33, 0x0D, 0x65, 0xAA, 0x61- },- {- 0x76, 0x85, 0x68, 0x39, 0x0F, 0xD2, 0xB8, 0x70,- 0x94, 0x11, 0x4E, 0xD4, 0xCF, 0x72, 0x3E, 0xA3,- 0x20, 0xFE, 0x97, 0x7B, 0x53, 0x18, 0x03, 0x05,- 0xC3, 0x84, 0x33, 0x54, 0x79, 0xF0, 0xB5, 0x9B- },- {- 0xA4, 0x31, 0xCB, 0x27, 0x0F, 0x3E, 0x2C, 0x9B,- 0x7A, 0x95, 0x93, 0xB1, 0x55, 0xCC, 0xEC, 0xFF,- 0x5B, 0x5C, 0x4A, 0x2D, 0xCD, 0x5D, 0x6B, 0xB1,- 0xC4, 0x85, 0xAA, 0x28, 0x69, 0x97, 0xF9, 0x15- },- {- 0xD6, 0x91, 0xFA, 0x6A, 0x79, 0x0B, 0x1A, 0x51,- 0x79, 0x80, 0x08, 0x7F, 0x50, 0xB0, 0x3D, 0xED,- 0x8C, 0x6E, 0xD4, 0x86, 0xD0, 0x84, 0x22, 0x1C,- 0x82, 0x7D, 0x9B, 0xD9, 0x22, 0xBE, 0xB8, 0xC0- },- {- 0x8F, 0x97, 0x8A, 0x49, 0x32, 0xF4, 0x45, 0x98,- 0x13, 0xE8, 0xFE, 0x15, 0x68, 0x6E, 0x4E, 0xFA,- 0x25, 0xC2, 0xC5, 0xFF, 0x5A, 0x3A, 0x4F, 0x8C,- 0x9B, 0x14, 0x96, 0x5D, 0x2F, 0x0B, 0xE4, 0x61- },- {- 0x1E, 0xFB, 0xD0, 0xC1, 0x31, 0x44, 0x91, 0x42,- 0xF2, 0x29, 0x5F, 0x2D, 0x42, 0x41, 0x1D, 0xFE,- 0x0F, 0x48, 0xD4, 0xAC, 0xAE, 0x76, 0x2D, 0x8D,- 0xF6, 0x7A, 0x57, 0x0B, 0xF7, 0xB1, 0xDC, 0xD5- },- {- 0xD5, 0x3B, 0xA9, 0x33, 0x46, 0x14, 0x3A, 0xB8,- 0xE0, 0xD3, 0xD1, 0xBF, 0x27, 0x27, 0x06, 0xD1,- 0x69, 0xE6, 0x6C, 0x69, 0xC7, 0xB8, 0xF4, 0xA5,- 0xE8, 0x2F, 0xEF, 0x44, 0x07, 0x02, 0xBC, 0xF2- },- {- 0xF7, 0x1A, 0x3E, 0xC0, 0x1A, 0xA3, 0x82, 0xEA,- 0x76, 0x99, 0x2B, 0x43, 0x0A, 0x7F, 0x42, 0xC7,- 0xAD, 0x2A, 0x86, 0xAE, 0xA9, 0xC1, 0x9E, 0x76,- 0xCD, 0x17, 0x32, 0xEC, 0x68, 0x30, 0xDE, 0x6F- },- {- 0x80, 0xA6, 0xAB, 0x7B, 0x71, 0x04, 0x64, 0xF9,- 0x3E, 0x6C, 0xBA, 0x96, 0x86, 0x4A, 0xA6, 0x40,- 0x9B, 0xCA, 0xFC, 0x1B, 0xF4, 0xB3, 0x2A, 0x30,- 0x93, 0x72, 0xE8, 0x57, 0xE8, 0x04, 0x06, 0x8C- },- {- 0xDB, 0xDE, 0x81, 0xE5, 0x1A, 0x52, 0x17, 0x4B,- 0x10, 0x14, 0x90, 0x1B, 0x53, 0xBE, 0xF8, 0x8D,- 0xE9, 0x3B, 0x29, 0xE2, 0x74, 0x34, 0x7E, 0x8E,- 0x9A, 0x7B, 0x03, 0x74, 0x56, 0x62, 0x9F, 0x35- },- {- 0x75, 0xF2, 0x74, 0x46, 0x6B, 0x1A, 0x2D, 0x0F,- 0xD8, 0x45, 0xBB, 0xB5, 0x7C, 0x38, 0xC9, 0x89,- 0x51, 0x6E, 0x15, 0x68, 0x32, 0x0A, 0xB5, 0x17,- 0xB1, 0x63, 0xEA, 0xF7, 0x09, 0x23, 0x4C, 0xC7- },- {- 0xAF, 0xE1, 0xA0, 0x59, 0x1C, 0x49, 0x1D, 0x41,- 0x6E, 0xB6, 0x4F, 0x62, 0x86, 0xF3, 0xBA, 0x29,- 0xD4, 0xC9, 0x99, 0x82, 0x14, 0xA3, 0x83, 0x1C,- 0x39, 0x01, 0x4A, 0xC0, 0x30, 0x55, 0x79, 0x45- },- {- 0x67, 0xFF, 0x6A, 0xCD, 0xBE, 0x8A, 0x99, 0xA1,- 0x66, 0xA5, 0xD9, 0xCF, 0x32, 0x13, 0x65, 0x06,- 0xB5, 0x48, 0xD6, 0xC9, 0x47, 0xC2, 0x4C, 0x69,- 0x9C, 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0xB6, 0x8A, 0xD2, 0x9F, 0x63, 0x29, 0x87,- 0x9E, 0x6B, 0x5F, 0x7F, 0x6B, 0x41, 0x93, 0x50- },- {- 0x55, 0x9E, 0xD5, 0xBB, 0x3E, 0x5F, 0x39, 0x85,- 0xFB, 0x57, 0x82, 0x28, 0xBF, 0x8C, 0x0F, 0x0B,- 0x17, 0x3F, 0x8D, 0x11, 0x53, 0xFA, 0xEB, 0x9F,- 0xEC, 0x75, 0x6F, 0xFD, 0x18, 0xA8, 0x72, 0x38- },- {- 0x88, 0x13, 0x12, 0x53, 0x01, 0x4D, 0x23, 0xC5,- 0xE3, 0x8E, 0x78, 0xBD, 0xA1, 0x94, 0x55, 0xD8,- 0xA0, 0x23, 0xBD, 0x7A, 0x7E, 0x72, 0x74, 0x57,- 0xA1, 0x52, 0xA8, 0x1D, 0x0B, 0x17, 0x18, 0xA7- },- {- 0xF4, 0xD3, 0xFA, 0xE7, 0xCD, 0xE6, 0xBB, 0x66,- 0x71, 0x5A, 0x19, 0x8F, 0xA4, 0x8D, 0x21, 0x0C,- 0x10, 0xF8, 0xDF, 0x32, 0x04, 0xAE, 0x5E, 0x33,- 0xA6, 0x02, 0x46, 0x7F, 0x1B, 0x62, 0x26, 0x85- },- {- 0xE6, 0x2B, 0x62, 0x2A, 0xC8, 0xA2, 0x13, 0x66,- 0xBF, 0x2D, 0xED, 0x30, 0xF4, 0x08, 0x2A, 0x53,- 0xE7, 0x7A, 0x9A, 0xA6, 0x96, 0xB1, 0xF3, 0xEE,- 0x8C, 0xFE, 0x99, 0xC5, 0x93, 0x12, 0xD9, 0xC7- },- {- 0x3D, 0x39, 0xFF, 0xA8, 0x55, 0x12, 0xC3, 0xC8,- 0x89, 0x0D, 0x4B, 0xDF, 0x31, 0x88, 0x9C, 0xA6,- 0x6E, 0x5C, 0xEC, 0xB6, 0x3C, 0xFE, 0xED, 0x57,- 0xB9, 0x26, 0x37, 0x08, 0xE7, 0x4C, 0x55, 0x0B- },- {- 0xB1, 0x70, 0x3B, 0x8A, 0x00, 0xE2, 0x61, 0x24,- 0x97, 0xD1, 0x1C, 0x64, 0x9D, 0x15, 0x0A, 0x6C,- 0x96, 0x3B, 0xF4, 0xFD, 0x38, 0xFE, 0xB1, 0xC3,- 0x81, 0xFE, 0x0D, 0x9B, 0x04, 0xC0, 0x2B, 0x22- },- {- 0x12, 0xFB, 0xAD, 0x9D, 0x37, 0x82, 0x81, 0x2D,- 0x71, 0x17, 0x9A, 0x50, 0xFB, 0xD9, 0xB4, 0x56,- 0x6C, 0x7B, 0x06, 0xF5, 0xD7, 0x7C, 0x6F, 0x32,- 0x97, 0x17, 0xFB, 0x4A, 0xE2, 0xC5, 0xB4, 0xEC- },- {- 0x76, 0x8B, 0x65, 0x9A, 0x82, 0x4B, 0x43, 0xF9,- 0xCA, 0x56, 0x60, 0xB9, 0xDD, 0xF0, 0x5F, 0x8B,- 0xA2, 0xBC, 0x49, 0x93, 0x86, 0x6B, 0x7C, 0x9B,- 0xE6, 0x87, 0x91, 0xF5, 0xB2, 0x46, 0x44, 0xB3- },- {- 0xC0, 0x20, 0x4E, 0x23, 0xCA, 0x86, 0xBE, 0x20,- 0x5E, 0xED, 0x0C, 0xC3, 0xDD, 0x72, 0x25, 0xCE,- 0x5F, 0xFE, 0x1E, 0xE1, 0x2D, 0xAC, 0xB9, 0x3C,- 0x5D, 0x06, 0x29, 0xB7, 0x69, 0x9C, 0xD7, 0x33- },- {- 0xF4, 0x32, 0x96, 0x96, 0x1F, 0x8E, 0xAE, 0xCC,- 0xD8, 0x54, 0x41, 0x3D, 0xC5, 0xAD, 0xDA, 0x62,- 0x39, 0x3A, 0x34, 0x46, 0x27, 0xE8, 0x6C, 0x06,- 0x6E, 0x79, 0x07, 0x55, 0x00, 0x40, 0x74, 0x4F- },- {- 0x82, 0xF4, 0x46, 0x9E, 0x80, 0x78, 0x90, 0x21,- 0xC6, 0x1D, 0xB7, 0xE3, 0x2F, 0x36, 0xAC, 0xBE,- 0x59, 0x1A, 0x64, 0xF2, 0x60, 0x59, 0x26, 0x57,- 0x70, 0xAE, 0x65, 0x8D, 0x62, 0xBD, 0xE7, 0xEF- },- {- 0x2A, 0x85, 0x67, 0x1A, 0x55, 0xC8, 0x9F, 0xA1,- 0x56, 0xE2, 0x96, 0xF7, 0x5D, 0xF1, 0xC7, 0xDB,- 0xAB, 0x17, 0x8E, 0xBB, 0xA6, 0x52, 0x04, 0xA7,- 0xE8, 0x17, 0x8C, 0x91, 0x6A, 0xD0, 0x87, 0xF8- },- {- 0x33, 0xE2, 0x45, 0x00, 0x28, 0x08, 0xF6, 0x93,- 0x4B, 0x9B, 0xE3, 0xA6, 0xFA, 0x8E, 0x86, 0x70,- 0xC9, 0x0B, 0xAA, 0x62, 0x57, 0x17, 0xB9, 0x20,- 0x1E, 0xB9, 0xB9, 0xDD, 0x91, 0x2F, 0x5C, 0xE2- },- {- 0x58, 0xEE, 0x5E, 0x79, 0x91, 0x84, 0xAD, 0x9D,- 0xA9, 0xA1, 0x7C, 0x5B, 0x46, 0xA4, 0x81, 0x0E,- 0x28, 0xBD, 0xD0, 0x8C, 0x35, 0x81, 0x63, 0x4C,- 0x83, 0x50, 0x30, 0x53, 0x9B, 0x79, 0x54, 0x4D- },- {- 0x26, 0xD8, 0xFA, 0x08, 0xDB, 0x30, 0x8E, 0xDF,- 0x2F, 0x96, 0xF8, 0x2A, 0xF6, 0xB6, 0x0C, 0x17,- 0xD8, 0xF1, 0xFF, 0x85, 0x8C, 0x52, 0xF2, 0xD0,- 0xF3, 0x83, 0x10, 0x78, 0x12, 0x75, 0x26, 0xA3- },- {- 0x25, 0xA5, 0x8D, 0xF4, 0x03, 0x92, 0x47, 0xA2,- 0x2F, 0x68, 0xFF, 0x2B, 0x71, 0x76, 0x6B, 0x7B,- 0x56, 0x00, 0xDD, 0xF4, 0x01, 0xD9, 0x9F, 0xF2,- 0xC1, 0x95, 0x5A, 0xE7, 0xBB, 0x43, 0xE5, 0x6A- },- {- 0xBE, 0x43, 0xE8, 0x68, 0x61, 0x60, 0xE9, 0x07,- 0xBA, 0x54, 0x7D, 0x5A, 0x87, 0x9D, 0x10, 0xF7,- 0x88, 0xAF, 0xC8, 0x42, 0xB8, 0xEB, 0xB9, 0xF3,- 0xF7, 0x88, 0x53, 0x25, 0x15, 0x91, 0x2A, 0xE4- },- {- 0xAA, 0x4A, 0xCB, 0x95, 0xD8, 0x79, 0x19, 0x2A,- 0x69, 0x08, 0xE8, 0x8A, 0xE3, 0xD6, 0x58, 0x9F,- 0x4E, 0x3E, 0xB3, 0xD4, 0xE0, 0x3A, 0x80, 0x6C,- 0xCD, 0xB9, 0xB5, 0xD6, 0xA9, 0x58, 0x6F, 0xDF- },- {- 0x84, 0x66, 0xD5, 0xE4, 0x4C, 0xE9, 0x5B, 0x4F,- 0xA1, 0x79, 0x99, 0x24, 0x44, 0xB8, 0xC2, 0x48,- 0x5B, 0x88, 0x64, 0x48, 0xA6, 0xDC, 0xCF, 0xCF,- 0x0B, 0xC3, 0x0B, 0xC5, 0xF0, 0xF5, 0x6B, 0x01- },- {- 0x00, 0x56, 0xD7, 0xE0, 0xAC, 0x33, 0x35, 0x57,- 0x83, 0x65, 0x9B, 0x38, 0xEC, 0x8B, 0xEC, 0xCB,- 0xF7, 0x83, 0x93, 0x99, 0x67, 0xFE, 0x37, 0xAE,- 0xAC, 0xF3, 0x69, 0xDD, 0xB6, 0x70, 0xAD, 0xA0- },- {- 0x90, 0x4F, 0x42, 0xF3, 0x45, 0x53, 0x0A, 0xC8,- 0xA3, 0x52, 0xD0, 0x9B, 0x68, 0x72, 0xC5, 0xBC,- 0xA3, 0x66, 0x1A, 0xBC, 0xA6, 0xCA, 0x64, 0xC8,- 0x09, 0x9F, 0x2F, 0xB6, 0x86, 0x7C, 0x30, 0xFE- },- {- 0xA8, 0xC3, 0xBF, 0x46, 0xF0, 0xB8, 0x8B, 0xBD,- 0x16, 0xFD, 0xA4, 0xA8, 0xB5, 0xCA, 0x81, 0xF5,- 0x24, 0x35, 0x20, 0xC3, 0x85, 0xD3, 0x8C, 0x0B,- 0x4D, 0x23, 0x52, 0xAB, 0x34, 0xEA, 0x35, 0xE6- },- {- 0x8D, 0x33, 0x17, 0xFC, 0x60, 0x6E, 0x56, 0x6D,- 0x30, 0x2E, 0xDA, 0xB5, 0x5E, 0x80, 0x16, 0x11,- 0xD8, 0xC1, 0x3F, 0x4A, 0x9A, 0x19, 0xD1, 0x85,- 0x97, 0x8D, 0xEF, 0x72, 0x83, 0x9C, 0xDA, 0xA3- },- {- 0x97, 0x38, 0x80, 0x11, 0xF5, 0x7A, 0x49, 0x86,- 0x90, 0xEC, 0x79, 0x88, 0xEF, 0xF9, 0x03, 0xFF,- 0x9B, 0x23, 0x58, 0xF5, 0xB6, 0x1B, 0xAA, 0x20,- 0xF7, 0x32, 0x90, 0xD6, 0x29, 0x6C, 0x1C, 0x0B- },- {- 0xCF, 0xB8, 0x0C, 0xAB, 0x89, 0x90, 0x95, 0x08,- 0x09, 0x12, 0x3F, 0xBF, 0x85, 0xE9, 0x76, 0x45,- 0x47, 0x08, 0xE0, 0xAF, 0xED, 0x69, 0x8E, 0x33,- 0x52, 0xA3, 0x16, 0x35, 0x90, 0x9D, 0xB3, 0xE5- },- {- 0x0D, 0xAA, 0xCA, 0x55, 0x13, 0x2A, 0x23, 0x5B,- 0x83, 0x1A, 0x5E, 0xFF, 0x4E, 0xA4, 0x67, 0xCD,- 0x10, 0xAF, 0x44, 0x20, 0x08, 0x47, 0x73, 0x5A,- 0x1F, 0xFD, 0x51, 0xFA, 0x37, 0xEA, 0xA2, 0xA2- },- {- 0x69, 0xB2, 0x14, 0x97, 0xEB, 0xB8, 0x24, 0xBA,- 0x66, 0x53, 0x68, 0x18, 0x88, 0x25, 0xE6, 0xF6,- 0xF1, 0x4C, 0xF2, 0xC3, 0xF7, 0xB5, 0x53, 0x0B,- 0xB3, 0x4F, 0xA6, 0x58, 0xEE, 0xD9, 0xA7, 0x39- },- {- 0xB9, 0xA1, 0x9F, 0x50, 0x9B, 0xE0, 0x3F, 0xBC,- 0x40, 0xE2, 0x43, 0xA5, 0x8A, 0x3D, 0xED, 0x11,- 0xF0, 0xD5, 0x1F, 0x80, 0xE3, 0xE2, 0x9A, 0x50,- 0x56, 0x44, 0xCC, 0x05, 0x74, 0x38, 0x14, 0xEC- },- {- 0xC4, 0xBC, 0xB2, 0x00, 0x25, 0x55, 0xD5, 0x44,- 0xFD, 0x0B, 0x02, 0x77, 0x06, 0x23, 0x89, 0x1E,- 0x70, 0xEE, 0xEC, 0x77, 0x44, 0x86, 0x5D, 0xD6,- 0x45, 0x5A, 0xD6, 0x65, 0xCC, 0x82, 0xE8, 0x61- },- {- 0x91, 0x2D, 0x24, 0xDC, 0x3D, 0x69, 0x23, 0xA4,- 0x83, 0xC2, 0x63, 0xEB, 0xA8, 0x1B, 0x7A, 0x87,- 0x97, 0xF2, 0x3C, 0xBF, 0x2F, 0x78, 0xB5, 0x1E,- 0x22, 0x26, 0x63, 0x9F, 0x84, 0xA5, 0x90, 0x47- },- {- 0x56, 0x82, 0x7A, 0x18, 0x88, 0x3A, 0xFD, 0xF9,- 0xCE, 0xEC, 0x56, 0x2B, 0x20, 0x66, 0xD8, 0xAC,- 0xB2, 0xC1, 0x95, 0x05, 0xEC, 0xE6, 0xF7, 0xA8,- 0x3E, 0x9F, 0x33, 0x46, 0xCB, 0xB8, 0x28, 0xC9- },- {- 0x25, 0x1D, 0x8D, 0x09, 0xFC, 0x48, 0xDD, 0x1D,- 0x6A, 0xF8, 0xFF, 0xDF, 0x39, 0x50, 0x91, 0xA4,- 0x6E, 0x05, 0xB8, 0xB7, 0xC5, 0xEC, 0x0C, 0x79,- 0xB6, 0x8A, 0x89, 0x04, 0xC8, 0x27, 0xBD, 0xEA- },- {- 0xC2, 0xD1, 0x4D, 0x69, 0xFD, 0x0B, 0xBD, 0x1C,- 0x0F, 0xE8, 0xC8, 0x45, 0xD5, 0xFD, 0x6A, 0x8F,- 0x74, 0x01, 0x51, 0xB1, 0xD8, 0xEB, 0x4D, 0x26,- 0x36, 0x4B, 0xB0, 0x2D, 0xAE, 0x0C, 0x13, 0xBC- },- {- 0x2E, 0x5F, 0xE2, 0x1F, 0x8F, 0x1B, 0x63, 0x97,- 0xA3, 0x8A, 0x60, 0x3D, 0x60, 0xB6, 0xF5, 0x3C,- 0x3B, 0x5D, 0xB2, 0x0A, 0xA5, 0x6C, 0x6D, 0x44,- 0xBE, 0xBD, 0x48, 0x28, 0xCE, 0x28, 0xF9, 0x0F- },- {- 0x25, 0x05, 0x9F, 0x10, 0x60, 0x5E, 0x67, 0xAD,- 0xFE, 0x68, 0x13, 0x50, 0x66, 0x6E, 0x15, 0xAE,- 0x97, 0x6A, 0x5A, 0x57, 0x1C, 0x13, 0xCF, 0x5B,- 0xC8, 0x05, 0x3F, 0x43, 0x0E, 0x12, 0x0A, 0x52- },-};-----static const uint8_t blake2sp_keyed_kat[KAT_LENGTH][BLAKE2S_OUTBYTES] =-{- {- 0x71, 0x5C, 0xB1, 0x38, 0x95, 0xAE, 0xB6, 0x78,- 0xF6, 0x12, 0x41, 0x60, 0xBF, 0xF2, 0x14, 0x65,- 0xB3, 0x0F, 0x4F, 0x68, 0x74, 0x19, 0x3F, 0xC8,- 0x51, 0xB4, 0x62, 0x10, 0x43, 0xF0, 0x9C, 0xC6- },- {- 0x40, 0x57, 0x8F, 0xFA, 0x52, 0xBF, 0x51, 0xAE,- 0x18, 0x66, 0xF4, 0x28, 0x4D, 0x3A, 0x15, 0x7F,- 0xC1, 0xBC, 0xD3, 0x6A, 0xC1, 0x3C, 0xBD, 0xCB,- 0x03, 0x77, 0xE4, 0xD0, 0xCD, 0x0B, 0x66, 0x03- },- {- 0x67, 0xE3, 0x09, 0x75, 0x45, 0xBA, 0xD7, 0xE8,- 0x52, 0xD7, 0x4D, 0x4E, 0xB5, 0x48, 0xEC, 0xA7,- 0xC2, 0x19, 0xC2, 0x02, 0xA7, 0xD0, 0x88, 0xDB,- 0x0E, 0xFE, 0xAC, 0x0E, 0xAC, 0x30, 0x42, 0x49- },- {- 0x8D, 0xBC, 0xC0, 0x58, 0x9A, 0x3D, 0x17, 0x29,- 0x6A, 0x7A, 0x58, 0xE2, 0xF1, 0xEF, 0xF0, 0xE2,- 0xAA, 0x42, 0x10, 0xB5, 0x8D, 0x1F, 0x88, 0xB8,- 0x6D, 0x7B, 0xA5, 0xF2, 0x9D, 0xD3, 0xB5, 0x83- },- {- 0xA9, 0xA9, 0x65, 0x2C, 0x8C, 0x67, 0x75, 0x94,- 0xC8, 0x72, 0x12, 0xD8, 0x9D, 0x5A, 0x75, 0xFB,- 0x31, 0xEF, 0x4F, 0x47, 0xC6, 0x58, 0x2C, 0xDE,- 0x5F, 0x1E, 0xF6, 0x6B, 0xD4, 0x94, 0x53, 0x3A- },- {- 0x05, 0xA7, 0x18, 0x0E, 0x59, 0x50, 0x54, 0x73,- 0x99, 0x48, 0xC5, 0xE3, 0x38, 0xC9, 0x5F, 0xE0,- 0xB7, 0xFC, 0x61, 0xAC, 0x58, 0xA7, 0x35, 0x74,- 0x74, 0x56, 0x33, 0xBB, 0xC1, 0xF7, 0x70, 0x31- },- {- 0x81, 0x4D, 0xE8, 0x31, 0x53, 0xB8, 0xD7, 0x5D,- 0xFA, 0xDE, 0x29, 0xFD, 0x39, 0xAC, 0x72, 0xDD,- 0x09, 0xCA, 0x0F, 0x9B, 0xC8, 0xB7, 0xAB, 0x6A,- 0x06, 0xBA, 0xEE, 0x7D, 0xD0, 0xF9, 0xF0, 0x83- },- {- 0xDF, 0xD4, 0x19, 0x44, 0x91, 0x29, 0xFF, 0x60,- 0x4F, 0x0A, 0x14, 0x8B, 0x4C, 0x7D, 0x68, 0xF1,- 0x17, 0x4F, 0x7D, 0x0F, 0x8C, 0x8D, 0x2C, 0xE7,- 0x7F, 0x44, 0x8F, 0xD3, 0x41, 0x9C, 0x6F, 0xB0- },- {- 0xB9, 0xED, 0x22, 0xE7, 0xDD, 0x8D, 0xD1, 0x4E,- 0xE8, 0xC9, 0x5B, 0x20, 0xE7, 0x63, 0x2E, 0x85,- 0x53, 0xA2, 0x68, 0xD9, 0xFF, 0x86, 0x33, 0xED,- 0x3C, 0x21, 0xD1, 0xB8, 0xC9, 0xA7, 0x0B, 0xE1- },- {- 0x95, 0xF0, 0x31, 0x67, 0x1A, 0x4E, 0x3C, 0x54,- 0x44, 0x1C, 0xEE, 0x9D, 0xBE, 0xF4, 0xB7, 0xAC,- 0xA4, 0x46, 0x18, 0xA3, 0xA3, 0x33, 0xAD, 0x74,- 0x06, 0xD1, 0x97, 0xAC, 0x5B, 0xA0, 0x79, 0x1A- },- {- 0xE2, 0x92, 0x5B, 0x9D, 0x5C, 0xA0, 0xFF, 0x62,- 0x88, 0xC5, 0xEA, 0x1A, 0xF2, 0xD2, 0x2B, 0x0A,- 0x6B, 0x79, 0xE2, 0xDA, 0xE0, 0x8B, 0xFD, 0x36,- 0xC3, 0xBE, 0x10, 0xBB, 0x8D, 0x71, 0xD8, 0x39- },- {- 0x16, 0x24, 0x9C, 0x74, 0x4E, 0x49, 0x51, 0x45,- 0x1D, 0x4C, 0x89, 0x4F, 0xB5, 0x9A, 0x3E, 0xCB,- 0x3F, 0xBF, 0xB7, 0xA4, 0x5F, 0x96, 0xF8, 0x5D,- 0x15, 0x80, 0xAC, 0x0B, 0x84, 0x2D, 0x96, 0xDA- },- {- 0x43, 0x2B, 0xC9, 0x1C, 0x52, 0xAC, 0xEB, 0x9D,- 0xAE, 0xD8, 0x83, 0x28, 0x81, 0x64, 0x86, 0x50,- 0xC1, 0xB8, 0x1D, 0x11, 0x7A, 0xBD, 0x68, 0xE0,- 0x84, 0x51, 0x50, 0x8A, 0x63, 0xBE, 0x00, 0x81- },- {- 0xCD, 0xE8, 0x20, 0x2B, 0xCF, 0xA3, 0xF3, 0xE9,- 0x5D, 0x79, 0xBA, 0xCC, 0x16, 0x5D, 0x52, 0x70,- 0x0E, 0xF7, 0x1D, 0x87, 0x4A, 0x3C, 0x63, 0x7E,- 0x63, 0x4F, 0x64, 0x44, 0x73, 0x72, 0x0D, 0x6B- },- {- 0x16, 0x21, 0x62, 0x1F, 0x5C, 0x3E, 0xE4, 0x46,- 0x89, 0x9D, 0x3C, 0x8A, 0xAE, 0x49, 0x17, 0xB1,- 0xE6, 0xDB, 0x4A, 0x0E, 0xD0, 0x42, 0x31, 0x5F,- 0xB2, 0xC1, 0x74, 0x82, 0x5E, 0x0A, 0x18, 0x19- },- {- 0x33, 0x6E, 0x8E, 0xBC, 0x71, 0xE2, 0x09, 0x5C,- 0x27, 0xF8, 0x64, 0xA3, 0x12, 0x1E, 0xFD, 0x0F,- 0xAA, 0x7A, 0x41, 0x28, 0x57, 0x25, 0xA5, 0x92,- 0xF6, 0x1B, 0xED, 0xED, 0x9D, 0xDE, 0x86, 0xED- },- {- 0x07, 0x9B, 0xE0, 0x41, 0x0E, 0x78, 0x9B, 0x36,- 0xEE, 0x7F, 0x55, 0xC1, 0x9F, 0xAA, 0xC6, 0x91,- 0x65, 0x6E, 0xB0, 0x52, 0x1F, 0x42, 0x94, 0x9B,- 0x84, 0xEE, 0x29, 0xFE, 0x2A, 0x0E, 0x7F, 0x36- },- {- 0x17, 0x27, 0x0C, 0x4F, 0x34, 0x88, 0x08, 0x2D,- 0x9F, 0xF9, 0x93, 0x7E, 0xAB, 0x3C, 0xA9, 0x9C,- 0x97, 0xC5, 0xB4, 0x59, 0x61, 0x47, 0x37, 0x2D,- 0xD4, 0xE9, 0x8A, 0xCF, 0x13, 0xDB, 0x28, 0x10- },- {- 0x18, 0x3C, 0x38, 0x75, 0x4D, 0x03, 0x41, 0xCE,- 0x07, 0xC1, 0x7A, 0x6C, 0xB6, 0xC2, 0xFD, 0x8B,- 0xBC, 0xC1, 0x40, 0x4F, 0xDD, 0x01, 0x41, 0x99,- 0xC7, 0x8B, 0xE1, 0xA9, 0x75, 0x59, 0xA9, 0x28- },- {- 0x6E, 0x52, 0xD7, 0x28, 0xA4, 0x05, 0xA6, 0xE1,- 0xF8, 0x75, 0x87, 0xBB, 0xC2, 0xAC, 0x91, 0xC5,- 0xC0, 0x9B, 0x2D, 0x82, 0x8A, 0xC8, 0x1E, 0x5C,- 0x4A, 0x81, 0xD0, 0x3D, 0xD4, 0xAA, 0x8D, 0x5C- },- {- 0xF4, 0xE0, 0x8E, 0x05, 0x9B, 0x74, 0x14, 0x4B,- 0xF9, 0x48, 0x14, 0x6D, 0x14, 0xA2, 0xC8, 0x1E,- 0x46, 0xDC, 0x15, 0xFF, 0x26, 0xEB, 0x52, 0x34,- 0x4C, 0xDD, 0x47, 0x4A, 0xBE, 0xA1, 0x4B, 0xC0- },- {- 0x0F, 0x2E, 0x0A, 0x10, 0x0E, 0xD8, 0xA1, 0x17,- 0x85, 0x96, 0x2A, 0xD4, 0x59, 0x6A, 0xF9, 0x55,- 0xE3, 0x0B, 0x9A, 0xEF, 0x93, 0x0A, 0x24, 0x8D,- 0xA9, 0x32, 0x2B, 0x70, 0x2D, 0x4B, 0x68, 0x72- },- {- 0x51, 0x90, 0xFC, 0xC7, 0x32, 0xF4, 0x04, 0xAA,- 0xD4, 0x36, 0x4A, 0xC7, 0x96, 0x0C, 0xFD, 0x5B,- 0x4E, 0x34, 0x86, 0x29, 0xC3, 0x72, 0xEE, 0xB3,- 0x25, 0xB5, 0xC6, 0xC7, 0xCB, 0xCE, 0x59, 0xAB- },- {- 0xC0, 0xC4, 0xCB, 0x86, 0xEA, 0x25, 0xEA, 0x95,- 0x7E, 0xEC, 0x5B, 0x22, 0xD2, 0x55, 0x0A, 0x16,- 0x49, 0xE6, 0xDF, 0xFA, 0x31, 0x6B, 0xB8, 0xF4,- 0xC9, 0x1B, 0x8F, 0xF7, 0xA2, 0x4B, 0x25, 0x31- },- {- 0x2C, 0x9E, 0xDA, 0x13, 0x5A, 0x30, 0xAE, 0xCA,- 0xF3, 0xAC, 0xB3, 0xD2, 0x3A, 0x30, 0x35, 0xFB,- 0xAB, 0xBA, 0x98, 0x33, 0x31, 0x65, 0xD8, 0x7F,- 0xCB, 0xF8, 0xFE, 0x10, 0x33, 0x6E, 0xCF, 0x20- },- {- 0x3C, 0xD6, 0x69, 0xE8, 0xD5, 0x62, 0x62, 0xA2,- 0x37, 0x13, 0x67, 0x22, 0x4D, 0xAE, 0x6D, 0x75,- 0x9E, 0xE1, 0x52, 0xC3, 0x15, 0x33, 0xB2, 0x63,- 0xFA, 0x2E, 0x64, 0x92, 0x08, 0x77, 0xB2, 0xA7- },- {- 0x18, 0xA9, 0xA0, 0xC2, 0xD0, 0xEA, 0x6C, 0x3B,- 0xB3, 0x32, 0x83, 0x0F, 0x89, 0x18, 0xB0, 0x68,- 0x4F, 0x5D, 0x39, 0x94, 0xDF, 0x48, 0x67, 0x46,- 0x2D, 0xD0, 0x6E, 0xF0, 0x86, 0x24, 0x24, 0xCC- },- {- 0x73, 0x90, 0xEA, 0x41, 0x04, 0xA9, 0xF4, 0xEE,- 0xA9, 0x0F, 0x81, 0xE2, 0x6A, 0x12, 0x9D, 0xCF,- 0x9F, 0x4A, 0xF3, 0x83, 0x52, 0xD9, 0xCB, 0x6A,- 0x81, 0x2C, 0xC8, 0x05, 0x69, 0x09, 0x05, 0x0E- },- {- 0xE4, 0x9E, 0x01, 0x14, 0xC6, 0x29, 0xB4, 0x94,- 0xB1, 0x1E, 0xA9, 0x8E, 0xCD, 0x40, 0x32, 0x73,- 0x1F, 0x15, 0x3B, 0x46, 0x50, 0xAC, 0xAC, 0xD7,- 0xE0, 0xF6, 0xE7, 0xDE, 0x3D, 0xF0, 0x19, 0x77- },- {- 0x27, 0xC5, 0x70, 0x2B, 0xE1, 0x04, 0xB3, 0xA9,- 0x4F, 0xC4, 0x34, 0x23, 0xAE, 0xEE, 0x83, 0xAC,- 0x3C, 0xA7, 0x3B, 0x7F, 0x87, 0x83, 0x9A, 0x6B,- 0x2E, 0x29, 0x60, 0x79, 0x03, 0xB7, 0xF2, 0x87- },- {- 0x81, 0xD2, 0xE1, 0x2E, 0xB2, 0xF4, 0x27, 0x60,- 0xC6, 0xE3, 0xBA, 0xA7, 0x8F, 0x84, 0x07, 0x3A,- 0xE6, 0xF5, 0x61, 0x60, 0x70, 0xFE, 0x25, 0xBE,- 0xDE, 0x7C, 0x7C, 0x82, 0x48, 0xAB, 0x1F, 0xBA- },- {- 0xFA, 0xB2, 0x35, 0xD5, 0x93, 0x48, 0xAB, 0x8C,- 0xE4, 0x9B, 0xEC, 0x77, 0xC0, 0xF1, 0x93, 0x28,- 0xFD, 0x04, 0x5D, 0xFD, 0x60, 0x8A, 0x53, 0x03,- 0x36, 0xDF, 0x4F, 0x94, 0xE1, 0x72, 0xA5, 0xC8- },- {- 0x8A, 0xAA, 0x8D, 0x80, 0x5C, 0x58, 0x88, 0x1F,- 0xF3, 0x79, 0xFB, 0xD4, 0x2C, 0x6B, 0xF6, 0xF1,- 0x4C, 0x6C, 0x73, 0xDF, 0x80, 0x71, 0xB3, 0xB2,- 0x28, 0x98, 0x11, 0x09, 0xCC, 0xC0, 0x15, 0xF9- },- {- 0x91, 0xFD, 0xD2, 0x62, 0x20, 0x39, 0x16, 0x39,- 0x47, 0x40, 0x95, 0x2B, 0xCE, 0x72, 0xB6, 0x4B,- 0xAB, 0xB6, 0xF7, 0x21, 0x34, 0x4D, 0xEE, 0x82,- 0x50, 0xBF, 0x0E, 0x46, 0xF1, 0xBA, 0x18, 0x8F- },- {- 0xF7, 0xE5, 0x7B, 0x8F, 0x85, 0xF4, 0x7D, 0x59,- 0x03, 0xAD, 0x4C, 0xCB, 0x8A, 0xF6, 0x2A, 0x3E,- 0x85, 0x8A, 0xAB, 0x2B, 0x8C, 0xC2, 0x26, 0x49,- 0x4F, 0x7B, 0x00, 0xBE, 0xDB, 0xF5, 0xB0, 0xD0- },- {- 0xF7, 0x6F, 0x21, 0xAD, 0xDA, 0xE9, 0x6A, 0x96,- 0x46, 0xFC, 0x06, 0xF9, 0xBF, 0x52, 0xAE, 0x08,- 0x48, 0xF1, 0x8C, 0x35, 0x26, 0xB1, 0x29, 0xE1,- 0x5B, 0x2C, 0x35, 0x5E, 0x2E, 0x79, 0xE5, 0xDA- },- {- 0x8A, 0xEB, 0x1C, 0x79, 0x5F, 0x34, 0x90, 0x01,- 0x5E, 0xF4, 0xCD, 0x61, 0xA2, 0x80, 0x7B, 0x23,- 0x0E, 0xFD, 0xC8, 0x46, 0x01, 0x73, 0xDA, 0xD0,- 0x26, 0xA4, 0xA0, 0xFC, 0xC2, 0xFB, 0xF2, 0x2A- },- {- 0xC5, 0x64, 0xFF, 0xC6, 0x23, 0x07, 0x77, 0x65,- 0xBB, 0x97, 0x87, 0x58, 0x56, 0x54, 0xCE, 0x74,- 0x5D, 0xBD, 0x10, 0x8C, 0xEF, 0x24, 0x8A, 0xB0,- 0x0A, 0xD1, 0xA2, 0x64, 0x7D, 0x99, 0x03, 0x87- },- {- 0xFE, 0x89, 0x42, 0xA3, 0xE5, 0xF5, 0xE8, 0xCD,- 0x70, 0x51, 0x04, 0xF8, 0x82, 0x10, 0x72, 0x6E,- 0x53, 0xDD, 0x7E, 0xB3, 0xF9, 0xA2, 0x02, 0xBF,- 0x93, 0x14, 0xB3, 0xB9, 0x06, 0x5E, 0xB7, 0x12- },- {- 0xDC, 0x29, 0x53, 0x59, 0xD4, 0x36, 0xEE, 0xA7,- 0x80, 0x84, 0xE7, 0xB0, 0x77, 0xFE, 0x09, 0xB1,- 0x9C, 0x5B, 0xF3, 0xD2, 0xA7, 0x96, 0xDA, 0xB0,- 0x19, 0xE4, 0x20, 0x05, 0x99, 0xFD, 0x82, 0x02- },- {- 0x70, 0xB3, 0xF7, 0x2F, 0x74, 0x90, 0x32, 0xE2,- 0x5E, 0x38, 0x3B, 0x96, 0x43, 0x78, 0xEA, 0x1C,- 0x54, 0x3E, 0x9C, 0x15, 0xDE, 0x3A, 0x27, 0xD8,- 0x6D, 0x2A, 0x9D, 0x22, 0x31, 0xEF, 0xF4, 0x8A- },- {- 0x79, 0x82, 0xB5, 0x4C, 0x08, 0xDB, 0x2B, 0xFB,- 0x6F, 0x45, 0xF3, 0x5B, 0xC3, 0x23, 0xBC, 0x09,- 0x37, 0x79, 0xB6, 0xBB, 0x0E, 0x3E, 0xEA, 0x3E,- 0x8C, 0x98, 0xB1, 0xDE, 0x99, 0xD3, 0xC5, 0x5E- },- {- 0x75, 0xE4, 0x16, 0x22, 0x57, 0x01, 0x4B, 0xED,- 0xCC, 0x05, 0xC2, 0x94, 0x4D, 0xCE, 0x0D, 0xF0,- 0xC3, 0x5E, 0xBA, 0x13, 0x19, 0x54, 0x06, 0x4F,- 0x6E, 0x4E, 0x09, 0x5F, 0xD0, 0x84, 0x45, 0xEE- },- {- 0x4A, 0x12, 0x9E, 0xA6, 0xCD, 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0xB3- },- {- 0xCA, 0x67, 0x60, 0xF3, 0x45, 0x67, 0x8F, 0x30,- 0xA2, 0x8D, 0x62, 0x82, 0x94, 0x27, 0x2A, 0x19,- 0xE3, 0x07, 0x2E, 0xBC, 0x61, 0xB1, 0x9F, 0xF1,- 0x3B, 0x31, 0x89, 0x73, 0xE9, 0x7C, 0x27, 0x38- },- {- 0xC0, 0x8E, 0x1A, 0x90, 0x47, 0xC5, 0x05, 0x26,- 0x4A, 0x16, 0x44, 0x7C, 0x9E, 0xD9, 0x81, 0xA7,- 0x19, 0xD3, 0x81, 0xF2, 0x8E, 0x60, 0x5F, 0xD7,- 0xCA, 0xA9, 0xE8, 0xBD, 0xBB, 0x42, 0x99, 0x6A- },- {- 0xF1, 0x73, 0xBA, 0x9D, 0x45, 0x84, 0xCD, 0x12,- 0x60, 0x50, 0xC6, 0x9F, 0xC2, 0x19, 0xA9, 0x19,- 0x0A, 0x0B, 0xF0, 0xAE, 0xCE, 0xCB, 0xE6, 0x11,- 0xBE, 0xED, 0x19, 0x3D, 0xA6, 0xCA, 0x4D, 0xE7- },- {- 0xB1, 0x84, 0x87, 0x65, 0x20, 0xDE, 0xD8, 0xBD,- 0x7D, 0xE2, 0x5E, 0xAE, 0xFB, 0xD3, 0xE0, 0x36,- 0x88, 0xC3, 0xBE, 0x39, 0xC1, 0x9F, 0xB7, 0x3E,- 0x1F, 0x0E, 0xCC, 0xAC, 0x7C, 0xC0, 0xF0, 0x14- },- {- 0x90, 0x25, 0xDB, 0x07, 0x58, 0xBD, 0xFB, 0x48,- 0xF0, 0x66, 0x7E, 0xBD, 0x7E, 0x12, 0x02, 0x46,- 0x59, 0x8F, 0xED, 0x01, 0xC2, 0x58, 0x76, 0x4F,- 0xA0, 0xFA, 0xE3, 0x34, 0xA2, 0xA0, 0x0A, 0x97- },- {- 0xE8, 0x3D, 0x80, 0x86, 0xFA, 0xBC, 0x46, 0x0D,- 0x5E, 0xFC, 0x45, 0x9F, 0x95, 0xA2, 0x68, 0xF5,- 0xDC, 0x4A, 0xC2, 0x84, 0x09, 0x3C, 0x24, 0x7C,- 0xA6, 0xEC, 0x84, 0x1A, 0xD6, 0x18, 0x3F, 0xE1- },- {- 0xCC, 0x9D, 0xF4, 0x1D, 0x35, 0xAA, 0x75, 0x92,- 0x8C, 0x18, 0x5F, 0x73, 0x93, 0x66, 0x61, 0x10,- 0xB8, 0x0F, 0x09, 0x86, 0xA2, 0x21, 0xC3, 0x70,- 0xF4, 0x5C, 0x2E, 0xB9, 0x01, 0x6C, 0x9A, 0x3B- },- {- 0x92, 0xF9, 0xA5, 0x94, 0x95, 0x45, 0x90, 0xFA,- 0x81, 0x98, 0x17, 0xE5, 0xD1, 0xC2, 0x8A, 0xAB,- 0x2B, 0x1C, 0xC5, 0x04, 0xD8, 0x6D, 0xBA, 0x44,- 0x36, 0x76, 0xBD, 0xF8, 0x66, 0x79, 0x68, 0x11- },- {- 0x72, 0x95, 0x62, 0xA1, 0xE0, 0x7B, 0x0E, 0x26,- 0x05, 0x49, 0x48, 0x09, 0xBD, 0x48, 0x0F, 0x15,- 0x37, 0xCE, 0xA1, 0x0D, 0xCA, 0xD4, 0x3E, 0xF9,- 0xF6, 0x8C, 0x66, 0xE8, 0x25, 0xDC, 0x46, 0xB1- },- {- 0x26, 0xF1, 0x60, 0xAB, 0x96, 0xF5, 0x58, 0x20,- 0x45, 0x14, 0x6E, 0xAF, 0xF2, 0xE2, 0xA8, 0xD4,- 0xDA, 0xB2, 0x98, 0xB4, 0xC5, 0x7E, 0x11, 0x7C,- 0xDF, 0xC5, 0xD0, 0x25, 0xC9, 0x2A, 0x22, 0x68- },- {- 0x87, 0xEB, 0xE7, 0x21, 0x38, 0x38, 0x73, 0xD2,- 0x47, 0xF8, 0x61, 0x82, 0xE3, 0xF5, 0x99, 0xA7,- 0x63, 0x4F, 0xCA, 0xEC, 0x5E, 0x07, 0xB1, 0xE8,- 0x3E, 0xBB, 0x79, 0x62, 0x5B, 0xA3, 0x54, 0xE6- },- {- 0xE0, 0x8D, 0x38, 0x9F, 0x75, 0x69, 0x4A, 0xDC,- 0x99, 0x6C, 0x22, 0xF5, 0x5D, 0x4F, 0x85, 0x9F,- 0xFD, 0x0C, 0x13, 0x19, 0xFF, 0x9C, 0xED, 0xF7,- 0x8C, 0x31, 0xBE, 0x84, 0xB6, 0xF2, 0x1A, 0xBC- },- {- 0x13, 0x63, 0xE2, 0x29, 0x13, 0xC6, 0xE1, 0x8E,- 0x7A, 0xA6, 0x5B, 0x83, 0xE7, 0x51, 0xC8, 0xA2,- 0xC6, 0x1B, 0x0F, 0x30, 0x71, 0x55, 0x86, 0x5A,- 0x57, 0xDB, 0xA5, 0x69, 0xA9, 0x9C, 0x7B, 0x0E- },- {- 0x88, 0x78, 0x08, 0x8E, 0xB2, 0xD1, 0xF6, 0xD0,- 0xBB, 0x48, 0x1B, 0x4B, 0xB1, 0x87, 0xDA, 0x04,- 0xBC, 0xD8, 0xC2, 0xC6, 0x39, 0xF0, 0x05, 0xB0,- 0x80, 0x54, 0xCC, 0x41, 0x75, 0x39, 0x05, 0xFB- },- {- 0x04, 0x18, 0xD6, 0x0D, 0x05, 0xB4, 0xE1, 0x24,- 0x64, 0x6E, 0xE5, 0x0E, 0x77, 0x49, 0xA1, 0xD2,- 0x09, 0x45, 0x7B, 0xC5, 0x43, 0xE3, 0xCC, 0x11,- 0x30, 0x27, 0x4A, 0xEA, 0x0F, 0x7B, 0xF3, 0xC1- },- {- 0x7A, 0x39, 0x7E, 0x50, 0x3F, 0x29, 0x3B, 0xC4,- 0x2D, 0x5F, 0x7E, 0xF5, 0xEC, 0x37, 0x87, 0x24,- 0x60, 0xA4, 0xF5, 0xB5, 0xCC, 0xDE, 0x77, 0xFB,- 0x4D, 0x47, 0xAC, 0x06, 0x81, 0xE5, 0xA0, 0x49- },- {- 0x5C, 0x0D, 0x29, 0x83, 0xE7, 0x2A, 0x6D, 0xD4,- 0xE6, 0x52, 0xD7, 0x23, 0xC1, 0xDF, 0xC1, 0x2B,- 0x41, 0x4C, 0x87, 0x3D, 0x4A, 0xB4, 0xA0, 0xA1,- 0x50, 0x40, 0x8E, 0xB3, 0x43, 0x47, 0xE9, 0x95- },- {- 0x56, 0x23, 0x36, 0x54, 0x53, 0xC0, 0x49, 0x89,- 0xC7, 0xCF, 0x33, 0x63, 0x5E, 0x0F, 0xC4, 0xCD,- 0xDD, 0x68, 0x6F, 0xC9, 0x5A, 0x33, 0xDF, 0xED,- 0xCF, 0x33, 0x35, 0x79, 0x4C, 0x7D, 0xC3, 0x44- },- {- 0x11, 0xF6, 0xDA, 0xD1, 0x88, 0x02, 0x8F, 0xDF,- 0x13, 0x78, 0xA2, 0x56, 0xE4, 0x57, 0x0E, 0x90,- 0x63, 0x10, 0x7B, 0x8F, 0x79, 0xDC, 0x66, 0x3F,- 0xA5, 0x55, 0x6F, 0x56, 0xFD, 0x44, 0xA0, 0xF0- },- {- 0x0E, 0xD8, 0x16, 0x17, 0x97, 0xEC, 0xEE, 0x88,- 0x1E, 0x7D, 0x0E, 0x3F, 0x4C, 0x5F, 0xB8, 0x39,- 0xC8, 0x4E, 0xB7, 0xA9, 0x24, 0x26, 0x57, 0xCC,- 0x48, 0x30, 0x68, 0x07, 0xB3, 0x2B, 0xEF, 0xDE- },- {- 0x73, 0x66, 0x67, 0xC9, 0x36, 0x4C, 0xE1, 0x2D,- 0xB8, 0xF6, 0xB1, 0x43, 0xC6, 0xC1, 0x78, 0xCD,- 0xEF, 0x1E, 0x14, 0x45, 0xBC, 0x5A, 0x2F, 0x26,- 0x34, 0xF0, 0x8E, 0x99, 0x32, 0x27, 0x3C, 0xAA- },- {- 0xE1, 0x5F, 0x36, 0x8B, 0x44, 0x06, 0xC1, 0xF6,- 0x55, 0x57, 0xC8, 0x35, 0x5C, 0xBE, 0x69, 0x4B,- 0x63, 0x3E, 0x26, 0xF1, 0x55, 0xF5, 0x2B, 0x7D,- 0xA9, 0x4C, 0xFB, 0x23, 0xFD, 0x4A, 0x5D, 0x96- },- {- 0x43, 0x7A, 0xB2, 0xD7, 0x4F, 0x50, 0xCA, 0x86,- 0xCC, 0x3D, 0xE9, 0xBE, 0x70, 0xE4, 0x55, 0x48,- 0x25, 0xE3, 0x3D, 0x82, 0x4B, 0x3A, 0x49, 0x23,- 0x62, 0xE2, 0xE9, 0xD6, 0x11, 0xBC, 0x57, 0x9D- },- {- 0x2B, 0x91, 0x58, 0xC7, 0x22, 0x89, 0x8E, 0x52,- 0x6D, 0x2C, 0xDD, 0x3F, 0xC0, 0x88, 0xE9, 0xFF,- 0xA7, 0x9A, 0x9B, 0x73, 0xB7, 0xD2, 0xD2, 0x4B,- 0xC4, 0x78, 0xE2, 0x1C, 0xDB, 0x3B, 0x67, 0x63- },- {- 0x0C, 0x8A, 0x36, 0x59, 0x7D, 0x74, 0x61, 0xC6,- 0x3A, 0x94, 0x73, 0x28, 0x21, 0xC9, 0x41, 0x85,- 0x6C, 0x66, 0x83, 0x76, 0x60, 0x6C, 0x86, 0xA5,- 0x2D, 0xE0, 0xEE, 0x41, 0x04, 0xC6, 0x15, 0xDB- },-};-----static const uint8_t blake2bp_kat[KAT_LENGTH][BLAKE2B_OUTBYTES] =-{- {- 0xB5, 0xEF, 0x81, 0x1A, 0x80, 0x38, 0xF7, 0x0B,- 0x62, 0x8F, 0xA8, 0xB2, 0x94, 0xDA, 0xAE, 0x74,- 0x92, 0xB1, 0xEB, 0xE3, 0x43, 0xA8, 0x0E, 0xAA,- 0xBB, 0xF1, 0xF6, 0xAE, 0x66, 0x4D, 0xD6, 0x7B,- 0x9D, 0x90, 0xB0, 0x12, 0x07, 0x91, 0xEA, 0xB8,- 0x1D, 0xC9, 0x69, 0x85, 0xF2, 0x88, 0x49, 0xF6,- 0xA3, 0x05, 0x18, 0x6A, 0x85, 0x50, 0x1B, 0x40,- 0x51, 0x14, 0xBF, 0xA6, 0x78, 0xDF, 0x93, 0x80- },- {- 0xA1, 0x39, 0x28, 0x0E, 0x72, 0x75, 0x7B, 0x72,- 0x3E, 0x64, 0x73, 0xD5, 0xBE, 0x59, 0xF3, 0x6E,- 0x9D, 0x50, 0xFC, 0x5C, 0xD7, 0xD4, 0x58, 0x5C,- 0xBC, 0x09, 0x80, 0x48, 0x95, 0xA3, 0x6C, 0x52,- 0x12, 0x42, 0xFB, 0x27, 0x89, 0xF8, 0x5C, 0xB9,- 0xE3, 0x54, 0x91, 0xF3, 0x1D, 0x4A, 0x69, 0x52,- 0xF9, 0xD8, 0xE0, 0x97, 0xAE, 0xF9, 0x4F, 0xA1,- 0xCA, 0x0B, 0x12, 0x52, 0x57, 0x21, 0xF0, 0x3D- },- {- 0xEF, 0x8C, 0xDA, 0x96, 0x35, 0xD5, 0x06, 0x3A,- 0xF8, 0x11, 0x15, 0xDA, 0x3C, 0x52, 0x32, 0x5A,- 0x86, 0xE8, 0x40, 0x74, 0xF9, 0xF7, 0x24, 0xB7,- 0xCB, 0xD0, 0xB0, 0x85, 0x6F, 0xF0, 0x01, 0x77,- 0xCD, 0xD2, 0x83, 0xC2, 0x98, 0x32, 0x6C, 0xD0,- 0x91, 0x77, 0x54, 0xC5, 0x24, 0x1F, 0x14, 0x80,- 0xFB, 0x50, 0x9C, 0xF2, 0xD2, 0xC4, 0x49, 0x81,- 0x80, 0x77, 0xAE, 0x35, 0xFC, 0x33, 0x07, 0x37- },- {- 0x8C, 0xF9, 0x33, 0xA2, 0xD3, 0x61, 0xA3, 0xE6,- 0xA1, 0x36, 0xDB, 0xE4, 0xA0, 0x1E, 0x79, 0x03,- 0x79, 0x7A, 0xD6, 0xCE, 0x76, 0x6E, 0x2B, 0x91,- 0xB9, 0xB4, 0xA4, 0x03, 0x51, 0x27, 0xD6, 0x5F,- 0x4B, 0xE8, 0x65, 0x50, 0x11, 0x94, 0x18, 0xE2,- 0x2D, 0xA0, 0x0F, 0xD0, 0x6B, 0xF2, 0xB2, 0x75,- 0x96, 0xB3, 0x7F, 0x06, 0xBE, 0x0A, 0x15, 0x4A,- 0xAF, 0x7E, 0xCA, 0x54, 0xC4, 0x52, 0x0B, 0x97- },- {- 0x24, 0xDC, 0x1E, 0x6D, 0xC4, 0xE5, 0x1A, 0x3A,- 0x3C, 0x8D, 0xA6, 0x7A, 0xAC, 0xB4, 0xC5, 0x41,- 0xE4, 0x18, 0x18, 0xD1, 0x80, 0xE5, 0xBB, 0x69,- 0x75, 0x3D, 0xBB, 0xFF, 0x2F, 0x44, 0xD0, 0xE7,- 0xDA, 0x83, 0x03, 0x86, 0xBF, 0xC8, 0x3B, 0x27,- 0xA5, 0x9D, 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0x37,- 0x35, 0x7F, 0xAD, 0x93, 0x4B, 0x45, 0x10, 0x60,- 0x3F, 0x43, 0xA7, 0x31, 0x9F, 0xFF, 0xA6, 0x23,- 0x86, 0xF8, 0x78, 0x8F, 0xDF, 0x9D, 0xED, 0x40,- 0xC6, 0x66, 0xB4, 0xBD, 0xCA, 0x86, 0xD9, 0x32,- 0x8F, 0xE5, 0x5A, 0xD8, 0x6B, 0x37, 0x2F, 0xC8- },- {- 0xA3, 0x18, 0x97, 0x61, 0x02, 0x74, 0x7D, 0x80,- 0x0F, 0x58, 0x4D, 0xF6, 0x5B, 0xFB, 0x44, 0x3B,- 0x85, 0x6F, 0x00, 0x9E, 0x74, 0xF7, 0x29, 0x46,- 0xD0, 0x07, 0x6C, 0xED, 0xAC, 0x04, 0x37, 0x6F,- 0xAB, 0x97, 0x34, 0x53, 0xAD, 0xAD, 0xC3, 0x10,- 0xF7, 0x20, 0x81, 0xCB, 0xBA, 0x96, 0x26, 0x4F,- 0xFE, 0x2B, 0x21, 0xA3, 0xB1, 0x8B, 0xE9, 0xD8,- 0x8C, 0x42, 0x46, 0xCB, 0xA6, 0xD3, 0x09, 0x01- },- {- 0xB5, 0xE6, 0xE4, 0xFC, 0xA0, 0xCF, 0x98, 0x48,- 0xA0, 0x05, 0x89, 0xC6, 0x54, 0x57, 0xDB, 0x68,- 0xB3, 0x25, 0x3A, 0x6E, 0x17, 0x78, 0x85, 0x41,- 0x47, 0x2E, 0x1F, 0xB9, 0x48, 0x17, 0xF8, 0x04,- 0x05, 0x4D, 0x07, 0xA5, 0xD3, 0x2D, 0xFA, 0x0C,- 0xDB, 0x6F, 0xB4, 0x4E, 0xED, 0x50, 0xD2, 0x0E,- 0x5F, 0x22, 0x64, 0x36, 0x11, 0x32, 0xFA, 0x5F,- 0xCF, 0xD6, 0xE1, 0xB3, 0x67, 0xC1, 0xBE, 0x28- },- {- 0x2E, 0xA4, 0x57, 0x38, 0x29, 0x25, 0xE0, 0x3C,- 0xF8, 0x11, 0x10, 0x05, 0x0E, 0x63, 0x6A, 0xD6,- 0x78, 0xE0, 0xAA, 0x3C, 0xBC, 0x69, 0x00, 0xBD,- 0xEF, 0x27, 0x8A, 0xAA, 0x18, 0xF2, 0x35, 0xE2,- 0x51, 0x60, 0xA2, 0x0E, 0x23, 0xFE, 0x0E, 0x62,- 0xA8, 0x51, 0x1B, 0x5D, 0xD0, 0x59, 0x2F, 0x79,- 0xCB, 0xC8, 0xEB, 0x7D, 0xEA, 0x64, 0xAC, 0x86,- 0x67, 0x49, 0x43, 0x45, 0xC6, 0x89, 0x2D, 0xD4- },- {- 0x96, 0xB3, 0x49, 0x8B, 0xCC, 0xD7, 0x8B, 0x5A,- 0x40, 0x1B, 0x27, 0x38, 0x78, 0x7D, 0x28, 0xA9,- 0x8A, 0x0E, 0xDF, 0xDC, 0x7C, 0x0B, 0x5F, 0xF9,- 0x43, 0xCF, 0xE1, 0xB1, 0x4E, 0x9C, 0xF5, 0xD9,- 0xED, 0x43, 0x10, 0x7D, 0xFB, 0xDD, 0x9E, 0x97,- 0x28, 0xD5, 0xFD, 0xD6, 0xF7, 0x1F, 0xBC, 0x77,- 0x0E, 0xAD, 0xDC, 0x4F, 0x2E, 0x40, 0x9A, 0xBE,- 0x71, 0x92, 0x7B, 0xAE, 0x1F, 0x8F, 0x73, 0xD1- },- {- 0xCE, 0x1B, 0xFB, 0x9A, 0xFE, 0xD2, 0x8A, 0xF4,- 0xDC, 0x75, 0x35, 0xAD, 0xEF, 0x71, 0xB8, 0xF1,- 0xB8, 0x0A, 0x8D, 0x72, 0x94, 0xB4, 0x11, 0xFD,- 0x1E, 0xD3, 0x93, 0xCF, 0x23, 0x2D, 0x3A, 0x5C,- 0x5D, 0xF2, 0x3D, 0xBB, 0x1D, 0xB2, 0x6D, 0xDD,- 0xF6, 0xF7, 0x45, 0xF8, 0xBC, 0x24, 0xC3, 0x78,- 0x1F, 0x2D, 0xBB, 0xC8, 0x18, 0xA0, 0x0A, 0xE1,- 0xFB, 0x9D, 0x64, 0x63, 0xE9, 0x5F, 0x29, 0x86- },- {- 0xE6, 0x4D, 0x37, 0x35, 0x6B, 0x29, 0x6B, 0x36,- 0x93, 0x0E, 0xAB, 0xE4, 0x54, 0xDB, 0x11, 0xB2,- 0x09, 0x7B, 0x0C, 0x04, 0x0B, 0xED, 0x57, 0x98,- 0x87, 0x8D, 0x38, 0xA8, 0xC4, 0xD1, 0xC6, 0xF3,- 0x26, 0x1F, 0x36, 0xBF, 0xF7, 0x64, 0xE3, 0xB4,- 0xD6, 0x06, 0xB3, 0x17, 0xE5, 0xFF, 0x50, 0x04,- 0x18, 0x45, 0x92, 0xB0, 0xB7, 0xDD, 0xFB, 0x8C,- 0x2F, 0xD8, 0x35, 0x23, 0x26, 0xCD, 0xDD, 0xB1- },- {- 0x85, 0xE6, 0xFE, 0x54, 0xE1, 0xE7, 0x60, 0x46,- 0xAF, 0x68, 0xF5, 0xC6, 0x04, 0x4C, 0x1E, 0x3F,- 0xFF, 0x3B, 0xFC, 0xA0, 0xBA, 0xEC, 0xAE, 0xF6,- 0xA1, 0xDF, 0x90, 0x35, 0x0D, 0xF2, 0xB0, 0xBE,- 0xC6, 0xA4, 0x20, 0xEE, 0x8F, 0x49, 0xAD, 0x44,- 0x64, 0xEC, 0x4C, 0x1E, 0x7D, 0x71, 0xF6, 0x67,- 0x61, 0x4A, 0xCE, 0xBD, 0xAD, 0xA3, 0xDF, 0x32,- 0x07, 0x79, 0x07, 0x83, 0x23, 0xF6, 0xA8, 0xAF- },- {- 0xB1, 0x2F, 0xF1, 0xEB, 0x3B, 0xAB, 0x32, 0x0D,- 0x78, 0x55, 0xB5, 0x49, 0xD7, 0x2B, 0x72, 0x47,- 0x59, 0x91, 0x68, 0x11, 0xCB, 0xCF, 0x3E, 0x1A,- 0x12, 0x82, 0x3F, 0x98, 0xB6, 0x4A, 0xB5, 0xC4,- 0x59, 0x41, 0x61, 0x0F, 0x6B, 0x47, 0x1E, 0x35,- 0xFF, 0x79, 0x28, 0x29, 0xDD, 0x5A, 0xDE, 0x51,- 0x79, 0x12, 0x57, 0x38, 0xF3, 0xF2, 0x37, 0x28,- 0x63, 0x0F, 0x1E, 0xEC, 0x57, 0x77, 0x5A, 0x19- },- {- 0xB4, 0xDB, 0xE7, 0x2A, 0x1E, 0x21, 0x69, 0x7A,- 0x47, 0x44, 0xBE, 0x65, 0x00, 0x0C, 0xB1, 0xBA,- 0xD3, 0x7C, 0xE2, 0x14, 0x16, 0xEE, 0x6F, 0xCE,- 0xA8, 0x4E, 0xBA, 0xF1, 0x2A, 0x59, 0xC1, 0x1D,- 0x7C, 0x08, 0x0D, 0xF9, 0x2F, 0xB2, 0xAA, 0x8F,- 0x1C, 0x4E, 0xE8, 0xE2, 0xA2, 0x2D, 0x30, 0xBE,- 0x49, 0x85, 0x82, 0xD7, 0xC5, 0xFB, 0xBA, 0x16,- 0x5A, 0x47, 0x26, 0x89, 0xAF, 0xF6, 0x01, 0xB6- },- {- 0x34, 0x82, 0x18, 0xBE, 0x4D, 0xE0, 0x8D, 0xFB,- 0x24, 0x5B, 0xF2, 0x52, 0x86, 0xE3, 0x66, 0x18,- 0x63, 0x1D, 0x3B, 0xDB, 0x58, 0x27, 0xD9, 0xF7,- 0x4F, 0xA0, 0x43, 0x01, 0x66, 0x11, 0x31, 0xA4,- 0xD5, 0x5C, 0x76, 0x09, 0xB1, 0xA6, 0xA0, 0x3B,- 0x85, 0x3F, 0x07, 0x33, 0xE0, 0xAE, 0xC0, 0x26,- 0x16, 0xA0, 0xA4, 0x0E, 0x84, 0x91, 0xF4, 0x94,- 0xD7, 0x6C, 0x15, 0x43, 0xCF, 0xC6, 0x82, 0x14- },- {- 0x42, 0x87, 0xE1, 0x9B, 0xAB, 0x1D, 0x4F, 0x75,- 0xE1, 0xD1, 0x97, 0xCB, 0xB4, 0x3F, 0x11, 0x33,- 0x13, 0x07, 0xF2, 0xF7, 0x5B, 0x8D, 0x0D, 0x50,- 0x27, 0x8E, 0xEC, 0x54, 0x09, 0x99, 0xA0, 0x09,- 0xC0, 0x33, 0x73, 0x52, 0x96, 0x07, 0xFD, 0xA6,- 0x05, 0xAA, 0x0F, 0x07, 0x39, 0xE2, 0x0B, 0xD1,- 0xFD, 0xAA, 0x27, 0xD7, 0xC0, 0xCD, 0xC8, 0x28,- 0x4D, 0x98, 0xE6, 0xC7, 0x55, 0xA7, 0x56, 0x2E- },- {- 0x08, 0x56, 0x0C, 0x99, 0x88, 0xC8, 0xCE, 0x5A,- 0x88, 0x76, 0xA6, 0x00, 0xB6, 0xE5, 0x12, 0xB4,- 0xE2, 0x43, 0xA4, 0xA4, 0x30, 0x0A, 0xD5, 0xAB,- 0x2F, 0xF0, 0x63, 0x7C, 0xC5, 0x6A, 0x04, 0x41,- 0x64, 0x5B, 0x3D, 0xEB, 0x16, 0x84, 0x06, 0x4E,- 0xA4, 0x3B, 0xAE, 0x1C, 0xB6, 0x2D, 0x3B, 0xC4,- 0x15, 0x37, 0xFE, 0x8D, 0x7D, 0xEC, 0xA7, 0x17,- 0x29, 0x37, 0x77, 0x6B, 0xBE, 0xD7, 0x93, 0xA9- },- {- 0xB5, 0x36, 0x16, 0x23, 0x94, 0x77, 0x6F, 0xA7,- 0xDD, 0x5E, 0x9F, 0xDD, 0x01, 0x53, 0x0F, 0xDA,- 0x52, 0xBE, 0x1D, 0x39, 0xBD, 0x60, 0x9B, 0x3F,- 0x3B, 0xD0, 0x47, 0x6B, 0x81, 0x60, 0xAA, 0x18,- 0xAB, 0x2D, 0x37, 0xD2, 0x99, 0x16, 0x28, 0xBE,- 0x2F, 0xCC, 0x12, 0x56, 0xCD, 0x48, 0x55, 0x25,- 0xD1, 0xFA, 0x35, 0x6B, 0x04, 0xD3, 0x0E, 0x4A,- 0x0F, 0x9F, 0xFF, 0xC9, 0x93, 0x5C, 0xF4, 0x32- },- {- 0x02, 0xAB, 0xC9, 0x71, 0x75, 0xED, 0xB4, 0x7A,- 0x4C, 0xB4, 0xBD, 0x38, 0xD8, 0x2F, 0x86, 0xAA,- 0x09, 0x9C, 0x8B, 0x8F, 0xA8, 0xAB, 0x3F, 0xE1,- 0xCE, 0x10, 0x5A, 0x22, 0xBD, 0x61, 0x65, 0x78,- 0xC6, 0xDD, 0x15, 0x15, 0xDF, 0xB0, 0x39, 0x7E,- 0x1D, 0x9D, 0x06, 0x71, 0x91, 0x6D, 0xE4, 0xB5,- 0x22, 0xE7, 0x4E, 0x63, 0x75, 0x23, 0x68, 0x93,- 0xC8, 0xFD, 0xA6, 0xD2, 0x36, 0xBC, 0x8D, 0xA1- },- {- 0x21, 0xE1, 0xEB, 0x73, 0x12, 0x76, 0xA8, 0x35,- 0xA6, 0xDD, 0xEA, 0x71, 0x78, 0xB2, 0x3E, 0xBC,- 0x9A, 0xEC, 0xAA, 0xBC, 0x7C, 0xCD, 0x70, 0x65,- 0x87, 0xD7, 0x1B, 0x85, 0x44, 0x97, 0x93, 0xB0,- 0x7E, 0x7B, 0x17, 0x9A, 0x3D, 0xA7, 0xA5, 0x71,- 0x98, 0x29, 0x97, 0xE8, 0xF5, 0xA6, 0x7F, 0x8C,- 0x93, 0xDA, 0xF1, 0x1A, 0xAA, 0x23, 0xF0, 0x7E,- 0x4D, 0xF7, 0xA1, 0x31, 0x05, 0xA5, 0x42, 0x09- },- {- 0x1C, 0xC5, 0x37, 0xD3, 0xE5, 0x0E, 0xD9, 0xFD,- 0xCD, 0xC4, 0xF3, 0xCC, 0xB4, 0x81, 0x93, 0x75,- 0x41, 0x53, 0x04, 0xD8, 0xE5, 0xA6, 0xC0, 0x58,- 0x05, 0xB6, 0xB5, 0xD9, 0xE1, 0xFC, 0x18, 0x25,- 0x68, 0x64, 0xF1, 0x0C, 0xD8, 0x12, 0xF8, 0x48,- 0x01, 0xB8, 0x61, 0x6A, 0x92, 0xB4, 0x07, 0x95,- 0xA1, 0x55, 0x93, 0x24, 0x64, 0xF6, 0x2D, 0xBF,- 0x6E, 0xBD, 0x2F, 0x9A, 0xC3, 0xEE, 0x28, 0x16- },- {- 0x6F, 0x6C, 0xD2, 0x60, 0x05, 0xC8, 0xA5, 0x61,- 0xCF, 0xF5, 0x1E, 0x30, 0x1D, 0x1A, 0x06, 0x8F,- 0xC2, 0x8B, 0x9B, 0x65, 0x0D, 0xDD, 0x27, 0xAE,- 0x97, 0xB5, 0x22, 0xDA, 0xE9, 0x63, 0x91, 0x34,- 0xD5, 0xA1, 0x50, 0x58, 0x7B, 0x0A, 0x90, 0x1F,- 0x3B, 0x9A, 0xAB, 0xC7, 0xE3, 0x97, 0x84, 0x98,- 0x4C, 0xC5, 0x85, 0x23, 0x5D, 0x8E, 0x17, 0xCE,- 0x9E, 0x3B, 0x42, 0x10, 0x5B, 0xF9, 0x03, 0x4C- },- {- 0x69, 0xC1, 0x7C, 0x28, 0x64, 0xC3, 0x37, 0x9F,- 0xAF, 0xB7, 0x14, 0xC0, 0x47, 0x5E, 0x00, 0xCF,- 0x7C, 0x9B, 0x37, 0x7D, 0x57, 0xA8, 0xBC, 0x96,- 0x98, 0xB4, 0xD3, 0x4A, 0x54, 0x85, 0x41, 0x76,- 0xA2, 0xF8, 0xD1, 0x5A, 0xFB, 0x54, 0x77, 0x56,- 0x04, 0x78, 0x73, 0x90, 0xD6, 0x00, 0x74, 0xCD,- 0x4B, 0xCA, 0x69, 0x02, 0xEA, 0x23, 0xD3, 0xAE,- 0x1A, 0xC0, 0x83, 0x40, 0x9F, 0xE3, 0x8A, 0x4D- },- {- 0x86, 0x69, 0xB0, 0xAD, 0x35, 0x82, 0x9E, 0xDC,- 0x2A, 0x8A, 0x09, 0x85, 0x2B, 0x0E, 0xE9, 0xB3,- 0x90, 0x3B, 0xF6, 0xC1, 0xF8, 0x2F, 0x90, 0xA3,- 0xF0, 0xED, 0x95, 0x24, 0x19, 0x2F, 0x10, 0x91,- 0xFD, 0x64, 0x84, 0xE0, 0x4C, 0x3F, 0xEA, 0x8B,- 0x02, 0x2F, 0x4A, 0x89, 0x50, 0xDB, 0x17, 0xD4,- 0x73, 0x41, 0x45, 0xC0, 0xCE, 0xC5, 0xDC, 0x38,- 0x74, 0x55, 0xC1, 0x26, 0x90, 0x3F, 0x77, 0x66- },- {- 0x3F, 0x35, 0xC4, 0x5D, 0x24, 0xFC, 0xFB, 0x4A,- 0xCC, 0xA6, 0x51, 0x07, 0x6C, 0x08, 0x00, 0x0E,- 0x27, 0x9E, 0xBB, 0xFF, 0x37, 0xA1, 0x33, 0x3C,- 0xE1, 0x9F, 0xD5, 0x77, 0x20, 0x2D, 0xBD, 0x24,- 0xB5, 0x8C, 0x51, 0x4E, 0x36, 0xDD, 0x9B, 0xA6,- 0x4A, 0xF4, 0xD7, 0x8E, 0xEA, 0x4E, 0x2D, 0xD1,- 0x3B, 0xC1, 0x8D, 0x79, 0x88, 0x87, 0xDD, 0x97,- 0x13, 0x76, 0xBC, 0xAE, 0x00, 0x87, 0xE1, 0x7E- },-};-----static const uint8_t blake2bp_keyed_kat[KAT_LENGTH][BLAKE2B_OUTBYTES] =-{- {- 0x9D, 0x94, 0x61, 0x07, 0x3E, 0x4E, 0xB6, 0x40,- 0xA2, 0x55, 0x35, 0x7B, 0x83, 0x9F, 0x39, 0x4B,- 0x83, 0x8C, 0x6F, 0xF5, 0x7C, 0x9B, 0x68, 0x6A,- 0x3F, 0x76, 0x10, 0x7C, 0x10, 0x66, 0x72, 0x8F,- 0x3C, 0x99, 0x56, 0xBD, 0x78, 0x5C, 0xBC, 0x3B,- 0xF7, 0x9D, 0xC2, 0xAB, 0x57, 0x8C, 0x5A, 0x0C,- 0x06, 0x3B, 0x9D, 0x9C, 0x40, 0x58, 0x48, 0xDE,- 0x1D, 0xBE, 0x82, 0x1C, 0xD0, 0x5C, 0x94, 0x0A- },- {- 0xFF, 0x8E, 0x90, 0xA3, 0x7B, 0x94, 0x62, 0x39,- 0x32, 0xC5, 0x9F, 0x75, 0x59, 0xF2, 0x60, 0x35,- 0x02, 0x9C, 0x37, 0x67, 0x32, 0xCB, 0x14, 0xD4,- 0x16, 0x02, 0x00, 0x1C, 0xBB, 0x73, 0xAD, 0xB7,- 0x92, 0x93, 0xA2, 0xDB, 0xDA, 0x5F, 0x60, 0x70,- 0x30, 0x25, 0x14, 0x4D, 0x15, 0x8E, 0x27, 0x35,- 0x52, 0x95, 0x96, 0x25, 0x1C, 0x73, 0xC0, 0x34,- 0x5C, 0xA6, 0xFC, 0xCB, 0x1F, 0xB1, 0xE9, 0x7E- },- {- 0xD6, 0x22, 0x0C, 0xA1, 0x95, 0xA0, 0xF3, 0x56,- 0xA4, 0x79, 0x5E, 0x07, 0x1C, 0xEE, 0x1F, 0x54,- 0x12, 0xEC, 0xD9, 0x5D, 0x8A, 0x5E, 0x01, 0xD7,- 0xC2, 0xB8, 0x67, 0x50, 0xCA, 0x53, 0xD7, 0xF6,- 0x4C, 0x29, 0xCB, 0xB3, 0xD2, 0x89, 0xC6, 0xF4,- 0xEC, 0xC6, 0xC0, 0x1E, 0x3C, 0xA9, 0x33, 0x89,- 0x71, 0x17, 0x03, 0x88, 0xE3, 0xE4, 0x02, 0x28,- 0x47, 0x90, 0x06, 0xD1, 0xBB, 0xEB, 0xAD, 0x51- },- {- 0x30, 0x30, 0x2C, 0x3F, 0xC9, 0x99, 0x06, 0x5D,- 0x10, 0xDC, 0x98, 0x2C, 0x8F, 0xEE, 0xF4, 0x1B,- 0xBB, 0x66, 0x42, 0x71, 0x8F, 0x62, 0x4A, 0xF6,- 0xE3, 0xEA, 0xBE, 0xA0, 0x83, 0xE7, 0xFE, 0x78,- 0x53, 0x40, 0xDB, 0x4B, 0x08, 0x97, 0xEF, 0xFF,- 0x39, 0xCE, 0xE1, 0xDC, 0x1E, 0xB7, 0x37, 0xCD,- 0x1E, 0xEA, 0x0F, 0xE7, 0x53, 0x84, 0x98, 0x4E,- 0x7D, 0x8F, 0x44, 0x6F, 0xAA, 0x68, 0x3B, 0x80- },- {- 0x32, 0xF3, 0x98, 0xA6, 0x0C, 0x1E, 0x53, 0xF1,- 0xF8, 0x1D, 0x6D, 0x8D, 0xA2, 0xEC, 0x11, 0x75,- 0x42, 0x2D, 0x6B, 0x2C, 0xFA, 0x0C, 0x0E, 0x66,- 0xD8, 0xC4, 0xE7, 0x30, 0xB2, 0x96, 0xA4, 0xB5,- 0x3E, 0x39, 0x2E, 0x39, 0x85, 0x98, 0x22, 0xA1,- 0x45, 0xAE, 0x5F, 0x1A, 0x24, 0xC2, 0x7F, 0x55,- 0x33, 0x9E, 0x2B, 0x4B, 0x44, 0x58, 0xE8, 0xC5,- 0xEB, 0x19, 0xAA, 0x14, 0x20, 0x64, 0x27, 0xAA- },- {- 0x23, 0x6D, 0xB9, 0x33, 0xF1, 0x8A, 0x9D, 0xBD,- 0x4E, 0x50, 0xB7, 0x29, 0x53, 0x90, 0x65, 0xBD,- 0xA4, 0x20, 0xDF, 0x97, 0xAC, 0x78, 0x0B, 0xE4,- 0x3F, 0x59, 0x10, 0x3C, 0x47, 0x2E, 0x0B, 0xCC,- 0xA6, 0xD4, 0x97, 0x38, 0x97, 0x86, 0xAF, 0x22,- 0xBA, 0x94, 0x30, 0xB7, 0x4D, 0x6F, 0x74, 0xB1,- 0x3F, 0x6F, 0x94, 0x9E, 0x25, 0x6A, 0x14, 0x0A,- 0xA3, 0x4B, 0x47, 0x70, 0x0B, 0x10, 0x03, 0x43- },- {- 0x23, 0x8C, 0x9D, 0x08, 0x02, 0x85, 0xE3, 0x54,- 0x35, 0xCB, 0x53, 0x15, 0x5D, 0x9F, 0x79, 0x2C,- 0xA1, 0xBB, 0x27, 0xDE, 0x4F, 0x9B, 0x6C, 0x87,- 0x26, 0xE1, 0x1C, 0x02, 0x8E, 0x7B, 0x87, 0x87,- 0x33, 0x54, 0x91, 0x12, 0xA3, 0x28, 0xB5, 0x0E,- 0x8C, 0xD8, 0xBA, 0x27, 0x87, 0x21, 0x7E, 0x46,- 0xB8, 0x16, 0x8D, 0x57, 0x11, 0x3D, 0xD4, 0x04,- 0xD9, 0x14, 0xE2, 0x9A, 0x6A, 0x54, 0x70, 0xE6- },- {- 0x9A, 0x02, 0x1E, 0xBD, 0x50, 0x4A, 0x97, 0x59,- 0x6D, 0x0E, 0x85, 0x04, 0x8A, 0xE1, 0xDA, 0x89,- 0x99, 0xE3, 0xA0, 0x47, 0x01, 0x6F, 0x17, 0xC6,- 0xC5, 0x55, 0x6C, 0x27, 0x31, 0xE9, 0xB1, 0x39,- 0x26, 0x1F, 0x84, 0x3F, 0xAD, 0x6B, 0xD4, 0x3F,- 0x7C, 0x7C, 0x58, 0x7F, 0x69, 0x8D, 0x69, 0xB6,- 0x82, 0xE5, 0x68, 0xB4, 0x42, 0xAC, 0x45, 0x88,- 0x98, 0x57, 0xB7, 0x69, 0x07, 0x34, 0xCD, 0xBB- },- {- 0x3A, 0xBA, 0x07, 0xAE, 0x98, 0x0E, 0x33, 0x86,- 0x37, 0x47, 0x9D, 0xCA, 0x1E, 0x35, 0x28, 0x00,- 0xF4, 0x58, 0x8E, 0x62, 0xD8, 0x23, 0x36, 0x5A,- 0xA6, 0x9C, 0x5B, 0x25, 0xFC, 0xE1, 0x29, 0x68,- 0xD2, 0x6C, 0x9B, 0xDB, 0xEE, 0x9A, 0x32, 0xBF,- 0xFD, 0x42, 0xE6, 0xB2, 0x2C, 0x81, 0x38, 0xA6,- 0x1C, 0x1F, 0xCE, 0x49, 0xFF, 0xBC, 0x19, 0x0E,- 0x1E, 0x15, 0x16, 0x01, 0x53, 0xCC, 0xB6, 0xB4- },- {- 0x77, 0x4C, 0xDF, 0x9A, 0xBB, 0x50, 0x81, 0xFE,- 0x07, 0xEB, 0x57, 0x25, 0xE6, 0x06, 0x9B, 0x8D,- 0x6C, 0x7E, 0x60, 0x04, 0xA2, 0x4D, 0x70, 0xF7,- 0xDF, 0xAB, 0xFC, 0x03, 0x82, 0x5B, 0xBC, 0x3B,- 0x30, 0xE6, 0x20, 0xB6, 0x04, 0x1F, 0x3C, 0xC2,- 0x89, 0x6B, 0x14, 0xAB, 0x66, 0x0A, 0xF7, 0x2E,- 0x24, 0x95, 0x10, 0xAC, 0x2F, 0xE8, 0x10, 0xCC,- 0x77, 0x63, 0xA2, 0xE5, 0xC3, 0xFC, 0xA7, 0xFC- },- {- 0x9E, 0x08, 0x9F, 0x51, 0x65, 0x7B, 0x29, 0xC2,- 0x66, 0x8E, 0x28, 0x50, 0x52, 0x4E, 0x53, 0xAE,- 0xAA, 0xA7, 0x30, 0x6F, 0x2A, 0xD5, 0xA2, 0x32,- 0xB5, 0xF0, 0x7F, 0x68, 0x8D, 0x8A, 0xB2, 0xB4,- 0x25, 0xDF, 0x7E, 0xA5, 0xBD, 0x3E, 0x9F, 0xFD,- 0x61, 0x68, 0x38, 0x90, 0x15, 0x1D, 0x78, 0xBB,- 0x94, 0x03, 0x11, 0x85, 0xAC, 0xA4, 0x81, 0xE2,- 0x14, 0x0F, 0xE3, 0x79, 0x85, 0x36, 0x76, 0x43- },- {- 0xB3, 0x5B, 0xD5, 0x4E, 0x4F, 0x81, 0x69, 0x6B,- 0x4F, 0x22, 0x31, 0x6A, 0x1E, 0x33, 0x7D, 0x98,- 0xD1, 0xC6, 0xB0, 0x61, 0x10, 0x99, 0x87, 0x63,- 0xB5, 0x91, 0x33, 0x35, 0x92, 0x3A, 0x40, 0x76,- 0xCB, 0x80, 0xD6, 0xD8, 0xA5, 0x18, 0x62, 0x91,- 0x13, 0x47, 0x7B, 0x30, 0xA1, 0x32, 0xA6, 0xB2,- 0x7F, 0xC1, 0xEE, 0x79, 0xF6, 0xB2, 0xE0, 0xD3,- 0x5D, 0x5B, 0xC2, 0x97, 0x27, 0x46, 0x3D, 0xB5- },- {- 0x12, 0x39, 0x30, 0xD5, 0xA4, 0xB7, 0x3B, 0x49,- 0x1F, 0x50, 0xE5, 0x6E, 0x2B, 0x73, 0x97, 0xA4,- 0x3D, 0x2E, 0x47, 0x87, 0x23, 0x76, 0x02, 0xB6,- 0x6F, 0xE0, 0xA8, 0x47, 0xBD, 0x13, 0xCB, 0xE8,- 0xB3, 0x7D, 0xC7, 0x03, 0xD7, 0xB2, 0xB4, 0xEA,- 0xA8, 0xBF, 0xB9, 0xA5, 0x8A, 0x7D, 0x71, 0x9C,- 0x90, 0x8F, 0x19, 0x66, 0xA2, 0xF1, 0x9F, 0xE6,- 0xEB, 0x1A, 0x78, 0x96, 0x2A, 0xFA, 0x5B, 0xF9- },- {- 0x08, 0x9C, 0xBC, 0x7E, 0xE1, 0xB1, 0x2C, 0x0C,- 0xC9, 0xC8, 0x3F, 0xF6, 0x66, 0xFE, 0xC8, 0x02,- 0x6B, 0xB7, 0x1B, 0x90, 0x84, 0x97, 0x9B, 0x0E,- 0xA8, 0xB7, 0x23, 0xBB, 0xBE, 0x8B, 0x00, 0xD4,- 0x10, 0x08, 0xB6, 0x04, 0x99, 0xF2, 0x4F, 0x24,- 0x1B, 0x63, 0x28, 0x1F, 0xE5, 0xB4, 0xD8, 0x89,- 0x66, 0x30, 0x9C, 0x0D, 0x7E, 0x64, 0x66, 0x91,- 0x05, 0xE5, 0x1E, 0x69, 0xD7, 0xAF, 0x8C, 0xE5- },- {- 0x6B, 0x3C, 0x67, 0x89, 0x47, 0xF6, 0x12, 0x52,- 0x65, 0x7C, 0x35, 0x49, 0x78, 0xC1, 0x01, 0xB2,- 0xFD, 0xD2, 0x72, 0x9E, 0xC3, 0x49, 0x27, 0xDD,- 0x5E, 0xFF, 0x0A, 0x7C, 0x0A, 0x86, 0x58, 0x26,- 0xE8, 0x33, 0xC3, 0x63, 0x23, 0x21, 0x31, 0xB1,- 0x05, 0x93, 0xBE, 0x1C, 0xCF, 0x6B, 0xA5, 0x4E,- 0xCC, 0x14, 0x31, 0x2F, 0x45, 0xBF, 0xFC, 0x24,- 0x04, 0x62, 0x9F, 0xF8, 0x02, 0x67, 0xF0, 0x94- },- {- 0xAA, 0x0C, 0x23, 0xEA, 0x1C, 0x6F, 0xE2, 0xE9,- 0x0A, 0x77, 0x18, 0xEF, 0x4A, 0xA4, 0x75, 0x1F,- 0xF6, 0xBE, 0xB9, 0xD4, 0x61, 0x63, 0x59, 0x5B,- 0x5D, 0x4F, 0xB8, 0x96, 0x00, 0x52, 0x5C, 0x5B,- 0x6C, 0xF1, 0x9E, 0xCD, 0xB2, 0x47, 0x78, 0x72,- 0xA7, 0xA1, 0x2D, 0x40, 0xE5, 0x06, 0x36, 0x08,- 0xE5, 0xF0, 0x00, 0x8E, 0x79, 0x72, 0xA9, 0xC0,- 0x1A, 0x4B, 0xE2, 0xAF, 0xE9, 0x53, 0x2F, 0x9C- },- {- 0x63, 0x34, 0x7A, 0xB4, 0xCB, 0xB6, 0xF2, 0x89,- 0x52, 0x99, 0x2C, 0x07, 0x9D, 0x18, 0xD4, 0x20,- 0x01, 0xB7, 0xF3, 0xA9, 0xD0, 0xFD, 0x90, 0xB0,- 0xA4, 0x77, 0x1F, 0x69, 0x72, 0xF0, 0xC5, 0x32,- 0x89, 0xC8, 0xAE, 0xE1, 0x43, 0x29, 0x4B, 0x50,- 0xC6, 0x34, 0x12, 0x58, 0x5C, 0xDC, 0xE4, 0xFF,- 0x7B, 0xED, 0x11, 0x2C, 0xD0, 0x3C, 0x9B, 0x1D,- 0xF3, 0xDE, 0xF0, 0xCC, 0x32, 0x0D, 0x6B, 0x70- },- {- 0x23, 0x96, 0xC0, 0xCB, 0x9E, 0xDA, 0xAC, 0xA9,- 0xD8, 0xB1, 0x04, 0x65, 0x2C, 0xB7, 0xF1, 0x25,- 0xF1, 0x93, 0x55, 0x1A, 0xE5, 0xD7, 0xBC, 0x94,- 0x63, 0x30, 0x7C, 0x9E, 0x69, 0xCA, 0x7D, 0xA2,- 0x3A, 0x9F, 0xBC, 0xBC, 0xB8, 0x66, 0x69, 0xD5,- 0xBA, 0x63, 0x43, 0x85, 0x93, 0xE1, 0x32, 0xF9,- 0x92, 0xB5, 0x7C, 0x00, 0x17, 0xC8, 0x6D, 0xDB,- 0x9B, 0x47, 0x28, 0x6E, 0xF5, 0xB6, 0x87, 0x18- },- {- 0xA9, 0x4B, 0x80, 0x22, 0x57, 0xFD, 0x03, 0x1E,- 0xE6, 0x0F, 0x1B, 0xE1, 0x84, 0x38, 0x3A, 0x76,- 0x32, 0x85, 0x39, 0xF9, 0xD8, 0x06, 0x08, 0x72,- 0xEF, 0x35, 0x73, 0xBE, 0xB6, 0xF2, 0x73, 0x68,- 0x08, 0x95, 0x90, 0xED, 0xBB, 0x21, 0xF4, 0xD8,- 0xF1, 0x81, 0xBA, 0x66, 0x20, 0x75, 0xF9, 0x19,- 0x05, 0x97, 0x4B, 0xEE, 0xEF, 0x1F, 0xC5, 0xCB,- 0x9B, 0xCF, 0xB2, 0x8A, 0xAE, 0x1E, 0x4D, 0xE3- },- {- 0x52, 0xC7, 0xD3, 0x39, 0x9A, 0x03, 0x80, 0x04,- 0xBE, 0xA5, 0x2D, 0x3E, 0xA9, 0xE9, 0x1E, 0x25,- 0x44, 0xC8, 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cbits/blake2/ref/blake2.h view
@@ -1,22 +1,29 @@ /* BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2_H__-#define __BLAKE2_H__+#ifndef BLAKE2_H+#define BLAKE2_H #include <stddef.h> #include <stdint.h> +#if defined(_MSC_VER)+#define BLAKE2_PACKED(x) __pragma(pack(push, 1)) x __pragma(pack(pop))+#else+#define BLAKE2_PACKED(x) x __attribute__((packed))+#endif+ #if defined(__cplusplus) extern "C" { #endif@@ -39,112 +46,150 @@ BLAKE2B_PERSONALBYTES = 16 }; -#pragma pack(push, 1)- typedef struct __blake2s_param- {- uint8_t digest_length; // 1- uint8_t key_length; // 2- uint8_t fanout; // 3- uint8_t depth; // 4- uint32_t leaf_length; // 8- uint8_t node_offset[6];// 14- uint8_t node_depth; // 15- uint8_t inner_length; // 16- // uint8_t reserved[0];- uint8_t salt[BLAKE2S_SALTBYTES]; // 24- uint8_t personal[BLAKE2S_PERSONALBYTES]; // 32- } blake2s_param;-- typedef struct __blake2s_state+ typedef struct blake2s_state__ { uint32_t h[8]; uint32_t t[2]; uint32_t f[2];- uint8_t buf[2 * BLAKE2S_BLOCKBYTES];+ uint8_t buf[BLAKE2S_BLOCKBYTES]; size_t buflen;+ size_t outlen; uint8_t last_node; } blake2s_state; - typedef struct __blake2b_param- {- uint8_t digest_length; // 1- uint8_t key_length; // 2- uint8_t fanout; // 3- uint8_t depth; // 4- uint32_t leaf_length; // 8- uint64_t node_offset; // 16- uint8_t node_depth; // 17- uint8_t inner_length; // 18- uint8_t reserved[14]; // 32- uint8_t salt[BLAKE2B_SALTBYTES]; // 48- uint8_t personal[BLAKE2B_PERSONALBYTES]; // 64- } blake2b_param;-- typedef struct __blake2b_state+ typedef struct blake2b_state__ { uint64_t h[8]; uint64_t t[2]; uint64_t f[2];- uint8_t buf[2 * BLAKE2B_BLOCKBYTES];+ uint8_t buf[BLAKE2B_BLOCKBYTES]; size_t buflen;+ size_t outlen; uint8_t last_node; } blake2b_state; - typedef struct __blake2sp_state+ typedef struct blake2sp_state__ { blake2s_state S[8][1]; blake2s_state R[1];- uint8_t buf[8 * BLAKE2S_BLOCKBYTES];- size_t buflen;+ uint8_t buf[8 * BLAKE2S_BLOCKBYTES];+ size_t buflen;+ size_t outlen; } blake2sp_state; - typedef struct __blake2bp_state+ typedef struct blake2bp_state__ { blake2b_state S[4][1]; blake2b_state R[1];- uint8_t buf[4 * BLAKE2B_BLOCKBYTES];- size_t buflen;+ uint8_t buf[4 * BLAKE2B_BLOCKBYTES];+ size_t buflen;+ size_t outlen; } blake2bp_state;-#pragma pack(pop) - // Streaming API- int blake2s_init( blake2s_state *S, const uint8_t outlen );- int blake2s_init_key( blake2s_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2s_init_param( blake2s_state *S, const blake2s_param *P );- int blake2s_update( blake2s_state *S, const uint8_t *in, uint64_t inlen );- int blake2s_final( blake2s_state *S, uint8_t *out, uint8_t outlen ); - int blake2b_init( blake2b_state *S, const uint8_t outlen );- int blake2b_init_key( blake2b_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2b_init_param( blake2b_state *S, const blake2b_param *P );- int blake2b_update( blake2b_state *S, const uint8_t *in, uint64_t inlen );- int blake2b_final( blake2b_state *S, uint8_t *out, uint8_t outlen );+ BLAKE2_PACKED(struct blake2s_param__+ {+ uint8_t digest_length; /* 1 */+ uint8_t key_length; /* 2 */+ uint8_t fanout; /* 3 */+ uint8_t depth; /* 4 */+ uint32_t leaf_length; /* 8 */+ uint32_t node_offset; /* 12 */+ uint16_t xof_length; /* 14 */+ uint8_t node_depth; /* 15 */+ uint8_t inner_length; /* 16 */+ /* uint8_t reserved[0]; */+ uint8_t salt[BLAKE2S_SALTBYTES]; /* 24 */+ uint8_t personal[BLAKE2S_PERSONALBYTES]; /* 32 */+ }); - int blake2sp_init( blake2sp_state *S, const uint8_t outlen );- int blake2sp_init_key( blake2sp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2sp_update( blake2sp_state *S, const uint8_t *in, uint64_t inlen );- int blake2sp_final( blake2sp_state *S, uint8_t *out, uint8_t outlen );+ typedef struct blake2s_param__ blake2s_param; - int blake2bp_init( blake2bp_state *S, const uint8_t outlen );- int blake2bp_init_key( blake2bp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2bp_update( blake2bp_state *S, const uint8_t *in, uint64_t inlen );- int blake2bp_final( blake2bp_state *S, uint8_t *out, uint8_t outlen );+ BLAKE2_PACKED(struct blake2b_param__+ {+ uint8_t digest_length; /* 1 */+ uint8_t key_length; /* 2 */+ uint8_t fanout; /* 3 */+ uint8_t depth; /* 4 */+ uint32_t leaf_length; /* 8 */+ uint32_t node_offset; /* 12 */+ uint32_t xof_length; /* 16 */+ uint8_t node_depth; /* 17 */+ uint8_t inner_length; /* 18 */+ uint8_t reserved[14]; /* 32 */+ uint8_t salt[BLAKE2B_SALTBYTES]; /* 48 */+ uint8_t personal[BLAKE2B_PERSONALBYTES]; /* 64 */+ }); - // Simple API- int blake2s( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );- int blake2b( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );+ typedef struct blake2b_param__ blake2b_param; - int blake2sp( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );- int blake2bp( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );+ typedef struct blake2xs_state__+ {+ blake2s_state S[1];+ blake2s_param P[1];+ } blake2xs_state; - static inline int blake2( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )+ typedef struct blake2xb_state__ {- return blake2b( out, in, key, outlen, inlen, keylen );- }+ blake2b_state S[1];+ blake2b_param P[1];+ } blake2xb_state; + /* Padded structs result in a compile-time error */+ enum {+ BLAKE2_DUMMY_1 = 1/(sizeof(blake2s_param) == BLAKE2S_OUTBYTES),+ BLAKE2_DUMMY_2 = 1/(sizeof(blake2b_param) == BLAKE2B_OUTBYTES)+ };++ /* Streaming API */+ int _cryptonite_blake2s_init( blake2s_state *S, size_t outlen );+ int _cryptonite_blake2s_init_key( blake2s_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2s_init_param( blake2s_state *S, const blake2s_param *P );+ int _cryptonite_blake2s_update( blake2s_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2s_final( blake2s_state *S, void *out, size_t outlen );++ int _cryptonite_blake2b_init( blake2b_state *S, size_t outlen );+ int _cryptonite_blake2b_init_key( blake2b_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2b_init_param( blake2b_state *S, const blake2b_param *P );+ int _cryptonite_blake2b_update( blake2b_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2b_final( blake2b_state *S, void *out, size_t outlen );++ int _cryptonite_blake2sp_init( blake2sp_state *S, size_t outlen );+ int _cryptonite_blake2sp_init_key( blake2sp_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2sp_update( blake2sp_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2sp_final( blake2sp_state *S, void *out, size_t outlen );++ int _cryptonite_blake2bp_init( blake2bp_state *S, size_t outlen );+ int _cryptonite_blake2bp_init_key( blake2bp_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2bp_update( blake2bp_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2bp_final( blake2bp_state *S, void *out, size_t outlen );++ /* Variable output length API */+ int _cryptonite_blake2xs_init( blake2xs_state *S, const size_t outlen );+ int _cryptonite_blake2xs_init_key( blake2xs_state *S, const size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2xs_update( blake2xs_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2xs_final(blake2xs_state *S, void *out, size_t outlen);++ int _cryptonite_blake2xb_init( blake2xb_state *S, const size_t outlen );+ int _cryptonite_blake2xb_init_key( blake2xb_state *S, const size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2xb_update( blake2xb_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2xb_final(blake2xb_state *S, void *out, size_t outlen);++ /* Simple API */+ int _cryptonite_blake2s( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ int _cryptonite_blake2b( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );++ int _cryptonite_blake2sp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ int _cryptonite_blake2bp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );++ int _cryptonite_blake2xs( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ int _cryptonite_blake2xb( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );++ /* This is simply an alias for blake2b */+ int _cryptonite_blake2( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ #if defined(__cplusplus) } #endif #endif-
cbits/blake2/ref/blake2b-ref.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdint.h>@@ -43,145 +45,79 @@ }; -static inline int blake2b_set_lastnode( blake2b_state *S )-{- S->f[1] = -1;- return 0;-}--static inline int blake2b_clear_lastnode( blake2b_state *S )+static void blake2b_set_lastnode( blake2b_state *S ) {- S->f[1] = 0;- return 0;+ S->f[1] = (uint64_t)-1; } /* Some helper functions, not necessarily useful */-static inline int blake2b_set_lastblock( blake2b_state *S )+static int blake2b_is_lastblock( const blake2b_state *S ) {- if( S->last_node ) blake2b_set_lastnode( S );-- S->f[0] = -1;- return 0;+ return S->f[0] != 0; } -static inline int blake2b_clear_lastblock( blake2b_state *S )+static void blake2b_set_lastblock( blake2b_state *S ) {- if( S->last_node ) blake2b_clear_lastnode( S );+ if( S->last_node ) blake2b_set_lastnode( S ); - S->f[0] = 0;- return 0;+ S->f[0] = (uint64_t)-1; } -static inline int blake2b_increment_counter( blake2b_state *S, const uint64_t inc )+static void blake2b_increment_counter( blake2b_state *S, const uint64_t inc ) { S->t[0] += inc; S->t[1] += ( S->t[0] < inc );- return 0; } ---// Parameter-related functions-static inline int blake2b_param_set_digest_length( blake2b_param *P, const uint8_t digest_length )-{- P->digest_length = digest_length;- return 0;-}--static inline int blake2b_param_set_fanout( blake2b_param *P, const uint8_t fanout )-{- P->fanout = fanout;- return 0;-}--static inline int blake2b_param_set_max_depth( blake2b_param *P, const uint8_t depth )-{- P->depth = depth;- return 0;-}--static inline int blake2b_param_set_leaf_length( blake2b_param *P, const uint32_t leaf_length )-{- store32( &P->leaf_length, leaf_length );- return 0;-}--static inline int blake2b_param_set_node_offset( blake2b_param *P, const uint64_t node_offset )-{- store64( &P->node_offset, node_offset );- return 0;-}--static inline int blake2b_param_set_node_depth( blake2b_param *P, const uint8_t node_depth )-{- P->node_depth = node_depth;- return 0;-}--static inline int blake2b_param_set_inner_length( blake2b_param *P, const uint8_t inner_length )-{- P->inner_length = inner_length;- return 0;-}--static inline int blake2b_param_set_salt( blake2b_param *P, const uint8_t salt[BLAKE2B_SALTBYTES] )-{- memcpy( P->salt, salt, BLAKE2B_SALTBYTES );- return 0;-}--static inline int blake2b_param_set_personal( blake2b_param *P, const uint8_t personal[BLAKE2B_PERSONALBYTES] )-{- memcpy( P->personal, personal, BLAKE2B_PERSONALBYTES );- return 0;-}--static inline int blake2b_init0( blake2b_state *S )+static void blake2b_init0( blake2b_state *S ) {+ size_t i; memset( S, 0, sizeof( blake2b_state ) ); - for( int i = 0; i < 8; ++i ) S->h[i] = blake2b_IV[i];-- return 0;+ for( i = 0; i < 8; ++i ) S->h[i] = blake2b_IV[i]; } /* init xors IV with input parameter block */-int blake2b_init_param( blake2b_state *S, const blake2b_param *P )+int _cryptonite_blake2b_init_param( blake2b_state *S, const blake2b_param *P ) {- blake2b_init0( S ); const uint8_t *p = ( const uint8_t * )( P );+ size_t i; + blake2b_init0( S );+ /* IV XOR ParamBlock */- for( size_t i = 0; i < 8; ++i )+ for( i = 0; i < 8; ++i ) S->h[i] ^= load64( p + sizeof( S->h[i] ) * i ); + S->outlen = P->digest_length; return 0; } -int blake2b_init( blake2b_state *S, const uint8_t outlen )+int _cryptonite_blake2b_init( blake2b_state *S, size_t outlen ) { blake2b_param P[1]; if ( ( !outlen ) || ( outlen > BLAKE2B_OUTBYTES ) ) return -1; - P->digest_length = outlen;+ P->digest_length = (uint8_t)outlen; P->key_length = 0; P->fanout = 1; P->depth = 1; store32( &P->leaf_length, 0 );- store64( &P->node_offset, 0 );+ store32( &P->node_offset, 0 );+ store32( &P->xof_length, 0 ); P->node_depth = 0; P->inner_length = 0; memset( P->reserved, 0, sizeof( P->reserved ) ); memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2b_init_param( S, P );+ return _cryptonite_blake2b_init_param( S, P ); } -int blake2b_init_key( blake2b_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2b_init_key( blake2b_state *S, size_t outlen, const void *key, size_t keylen ) { blake2b_param P[1]; @@ -189,63 +125,45 @@ if ( !key || !keylen || keylen > BLAKE2B_KEYBYTES ) return -1; - P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = 1; P->depth = 1; store32( &P->leaf_length, 0 );- store64( &P->node_offset, 0 );+ store32( &P->node_offset, 0 );+ store32( &P->xof_length, 0 ); P->node_depth = 0; P->inner_length = 0; memset( P->reserved, 0, sizeof( P->reserved ) ); memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) ); - if( blake2b_init_param( S, P ) < 0 ) return -1;+ if( _cryptonite_blake2b_init_param( S, P ) < 0 ) return -1; { uint8_t block[BLAKE2B_BLOCKBYTES]; memset( block, 0, BLAKE2B_BLOCKBYTES ); memcpy( block, key, keylen );- blake2b_update( S, block, BLAKE2B_BLOCKBYTES );+ _cryptonite_blake2b_update( S, block, BLAKE2B_BLOCKBYTES ); secure_zero_memory( block, BLAKE2B_BLOCKBYTES ); /* Burn the key from stack */ } return 0; } -static int blake2b_compress( blake2b_state *S, const uint8_t block[BLAKE2B_BLOCKBYTES] )-{- uint64_t m[16];- uint64_t v[16];- int i;-- for( i = 0; i < 16; ++i )- m[i] = load64( block + i * sizeof( m[i] ) );-- for( i = 0; i < 8; ++i )- v[i] = S->h[i];-- v[ 8] = blake2b_IV[0];- v[ 9] = blake2b_IV[1];- v[10] = blake2b_IV[2];- v[11] = blake2b_IV[3];- v[12] = S->t[0] ^ blake2b_IV[4];- v[13] = S->t[1] ^ blake2b_IV[5];- v[14] = S->f[0] ^ blake2b_IV[6];- v[15] = S->f[1] ^ blake2b_IV[7];-#define G(r,i,a,b,c,d) \- do { \+#define G(r,i,a,b,c,d) \+ do { \ a = a + b + m[blake2b_sigma[r][2*i+0]]; \- d = rotr64(d ^ a, 32); \- c = c + d; \- b = rotr64(b ^ c, 24); \+ d = rotr64(d ^ a, 32); \+ c = c + d; \+ b = rotr64(b ^ c, 24); \ a = a + b + m[blake2b_sigma[r][2*i+1]]; \- d = rotr64(d ^ a, 16); \- c = c + d; \- b = rotr64(b ^ c, 63); \+ d = rotr64(d ^ a, 16); \+ c = c + d; \+ b = rotr64(b ^ c, 63); \ } while(0)-#define ROUND(r) \- do { \++#define ROUND(r) \+ do { \ G(r,0,v[ 0],v[ 4],v[ 8],v[12]); \ G(r,1,v[ 1],v[ 5],v[ 9],v[13]); \ G(r,2,v[ 2],v[ 6],v[10],v[14]); \@@ -255,6 +173,30 @@ G(r,6,v[ 2],v[ 7],v[ 8],v[13]); \ G(r,7,v[ 3],v[ 4],v[ 9],v[14]); \ } while(0)++static void blake2b_compress( blake2b_state *S, const uint8_t block[BLAKE2B_BLOCKBYTES] )+{+ uint64_t m[16];+ uint64_t v[16];+ size_t i;++ for( i = 0; i < 16; ++i ) {+ m[i] = load64( block + i * sizeof( m[i] ) );+ }++ for( i = 0; i < 8; ++i ) {+ v[i] = S->h[i];+ }++ v[ 8] = blake2b_IV[0];+ v[ 9] = blake2b_IV[1];+ v[10] = blake2b_IV[2];+ v[11] = blake2b_IV[3];+ v[12] = blake2b_IV[4] ^ S->t[0];+ v[13] = blake2b_IV[5] ^ S->t[1];+ v[14] = blake2b_IV[6] ^ S->f[0];+ v[15] = blake2b_IV[7] ^ S->f[1];+ ROUND( 0 ); ROUND( 1 ); ROUND( 2 );@@ -268,75 +210,67 @@ ROUND( 10 ); ROUND( 11 ); - for( i = 0; i < 8; ++i )+ for( i = 0; i < 8; ++i ) { S->h[i] = S->h[i] ^ v[i] ^ v[i + 8];+ }+} #undef G #undef ROUND- return 0;-} -/* inlen now in bytes */-int blake2b_update( blake2b_state *S, const uint8_t *in, uint64_t inlen )+int _cryptonite_blake2b_update( blake2b_state *S, const void *pin, size_t inlen ) {- while( inlen > 0 )+ const unsigned char * in = (const unsigned char *)pin;+ if( inlen > 0 ) { size_t left = S->buflen;- size_t fill = 2 * BLAKE2B_BLOCKBYTES - left;-+ size_t fill = BLAKE2B_BLOCKBYTES - left; if( inlen > fill ) {- memcpy( S->buf + left, in, fill ); // Fill buffer- S->buflen += fill;+ S->buflen = 0;+ memcpy( S->buf + left, in, fill ); /* Fill buffer */ blake2b_increment_counter( S, BLAKE2B_BLOCKBYTES );- blake2b_compress( S, S->buf ); // Compress- memcpy( S->buf, S->buf + BLAKE2B_BLOCKBYTES, BLAKE2B_BLOCKBYTES ); // Shift buffer left- S->buflen -= BLAKE2B_BLOCKBYTES;- in += fill;- inlen -= fill;- }- else // inlen <= fill- {- memcpy( S->buf + left, in, inlen );- S->buflen += inlen; // Be lazy, do not compress- in += inlen;- inlen -= inlen;+ blake2b_compress( S, S->buf ); /* Compress */+ in += fill; inlen -= fill;+ while(inlen > BLAKE2B_BLOCKBYTES) {+ blake2b_increment_counter(S, BLAKE2B_BLOCKBYTES);+ blake2b_compress( S, in );+ in += BLAKE2B_BLOCKBYTES;+ inlen -= BLAKE2B_BLOCKBYTES;+ } }+ memcpy( S->buf + S->buflen, in, inlen );+ S->buflen += inlen; }- return 0; } -/* Is this correct? */-int blake2b_final( blake2b_state *S, uint8_t *out, uint8_t outlen )+int _cryptonite_blake2b_final( blake2b_state *S, void *out, size_t outlen ) { uint8_t buffer[BLAKE2B_OUTBYTES] = {0};+ size_t i; - if( outlen > BLAKE2B_OUTBYTES )+ if( out == NULL || outlen < S->outlen ) return -1; - if( S->buflen > BLAKE2B_BLOCKBYTES )- {- blake2b_increment_counter( S, BLAKE2B_BLOCKBYTES );- blake2b_compress( S, S->buf );- S->buflen -= BLAKE2B_BLOCKBYTES;- memcpy( S->buf, S->buf + BLAKE2B_BLOCKBYTES, S->buflen );- }+ if( blake2b_is_lastblock( S ) )+ return -1; blake2b_increment_counter( S, S->buflen ); blake2b_set_lastblock( S );- memset( S->buf + S->buflen, 0, 2 * BLAKE2B_BLOCKBYTES - S->buflen ); /* Padding */+ memset( S->buf + S->buflen, 0, BLAKE2B_BLOCKBYTES - S->buflen ); /* Padding */ blake2b_compress( S, S->buf ); - for( int i = 0; i < 8; ++i ) /* Output full hash to temp buffer */+ for( i = 0; i < 8; ++i ) /* Output full hash to temp buffer */ store64( buffer + sizeof( S->h[i] ) * i, S->h[i] ); - memcpy( out, buffer, outlen );+ memcpy( out, buffer, S->outlen );+ secure_zero_memory(buffer, sizeof(buffer)); return 0; } /* inlen, at least, should be uint64_t. Others can be size_t. */-int blake2b( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )+int _cryptonite_blake2b( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { blake2b_state S[1]; @@ -353,53 +287,93 @@ if( keylen > 0 ) {- if( blake2b_init_key( S, outlen, key, keylen ) < 0 ) return -1;+ if( _cryptonite_blake2b_init_key( S, outlen, key, keylen ) < 0 ) return -1; } else {- if( blake2b_init( S, outlen ) < 0 ) return -1;+ if( _cryptonite_blake2b_init( S, outlen ) < 0 ) return -1; } - blake2b_update( S, ( const uint8_t * )in, inlen );- blake2b_final( S, out, outlen );+ _cryptonite_blake2b_update( S, ( const uint8_t * )in, inlen );+ _cryptonite_blake2b_final( S, out, outlen ); return 0; } +int _cryptonite_blake2( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) {+ return _cryptonite_blake2b(out, outlen, in, inlen, key, keylen);+}+ #if defined(SUPERCOP) int crypto_hash( unsigned char *out, unsigned char *in, unsigned long long inlen ) {- return blake2b( out, in, NULL, BLAKE2B_OUTBYTES, inlen, 0 );+ return _cryptonite_blake2b( out, BLAKE2B_OUTBYTES, in, inlen, NULL, 0 ); } #endif #if defined(BLAKE2B_SELFTEST) #include <string.h> #include "blake2-kat.h"-int main( int argc, char **argv )+int main( void ) { uint8_t key[BLAKE2B_KEYBYTES];- uint8_t buf[KAT_LENGTH];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step; - for( size_t i = 0; i < BLAKE2B_KEYBYTES; ++i )+ for( i = 0; i < BLAKE2B_KEYBYTES; ++i ) key[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) buf[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) { uint8_t hash[BLAKE2B_OUTBYTES];- blake2b( hash, buf, key, BLAKE2B_OUTBYTES, i, BLAKE2B_KEYBYTES );+ _cryptonite_blake2b( hash, BLAKE2B_OUTBYTES, buf, i, key, BLAKE2B_KEYBYTES ); - if( 0 != memcmp( hash, blake2b_keyed_kat[i], BLAKE2B_OUTBYTES ) )+ if( 0 != memcmp( hash, _cryptonite_blake2b_keyed_kat[i], BLAKE2B_OUTBYTES ) ) {- puts( "error" );- return -1;+ goto fail; } } + /* Test streaming API */+ for(step = 1; step < BLAKE2B_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2B_OUTBYTES];+ blake2b_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2b_init_key(&S, BLAKE2B_OUTBYTES, key, BLAKE2B_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2b_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2b_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2b_final(&S, hash, BLAKE2B_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, _cryptonite_blake2b_keyed_kat[i], BLAKE2B_OUTBYTES)) {+ goto fail;+ }+ }+ }+ puts( "ok" ); return 0;+fail:+ puts("error");+ return -1; } #endif-
cbits/blake2/ref/blake2bp-ref.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdio.h>@@ -25,52 +27,71 @@ #define PARALLELISM_DEGREE 4 -static inline int blake2bp_init_leaf( blake2b_state *S, uint8_t outlen, uint8_t keylen, uint64_t offset )+/*+ blake2b_init_param defaults to setting the expecting output length+ from the digest_length parameter block field.++ In some cases, however, we do not want this, as the output length+ of these instances is given by inner_length instead.+*/+static int blake2bp_init_leaf_param( blake2b_state *S, const blake2b_param *P ) {+ int err = _cryptonite_blake2b_init_param(S, P);+ S->outlen = P->inner_length;+ return err;+}++static int blake2bp_init_leaf( blake2b_state *S, size_t outlen, size_t keylen, uint64_t offset )+{ blake2b_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; store32( &P->leaf_length, 0 );- store64( &P->node_offset, offset );+ store32( &P->node_offset, offset );+ store32( &P->xof_length, 0 ); P->node_depth = 0; P->inner_length = BLAKE2B_OUTBYTES; memset( P->reserved, 0, sizeof( P->reserved ) ); memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2b_init_param( S, P );+ return blake2bp_init_leaf_param( S, P ); } -static inline int blake2bp_init_root( blake2b_state *S, uint8_t outlen, uint8_t keylen )+static int blake2bp_init_root( blake2b_state *S, size_t outlen, size_t keylen ) { blake2b_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; store32( &P->leaf_length, 0 );- store64( &P->node_offset, 0 );+ store32( &P->node_offset, 0 );+ store32( &P->xof_length, 0 ); P->node_depth = 1; P->inner_length = BLAKE2B_OUTBYTES; memset( P->reserved, 0, sizeof( P->reserved ) ); memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2b_init_param( S, P );+ return _cryptonite_blake2b_init_param( S, P ); } -int blake2bp_init( blake2bp_state *S, const uint8_t outlen )+int _cryptonite_blake2bp_init( blake2bp_state *S, size_t outlen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2B_OUTBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2bp_init_root( S->R, outlen, 0 ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2bp_init_leaf( S->S[i], outlen, 0, i ) < 0 ) return -1; S->R->last_node = 1;@@ -78,19 +99,22 @@ return 0; } -int blake2bp_init_key( blake2bp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2bp_init_key( blake2bp_state *S, size_t outlen, const void *key, size_t keylen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2B_OUTBYTES ) return -1; if( !key || !keylen || keylen > BLAKE2B_KEYBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2bp_init_root( S->R, outlen, keylen ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2bp_init_leaf( S->S[i], outlen, keylen, i ) < 0 ) return -1; S->R->last_node = 1;@@ -100,8 +124,8 @@ memset( block, 0, BLAKE2B_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S->S[i], block, BLAKE2B_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S->S[i], block, BLAKE2B_BLOCKBYTES ); secure_zero_memory( block, BLAKE2B_BLOCKBYTES ); /* Burn the key from stack */ }@@ -109,17 +133,19 @@ } -int blake2bp_update( blake2bp_state *S, const uint8_t *in, uint64_t inlen )+int _cryptonite_blake2bp_update( blake2bp_state *S, const void *pin, size_t inlen ) {+ const unsigned char * in = (const unsigned char *)pin; size_t left = S->buflen; size_t fill = sizeof( S->buf ) - left;+ size_t i; if( left && inlen >= fill ) { memcpy( S->buf + left, in, fill ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, BLAKE2B_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, BLAKE2B_BLOCKBYTES ); in += fill; inlen -= fill;@@ -130,19 +156,19 @@ #pragma omp parallel shared(S), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2B_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2B_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES ) {- blake2b_update( S->S[id__], in__, BLAKE2B_BLOCKBYTES );+ _cryptonite_blake2b_update( S->S[i], in__, BLAKE2B_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; }@@ -158,11 +184,16 @@ return 0; } -int blake2bp_final( blake2bp_state *S, uint8_t *out, const uint8_t outlen )+int _cryptonite_blake2bp_final( blake2bp_state *S, void *out, size_t outlen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2B_OUTBYTES];+ size_t i; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ if(out == NULL || outlen < S->outlen) {+ return -1;+ }++ for( i = 0; i < PARALLELISM_DEGREE; ++i ) { if( S->buflen > i * BLAKE2B_BLOCKBYTES ) {@@ -170,24 +201,24 @@ if( left > BLAKE2B_BLOCKBYTES ) left = BLAKE2B_BLOCKBYTES; - blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, left );+ _cryptonite_blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, left ); } - blake2b_final( S->S[i], hash[i], BLAKE2B_OUTBYTES );+ _cryptonite_blake2b_final( S->S[i], hash[i], BLAKE2B_OUTBYTES ); } - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S->R, hash[i], BLAKE2B_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S->R, hash[i], BLAKE2B_OUTBYTES ); - - return blake2b_final( S->R, out, outlen );+ return _cryptonite_blake2b_final( S->R, out, S->outlen ); } -int blake2bp( uint8_t *out, const void *in, const void *key, uint8_t outlen, uint64_t inlen, uint8_t keylen )+int _cryptonite_blake2bp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2B_OUTBYTES]; blake2b_state S[PARALLELISM_DEGREE][1]; blake2b_state FS[1];+ size_t i; /* Verify parameters */ if ( NULL == in && inlen > 0 ) return -1;@@ -200,10 +231,10 @@ if( keylen > BLAKE2B_KEYBYTES ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2bp_init_leaf( S[i], outlen, keylen, i ) < 0 ) return -1; - S[PARALLELISM_DEGREE - 1]->last_node = 1; // mark last node+ S[PARALLELISM_DEGREE - 1]->last_node = 1; /* mark last node */ if( keylen > 0 ) {@@ -211,8 +242,8 @@ memset( block, 0, BLAKE2B_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S[i], block, BLAKE2B_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S[i], block, BLAKE2B_BLOCKBYTES ); secure_zero_memory( block, BLAKE2B_BLOCKBYTES ); /* Burn the key from stack */ }@@ -221,71 +252,108 @@ #pragma omp parallel shared(S,hash), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2B_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2B_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES ) {- blake2b_update( S[id__], in__, BLAKE2B_BLOCKBYTES );+ _cryptonite_blake2b_update( S[i], in__, BLAKE2B_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; } - if( inlen__ > id__ * BLAKE2B_BLOCKBYTES )+ if( inlen__ > i * BLAKE2B_BLOCKBYTES ) {- const size_t left = inlen__ - id__ * BLAKE2B_BLOCKBYTES;+ const size_t left = inlen__ - i * BLAKE2B_BLOCKBYTES; const size_t len = left <= BLAKE2B_BLOCKBYTES ? left : BLAKE2B_BLOCKBYTES;- blake2b_update( S[id__], in__, len );+ _cryptonite_blake2b_update( S[i], in__, len ); } - blake2b_final( S[id__], hash[id__], BLAKE2B_OUTBYTES );+ _cryptonite_blake2b_final( S[i], hash[i], BLAKE2B_OUTBYTES ); } if( blake2bp_init_root( FS, outlen, keylen ) < 0 ) return -1; - FS->last_node = 1; // Mark as last node+ FS->last_node = 1; /* Mark as last node */ - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( FS, hash[i], BLAKE2B_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( FS, hash[i], BLAKE2B_OUTBYTES ); - return blake2b_final( FS, out, outlen );;+ return _cryptonite_blake2b_final( FS, out, outlen );; } #if defined(BLAKE2BP_SELFTEST) #include <string.h> #include "blake2-kat.h"-int main( int argc, char **argv )+int main( void ) { uint8_t key[BLAKE2B_KEYBYTES];- uint8_t buf[KAT_LENGTH];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step; - for( size_t i = 0; i < BLAKE2B_KEYBYTES; ++i )+ for( i = 0; i < BLAKE2B_KEYBYTES; ++i ) key[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) buf[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) { uint8_t hash[BLAKE2B_OUTBYTES];- blake2bp( hash, buf, key, BLAKE2B_OUTBYTES, i, BLAKE2B_KEYBYTES );+ blake2bp( hash, BLAKE2B_OUTBYTES, buf, i, key, BLAKE2B_KEYBYTES ); if( 0 != memcmp( hash, blake2bp_keyed_kat[i], BLAKE2B_OUTBYTES ) ) {- puts( "error" );- return -1;+ goto fail; } } + /* Test streaming API */+ for(step = 1; step < BLAKE2B_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2B_OUTBYTES];+ blake2bp_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2bp_init_key(&S, BLAKE2B_OUTBYTES, key, BLAKE2B_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2bp_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2bp_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2bp_final(&S, hash, BLAKE2B_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, blake2bp_keyed_kat[i], BLAKE2B_OUTBYTES)) {+ goto fail;+ }+ }+ }+ puts( "ok" ); return 0;+fail:+ puts("error");+ return -1; } #endif
cbits/blake2/ref/blake2s-ref.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdint.h>@@ -38,143 +40,79 @@ { 10, 2, 8, 4, 7, 6, 1, 5, 15, 11, 9, 14, 3, 12, 13 , 0 } , }; -static inline int blake2s_set_lastnode( blake2s_state *S )-{- S->f[1] = -1;- return 0;-}--static inline int blake2s_clear_lastnode( blake2s_state *S )+static void blake2s_set_lastnode( blake2s_state *S ) {- S->f[1] = 0;- return 0;+ S->f[1] = (uint32_t)-1; } /* Some helper functions, not necessarily useful */-static inline int blake2s_set_lastblock( blake2s_state *S )+static int blake2s_is_lastblock( const blake2s_state *S ) {- if( S->last_node ) blake2s_set_lastnode( S );-- S->f[0] = -1;- return 0;+ return S->f[0] != 0; } -static inline int blake2s_clear_lastblock( blake2s_state *S )+static void blake2s_set_lastblock( blake2s_state *S ) {- if( S->last_node ) blake2s_clear_lastnode( S );+ if( S->last_node ) blake2s_set_lastnode( S ); - S->f[0] = 0;- return 0;+ S->f[0] = (uint32_t)-1; } -static inline int blake2s_increment_counter( blake2s_state *S, const uint32_t inc )+static void blake2s_increment_counter( blake2s_state *S, const uint32_t inc ) { S->t[0] += inc; S->t[1] += ( S->t[0] < inc );- return 0; } -// Parameter-related functions-static inline int blake2s_param_set_digest_length( blake2s_param *P, const uint8_t digest_length )-{- P->digest_length = digest_length;- return 0;-}--static inline int blake2s_param_set_fanout( blake2s_param *P, const uint8_t fanout )-{- P->fanout = fanout;- return 0;-}--static inline int blake2s_param_set_max_depth( blake2s_param *P, const uint8_t depth )-{- P->depth = depth;- return 0;-}--static inline int blake2s_param_set_leaf_length( blake2s_param *P, const uint32_t leaf_length )-{- store32( &P->leaf_length, leaf_length );- return 0;-}--static inline int blake2s_param_set_node_offset( blake2s_param *P, const uint64_t node_offset )-{- store48( P->node_offset, node_offset );- return 0;-}--static inline int blake2s_param_set_node_depth( blake2s_param *P, const uint8_t node_depth )-{- P->node_depth = node_depth;- return 0;-}--static inline int blake2s_param_set_inner_length( blake2s_param *P, const uint8_t inner_length )-{- P->inner_length = inner_length;- return 0;-}--static inline int blake2s_param_set_salt( blake2s_param *P, const uint8_t salt[BLAKE2S_SALTBYTES] )-{- memcpy( P->salt, salt, BLAKE2S_SALTBYTES );- return 0;-}--static inline int blake2s_param_set_personal( blake2s_param *P, const uint8_t personal[BLAKE2S_PERSONALBYTES] )-{- memcpy( P->personal, personal, BLAKE2S_PERSONALBYTES );- return 0;-}--static inline int blake2s_init0( blake2s_state *S )+static void blake2s_init0( blake2s_state *S ) {+ size_t i; memset( S, 0, sizeof( blake2s_state ) ); - for( int i = 0; i < 8; ++i ) S->h[i] = blake2s_IV[i];-- return 0;+ for( i = 0; i < 8; ++i ) S->h[i] = blake2s_IV[i]; } /* init2 xors IV with input parameter block */-int blake2s_init_param( blake2s_state *S, const blake2s_param *P )+int _cryptonite_blake2s_init_param( blake2s_state *S, const blake2s_param *P ) {+ const unsigned char *p = ( const unsigned char * )( P );+ size_t i;+ blake2s_init0( S );- const uint32_t *p = ( const uint32_t * )( P ); /* IV XOR ParamBlock */- for( size_t i = 0; i < 8; ++i )- S->h[i] ^= load32( &p[i] );+ for( i = 0; i < 8; ++i )+ S->h[i] ^= load32( &p[i * 4] ); + S->outlen = P->digest_length; return 0; } -// Sequential blake2s initialization-int blake2s_init( blake2s_state *S, const uint8_t outlen )+/* Sequential blake2s initialization */+int _cryptonite_blake2s_init( blake2s_state *S, size_t outlen ) { blake2s_param P[1]; /* Move interval verification here? */ if ( ( !outlen ) || ( outlen > BLAKE2S_OUTBYTES ) ) return -1; - P->digest_length = outlen;+ P->digest_length = (uint8_t)outlen; P->key_length = 0; P->fanout = 1; P->depth = 1; store32( &P->leaf_length, 0 );- store48( &P->node_offset, 0 );+ store32( &P->node_offset, 0 );+ store16( &P->xof_length, 0 ); P->node_depth = 0; P->inner_length = 0;- // memset(P->reserved, 0, sizeof(P->reserved) );+ /* memset(P->reserved, 0, sizeof(P->reserved) ); */ memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2s_init_param( S, P );+ return _cryptonite_blake2s_init_param( S, P ); } -int blake2s_init_key( blake2s_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2s_init_key( blake2s_state *S, size_t outlen, const void *key, size_t keylen ) { blake2s_param P[1]; @@ -182,40 +120,68 @@ if ( !key || !keylen || keylen > BLAKE2S_KEYBYTES ) return -1; - P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = 1; P->depth = 1; store32( &P->leaf_length, 0 );- store48( &P->node_offset, 0 );+ store32( &P->node_offset, 0 );+ store16( &P->xof_length, 0 ); P->node_depth = 0; P->inner_length = 0;- // memset(P->reserved, 0, sizeof(P->reserved) );+ /* memset(P->reserved, 0, sizeof(P->reserved) ); */ memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) ); - if( blake2s_init_param( S, P ) < 0 ) return -1;+ if( _cryptonite_blake2s_init_param( S, P ) < 0 ) return -1; { uint8_t block[BLAKE2S_BLOCKBYTES]; memset( block, 0, BLAKE2S_BLOCKBYTES ); memcpy( block, key, keylen );- blake2s_update( S, block, BLAKE2S_BLOCKBYTES );+ _cryptonite_blake2s_update( S, block, BLAKE2S_BLOCKBYTES ); secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */ } return 0; } -static int blake2s_compress( blake2s_state *S, const uint8_t block[BLAKE2S_BLOCKBYTES] )+#define G(r,i,a,b,c,d) \+ do { \+ a = a + b + m[blake2s_sigma[r][2*i+0]]; \+ d = rotr32(d ^ a, 16); \+ c = c + d; \+ b = rotr32(b ^ c, 12); \+ a = a + b + m[blake2s_sigma[r][2*i+1]]; \+ d = rotr32(d ^ a, 8); \+ c = c + d; \+ b = rotr32(b ^ c, 7); \+ } while(0)++#define ROUND(r) \+ do { \+ G(r,0,v[ 0],v[ 4],v[ 8],v[12]); \+ G(r,1,v[ 1],v[ 5],v[ 9],v[13]); \+ G(r,2,v[ 2],v[ 6],v[10],v[14]); \+ G(r,3,v[ 3],v[ 7],v[11],v[15]); \+ G(r,4,v[ 0],v[ 5],v[10],v[15]); \+ G(r,5,v[ 1],v[ 6],v[11],v[12]); \+ G(r,6,v[ 2],v[ 7],v[ 8],v[13]); \+ G(r,7,v[ 3],v[ 4],v[ 9],v[14]); \+ } while(0)++static void blake2s_compress( blake2s_state *S, const uint8_t in[BLAKE2S_BLOCKBYTES] ) { uint32_t m[16]; uint32_t v[16];+ size_t i; - for( size_t i = 0; i < 16; ++i )- m[i] = load32( block + i * sizeof( m[i] ) );+ for( i = 0; i < 16; ++i ) {+ m[i] = load32( in + i * sizeof( m[i] ) );+ } - for( size_t i = 0; i < 8; ++i )+ for( i = 0; i < 8; ++i ) { v[i] = S->h[i];+ } v[ 8] = blake2s_IV[0]; v[ 9] = blake2s_IV[1];@@ -225,28 +191,7 @@ v[13] = S->t[1] ^ blake2s_IV[5]; v[14] = S->f[0] ^ blake2s_IV[6]; v[15] = S->f[1] ^ blake2s_IV[7];-#define G(r,i,a,b,c,d) \- do { \- a = a + b + m[blake2s_sigma[r][2*i+0]]; \- d = rotr32(d ^ a, 16); \- c = c + d; \- b = rotr32(b ^ c, 12); \- a = a + b + m[blake2s_sigma[r][2*i+1]]; \- d = rotr32(d ^ a, 8); \- c = c + d; \- b = rotr32(b ^ c, 7); \- } while(0)-#define ROUND(r) \- do { \- G(r,0,v[ 0],v[ 4],v[ 8],v[12]); \- G(r,1,v[ 1],v[ 5],v[ 9],v[13]); \- G(r,2,v[ 2],v[ 6],v[10],v[14]); \- G(r,3,v[ 3],v[ 7],v[11],v[15]); \- G(r,4,v[ 0],v[ 5],v[10],v[15]); \- G(r,5,v[ 1],v[ 6],v[11],v[12]); \- G(r,6,v[ 2],v[ 7],v[ 8],v[13]); \- G(r,7,v[ 3],v[ 4],v[ 9],v[14]); \- } while(0)+ ROUND( 0 ); ROUND( 1 ); ROUND( 2 );@@ -258,73 +203,66 @@ ROUND( 8 ); ROUND( 9 ); - for( size_t i = 0; i < 8; ++i )+ for( i = 0; i < 8; ++i ) { S->h[i] = S->h[i] ^ v[i] ^ v[i + 8];+ }+} #undef G #undef ROUND- return 0;-} --int blake2s_update( blake2s_state *S, const uint8_t *in, uint64_t inlen )+int _cryptonite_blake2s_update( blake2s_state *S, const void *pin, size_t inlen ) {- while( inlen > 0 )+ const unsigned char * in = (const unsigned char *)pin;+ if( inlen > 0 ) { size_t left = S->buflen;- size_t fill = 2 * BLAKE2S_BLOCKBYTES - left;-+ size_t fill = BLAKE2S_BLOCKBYTES - left; if( inlen > fill ) {- memcpy( S->buf + left, in, fill ); // Fill buffer- S->buflen += fill;+ S->buflen = 0;+ memcpy( S->buf + left, in, fill ); /* Fill buffer */ blake2s_increment_counter( S, BLAKE2S_BLOCKBYTES );- blake2s_compress( S, S->buf ); // Compress- memcpy( S->buf, S->buf + BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES ); // Shift buffer left- S->buflen -= BLAKE2S_BLOCKBYTES;- in += fill;- inlen -= fill;- }- else // inlen <= fill- {- memcpy( S->buf + left, in, inlen );- S->buflen += inlen; // Be lazy, do not compress- in += inlen;- inlen -= inlen;+ blake2s_compress( S, S->buf ); /* Compress */+ in += fill; inlen -= fill;+ while(inlen > BLAKE2S_BLOCKBYTES) {+ blake2s_increment_counter(S, BLAKE2S_BLOCKBYTES);+ blake2s_compress( S, in );+ in += BLAKE2S_BLOCKBYTES;+ inlen -= BLAKE2S_BLOCKBYTES;+ } }+ memcpy( S->buf + S->buflen, in, inlen );+ S->buflen += inlen; }- return 0; } -int blake2s_final( blake2s_state *S, uint8_t *out, uint8_t outlen )+int _cryptonite_blake2s_final( blake2s_state *S, void *out, size_t outlen ) { uint8_t buffer[BLAKE2S_OUTBYTES] = {0};+ size_t i; - if( outlen > BLAKE2S_OUTBYTES )+ if( out == NULL || outlen < S->outlen ) return -1; - if( S->buflen > BLAKE2S_BLOCKBYTES )- {- blake2s_increment_counter( S, BLAKE2S_BLOCKBYTES );- blake2s_compress( S, S->buf );- S->buflen -= BLAKE2S_BLOCKBYTES;- memcpy( S->buf, S->buf + BLAKE2S_BLOCKBYTES, S->buflen );- }+ if( blake2s_is_lastblock( S ) )+ return -1; blake2s_increment_counter( S, ( uint32_t )S->buflen ); blake2s_set_lastblock( S );- memset( S->buf + S->buflen, 0, 2 * BLAKE2S_BLOCKBYTES - S->buflen ); /* Padding */+ memset( S->buf + S->buflen, 0, BLAKE2S_BLOCKBYTES - S->buflen ); /* Padding */ blake2s_compress( S, S->buf ); - for( int i = 0; i < 8; ++i ) /* Output full hash to temp buffer */+ for( i = 0; i < 8; ++i ) /* Output full hash to temp buffer */ store32( buffer + sizeof( S->h[i] ) * i, S->h[i] );- + memcpy( out, buffer, outlen );+ secure_zero_memory(buffer, sizeof(buffer)); return 0; } -int blake2s( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )+int _cryptonite_blake2s( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { blake2s_state S[1]; @@ -341,54 +279,89 @@ if( keylen > 0 ) {- if( blake2s_init_key( S, outlen, key, keylen ) < 0 ) return -1;+ if( _cryptonite_blake2s_init_key( S, outlen, key, keylen ) < 0 ) return -1; } else {- if( blake2s_init( S, outlen ) < 0 ) return -1;+ if( _cryptonite_blake2s_init( S, outlen ) < 0 ) return -1; } - blake2s_update( S, ( const uint8_t * )in, inlen );- blake2s_final( S, out, outlen );+ _cryptonite_blake2s_update( S, ( const uint8_t * )in, inlen );+ _cryptonite_blake2s_final( S, out, outlen ); return 0; } #if defined(SUPERCOP) int crypto_hash( unsigned char *out, unsigned char *in, unsigned long long inlen ) {- return blake2s( out, in, NULL, BLAKE2S_OUTBYTES, inlen, 0 );+ return _cryptonite_blake2s( out, BLAKE2S_OUTBYTES, in, inlen, NULL, 0 ); } #endif #if defined(BLAKE2S_SELFTEST) #include <string.h> #include "blake2-kat.h"-int main( int argc, char **argv )+int main( void ) { uint8_t key[BLAKE2S_KEYBYTES];- uint8_t buf[KAT_LENGTH];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step; - for( size_t i = 0; i < BLAKE2S_KEYBYTES; ++i )+ for( i = 0; i < BLAKE2S_KEYBYTES; ++i ) key[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) buf[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) { uint8_t hash[BLAKE2S_OUTBYTES];- blake2s( hash, buf, key, BLAKE2S_OUTBYTES, i, BLAKE2S_KEYBYTES );+ _cryptonite_blake2s( hash, BLAKE2S_OUTBYTES, buf, i, key, BLAKE2S_KEYBYTES ); if( 0 != memcmp( hash, blake2s_keyed_kat[i], BLAKE2S_OUTBYTES ) ) {- puts( "error" );- return -1;+ goto fail; } } + /* Test streaming API */+ for(step = 1; step < BLAKE2S_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2S_OUTBYTES];+ blake2s_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2s_init_key(&S, BLAKE2S_OUTBYTES, key, BLAKE2S_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2s_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2s_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2s_final(&S, hash, BLAKE2S_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, blake2s_keyed_kat[i], BLAKE2S_OUTBYTES)) {+ goto fail;+ }+ }+ }+ puts( "ok" ); return 0;+fail:+ puts("error");+ return -1; } #endif--
cbits/blake2/ref/blake2sp-ref.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdlib.h>@@ -24,50 +26,69 @@ #define PARALLELISM_DEGREE 8 -static inline int blake2sp_init_leaf( blake2s_state *S, uint8_t outlen, uint8_t keylen, uint64_t offset )+/*+ blake2sp_init_param defaults to setting the expecting output length+ from the digest_length parameter block field.++ In some cases, however, we do not want this, as the output length+ of these instances is given by inner_length instead.+*/+static int blake2sp_init_leaf_param( blake2s_state *S, const blake2s_param *P ) {+ int err = _cryptonite_blake2s_init_param(S, P);+ S->outlen = P->inner_length;+ return err;+}++static int blake2sp_init_leaf( blake2s_state *S, size_t outlen, size_t keylen, uint64_t offset )+{ blake2s_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; store32( &P->leaf_length, 0 );- store48( P->node_offset, offset );+ store32( &P->node_offset, offset );+ store16( &P->xof_length, 0 ); P->node_depth = 0; P->inner_length = BLAKE2S_OUTBYTES; memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2s_init_param( S, P );+ return blake2sp_init_leaf_param( S, P ); } -static inline int blake2sp_init_root( blake2s_state *S, uint8_t outlen, uint8_t keylen )+static int blake2sp_init_root( blake2s_state *S, size_t outlen, size_t keylen ) { blake2s_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; store32( &P->leaf_length, 0 );- store48( P->node_offset, 0ULL );+ store32( &P->node_offset, 0 );+ store16( &P->xof_length, 0 ); P->node_depth = 1; P->inner_length = BLAKE2S_OUTBYTES; memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2s_init_param( S, P );+ return _cryptonite_blake2s_init_param( S, P ); } -int blake2sp_init( blake2sp_state *S, const uint8_t outlen )+int _cryptonite_blake2sp_init( blake2sp_state *S, size_t outlen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2S_OUTBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2sp_init_root( S->R, outlen, 0 ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2sp_init_leaf( S->S[i], outlen, 0, i ) < 0 ) return -1; S->R->last_node = 1;@@ -75,19 +96,22 @@ return 0; } -int blake2sp_init_key( blake2sp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2sp_init_key( blake2sp_state *S, size_t outlen, const void *key, size_t keylen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2S_OUTBYTES ) return -1; if( !key || !keylen || keylen > BLAKE2S_KEYBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2sp_init_root( S->R, outlen, keylen ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2sp_init_leaf( S->S[i], outlen, keylen, i ) < 0 ) return -1; S->R->last_node = 1;@@ -97,8 +121,8 @@ memset( block, 0, BLAKE2S_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S->S[i], block, BLAKE2S_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S->S[i], block, BLAKE2S_BLOCKBYTES ); secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */ }@@ -106,17 +130,19 @@ } -int blake2sp_update( blake2sp_state *S, const uint8_t *in, uint64_t inlen )+int _cryptonite_blake2sp_update( blake2sp_state *S, const void *pin, size_t inlen ) {+ const unsigned char * in = (const unsigned char *)pin; size_t left = S->buflen; size_t fill = sizeof( S->buf ) - left;+ size_t i; if( left && inlen >= fill ) { memcpy( S->buf + left, in, fill ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES ); in += fill; inlen -= fill;@@ -126,20 +152,19 @@ #if defined(_OPENMP) #pragma omp parallel shared(S), num_threads(PARALLELISM_DEGREE) #else-- for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2S_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2S_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES ) {- blake2s_update( S->S[id__], in__, BLAKE2S_BLOCKBYTES );+ _cryptonite_blake2s_update( S->S[i], in__, BLAKE2S_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; }@@ -156,11 +181,16 @@ } -int blake2sp_final( blake2sp_state *S, uint8_t *out, const uint8_t outlen )+int _cryptonite_blake2sp_final( blake2sp_state *S, void *out, size_t outlen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2S_OUTBYTES];+ size_t i; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ if(out == NULL || outlen < S->outlen) {+ return -1;+ }++ for( i = 0; i < PARALLELISM_DEGREE; ++i ) { if( S->buflen > i * BLAKE2S_BLOCKBYTES ) {@@ -168,24 +198,25 @@ if( left > BLAKE2S_BLOCKBYTES ) left = BLAKE2S_BLOCKBYTES; - blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, left );+ _cryptonite_blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, left ); } - blake2s_final( S->S[i], hash[i], BLAKE2S_OUTBYTES );+ _cryptonite_blake2s_final( S->S[i], hash[i], BLAKE2S_OUTBYTES ); } - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S->R, hash[i], BLAKE2S_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S->R, hash[i], BLAKE2S_OUTBYTES ); - return blake2s_final( S->R, out, outlen );+ return _cryptonite_blake2s_final( S->R, out, S->outlen ); } -int blake2sp( uint8_t *out, const void *in, const void *key, uint8_t outlen, uint64_t inlen, uint8_t keylen )+int _cryptonite_blake2sp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2S_OUTBYTES]; blake2s_state S[PARALLELISM_DEGREE][1]; blake2s_state FS[1];+ size_t i; /* Verify parameters */ if ( NULL == in && inlen > 0 ) return -1;@@ -198,10 +229,10 @@ if( keylen > BLAKE2S_KEYBYTES ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2sp_init_leaf( S[i], outlen, keylen, i ) < 0 ) return -1; - S[PARALLELISM_DEGREE - 1]->last_node = 1; // mark last node+ S[PARALLELISM_DEGREE - 1]->last_node = 1; /* mark last node */ if( keylen > 0 ) {@@ -209,8 +240,8 @@ memset( block, 0, BLAKE2S_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S[i], block, BLAKE2S_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S[i], block, BLAKE2S_BLOCKBYTES ); secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */ }@@ -219,31 +250,31 @@ #pragma omp parallel shared(S,hash), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2S_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2S_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES ) {- blake2s_update( S[id__], in__, BLAKE2S_BLOCKBYTES );+ _cryptonite_blake2s_update( S[i], in__, BLAKE2S_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; } - if( inlen__ > id__ * BLAKE2S_BLOCKBYTES )+ if( inlen__ > i * BLAKE2S_BLOCKBYTES ) {- const size_t left = inlen__ - id__ * BLAKE2S_BLOCKBYTES;+ const size_t left = inlen__ - i * BLAKE2S_BLOCKBYTES; const size_t len = left <= BLAKE2S_BLOCKBYTES ? left : BLAKE2S_BLOCKBYTES;- blake2s_update( S[id__], in__, len );+ _cryptonite_blake2s_update( S[i], in__, len ); } - blake2s_final( S[id__], hash[id__], BLAKE2S_OUTBYTES );+ _cryptonite_blake2s_final( S[i], hash[i], BLAKE2S_OUTBYTES ); } if( blake2sp_init_root( FS, outlen, keylen ) < 0 )@@ -251,10 +282,10 @@ FS->last_node = 1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( FS, hash[i], BLAKE2S_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( FS, hash[i], BLAKE2S_OUTBYTES ); - return blake2s_final( FS, out, outlen );+ return _cryptonite_blake2s_final( FS, out, outlen ); } @@ -262,36 +293,67 @@ #if defined(BLAKE2SP_SELFTEST) #include <string.h> #include "blake2-kat.h"-int main( int argc, char **argv )+int main( void ) { uint8_t key[BLAKE2S_KEYBYTES];- uint8_t buf[KAT_LENGTH];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step; - for( size_t i = 0; i < BLAKE2S_KEYBYTES; ++i )+ for( i = 0; i < BLAKE2S_KEYBYTES; ++i ) key[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) buf[i] = ( uint8_t )i; - for( size_t i = 0; i < KAT_LENGTH; ++i )+ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i ) { uint8_t hash[BLAKE2S_OUTBYTES];- blake2sp( hash, buf, key, BLAKE2S_OUTBYTES, i, BLAKE2S_KEYBYTES );+ _cryptonite_blake2sp( hash, BLAKE2S_OUTBYTES, buf, i, key, BLAKE2S_KEYBYTES ); if( 0 != memcmp( hash, blake2sp_keyed_kat[i], BLAKE2S_OUTBYTES ) ) {- puts( "error" );- return -1;+ goto fail; } } - puts( "ok" );- return 0;-}-#endif--+ /* Test streaming API */+ for(step = 1; step < BLAKE2S_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2S_OUTBYTES];+ blake2sp_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0; + if( (err = _cryptonite_blake2sp_init_key(&S, BLAKE2S_OUTBYTES, key, BLAKE2S_KEYBYTES)) < 0 ) {+ goto fail;+ } + while (mlen >= step) {+ if ( (err = _cryptonite_blake2sp_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2sp_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2sp_final(&S, hash, BLAKE2S_OUTBYTES)) < 0) {+ goto fail;+ } + if (0 != memcmp(hash, blake2sp_keyed_kat[i], BLAKE2S_OUTBYTES)) {+ goto fail;+ }+ }+ } + puts( "ok" );+ return 0;+fail:+ puts("error");+ return -1;+}+#endif
cbits/blake2/sse/blake2-config.h view
@@ -1,21 +1,22 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2_CONFIG_H__-#define __BLAKE2_CONFIG_H__+#ifndef BLAKE2_CONFIG_H+#define BLAKE2_CONFIG_H -// These don't work everywhere-#if defined(__SSE2__)+/* These don't work everywhere */+#if defined(__SSE2__) || defined(__x86_64__) || defined(__amd64__) #define HAVE_SSE2 #endif @@ -69,4 +70,3 @@ #endif #endif-
cbits/blake2/sse/blake2-impl.h view
@@ -1,22 +1,36 @@ /*- BLAKE2 reference source code package - optimized C implementations+ BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2_IMPL_H__-#define __BLAKE2_IMPL_H__+#ifndef BLAKE2_IMPL_H+#define BLAKE2_IMPL_H #include <stdint.h>+#include <string.h> -static inline uint32_t load32( const void *src )+#if !defined(__cplusplus) && (!defined(__STDC_VERSION__) || __STDC_VERSION__ < 199901L)+ #if defined(_MSC_VER)+ #define BLAKE2_INLINE __inline+ #elif defined(__GNUC__)+ #define BLAKE2_INLINE __inline__+ #else+ #define BLAKE2_INLINE+ #endif+#else+ #define BLAKE2_INLINE inline+#endif++static BLAKE2_INLINE uint32_t load32( const void *src ) { #if defined(NATIVE_LITTLE_ENDIAN) uint32_t w;@@ -24,15 +38,14 @@ return w; #else const uint8_t *p = ( const uint8_t * )src;- uint32_t w = *p++;- w |= ( uint32_t )( *p++ ) << 8;- w |= ( uint32_t )( *p++ ) << 16;- w |= ( uint32_t )( *p++ ) << 24;- return w;+ return (( uint32_t )( p[0] ) << 0) |+ (( uint32_t )( p[1] ) << 8) |+ (( uint32_t )( p[2] ) << 16) |+ (( uint32_t )( p[3] ) << 24) ; #endif } -static inline uint64_t load64( const void *src )+static BLAKE2_INLINE uint64_t load64( const void *src ) { #if defined(NATIVE_LITTLE_ENDIAN) uint64_t w;@@ -40,97 +53,108 @@ return w; #else const uint8_t *p = ( const uint8_t * )src;- uint64_t w = *p++;- w |= ( uint64_t )( *p++ ) << 8;- w |= ( uint64_t )( *p++ ) << 16;- w |= ( uint64_t )( *p++ ) << 24;- w |= ( uint64_t )( *p++ ) << 32;- w |= ( uint64_t )( *p++ ) << 40;- w |= ( uint64_t )( *p++ ) << 48;- w |= ( uint64_t )( *p++ ) << 56;- return w;+ return (( uint64_t )( p[0] ) << 0) |+ (( uint64_t )( p[1] ) << 8) |+ (( uint64_t )( p[2] ) << 16) |+ (( uint64_t )( p[3] ) << 24) |+ (( uint64_t )( p[4] ) << 32) |+ (( uint64_t )( p[5] ) << 40) |+ (( uint64_t )( p[6] ) << 48) |+ (( uint64_t )( p[7] ) << 56) ; #endif } -static inline void store32( void *dst, uint32_t w )+static BLAKE2_INLINE uint16_t load16( const void *src ) { #if defined(NATIVE_LITTLE_ENDIAN)- memcpy(dst, &w, sizeof w);+ uint16_t w;+ memcpy(&w, src, sizeof w);+ return w; #else- uint8_t *p = ( uint8_t * )dst;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w;+ const uint8_t *p = ( const uint8_t * )src;+ return ( uint16_t )((( uint32_t )( p[0] ) << 0) |+ (( uint32_t )( p[1] ) << 8)); #endif } -static inline void store64( void *dst, uint64_t w )+static BLAKE2_INLINE void store16( void *dst, uint16_t w ) { #if defined(NATIVE_LITTLE_ENDIAN) memcpy(dst, &w, sizeof w); #else uint8_t *p = ( uint8_t * )dst; *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8; *p++ = ( uint8_t )w; #endif } -static inline uint64_t load48( const void *src )+static BLAKE2_INLINE void store32( void *dst, uint32_t w ) {- const uint8_t *p = ( const uint8_t * )src;- uint64_t w = *p++;- w |= ( uint64_t )( *p++ ) << 8;- w |= ( uint64_t )( *p++ ) << 16;- w |= ( uint64_t )( *p++ ) << 24;- w |= ( uint64_t )( *p++ ) << 32;- w |= ( uint64_t )( *p++ ) << 40;- return w;+#if defined(NATIVE_LITTLE_ENDIAN)+ memcpy(dst, &w, sizeof w);+#else+ uint8_t *p = ( uint8_t * )dst;+ p[0] = (uint8_t)(w >> 0);+ p[1] = (uint8_t)(w >> 8);+ p[2] = (uint8_t)(w >> 16);+ p[3] = (uint8_t)(w >> 24);+#endif } -static inline void store48( void *dst, uint64_t w )+static BLAKE2_INLINE void store64( void *dst, uint64_t w ) {+#if defined(NATIVE_LITTLE_ENDIAN)+ memcpy(dst, &w, sizeof w);+#else uint8_t *p = ( uint8_t * )dst;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w; w >>= 8;- *p++ = ( uint8_t )w;+ p[0] = (uint8_t)(w >> 0);+ p[1] = (uint8_t)(w >> 8);+ p[2] = (uint8_t)(w >> 16);+ p[3] = (uint8_t)(w >> 24);+ p[4] = (uint8_t)(w >> 32);+ p[5] = (uint8_t)(w >> 40);+ p[6] = (uint8_t)(w >> 48);+ p[7] = (uint8_t)(w >> 56);+#endif } -static inline uint32_t rotl32( const uint32_t w, const unsigned c )+static BLAKE2_INLINE uint64_t load48( const void *src ) {- return ( w << c ) | ( w >> ( 32 - c ) );+ const uint8_t *p = ( const uint8_t * )src;+ return (( uint64_t )( p[0] ) << 0) |+ (( uint64_t )( p[1] ) << 8) |+ (( uint64_t )( p[2] ) << 16) |+ (( uint64_t )( p[3] ) << 24) |+ (( uint64_t )( p[4] ) << 32) |+ (( uint64_t )( p[5] ) << 40) ; } -static inline uint64_t rotl64( const uint64_t w, const unsigned c )+static BLAKE2_INLINE void store48( void *dst, uint64_t w ) {- return ( w << c ) | ( w >> ( 64 - c ) );+ uint8_t *p = ( uint8_t * )dst;+ p[0] = (uint8_t)(w >> 0);+ p[1] = (uint8_t)(w >> 8);+ p[2] = (uint8_t)(w >> 16);+ p[3] = (uint8_t)(w >> 24);+ p[4] = (uint8_t)(w >> 32);+ p[5] = (uint8_t)(w >> 40); } -static inline uint32_t rotr32( const uint32_t w, const unsigned c )+static BLAKE2_INLINE uint32_t rotr32( const uint32_t w, const unsigned c ) { return ( w >> c ) | ( w << ( 32 - c ) ); } -static inline uint64_t rotr64( const uint64_t w, const unsigned c )+static BLAKE2_INLINE uint64_t rotr64( const uint64_t w, const unsigned c ) { return ( w >> c ) | ( w << ( 64 - c ) ); } /* prevents compiler optimizing out memset() */-static inline void secure_zero_memory( void *v, size_t n )+static BLAKE2_INLINE void secure_zero_memory(void *v, size_t n) {- volatile uint8_t *p = ( volatile uint8_t * )v;- while( n-- ) *p++ = 0;+ static void *(*const volatile memset_v)(void *, int, size_t) = &memset;+ memset_v(v, 0, n); } #endif-
cbits/blake2/sse/blake2.h view
@@ -1,22 +1,29 @@ /*- BLAKE2 reference source code package - optimized C implementations+ BLAKE2 reference source code package - reference C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2_H__-#define __BLAKE2_H__+#ifndef BLAKE2_H+#define BLAKE2_H #include <stddef.h> #include <stdint.h> +#if defined(_MSC_VER)+#define BLAKE2_PACKED(x) __pragma(pack(push, 1)) x __pragma(pack(pop))+#else+#define BLAKE2_PACKED(x) x __attribute__((packed))+#endif+ #if defined(__cplusplus) extern "C" { #endif@@ -39,112 +46,150 @@ BLAKE2B_PERSONALBYTES = 16 }; -#pragma pack(push, 1)- typedef struct __blake2s_param- {- uint8_t digest_length; // 1- uint8_t key_length; // 2- uint8_t fanout; // 3- uint8_t depth; // 4- uint32_t leaf_length; // 8- uint8_t node_offset[6];// 14- uint8_t node_depth; // 15- uint8_t inner_length; // 16- // uint8_t reserved[0];- uint8_t salt[BLAKE2S_SALTBYTES]; // 24- uint8_t personal[BLAKE2S_PERSONALBYTES]; // 32- } blake2s_param;-- typedef struct __blake2s_state+ typedef struct blake2s_state__ { uint32_t h[8]; uint32_t t[2]; uint32_t f[2];- uint8_t buf[2 * BLAKE2S_BLOCKBYTES];+ uint8_t buf[BLAKE2S_BLOCKBYTES]; size_t buflen;+ size_t outlen; uint8_t last_node; } blake2s_state; - typedef struct __blake2b_param- {- uint8_t digest_length; // 1- uint8_t key_length; // 2- uint8_t fanout; // 3- uint8_t depth; // 4- uint32_t leaf_length; // 8- uint64_t node_offset; // 16- uint8_t node_depth; // 17- uint8_t inner_length; // 18- uint8_t reserved[14]; // 32- uint8_t salt[BLAKE2B_SALTBYTES]; // 48- uint8_t personal[BLAKE2B_PERSONALBYTES]; // 64- } blake2b_param;-- typedef struct __blake2b_state+ typedef struct blake2b_state__ { uint64_t h[8]; uint64_t t[2]; uint64_t f[2];- uint8_t buf[2 * BLAKE2B_BLOCKBYTES];+ uint8_t buf[BLAKE2B_BLOCKBYTES]; size_t buflen;+ size_t outlen; uint8_t last_node; } blake2b_state; - typedef struct __blake2sp_state+ typedef struct blake2sp_state__ { blake2s_state S[8][1]; blake2s_state R[1];- uint8_t buf[8 * BLAKE2S_BLOCKBYTES];- size_t buflen;+ uint8_t buf[8 * BLAKE2S_BLOCKBYTES];+ size_t buflen;+ size_t outlen; } blake2sp_state; - typedef struct __blake2bp_state+ typedef struct blake2bp_state__ { blake2b_state S[4][1]; blake2b_state R[1];- uint8_t buf[4 * BLAKE2B_BLOCKBYTES];- size_t buflen;+ uint8_t buf[4 * BLAKE2B_BLOCKBYTES];+ size_t buflen;+ size_t outlen; } blake2bp_state;-#pragma pack(pop) - // Streaming API- int blake2s_init( blake2s_state *S, const uint8_t outlen );- int blake2s_init_key( blake2s_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2s_init_param( blake2s_state *S, const blake2s_param *P );- int blake2s_update( blake2s_state *S, const uint8_t *in, uint64_t inlen );- int blake2s_final( blake2s_state *S, uint8_t *out, uint8_t outlen ); - int blake2b_init( blake2b_state *S, const uint8_t outlen );- int blake2b_init_key( blake2b_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2b_init_param( blake2b_state *S, const blake2b_param *P );- int blake2b_update( blake2b_state *S, const uint8_t *in, uint64_t inlen );- int blake2b_final( blake2b_state *S, uint8_t *out, uint8_t outlen );+ BLAKE2_PACKED(struct blake2s_param__+ {+ uint8_t digest_length; /* 1 */+ uint8_t key_length; /* 2 */+ uint8_t fanout; /* 3 */+ uint8_t depth; /* 4 */+ uint32_t leaf_length; /* 8 */+ uint32_t node_offset; /* 12 */+ uint16_t xof_length; /* 14 */+ uint8_t node_depth; /* 15 */+ uint8_t inner_length; /* 16 */+ /* uint8_t reserved[0]; */+ uint8_t salt[BLAKE2S_SALTBYTES]; /* 24 */+ uint8_t personal[BLAKE2S_PERSONALBYTES]; /* 32 */+ }); - int blake2sp_init( blake2sp_state *S, const uint8_t outlen );- int blake2sp_init_key( blake2sp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2sp_update( blake2sp_state *S, const uint8_t *in, uint64_t inlen );- int blake2sp_final( blake2sp_state *S, uint8_t *out, uint8_t outlen );+ typedef struct blake2s_param__ blake2s_param; - int blake2bp_init( blake2bp_state *S, const uint8_t outlen );- int blake2bp_init_key( blake2bp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen );- int blake2bp_update( blake2bp_state *S, const uint8_t *in, uint64_t inlen );- int blake2bp_final( blake2bp_state *S, uint8_t *out, uint8_t outlen );+ BLAKE2_PACKED(struct blake2b_param__+ {+ uint8_t digest_length; /* 1 */+ uint8_t key_length; /* 2 */+ uint8_t fanout; /* 3 */+ uint8_t depth; /* 4 */+ uint32_t leaf_length; /* 8 */+ uint32_t node_offset; /* 12 */+ uint32_t xof_length; /* 16 */+ uint8_t node_depth; /* 17 */+ uint8_t inner_length; /* 18 */+ uint8_t reserved[14]; /* 32 */+ uint8_t salt[BLAKE2B_SALTBYTES]; /* 48 */+ uint8_t personal[BLAKE2B_PERSONALBYTES]; /* 64 */+ }); - // Simple API- int blake2s( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );- int blake2b( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );+ typedef struct blake2b_param__ blake2b_param; - int blake2sp( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );- int blake2bp( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen );+ typedef struct blake2xs_state__+ {+ blake2s_state S[1];+ blake2s_param P[1];+ } blake2xs_state; - static inline int blake2( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )+ typedef struct blake2xb_state__ {- return blake2b( out, in, key, outlen, inlen, keylen );- }+ blake2b_state S[1];+ blake2b_param P[1];+ } blake2xb_state; + /* Padded structs result in a compile-time error */+ enum {+ BLAKE2_DUMMY_1 = 1/(sizeof(blake2s_param) == BLAKE2S_OUTBYTES),+ BLAKE2_DUMMY_2 = 1/(sizeof(blake2b_param) == BLAKE2B_OUTBYTES)+ };++ /* Streaming API */+ int _cryptonite_blake2s_init( blake2s_state *S, size_t outlen );+ int _cryptonite_blake2s_init_key( blake2s_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2s_init_param( blake2s_state *S, const blake2s_param *P );+ int _cryptonite_blake2s_update( blake2s_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2s_final( blake2s_state *S, void *out, size_t outlen );++ int _cryptonite_blake2b_init( blake2b_state *S, size_t outlen );+ int _cryptonite_blake2b_init_key( blake2b_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2b_init_param( blake2b_state *S, const blake2b_param *P );+ int _cryptonite_blake2b_update( blake2b_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2b_final( blake2b_state *S, void *out, size_t outlen );++ int _cryptonite_blake2sp_init( blake2sp_state *S, size_t outlen );+ int _cryptonite_blake2sp_init_key( blake2sp_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2sp_update( blake2sp_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2sp_final( blake2sp_state *S, void *out, size_t outlen );++ int _cryptonite_blake2bp_init( blake2bp_state *S, size_t outlen );+ int _cryptonite_blake2bp_init_key( blake2bp_state *S, size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2bp_update( blake2bp_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2bp_final( blake2bp_state *S, void *out, size_t outlen );++ /* Variable output length API */+ int _cryptonite_blake2xs_init( blake2xs_state *S, const size_t outlen );+ int _cryptonite_blake2xs_init_key( blake2xs_state *S, const size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2xs_update( blake2xs_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2xs_final(blake2xs_state *S, void *out, size_t outlen);++ int _cryptonite_blake2xb_init( blake2xb_state *S, const size_t outlen );+ int _cryptonite_blake2xb_init_key( blake2xb_state *S, const size_t outlen, const void *key, size_t keylen );+ int _cryptonite_blake2xb_update( blake2xb_state *S, const void *in, size_t inlen );+ int _cryptonite_blake2xb_final(blake2xb_state *S, void *out, size_t outlen);++ /* Simple API */+ int _cryptonite_blake2s( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ int _cryptonite_blake2b( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );++ int _cryptonite_blake2sp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ int _cryptonite_blake2bp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );++ int _cryptonite_blake2xs( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ int _cryptonite_blake2xb( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );++ /* This is simply an alias for blake2b */+ int _cryptonite_blake2( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen );+ #if defined(__cplusplus) } #endif #endif-
cbits/blake2/sse/blake2b-load-sse2.h view
@@ -1,18 +1,19 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2B_LOAD_SSE2_H__-#define __BLAKE2B_LOAD_SSE2_H__+#ifndef BLAKE2B_LOAD_SSE2_H+#define BLAKE2B_LOAD_SSE2_H #define LOAD_MSG_0_1(b0, b1) b0 = _mm_set_epi64x(m2, m0); b1 = _mm_set_epi64x(m6, m4) #define LOAD_MSG_0_2(b0, b1) b0 = _mm_set_epi64x(m3, m1); b1 = _mm_set_epi64x(m7, m5)@@ -65,4 +66,3 @@ #endif-
cbits/blake2/sse/blake2b-load-sse41.h view
@@ -1,18 +1,19 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2B_LOAD_SSE41_H__-#define __BLAKE2B_LOAD_SSE41_H__+#ifndef BLAKE2B_LOAD_SSE41_H+#define BLAKE2B_LOAD_SSE41_H #define LOAD_MSG_0_1(b0, b1) \ do \@@ -399,4 +400,3 @@ #endif-
cbits/blake2/sse/blake2b-round.h view
@@ -1,18 +1,19 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2B_ROUND_H__-#define __BLAKE2B_ROUND_H__+#ifndef BLAKE2B_ROUND_H+#define BLAKE2B_ROUND_H #define LOADU(p) _mm_loadu_si128( (const __m128i *)(p) ) #define STOREU(p,r) _mm_storeu_si128((__m128i *)(p), r)@@ -59,7 +60,7 @@ \ row2l = _mm_roti_epi64(row2l, -24); \ row2h = _mm_roti_epi64(row2h, -24); \- + #define G2(row1l,row2l,row3l,row4l,row1h,row2h,row3h,row4h,b0,b1) \ row1l = _mm_add_epi64(_mm_add_epi64(row1l, b0), row2l); \ row1h = _mm_add_epi64(_mm_add_epi64(row1h, b1), row2h); \@@ -78,7 +79,7 @@ \ row2l = _mm_roti_epi64(row2l, -63); \ row2h = _mm_roti_epi64(row2h, -63); \- + #if defined(HAVE_SSSE3) #define DIAGONALIZE(row1l,row2l,row3l,row4l,row1h,row2h,row3h,row4h) \ t0 = _mm_alignr_epi8(row2h, row2l, 8); \@@ -154,4 +155,3 @@ UNDIAGONALIZE(row1l,row2l,row3l,row4l,row1h,row2h,row3h,row4h); #endif-
cbits/blake2/sse/blake2b.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdint.h>@@ -47,209 +49,106 @@ 0x1f83d9abfb41bd6bULL, 0x5be0cd19137e2179ULL }; -static const uint8_t blake2b_sigma[12][16] =-{- { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 } ,- { 14, 10, 4, 8, 9, 15, 13, 6, 1, 12, 0, 2, 11, 7, 5, 3 } ,- { 11, 8, 12, 0, 5, 2, 15, 13, 10, 14, 3, 6, 7, 1, 9, 4 } ,- { 7, 9, 3, 1, 13, 12, 11, 14, 2, 6, 5, 10, 4, 0, 15, 8 } ,- { 9, 0, 5, 7, 2, 4, 10, 15, 14, 1, 11, 12, 6, 8, 3, 13 } ,- { 2, 12, 6, 10, 0, 11, 8, 3, 4, 13, 7, 5, 15, 14, 1, 9 } ,- { 12, 5, 1, 15, 14, 13, 4, 10, 0, 7, 6, 3, 9, 2, 8, 11 } ,- { 13, 11, 7, 14, 12, 1, 3, 9, 5, 0, 15, 4, 8, 6, 2, 10 } ,- { 6, 15, 14, 9, 11, 3, 0, 8, 12, 2, 13, 7, 1, 4, 10, 5 } ,- { 10, 2, 8, 4, 7, 6, 1, 5, 15, 11, 9, 14, 3, 12, 13 , 0 } ,- { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 } ,- { 14, 10, 4, 8, 9, 15, 13, 6, 1, 12, 0, 2, 11, 7, 5, 3 }-};---/* Some helper functions, not necessarily useful */-static inline int blake2b_set_lastnode( blake2b_state *S )+/* Some helper functions */+static void blake2b_set_lastnode( blake2b_state *S ) {- S->f[1] = -1;- return 0;+ S->f[1] = (uint64_t)-1; } -static inline int blake2b_clear_lastnode( blake2b_state *S )+static int blake2b_is_lastblock( const blake2b_state *S ) {- S->f[1] = 0;- return 0;+ return S->f[0] != 0; } -static inline int blake2b_set_lastblock( blake2b_state *S )+static void blake2b_set_lastblock( blake2b_state *S ) { if( S->last_node ) blake2b_set_lastnode( S ); - S->f[0] = -1;- return 0;-}--static inline int blake2b_clear_lastblock( blake2b_state *S )-{- if( S->last_node ) blake2b_clear_lastnode( S );-- S->f[0] = 0;- return 0;+ S->f[0] = (uint64_t)-1; } --static inline int blake2b_increment_counter( blake2b_state *S, const uint64_t inc )+static void blake2b_increment_counter( blake2b_state *S, const uint64_t inc ) {-#if __x86_64__- // ADD/ADC chain- __uint128_t t = ( ( __uint128_t )S->t[1] << 64 ) | S->t[0];- t += inc;- S->t[0] = ( uint64_t )( t >> 0 );- S->t[1] = ( uint64_t )( t >> 64 );-#else S->t[0] += inc; S->t[1] += ( S->t[0] < inc );-#endif- return 0; } --// Parameter-related functions-static inline int blake2b_param_set_digest_length( blake2b_param *P, const uint8_t digest_length )-{- P->digest_length = digest_length;- return 0;-}--static inline int blake2b_param_set_fanout( blake2b_param *P, const uint8_t fanout )-{- P->fanout = fanout;- return 0;-}--static inline int blake2b_param_set_max_depth( blake2b_param *P, const uint8_t depth )-{- P->depth = depth;- return 0;-}--static inline int blake2b_param_set_leaf_length( blake2b_param *P, const uint32_t leaf_length )-{- P->leaf_length = leaf_length;- return 0;-}--static inline int blake2b_param_set_node_offset( blake2b_param *P, const uint64_t node_offset )-{- P->node_offset = node_offset;- return 0;-}--static inline int blake2b_param_set_node_depth( blake2b_param *P, const uint8_t node_depth )-{- P->node_depth = node_depth;- return 0;-}--static inline int blake2b_param_set_inner_length( blake2b_param *P, const uint8_t inner_length )-{- P->inner_length = inner_length;- return 0;-}--static inline int blake2b_param_set_salt( blake2b_param *P, const uint8_t salt[BLAKE2B_SALTBYTES] )-{- memcpy( P->salt, salt, BLAKE2B_SALTBYTES );- return 0;-}--static inline int blake2b_param_set_personal( blake2b_param *P, const uint8_t personal[BLAKE2B_PERSONALBYTES] )-{- memcpy( P->personal, personal, BLAKE2B_PERSONALBYTES );- return 0;-}--static inline int blake2b_init0( blake2b_state *S )-{- memset( S, 0, sizeof( blake2b_state ) );-- for( int i = 0; i < 8; ++i ) S->h[i] = blake2b_IV[i];-- return 0;-}- /* init xors IV with input parameter block */-__attribute__((visibility ("hidden")))-int blake2b_init_param( blake2b_state *S, const blake2b_param *P )+int _cryptonite_blake2b_init_param( blake2b_state *S, const blake2b_param *P ) {- //blake2b_init0( S );- const uint8_t * v = ( const uint8_t * )( blake2b_IV );- const uint8_t * p = ( const uint8_t * )( P );- uint8_t * h = ( uint8_t * )( S->h );+ size_t i;+ /*blake2b_init0( S ); */+ const unsigned char * v = ( const unsigned char * )( blake2b_IV );+ const unsigned char * p = ( const unsigned char * )( P );+ unsigned char * h = ( unsigned char * )( S->h ); /* IV XOR ParamBlock */ memset( S, 0, sizeof( blake2b_state ) ); - for( int i = 0; i < BLAKE2B_OUTBYTES; ++i ) h[i] = v[i] ^ p[i];+ for( i = 0; i < BLAKE2B_OUTBYTES; ++i ) h[i] = v[i] ^ p[i]; + S->outlen = P->digest_length; return 0; } /* Some sort of default parameter block initialization, for sequential blake2b */-__attribute__((visibility ("hidden")))-int blake2b_init( blake2b_state *S, const uint8_t outlen )+int _cryptonite_blake2b_init( blake2b_state *S, size_t outlen ) {+ blake2b_param P[1];+ if ( ( !outlen ) || ( outlen > BLAKE2B_OUTBYTES ) ) return -1; - const blake2b_param P =- {- outlen,- 0,- 1,- 1,- 0,- 0,- 0,- 0,- {0},- {0},- {0}- };- return blake2b_init_param( S, &P );+ P->digest_length = (uint8_t)outlen;+ P->key_length = 0;+ P->fanout = 1;+ P->depth = 1;+ store32( &P->leaf_length, 0 );+ store32( &P->node_offset, 0 );+ store32( &P->xof_length, 0 );+ P->node_depth = 0;+ P->inner_length = 0;+ memset( P->reserved, 0, sizeof( P->reserved ) );+ memset( P->salt, 0, sizeof( P->salt ) );+ memset( P->personal, 0, sizeof( P->personal ) );++ return _cryptonite_blake2b_init_param( S, P ); } -__attribute__((visibility ("hidden")))-int blake2b_init_key( blake2b_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2b_init_key( blake2b_state *S, size_t outlen, const void *key, size_t keylen ) {+ blake2b_param P[1];+ if ( ( !outlen ) || ( outlen > BLAKE2B_OUTBYTES ) ) return -1; if ( ( !keylen ) || keylen > BLAKE2B_KEYBYTES ) return -1; - const blake2b_param P =- {- outlen,- keylen,- 1,- 1,- 0,- 0,- 0,- 0,- {0},- {0},- {0}- };+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen;+ P->fanout = 1;+ P->depth = 1;+ store32( &P->leaf_length, 0 );+ store32( &P->node_offset, 0 );+ store32( &P->xof_length, 0 );+ P->node_depth = 0;+ P->inner_length = 0;+ memset( P->reserved, 0, sizeof( P->reserved ) );+ memset( P->salt, 0, sizeof( P->salt ) );+ memset( P->personal, 0, sizeof( P->personal ) ); - if( blake2b_init_param( S, &P ) < 0 )+ if( _cryptonite_blake2b_init_param( S, P ) < 0 ) return 0; { uint8_t block[BLAKE2B_BLOCKBYTES]; memset( block, 0, BLAKE2B_BLOCKBYTES ); memcpy( block, key, keylen );- blake2b_update( S, block, BLAKE2B_BLOCKBYTES );+ _cryptonite_blake2b_update( S, block, BLAKE2B_BLOCKBYTES ); secure_zero_memory( block, BLAKE2B_BLOCKBYTES ); /* Burn the key from stack */ } return 0; } -static inline int blake2b_compress( blake2b_state *S, const uint8_t block[BLAKE2B_BLOCKBYTES] )+static void blake2b_compress( blake2b_state *S, const uint8_t block[BLAKE2B_BLOCKBYTES] ) { __m128i row1l, row1h; __m128i row2l, row2h;@@ -271,22 +170,22 @@ const __m128i m6 = LOADU( block + 96 ); const __m128i m7 = LOADU( block + 112 ); #else- const uint64_t m0 = ( ( uint64_t * )block )[ 0];- const uint64_t m1 = ( ( uint64_t * )block )[ 1];- const uint64_t m2 = ( ( uint64_t * )block )[ 2];- const uint64_t m3 = ( ( uint64_t * )block )[ 3];- const uint64_t m4 = ( ( uint64_t * )block )[ 4];- const uint64_t m5 = ( ( uint64_t * )block )[ 5];- const uint64_t m6 = ( ( uint64_t * )block )[ 6];- const uint64_t m7 = ( ( uint64_t * )block )[ 7];- const uint64_t m8 = ( ( uint64_t * )block )[ 8];- const uint64_t m9 = ( ( uint64_t * )block )[ 9];- const uint64_t m10 = ( ( uint64_t * )block )[10];- const uint64_t m11 = ( ( uint64_t * )block )[11];- const uint64_t m12 = ( ( uint64_t * )block )[12];- const uint64_t m13 = ( ( uint64_t * )block )[13];- const uint64_t m14 = ( ( uint64_t * )block )[14];- const uint64_t m15 = ( ( uint64_t * )block )[15];+ const uint64_t m0 = load64(block + 0 * sizeof(uint64_t));+ const uint64_t m1 = load64(block + 1 * sizeof(uint64_t));+ const uint64_t m2 = load64(block + 2 * sizeof(uint64_t));+ const uint64_t m3 = load64(block + 3 * sizeof(uint64_t));+ const uint64_t m4 = load64(block + 4 * sizeof(uint64_t));+ const uint64_t m5 = load64(block + 5 * sizeof(uint64_t));+ const uint64_t m6 = load64(block + 6 * sizeof(uint64_t));+ const uint64_t m7 = load64(block + 7 * sizeof(uint64_t));+ const uint64_t m8 = load64(block + 8 * sizeof(uint64_t));+ const uint64_t m9 = load64(block + 9 * sizeof(uint64_t));+ const uint64_t m10 = load64(block + 10 * sizeof(uint64_t));+ const uint64_t m11 = load64(block + 11 * sizeof(uint64_t));+ const uint64_t m12 = load64(block + 12 * sizeof(uint64_t));+ const uint64_t m13 = load64(block + 13 * sizeof(uint64_t));+ const uint64_t m14 = load64(block + 14 * sizeof(uint64_t));+ const uint64_t m15 = load64(block + 15 * sizeof(uint64_t)); #endif row1l = LOADU( &S->h[0] ); row1h = LOADU( &S->h[2] );@@ -316,64 +215,56 @@ row2h = _mm_xor_si128( row4h, row2h ); STOREU( &S->h[4], _mm_xor_si128( LOADU( &S->h[4] ), row2l ) ); STOREU( &S->h[6], _mm_xor_si128( LOADU( &S->h[6] ), row2h ) );- return 0; } -__attribute__((visibility ("hidden")))-int blake2b_update( blake2b_state *S, const uint8_t *in, uint64_t inlen )++int _cryptonite_blake2b_update( blake2b_state *S, const void *pin, size_t inlen ) {- while( inlen > 0 )+ const unsigned char * in = (const unsigned char *)pin;+ if( inlen > 0 ) { size_t left = S->buflen;- size_t fill = 2 * BLAKE2B_BLOCKBYTES - left;-+ size_t fill = BLAKE2B_BLOCKBYTES - left; if( inlen > fill ) {- memcpy( S->buf + left, in, fill ); // Fill buffer- S->buflen += fill;+ S->buflen = 0;+ memcpy( S->buf + left, in, fill ); /* Fill buffer */ blake2b_increment_counter( S, BLAKE2B_BLOCKBYTES );- blake2b_compress( S, S->buf ); // Compress- memcpy( S->buf, S->buf + BLAKE2B_BLOCKBYTES, BLAKE2B_BLOCKBYTES ); // Shift buffer left- S->buflen -= BLAKE2B_BLOCKBYTES;- in += fill;- inlen -= fill;- }- else // inlen <= fill- {- memcpy( S->buf + left, in, inlen );- S->buflen += inlen; // Be lazy, do not compress- in += inlen;- inlen -= inlen;+ blake2b_compress( S, S->buf ); /* Compress */+ in += fill; inlen -= fill;+ while(inlen > BLAKE2B_BLOCKBYTES) {+ blake2b_increment_counter(S, BLAKE2B_BLOCKBYTES);+ blake2b_compress( S, in );+ in += BLAKE2B_BLOCKBYTES;+ inlen -= BLAKE2B_BLOCKBYTES;+ } }+ memcpy( S->buf + S->buflen, in, inlen );+ S->buflen += inlen; }- return 0; } -__attribute__((visibility ("hidden")))-int blake2b_final( blake2b_state *S, uint8_t *out, uint8_t outlen )++int _cryptonite_blake2b_final( blake2b_state *S, void *out, size_t outlen ) {- if( outlen > BLAKE2B_OUTBYTES )+ if( out == NULL || outlen < S->outlen ) return -1; - if( S->buflen > BLAKE2B_BLOCKBYTES )- {- blake2b_increment_counter( S, BLAKE2B_BLOCKBYTES );- blake2b_compress( S, S->buf );- S->buflen -= BLAKE2B_BLOCKBYTES;- memcpy( S->buf, S->buf + BLAKE2B_BLOCKBYTES, S->buflen );- }+ if( blake2b_is_lastblock( S ) )+ return -1; blake2b_increment_counter( S, S->buflen ); blake2b_set_lastblock( S );- memset( S->buf + S->buflen, 0, 2 * BLAKE2B_BLOCKBYTES - S->buflen ); /* Padding */+ memset( S->buf + S->buflen, 0, BLAKE2B_BLOCKBYTES - S->buflen ); /* Padding */ blake2b_compress( S, S->buf );- memcpy( out, &S->h[0], outlen );++ memcpy( out, &S->h[0], S->outlen ); return 0; } -__attribute__((visibility ("hidden")))-int blake2b( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )++int _cryptonite_blake2b( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { blake2b_state S[1]; @@ -390,14 +281,93 @@ if( keylen ) {- if( blake2b_init_key( S, outlen, key, keylen ) < 0 ) return -1;+ if( _cryptonite_blake2b_init_key( S, outlen, key, keylen ) < 0 ) return -1; } else {- if( blake2b_init( S, outlen ) < 0 ) return -1;+ if( _cryptonite_blake2b_init( S, outlen ) < 0 ) return -1; } - blake2b_update( S, ( const uint8_t * )in, inlen );- blake2b_final( S, out, outlen );+ _cryptonite_blake2b_update( S, ( const uint8_t * )in, inlen );+ _cryptonite_blake2b_final( S, out, outlen ); return 0; }++int _cryptonite_blake2( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) {+ return _cryptonite_blake2b(out, outlen, in, inlen, key, keylen);+}++#if defined(SUPERCOP)+int crypto_hash( unsigned char *out, unsigned char *in, unsigned long long inlen )+{+ return _cryptonite_blake2b( out, BLAKE2B_OUTBYTES, in, inlen, NULL, 0 );+}+#endif++#if defined(BLAKE2B_SELFTEST)+#include <string.h>+#include "blake2-kat.h"+int main( void )+{+ uint8_t key[BLAKE2B_KEYBYTES];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step;++ for( i = 0; i < BLAKE2B_KEYBYTES; ++i )+ key[i] = ( uint8_t )i;++ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ buf[i] = ( uint8_t )i;++ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ {+ uint8_t hash[BLAKE2B_OUTBYTES];+ blake2b( hash, BLAKE2B_OUTBYTES, buf, i, key, BLAKE2B_KEYBYTES );++ if( 0 != memcmp( hash, blake2b_keyed_kat[i], BLAKE2B_OUTBYTES ) )+ {+ goto fail;+ }+ }++ /* Test streaming API */+ for(step = 1; step < BLAKE2B_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2B_OUTBYTES];+ blake2b_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2b_init_key(&S, BLAKE2B_OUTBYTES, key, BLAKE2B_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2b_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2b_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2b_final(&S, hash, BLAKE2B_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, blake2b_keyed_kat[i], BLAKE2B_OUTBYTES)) {+ goto fail;+ }+ }+ }++ puts( "ok" );+ return 0;+fail:+ puts("error");+ return -1;+}+#endif
cbits/blake2/sse/blake2bp.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdio.h>@@ -25,52 +27,70 @@ #define PARALLELISM_DEGREE 4 -static inline int blake2bp_init_leaf( blake2b_state *S, uint8_t outlen, uint8_t keylen, uint64_t offset )+/*+ blake2b_init_param defaults to setting the expecting output length+ from the digest_length parameter block field.++ In some cases, however, we do not want this, as the output length+ of these instances is given by inner_length instead.+*/+static int blake2bp_init_leaf_param( blake2b_state *S, const blake2b_param *P ) {+ int err = _cryptonite_blake2b_init_param(S, P);+ S->outlen = P->inner_length;+ return err;+}++static int blake2bp_init_leaf( blake2b_state *S, size_t outlen, size_t keylen, uint64_t offset )+{ blake2b_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; P->leaf_length = 0; P->node_offset = offset;+ P->xof_length = 0; P->node_depth = 0; P->inner_length = BLAKE2B_OUTBYTES; memset( P->reserved, 0, sizeof( P->reserved ) ); memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2b_init_param( S, P );+ return blake2bp_init_leaf_param( S, P ); } -static inline int blake2bp_init_root( blake2b_state *S, uint8_t outlen, uint8_t keylen )+static int blake2bp_init_root( blake2b_state *S, size_t outlen, size_t keylen ) { blake2b_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; P->leaf_length = 0; P->node_offset = 0;+ P->xof_length = 0; P->node_depth = 1; P->inner_length = BLAKE2B_OUTBYTES; memset( P->reserved, 0, sizeof( P->reserved ) ); memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2b_init_param( S, P );+ return _cryptonite_blake2b_init_param( S, P ); } -__attribute__((visibility ("hidden")))-int blake2bp_init( blake2bp_state *S, const uint8_t outlen )++int _cryptonite_blake2bp_init( blake2bp_state *S, size_t outlen ) {+ size_t i; if( !outlen || outlen > BLAKE2B_OUTBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2bp_init_root( S->R, outlen, 0 ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2bp_init_leaf( S->S[i], outlen, 0, i ) < 0 ) return -1; S->R->last_node = 1;@@ -78,20 +98,22 @@ return 0; } -__attribute__((visibility ("hidden")))-int blake2bp_init_key( blake2bp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2bp_init_key( blake2bp_state *S, size_t outlen, const void *key, size_t keylen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2B_OUTBYTES ) return -1; if( !key || !keylen || keylen > BLAKE2B_KEYBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2bp_init_root( S->R, outlen, keylen ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2bp_init_leaf( S->S[i], outlen, keylen, i ) < 0 ) return -1; S->R->last_node = 1;@@ -101,26 +123,28 @@ memset( block, 0, BLAKE2B_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S->S[i], block, BLAKE2B_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S->S[i], block, BLAKE2B_BLOCKBYTES ); secure_zero_memory( block, BLAKE2B_BLOCKBYTES ); /* Burn the key from stack */ } return 0; } -__attribute__((visibility ("hidden")))-int blake2bp_update( blake2bp_state *S, const uint8_t *in, uint64_t inlen )++int _cryptonite_blake2bp_update( blake2bp_state *S, const void *pin, size_t inlen ) {+ const unsigned char * in = (const unsigned char *)pin; size_t left = S->buflen; size_t fill = sizeof( S->buf ) - left;+ size_t i; if( left && inlen >= fill ) { memcpy( S->buf + left, in, fill ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, BLAKE2B_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, BLAKE2B_BLOCKBYTES ); in += fill; inlen -= fill;@@ -131,19 +155,19 @@ #pragma omp parallel shared(S), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2B_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2B_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES ) {- blake2b_update( S->S[id__], in__, BLAKE2B_BLOCKBYTES );+ _cryptonite_blake2b_update( S->S[i], in__, BLAKE2B_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; }@@ -160,12 +184,17 @@ } -__attribute__((visibility ("hidden")))-int blake2bp_final( blake2bp_state *S, uint8_t *out, const uint8_t outlen )++int _cryptonite_blake2bp_final( blake2bp_state *S, void *out, size_t outlen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2B_OUTBYTES];+ size_t i; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ if(out == NULL || outlen < S->outlen) {+ return -1;+ }++ for( i = 0; i < PARALLELISM_DEGREE; ++i ) { if( S->buflen > i * BLAKE2B_BLOCKBYTES ) {@@ -173,24 +202,24 @@ if( left > BLAKE2B_BLOCKBYTES ) left = BLAKE2B_BLOCKBYTES; - blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, left );+ _cryptonite_blake2b_update( S->S[i], S->buf + i * BLAKE2B_BLOCKBYTES, left ); } - blake2b_final( S->S[i], hash[i], BLAKE2B_OUTBYTES );+ _cryptonite_blake2b_final( S->S[i], hash[i], BLAKE2B_OUTBYTES ); } - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S->R, hash[i], BLAKE2B_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S->R, hash[i], BLAKE2B_OUTBYTES ); - return blake2b_final( S->R, out, outlen );+ return _cryptonite_blake2b_final( S->R, out, S->outlen ); } -__attribute__((visibility ("hidden")))-int blake2bp( uint8_t *out, const void *in, const void *key, uint8_t outlen, uint64_t inlen, uint8_t keylen )+int _cryptonite_blake2bp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2B_OUTBYTES]; blake2b_state S[PARALLELISM_DEGREE][1]; blake2b_state FS[1];+ size_t i; /* Verify parameters */ if ( NULL == in && inlen > 0 ) return -1;@@ -203,10 +232,10 @@ if( keylen > BLAKE2B_KEYBYTES ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2bp_init_leaf( S[i], outlen, keylen, i ) < 0 ) return -1; - S[PARALLELISM_DEGREE - 1]->last_node = 1; // mark last node+ S[PARALLELISM_DEGREE - 1]->last_node = 1; /* mark last node */ if( keylen > 0 ) {@@ -214,8 +243,8 @@ memset( block, 0, BLAKE2B_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( S[i], block, BLAKE2B_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( S[i], block, BLAKE2B_BLOCKBYTES ); secure_zero_memory( block, BLAKE2B_BLOCKBYTES ); /* Burn the key from stack */ }@@ -224,40 +253,109 @@ #pragma omp parallel shared(S,hash), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2B_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2B_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES ) {- blake2b_update( S[id__], in__, BLAKE2B_BLOCKBYTES );+ _cryptonite_blake2b_update( S[i], in__, BLAKE2B_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2B_BLOCKBYTES; } - if( inlen__ > id__ * BLAKE2B_BLOCKBYTES )+ if( inlen__ > i * BLAKE2B_BLOCKBYTES ) {- const size_t left = inlen__ - id__ * BLAKE2B_BLOCKBYTES;+ const size_t left = inlen__ - i * BLAKE2B_BLOCKBYTES; const size_t len = left <= BLAKE2B_BLOCKBYTES ? left : BLAKE2B_BLOCKBYTES;- blake2b_update( S[id__], in__, len );+ _cryptonite_blake2b_update( S[i], in__, len ); } - blake2b_final( S[id__], hash[id__], BLAKE2B_OUTBYTES );+ _cryptonite_blake2b_final( S[i], hash[i], BLAKE2B_OUTBYTES ); } if( blake2bp_init_root( FS, outlen, keylen ) < 0 ) return -1; - FS->last_node = 1; // Mark as last node+ FS->last_node = 1; /* Mark as last node */ - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2b_update( FS, hash[i], BLAKE2B_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2b_update( FS, hash[i], BLAKE2B_OUTBYTES ); - return blake2b_final( FS, out, outlen );+ return _cryptonite_blake2b_final( FS, out, outlen ); }+++#if defined(BLAKE2BP_SELFTEST)+#include <string.h>+#include "blake2-kat.h"+int main( void )+{+ uint8_t key[BLAKE2B_KEYBYTES];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step;++ for( i = 0; i < BLAKE2B_KEYBYTES; ++i )+ key[i] = ( uint8_t )i;++ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ buf[i] = ( uint8_t )i;++ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ {+ uint8_t hash[BLAKE2B_OUTBYTES];+ _cryptonite_blake2bp( hash, BLAKE2B_OUTBYTES, buf, i, key, BLAKE2B_KEYBYTES );++ if( 0 != memcmp( hash, blake2bp_keyed_kat[i], BLAKE2B_OUTBYTES ) )+ {+ goto fail;+ }+ }++ /* Test streaming API */+ for(step = 1; step < BLAKE2B_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2B_OUTBYTES];+ blake2bp_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2bp_init_key(&S, BLAKE2B_OUTBYTES, key, BLAKE2B_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2bp_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2bp_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2bp_final(&S, hash, BLAKE2B_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, blake2bp_keyed_kat[i], BLAKE2B_OUTBYTES)) {+ goto fail;+ }+ }+ }++ puts( "ok" );+ return 0;+fail:+ puts("error");+ return -1;+}+#endif
cbits/blake2/sse/blake2s-load-sse2.h view
@@ -1,18 +1,19 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2S_LOAD_SSE2_H__-#define __BLAKE2S_LOAD_SSE2_H__+#ifndef BLAKE2S_LOAD_SSE2_H+#define BLAKE2S_LOAD_SSE2_H #define LOAD_MSG_0_1(buf) buf = _mm_set_epi32(m6,m4,m2,m0) #define LOAD_MSG_0_2(buf) buf = _mm_set_epi32(m7,m5,m3,m1)
cbits/blake2/sse/blake2s-load-sse41.h view
@@ -1,18 +1,19 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2S_LOAD_SSE41_H__-#define __BLAKE2S_LOAD_SSE41_H__+#ifndef BLAKE2S_LOAD_SSE41_H+#define BLAKE2S_LOAD_SSE41_H #define LOAD_MSG_0_1(buf) \ buf = TOI(_mm_shuffle_ps(TOF(m0), TOF(m1), _MM_SHUFFLE(2,0,2,0)));@@ -226,4 +227,3 @@ buf = _mm_shuffle_epi32(t2,_MM_SHUFFLE(0,1,2,3)); #endif-
cbits/blake2/sse/blake2s-load-xop.h view
@@ -1,31 +1,34 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2S_LOAD_XOP_H__-#define __BLAKE2S_LOAD_XOP_H__+#ifndef BLAKE2S_LOAD_XOP_H+#define BLAKE2S_LOAD_XOP_H -#define TOB(x) ((x)*4*0x01010101 + 0x03020100) // ..or not TOB+#define TOB(x) ((x)*4*0x01010101 + 0x03020100) /* ..or not TOB */ +#if 0 /* Basic VPPERM emulation, for testing purposes */-/*static __m128i _mm_perm_epi8(const __m128i src1, const __m128i src2, const __m128i sel)+static __m128i _mm_perm_epi8(const __m128i src1, const __m128i src2, const __m128i sel) { const __m128i sixteen = _mm_set1_epi8(16); const __m128i t0 = _mm_shuffle_epi8(src1, sel); const __m128i s1 = _mm_shuffle_epi8(src2, _mm_sub_epi8(sel, sixteen)); const __m128i mask = _mm_or_si128(_mm_cmpeq_epi8(sel, sixteen),- _mm_cmpgt_epi8(sel, sixteen)); // (>=16) = 0xff : 00+ _mm_cmpgt_epi8(sel, sixteen)); /* (>=16) = 0xff : 00 */ return _mm_blendv_epi8(t0, s1, mask);-}*/+}+#endif #define LOAD_MSG_0_1(buf) \ buf = _mm_perm_epi8(m0, m1, _mm_set_epi32(TOB(6),TOB(4),TOB(2),TOB(0)) );@@ -166,7 +169,7 @@ #define LOAD_MSG_8_3(buf) \ t0 = _mm_perm_epi8(m0, m2, _mm_set_epi32(TOB(6),TOB(1),TOB(0),TOB(0)) ); \ buf = _mm_perm_epi8(t0, m3, _mm_set_epi32(TOB(3),TOB(2),TOB(5),TOB(4)) ); \- + #define LOAD_MSG_8_4(buf) \ buf = _mm_perm_epi8(m0, m1, _mm_set_epi32(TOB(5),TOB(4),TOB(7),TOB(2)) ); @@ -186,4 +189,3 @@ buf = _mm_perm_epi8(t1, m3, _mm_set_epi32(TOB(3),TOB(4),TOB(6),TOB(0)) ); #endif-
cbits/blake2/sse/blake2s-round.h view
@@ -1,18 +1,19 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */-#pragma once-#ifndef __BLAKE2S_ROUND_H__-#define __BLAKE2S_ROUND_H__+#ifndef BLAKE2S_ROUND_H+#define BLAKE2S_ROUND_H #define LOADU(p) _mm_loadu_si128( (const __m128i *)(p) ) #define STOREU(p,r) _mm_storeu_si128((__m128i *)(p), r)@@ -83,6 +84,5 @@ LOAD_MSG_ ##r ##_4(buf4); \ G2(row1,row2,row3,row4,buf4); \ UNDIAGONALIZE(row1,row2,row3,row4); \- -#endif +#endif
cbits/blake2/sse/blake2s.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdint.h>@@ -43,201 +45,112 @@ 0x510E527FUL, 0x9B05688CUL, 0x1F83D9ABUL, 0x5BE0CD19UL }; -static const uint8_t blake2s_sigma[10][16] =-{- { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 } ,- { 14, 10, 4, 8, 9, 15, 13, 6, 1, 12, 0, 2, 11, 7, 5, 3 } ,- { 11, 8, 12, 0, 5, 2, 15, 13, 10, 14, 3, 6, 7, 1, 9, 4 } ,- { 7, 9, 3, 1, 13, 12, 11, 14, 2, 6, 5, 10, 4, 0, 15, 8 } ,- { 9, 0, 5, 7, 2, 4, 10, 15, 14, 1, 11, 12, 6, 8, 3, 13 } ,- { 2, 12, 6, 10, 0, 11, 8, 3, 4, 13, 7, 5, 15, 14, 1, 9 } ,- { 12, 5, 1, 15, 14, 13, 4, 10, 0, 7, 6, 3, 9, 2, 8, 11 } ,- { 13, 11, 7, 14, 12, 1, 3, 9, 5, 0, 15, 4, 8, 6, 2, 10 } ,- { 6, 15, 14, 9, 11, 3, 0, 8, 12, 2, 13, 7, 1, 4, 10, 5 } ,- { 10, 2, 8, 4, 7, 6, 1, 5, 15, 11, 9, 14, 3, 12, 13 , 0 } ,-};---/* Some helper functions, not necessarily useful */-static inline int blake2s_set_lastnode( blake2s_state *S )+/* Some helper functions */+static void blake2s_set_lastnode( blake2s_state *S ) {- S->f[1] = -1;- return 0;+ S->f[1] = (uint32_t)-1; } -static inline int blake2s_clear_lastnode( blake2s_state *S )+static int blake2s_is_lastblock( const blake2s_state *S ) {- S->f[1] = 0;- return 0;+ return S->f[0] != 0; } -static inline int blake2s_set_lastblock( blake2s_state *S )+static void blake2s_set_lastblock( blake2s_state *S ) { if( S->last_node ) blake2s_set_lastnode( S ); - S->f[0] = -1;- return 0;-}--static inline int blake2s_clear_lastblock( blake2s_state *S )-{- if( S->last_node ) blake2s_clear_lastnode( S );-- S->f[0] = 0;- return 0;+ S->f[0] = (uint32_t)-1; } -static inline int blake2s_increment_counter( blake2s_state *S, const uint32_t inc )+static void blake2s_increment_counter( blake2s_state *S, const uint32_t inc ) { uint64_t t = ( ( uint64_t )S->t[1] << 32 ) | S->t[0]; t += inc; S->t[0] = ( uint32_t )( t >> 0 ); S->t[1] = ( uint32_t )( t >> 32 );- return 0; } --// Parameter-related functions-static inline int blake2s_param_set_digest_length( blake2s_param *P, const uint8_t digest_length )-{- P->digest_length = digest_length;- return 0;-}--static inline int blake2s_param_set_fanout( blake2s_param *P, const uint8_t fanout )-{- P->fanout = fanout;- return 0;-}--static inline int blake2s_param_set_max_depth( blake2s_param *P, const uint8_t depth )-{- P->depth = depth;- return 0;-}--static inline int blake2s_param_set_leaf_length( blake2s_param *P, const uint32_t leaf_length )-{- P->leaf_length = leaf_length;- return 0;-}--static inline int blake2s_param_set_node_offset( blake2s_param *P, const uint64_t node_offset )-{- store48( P->node_offset, node_offset );- return 0;-}--static inline int blake2s_param_set_node_depth( blake2s_param *P, const uint8_t node_depth )-{- P->node_depth = node_depth;- return 0;-}--static inline int blake2s_param_set_inner_length( blake2s_param *P, const uint8_t inner_length )-{- P->inner_length = inner_length;- return 0;-}--static inline int blake2s_param_set_salt( blake2s_param *P, const uint8_t salt[BLAKE2S_SALTBYTES] )-{- memcpy( P->salt, salt, BLAKE2S_SALTBYTES );- return 0;-}--static inline int blake2s_param_set_personal( blake2s_param *P, const uint8_t personal[BLAKE2S_PERSONALBYTES] )-{- memcpy( P->personal, personal, BLAKE2S_PERSONALBYTES );- return 0;-}--static inline int blake2s_init0( blake2s_state *S )-{- memset( S, 0, sizeof( blake2s_state ) );-- for( int i = 0; i < 8; ++i ) S->h[i] = blake2s_IV[i];-- return 0;-}- /* init2 xors IV with input parameter block */-__attribute__((visibility ("hidden")))-int blake2s_init_param( blake2s_state *S, const blake2s_param *P )+int _cryptonite_blake2s_init_param( blake2s_state *S, const blake2s_param *P ) {- //blake2s_init0( S );+ size_t i;+ /*blake2s_init0( S ); */ const uint8_t * v = ( const uint8_t * )( blake2s_IV ); const uint8_t * p = ( const uint8_t * )( P ); uint8_t * h = ( uint8_t * )( S->h ); /* IV XOR ParamBlock */ memset( S, 0, sizeof( blake2s_state ) ); - for( int i = 0; i < BLAKE2S_OUTBYTES; ++i ) h[i] = v[i] ^ p[i];+ for( i = 0; i < BLAKE2S_OUTBYTES; ++i ) h[i] = v[i] ^ p[i]; + S->outlen = P->digest_length; return 0; } /* Some sort of default parameter block initialization, for sequential blake2s */-__attribute__((visibility ("hidden")))-int blake2s_init( blake2s_state *S, const uint8_t outlen )+int _cryptonite_blake2s_init( blake2s_state *S, size_t outlen ) {+ blake2s_param P[1];+ /* Move interval verification here? */ if ( ( !outlen ) || ( outlen > BLAKE2S_OUTBYTES ) ) return -1; - const blake2s_param P =- {- outlen,- 0,- 1,- 1,- 0,- {0},- 0,- 0,- {0},- {0}- };- return blake2s_init_param( S, &P );+ P->digest_length = (uint8_t)outlen;+ P->key_length = 0;+ P->fanout = 1;+ P->depth = 1;+ store32( &P->leaf_length, 0 );+ store32( &P->node_offset, 0 );+ store16( &P->xof_length, 0 );+ P->node_depth = 0;+ P->inner_length = 0;+ /* memset(P->reserved, 0, sizeof(P->reserved) ); */+ memset( P->salt, 0, sizeof( P->salt ) );+ memset( P->personal, 0, sizeof( P->personal ) );++ return _cryptonite_blake2s_init_param( S, P ); } -__attribute__((visibility ("hidden")))-int blake2s_init_key( blake2s_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )++int _cryptonite_blake2s_init_key( blake2s_state *S, size_t outlen, const void *key, size_t keylen ) {+ blake2s_param P[1];+ /* Move interval verification here? */ if ( ( !outlen ) || ( outlen > BLAKE2S_OUTBYTES ) ) return -1; if ( ( !key ) || ( !keylen ) || keylen > BLAKE2S_KEYBYTES ) return -1; - const blake2s_param P =- {- outlen,- keylen,- 1,- 1,- 0,- {0},- 0,- 0,- {0},- {0}- };+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen;+ P->fanout = 1;+ P->depth = 1;+ store32( &P->leaf_length, 0 );+ store32( &P->node_offset, 0 );+ store16( &P->xof_length, 0 );+ P->node_depth = 0;+ P->inner_length = 0;+ /* memset(P->reserved, 0, sizeof(P->reserved) ); */+ memset( P->salt, 0, sizeof( P->salt ) );+ memset( P->personal, 0, sizeof( P->personal ) ); - if( blake2s_init_param( S, &P ) < 0 )+ if( _cryptonite_blake2s_init_param( S, P ) < 0 ) return -1; { uint8_t block[BLAKE2S_BLOCKBYTES]; memset( block, 0, BLAKE2S_BLOCKBYTES ); memcpy( block, key, keylen );- blake2s_update( S, block, BLAKE2S_BLOCKBYTES );+ _cryptonite_blake2s_update( S, block, BLAKE2S_BLOCKBYTES ); secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */ } return 0; } -static inline int blake2s_compress( blake2s_state *S, const uint8_t block[BLAKE2S_BLOCKBYTES] )+static void blake2s_compress( blake2s_state *S, const uint8_t block[BLAKE2S_BLOCKBYTES] ) { __m128i row1, row2, row3, row4; __m128i buf1, buf2, buf3, buf4;@@ -258,27 +171,27 @@ const __m128i m2 = LOADU( block + 32 ); const __m128i m3 = LOADU( block + 48 ); #else- const uint32_t m0 = ( ( uint32_t * )block )[ 0];- const uint32_t m1 = ( ( uint32_t * )block )[ 1];- const uint32_t m2 = ( ( uint32_t * )block )[ 2];- const uint32_t m3 = ( ( uint32_t * )block )[ 3];- const uint32_t m4 = ( ( uint32_t * )block )[ 4];- const uint32_t m5 = ( ( uint32_t * )block )[ 5];- const uint32_t m6 = ( ( uint32_t * )block )[ 6];- const uint32_t m7 = ( ( uint32_t * )block )[ 7];- const uint32_t m8 = ( ( uint32_t * )block )[ 8];- const uint32_t m9 = ( ( uint32_t * )block )[ 9];- const uint32_t m10 = ( ( uint32_t * )block )[10];- const uint32_t m11 = ( ( uint32_t * )block )[11];- const uint32_t m12 = ( ( uint32_t * )block )[12];- const uint32_t m13 = ( ( uint32_t * )block )[13];- const uint32_t m14 = ( ( uint32_t * )block )[14];- const uint32_t m15 = ( ( uint32_t * )block )[15];+ const uint32_t m0 = load32(block + 0 * sizeof(uint32_t));+ const uint32_t m1 = load32(block + 1 * sizeof(uint32_t));+ const uint32_t m2 = load32(block + 2 * sizeof(uint32_t));+ const uint32_t m3 = load32(block + 3 * sizeof(uint32_t));+ const uint32_t m4 = load32(block + 4 * sizeof(uint32_t));+ const uint32_t m5 = load32(block + 5 * sizeof(uint32_t));+ const uint32_t m6 = load32(block + 6 * sizeof(uint32_t));+ const uint32_t m7 = load32(block + 7 * sizeof(uint32_t));+ const uint32_t m8 = load32(block + 8 * sizeof(uint32_t));+ const uint32_t m9 = load32(block + 9 * sizeof(uint32_t));+ const uint32_t m10 = load32(block + 10 * sizeof(uint32_t));+ const uint32_t m11 = load32(block + 11 * sizeof(uint32_t));+ const uint32_t m12 = load32(block + 12 * sizeof(uint32_t));+ const uint32_t m13 = load32(block + 13 * sizeof(uint32_t));+ const uint32_t m14 = load32(block + 14 * sizeof(uint32_t));+ const uint32_t m15 = load32(block + 15 * sizeof(uint32_t)); #endif row1 = ff0 = LOADU( &S->h[0] ); row2 = ff1 = LOADU( &S->h[4] );- row3 = _mm_setr_epi32( 0x6A09E667, 0xBB67AE85, 0x3C6EF372, 0xA54FF53A );- row4 = _mm_xor_si128( _mm_setr_epi32( 0x510E527F, 0x9B05688C, 0x1F83D9AB, 0x5BE0CD19 ), LOADU( &S->t[0] ) );+ row3 = _mm_loadu_si128( (__m128i const *)&blake2s_IV[0] );+ row4 = _mm_xor_si128( _mm_loadu_si128( (__m128i const *)&blake2s_IV[4] ), LOADU( &S->t[0] ) ); ROUND( 0 ); ROUND( 1 ); ROUND( 2 );@@ -291,73 +204,61 @@ ROUND( 9 ); STOREU( &S->h[0], _mm_xor_si128( ff0, _mm_xor_si128( row1, row3 ) ) ); STOREU( &S->h[4], _mm_xor_si128( ff1, _mm_xor_si128( row2, row4 ) ) );- return 0; } -/* inlen now in bytes */-__attribute__((visibility ("hidden")))-int blake2s_update( blake2s_state *S, const uint8_t *in, uint64_t inlen )+int _cryptonite_blake2s_update( blake2s_state *S, const void *pin, size_t inlen ) {- while( inlen > 0 )+ const unsigned char * in = (const unsigned char *)pin;+ if( inlen > 0 ) { size_t left = S->buflen;- size_t fill = 2 * BLAKE2S_BLOCKBYTES - left;-+ size_t fill = BLAKE2S_BLOCKBYTES - left; if( inlen > fill ) {- memcpy( S->buf + left, in, fill ); // Fill buffer- S->buflen += fill;+ S->buflen = 0;+ memcpy( S->buf + left, in, fill ); /* Fill buffer */ blake2s_increment_counter( S, BLAKE2S_BLOCKBYTES );- blake2s_compress( S, S->buf ); // Compress- memcpy( S->buf, S->buf + BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES ); // Shift buffer left- S->buflen -= BLAKE2S_BLOCKBYTES;- in += fill;- inlen -= fill;- }- else // inlen <= fill- {- memcpy( S->buf + left, in, inlen );- S->buflen += inlen; // Be lazy, do not compress- in += inlen;- inlen -= inlen;+ blake2s_compress( S, S->buf ); /* Compress */+ in += fill; inlen -= fill;+ while(inlen > BLAKE2S_BLOCKBYTES) {+ blake2s_increment_counter(S, BLAKE2S_BLOCKBYTES);+ blake2s_compress( S, in );+ in += BLAKE2S_BLOCKBYTES;+ inlen -= BLAKE2S_BLOCKBYTES;+ } }+ memcpy( S->buf + S->buflen, in, inlen );+ S->buflen += inlen; }- return 0; } -/* Is this correct? */-__attribute__((visibility ("hidden")))-int blake2s_final( blake2s_state *S, uint8_t *out, uint8_t outlen )+int _cryptonite_blake2s_final( blake2s_state *S, void *out, size_t outlen ) { uint8_t buffer[BLAKE2S_OUTBYTES] = {0};+ size_t i; - if( outlen > BLAKE2S_OUTBYTES )+ if( out == NULL || outlen < S->outlen ) return -1; - if( S->buflen > BLAKE2S_BLOCKBYTES )- {- blake2s_increment_counter( S, BLAKE2S_BLOCKBYTES );- blake2s_compress( S, S->buf );- S->buflen -= BLAKE2S_BLOCKBYTES;- memcpy( S->buf, S->buf + BLAKE2S_BLOCKBYTES, S->buflen );- }+ if( blake2s_is_lastblock( S ) )+ return -1; - blake2s_increment_counter( S, ( uint32_t )S->buflen );+ blake2s_increment_counter( S, (uint32_t)S->buflen ); blake2s_set_lastblock( S );- memset( S->buf + S->buflen, 0, 2 * BLAKE2S_BLOCKBYTES - S->buflen ); /* Padding */+ memset( S->buf + S->buflen, 0, BLAKE2S_BLOCKBYTES - S->buflen ); /* Padding */ blake2s_compress( S, S->buf ); - for( int i = 0; i < 8; ++i ) /* Output full hash to temp buffer */+ for( i = 0; i < 8; ++i ) /* Output full hash to temp buffer */ store32( buffer + sizeof( S->h[i] ) * i, S->h[i] ); - memcpy( out, buffer, outlen );+ memcpy( out, buffer, S->outlen );+ secure_zero_memory( buffer, sizeof(buffer) ); return 0; } /* inlen, at least, should be uint64_t. Others can be size_t. */-__attribute__((visibility ("hidden")))-int blake2s( uint8_t *out, const void *in, const void *key, const uint8_t outlen, const uint64_t inlen, uint8_t keylen )+int blake2s( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { blake2s_state S[1]; @@ -374,14 +275,89 @@ if( keylen > 0 ) {- if( blake2s_init_key( S, outlen, key, keylen ) < 0 ) return -1;+ if( _cryptonite_blake2s_init_key( S, outlen, key, keylen ) < 0 ) return -1; } else {- if( blake2s_init( S, outlen ) < 0 ) return -1;+ if( _cryptonite_blake2s_init( S, outlen ) < 0 ) return -1; } - blake2s_update( S, ( const uint8_t * )in, inlen );- blake2s_final( S, out, outlen );+ _cryptonite_blake2s_update( S, ( const uint8_t * )in, inlen );+ _cryptonite_blake2s_final( S, out, outlen ); return 0; }++#if defined(SUPERCOP)+int crypto_hash( unsigned char *out, unsigned char *in, unsigned long long inlen )+{+ return blake2s( out, BLAKE2S_OUTBYTES, in, inlen, NULL, 0 );+}+#endif++#if defined(BLAKE2S_SELFTEST)+#include <string.h>+#include "blake2-kat.h"+int main( void )+{+ uint8_t key[BLAKE2S_KEYBYTES];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step;++ for( i = 0; i < BLAKE2S_KEYBYTES; ++i )+ key[i] = ( uint8_t )i;++ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ buf[i] = ( uint8_t )i;++ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ {+ uint8_t hash[BLAKE2S_OUTBYTES];+ blake2s( hash, BLAKE2S_OUTBYTES, buf, i, key, BLAKE2S_KEYBYTES );++ if( 0 != memcmp( hash, blake2s_keyed_kat[i], BLAKE2S_OUTBYTES ) )+ {+ goto fail;+ }+ }++ /* Test streaming API */+ for(step = 1; step < BLAKE2S_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2S_OUTBYTES];+ blake2s_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2s_init_key(&S, BLAKE2S_OUTBYTES, key, BLAKE2S_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2s_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2s_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2s_final(&S, hash, BLAKE2S_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, blake2s_keyed_kat[i], BLAKE2S_OUTBYTES)) {+ goto fail;+ }+ }+ }++ puts( "ok" );+ return 0;+fail:+ puts("error");+ return -1;+}+#endif
cbits/blake2/sse/blake2sp.c view
@@ -1,14 +1,16 @@ /* BLAKE2 reference source code package - optimized C implementations - Written in 2012 by Samuel Neves <sneves@dei.uc.pt>+ Copyright 2012, Samuel Neves <sneves@dei.uc.pt>. You may use this under the+ terms of the CC0, the OpenSSL Licence, or the Apache Public License 2.0, at+ your option. The terms of these licenses can be found at: - To the extent possible under law, the author(s) have dedicated all copyright- and related and neighboring rights to this software to the public domain- worldwide. This software is distributed without any warranty.+ - CC0 1.0 Universal : http://creativecommons.org/publicdomain/zero/1.0+ - OpenSSL license : https://www.openssl.org/source/license.html+ - Apache 2.0 : http://www.apache.org/licenses/LICENSE-2.0 - You should have received a copy of the CC0 Public Domain Dedication along with- this software. If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.+ More information about the BLAKE2 hash function can be found at+ https://blake2.net. */ #include <stdlib.h>@@ -24,50 +26,69 @@ #define PARALLELISM_DEGREE 8 -static inline int blake2sp_init_leaf( blake2s_state *S, uint8_t outlen, uint8_t keylen, uint64_t offset )+/*+ blake2sp_init_param defaults to setting the expecting output length+ from the digest_length parameter block field.++ In some cases, however, we do not want this, as the output length+ of these instances is given by inner_length instead.+*/+static int blake2sp_init_leaf_param( blake2s_state *S, const blake2s_param *P ) {+ int err = _cryptonite_blake2s_init_param(S, P);+ S->outlen = P->inner_length;+ return err;+}++static int blake2sp_init_leaf( blake2s_state *S, size_t outlen, size_t keylen, uint64_t offset )+{ blake2s_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; P->leaf_length = 0;- store48( P->node_offset, offset );+ P->node_offset = offset;+ P->xof_length = 0; P->node_depth = 0; P->inner_length = BLAKE2S_OUTBYTES; memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2s_init_param( S, P );+ return blake2sp_init_leaf_param( S, P ); } -static inline int blake2sp_init_root( blake2s_state *S, uint8_t outlen, uint8_t keylen )+static int blake2sp_init_root( blake2s_state *S, size_t outlen, size_t keylen ) { blake2s_param P[1];- P->digest_length = outlen;- P->key_length = keylen;+ P->digest_length = (uint8_t)outlen;+ P->key_length = (uint8_t)keylen; P->fanout = PARALLELISM_DEGREE; P->depth = 2; P->leaf_length = 0;- store48( P->node_offset, 0ULL );+ P->node_offset = 0;+ P->xof_length = 0; P->node_depth = 1; P->inner_length = BLAKE2S_OUTBYTES; memset( P->salt, 0, sizeof( P->salt ) ); memset( P->personal, 0, sizeof( P->personal ) );- return blake2s_init_param( S, P );+ return _cryptonite_blake2s_init_param( S, P ); } -__attribute__((visibility ("hidden")))-int blake2sp_init( blake2sp_state *S, const uint8_t outlen )++int _cryptonite_blake2sp_init( blake2sp_state *S, size_t outlen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2S_OUTBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2sp_init_root( S->R, outlen, 0 ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2sp_init_leaf( S->S[i], outlen, 0, i ) < 0 ) return -1; S->R->last_node = 1;@@ -75,20 +96,22 @@ return 0; } -__attribute__((visibility ("hidden")))-int blake2sp_init_key( blake2sp_state *S, const uint8_t outlen, const void *key, const uint8_t keylen )+int _cryptonite_blake2sp_init_key( blake2sp_state *S, size_t outlen, const void *key, size_t keylen ) {+ size_t i;+ if( !outlen || outlen > BLAKE2S_OUTBYTES ) return -1; if( !key || !keylen || keylen > BLAKE2S_KEYBYTES ) return -1; memset( S->buf, 0, sizeof( S->buf ) ); S->buflen = 0;+ S->outlen = outlen; if( blake2sp_init_root( S->R, outlen, keylen ) < 0 ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2sp_init_leaf( S->S[i], outlen, keylen, i ) < 0 ) return -1; S->R->last_node = 1;@@ -98,26 +121,28 @@ memset( block, 0, BLAKE2S_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S->S[i], block, BLAKE2S_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S->S[i], block, BLAKE2S_BLOCKBYTES ); secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */ } return 0; } -__attribute__((visibility ("hidden")))-int blake2sp_update( blake2sp_state *S, const uint8_t *in, uint64_t inlen )++int _cryptonite_blake2sp_update( blake2sp_state *S, const void *pin, size_t inlen ) {+ const unsigned char * in = (const unsigned char *)pin; size_t left = S->buflen; size_t fill = sizeof( S->buf ) - left;+ size_t i; if( left && inlen >= fill ) { memcpy( S->buf + left, in, fill ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, BLAKE2S_BLOCKBYTES ); in += fill; inlen -= fill;@@ -128,19 +153,19 @@ #pragma omp parallel shared(S), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2S_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2S_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES ) {- blake2s_update( S->S[id__], in__, BLAKE2S_BLOCKBYTES );+ _cryptonite_blake2s_update( S->S[i], in__, BLAKE2S_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; }@@ -156,12 +181,17 @@ return 0; } -__attribute__((visibility ("hidden")))-int blake2sp_final( blake2sp_state *S, uint8_t *out, const uint8_t outlen )++int _cryptonite_blake2sp_final( blake2sp_state *S, void *out, size_t outlen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2S_OUTBYTES];+ size_t i; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ if(out == NULL || outlen < S->outlen) {+ return -1;+ }++ for( i = 0; i < PARALLELISM_DEGREE; ++i ) { if( S->buflen > i * BLAKE2S_BLOCKBYTES ) {@@ -169,24 +199,25 @@ if( left > BLAKE2S_BLOCKBYTES ) left = BLAKE2S_BLOCKBYTES; - blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, left );+ _cryptonite_blake2s_update( S->S[i], S->buf + i * BLAKE2S_BLOCKBYTES, left ); } - blake2s_final( S->S[i], hash[i], BLAKE2S_OUTBYTES );+ _cryptonite_blake2s_final( S->S[i], hash[i], BLAKE2S_OUTBYTES ); } - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S->R, hash[i], BLAKE2S_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S->R, hash[i], BLAKE2S_OUTBYTES ); - return blake2s_final( S->R, out, outlen );+ return _cryptonite_blake2s_final( S->R, out, S->outlen ); } -__attribute__((visibility ("hidden")))-int blake2sp( uint8_t *out, const void *in, const void *key, uint8_t outlen, uint64_t inlen, uint8_t keylen )++int _cryptonite_blake2sp( void *out, size_t outlen, const void *in, size_t inlen, const void *key, size_t keylen ) { uint8_t hash[PARALLELISM_DEGREE][BLAKE2S_OUTBYTES]; blake2s_state S[PARALLELISM_DEGREE][1]; blake2s_state FS[1];+ size_t i; /* Verify parameters */ if ( NULL == in && inlen > 0 ) return -1;@@ -199,10 +230,10 @@ if( keylen > BLAKE2S_KEYBYTES ) return -1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) if( blake2sp_init_leaf( S[i], outlen, keylen, i ) < 0 ) return -1; - S[PARALLELISM_DEGREE - 1]->last_node = 1; // mark last node+ S[PARALLELISM_DEGREE - 1]->last_node = 1; /* mark last node */ if( keylen > 0 ) {@@ -210,8 +241,8 @@ memset( block, 0, BLAKE2S_BLOCKBYTES ); memcpy( block, key, keylen ); - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( S[i], block, BLAKE2S_BLOCKBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( S[i], block, BLAKE2S_BLOCKBYTES ); secure_zero_memory( block, BLAKE2S_BLOCKBYTES ); /* Burn the key from stack */ }@@ -220,31 +251,31 @@ #pragma omp parallel shared(S,hash), num_threads(PARALLELISM_DEGREE) #else - for( size_t id__ = 0; id__ < PARALLELISM_DEGREE; ++id__ )+ for( i = 0; i < PARALLELISM_DEGREE; ++i ) #endif { #if defined(_OPENMP)- size_t id__ = omp_get_thread_num();+ size_t i = omp_get_thread_num(); #endif- uint64_t inlen__ = inlen;- const uint8_t *in__ = ( const uint8_t * )in;- in__ += id__ * BLAKE2S_BLOCKBYTES;+ size_t inlen__ = inlen;+ const unsigned char *in__ = ( const unsigned char * )in;+ in__ += i * BLAKE2S_BLOCKBYTES; while( inlen__ >= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES ) {- blake2s_update( S[id__], in__, BLAKE2S_BLOCKBYTES );+ _cryptonite_blake2s_update( S[i], in__, BLAKE2S_BLOCKBYTES ); in__ += PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; inlen__ -= PARALLELISM_DEGREE * BLAKE2S_BLOCKBYTES; } - if( inlen__ > id__ * BLAKE2S_BLOCKBYTES )+ if( inlen__ > i * BLAKE2S_BLOCKBYTES ) {- const size_t left = inlen__ - id__ * BLAKE2S_BLOCKBYTES;+ const size_t left = inlen__ - i * BLAKE2S_BLOCKBYTES; const size_t len = left <= BLAKE2S_BLOCKBYTES ? left : BLAKE2S_BLOCKBYTES;- blake2s_update( S[id__], in__, len );+ _cryptonite_blake2s_update( S[i], in__, len ); } - blake2s_final( S[id__], hash[id__], BLAKE2S_OUTBYTES );+ _cryptonite_blake2s_final( S[i], hash[i], BLAKE2S_OUTBYTES ); } if( blake2sp_init_root( FS, outlen, keylen ) < 0 )@@ -252,8 +283,76 @@ FS->last_node = 1; - for( size_t i = 0; i < PARALLELISM_DEGREE; ++i )- blake2s_update( FS, hash[i], BLAKE2S_OUTBYTES );+ for( i = 0; i < PARALLELISM_DEGREE; ++i )+ _cryptonite_blake2s_update( FS, hash[i], BLAKE2S_OUTBYTES ); - return blake2s_final( FS, out, outlen );+ return _cryptonite_blake2s_final( FS, out, outlen ); }++#if defined(BLAKE2SP_SELFTEST)+#include <string.h>+#include "blake2-kat.h"+int main( void )+{+ uint8_t key[BLAKE2S_KEYBYTES];+ uint8_t buf[BLAKE2_KAT_LENGTH];+ size_t i, step;++ for( i = 0; i < BLAKE2S_KEYBYTES; ++i )+ key[i] = ( uint8_t )i;++ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ buf[i] = ( uint8_t )i;++ /* Test simple API */+ for( i = 0; i < BLAKE2_KAT_LENGTH; ++i )+ {+ uint8_t hash[BLAKE2S_OUTBYTES];+ _cryptonite_blake2sp( hash, BLAKE2S_OUTBYTES, buf, i, key, BLAKE2S_KEYBYTES );++ if( 0 != memcmp( hash, blake2sp_keyed_kat[i], BLAKE2S_OUTBYTES ) )+ {+ goto fail;+ }+ }++ /* Test streaming API */+ for(step = 1; step < BLAKE2S_BLOCKBYTES; ++step) {+ for (i = 0; i < BLAKE2_KAT_LENGTH; ++i) {+ uint8_t hash[BLAKE2S_OUTBYTES];+ blake2sp_state S;+ uint8_t * p = buf;+ size_t mlen = i;+ int err = 0;++ if( (err = _cryptonite_blake2sp_init_key(&S, BLAKE2S_OUTBYTES, key, BLAKE2S_KEYBYTES)) < 0 ) {+ goto fail;+ }++ while (mlen >= step) {+ if ( (err = _cryptonite_blake2sp_update(&S, p, step)) < 0 ) {+ goto fail;+ }+ mlen -= step;+ p += step;+ }+ if ( (err = _cryptonite_blake2sp_update(&S, p, mlen)) < 0) {+ goto fail;+ }+ if ( (err = _cryptonite_blake2sp_final(&S, hash, BLAKE2S_OUTBYTES)) < 0) {+ goto fail;+ }++ if (0 != memcmp(hash, blake2sp_keyed_kat[i], BLAKE2S_OUTBYTES)) {+ goto fail;+ }+ }+ }++ puts( "ok" );+ return 0;+fail:+ puts("error");+ return -1;+}+#endif
cbits/cryptonite_aes.c view
@@ -44,6 +44,7 @@ void cryptonite_aes_generic_encrypt_cbc(aes_block *output, aes_key *key, aes_block *iv, aes_block *input, uint32_t nb_blocks); void cryptonite_aes_generic_decrypt_cbc(aes_block *output, aes_key *key, aes_block *iv, aes_block *input, uint32_t nb_blocks); void cryptonite_aes_generic_encrypt_ctr(uint8_t *output, aes_key *key, aes_block *iv, uint8_t *input, uint32_t length);+void cryptonite_aes_generic_encrypt_c32(uint8_t *output, aes_key *key, aes_block *iv, uint8_t *input, uint32_t length); void cryptonite_aes_generic_encrypt_xts(aes_block *output, aes_key *k1, aes_key *k2, aes_block *dataunit, uint32_t spoint, aes_block *input, uint32_t nb_blocks); void cryptonite_aes_generic_decrypt_xts(aes_block *output, aes_key *k1, aes_key *k2, aes_block *dataunit,@@ -52,6 +53,8 @@ void cryptonite_aes_generic_gcm_decrypt(uint8_t *output, aes_gcm *gcm, aes_key *key, uint8_t *input, uint32_t length); void cryptonite_aes_generic_ocb_encrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length); void cryptonite_aes_generic_ocb_decrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length);+void cryptonite_aes_generic_ccm_encrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length);+void cryptonite_aes_generic_ccm_decrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length); enum { /* init */@@ -67,6 +70,8 @@ DECRYPT_CBC_128, DECRYPT_CBC_192, DECRYPT_CBC_256, /* ctr */ ENCRYPT_CTR_128, ENCRYPT_CTR_192, ENCRYPT_CTR_256,+ /* ctr with 32-bit wrapping */+ ENCRYPT_C32_128, ENCRYPT_C32_192, ENCRYPT_C32_256, /* xts */ ENCRYPT_XTS_128, ENCRYPT_XTS_192, ENCRYPT_XTS_256, DECRYPT_XTS_128, DECRYPT_XTS_192, DECRYPT_XTS_256,@@ -76,6 +81,11 @@ /* ocb */ ENCRYPT_OCB_128, ENCRYPT_OCB_192, ENCRYPT_OCB_256, DECRYPT_OCB_128, DECRYPT_OCB_192, DECRYPT_OCB_256,+ /* ccm */+ ENCRYPT_CCM_128, ENCRYPT_CCM_192, ENCRYPT_CCM_256,+ DECRYPT_CCM_128, DECRYPT_CCM_192, DECRYPT_CCM_256,+ /* ghash */+ GHASH_HINIT, GHASH_GF_MUL, }; void *cryptonite_aes_branch_table[] = {@@ -108,6 +118,10 @@ [ENCRYPT_CTR_128] = cryptonite_aes_generic_encrypt_ctr, [ENCRYPT_CTR_192] = cryptonite_aes_generic_encrypt_ctr, [ENCRYPT_CTR_256] = cryptonite_aes_generic_encrypt_ctr,+ /* CTR with 32-bit wrapping */+ [ENCRYPT_C32_128] = cryptonite_aes_generic_encrypt_c32,+ [ENCRYPT_C32_192] = cryptonite_aes_generic_encrypt_c32,+ [ENCRYPT_C32_256] = cryptonite_aes_generic_encrypt_c32, /* XTS */ [ENCRYPT_XTS_128] = cryptonite_aes_generic_encrypt_xts, [ENCRYPT_XTS_192] = cryptonite_aes_generic_encrypt_xts,@@ -129,6 +143,16 @@ [DECRYPT_OCB_128] = cryptonite_aes_generic_ocb_decrypt, [DECRYPT_OCB_192] = cryptonite_aes_generic_ocb_decrypt, [DECRYPT_OCB_256] = cryptonite_aes_generic_ocb_decrypt,+ /* CCM */+ [ENCRYPT_CCM_128] = cryptonite_aes_generic_ccm_encrypt,+ [ENCRYPT_CCM_192] = cryptonite_aes_generic_ccm_encrypt,+ [ENCRYPT_CCM_256] = cryptonite_aes_generic_ccm_encrypt,+ [DECRYPT_CCM_128] = cryptonite_aes_generic_ccm_decrypt,+ [DECRYPT_CCM_192] = cryptonite_aes_generic_ccm_decrypt,+ [DECRYPT_CCM_256] = cryptonite_aes_generic_ccm_decrypt,+ /* GHASH */+ [GHASH_HINIT] = cryptonite_aes_generic_hinit,+ [GHASH_GF_MUL] = cryptonite_aes_generic_gf_mul, }; typedef void (*init_f)(aes_key *, uint8_t *, uint8_t);@@ -138,7 +162,10 @@ typedef void (*xts_f)(aes_block *output, aes_key *k1, aes_key *k2, aes_block *dataunit, uint32_t spoint, aes_block *input, uint32_t nb_blocks); typedef void (*gcm_crypt_f)(uint8_t *output, aes_gcm *gcm, aes_key *key, uint8_t *input, uint32_t length); typedef void (*ocb_crypt_f)(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length);+typedef void (*ccm_crypt_f)(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length); typedef void (*block_f)(aes_block *output, aes_key *key, aes_block *input);+typedef void (*hinit_f)(table_4bit htable, const block128 *h);+typedef void (*gf_mul_f)(block128 *a, const table_4bit htable); #ifdef WITH_AESNI #define GET_INIT(strength) \@@ -153,6 +180,8 @@ ((cbc_f) (cryptonite_aes_branch_table[DECRYPT_CBC_128 + strength])) #define GET_CTR_ENCRYPT(strength) \ ((ctr_f) (cryptonite_aes_branch_table[ENCRYPT_CTR_128 + strength]))+#define GET_C32_ENCRYPT(strength) \+ ((ctr_f) (cryptonite_aes_branch_table[ENCRYPT_C32_128 + strength])) #define GET_XTS_ENCRYPT(strength) \ ((xts_f) (cryptonite_aes_branch_table[ENCRYPT_XTS_128 + strength])) #define GET_XTS_DECRYPT(strength) \@@ -165,10 +194,18 @@ ((ocb_crypt_f) (cryptonite_aes_branch_table[ENCRYPT_OCB_128 + strength])) #define GET_OCB_DECRYPT(strength) \ ((ocb_crypt_f) (cryptonite_aes_branch_table[DECRYPT_OCB_128 + strength]))+#define GET_CCM_ENCRYPT(strength) \+ ((ccm_crypt_f) (cryptonite_aes_branch_table[ENCRYPT_CCM_128 + strength]))+#define GET_CCM_DECRYPT(strength) \+ ((ccm_crypt_f) (cryptonite_aes_branch_table[DECRYPT_CCM_128 + strength])) #define cryptonite_aes_encrypt_block(o,k,i) \ (((block_f) (cryptonite_aes_branch_table[ENCRYPT_BLOCK_128 + k->strength]))(o,k,i)) #define cryptonite_aes_decrypt_block(o,k,i) \ (((block_f) (cryptonite_aes_branch_table[DECRYPT_BLOCK_128 + k->strength]))(o,k,i))+#define cryptonite_hinit(t,h) \+ (((hinit_f) (cryptonite_aes_branch_table[GHASH_HINIT]))(t,h))+#define cryptonite_gf_mul(a,t) \+ (((gf_mul_f) (cryptonite_aes_branch_table[GHASH_GF_MUL]))(a,t)) #else #define GET_INIT(strenght) cryptonite_aes_generic_init #define GET_ECB_ENCRYPT(strength) cryptonite_aes_generic_encrypt_ecb@@ -176,21 +213,34 @@ #define GET_CBC_ENCRYPT(strength) cryptonite_aes_generic_encrypt_cbc #define GET_CBC_DECRYPT(strength) cryptonite_aes_generic_decrypt_cbc #define GET_CTR_ENCRYPT(strength) cryptonite_aes_generic_encrypt_ctr+#define GET_C32_ENCRYPT(strength) cryptonite_aes_generic_encrypt_c32 #define GET_XTS_ENCRYPT(strength) cryptonite_aes_generic_encrypt_xts #define GET_XTS_DECRYPT(strength) cryptonite_aes_generic_decrypt_xts #define GET_GCM_ENCRYPT(strength) cryptonite_aes_generic_gcm_encrypt #define GET_GCM_DECRYPT(strength) cryptonite_aes_generic_gcm_decrypt #define GET_OCB_ENCRYPT(strength) cryptonite_aes_generic_ocb_encrypt #define GET_OCB_DECRYPT(strength) cryptonite_aes_generic_ocb_decrypt+#define GET_CCM_ENCRYPT(strength) cryptonite_aes_generic_ccm_encrypt+#define GET_CCM_DECRYPT(strength) cryptonite_aes_generic_ccm_decrypt #define cryptonite_aes_encrypt_block(o,k,i) cryptonite_aes_generic_encrypt_block(o,k,i) #define cryptonite_aes_decrypt_block(o,k,i) cryptonite_aes_generic_decrypt_block(o,k,i)+#define cryptonite_hinit(t,h) cryptonite_aes_generic_hinit(t,h)+#define cryptonite_gf_mul(a,t) cryptonite_aes_generic_gf_mul(a,t) #endif +#define CPU_AESNI 0+#define CPU_PCLMUL 1+#define CPU_OPTION_COUNT 2++static uint8_t cryptonite_aes_cpu_options[CPU_OPTION_COUNT] = {};+ #if defined(ARCH_X86) && defined(WITH_AESNI) static void initialize_table_ni(int aesni, int pclmul) { if (!aesni) return;+ cryptonite_aes_cpu_options[CPU_AESNI] = 1;+ cryptonite_aes_branch_table[INIT_128] = cryptonite_aesni_init; cryptonite_aes_branch_table[INIT_256] = cryptonite_aesni_init; @@ -211,6 +261,9 @@ /* CTR */ cryptonite_aes_branch_table[ENCRYPT_CTR_128] = cryptonite_aesni_encrypt_ctr128; cryptonite_aes_branch_table[ENCRYPT_CTR_256] = cryptonite_aesni_encrypt_ctr256;+ /* CTR with 32-bit wrapping */+ cryptonite_aes_branch_table[ENCRYPT_C32_128] = cryptonite_aesni_encrypt_c32_128;+ cryptonite_aes_branch_table[ENCRYPT_C32_256] = cryptonite_aesni_encrypt_c32_256; /* XTS */ cryptonite_aes_branch_table[ENCRYPT_XTS_128] = cryptonite_aesni_encrypt_xts128; cryptonite_aes_branch_table[ENCRYPT_XTS_256] = cryptonite_aesni_encrypt_xts256;@@ -222,9 +275,27 @@ cryptonite_aes_branch_table[ENCRYPT_OCB_128] = cryptonite_aesni_ocb_encrypt128; cryptonite_aes_branch_table[ENCRYPT_OCB_256] = cryptonite_aesni_ocb_encrypt256; */+#ifdef WITH_PCLMUL+ if (!pclmul)+ return;+ cryptonite_aes_cpu_options[CPU_PCLMUL] = 1;++ /* GHASH */+ cryptonite_aes_branch_table[GHASH_HINIT] = cryptonite_aesni_hinit_pclmul,+ cryptonite_aes_branch_table[GHASH_GF_MUL] = cryptonite_aesni_gf_mul_pclmul,+ cryptonite_aesni_init_pclmul();+#endif } #endif +uint8_t *cryptonite_aes_cpu_init(void)+{+#if defined(ARCH_X86) && defined(WITH_AESNI)+ cryptonite_aesni_initialize_hw(initialize_table_ni);+#endif+ return cryptonite_aes_cpu_options;+}+ void cryptonite_aes_initkey(aes_key *key, uint8_t *origkey, uint8_t size) { switch (size) {@@ -232,9 +303,7 @@ case 24: key->nbr = 12; key->strength = 1; break; case 32: key->nbr = 14; key->strength = 2; break; }-#if defined(ARCH_X86) && defined(WITH_AESNI)- cryptonite_aesni_initialize_hw(initialize_table_ni);-#endif+ cryptonite_aes_cpu_init(); init_f _init = GET_INIT(key->strength); _init(key, origkey, size); }@@ -296,6 +365,12 @@ e(output, key, iv, input, len); } +void cryptonite_aes_encrypt_c32(uint8_t *output, aes_key *key, aes_block *iv, uint8_t *input, uint32_t len)+{+ ctr_f e = GET_C32_ENCRYPT(key->strength);+ e(output, key, iv, input, len);+}+ void cryptonite_aes_encrypt_xts(aes_block *output, aes_key *k1, aes_key *k2, aes_block *dataunit, uint32_t spoint, aes_block *input, uint32_t nb_blocks) {@@ -321,6 +396,18 @@ d(output, gcm, key, input, length); } +void cryptonite_aes_ccm_encrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length)+{+ ccm_crypt_f e = GET_CCM_ENCRYPT(key->strength);+ e(output, ccm, key, input, length);+}++void cryptonite_aes_ccm_decrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length)+{+ ccm_crypt_f d = GET_CCM_DECRYPT(key->strength);+ d(output, ccm, key, input, length);+}+ void cryptonite_aes_ocb_encrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length) { ocb_crypt_f e = GET_OCB_ENCRYPT(key->strength);@@ -336,20 +423,22 @@ static void gcm_ghash_add(aes_gcm *gcm, block128 *b) { block128_xor(&gcm->tag, b);- cryptonite_gf_mul(&gcm->tag, &gcm->h);+ cryptonite_gf_mul(&gcm->tag, gcm->htable); } void cryptonite_aes_gcm_init(aes_gcm *gcm, aes_key *key, uint8_t *iv, uint32_t len) {+ block128 h; gcm->length_aad = 0; gcm->length_input = 0; - block128_zero(&gcm->h);+ block128_zero(&h); block128_zero(&gcm->tag); block128_zero(&gcm->iv); /* prepare H : encrypt_K(0^128) */- cryptonite_aes_encrypt_block(&gcm->h, key, &gcm->h);+ cryptonite_aes_encrypt_block(&h, key, &h);+ cryptonite_hinit(gcm->htable, &h); if (len == 12) { block128_copy_bytes(&gcm->iv, iv, 12);@@ -359,18 +448,18 @@ int i; for (; len >= 16; len -= 16, iv += 16) { block128_xor(&gcm->iv, (block128 *) iv);- cryptonite_gf_mul(&gcm->iv, &gcm->h);+ cryptonite_gf_mul(&gcm->iv, gcm->htable); } if (len > 0) { block128_xor_bytes(&gcm->iv, iv, len);- cryptonite_gf_mul(&gcm->iv, &gcm->h);+ cryptonite_gf_mul(&gcm->iv, gcm->htable); } for (i = 15; origlen; --i, origlen >>= 8) gcm->iv.b[i] ^= (uint8_t) origlen;- cryptonite_gf_mul(&gcm->iv, &gcm->h);+ cryptonite_gf_mul(&gcm->iv, gcm->htable); } - block128_copy(&gcm->civ, &gcm->iv);+ block128_copy_aligned(&gcm->civ, &gcm->iv); } void cryptonite_aes_gcm_aad(aes_gcm *gcm, uint8_t *input, uint32_t length)@@ -399,13 +488,147 @@ gcm_ghash_add(gcm, &lblock); cryptonite_aes_encrypt_block(&lblock, key, &gcm->iv);- block128_xor(&gcm->tag, &lblock);+ block128_xor_aligned(&gcm->tag, &lblock); for (i = 0; i < 16; i++) { tag[i] = gcm->tag.b[i]; } } +static inline uint8_t ccm_b0_flags(uint32_t has_adata, uint32_t m, uint32_t l)+{+ return 8*m + l + (has_adata? 64: 0);+}++/* depends on input size */+static void ccm_encode_b0(block128* output, aes_ccm* ccm, uint32_t has_adata)+{+ int last = 15;+ uint32_t m = ccm->length_M;+ uint32_t l = ccm->length_L;+ uint32_t msg_len = ccm->length_input;++ block128_zero(output);+ block128_copy_aligned(output, &ccm->nonce);+ output->b[0] = ccm_b0_flags(has_adata, (m-2)/2, l-1);+ while (msg_len > 0) {+ output->b[last--] = msg_len & 0xff;+ msg_len >>= 8;+ }+}++/* encode adata length */+static int ccm_encode_la(block128* output, uint32_t la)+{+ if (la < ( (1 << 16) - (1 << 8)) ) {+ output->b[0] = (la >> 8) & 0xff;+ output->b[1] = la & 0xff;+ return 2;+ } else {+ output->b[0] = 0xff;+ output->b[1] = 0xfe;+ output->b[2] = (la >> 24) & 0xff;+ output->b[3] = (la >> 16) & 0xff;+ output->b[4] = (la >> 8) & 0xff;+ output->b[5] = la & 0xff;+ return 6;+ }+}++static void ccm_encode_ctr(block128* out, aes_ccm* ccm, unsigned int cnt)+{+ int last = 15;+ block128_copy_aligned(out, &ccm->nonce);+ out->b[0] = ccm->length_L - 1;++ while (cnt > 0) {+ out->b[last--] = cnt & 0xff;+ cnt >>= 8;+ }+}++static void ccm_cbcmac_add(aes_ccm* ccm, aes_key* key, block128* bi)+{+ block128_xor_aligned(&ccm->xi, bi);+ cryptonite_aes_encrypt_block(&ccm->xi, key, &ccm->xi);+}++/* even though it is possible to support message size as large as 2^64, we support up to 2^32 only */+void cryptonite_aes_ccm_init(aes_ccm *ccm, aes_key *key, uint8_t *nonce, uint32_t nonce_len, uint32_t input_size, int m, int l)+{+ memset(ccm, 0, sizeof(aes_ccm));++ if (l < 2 || l > 4) return;+ if (m != 4 && m != 6 && m != 8 && m != 10+ && m != 12 && m != 14 && m != 16) return;++ if (nonce_len > 15 - l) {+ nonce_len = 15 - l;+ }++ if (l <= 4) {+ if (input_size >= (1ull << (8*l))) return;+ }++ ccm->length_L = l;+ ccm->length_M = m;+ ccm->length_input = input_size;++ memcpy(&ccm->nonce.b[1], nonce, nonce_len);++ ccm_encode_b0(&ccm->b0, ccm, 1); /* assume aad is present */+ cryptonite_aes_encrypt_block(&ccm->xi, key, &ccm->b0);+}++/* even though l(a) can be as large as 2^64, we only handle aad up to 2 ^ 32 for practical reasons.+ Also we don't support incremental aad add, because the 1st encoded adata has length information+ */+void cryptonite_aes_ccm_aad(aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length)+{+ block128 tmp;++ if (ccm->length_aad != 0) return;++ ccm->length_aad = length;+ int len_len;++ block128_zero(&tmp);+ len_len = ccm_encode_la(&tmp, length);++ if (length < 16 - len_len) {+ memcpy(&tmp.b[len_len], input, length);+ length = 0;+ } else {+ memcpy(&tmp.b[len_len], input, 16 - len_len);+ input += 16 - len_len;+ length -= 16 - len_len;+ }++ ccm_cbcmac_add(ccm, key, &tmp);++ for (; length >= 16; input += 16, length -= 16) {+ block128_copy(&tmp, (block128*)input);+ ccm_cbcmac_add(ccm, key, &tmp);++ }+ if (length > 0) {+ block128_zero(&tmp);+ block128_copy_bytes(&tmp, input, length);+ ccm_cbcmac_add(ccm, key, &tmp);+ }+ block128_copy_aligned(&ccm->header_cbcmac, &ccm->xi);+}++void cryptonite_aes_ccm_finish(uint8_t *tag, aes_ccm *ccm, aes_key *key)+{+ block128 iv, s0;++ block128_zero(&iv);+ ccm_encode_ctr(&iv, ccm, 0);+ cryptonite_aes_encrypt_block(&s0, key, &iv);+ block128_vxor((block128*)tag, &ccm->xi, &s0);+}+ static inline void ocb_block_double(block128 *d, block128 *s) { unsigned int i;@@ -464,7 +687,7 @@ memcpy(stretch, ktop.b, 16); memcpy(tmp.b, ktop.b + 1, 8);- block128_xor(&tmp, &ktop);+ block128_xor_aligned(&tmp, &ktop); memcpy(stretch + 16, tmp.b, 8); /* initialize the encryption offset from stretch */@@ -490,22 +713,22 @@ for (i=1; i<= length/16; i++, input=input+16) { ocb_get_L_i(&tmp, ocb->li, i);- block128_xor(&ocb->offset_aad, &tmp);+ block128_xor_aligned(&ocb->offset_aad, &tmp); block128_vxor(&tmp, &ocb->offset_aad, (block128 *) input); cryptonite_aes_encrypt_block(&tmp, key, &tmp);- block128_xor(&ocb->sum_aad, &tmp);+ block128_xor_aligned(&ocb->sum_aad, &tmp); } length = length % 16; /* Bytes in final block */ if (length > 0) {- block128_xor(&ocb->offset_aad, &ocb->lstar);+ block128_xor_aligned(&ocb->offset_aad, &ocb->lstar); block128_zero(&tmp); block128_copy_bytes(&tmp, input, length); tmp.b[length] = 0x80;- block128_xor(&tmp, &ocb->offset_aad);+ block128_xor_aligned(&tmp, &ocb->offset_aad); cryptonite_aes_encrypt_block(&tmp, key, &tmp);- block128_xor(&ocb->sum_aad, &tmp);+ block128_xor_aligned(&ocb->sum_aad, &tmp); } } @@ -513,8 +736,8 @@ { block128 tmp; - block128_vxor(&tmp, &ocb->sum_enc, &ocb->offset_enc);- block128_xor(&tmp, &ocb->ldollar);+ block128_vxor_aligned(&tmp, &ocb->sum_enc, &ocb->offset_enc);+ block128_xor_aligned(&tmp, &ocb->ldollar); cryptonite_aes_encrypt_block((block128 *) tag, key, &tmp); block128_xor((block128 *) tag, &ocb->sum_aad); }@@ -585,6 +808,30 @@ } } +void cryptonite_aes_generic_encrypt_c32(uint8_t *output, aes_key *key, aes_block *iv, uint8_t *input, uint32_t len)+{+ aes_block block, o;+ uint32_t nb_blocks = len / 16;+ int i;++ /* preload IV in block */+ block128_copy(&block, iv);++ for ( ; nb_blocks-- > 0; block128_inc32_le(&block), output += 16, input += 16) {+ cryptonite_aes_encrypt_block(&o, key, &block);+ block128_vxor((block128 *) output, &o, (block128 *) input);+ }++ if ((len % 16) != 0) {+ cryptonite_aes_encrypt_block(&o, key, &block);+ for (i = 0; i < (len % 16); i++) {+ *output = ((uint8_t *) &o)[i] ^ *input;+ output++;+ input++;+ }+ }+}+ void cryptonite_aes_generic_encrypt_xts(aes_block *output, aes_key *k1, aes_key *k2, aes_block *dataunit, uint32_t spoint, aes_block *input, uint32_t nb_blocks) {@@ -596,9 +843,9 @@ /* TO OPTIMISE: this is really inefficient way to do that */ while (spoint-- > 0)- cryptonite_gf_mulx(&tweak);+ cryptonite_aes_generic_gf_mulx(&tweak); - for ( ; nb_blocks-- > 0; input++, output++, cryptonite_gf_mulx(&tweak)) {+ for ( ; nb_blocks-- > 0; input++, output++, cryptonite_aes_generic_gf_mulx(&tweak)) { block128_vxor(&block, input, &tweak); cryptonite_aes_encrypt_block(&block, k1, &block); block128_vxor(output, &block, &tweak);@@ -616,9 +863,9 @@ /* TO OPTIMISE: this is really inefficient way to do that */ while (spoint-- > 0)- cryptonite_gf_mulx(&tweak);+ cryptonite_aes_generic_gf_mulx(&tweak); - for ( ; nb_blocks-- > 0; input++, output++, cryptonite_gf_mulx(&tweak)) {+ for ( ; nb_blocks-- > 0; input++, output++, cryptonite_aes_generic_gf_mulx(&tweak)) { block128_vxor(&block, input, &tweak); cryptonite_aes_decrypt_block(&block, k1, &block); block128_vxor(output, &block, &tweak);@@ -631,7 +878,7 @@ gcm->length_input += length; for (; length >= 16; input += 16, output += 16, length -= 16) {- block128_inc_be(&gcm->civ);+ block128_inc32_be(&gcm->civ); cryptonite_aes_encrypt_block(&out, key, &gcm->civ); block128_xor(&out, (block128 *) input);@@ -642,7 +889,7 @@ aes_block tmp; int i; - block128_inc_be(&gcm->civ);+ block128_inc32_be(&gcm->civ); /* create e(civ) in out */ cryptonite_aes_encrypt_block(&out, key, &gcm->civ); /* initialize a tmp as input and xor it to e(civ) */@@ -664,7 +911,7 @@ gcm->length_input += length; for (; length >= 16; input += 16, output += 16, length -= 16) {- block128_inc_be(&gcm->civ);+ block128_inc32_be(&gcm->civ); cryptonite_aes_encrypt_block(&out, key, &gcm->civ); gcm_ghash_add(gcm, (block128 *) input);@@ -675,7 +922,7 @@ aes_block tmp; int i; - block128_inc_be(&gcm->civ);+ block128_inc32_be(&gcm->civ); block128_zero(&tmp); block128_copy_bytes(&tmp, input, length);@@ -699,7 +946,7 @@ for (i = 1; i <= length/16; i++, input += 16, output += 16) { /* Offset_i = Offset_{i-1} xor L_{ntz(i)} */ ocb_get_L_i(&tmp, ocb->li, i);- block128_xor(&ocb->offset_enc, &tmp);+ block128_xor_aligned(&ocb->offset_enc, &tmp); block128_vxor(&tmp, &ocb->offset_enc, (block128 *) input); if (encrypt) {@@ -716,29 +963,89 @@ /* process the last partial block if any */ length = length % 16; if (length > 0) {- block128_xor(&ocb->offset_enc, &ocb->lstar);+ block128_xor_aligned(&ocb->offset_enc, &ocb->lstar); cryptonite_aes_encrypt_block(&pad, key, &ocb->offset_enc); if (encrypt) { block128_zero(&tmp); block128_copy_bytes(&tmp, input, length); tmp.b[length] = 0x80;- block128_xor(&ocb->sum_enc, &tmp);- block128_xor(&pad, &tmp);+ block128_xor_aligned(&ocb->sum_enc, &tmp);+ block128_xor_aligned(&pad, &tmp); memcpy(output, pad.b, length); output += length; } else {- block128_copy(&tmp, &pad);+ block128_copy_aligned(&tmp, &pad); block128_copy_bytes(&tmp, input, length);- block128_xor(&tmp, &pad);+ block128_xor_aligned(&tmp, &pad); tmp.b[length] = 0x80; memcpy(output, tmp.b, length);- block128_xor(&ocb->sum_enc, &tmp);+ block128_xor_aligned(&ocb->sum_enc, &tmp); input += length; } } } +void cryptonite_aes_generic_ccm_encrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length)+{+ block128 tmp, ctr;++ /* when aad is absent, reset b0 block */+ if (ccm->length_aad == 0) {+ ccm_encode_b0(&ccm->b0, ccm, 0); /* assume aad is present */+ cryptonite_aes_encrypt_block(&ccm->xi, key, &ccm->b0);+ block128_copy_aligned(&ccm->header_cbcmac, &ccm->xi);+ }++ if (length != ccm->length_input) {+ return;+ }++ ccm_encode_ctr(&ctr, ccm, 1);+ cryptonite_aes_encrypt_ctr(output, key, &ctr, input, length);++ for (;length >= 16; input += 16, length -= 16) {+ block128_copy(&tmp, (block128*)input);+ ccm_cbcmac_add(ccm, key, &tmp);+ }+ if (length > 0) {+ block128_zero(&tmp);+ block128_copy_bytes(&tmp, input, length);+ ccm_cbcmac_add(ccm, key, &tmp);+ }+}++void cryptonite_aes_generic_ccm_decrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length)+{+ block128 tmp, ctr;++ if (length != ccm->length_input) {+ return;+ }++ /* when aad is absent, reset b0 block */+ if (ccm->length_aad == 0) {+ ccm_encode_b0(&ccm->b0, ccm, 0); /* assume aad is present */+ cryptonite_aes_encrypt_block(&ccm->xi, key, &ccm->b0);+ block128_copy_aligned(&ccm->header_cbcmac, &ccm->xi);+ }++ ccm_encode_ctr(&ctr, ccm, 1);+ cryptonite_aes_encrypt_ctr(output, key, &ctr, input, length);+ block128_copy_aligned(&ccm->xi, &ccm->header_cbcmac);+ input = output;++ for (;length >= 16; input += 16, length -= 16) {+ block128_copy(&tmp, (block128*)input);+ ccm_cbcmac_add(ccm, key, &tmp);+ }+ if (length > 0) {+ block128_zero(&tmp);+ block128_copy_bytes(&tmp, input, length);+ ccm_cbcmac_add(ccm, key, &tmp);+ }+}+ void cryptonite_aes_generic_ocb_encrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length) { ocb_generic_crypt(output, ocb, key, input, length, 1);@@ -747,4 +1054,56 @@ void cryptonite_aes_generic_ocb_decrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length) { ocb_generic_crypt(output, ocb, key, input, length, 0);+}++static inline void gf_mulx_rev(block128 *a, const block128 *h)+{+ uint64_t v1 = cpu_to_le64(h->q[0]);+ uint64_t v0 = cpu_to_le64(h->q[1]);+ a->q[1] = cpu_to_be64(v1 >> 1 | v0 << 63);+ a->q[0] = cpu_to_be64(v0 >> 1 ^ ((0-(v1 & 1)) & 0xe100000000000000ULL));+}++void cryptonite_aes_polyval_init(aes_polyval *ctx, const aes_block *h)+{+ aes_block r;++ /* ByteReverse(S_0) = 0 */+ block128_zero(&ctx->s);++ /* ByteReverse(H) * x */+ gf_mulx_rev(&r, h);+ cryptonite_hinit(ctx->htable, &r);+}++void cryptonite_aes_polyval_update(aes_polyval *ctx, const uint8_t *input, uint32_t length)+{+ aes_block r;+ const uint8_t *p;+ uint32_t sz;++ /* This automatically pads with zeros if input is not a multiple of the+ block size. */+ for (p = input; length > 0; p += 16, length -= sz)+ {+ sz = length < 16 ? length : 16;++ /* ByteReverse(X_j) */+ block128_zero(&r);+ memcpy(&r, p, sz);+ block128_byte_reverse(&r);++ /* ByteReverse(S_{j-1}) + ByteReverse(X_j) */+ block128_xor_aligned(&ctx->s, &r);++ /* ByteReverse(S_j) */+ cryptonite_gf_mul(&ctx->s, ctx->htable);+ }+}++void cryptonite_aes_polyval_finalize(aes_polyval *ctx, aes_block *dst)+{+ /* S_s */+ block128_copy_aligned(dst, &ctx->s);+ block128_byte_reverse(dst); }
cbits/cryptonite_aes.h view
@@ -45,17 +45,29 @@ uint8_t data[16*14*2]; } aes_key; -/* size = 4*16+2*8= 80 */+/* size = 19*16+2*8= 320 */ typedef struct { aes_block tag;- aes_block h;+ aes_block htable[16]; aes_block iv; aes_block civ; uint64_t length_aad; uint64_t length_input; } aes_gcm; +/* size = 4*16+4*4= 80 */ typedef struct {+ aes_block xi;+ aes_block header_cbcmac;+ aes_block b0;+ aes_block nonce;+ uint32_t length_aad;+ uint32_t length_input;+ uint32_t length_M;+ uint32_t length_L;+} aes_ccm;++typedef struct { block128 offset_aad; block128 offset_enc; block128 sum_aad;@@ -65,6 +77,12 @@ block128 li[4]; } aes_ocb; +/* size = 17*16= 272 */+typedef struct {+ aes_block htable[16];+ aes_block s;+} aes_polyval;+ /* in bytes: either 16,24,32 */ void cryptonite_aes_initkey(aes_key *ctx, uint8_t *key, uint8_t size); @@ -96,5 +114,17 @@ void cryptonite_aes_ocb_encrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length); void cryptonite_aes_ocb_decrypt(uint8_t *output, aes_ocb *ocb, aes_key *key, uint8_t *input, uint32_t length); void cryptonite_aes_ocb_finish(uint8_t *tag, aes_ocb *ocb, aes_key *key);++void cryptonite_aes_ccm_init(aes_ccm *ccm, aes_key *key, uint8_t *nonce, uint32_t len, uint32_t msg_size, int m, int l);+void cryptonite_aes_ccm_aad(aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length);+void cryptonite_aes_ccm_encrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length);+void cryptonite_aes_ccm_decrypt(uint8_t *output, aes_ccm *ccm, aes_key *key, uint8_t *input, uint32_t length);+void cryptonite_aes_ccm_finish(uint8_t *tag, aes_ccm *ccm, aes_key *key);++uint8_t *cryptonite_aes_cpu_init(void);++void cryptonite_aes_polyval_init(aes_polyval *ctx, const aes_block *h);+void cryptonite_aes_polyval_update(aes_polyval *ctx, const uint8_t *input, uint32_t length);+void cryptonite_aes_polyval_finalize(aes_polyval *ctx, aes_block *dst); #endif
+ cbits/cryptonite_align.h view
@@ -0,0 +1,140 @@+#ifndef CRYPTONITE_ALIGN_H+#define CRYPTONITE_ALIGN_H++#include "cryptonite_bitfn.h"++#if (defined(__i386__))+# define UNALIGNED_ACCESS_OK+#elif defined(__x86_64__)+# define UNALIGNED_ACCESS_OK+#else+# define UNALIGNED_ACCESS_FAULT+#endif++/* n need to be power of 2.+ * IS_ALIGNED(p,8) */+#define IS_ALIGNED(p,alignment) (((uintptr_t) (p)) & ((alignment)-1))++#ifdef WITH_ASSERT_ALIGNMENT+#include <stdio.h>+#include <stdlib.h>+#include <inttypes.h>+# define ASSERT_ALIGNMENT(up, alignment) \+ do { if (IS_ALIGNED(up, alignment)) \+ { printf("ALIGNMENT-ASSERT-FAILURE: %s:%d: ptr=%p alignment=%d\n", __FILE__, __LINE__, (void *) up, (alignment)); \+ exit(99); \+ }; } while (0)+#else+# define ASSERT_ALIGNMENT(p, n) do {} while (0)+#endif++#ifdef UNALIGNED_ACCESS_OK+#define need_alignment(p,n) (0)+#else+#define need_alignment(p,n) IS_ALIGNED(p,n)+#endif++static inline uint32_t load_le32_aligned(const uint8_t *p)+{+ return le32_to_cpu(*((uint32_t *) p)); +}++static inline void store_le32_aligned(uint8_t *dst, const uint32_t v)+{+ *((uint32_t *) dst) = cpu_to_le32(v);+}++static inline void xor_le32_aligned(uint8_t *dst, const uint32_t v)+{+ *((uint32_t *) dst) ^= cpu_to_le32(v);+}++static inline void store_be32_aligned(uint8_t *dst, const uint32_t v)+{+ *((uint32_t *) dst) = cpu_to_be32(v);+}++static inline void xor_be32_aligned(uint8_t *dst, const uint32_t v)+{+ *((uint32_t *) dst) ^= cpu_to_be32(v);+}++static inline void store_le64_aligned(uint8_t *dst, const uint64_t v)+{+ *((uint64_t *) dst) = cpu_to_le64(v);+}++static inline void store_be64_aligned(uint8_t *dst, const uint64_t v)+{+ *((uint64_t *) dst) = cpu_to_be64(v);+}++static inline void xor_be64_aligned(uint8_t *dst, const uint64_t v)+{+ *((uint64_t *) dst) ^= cpu_to_be64(v);+}++#ifdef UNALIGNED_ACCESS_OK+#define load_le32(a) load_le32_aligned(a)+#else+static inline uint32_t load_le32(const uint8_t *p)+{+ return ((uint32_t)p[0]) | ((uint32_t)p[1] << 8) | ((uint32_t)p[2] << 16) | ((uint32_t)p[3] << 24);+}+#endif++#ifdef UNALIGNED_ACCESS_OK+#define store_le32(a, b) store_le32_aligned(a, b)+#define xor_le32(a, b) xor_le32_aligned(a, b)+#else+static inline void store_le32(uint8_t *dst, const uint32_t v)+{+ dst[0] = v; dst[1] = v >> 8; dst[2] = v >> 16; dst[3] = v >> 24;+}+static inline void xor_le32(uint8_t *dst, const uint32_t v)+{+ dst[0] ^= v; dst[1] ^= v >> 8; dst[2] ^= v >> 16; dst[3] ^= v >> 24;+}+#endif++#ifdef UNALIGNED_ACCESS_OK+#define store_be32(a, b) store_be32_aligned(a, b)+#define xor_be32(a, b) xor_be32_aligned(a, b)+#else+static inline void store_be32(uint8_t *dst, const uint32_t v)+{+ dst[3] = v; dst[2] = v >> 8; dst[1] = v >> 16; dst[0] = v >> 24;+}+static inline void xor_be32(uint8_t *dst, const uint32_t v)+{+ dst[3] ^= v; dst[2] ^= v >> 8; dst[1] ^= v >> 16; dst[0] ^= v >> 24;+}+#endif++#ifdef UNALIGNED_ACCESS_OK+#define store_le64(a, b) store_le64_aligned(a, b)+#else+static inline void store_le64(uint8_t *dst, const uint64_t v)+{+ dst[0] = v ; dst[1] = v >> 8 ; dst[2] = v >> 16; dst[3] = v >> 24;+ dst[4] = v >> 32; dst[5] = v >> 40; dst[6] = v >> 48; dst[7] = v >> 56;+}+#endif++#ifdef UNALIGNED_ACCESS_OK+#define store_be64(a, b) store_be64_aligned(a, b)+#define xor_be64(a, b) xor_be64_aligned(a, b)+#else+static inline void store_be64(uint8_t *dst, const uint64_t v)+{+ dst[7] = v ; dst[6] = v >> 8 ; dst[5] = v >> 16; dst[4] = v >> 24;+ dst[3] = v >> 32; dst[2] = v >> 40; dst[1] = v >> 48; dst[0] = v >> 56;+}+static inline void xor_be64(uint8_t *dst, const uint64_t v)+{+ dst[7] ^= v ; dst[6] ^= v >> 8 ; dst[5] ^= v >> 16; dst[4] ^= v >> 24;+ dst[3] ^= v >> 32; dst[2] ^= v >> 40; dst[1] ^= v >> 48; dst[0] ^= v >> 56;+}+#endif++#endif
cbits/cryptonite_blake2b.c view
@@ -2,15 +2,15 @@ void cryptonite_blake2b_init(blake2b_ctx *ctx, uint32_t hashlen) {- blake2b_init(ctx, hashlen / 8);+ _cryptonite_blake2b_init(ctx, hashlen / 8); } void cryptonite_blake2b_update(blake2b_ctx *ctx, const uint8_t *data, uint32_t len) {- blake2b_update(ctx, data, len);+ _cryptonite_blake2b_update(ctx, data, len); } void cryptonite_blake2b_finalize(blake2b_ctx *ctx, uint32_t hashlen, uint8_t *out) {- blake2b_final(ctx, out, hashlen / 8);+ _cryptonite_blake2b_final(ctx, out, hashlen / 8); }
cbits/cryptonite_blake2bp.c view
@@ -2,15 +2,15 @@ void cryptonite_blake2bp_init(blake2bp_ctx *ctx, uint32_t hashlen) {- blake2bp_init(ctx, hashlen / 8);+ _cryptonite_blake2bp_init(ctx, hashlen / 8); } void cryptonite_blake2bp_update(blake2bp_ctx *ctx, const uint8_t *data, uint32_t len) {- blake2bp_update(ctx, data, len);+ _cryptonite_blake2bp_update(ctx, data, len); } void cryptonite_blake2bp_finalize(blake2bp_ctx *ctx, uint32_t hashlen, uint8_t *out) {- blake2bp_final(ctx, out, hashlen / 8);+ _cryptonite_blake2bp_final(ctx, out, hashlen / 8); }
cbits/cryptonite_blake2s.c view
@@ -2,15 +2,15 @@ void cryptonite_blake2s_init(blake2s_ctx *ctx, uint32_t hashlen) {- blake2s_init(ctx, hashlen / 8);+ _cryptonite_blake2s_init(ctx, hashlen / 8); } void cryptonite_blake2s_update(blake2s_ctx *ctx, const uint8_t *data, uint32_t len) {- blake2s_update(ctx, data, len);+ _cryptonite_blake2s_update(ctx, data, len); } void cryptonite_blake2s_finalize(blake2s_ctx *ctx, uint32_t hashlen, uint8_t *out) {- blake2s_final(ctx, out, hashlen / 8);+ _cryptonite_blake2s_final(ctx, out, hashlen / 8); }
cbits/cryptonite_blake2sp.c view
@@ -2,15 +2,15 @@ void cryptonite_blake2sp_init(blake2sp_ctx *ctx, uint32_t hashlen) {- blake2sp_init(ctx, hashlen / 8);+ _cryptonite_blake2sp_init(ctx, hashlen / 8); } void cryptonite_blake2sp_update(blake2sp_ctx *ctx, const uint8_t *data, uint32_t len) {- blake2sp_update(ctx, data, len);+ _cryptonite_blake2sp_update(ctx, data, len); } void cryptonite_blake2sp_finalize(blake2sp_ctx *ctx, uint32_t hashlen, uint8_t *out) {- blake2sp_final(ctx, out, hashlen / 8);+ _cryptonite_blake2sp_final(ctx, out, hashlen / 8); }
cbits/cryptonite_chacha.c view
@@ -32,6 +32,7 @@ #include <string.h> #include "cryptonite_chacha.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include <stdio.h> #define QR(a,b,c,d) \@@ -46,11 +47,6 @@ static const uint8_t sigma[16] = "expand 32-byte k"; static const uint8_t tau[16] = "expand 16-byte k"; -static inline uint32_t load32(const uint8_t *p)-{- return le32_to_cpu(*((uint32_t *) p));-}- static void chacha_core(int rounds, block *out, const cryptonite_chacha_state *in) { uint32_t x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15;@@ -102,35 +98,36 @@ uint32_t ivlen, const uint8_t *iv) { const uint8_t *constants = (keylen == 32) ? sigma : tau;- int i; - st->d[0] = load32(constants + 0);- st->d[1] = load32(constants + 4);- st->d[2] = load32(constants + 8);- st->d[3] = load32(constants + 12);+ ASSERT_ALIGNMENT(constants, 4); - st->d[4] = load32(key + 0);- st->d[5] = load32(key + 4);- st->d[6] = load32(key + 8);- st->d[7] = load32(key + 12);+ st->d[0] = load_le32_aligned(constants + 0);+ st->d[1] = load_le32_aligned(constants + 4);+ st->d[2] = load_le32_aligned(constants + 8);+ st->d[3] = load_le32_aligned(constants + 12);++ st->d[4] = load_le32(key + 0);+ st->d[5] = load_le32(key + 4);+ st->d[6] = load_le32(key + 8);+ st->d[7] = load_le32(key + 12); /* we repeat the key on 128 bits */ if (keylen == 32) key += 16;- st->d[8] = load32(key + 0);- st->d[9] = load32(key + 4);- st->d[10] = load32(key + 8);- st->d[11] = load32(key + 12);+ st->d[8] = load_le32(key + 0);+ st->d[9] = load_le32(key + 4);+ st->d[10] = load_le32(key + 8);+ st->d[11] = load_le32(key + 12); st->d[12] = 0; switch (ivlen) { case 8: st->d[13] = 0;- st->d[14] = load32(iv + 0);- st->d[15] = load32(iv + 4);+ st->d[14] = load_le32(iv + 0);+ st->d[15] = load_le32(iv + 4); break; case 12:- st->d[13] = load32(iv + 0);- st->d[14] = load32(iv + 4);- st->d[15] = load32(iv + 8);+ st->d[13] = load_le32(iv + 0);+ st->d[14] = load_le32(iv + 4);+ st->d[15] = load_le32(iv + 8); default: return; }
+ cbits/cryptonite_hash_prefix.c view
@@ -0,0 +1,90 @@+/*+ * Copyright (C) 2020 Olivier Chéron <olivier.cheron@gmail.com>+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions+ * are met:+ * 1. Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * 2. Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ *+ * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES+ * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.+ * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT+ * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF+ * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */++#include <cryptonite_hash_prefix.h>++void CRYPTONITE_HASHED(finalize_prefix)(struct HASHED_LOWER(ctx) *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out)+{+ uint64_t bits[HASHED(BITS_ELEMS)];+ uint8_t *p = (uint8_t *) &bits;+ uint32_t index, padidx, padlen, pos, out_mask;+ static const uint32_t cut_off = HASHED(BLOCK_SIZE) - sizeof(bits);++ /* Make sure n <= len */+ n += (len - n) & constant_time_lt(len, n);++ /* Initial index, based on current context state */+ index = CRYPTONITE_HASHED(get_index)(ctx);++ /* Final size after n bytes */+ CRYPTONITE_HASHED(incr_sz)(ctx, bits, n);++ /* Padding index and length */+ padidx = CRYPTONITE_HASHED(get_index)(ctx);+ padlen = HASHED(BLOCK_SIZE) + cut_off - padidx;+ padlen -= HASHED(BLOCK_SIZE) & constant_time_lt(padidx, cut_off);++ /* Initialize buffers because we will XOR into them */+ memset(ctx->buf + index, 0, HASHED(BLOCK_SIZE) - index);+ memset(out, 0, HASHED(DIGEST_SIZE));+ pos = 0;++ /* Iterate based on the full buffer length, regardless of n, and include+ * the maximum overhead with padding and size bytes+ */+ while (pos < len + HASHED(BLOCK_SIZE) + sizeof(bits)) {+ uint8_t b;++ /* Take as many bytes from the input buffer as possible */+ if (pos < len)+ b = *(data++) & (uint8_t) constant_time_lt(pos, n);+ else+ b = 0;++ /* First padding byte */+ b |= 0x80 & (uint8_t) constant_time_eq(pos, n);++ /* Size bytes are always at the end of a block */+ if (index >= cut_off)+ b |= p[index - cut_off] & (uint8_t) constant_time_ge(pos, n + padlen);++ /* Store this byte into the buffer */+ ctx->buf[index++] ^= b;+ pos++;++ /* Process a full block, at a boundary which is independent from n */+ if (index >= HASHED(BLOCK_SIZE)) {+ index = 0;+ HASHED_LOWER(do_chunk)(ctx, (void *) ctx->buf);+ memset(ctx->buf, 0, HASHED(BLOCK_SIZE));++ /* Try to store the result: this is a no-op except when we reach the+ * actual size based on n, more iterations may continue after that+ * when len is really larger+ */+ out_mask = constant_time_eq(pos, n + padlen + sizeof(bits));+ CRYPTONITE_HASHED(select_digest)(ctx, out, out_mask);+ }+ }+}
+ cbits/cryptonite_hash_prefix.h view
@@ -0,0 +1,65 @@+/*+ * Copyright (C) 2020 Olivier Chéron <olivier.cheron@gmail.com>+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions+ * are met:+ * 1. Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * 2. Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ *+ * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES+ * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.+ * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT+ * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF+ * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */++#ifndef CRYPTONITE_HASH_PREFIX_H+#define CRYPTONITE_HASH_PREFIX_H++#include <stdint.h>++static inline uint32_t constant_time_msb(uint32_t a)+{+ return 0 - (a >> 31);+}++static inline uint32_t constant_time_lt(uint32_t a, uint32_t b)+{+ return constant_time_msb(a ^ ((a ^ b) | ((a - b) ^ b)));+}++static inline uint32_t constant_time_ge(uint32_t a, uint32_t b)+{+ return ~constant_time_lt(a, b);+}++static inline uint32_t constant_time_is_zero(uint32_t a)+{+ return constant_time_msb(~a & (a - 1));+}++static inline uint32_t constant_time_eq(uint32_t a, uint32_t b)+{+ return constant_time_is_zero(a ^ b);+}++static inline uint64_t constant_time_msb_64(uint64_t a)+{+ return 0 - (a >> 63);+}++static inline uint64_t constant_time_lt_64(uint64_t a, uint64_t b)+{+ return constant_time_msb_64(a ^ ((a ^ b) | ((a - b) ^ b)));+}++#endif
− cbits/cryptonite_keccak.c
@@ -1,159 +0,0 @@-/*- * Copyright (C) 2012 Vincent Hanquez <vincent@snarc.org>- *- * Redistribution and use in source and binary forms, with or without- * modification, are permitted provided that the following conditions- * are met:- * 1. Redistributions of source code must retain the above copyright- * notice, this list of conditions and the following disclaimer.- * 2. Redistributions in binary form must reproduce the above copyright- * notice, this list of conditions and the following disclaimer in the- * documentation and/or other materials provided with the distribution.- *- * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR- * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES- * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.- * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,- * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT- * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,- * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY- * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT- * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF- * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.- */--#include <stdint.h>-#include <string.h>-#include "cryptonite_bitfn.h"-#include "cryptonite_keccak.h"--#define KECCAK_NB_ROUNDS 24--/* rounds constants */-static const uint64_t keccak_rndc[24] =-{- 0x0000000000000001ULL, 0x0000000000008082ULL, 0x800000000000808aULL,- 0x8000000080008000ULL, 0x000000000000808bULL, 0x0000000080000001ULL,- 0x8000000080008081ULL, 0x8000000000008009ULL, 0x000000000000008aULL,- 0x0000000000000088ULL, 0x0000000080008009ULL, 0x000000008000000aULL,- 0x000000008000808bULL, 0x800000000000008bULL, 0x8000000000008089ULL,- 0x8000000000008003ULL, 0x8000000000008002ULL, 0x8000000000000080ULL,- 0x000000000000800aULL, 0x800000008000000aULL, 0x8000000080008081ULL,- 0x8000000000008080ULL, 0x0000000080000001ULL, 0x8000000080008008ULL,-};--/* triangular numbers constants */-static const int keccak_rotc[24] =- { 1,3,6,10,15,21,28,36,45,55,2,14,27,41,56,8,25,43,62,18,39,61,20,44 };--static const int keccak_piln[24] =- { 10,7,11,17,18,3,5,16,8,21,24,4,15,23,19,13,12,2,20,14,22,9,6,1 };--static inline void keccak_do_chunk(uint64_t state[25], uint64_t buf[], int bufsz)-{- int i, j, r;- uint64_t tmp, bc[5];-- /* merge buf with state */- for (i = 0; i < bufsz; i++)- state[i] ^= le64_to_cpu(buf[i]);-- /* run keccak rounds */- for (r = 0; r < KECCAK_NB_ROUNDS; r++) {- /* compute the parity of each columns */- for (i = 0; i < 5; i++)- bc[i] = state[i] ^ state[i+5] ^ state[i+10] ^ state[i+15] ^ state[i+20];-- for (i = 0; i < 5; i++) {- tmp = bc[(i + 4) % 5] ^ rol64(bc[(i + 1) % 5], 1);- for (j = 0; j < 25; j += 5)- state[j + i] ^= tmp;- }-- /* rho pi */- tmp = state[1];- for (i = 0; i < 24; i++) {- j = keccak_piln[i];- bc[0] = state[j];- state[j] = rol64(tmp, keccak_rotc[i]);- tmp = bc[0];- }-- /* bitwise combine along rows using a = a xor (not b and c) */- for (j = 0; j < 25; j += 5) {- for (i = 0; i < 5; i++)- bc[i] = state[j + i];- #define andn(b,c) (~(b) & (c))- state[j + 0] ^= andn(bc[1], bc[2]);- state[j + 1] ^= andn(bc[2], bc[3]);- state[j + 2] ^= andn(bc[3], bc[4]);- state[j + 3] ^= andn(bc[4], bc[0]);- state[j + 4] ^= andn(bc[0], bc[1]);- #undef andn- }-- /* xor the round constant */- state[0] ^= keccak_rndc[r];- }-}--void cryptonite_keccak_init(struct keccak_ctx *ctx, uint32_t hashlen)-{- int bufsz = 200 - 2 * (hashlen / 8);- memset(ctx, 0, sizeof(*ctx) + bufsz);- ctx->bufsz = bufsz;-}--void cryptonite_keccak_update(struct keccak_ctx *ctx, uint8_t *data, uint32_t len)-{- uint32_t to_fill;-- to_fill = ctx->bufsz - ctx->bufindex;-- if (ctx->bufindex == ctx->bufsz) {- keccak_do_chunk(ctx->state, (uint64_t *) ctx->buf, ctx->bufsz / 8);- ctx->bufindex = 0;- }-- /* process partial buffer if there's enough data to make a block */- if (ctx->bufindex && len >= to_fill) {- memcpy(ctx->buf + ctx->bufindex, data, to_fill);- keccak_do_chunk(ctx->state, (uint64_t *) ctx->buf, ctx->bufsz / 8);- len -= to_fill;- data += to_fill;- ctx->bufindex = 0;- }-- /* process as much ctx->bufsz-block */- for (; len >= ctx->bufsz; len -= ctx->bufsz, data += ctx->bufsz)- keccak_do_chunk(ctx->state, (uint64_t *) data, ctx->bufsz / 8);-- /* append data into buf */- if (len) {- memcpy(ctx->buf + ctx->bufindex, data, len);- ctx->bufindex += len;- }-}--void cryptonite_keccak_finalize(struct keccak_ctx *ctx, uint32_t hashlen, uint8_t *out)-{- uint64_t w[25];-- /* process full buffer if needed */- if (ctx->bufindex == ctx->bufsz) {- keccak_do_chunk(ctx->state, (uint64_t *) ctx->buf, ctx->bufsz / 8);- ctx->bufindex = 0;- }-- /* add the 10*1 padding */- ctx->buf[ctx->bufindex++] = 1;- memset(ctx->buf + ctx->bufindex, 0, ctx->bufsz - ctx->bufindex);- ctx->buf[ctx->bufsz - 1] |= 0x80;-- /* process */- keccak_do_chunk(ctx->state, (uint64_t *) ctx->buf, ctx->bufsz / 8);-- /* output */- cpu_to_le64_array(w, ctx->state, 25);- memcpy(out, w, hashlen / 8);-}
− cbits/cryptonite_keccak.h
@@ -1,43 +0,0 @@-/*- * Copyright (C) 2012 Vincent Hanquez <vincent@snarc.org>- *- * Redistribution and use in source and binary forms, with or without- * modification, are permitted provided that the following conditions- * are met:- * 1. Redistributions of source code must retain the above copyright- * notice, this list of conditions and the following disclaimer.- * 2. Redistributions in binary form must reproduce the above copyright- * notice, this list of conditions and the following disclaimer in the- * documentation and/or other materials provided with the distribution.- *- * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR- * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES- * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.- * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,- * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT- * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,- * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY- * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT- * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF- * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.- */-#ifndef CRYPTOHASH_SHA3_H-#define CRYPTOHASH_SHA3_H--#include <stdint.h>--struct keccak_ctx-{- uint32_t bufindex;- uint32_t bufsz;- uint64_t state[25];- uint8_t buf[0]; /* maximum SHA3-224 = 144, otherwise buffer need decrease */-};--#define SHA3_CTX_SIZE sizeof(struct keccak_ctx)--void cryptonite_keccak_init(struct keccak_ctx *ctx, uint32_t hashlen);-void cryptonite_keccak_update(struct keccak_ctx *ctx, uint8_t *data, uint32_t len);-void cryptonite_keccak_finalize(struct keccak_ctx *ctx, uint32_t hashlen, uint8_t *out);--#endif
cbits/cryptonite_md4.c view
@@ -25,6 +25,7 @@ #include <string.h> #include <stdio.h> #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include "cryptonite_md4.h" void cryptonite_md4_init(struct md4_ctx *ctx)@@ -130,9 +131,18 @@ index = 0; } - /* process as much 64-block as possible */- for (; len >= 64; len -= 64, data += 64)- md4_do_chunk(ctx, (uint32_t *) data);+ if (need_alignment(data, 4)) {+ uint32_t tramp[16];+ ASSERT_ALIGNMENT(tramp, 4);+ for (; len >= 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ md4_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 64-block as possible */+ for (; len >= 64; len -= 64, data += 64)+ md4_do_chunk(ctx, (uint32_t *) data);+ } /* append data into buf */ if (len)@@ -157,5 +167,8 @@ cryptonite_md4_update(ctx, (uint8_t *) &bits, sizeof(bits)); /* output hash */- le32_to_cpu_array((uint32_t *) out, ctx->h, 4);+ store_le32(out , ctx->h[0]);+ store_le32(out+ 4, ctx->h[1]);+ store_le32(out+ 8, ctx->h[2]);+ store_le32(out+12, ctx->h[3]); }
cbits/cryptonite_md5.c view
@@ -25,6 +25,7 @@ #include <string.h> #include <stdio.h> #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include "cryptonite_md5.h" void cryptonite_md5_init(struct md5_ctx *ctx)@@ -143,9 +144,18 @@ index = 0; } - /* process as much 64-block as possible */- for (; len >= 64; len -= 64, data += 64)- md5_do_chunk(ctx, (uint32_t *) data);+ if (need_alignment(data, 4)) {+ uint32_t tramp[16];+ ASSERT_ALIGNMENT(tramp, 4);+ for (; len >= 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ md5_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 64-block as possible */+ for (; len >= 64; len -= 64, data += 64)+ md5_do_chunk(ctx, (uint32_t *) data);+ } /* append data into buf */ if (len)@@ -157,7 +167,6 @@ static uint8_t padding[64] = { 0x80, }; uint64_t bits; uint32_t index, padlen;- uint32_t *p = (uint32_t *) out; /* add padding and update data with it */ bits = cpu_to_le64(ctx->sz << 3);@@ -171,8 +180,35 @@ cryptonite_md5_update(ctx, (uint8_t *) &bits, sizeof(bits)); /* output hash */- p[0] = cpu_to_le32(ctx->h[0]);- p[1] = cpu_to_le32(ctx->h[1]);- p[2] = cpu_to_le32(ctx->h[2]);- p[3] = cpu_to_le32(ctx->h[3]);+ store_le32(out , ctx->h[0]);+ store_le32(out+ 4, ctx->h[1]);+ store_le32(out+ 8, ctx->h[2]);+ store_le32(out+12, ctx->h[3]); }++#define HASHED(m) MD5_##m+#define HASHED_LOWER(m) md5_##m+#define CRYPTONITE_HASHED(m) cryptonite_md5_##m+#define MD5_BLOCK_SIZE 64+#define MD5_BITS_ELEMS 1++static inline uint32_t cryptonite_md5_get_index(const struct md5_ctx *ctx)+{+ return (uint32_t) (ctx->sz & 0x3f);+}++static inline void cryptonite_md5_incr_sz(struct md5_ctx *ctx, uint64_t *bits, uint32_t n)+{+ ctx->sz += n;+ *bits = cpu_to_le64(ctx->sz << 3);+}++static inline void cryptonite_md5_select_digest(const struct md5_ctx *ctx, uint8_t *out, uint32_t out_mask)+{+ xor_le32(out , ctx->h[0] & out_mask);+ xor_le32(out+ 4, ctx->h[1] & out_mask);+ xor_le32(out+ 8, ctx->h[2] & out_mask);+ xor_le32(out+12, ctx->h[3] & out_mask);+}++#include <cryptonite_hash_prefix.c>
cbits/cryptonite_md5.h view
@@ -39,5 +39,6 @@ void cryptonite_md5_init(struct md5_ctx *ctx); void cryptonite_md5_update(struct md5_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_md5_finalize(struct md5_ctx *ctx, uint8_t *out);+void cryptonite_md5_finalize_prefix(struct md5_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out); #endif
+ cbits/cryptonite_pbkdf2.c view
@@ -0,0 +1,390 @@+/*+ * fast-pbkdf2 - Optimal PBKDF2-HMAC calculation+ * Written in 2015 by Joseph Birr-Pixton <jpixton@gmail.com>+ * Ported to cryptonite in 2017 by Nicolas Di Prima <nicolas@primetype.co.uk>+ *+ * To the extent possible under law, the author(s) have dedicated all+ * copyright and related and neighboring rights to this software to the+ * public domain worldwide. This software is distributed without any+ * warranty.+ *+ * You should have received a copy of the CC0 Public Domain Dedication+ * along with this software. If not, see+ * <http://creativecommons.org/publicdomain/zero/1.0/>.+ */++#include <assert.h>+#include <string.h>++#include "cryptonite_pbkdf2.h"+#include "cryptonite_bitfn.h"+#include "cryptonite_align.h"+#include "cryptonite_sha1.h"+#include "cryptonite_sha256.h"+#include "cryptonite_sha512.h"++/* --- MSVC doesn't support C99 --- */+#ifdef _MSC_VER+#define restrict+#define _Pragma __pragma+#endif++/* --- Common useful things --- */+#define MIN(a, b) ((a) > (b)) ? (b) : (a)++/* Prepare block (of blocksz bytes) to contain md padding denoting a msg-size+ * message (in bytes). block has a prefix of used bytes.+ *+ * Message length is expressed in 32 bits (so suitable for sha1, sha256, sha512). */+static inline void md_pad(uint8_t *block, size_t blocksz, size_t used, size_t msg)+{+ memset(block + used, 0, blocksz - used - 4);+ block[used] = 0x80;+ block += blocksz - 4;+ store_be32(block, (uint32_t) (msg * 8));+}++/* Internal function/type names for hash-specific things. */+#define HMAC_CTX(_name) HMAC_ ## _name ## _ctx+#define HMAC_INIT(_name) HMAC_ ## _name ## _init+#define HMAC_UPDATE(_name) HMAC_ ## _name ## _update+#define HMAC_FINAL(_name) HMAC_ ## _name ## _final++#define PBKDF2_F(_name) pbkdf2_f_ ## _name+#define PBKDF2(_name) pbkdf2_ ## _name++/* This macro expands to decls for the whole implementation for a given+ * hash function. Arguments are:+ *+ * _name like 'sha1', added to symbol names+ * _blocksz block size, in bytes+ * _hashsz digest output, in bytes+ * _ctx hash context type+ * _init hash context initialisation function+ * args: (_ctx *c)+ * _update hash context update function+ * args: (_ctx *c, const void *data, size_t ndata)+ * _final hash context finish function+ * args: (void *out, _ctx *c)+ * _xform hash context raw block update function+ * args: (_ctx *c, const void *data)+ * _xcpy hash context raw copy function (only need copy hash state)+ * args: (_ctx * restrict out, const _ctx *restrict in)+ * _xtract hash context state extraction+ * args: args (_ctx *restrict c, uint8_t *restrict out)+ * _xxor hash context xor function (only need xor hash state)+ * args: (_ctx *restrict out, const _ctx *restrict in)+ *+ * The resulting function is named PBKDF2(_name).+ */+#define DECL_PBKDF2(_name, _blocksz, _hashsz, _ctx, \+ _init, _update, _xform, _final, _xcpy, _xtract, _xxor) \+ typedef struct { \+ _ctx inner; \+ _ctx outer; \+ } HMAC_CTX(_name); \+ \+ static inline void HMAC_INIT(_name)(HMAC_CTX(_name) *ctx, \+ const uint8_t *key, size_t nkey) \+ { \+ /* Prepare key: */ \+ uint8_t k[_blocksz]; \+ \+ /* Shorten long keys. */ \+ if (nkey > _blocksz) \+ { \+ _init(&ctx->inner); \+ _update(&ctx->inner, key, nkey); \+ _final(&ctx->inner, k); \+ \+ key = k; \+ nkey = _hashsz; \+ } \+ \+ /* Standard doesn't cover case where blocksz < hashsz. */ \+ assert(nkey <= _blocksz); \+ \+ /* Right zero-pad short keys. */ \+ if (k != key) \+ memcpy(k, key, nkey); \+ if (_blocksz > nkey) \+ memset(k + nkey, 0, _blocksz - nkey); \+ \+ /* Start inner hash computation */ \+ uint8_t blk_inner[_blocksz]; \+ uint8_t blk_outer[_blocksz]; \+ \+ for (size_t i = 0; i < _blocksz; i++) \+ { \+ blk_inner[i] = 0x36 ^ k[i]; \+ blk_outer[i] = 0x5c ^ k[i]; \+ } \+ \+ _init(&ctx->inner); \+ _update(&ctx->inner, blk_inner, sizeof blk_inner); \+ \+ /* And outer. */ \+ _init(&ctx->outer); \+ _update(&ctx->outer, blk_outer, sizeof blk_outer); \+ } \+ \+ static inline void HMAC_UPDATE(_name)(HMAC_CTX(_name) *ctx, \+ const void *data, size_t ndata) \+ { \+ _update(&ctx->inner, data, ndata); \+ } \+ \+ static inline void HMAC_FINAL(_name)(HMAC_CTX(_name) *ctx, \+ uint8_t out[_hashsz]) \+ { \+ _final(&ctx->inner, out); \+ _update(&ctx->outer, out, _hashsz); \+ _final(&ctx->outer, out); \+ } \+ \+ \+ /* --- PBKDF2 --- */ \+ static inline void PBKDF2_F(_name)(const HMAC_CTX(_name) *startctx, \+ uint32_t counter, \+ const uint8_t *salt, size_t nsalt, \+ uint32_t iterations, \+ uint8_t *out) \+ { \+ uint8_t countbuf[4]; \+ store_be32(countbuf, counter); \+ \+ /* Prepare loop-invariant padding block. */ \+ uint8_t Ublock[_blocksz]; \+ md_pad(Ublock, _blocksz, _hashsz, _blocksz + _hashsz); \+ \+ /* First iteration: \+ * U_1 = PRF(P, S || INT_32_BE(i)) \+ */ \+ HMAC_CTX(_name) ctx = *startctx; \+ HMAC_UPDATE(_name)(&ctx, salt, nsalt); \+ HMAC_UPDATE(_name)(&ctx, countbuf, sizeof countbuf); \+ HMAC_FINAL(_name)(&ctx, Ublock); \+ _ctx result = ctx.outer; \+ \+ /* Subsequent iterations: \+ * U_c = PRF(P, U_{c-1}) \+ */ \+ for (uint32_t i = 1; i < iterations; i++) \+ { \+ /* Complete inner hash with previous U */ \+ _xcpy(&ctx.inner, &startctx->inner); \+ _xform(&ctx.inner, Ublock); \+ _xtract(&ctx.inner, Ublock); \+ /* Complete outer hash with inner output */ \+ _xcpy(&ctx.outer, &startctx->outer); \+ _xform(&ctx.outer, Ublock); \+ _xtract(&ctx.outer, Ublock); \+ _xxor(&result, &ctx.outer); \+ } \+ \+ /* Reform result into output buffer. */ \+ _xtract(&result, out); \+ } \+ \+ static inline void PBKDF2(_name)(const uint8_t *pw, size_t npw, \+ const uint8_t *salt, size_t nsalt, \+ uint32_t iterations, \+ uint8_t *out, size_t nout) \+ { \+ assert(iterations); \+ assert(out && nout); \+ \+ /* Starting point for inner loop. */ \+ HMAC_CTX(_name) ctx; \+ HMAC_INIT(_name)(&ctx, pw, npw); \+ \+ /* How many blocks do we need? */ \+ uint32_t blocks_needed = (uint32_t)(nout + _hashsz - 1) / _hashsz; \+ \+ for (uint32_t counter = 1; counter <= blocks_needed; counter++) \+ { \+ uint8_t block[_hashsz]; \+ PBKDF2_F(_name)(&ctx, counter, salt, nsalt, iterations, block); \+ \+ size_t offset = (counter - 1) * _hashsz; \+ size_t taken = MIN(nout - offset, _hashsz); \+ memcpy(out + offset, block, taken); \+ } \+ }++static inline void sha1_extract(struct sha1_ctx *restrict ctx, uint8_t *restrict out)+{+ store_be32(out , ctx->h[0]);+ store_be32(out+4 , ctx->h[1]);+ store_be32(out+8 , ctx->h[2]);+ store_be32(out+12, ctx->h[3]);+ store_be32(out+16, ctx->h[4]);+}++static inline void sha1_cpy(struct sha1_ctx *restrict out, const struct sha1_ctx *restrict in)+{+ out->h[0] = in->h[0];+ out->h[1] = in->h[1];+ out->h[2] = in->h[2];+ out->h[3] = in->h[3];+ out->h[4] = in->h[4];+}++static inline void sha1_xor(struct sha1_ctx *restrict out, const struct sha1_ctx *restrict in)+{+ out->h[0] ^= in->h[0];+ out->h[1] ^= in->h[1];+ out->h[2] ^= in->h[2];+ out->h[3] ^= in->h[3];+ out->h[4] ^= in->h[4];+}++void cryptonite_sha1_transform(struct sha1_ctx* ctx, uint8_t block[SHA1_BLOCK_SIZE])+{+ cryptonite_sha1_update(ctx, block, SHA1_BLOCK_SIZE);+}++DECL_PBKDF2(sha1,+ SHA1_BLOCK_SIZE,+ SHA1_DIGEST_SIZE,+ struct sha1_ctx,+ cryptonite_sha1_init,+ cryptonite_sha1_update,+ cryptonite_sha1_transform,+ cryptonite_sha1_finalize,+ sha1_cpy,+ sha1_extract,+ sha1_xor);++static inline void sha256_extract(struct sha256_ctx *restrict ctx, uint8_t *restrict out)+{+ store_be32(out , ctx->h[0]);+ store_be32(out+4 , ctx->h[1]);+ store_be32(out+8 , ctx->h[2]);+ store_be32(out+12, ctx->h[3]);+ store_be32(out+16, ctx->h[4]);+ store_be32(out+20, ctx->h[5]);+ store_be32(out+24, ctx->h[6]);+ store_be32(out+28, ctx->h[7]);+}++static inline void sha256_cpy(struct sha256_ctx *restrict out, const struct sha256_ctx *restrict in)+{+ out->h[0] = in->h[0];+ out->h[1] = in->h[1];+ out->h[2] = in->h[2];+ out->h[3] = in->h[3];+ out->h[4] = in->h[4];+ out->h[5] = in->h[5];+ out->h[6] = in->h[6];+ out->h[7] = in->h[7];+}++static inline void sha256_xor(struct sha256_ctx *restrict out, const struct sha256_ctx *restrict in)+{+ out->h[0] ^= in->h[0];+ out->h[1] ^= in->h[1];+ out->h[2] ^= in->h[2];+ out->h[3] ^= in->h[3];+ out->h[4] ^= in->h[4];+ out->h[5] ^= in->h[5];+ out->h[6] ^= in->h[6];+ out->h[7] ^= in->h[7];+}++void cryptonite_sha256_transform(struct sha256_ctx* ctx, uint8_t block[SHA256_BLOCK_SIZE])+{+ cryptonite_sha256_update(ctx, block, SHA256_BLOCK_SIZE);+}++DECL_PBKDF2(sha256,+ SHA256_BLOCK_SIZE,+ SHA256_DIGEST_SIZE,+ struct sha256_ctx,+ cryptonite_sha256_init,+ cryptonite_sha256_update,+ cryptonite_sha256_transform,+ cryptonite_sha256_finalize,+ sha256_cpy,+ sha256_extract,+ sha256_xor);++static inline void sha512_extract(struct sha512_ctx *restrict ctx, uint8_t *restrict out)+{+ store_be64(out , ctx->h[0]);+ store_be64(out+8 , ctx->h[1]);+ store_be64(out+16, ctx->h[2]);+ store_be64(out+24, ctx->h[3]);+ store_be64(out+32, ctx->h[4]);+ store_be64(out+40, ctx->h[5]);+ store_be64(out+48, ctx->h[6]);+ store_be64(out+56, ctx->h[7]);+}++static inline void sha512_cpy(struct sha512_ctx *restrict out, const struct sha512_ctx *restrict in)+{+ out->h[0] = in->h[0];+ out->h[1] = in->h[1];+ out->h[2] = in->h[2];+ out->h[3] = in->h[3];+ out->h[4] = in->h[4];+ out->h[5] = in->h[5];+ out->h[6] = in->h[6];+ out->h[7] = in->h[7];+}++static inline void sha512_xor(struct sha512_ctx *restrict out, const struct sha512_ctx *restrict in)+{+ out->h[0] ^= in->h[0];+ out->h[1] ^= in->h[1];+ out->h[2] ^= in->h[2];+ out->h[3] ^= in->h[3];+ out->h[4] ^= in->h[4];+ out->h[5] ^= in->h[5];+ out->h[6] ^= in->h[6];+ out->h[7] ^= in->h[7];+}++void cryptonite_sha512_transform(struct sha512_ctx* ctx, uint8_t block[SHA512_BLOCK_SIZE])+{+ cryptonite_sha512_update(ctx, block, SHA512_BLOCK_SIZE);+}++DECL_PBKDF2(sha512,+ SHA512_BLOCK_SIZE,+ SHA512_DIGEST_SIZE,+ struct sha512_ctx,+ cryptonite_sha512_init,+ cryptonite_sha512_update,+ cryptonite_sha512_transform,+ cryptonite_sha512_finalize,+ sha512_cpy,+ sha512_extract,+ sha512_xor);++void cryptonite_fastpbkdf2_hmac_sha1( const uint8_t *pw, size_t npw+ , const uint8_t *salt, size_t nsalt+ , uint32_t iterations+ , uint8_t *out, size_t nout+ )+{+ PBKDF2(sha1)(pw, npw, salt, nsalt, iterations, out, nout);+}++void cryptonite_fastpbkdf2_hmac_sha256( const uint8_t *pw, size_t npw+ , const uint8_t *salt, size_t nsalt+ , uint32_t iterations+ , uint8_t *out, size_t nout+ )+{+ PBKDF2(sha256)(pw, npw, salt, nsalt, iterations, out, nout);+}++void cryptonite_fastpbkdf2_hmac_sha512( const uint8_t *pw, size_t npw+ , const uint8_t *salt, size_t nsalt+ , uint32_t iterations+ , uint8_t *out, size_t nout+ )+{+ PBKDF2(sha512)(pw, npw, salt, nsalt, iterations, out, nout);+}
+ cbits/cryptonite_pbkdf2.h view
@@ -0,0 +1,31 @@+#ifndef CRYPTONITE_PBKDF2_H_+#define CRYPTONITE_PBKDF2_H_++#include <stdlib.h>+#include <stdint.h>++#ifdef __cplusplus+extern "C" {+#endif++void cryptonite_fastpbkdf2_hmac_sha1( const uint8_t *pw, size_t npw+ , const uint8_t *salt, size_t nsalt+ , uint32_t iterations+ , uint8_t *out, size_t nout+ );+void cryptonite_fastpbkdf2_hmac_sha256( const uint8_t *pw, size_t npw+ , const uint8_t *salt, size_t nsalt+ , uint32_t iterations+ , uint8_t *out, size_t nout+ );+void cryptonite_fastpbkdf2_hmac_sha512( const uint8_t *pw, size_t npw+ , const uint8_t *salt, size_t nsalt+ , uint32_t iterations+ , uint8_t *out, size_t nout+ );++#ifdef __cplusplus+}+#endif++#endif
cbits/cryptonite_poly1305.c view
@@ -37,11 +37,7 @@ #include <string.h> #include "cryptonite_poly1305.h" #include "cryptonite_bitfn.h"--static inline uint32_t load32(uint8_t *p)-{- return (le32_to_cpu(*((uint32_t *) p)));-}+#include "cryptonite_align.h" static void poly1305_do_chunk(poly1305_ctx *ctx, uint8_t *data, int blocks, int final) {@@ -61,11 +57,11 @@ s1 = r1 * 5; s2 = r2 * 5; s3 = r3 * 5; s4 = r4 * 5; while (blocks--) {- h0 += (load32(data+ 0) ) & 0x3ffffff;- h1 += (load32(data+ 3) >> 2) & 0x3ffffff;- h2 += (load32(data+ 6) >> 4) & 0x3ffffff;- h3 += (load32(data+ 9) >> 6) & 0x3ffffff;- h4 += (load32(data+12) >> 8) | hibit;+ h0 += (load_le32(data+ 0) ) & 0x3ffffff;+ h1 += (load_le32(data+ 3) >> 2) & 0x3ffffff;+ h2 += (load_le32(data+ 6) >> 4) & 0x3ffffff;+ h3 += (load_le32(data+ 9) >> 6) & 0x3ffffff;+ h4 += (load_le32(data+12) >> 8) | hibit; d0 = ((uint64_t)h0 * r0) + ((uint64_t)h1 * s4) + ((uint64_t)h2 * s3) + ((uint64_t)h3 * s2) + ((uint64_t)h4 * s1); d1 = ((uint64_t)h0 * r1) + ((uint64_t)h1 * r0) + ((uint64_t)h2 * s4) + ((uint64_t)h3 * s3) + ((uint64_t)h4 * s2);@@ -94,16 +90,16 @@ memset(ctx, 0, sizeof(poly1305_ctx)); - ctx->r[0] = (load32(&k[ 0]) ) & 0x3ffffff;- ctx->r[1] = (load32(&k[ 3]) >> 2) & 0x3ffff03;- ctx->r[2] = (load32(&k[ 6]) >> 4) & 0x3ffc0ff;- ctx->r[3] = (load32(&k[ 9]) >> 6) & 0x3f03fff;- ctx->r[4] = (load32(&k[12]) >> 8) & 0x00fffff;+ ctx->r[0] = (load_le32(&k[ 0]) ) & 0x3ffffff;+ ctx->r[1] = (load_le32(&k[ 3]) >> 2) & 0x3ffff03;+ ctx->r[2] = (load_le32(&k[ 6]) >> 4) & 0x3ffc0ff;+ ctx->r[3] = (load_le32(&k[ 9]) >> 6) & 0x3f03fff;+ ctx->r[4] = (load_le32(&k[12]) >> 8) & 0x00fffff; - ctx->pad[0] = load32(&k[16]);- ctx->pad[1] = load32(&k[20]);- ctx->pad[2] = load32(&k[24]);- ctx->pad[3] = load32(&k[28]);+ ctx->pad[0] = load_le32(&k[16]);+ ctx->pad[1] = load_le32(&k[20]);+ ctx->pad[2] = load_le32(&k[24]);+ ctx->pad[3] = load_le32(&k[28]); ctx->index = 0; }@@ -132,7 +128,7 @@ /* fill the remaining bytes in the partial buffer */ if (length) { memcpy(ctx->buf + ctx->index, data, length);- ctx->index = length;+ ctx->index += length; } }
cbits/cryptonite_rdrand.c view
@@ -91,7 +91,7 @@ } #endif -/* Returns the number of bytes succesfully generated */+/* Returns the number of bytes successfully generated */ int cryptonite_get_rand_bytes(uint8_t *buffer, size_t len) { RDRAND_T tmp;
cbits/cryptonite_ripemd.c view
@@ -24,6 +24,7 @@ #include "cryptonite_ripemd.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include <string.h> void cryptonite_ripemd160_init(struct ripemd160_ctx *ctx)@@ -265,9 +266,20 @@ index = 0; } - for (; len >= 64; len -= 64, data += 64)- ripemd160_do_chunk(ctx, (uint32_t *) data);+ if (need_alignment(data, 4)) {+ uint32_t tramp[16];+ ASSERT_ALIGNMENT(tramp, 4);+ for (; len >= 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ ripemd160_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 64-block as possible */+ for (; len >= 64; len -= 64, data += 64)+ ripemd160_do_chunk(ctx, (uint32_t *) data);+ } + /* append data into buf */ if (len) memcpy(ctx->buf + index, data, len); }@@ -277,7 +289,6 @@ static uint8_t padding[64] = { 0x80, }; uint64_t bits; uint32_t index, padlen;- uint32_t *p = (uint32_t *) out; /* add padding and update data with it */ bits = cpu_to_le64(ctx->sz << 3);@@ -291,9 +302,9 @@ cryptonite_ripemd160_update(ctx, (uint8_t *) &bits, sizeof(bits)); /* output digest */- p[0] = cpu_to_le32(ctx->h[0]);- p[1] = cpu_to_le32(ctx->h[1]);- p[2] = cpu_to_le32(ctx->h[2]);- p[3] = cpu_to_le32(ctx->h[3]);- p[4] = cpu_to_le32(ctx->h[4]);+ store_le32(out , ctx->h[0]);+ store_le32(out+ 4, ctx->h[1]);+ store_le32(out+ 8, ctx->h[2]);+ store_le32(out+12, ctx->h[3]);+ store_le32(out+16, ctx->h[4]); }
cbits/cryptonite_salsa.c view
@@ -33,6 +33,7 @@ #include <stdio.h> #include "cryptonite_salsa.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" static const uint8_t sigma[16] = "expand 32-byte k"; static const uint8_t tau[16] = "expand 16-byte k";@@ -58,11 +59,6 @@ QR (x15,x12,x13,x14); \ } -static inline uint32_t load32(const uint8_t *p)-{- return le32_to_cpu(*((uint32_t *) p));-}- static void salsa_core(int rounds, block *out, const cryptonite_salsa_state *in) { uint32_t x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15;@@ -124,36 +120,35 @@ uint32_t ivlen, const uint8_t *iv) { const uint8_t *constants = (keylen == 32) ? sigma : tau;- int i; - st->d[0] = load32(constants + 0);- st->d[5] = load32(constants + 4);- st->d[10] = load32(constants + 8);- st->d[15] = load32(constants + 12);+ st->d[0] = load_le32_aligned(constants + 0);+ st->d[5] = load_le32_aligned(constants + 4);+ st->d[10] = load_le32_aligned(constants + 8);+ st->d[15] = load_le32_aligned(constants + 12); - st->d[1] = load32(key + 0);- st->d[2] = load32(key + 4);- st->d[3] = load32(key + 8);- st->d[4] = load32(key + 12);+ st->d[1] = load_le32(key + 0);+ st->d[2] = load_le32(key + 4);+ st->d[3] = load_le32(key + 8);+ st->d[4] = load_le32(key + 12); /* we repeat the key on 128 bits */ if (keylen == 32) key += 16;- st->d[11] = load32(key + 0);- st->d[12] = load32(key + 4);- st->d[13] = load32(key + 8);- st->d[14] = load32(key + 12);+ st->d[11] = load_le32(key + 0);+ st->d[12] = load_le32(key + 4);+ st->d[13] = load_le32(key + 8);+ st->d[14] = load_le32(key + 12); st->d[9] = 0; switch (ivlen) { case 8:- st->d[6] = load32(iv + 0);- st->d[7] = load32(iv + 4);+ st->d[6] = load_le32(iv + 0);+ st->d[7] = load_le32(iv + 4); st->d[8] = 0; break; case 12:- st->d[6] = load32(iv + 0);- st->d[7] = load32(iv + 4);- st->d[8] = load32(iv + 8);+ st->d[6] = load_le32(iv + 0);+ st->d[7] = load_le32(iv + 4);+ st->d[8] = load_le32(iv + 8); default: return; }
cbits/cryptonite_scrypt.c view
@@ -27,6 +27,7 @@ #include <stdint.h> #include <string.h> #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include "cryptonite_salsa.h" static void blockmix_salsa8(uint32_t *in, uint32_t *out, uint32_t *X, const uint32_t r)@@ -49,16 +50,6 @@ return B[(2*r-1) * 16] | (uint64_t)B[(2*r-1) * 16 + 1] << 32; } -static inline uint32_t load32(const uint8_t *p)-{- return le32_to_cpu(*((uint32_t *) p));-}--static inline void store32(const uint8_t *p, uint32_t val)-{- *((uint32_t *) p) = cpu_to_le32(val);-}- void cryptonite_scrypt_smix(uint8_t *B, const uint32_t r, const uint64_t N, uint32_t *V, uint32_t *XY) { uint32_t *X = XY;@@ -69,7 +60,7 @@ const int r32 = 32*r; for (k = 0; k < r32; k++)- X[k] = load32(&B[4 * k]);+ X[k] = load_le32_aligned(&B[4 * k]); for (i = 0; i < N; i += 2) { array_copy32(&V[i * r32], X, r32); blockmix_salsa8(X, Y, Z, r);@@ -86,5 +77,5 @@ blockmix_salsa8(Y, X, Z, r); } for (k = 0; k < r32; k++)- store32(&B[4*k], X[k]);+ store_le32_aligned(&B[4*k], X[k]); }
cbits/cryptonite_sha1.c view
@@ -25,6 +25,7 @@ #include <string.h> #include "cryptonite_sha1.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" void cryptonite_sha1_init(struct sha1_ctx *ctx) {@@ -173,9 +174,18 @@ index = 0; } - /* process as much 64-block as possible */- for (; len >= 64; len -= 64, data += 64)- sha1_do_chunk(ctx, (uint32_t *) data);+ if (need_alignment(data, 4)) {+ uint32_t tramp[16];+ ASSERT_ALIGNMENT(tramp, 4);+ for (; len >= 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ sha1_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 64-block as possible */+ for (; len >= 64; len -= 64, data += 64)+ sha1_do_chunk(ctx, (uint32_t *) data);+ } /* append data into buf */ if (len)@@ -187,7 +197,6 @@ static uint8_t padding[64] = { 0x80, }; uint64_t bits; uint32_t index, padlen;- uint32_t *p = (uint32_t *) out; /* add padding and update data with it */ bits = cpu_to_be64(ctx->sz << 3);@@ -201,9 +210,37 @@ cryptonite_sha1_update(ctx, (uint8_t *) &bits, sizeof(bits)); /* output hash */- p[0] = cpu_to_be32(ctx->h[0]);- p[1] = cpu_to_be32(ctx->h[1]);- p[2] = cpu_to_be32(ctx->h[2]);- p[3] = cpu_to_be32(ctx->h[3]);- p[4] = cpu_to_be32(ctx->h[4]);+ store_be32(out , ctx->h[0]);+ store_be32(out+ 4, ctx->h[1]);+ store_be32(out+ 8, ctx->h[2]);+ store_be32(out+12, ctx->h[3]);+ store_be32(out+16, ctx->h[4]); }++#define HASHED(m) SHA1_##m+#define HASHED_LOWER(m) sha1_##m+#define CRYPTONITE_HASHED(m) cryptonite_sha1_##m+#define SHA1_BLOCK_SIZE 64+#define SHA1_BITS_ELEMS 1++static inline uint32_t cryptonite_sha1_get_index(const struct sha1_ctx *ctx)+{+ return (uint32_t) (ctx->sz & 0x3f);+}++static inline void cryptonite_sha1_incr_sz(struct sha1_ctx *ctx, uint64_t *bits, uint32_t n)+{+ ctx->sz += n;+ *bits = cpu_to_be64(ctx->sz << 3);+}++static inline void cryptonite_sha1_select_digest(const struct sha1_ctx *ctx, uint8_t *out, uint32_t out_mask)+{+ xor_be32(out , ctx->h[0] & out_mask);+ xor_be32(out+ 4, ctx->h[1] & out_mask);+ xor_be32(out+ 8, ctx->h[2] & out_mask);+ xor_be32(out+12, ctx->h[3] & out_mask);+ xor_be32(out+16, ctx->h[4] & out_mask);+}++#include <cryptonite_hash_prefix.c>
cbits/cryptonite_sha1.h view
@@ -26,10 +26,12 @@ #include <stdint.h> +# define SHA1_BLOCK_SIZE 64+ struct sha1_ctx { uint64_t sz;- uint8_t buf[64];+ uint8_t buf[SHA1_BLOCK_SIZE]; uint32_t h[5]; }; @@ -39,5 +41,6 @@ void cryptonite_sha1_init(struct sha1_ctx *ctx); void cryptonite_sha1_update(struct sha1_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_sha1_finalize(struct sha1_ctx *ctx, uint8_t *out);+void cryptonite_sha1_finalize_prefix(struct sha1_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out); #endif
cbits/cryptonite_sha256.c view
@@ -25,6 +25,7 @@ #include <string.h> #include "cryptonite_sha256.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" void cryptonite_sha224_init(struct sha224_ctx *ctx) {@@ -134,9 +135,18 @@ index = 0; } - /* process as much 64-block as possible */- for (; len >= 64; len -= 64, data += 64)- sha256_do_chunk(ctx, (uint32_t *) data);+ if (need_alignment(data, 4)) {+ uint32_t tramp[16];+ ASSERT_ALIGNMENT(tramp, 4);+ for (; len >= 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ sha256_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 64-block as possible */+ for (; len >= 64; len -= 64, data += 64)+ sha256_do_chunk(ctx, (uint32_t *) data);+ } /* append data into buf */ if (len)@@ -151,12 +161,19 @@ memcpy(out, intermediate, SHA224_DIGEST_SIZE); } +void cryptonite_sha224_finalize_prefix(struct sha224_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out)+{+ uint8_t intermediate[SHA256_DIGEST_SIZE];++ cryptonite_sha256_finalize_prefix(ctx, data, len, n, intermediate);+ memcpy(out, intermediate, SHA224_DIGEST_SIZE);+}+ void cryptonite_sha256_finalize(struct sha256_ctx *ctx, uint8_t *out) { static uint8_t padding[64] = { 0x80, }; uint64_t bits; uint32_t i, index, padlen;- uint32_t *p = (uint32_t *) out; /* cpu -> big endian */ bits = cpu_to_be64(ctx->sz << 3);@@ -171,5 +188,31 @@ /* store to digest */ for (i = 0; i < 8; i++)- p[i] = cpu_to_be32(ctx->h[i]);+ store_be32(out+4*i, ctx->h[i]); }++#define HASHED(m) SHA256_##m+#define HASHED_LOWER(m) sha256_##m+#define CRYPTONITE_HASHED(m) cryptonite_sha256_##m+#define SHA256_BLOCK_SIZE 64+#define SHA256_BITS_ELEMS 1++static inline uint32_t cryptonite_sha256_get_index(const struct sha256_ctx *ctx)+{+ return (uint32_t) (ctx->sz & 0x3f);+}++static inline void cryptonite_sha256_incr_sz(struct sha256_ctx *ctx, uint64_t *bits, uint32_t n)+{+ ctx->sz += n;+ *bits = cpu_to_be64(ctx->sz << 3);+}++static inline void cryptonite_sha256_select_digest(const struct sha256_ctx *ctx, uint8_t *out, uint32_t out_mask)+{+ uint32_t i;+ for (i = 0; i < 8; i++)+ xor_be32(out+4*i, ctx->h[i] & out_mask);+}++#include <cryptonite_hash_prefix.c>
cbits/cryptonite_sha256.h view
@@ -27,6 +27,8 @@ #include <stdint.h> +#define SHA256_BLOCK_SIZE 64+ struct sha256_ctx { uint64_t sz;@@ -45,9 +47,11 @@ void cryptonite_sha224_init(struct sha224_ctx *ctx); void cryptonite_sha224_update(struct sha224_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_sha224_finalize(struct sha224_ctx *ctx, uint8_t *out);+void cryptonite_sha224_finalize_prefix(struct sha224_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out); void cryptonite_sha256_init(struct sha256_ctx *ctx); void cryptonite_sha256_update(struct sha256_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_sha256_finalize(struct sha256_ctx *ctx, uint8_t *out);+void cryptonite_sha256_finalize_prefix(struct sha256_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out); #endif
cbits/cryptonite_sha3.c view
@@ -25,6 +25,7 @@ #include <stdint.h> #include <string.h> #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include "cryptonite_sha3.h" #define KECCAK_NB_ROUNDS 24@@ -97,13 +98,22 @@ } } +/*+ * Initialize a SHA-3 / SHAKE / cSHAKE context: hashlen is the security level+ * (and half the capacity) in bits.+ *+ * In case of cSHAKE, the message prefix with encoded N and S must be added with+ * cryptonite_sha3_update.+ */ void cryptonite_sha3_init(struct sha3_ctx *ctx, uint32_t hashlen) {- int bufsz = 200 - 2 * (hashlen / 8);+ /* assert(hashlen >= SHA3_BITSIZE_MIN && hashlen <= SHA3_BITSIZE_MAX) */+ int bufsz = SHA3_BUF_SIZE(hashlen); memset(ctx, 0, sizeof(*ctx) + bufsz); ctx->bufsz = bufsz; } +/* Update a SHA-3 / SHAKE / cSHAKE context */ void cryptonite_sha3_update(struct sha3_ctx *ctx, const uint8_t *data, uint32_t len) { uint32_t to_fill;@@ -124,10 +134,20 @@ ctx->bufindex = 0; } - /* process as much ctx->bufsz-block */- for (; len >= ctx->bufsz; len -= ctx->bufsz, data += ctx->bufsz)- sha3_do_chunk(ctx->state, (uint64_t *) data, ctx->bufsz / 8);+ if (need_alignment(data, 8)) {+ uint64_t tramp[SHA3_BUF_SIZE_MAX/8];+ ASSERT_ALIGNMENT(tramp, 8);+ for (; len >= ctx->bufsz; len -= ctx->bufsz, data += ctx->bufsz) {+ memcpy(tramp, data, ctx->bufsz);+ sha3_do_chunk(ctx->state, tramp, ctx->bufsz / 8);+ }+ } else {+ /* process as much ctx->bufsz-block */+ for (; len >= ctx->bufsz; len -= ctx->bufsz, data += ctx->bufsz)+ sha3_do_chunk(ctx->state, (uint64_t *) data, ctx->bufsz / 8);+ } + /* append data into buf */ if (len) { memcpy(ctx->buf + ctx->bufindex, data, len);@@ -135,10 +155,8 @@ } } -void cryptonite_sha3_finalize(struct sha3_ctx *ctx, uint32_t hashlen, uint8_t *out)+void cryptonite_sha3_finalize_with_pad_byte(struct sha3_ctx *ctx, uint8_t pad_byte) {- uint64_t w[25];- /* process full buffer if needed */ if (ctx->bufindex == ctx->bufsz) { sha3_do_chunk(ctx->state, (uint64_t *) ctx->buf, ctx->bufsz / 8);@@ -146,14 +164,89 @@ } /* add the 10*1 padding */- ctx->buf[ctx->bufindex++] = 0x06;+ ctx->buf[ctx->bufindex++] = pad_byte; memset(ctx->buf + ctx->bufindex, 0, ctx->bufsz - ctx->bufindex); ctx->buf[ctx->bufsz - 1] |= 0x80; /* process */ sha3_do_chunk(ctx->state, (uint64_t *) ctx->buf, ctx->bufsz / 8);+ ctx->bufindex = 0;+} - /* output */- cpu_to_le64_array(w, ctx->state, 25);- memcpy(out, w, hashlen / 8);+/*+ * Extract some bytes from a finalized SHA-3 / SHAKE / cSHAKE context.+ * May be called multiple times.+ */+void cryptonite_sha3_output(struct sha3_ctx *ctx, uint8_t *out, uint32_t len)+{+ uint64_t w[25];+ uint8_t *wptr = (uint8_t *) w;+ uint32_t still_avail;++ still_avail = ctx->bufsz - ctx->bufindex;++ if (ctx->bufindex == ctx->bufsz) {+ /* squeeze the sponge again, without any input */+ sha3_do_chunk(ctx->state, NULL, 0);+ ctx->bufindex = 0;+ }++ /* use bytes already available if this block is fully consumed */+ if (ctx->bufindex && len >= still_avail) {+ cpu_to_le64_array(w, ctx->state, 25);+ memcpy(out, wptr + ctx->bufindex, still_avail);+ sha3_do_chunk(ctx->state, NULL, 0);+ len -= still_avail;+ out += still_avail;+ ctx->bufindex = 0;+ }++ /* output as much ctx->bufsz-block */+ for (; len > ctx->bufsz; len -= ctx->bufsz, out += ctx->bufsz) {+ cpu_to_le64_array(w, ctx->state, 25);+ memcpy(out, w, ctx->bufsz);+ sha3_do_chunk(ctx->state, NULL, 0);+ }++ /* output from partial buffer */+ if (len) {+ cpu_to_le64_array(w, ctx->state, 25);+ memcpy(out, wptr + ctx->bufindex, len);+ ctx->bufindex += len;+ }+}++/* Finalize a SHA-3 context and return the digest value */+void cryptonite_sha3_finalize(struct sha3_ctx *ctx, uint32_t hashlen, uint8_t *out)+{+ cryptonite_sha3_finalize_with_pad_byte(ctx, 0x06);+ cryptonite_sha3_output(ctx, out, hashlen / 8);+}++/* Finalize a SHAKE context. Output is read using cryptonite_sha3_output. */+void cryptonite_sha3_finalize_shake(struct sha3_ctx *ctx)+{+ cryptonite_sha3_finalize_with_pad_byte(ctx, 0x1F);+}++/* Finalize a cSHAKE context. Output is read using cryptonite_sha3_output. */+void cryptonite_sha3_finalize_cshake(struct sha3_ctx *ctx)+{+ cryptonite_sha3_finalize_with_pad_byte(ctx, 0x04);+}++void cryptonite_keccak_init(struct sha3_ctx *ctx, uint32_t hashlen)+{+ cryptonite_sha3_init(ctx, hashlen);+}++void cryptonite_keccak_update(struct sha3_ctx *ctx, uint8_t *data, uint32_t len)+{+ cryptonite_sha3_update(ctx, data, len);+}++void cryptonite_keccak_finalize(struct sha3_ctx *ctx, uint32_t hashlen, uint8_t *out)+{+ cryptonite_sha3_finalize_with_pad_byte(ctx, 1);+ cryptonite_sha3_output(ctx, out, hashlen / 8); }
cbits/cryptonite_sha3.h view
@@ -31,13 +31,37 @@ uint32_t bufindex; uint32_t bufsz; uint64_t state[25];- uint8_t buf[0]; /* maximum SHA3-224 is 144 bytes, otherwise buffer can be decreases */+ uint8_t buf[0]; /* maximum SHAKE128 is 168 bytes, otherwise buffer can be decreased */ }; #define SHA3_CTX_SIZE sizeof(struct sha3_ctx)+#define SHA3_CTX_BUF_MAX_SIZE (SHA3_CTX_SIZE + SHA3_BUF_SIZE_MAX)+#define SHA3_BITSIZE_MIN 128+#define SHA3_BITSIZE_MAX 512 +#define SHA3_BUF_SIZE(bitsize) (200 - 2 * ((bitsize) / 8))++#define SHA3_BUF_SIZE_MIN SHA3_BUF_SIZE(SHA3_BITSIZE_MAX)+#define SHA3_BUF_SIZE_MAX SHA3_BUF_SIZE(SHA3_BITSIZE_MIN)++/*+ * buffer size:+ *+ * 128 bits (shake 128 bits) => 200 - 2 * (128 / 8) = 200 - 2*16 = 200 - 32 = 168 bytes+ * 224 bits (SHA3 224 bits) => 200 - 2 * (224 / 8) = 200 - 2*28 = 200 - 56 = 144 bytes+ * 512 bits (SHA3 512 bits) => 200 - 2 * (512 / 8) = 200 - 2*64 = 200 - 128 = 72 bytes+ */+ void cryptonite_sha3_init(struct sha3_ctx *ctx, uint32_t hashlen); void cryptonite_sha3_update(struct sha3_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_sha3_finalize(struct sha3_ctx *ctx, uint32_t hashlen, uint8_t *out);++void cryptonite_sha3_finalize_shake(struct sha3_ctx *ctx);+void cryptonite_sha3_finalize_cshake(struct sha3_ctx *ctx);+void cryptonite_sha3_output(struct sha3_ctx *ctx, uint8_t *out, uint32_t len);++void cryptonite_keccak_init(struct sha3_ctx *ctx, uint32_t hashlen);+void cryptonite_keccak_update(struct sha3_ctx *ctx, uint8_t *data, uint32_t len);+void cryptonite_keccak_finalize(struct sha3_ctx *ctx, uint32_t hashlen, uint8_t *out); #endif
cbits/cryptonite_sha512.c view
@@ -24,6 +24,7 @@ #include <string.h> #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" #include "cryptonite_sha512.h" void cryptonite_sha384_init(struct sha512_ctx *ctx)@@ -153,9 +154,18 @@ index = 0; } - /* process as much 128-block as possible */- for (; len >= 128; len -= 128, data += 128)- sha512_do_chunk(ctx, (uint64_t *) data);+ if (need_alignment(data, 8)) {+ uint64_t tramp[16];+ ASSERT_ALIGNMENT(tramp, 8);+ for (; len >= 128; len -= 128, data += 128) {+ memcpy(tramp, data, 128);+ sha512_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 128-block as possible */+ for (; len >= 128; len -= 128, data += 128)+ sha512_do_chunk(ctx, (uint64_t *) data);+ } /* append data into buf */ if (len)@@ -170,12 +180,19 @@ memcpy(out, intermediate, SHA384_DIGEST_SIZE); } +void cryptonite_sha384_finalize_prefix(struct sha384_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out)+{+ uint8_t intermediate[SHA512_DIGEST_SIZE];++ cryptonite_sha512_finalize_prefix(ctx, data, len, n, intermediate);+ memcpy(out, intermediate, SHA384_DIGEST_SIZE);+}+ void cryptonite_sha512_finalize(struct sha512_ctx *ctx, uint8_t *out) { static uint8_t padding[128] = { 0x80, }; uint32_t i, index, padlen; uint64_t bits[2];- uint64_t *p = (uint64_t *) out; /* cpu -> big endian */ bits[0] = cpu_to_be64((ctx->sz[1] << 3 | ctx->sz[0] >> 61));@@ -191,8 +208,40 @@ /* store to digest */ for (i = 0; i < 8; i++)- p[i] = cpu_to_be64(ctx->h[i]);+ store_be64(out+8*i, ctx->h[i]); }++#define HASHED(m) SHA512_##m+#define HASHED_LOWER(m) sha512_##m+#define CRYPTONITE_HASHED(m) cryptonite_sha512_##m+#define SHA512_BLOCK_SIZE 128+#define SHA512_BITS_ELEMS 2++#include <cryptonite_hash_prefix.h>++static inline uint32_t cryptonite_sha512_get_index(const struct sha512_ctx *ctx)+{+ return (uint32_t) (ctx->sz[0] & 0x7f);+}++static inline void cryptonite_sha512_incr_sz(struct sha512_ctx *ctx, uint64_t *bits, uint32_t n)+{+ ctx->sz[0] += n;+ ctx->sz[1] += 1 & constant_time_lt_64(ctx->sz[0], n);+ bits[0] = cpu_to_be64((ctx->sz[1] << 3 | ctx->sz[0] >> 61));+ bits[1] = cpu_to_be64((ctx->sz[0] << 3));+}++static inline void cryptonite_sha512_select_digest(const struct sha512_ctx *ctx, uint8_t *out, uint32_t out_mask)+{+ uint32_t i;+ uint64_t out_mask_64 = out_mask;+ out_mask_64 |= out_mask_64 << 32;+ for (i = 0; i < 8; i++)+ xor_be64(out+8*i, ctx->h[i] & out_mask_64);+}++#include <cryptonite_hash_prefix.c> #include <stdio.h>
cbits/cryptonite_sha512.h view
@@ -26,10 +26,12 @@ #include <stdint.h> +# define SHA512_BLOCK_SIZE 128+ struct sha512_ctx { uint64_t sz[2];- uint8_t buf[128];+ uint8_t buf[SHA512_BLOCK_SIZE]; uint64_t h[8]; }; @@ -44,10 +46,12 @@ void cryptonite_sha384_init(struct sha384_ctx *ctx); void cryptonite_sha384_update(struct sha384_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_sha384_finalize(struct sha384_ctx *ctx, uint8_t *out);+void cryptonite_sha384_finalize_prefix(struct sha384_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out); void cryptonite_sha512_init(struct sha512_ctx *ctx); void cryptonite_sha512_update(struct sha512_ctx *ctx, const uint8_t *data, uint32_t len); void cryptonite_sha512_finalize(struct sha512_ctx *ctx, uint8_t *out);+void cryptonite_sha512_finalize_prefix(struct sha512_ctx *ctx, const uint8_t *data, uint32_t len, uint32_t n, uint8_t *out); /* only multiples of 8 are supported as valid t values */ void cryptonite_sha512t_init(struct sha512_ctx *ctx, uint32_t hashlen);
cbits/cryptonite_skein256.c view
@@ -26,6 +26,7 @@ #include "cryptonite_skein.h" #include "cryptonite_skein256.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" static const uint8_t K256_0[2] = { 14, 16, }; static const uint8_t K256_1[2] = { 52, 57, };@@ -143,9 +144,18 @@ ctx->bufindex = 0; } - /* process as much 32-block as possible except the last one in case we finalize */- for (; len > 32; len -= 32, data += 32)- skein256_do_chunk(ctx, (uint64_t *) data, 32);+ if (need_alignment(data, 8)) {+ uint64_t tramp[4];+ ASSERT_ALIGNMENT(tramp, 8);+ for (; len > 32; len -= 32, data += 32) {+ memcpy(tramp, data, 32);+ skein256_do_chunk(ctx, tramp, 32);+ }+ } else {+ /* process as much 32-block as possible except the last one in case we finalize */+ for (; len > 32; len -= 32, data += 32)+ skein256_do_chunk(ctx, (uint64_t *) data, 32);+ } /* append data into buf */ if (len) {@@ -157,7 +167,6 @@ void cryptonite_skein256_finalize(struct skein256_ctx *ctx, uint32_t hashlen, uint8_t *out) { uint32_t outsize;- uint64_t *p = (uint64_t *) out; uint64_t x[4]; int i, j, n;
cbits/cryptonite_skein512.c view
@@ -26,6 +26,7 @@ #include "cryptonite_skein.h" #include "cryptonite_skein512.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" static const uint8_t K512_0[4] = { 46, 36, 19, 37, }; static const uint8_t K512_1[4] = { 33, 27, 14, 42, };@@ -161,9 +162,18 @@ ctx->bufindex = 0; } - /* process as much 64-block as possible except the last one in case we finalize */- for (; len > 64; len -= 64, data += 64)- skein512_do_chunk(ctx, (uint64_t *) data, 64);+ if (need_alignment(data, 8)) {+ uint64_t tramp[8];+ ASSERT_ALIGNMENT(tramp, 8);+ for (; len > 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ skein512_do_chunk(ctx, tramp, 64);+ }+ } else {+ /* process as much 64-block as possible except the last one in case we finalize */+ for (; len > 64; len -= 64, data += 64)+ skein512_do_chunk(ctx, (uint64_t *) data, 64);+ } /* append data into buf */ if (len) {@@ -175,7 +185,6 @@ void cryptonite_skein512_finalize(struct skein512_ctx *ctx, uint32_t hashlen, uint8_t *out) { uint32_t outsize;- uint64_t *p = (uint64_t *) out; uint64_t x[8]; int i, j, n;
cbits/cryptonite_tiger.c view
@@ -25,6 +25,7 @@ #include <string.h> #include "cryptonite_tiger.h" #include "cryptonite_bitfn.h"+#include "cryptonite_align.h" static const uint64_t t1[256] = { 0x02aab17cf7e90c5eULL,0xac424b03e243a8ecULL,0x72cd5be30dd5fcd3ULL,0x6d019b93f6f97f3aULL,@@ -381,9 +382,18 @@ index = 0; } - /* process as much 64-block as possible */- for (; len >= 64; len -= 64, data += 64)- tiger_do_chunk(ctx, (uint64_t *) data);+ if (need_alignment(data, 8)) {+ uint64_t tramp[8];+ ASSERT_ALIGNMENT(tramp, 8);+ for (; len >= 64; len -= 64, data += 64) {+ memcpy(tramp, data, 64);+ tiger_do_chunk(ctx, tramp);+ }+ } else {+ /* process as much 64-block as possible */+ for (; len >= 64; len -= 64, data += 64)+ tiger_do_chunk(ctx, (uint64_t *) data);+ } /* append data into buf */ if (len)@@ -395,7 +405,6 @@ static uint8_t padding[64] = { 0x01, }; uint64_t bits; uint32_t index, padlen;- uint64_t *p = (uint64_t *) out; /* add padding and update data with it */ bits = cpu_to_le64(ctx->sz << 3);@@ -409,7 +418,7 @@ cryptonite_tiger_update(ctx, (uint8_t *) &bits, sizeof(bits)); /* output hash */- p[0] = cpu_to_le64(ctx->h[0]);- p[1] = cpu_to_le64(ctx->h[1]);- p[2] = cpu_to_le64(ctx->h[2]);+ store_le64(out , ctx->h[0]);+ store_le64(out+ 8, ctx->h[1]);+ store_le64(out+16, ctx->h[2]); }
cbits/cryptonite_whirlpool.c view
@@ -777,7 +777,6 @@ uint64_t K[8]; /* the round key */ uint64_t block[8]; /* mu(buffer) */ uint64_t state[8]; /* the cipher state */- uint64_t L[8]; uint8_t *buffer = ctx->buffer; /*
+ cbits/cryptonite_xsalsa.c view
@@ -0,0 +1,90 @@+/*+ * Copyright (c) 2016 Brandon Hamilton <brandon.hamilton@gmail.com>+ * + * All rights reserved.+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions+ * are met:+ * 1. Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * 2. Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ * 3. Neither the name of the author nor the names of his contributors+ * may be used to endorse or promote products derived from this software+ * without specific prior written permission.+ *+ * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND+ * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE+ * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS+ * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)+ * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT+ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY+ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF+ * SUCH DAMAGE.+ */+#include <stdint.h>+#include <string.h>+#include "cryptonite_xsalsa.h"+#include "cryptonite_align.h"+#include "cryptonite_bitfn.h"++/* XSalsa20 algorithm as described in https://cr.yp.to/snuffle/xsalsa-20081128.pdf */+void cryptonite_xsalsa_init(cryptonite_salsa_context *ctx, uint8_t nb_rounds,+ uint32_t keylen, const uint8_t *key,+ uint32_t ivlen, const uint8_t *iv)+{+ memset(ctx, 0, sizeof(*ctx));+ ctx->nb_rounds = nb_rounds;++ /* Create initial 512-bit input block:+ (x0, x5, x10, x15) is the Salsa20 constant+ (x1, x2, x3, x4, x11, x12, x13, x14) is a 256-bit key+ (x6, x7, x8, x9) is the first 128 bits of a 192-bit nonce+ */+ cryptonite_salsa_init_core(&ctx->st, keylen, key, 8, iv);++ /* Continue initialization in a separate function that may also+ be called independently */+ cryptonite_xsalsa_derive(ctx, ivlen - 8, iv + 8);+}++void cryptonite_xsalsa_derive(cryptonite_salsa_context *ctx,+ uint32_t ivlen, const uint8_t *iv)+{+ /* Finish creating initial 512-bit input block:+ (x6, x7, x8, x9) is the first 128 bits of a 192-bit nonce++ Except iv has been shifted by 64 bits so there are now only 128 bits ahead.+ */+ ctx->st.d[ 8] += load_le32(iv + 0);+ ctx->st.d[ 9] += load_le32(iv + 4);++ /* Compute (z0, z1, . . . , z15) = doubleround ^(r/2) (x0, x1, . . . , x15) */+ block hSalsa;+ memset(&hSalsa, 0, sizeof(block));+ cryptonite_salsa_core_xor(ctx->nb_rounds, &hSalsa, &ctx->st);+ + /* Build a new 512-bit input block (x′0, x′1, . . . , x′15):+ (x′0, x′5, x′10, x′15) is the Salsa20 constant+ (x′1,x′2,x′3,x′4,x′11,x′12,x′13,x′14) = (z0,z5,z10,z15,z6,z7,z8,z9)+ (x′6,x′7) is the last 64 bits of the 192-bit nonce+ (x′8, x′9) is a 64-bit block counter.+ */+ ctx->st.d[ 1] = hSalsa.d[ 0] - ctx->st.d[ 0];+ ctx->st.d[ 2] = hSalsa.d[ 5] - ctx->st.d[ 5];+ ctx->st.d[ 3] = hSalsa.d[10] - ctx->st.d[10];+ ctx->st.d[ 4] = hSalsa.d[15] - ctx->st.d[15];+ ctx->st.d[11] = hSalsa.d[ 6] - ctx->st.d[ 6];+ ctx->st.d[12] = hSalsa.d[ 7] - ctx->st.d[ 7];+ ctx->st.d[13] = hSalsa.d[ 8] - ctx->st.d[ 8];+ ctx->st.d[14] = hSalsa.d[ 9] - ctx->st.d[ 9];+ ctx->st.d[ 6] = load_le32(iv + 8);+ ctx->st.d[ 7] = load_le32(iv + 12);+ ctx->st.d[ 8] = 0;+ ctx->st.d[ 9] = 0;+}
+ cbits/cryptonite_xsalsa.h view
@@ -0,0 +1,38 @@+/*+ * Copyright (c) 2016 Brandon Hamilton <brandon.hamilton@gmail.com>+ *+ * All rights reserved.+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions+ * are met:+ * 1. Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * 2. Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ * 3. Neither the name of the author nor the names of his contributors+ * may be used to endorse or promote products derived from this software+ * without specific prior written permission.+ *+ * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND+ * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE+ * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE+ * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE+ * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS+ * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)+ * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT+ * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY+ * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF+ * SUCH DAMAGE.+ */+#ifndef CRYPTONITE_XSALSA+#define CRYPTONITE_XSALSA++#include "cryptonite_salsa.h"++void cryptonite_xsalsa_init(cryptonite_salsa_context *ctx, uint8_t nb_rounds, uint32_t keylen, const uint8_t *key, uint32_t ivlen, const uint8_t *iv);+void cryptonite_xsalsa_derive(cryptonite_salsa_context *ctx, uint32_t ivlen, const uint8_t *iv);++#endif
+ cbits/curve25519/curve25519-donna-c64.c view
@@ -0,0 +1,447 @@+/* Copyright 2008, Google Inc.+ * All rights reserved.+ *+ * Code released into the public domain.+ *+ * curve25519-donna: Curve25519 elliptic curve, public key function+ *+ * http://code.google.com/p/curve25519-donna/+ *+ * Adam Langley <agl@imperialviolet.org>+ *+ * Derived from public domain C code by Daniel J. Bernstein <djb@cr.yp.to>+ *+ * More information about curve25519 can be found here+ * http://cr.yp.to/ecdh.html+ *+ * djb's sample implementation of curve25519 is written in a special assembly+ * language called qhasm and uses the floating point registers.+ *+ * This is, almost, a clean room reimplementation from the curve25519 paper. It+ * uses many of the tricks described therein. Only the crecip function is taken+ * from the sample implementation.+ */++#include <string.h>+#include <stdint.h>++typedef uint8_t u8;+typedef uint64_t limb;+typedef limb felem[5];+// This is a special gcc mode for 128-bit integers. It's implemented on 64-bit+// platforms only as far as I know.+typedef unsigned uint128_t __attribute__((mode(TI)));++#undef force_inline+#define force_inline __attribute__((always_inline))++/* Sum two numbers: output += in */+static inline void force_inline+fsum(limb *output, const limb *in) {+ output[0] += in[0];+ output[1] += in[1];+ output[2] += in[2];+ output[3] += in[3];+ output[4] += in[4];+}++/* Find the difference of two numbers: output = in - output+ * (note the order of the arguments!)+ *+ * Assumes that out[i] < 2**52+ * On return, out[i] < 2**55+ */+static inline void force_inline+fdifference_backwards(felem out, const felem in) {+ /* 152 is 19 << 3 */+ static const limb two54m152 = (((limb)1) << 54) - 152;+ static const limb two54m8 = (((limb)1) << 54) - 8;++ out[0] = in[0] + two54m152 - out[0];+ out[1] = in[1] + two54m8 - out[1];+ out[2] = in[2] + two54m8 - out[2];+ out[3] = in[3] + two54m8 - out[3];+ out[4] = in[4] + two54m8 - out[4];+}++/* Multiply a number by a scalar: output = in * scalar */+static inline void force_inline+fscalar_product(felem output, const felem in, const limb scalar) {+ uint128_t a;++ a = ((uint128_t) in[0]) * scalar;+ output[0] = ((limb)a) & 0x7ffffffffffff;++ a = ((uint128_t) in[1]) * scalar + ((limb) (a >> 51));+ output[1] = ((limb)a) & 0x7ffffffffffff;++ a = ((uint128_t) in[2]) * scalar + ((limb) (a >> 51));+ output[2] = ((limb)a) & 0x7ffffffffffff;++ a = ((uint128_t) in[3]) * scalar + ((limb) (a >> 51));+ output[3] = ((limb)a) & 0x7ffffffffffff;++ a = ((uint128_t) in[4]) * scalar + ((limb) (a >> 51));+ output[4] = ((limb)a) & 0x7ffffffffffff;++ output[0] += (a >> 51) * 19;+}++/* Multiply two numbers: output = in2 * in+ *+ * output must be distinct to both inputs. The inputs are reduced coefficient+ * form, the output is not.+ *+ * Assumes that in[i] < 2**55 and likewise for in2.+ * On return, output[i] < 2**52+ */+static inline void force_inline+fmul(felem output, const felem in2, const felem in) {+ uint128_t t[5];+ limb r0,r1,r2,r3,r4,s0,s1,s2,s3,s4,c;++ r0 = in[0];+ r1 = in[1];+ r2 = in[2];+ r3 = in[3];+ r4 = in[4];++ s0 = in2[0];+ s1 = in2[1];+ s2 = in2[2];+ s3 = in2[3];+ s4 = in2[4];++ t[0] = ((uint128_t) r0) * s0;+ t[1] = ((uint128_t) r0) * s1 + ((uint128_t) r1) * s0;+ t[2] = ((uint128_t) r0) * s2 + ((uint128_t) r2) * s0 + ((uint128_t) r1) * s1;+ t[3] = ((uint128_t) r0) * s3 + ((uint128_t) r3) * s0 + ((uint128_t) r1) * s2 + ((uint128_t) r2) * s1;+ t[4] = ((uint128_t) r0) * s4 + ((uint128_t) r4) * s0 + ((uint128_t) r3) * s1 + ((uint128_t) r1) * s3 + ((uint128_t) r2) * s2;++ r4 *= 19;+ r1 *= 19;+ r2 *= 19;+ r3 *= 19;++ t[0] += ((uint128_t) r4) * s1 + ((uint128_t) r1) * s4 + ((uint128_t) r2) * s3 + ((uint128_t) r3) * s2;+ t[1] += ((uint128_t) r4) * s2 + ((uint128_t) r2) * s4 + ((uint128_t) r3) * s3;+ t[2] += ((uint128_t) r4) * s3 + ((uint128_t) r3) * s4;+ t[3] += ((uint128_t) r4) * s4;++ r0 = (limb)t[0] & 0x7ffffffffffff; c = (limb)(t[0] >> 51);+ t[1] += c; r1 = (limb)t[1] & 0x7ffffffffffff; c = (limb)(t[1] >> 51);+ t[2] += c; r2 = (limb)t[2] & 0x7ffffffffffff; c = (limb)(t[2] >> 51);+ t[3] += c; r3 = (limb)t[3] & 0x7ffffffffffff; c = (limb)(t[3] >> 51);+ t[4] += c; r4 = (limb)t[4] & 0x7ffffffffffff; c = (limb)(t[4] >> 51);+ r0 += c * 19; c = r0 >> 51; r0 = r0 & 0x7ffffffffffff;+ r1 += c; c = r1 >> 51; r1 = r1 & 0x7ffffffffffff;+ r2 += c;++ output[0] = r0;+ output[1] = r1;+ output[2] = r2;+ output[3] = r3;+ output[4] = r4;+}++static inline void force_inline+fsquare_times(felem output, const felem in, limb count) {+ uint128_t t[5];+ limb r0,r1,r2,r3,r4,c;+ limb d0,d1,d2,d4,d419;++ r0 = in[0];+ r1 = in[1];+ r2 = in[2];+ r3 = in[3];+ r4 = in[4];++ do {+ d0 = r0 * 2;+ d1 = r1 * 2;+ d2 = r2 * 2 * 19;+ d419 = r4 * 19;+ d4 = d419 * 2;++ t[0] = ((uint128_t) r0) * r0 + ((uint128_t) d4) * r1 + (((uint128_t) d2) * (r3 ));+ t[1] = ((uint128_t) d0) * r1 + ((uint128_t) d4) * r2 + (((uint128_t) r3) * (r3 * 19));+ t[2] = ((uint128_t) d0) * r2 + ((uint128_t) r1) * r1 + (((uint128_t) d4) * (r3 ));+ t[3] = ((uint128_t) d0) * r3 + ((uint128_t) d1) * r2 + (((uint128_t) r4) * (d419 ));+ t[4] = ((uint128_t) d0) * r4 + ((uint128_t) d1) * r3 + (((uint128_t) r2) * (r2 ));++ r0 = (limb)t[0] & 0x7ffffffffffff; c = (limb)(t[0] >> 51);+ t[1] += c; r1 = (limb)t[1] & 0x7ffffffffffff; c = (limb)(t[1] >> 51);+ t[2] += c; r2 = (limb)t[2] & 0x7ffffffffffff; c = (limb)(t[2] >> 51);+ t[3] += c; r3 = (limb)t[3] & 0x7ffffffffffff; c = (limb)(t[3] >> 51);+ t[4] += c; r4 = (limb)t[4] & 0x7ffffffffffff; c = (limb)(t[4] >> 51);+ r0 += c * 19; c = r0 >> 51; r0 = r0 & 0x7ffffffffffff;+ r1 += c; c = r1 >> 51; r1 = r1 & 0x7ffffffffffff;+ r2 += c;+ } while(--count);++ output[0] = r0;+ output[1] = r1;+ output[2] = r2;+ output[3] = r3;+ output[4] = r4;+}++/* Load a little-endian 64-bit number */+static limb+load_limb(const u8 *in) {+ return+ ((limb)in[0]) |+ (((limb)in[1]) << 8) |+ (((limb)in[2]) << 16) |+ (((limb)in[3]) << 24) |+ (((limb)in[4]) << 32) |+ (((limb)in[5]) << 40) |+ (((limb)in[6]) << 48) |+ (((limb)in[7]) << 56);+}++static void+store_limb(u8 *out, limb in) {+ out[0] = in & 0xff;+ out[1] = (in >> 8) & 0xff;+ out[2] = (in >> 16) & 0xff;+ out[3] = (in >> 24) & 0xff;+ out[4] = (in >> 32) & 0xff;+ out[5] = (in >> 40) & 0xff;+ out[6] = (in >> 48) & 0xff;+ out[7] = (in >> 56) & 0xff;+}++/* Take a little-endian, 32-byte number and expand it into polynomial form */+static void+fexpand(limb *output, const u8 *in) {+ output[0] = load_limb(in) & 0x7ffffffffffff;+ output[1] = (load_limb(in+6) >> 3) & 0x7ffffffffffff;+ output[2] = (load_limb(in+12) >> 6) & 0x7ffffffffffff;+ output[3] = (load_limb(in+19) >> 1) & 0x7ffffffffffff;+ output[4] = (load_limb(in+24) >> 12) & 0x7ffffffffffff;+}++/* Take a fully reduced polynomial form number and contract it into a+ * little-endian, 32-byte array+ */+static void+fcontract(u8 *output, const felem input) {+ uint128_t t[5];++ t[0] = input[0];+ t[1] = input[1];+ t[2] = input[2];+ t[3] = input[3];+ t[4] = input[4];++ t[1] += t[0] >> 51; t[0] &= 0x7ffffffffffff;+ t[2] += t[1] >> 51; t[1] &= 0x7ffffffffffff;+ t[3] += t[2] >> 51; t[2] &= 0x7ffffffffffff;+ t[4] += t[3] >> 51; t[3] &= 0x7ffffffffffff;+ t[0] += 19 * (t[4] >> 51); t[4] &= 0x7ffffffffffff;++ t[1] += t[0] >> 51; t[0] &= 0x7ffffffffffff;+ t[2] += t[1] >> 51; t[1] &= 0x7ffffffffffff;+ t[3] += t[2] >> 51; t[2] &= 0x7ffffffffffff;+ t[4] += t[3] >> 51; t[3] &= 0x7ffffffffffff;+ t[0] += 19 * (t[4] >> 51); t[4] &= 0x7ffffffffffff;++ /* now t is between 0 and 2^255-1, properly carried. */+ /* case 1: between 0 and 2^255-20. case 2: between 2^255-19 and 2^255-1. */++ t[0] += 19;++ t[1] += t[0] >> 51; t[0] &= 0x7ffffffffffff;+ t[2] += t[1] >> 51; t[1] &= 0x7ffffffffffff;+ t[3] += t[2] >> 51; t[2] &= 0x7ffffffffffff;+ t[4] += t[3] >> 51; t[3] &= 0x7ffffffffffff;+ t[0] += 19 * (t[4] >> 51); t[4] &= 0x7ffffffffffff;++ /* now between 19 and 2^255-1 in both cases, and offset by 19. */++ t[0] += 0x8000000000000 - 19;+ t[1] += 0x8000000000000 - 1;+ t[2] += 0x8000000000000 - 1;+ t[3] += 0x8000000000000 - 1;+ t[4] += 0x8000000000000 - 1;++ /* now between 2^255 and 2^256-20, and offset by 2^255. */++ t[1] += t[0] >> 51; t[0] &= 0x7ffffffffffff;+ t[2] += t[1] >> 51; t[1] &= 0x7ffffffffffff;+ t[3] += t[2] >> 51; t[2] &= 0x7ffffffffffff;+ t[4] += t[3] >> 51; t[3] &= 0x7ffffffffffff;+ t[4] &= 0x7ffffffffffff;++ store_limb(output, t[0] | (t[1] << 51));+ store_limb(output+8, (t[1] >> 13) | (t[2] << 38));+ store_limb(output+16, (t[2] >> 26) | (t[3] << 25));+ store_limb(output+24, (t[3] >> 39) | (t[4] << 12));+}++/* Input: Q, Q', Q-Q'+ * Output: 2Q, Q+Q'+ *+ * x2 z3: long form+ * x3 z3: long form+ * x z: short form, destroyed+ * xprime zprime: short form, destroyed+ * qmqp: short form, preserved+ */+static void+fmonty(limb *x2, limb *z2, /* output 2Q */+ limb *x3, limb *z3, /* output Q + Q' */+ limb *x, limb *z, /* input Q */+ limb *xprime, limb *zprime, /* input Q' */+ const limb *qmqp /* input Q - Q' */) {+ limb origx[5], origxprime[5], zzz[5], xx[5], zz[5], xxprime[5],+ zzprime[5], zzzprime[5];++ memcpy(origx, x, 5 * sizeof(limb));+ fsum(x, z);+ fdifference_backwards(z, origx); // does x - z++ memcpy(origxprime, xprime, sizeof(limb) * 5);+ fsum(xprime, zprime);+ fdifference_backwards(zprime, origxprime);+ fmul(xxprime, xprime, z);+ fmul(zzprime, x, zprime);+ memcpy(origxprime, xxprime, sizeof(limb) * 5);+ fsum(xxprime, zzprime);+ fdifference_backwards(zzprime, origxprime);+ fsquare_times(x3, xxprime, 1);+ fsquare_times(zzzprime, zzprime, 1);+ fmul(z3, zzzprime, qmqp);++ fsquare_times(xx, x, 1);+ fsquare_times(zz, z, 1);+ fmul(x2, xx, zz);+ fdifference_backwards(zz, xx); // does zz = xx - zz+ fscalar_product(zzz, zz, 121665);+ fsum(zzz, xx);+ fmul(z2, zz, zzz);+}++// -----------------------------------------------------------------------------+// Maybe swap the contents of two limb arrays (@a and @b), each @len elements+// long. Perform the swap iff @swap is non-zero.+//+// This function performs the swap without leaking any side-channel+// information.+// -----------------------------------------------------------------------------+static void+swap_conditional(limb a[5], limb b[5], limb iswap) {+ unsigned i;+ const limb swap = -iswap;++ for (i = 0; i < 5; ++i) {+ const limb x = swap & (a[i] ^ b[i]);+ a[i] ^= x;+ b[i] ^= x;+ }+}++/* Calculates nQ where Q is the x-coordinate of a point on the curve+ *+ * resultx/resultz: the x coordinate of the resulting curve point (short form)+ * n: a little endian, 32-byte number+ * q: a point of the curve (short form)+ */+static void+cmult(limb *resultx, limb *resultz, const u8 *n, const limb *q) {+ limb a[5] = {0}, b[5] = {1}, c[5] = {1}, d[5] = {0};+ limb *nqpqx = a, *nqpqz = b, *nqx = c, *nqz = d, *t;+ limb e[5] = {0}, f[5] = {1}, g[5] = {0}, h[5] = {1};+ limb *nqpqx2 = e, *nqpqz2 = f, *nqx2 = g, *nqz2 = h;++ unsigned i, j;++ memcpy(nqpqx, q, sizeof(limb) * 5);++ for (i = 0; i < 32; ++i) {+ u8 byte = n[31 - i];+ for (j = 0; j < 8; ++j) {+ const limb bit = byte >> 7;++ swap_conditional(nqx, nqpqx, bit);+ swap_conditional(nqz, nqpqz, bit);+ fmonty(nqx2, nqz2,+ nqpqx2, nqpqz2,+ nqx, nqz,+ nqpqx, nqpqz,+ q);+ swap_conditional(nqx2, nqpqx2, bit);+ swap_conditional(nqz2, nqpqz2, bit);++ t = nqx;+ nqx = nqx2;+ nqx2 = t;+ t = nqz;+ nqz = nqz2;+ nqz2 = t;+ t = nqpqx;+ nqpqx = nqpqx2;+ nqpqx2 = t;+ t = nqpqz;+ nqpqz = nqpqz2;+ nqpqz2 = t;++ byte <<= 1;+ }+ }++ memcpy(resultx, nqx, sizeof(limb) * 5);+ memcpy(resultz, nqz, sizeof(limb) * 5);+}+++// -----------------------------------------------------------------------------+// Shamelessly copied from djb's code, tightened a little+// -----------------------------------------------------------------------------+static void+crecip(felem out, const felem z) {+ felem a,t0,b,c;++ /* 2 */ fsquare_times(a, z, 1); // a = 2+ /* 8 */ fsquare_times(t0, a, 2);+ /* 9 */ fmul(b, t0, z); // b = 9+ /* 11 */ fmul(a, b, a); // a = 11+ /* 22 */ fsquare_times(t0, a, 1);+ /* 2^5 - 2^0 = 31 */ fmul(b, t0, b);+ /* 2^10 - 2^5 */ fsquare_times(t0, b, 5);+ /* 2^10 - 2^0 */ fmul(b, t0, b);+ /* 2^20 - 2^10 */ fsquare_times(t0, b, 10);+ /* 2^20 - 2^0 */ fmul(c, t0, b);+ /* 2^40 - 2^20 */ fsquare_times(t0, c, 20);+ /* 2^40 - 2^0 */ fmul(t0, t0, c);+ /* 2^50 - 2^10 */ fsquare_times(t0, t0, 10);+ /* 2^50 - 2^0 */ fmul(b, t0, b);+ /* 2^100 - 2^50 */ fsquare_times(t0, b, 50);+ /* 2^100 - 2^0 */ fmul(c, t0, b);+ /* 2^200 - 2^100 */ fsquare_times(t0, c, 100);+ /* 2^200 - 2^0 */ fmul(t0, t0, c);+ /* 2^250 - 2^50 */ fsquare_times(t0, t0, 50);+ /* 2^250 - 2^0 */ fmul(t0, t0, b);+ /* 2^255 - 2^5 */ fsquare_times(t0, t0, 5);+ /* 2^255 - 21 */ fmul(out, t0, a);+}++int+cryptonite_curve25519_donna(u8 *mypublic, const u8 *secret, const u8 *basepoint) {+ limb bp[5], x[5], z[5], zmone[5];+ uint8_t e[32];+ int i;++ for (i = 0;i < 32;++i) e[i] = secret[i];+ e[0] &= 248;+ e[31] &= 127;+ e[31] |= 64;++ fexpand(bp, basepoint);+ cmult(x, z, e, bp);+ crecip(zmone, z);+ fmul(z, x, zmone);+ fcontract(mypublic, z);+ return 0;+}
+ cbits/decaf/ed448goldilocks/decaf.c view
@@ -0,0 +1,1642 @@+/**+ * @file ed448goldilocks/decaf.c+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief Decaf high-level functions.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */+#define _XOPEN_SOURCE 600 /* for posix_memalign */+#include "word.h"+#include "field.h"++#include <decaf.h>+#include <decaf/ed448.h>++/* Template stuff */+#define API_NS(_id) cryptonite_decaf_448_##_id+#define SCALAR_BITS CRYPTONITE_DECAF_448_SCALAR_BITS+#define SCALAR_SER_BYTES CRYPTONITE_DECAF_448_SCALAR_BYTES+#define SCALAR_LIMBS CRYPTONITE_DECAF_448_SCALAR_LIMBS+#define scalar_t API_NS(scalar_t)+#define point_t API_NS(point_t)+#define precomputed_s API_NS(precomputed_s)+#define IMAGINE_TWIST 0+#define COFACTOR 4++/* Comb config: number of combs, n, t, s. */+#define COMBS_N 5+#define COMBS_T 5+#define COMBS_S 18+#define CRYPTONITE_DECAF_WINDOW_BITS 5+#define CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS 5+#define CRYPTONITE_DECAF_WNAF_VAR_TABLE_BITS 3++#define EDDSA_USE_SIGMA_ISOGENY 0++static const int EDWARDS_D = -39081;+static const scalar_t point_scalarmul_adjustment = {{{+ SC_LIMB(0xc873d6d54a7bb0cf), SC_LIMB(0xe933d8d723a70aad), SC_LIMB(0xbb124b65129c96fd), SC_LIMB(0x00000008335dc163)+}}}, precomputed_scalarmul_adjustment = {{{+ SC_LIMB(0xc873d6d54a7bb0cf), SC_LIMB(0xe933d8d723a70aad), SC_LIMB(0xbb124b65129c96fd), SC_LIMB(0x00000008335dc163)+}}};++const uint8_t cryptonite_decaf_x448_base_point[CRYPTONITE_DECAF_X448_PUBLIC_BYTES] = { 0x05 };++#if COFACTOR==8 || EDDSA_USE_SIGMA_ISOGENY+ static const gf SQRT_ONE_MINUS_D = {FIELD_LITERAL(+ /* NONE */+ )};+#endif++/* End of template stuff */++/* Sanity */+#if (COFACTOR == 8) && !IMAGINE_TWIST && !UNSAFE_CURVE_HAS_POINTS_AT_INFINITY+/* FUTURE MAGIC: Curve41417 doesn't have these properties. */+#error "Currently require IMAGINE_TWIST (and thus p=5 mod 8) for cofactor 8"+ /* OK, but why?+ * Two reasons: #1: There are bugs when COFACTOR == && IMAGINE_TWIST+ # #2: + */+#endif++#if IMAGINE_TWIST && (P_MOD_8 != 5)+ #error "Cannot use IMAGINE_TWIST except for p == 5 mod 8"+#endif++#if (COFACTOR != 8) && (COFACTOR != 4)+ #error "COFACTOR must be 4 or 8"+#endif+ +#if IMAGINE_TWIST+ extern const gf SQRT_MINUS_ONE;+#endif++#define WBITS CRYPTONITE_DECAF_WORD_BITS /* NB this may be different from ARCH_WORD_BITS */++extern const point_t API_NS(point_base);++/* Projective Niels coordinates */+typedef struct { gf a, b, c; } niels_s, niels_t[1];+typedef struct { niels_t n; gf z; } VECTOR_ALIGNED pniels_s, pniels_t[1];++/* Precomputed base */+struct precomputed_s { niels_t table [COMBS_N<<(COMBS_T-1)]; };++extern const gf API_NS(precomputed_base_as_fe)[];+const precomputed_s *API_NS(precomputed_base) =+ (const precomputed_s *) &API_NS(precomputed_base_as_fe);++const size_t API_NS(sizeof_precomputed_s) = sizeof(precomputed_s);+const size_t API_NS(alignof_precomputed_s) = sizeof(big_register_t);++/** Inverse. */+static void+cryptonite_gf_invert(gf y, const gf x, int assert_nonzero) {+ gf t1, t2;+ cryptonite_gf_sqr(t1, x); // o^2+ mask_t ret = cryptonite_gf_isr(t2, t1); // +-1/sqrt(o^2) = +-1/o+ (void)ret;+ if (assert_nonzero) assert(ret);+ cryptonite_gf_sqr(t1, t2);+ cryptonite_gf_mul(t2, t1, x); // not direct to y in case of alias.+ cryptonite_gf_copy(y, t2);+}++/** Return high bit of x = low bit of 2x mod p */+static mask_t cryptonite_gf_lobit(const gf x) {+ gf y;+ cryptonite_gf_copy(y,x);+ cryptonite_gf_strong_reduce(y);+ return -(y->limb[0]&1);+}++/** identity = (0,1) */+const point_t API_NS(point_identity) = {{{{{0}}},{{{1}}},{{{1}}},{{{0}}}}};++void API_NS(deisogenize) (+ cryptonite_gf_s *__restrict__ s,+ cryptonite_gf_s *__restrict__ minus_t_over_s,+ const point_t p,+ mask_t toggle_hibit_s,+ mask_t toggle_hibit_t_over_s,+ mask_t toggle_rotation+);++void API_NS(deisogenize) (+ cryptonite_gf_s *__restrict__ s,+ cryptonite_gf_s *__restrict__ minus_t_over_s,+ const point_t p,+ mask_t toggle_hibit_s,+ mask_t toggle_hibit_t_over_s,+ mask_t toggle_rotation+) {+#if COFACTOR == 4 && !IMAGINE_TWIST+ (void) toggle_rotation;+ + gf b, d;+ cryptonite_gf_s *c = s, *a = minus_t_over_s;+ cryptonite_gf_mulw(a, p->y, 1-EDWARDS_D);+ cryptonite_gf_mul(c, a, p->t); /* -dYT, with EDWARDS_D = d-1 */+ cryptonite_gf_mul(a, p->x, p->z); + cryptonite_gf_sub(d, c, a); /* aXZ-dYT with a=-1 */+ cryptonite_gf_add(a, p->z, p->y); + cryptonite_gf_sub(b, p->z, p->y); + cryptonite_gf_mul(c, b, a);+ cryptonite_gf_mulw(b, c, -EDWARDS_D); /* (a-d)(Z+Y)(Z-Y) */+ mask_t ok = cryptonite_gf_isr (a,b); /* r in the paper */+ (void)ok; assert(ok | cryptonite_gf_eq(b,ZERO));+ cryptonite_gf_mulw (b, a, -EDWARDS_D); /* u in the paper */++ cryptonite_gf_mul(c,a,d); /* r(aZX-dYT) */+ cryptonite_gf_mul(a,b,p->z); /* uZ */+ cryptonite_gf_add(a,a,a); /* 2uZ */+ + mask_t tg = toggle_hibit_t_over_s ^ ~cryptonite_gf_hibit(minus_t_over_s);+ cryptonite_gf_cond_neg(minus_t_over_s, tg); /* t/s <-? -t/s */+ cryptonite_gf_cond_neg(c, tg); /* u <- -u if negative. */+ + cryptonite_gf_add(d,c,p->y);+ cryptonite_gf_mul(s,b,d);+ cryptonite_gf_cond_neg(s, toggle_hibit_s ^ cryptonite_gf_hibit(s));+#else+ /* More complicated because of rotation */+ /* MAGIC This code is wrong for certain non-Curve25519 curves;+ * check if it's because of Cofactor==8 or IMAGINE_TWIST */+ + gf c, d;+ cryptonite_gf_s *b = s, *a = minus_t_over_s;++ #if IMAGINE_TWIST+ gf x, t;+ cryptonite_gf_div_qnr(x,p->x);+ cryptonite_gf_div_qnr(t,p->t);+ cryptonite_gf_add ( a, p->z, x );+ cryptonite_gf_sub ( b, p->z, x );+ cryptonite_gf_mul ( c, a, b ); /* "zx" = Z^2 - aX^2 = Z^2 - X^2 */+ #else+ const cryptonite_gf_s *x = p->x, *t = p->t;+ cryptonite_gf_sqr ( a, p->z );+ cryptonite_gf_sqr ( b, p->x );+ cryptonite_gf_add ( c, a, b ); /* "zx" = Z^2 - aX^2 = Z^2 + X^2 */+ #endif+ /* Here: c = "zx" in the SAGE code = Z^2 - aX^2 */+ + cryptonite_gf_mul ( a, p->z, t ); /* "tz" = T*Z */+ cryptonite_gf_sqr ( b, a );+ cryptonite_gf_mul ( d, b, c ); /* (TZ)^2 * (Z^2-aX^2) */+ mask_t ok = cryptonite_gf_isr(b, d);+ (void)ok; assert(ok | cryptonite_gf_eq(d,ZERO));+ cryptonite_gf_mul ( d, b, a ); /* "osx" = 1 / sqrt(z^2-ax^2) */+ cryptonite_gf_mul ( a, b, c ); + cryptonite_gf_mul ( b, a, d ); /* 1/tz */++ mask_t rotate;+ #if (COFACTOR == 8)+ gf e;+ cryptonite_gf_sqr(e, p->z);+ cryptonite_gf_mul(a, e, b); /* z^2 / tz = z/t = 1/xy */+ rotate = cryptonite_gf_hibit(a) ^ toggle_rotation;+ /* Curve25519: cond select between zx * 1/tz or sqrt(1-d); y=-x */+ cryptonite_gf_mul ( a, b, c ); + cryptonite_gf_cond_sel ( a, a, SQRT_ONE_MINUS_D, rotate );+ cryptonite_gf_cond_sel ( e, p->y, x, rotate );+ #else+ const cryptonite_gf_s *e = x;+ (void)toggle_rotation;+ rotate = 0;+ #endif+ + cryptonite_gf_mul ( c, a, d ); // new "osx"+ cryptonite_gf_mul ( a, c, p->z );+ cryptonite_gf_add ( minus_t_over_s, a, a ); // 2 * "osx" * Z+ cryptonite_gf_mul ( d, b, p->z );+ + mask_t tg = toggle_hibit_t_over_s ^~ cryptonite_gf_hibit(minus_t_over_s);+ cryptonite_gf_cond_neg ( minus_t_over_s, tg );+ cryptonite_gf_cond_neg ( c, rotate ^ tg );+ cryptonite_gf_add ( d, d, c );+ cryptonite_gf_mul ( s, d, e ); /* here "x" = y unless rotate */+ cryptonite_gf_cond_neg ( s, toggle_hibit_s ^ cryptonite_gf_hibit(s) );+#endif+}++void API_NS(point_encode)( unsigned char ser[SER_BYTES], const point_t p ) {+ gf s, mtos;+ API_NS(deisogenize)(s,mtos,p,0,0,0);+ cryptonite_gf_serialize(ser,s,0);+}++cryptonite_decaf_error_t API_NS(point_decode) (+ point_t p,+ const unsigned char ser[SER_BYTES],+ cryptonite_decaf_bool_t allow_identity+) {+ gf s, a, b, c, d, e, f;+ mask_t succ = cryptonite_gf_deserialize(s, ser, 0);+ mask_t zero = cryptonite_gf_eq(s, ZERO);+ succ &= bool_to_mask(allow_identity) | ~zero;+ cryptonite_gf_sqr ( a, s ); /* s^2 */+#if IMAGINE_TWIST+ cryptonite_gf_sub ( f, ONE, a ); /* f = 1-as^2 = 1-s^2*/+#else+ cryptonite_gf_add ( f, ONE, a ); /* f = 1-as^2 = 1+s^2 */+#endif+ succ &= ~ cryptonite_gf_eq( f, ZERO );+ cryptonite_gf_sqr ( b, f ); /* (1-as^2)^2 = 1 - 2as^2 + a^2 s^4 */+ cryptonite_gf_mulw ( c, a, 4*IMAGINE_TWIST-4*EDWARDS_D ); + cryptonite_gf_add ( c, c, b ); /* t^2 = 1 + (2a-4d) s^2 + s^4 */+ cryptonite_gf_mul ( d, f, s ); /* s * (1-as^2) for denoms */+ cryptonite_gf_sqr ( e, d ); /* s^2 * (1-as^2)^2 */+ cryptonite_gf_mul ( b, c, e ); /* t^2 * s^2 * (1-as^2)^2 */+ + succ &= cryptonite_gf_isr(e,b) | cryptonite_gf_eq(b,ZERO); /* e = 1/(t s (1-as^2)) */+ cryptonite_gf_mul ( b, e, d ); /* 1 / t */+ cryptonite_gf_mul ( d, e, c ); /* t / (s(1-as^2)) */+ cryptonite_gf_mul ( e, d, f ); /* t / s */+ mask_t negtos = cryptonite_gf_hibit(e);+ cryptonite_gf_cond_neg(b, negtos);+ cryptonite_gf_cond_neg(d, negtos);++#if IMAGINE_TWIST+ cryptonite_gf_add ( p->z, ONE, a); /* Z = 1+as^2 = 1-s^2 */+#else+ cryptonite_gf_sub ( p->z, ONE, a); /* Z = 1+as^2 = 1-s^2 */+#endif++#if COFACTOR == 8+ cryptonite_gf_mul ( a, p->z, d); /* t(1+s^2) / s(1-s^2) = 2/xy */+ succ &= ~cryptonite_gf_lobit(a); /* = ~cryptonite_gf_hibit(a/2), since cryptonite_gf_hibit(x) = cryptonite_gf_lobit(2x) */+#endif+ + cryptonite_gf_mul ( a, f, b ); /* y = (1-s^2) / t */+ cryptonite_gf_mul ( p->y, p->z, a ); /* Y = yZ */+#if IMAGINE_TWIST+ cryptonite_gf_add ( b, s, s );+ cryptonite_gf_mul(p->x, b, SQRT_MINUS_ONE); /* Curve25519 */+#else+ cryptonite_gf_add ( p->x, s, s );+#endif+ cryptonite_gf_mul ( p->t, p->x, a ); /* T = 2s (1-as^2)/t */+ +#if UNSAFE_CURVE_HAS_POINTS_AT_INFINITY+ /* This can't happen for any of the supported configurations.+ *+ * If it can happen (because s=1), it's because the curve has points+ * at infinity, which means that there may be critical security bugs+ * elsewhere in the library. In that case, it's better that you hit+ * the assertion in point_valid, which will happen in the test suite+ * since it tests s=1.+ *+ * This debugging option is to allow testing of IMAGINE_TWIST = 0 on+ * Ed25519, without hitting that assertion. Don't use it in+ * production.+ */+ succ &= ~cryptonite_gf_eq(p->z,ZERO);+#endif+ + p->y->limb[0] -= zero;+ assert(API_NS(point_valid)(p) | ~succ);+ + return cryptonite_decaf_succeed_if(mask_to_bool(succ));+}++#if IMAGINE_TWIST+#define TWISTED_D (-(EDWARDS_D))+#else+#define TWISTED_D ((EDWARDS_D)-1)+#endif++#if TWISTED_D < 0+#define EFF_D (-(TWISTED_D))+#define NEG_D 1+#else+#define EFF_D TWISTED_D+#define NEG_D 0+#endif++void API_NS(point_sub) (+ point_t p,+ const point_t q,+ const point_t r+) {+ gf a, b, c, d;+ cryptonite_gf_sub_nr ( b, q->y, q->x ); /* 3+e */+ cryptonite_gf_sub_nr ( d, r->y, r->x ); /* 3+e */+ cryptonite_gf_add_nr ( c, r->y, r->x ); /* 2+e */+ cryptonite_gf_mul ( a, c, b );+ cryptonite_gf_add_nr ( b, q->y, q->x ); /* 2+e */+ cryptonite_gf_mul ( p->y, d, b );+ cryptonite_gf_mul ( b, r->t, q->t );+ cryptonite_gf_mulw ( p->x, b, 2*EFF_D );+ cryptonite_gf_add_nr ( b, a, p->y ); /* 2+e */+ cryptonite_gf_sub_nr ( c, p->y, a ); /* 3+e */+ cryptonite_gf_mul ( a, q->z, r->z );+ cryptonite_gf_add_nr ( a, a, a ); /* 2+e */+ if (GF_HEADROOM <= 3) cryptonite_gf_weak_reduce(a); /* or 1+e */+#if NEG_D+ cryptonite_gf_sub_nr ( p->y, a, p->x ); /* 4+e or 3+e */+ cryptonite_gf_add_nr ( a, a, p->x ); /* 3+e or 2+e */+#else+ cryptonite_gf_add_nr ( p->y, a, p->x ); /* 3+e or 2+e */+ cryptonite_gf_sub_nr ( a, a, p->x ); /* 4+e or 3+e */+#endif+ cryptonite_gf_mul ( p->z, a, p->y );+ cryptonite_gf_mul ( p->x, p->y, c );+ cryptonite_gf_mul ( p->y, a, b );+ cryptonite_gf_mul ( p->t, b, c );+}+ +void API_NS(point_add) (+ point_t p,+ const point_t q,+ const point_t r+) {+ gf a, b, c, d;+ cryptonite_gf_sub_nr ( b, q->y, q->x ); /* 3+e */+ cryptonite_gf_sub_nr ( c, r->y, r->x ); /* 3+e */+ cryptonite_gf_add_nr ( d, r->y, r->x ); /* 2+e */+ cryptonite_gf_mul ( a, c, b );+ cryptonite_gf_add_nr ( b, q->y, q->x ); /* 2+e */+ cryptonite_gf_mul ( p->y, d, b );+ cryptonite_gf_mul ( b, r->t, q->t );+ cryptonite_gf_mulw ( p->x, b, 2*EFF_D );+ cryptonite_gf_add_nr ( b, a, p->y ); /* 2+e */+ cryptonite_gf_sub_nr ( c, p->y, a ); /* 3+e */+ cryptonite_gf_mul ( a, q->z, r->z );+ cryptonite_gf_add_nr ( a, a, a ); /* 2+e */+ if (GF_HEADROOM <= 3) cryptonite_gf_weak_reduce(a); /* or 1+e */+#if NEG_D+ cryptonite_gf_add_nr ( p->y, a, p->x ); /* 3+e or 2+e */+ cryptonite_gf_sub_nr ( a, a, p->x ); /* 4+e or 3+e */+#else+ cryptonite_gf_sub_nr ( p->y, a, p->x ); /* 4+e or 3+e */+ cryptonite_gf_add_nr ( a, a, p->x ); /* 3+e or 2+e */+#endif+ cryptonite_gf_mul ( p->z, a, p->y );+ cryptonite_gf_mul ( p->x, p->y, c );+ cryptonite_gf_mul ( p->y, a, b );+ cryptonite_gf_mul ( p->t, b, c );+}++static CRYPTONITE_DECAF_NOINLINE void+point_double_internal (+ point_t p,+ const point_t q,+ int before_double+) {+ gf a, b, c, d;+ cryptonite_gf_sqr ( c, q->x );+ cryptonite_gf_sqr ( a, q->y );+ cryptonite_gf_add_nr ( d, c, a ); /* 2+e */+ cryptonite_gf_add_nr ( p->t, q->y, q->x ); /* 2+e */+ cryptonite_gf_sqr ( b, p->t );+ cryptonite_gf_subx_nr ( b, b, d, 3 ); /* 4+e */+ cryptonite_gf_sub_nr ( p->t, a, c ); /* 3+e */+ cryptonite_gf_sqr ( p->x, q->z );+ cryptonite_gf_add_nr ( p->z, p->x, p->x ); /* 2+e */+ cryptonite_gf_subx_nr ( a, p->z, p->t, 4 ); /* 6+e */+ if (GF_HEADROOM == 5) cryptonite_gf_weak_reduce(a); /* or 1+e */+ cryptonite_gf_mul ( p->x, a, b );+ cryptonite_gf_mul ( p->z, p->t, a );+ cryptonite_gf_mul ( p->y, p->t, d );+ if (!before_double) cryptonite_gf_mul ( p->t, b, d );+}++void API_NS(point_double)(point_t p, const point_t q) {+ point_double_internal(p,q,0);+}++void API_NS(point_negate) (+ point_t nega,+ const point_t a+) {+ cryptonite_gf_sub(nega->x, ZERO, a->x);+ cryptonite_gf_copy(nega->y, a->y);+ cryptonite_gf_copy(nega->z, a->z);+ cryptonite_gf_sub(nega->t, ZERO, a->t);+}++/* Operations on [p]niels */+static CRYPTONITE_DECAF_INLINE void+cond_neg_niels (+ niels_t n,+ mask_t neg+) {+ cryptonite_gf_cond_swap(n->a, n->b, neg);+ cryptonite_gf_cond_neg(n->c, neg);+}++static CRYPTONITE_DECAF_NOINLINE void pt_to_pniels (+ pniels_t b,+ const point_t a+) {+ cryptonite_gf_sub ( b->n->a, a->y, a->x );+ cryptonite_gf_add ( b->n->b, a->x, a->y );+ cryptonite_gf_mulw ( b->n->c, a->t, 2*TWISTED_D );+ cryptonite_gf_add ( b->z, a->z, a->z );+}++static CRYPTONITE_DECAF_NOINLINE void pniels_to_pt (+ point_t e,+ const pniels_t d+) {+ gf eu;+ cryptonite_gf_add ( eu, d->n->b, d->n->a );+ cryptonite_gf_sub ( e->y, d->n->b, d->n->a );+ cryptonite_gf_mul ( e->t, e->y, eu);+ cryptonite_gf_mul ( e->x, d->z, e->y );+ cryptonite_gf_mul ( e->y, d->z, eu );+ cryptonite_gf_sqr ( e->z, d->z );+}++static CRYPTONITE_DECAF_NOINLINE void+niels_to_pt (+ point_t e,+ const niels_t n+) {+ cryptonite_gf_add ( e->y, n->b, n->a );+ cryptonite_gf_sub ( e->x, n->b, n->a );+ cryptonite_gf_mul ( e->t, e->y, e->x );+ cryptonite_gf_copy ( e->z, ONE );+}++static CRYPTONITE_DECAF_NOINLINE void+add_niels_to_pt (+ point_t d,+ const niels_t e,+ int before_double+) {+ gf a, b, c;+ cryptonite_gf_sub_nr ( b, d->y, d->x ); /* 3+e */+ cryptonite_gf_mul ( a, e->a, b );+ cryptonite_gf_add_nr ( b, d->x, d->y ); /* 2+e */+ cryptonite_gf_mul ( d->y, e->b, b );+ cryptonite_gf_mul ( d->x, e->c, d->t );+ cryptonite_gf_add_nr ( c, a, d->y ); /* 2+e */+ cryptonite_gf_sub_nr ( b, d->y, a ); /* 3+e */+ cryptonite_gf_sub_nr ( d->y, d->z, d->x ); /* 3+e */+ cryptonite_gf_add_nr ( a, d->x, d->z ); /* 2+e */+ cryptonite_gf_mul ( d->z, a, d->y );+ cryptonite_gf_mul ( d->x, d->y, b );+ cryptonite_gf_mul ( d->y, a, c );+ if (!before_double) cryptonite_gf_mul ( d->t, b, c );+}++static CRYPTONITE_DECAF_NOINLINE void+sub_niels_from_pt (+ point_t d,+ const niels_t e,+ int before_double+) {+ gf a, b, c;+ cryptonite_gf_sub_nr ( b, d->y, d->x ); /* 3+e */+ cryptonite_gf_mul ( a, e->b, b );+ cryptonite_gf_add_nr ( b, d->x, d->y ); /* 2+e */+ cryptonite_gf_mul ( d->y, e->a, b );+ cryptonite_gf_mul ( d->x, e->c, d->t );+ cryptonite_gf_add_nr ( c, a, d->y ); /* 2+e */+ cryptonite_gf_sub_nr ( b, d->y, a ); /* 3+e */+ cryptonite_gf_add_nr ( d->y, d->z, d->x ); /* 2+e */+ cryptonite_gf_sub_nr ( a, d->z, d->x ); /* 3+e */+ cryptonite_gf_mul ( d->z, a, d->y );+ cryptonite_gf_mul ( d->x, d->y, b );+ cryptonite_gf_mul ( d->y, a, c );+ if (!before_double) cryptonite_gf_mul ( d->t, b, c );+}++static void+add_pniels_to_pt (+ point_t p,+ const pniels_t pn,+ int before_double+) {+ gf L0;+ cryptonite_gf_mul ( L0, p->z, pn->z );+ cryptonite_gf_copy ( p->z, L0 );+ add_niels_to_pt( p, pn->n, before_double );+}++static void+sub_pniels_from_pt (+ point_t p,+ const pniels_t pn,+ int before_double+) {+ gf L0;+ cryptonite_gf_mul ( L0, p->z, pn->z );+ cryptonite_gf_copy ( p->z, L0 );+ sub_niels_from_pt( p, pn->n, before_double );+}++static CRYPTONITE_DECAF_NOINLINE void+prepare_fixed_window(+ pniels_t *multiples,+ const point_t b,+ int ntable+) {+ point_t tmp;+ pniels_t pn;+ int i;+ + point_double_internal(tmp, b, 0);+ pt_to_pniels(pn, tmp);+ pt_to_pniels(multiples[0], b);+ API_NS(point_copy)(tmp, b);+ for (i=1; i<ntable; i++) {+ add_pniels_to_pt(tmp, pn, 0);+ pt_to_pniels(multiples[i], tmp);+ }+ + cryptonite_decaf_bzero(pn,sizeof(pn));+ cryptonite_decaf_bzero(tmp,sizeof(tmp));+}++void API_NS(point_scalarmul) (+ point_t a,+ const point_t b,+ const scalar_t scalar+) {+ const int WINDOW = CRYPTONITE_DECAF_WINDOW_BITS,+ WINDOW_MASK = (1<<WINDOW)-1,+ WINDOW_T_MASK = WINDOW_MASK >> 1,+ NTABLE = 1<<(WINDOW-1);+ + scalar_t scalar1x;+ API_NS(scalar_add)(scalar1x, scalar, point_scalarmul_adjustment);+ API_NS(scalar_halve)(scalar1x,scalar1x);+ + /* Set up a precomputed table with odd multiples of b. */+ pniels_t pn, multiples[NTABLE];+ point_t tmp;+ prepare_fixed_window(multiples, b, NTABLE);++ /* Initialize. */+ int i,j,first=1;+ i = SCALAR_BITS - ((SCALAR_BITS-1) % WINDOW) - 1;++ for (; i>=0; i-=WINDOW) {+ /* Fetch another block of bits */+ word_t bits = scalar1x->limb[i/WBITS] >> (i%WBITS);+ if (i%WBITS >= WBITS-WINDOW && i/WBITS<SCALAR_LIMBS-1) {+ bits ^= scalar1x->limb[i/WBITS+1] << (WBITS - (i%WBITS));+ }+ bits &= WINDOW_MASK;+ mask_t inv = (bits>>(WINDOW-1))-1;+ bits ^= inv;+ + /* Add in from table. Compute t only on last iteration. */+ constant_time_lookup(pn, multiples, sizeof(pn), NTABLE, bits & WINDOW_T_MASK);+ cond_neg_niels(pn->n, inv);+ if (first) {+ pniels_to_pt(tmp, pn);+ first = 0;+ } else {+ /* Using Hisil et al's lookahead method instead of extensible here+ * for no particular reason. Double WINDOW times, but only compute t on+ * the last one.+ */+ for (j=0; j<WINDOW-1; j++)+ point_double_internal(tmp, tmp, -1);+ point_double_internal(tmp, tmp, 0);+ add_pniels_to_pt(tmp, pn, i ? -1 : 0);+ }+ }+ + /* Write out the answer */+ API_NS(point_copy)(a,tmp);+ + cryptonite_decaf_bzero(scalar1x,sizeof(scalar1x));+ cryptonite_decaf_bzero(pn,sizeof(pn));+ cryptonite_decaf_bzero(multiples,sizeof(multiples));+ cryptonite_decaf_bzero(tmp,sizeof(tmp));+}++void API_NS(point_double_scalarmul) (+ point_t a,+ const point_t b,+ const scalar_t scalarb,+ const point_t c,+ const scalar_t scalarc+) {+ const int WINDOW = CRYPTONITE_DECAF_WINDOW_BITS,+ WINDOW_MASK = (1<<WINDOW)-1,+ WINDOW_T_MASK = WINDOW_MASK >> 1,+ NTABLE = 1<<(WINDOW-1);+ + scalar_t scalar1x, scalar2x;+ API_NS(scalar_add)(scalar1x, scalarb, point_scalarmul_adjustment);+ API_NS(scalar_halve)(scalar1x,scalar1x);+ API_NS(scalar_add)(scalar2x, scalarc, point_scalarmul_adjustment);+ API_NS(scalar_halve)(scalar2x,scalar2x);+ + /* Set up a precomputed table with odd multiples of b. */+ pniels_t pn, multiples1[NTABLE], multiples2[NTABLE];+ point_t tmp;+ prepare_fixed_window(multiples1, b, NTABLE);+ prepare_fixed_window(multiples2, c, NTABLE);++ /* Initialize. */+ int i,j,first=1;+ i = SCALAR_BITS - ((SCALAR_BITS-1) % WINDOW) - 1;++ for (; i>=0; i-=WINDOW) {+ /* Fetch another block of bits */+ word_t bits1 = scalar1x->limb[i/WBITS] >> (i%WBITS),+ bits2 = scalar2x->limb[i/WBITS] >> (i%WBITS);+ if (i%WBITS >= WBITS-WINDOW && i/WBITS<SCALAR_LIMBS-1) {+ bits1 ^= scalar1x->limb[i/WBITS+1] << (WBITS - (i%WBITS));+ bits2 ^= scalar2x->limb[i/WBITS+1] << (WBITS - (i%WBITS));+ }+ bits1 &= WINDOW_MASK;+ bits2 &= WINDOW_MASK;+ mask_t inv1 = (bits1>>(WINDOW-1))-1;+ mask_t inv2 = (bits2>>(WINDOW-1))-1;+ bits1 ^= inv1;+ bits2 ^= inv2;+ + /* Add in from table. Compute t only on last iteration. */+ constant_time_lookup(pn, multiples1, sizeof(pn), NTABLE, bits1 & WINDOW_T_MASK);+ cond_neg_niels(pn->n, inv1);+ if (first) {+ pniels_to_pt(tmp, pn);+ first = 0;+ } else {+ /* Using Hisil et al's lookahead method instead of extensible here+ * for no particular reason. Double WINDOW times, but only compute t on+ * the last one.+ */+ for (j=0; j<WINDOW-1; j++)+ point_double_internal(tmp, tmp, -1);+ point_double_internal(tmp, tmp, 0);+ add_pniels_to_pt(tmp, pn, 0);+ }+ constant_time_lookup(pn, multiples2, sizeof(pn), NTABLE, bits2 & WINDOW_T_MASK);+ cond_neg_niels(pn->n, inv2);+ add_pniels_to_pt(tmp, pn, i?-1:0);+ }+ + /* Write out the answer */+ API_NS(point_copy)(a,tmp);+ ++ cryptonite_decaf_bzero(scalar1x,sizeof(scalar1x));+ cryptonite_decaf_bzero(scalar2x,sizeof(scalar2x));+ cryptonite_decaf_bzero(pn,sizeof(pn));+ cryptonite_decaf_bzero(multiples1,sizeof(multiples1));+ cryptonite_decaf_bzero(multiples2,sizeof(multiples2));+ cryptonite_decaf_bzero(tmp,sizeof(tmp));+}++void API_NS(point_dual_scalarmul) (+ point_t a1,+ point_t a2,+ const point_t b,+ const scalar_t scalar1,+ const scalar_t scalar2+) {+ const int WINDOW = CRYPTONITE_DECAF_WINDOW_BITS,+ WINDOW_MASK = (1<<WINDOW)-1,+ WINDOW_T_MASK = WINDOW_MASK >> 1,+ NTABLE = 1<<(WINDOW-1);+ + scalar_t scalar1x, scalar2x;+ API_NS(scalar_add)(scalar1x, scalar1, point_scalarmul_adjustment);+ API_NS(scalar_halve)(scalar1x,scalar1x);+ API_NS(scalar_add)(scalar2x, scalar2, point_scalarmul_adjustment);+ API_NS(scalar_halve)(scalar2x,scalar2x);+ + /* Set up a precomputed table with odd multiples of b. */+ point_t multiples1[NTABLE], multiples2[NTABLE], working, tmp;+ pniels_t pn;+ + API_NS(point_copy)(working, b);++ /* Initialize. */+ int i,j;+ + for (i=0; i<NTABLE; i++) {+ API_NS(point_copy)(multiples1[i], API_NS(point_identity));+ API_NS(point_copy)(multiples2[i], API_NS(point_identity));+ }++ for (i=0; i<SCALAR_BITS; i+=WINDOW) { + if (i) {+ for (j=0; j<WINDOW-1; j++)+ point_double_internal(working, working, -1);+ point_double_internal(working, working, 0);+ }+ + /* Fetch another block of bits */+ word_t bits1 = scalar1x->limb[i/WBITS] >> (i%WBITS),+ bits2 = scalar2x->limb[i/WBITS] >> (i%WBITS);+ if (i%WBITS >= WBITS-WINDOW && i/WBITS<SCALAR_LIMBS-1) {+ bits1 ^= scalar1x->limb[i/WBITS+1] << (WBITS - (i%WBITS));+ bits2 ^= scalar2x->limb[i/WBITS+1] << (WBITS - (i%WBITS));+ }+ bits1 &= WINDOW_MASK;+ bits2 &= WINDOW_MASK;+ mask_t inv1 = (bits1>>(WINDOW-1))-1;+ mask_t inv2 = (bits2>>(WINDOW-1))-1;+ bits1 ^= inv1;+ bits2 ^= inv2;+ + pt_to_pniels(pn, working);++ constant_time_lookup(tmp, multiples1, sizeof(tmp), NTABLE, bits1 & WINDOW_T_MASK);+ cond_neg_niels(pn->n, inv1);+ /* add_pniels_to_pt(multiples1[bits1 & WINDOW_T_MASK], pn, 0); */+ add_pniels_to_pt(tmp, pn, 0);+ constant_time_insert(multiples1, tmp, sizeof(tmp), NTABLE, bits1 & WINDOW_T_MASK);+ + + constant_time_lookup(tmp, multiples2, sizeof(tmp), NTABLE, bits2 & WINDOW_T_MASK);+ cond_neg_niels(pn->n, inv1^inv2);+ /* add_pniels_to_pt(multiples2[bits2 & WINDOW_T_MASK], pn, 0); */+ add_pniels_to_pt(tmp, pn, 0);+ constant_time_insert(multiples2, tmp, sizeof(tmp), NTABLE, bits2 & WINDOW_T_MASK);+ }+ + if (NTABLE > 1) {+ API_NS(point_copy)(working, multiples1[NTABLE-1]);+ API_NS(point_copy)(tmp , multiples2[NTABLE-1]);+ + for (i=NTABLE-1; i>1; i--) {+ API_NS(point_add)(multiples1[i-1], multiples1[i-1], multiples1[i]);+ API_NS(point_add)(multiples2[i-1], multiples2[i-1], multiples2[i]);+ API_NS(point_add)(working, working, multiples1[i-1]);+ API_NS(point_add)(tmp, tmp, multiples2[i-1]);+ }+ + API_NS(point_add)(multiples1[0], multiples1[0], multiples1[1]);+ API_NS(point_add)(multiples2[0], multiples2[0], multiples2[1]);+ point_double_internal(working, working, 0);+ point_double_internal(tmp, tmp, 0);+ API_NS(point_add)(a1, working, multiples1[0]);+ API_NS(point_add)(a2, tmp, multiples2[0]);+ } else {+ API_NS(point_copy)(a1, multiples1[0]);+ API_NS(point_copy)(a2, multiples2[0]);+ }++ cryptonite_decaf_bzero(scalar1x,sizeof(scalar1x));+ cryptonite_decaf_bzero(scalar2x,sizeof(scalar2x));+ cryptonite_decaf_bzero(pn,sizeof(pn));+ cryptonite_decaf_bzero(multiples1,sizeof(multiples1));+ cryptonite_decaf_bzero(multiples2,sizeof(multiples2));+ cryptonite_decaf_bzero(tmp,sizeof(tmp));+ cryptonite_decaf_bzero(working,sizeof(working));+}++cryptonite_decaf_bool_t API_NS(point_eq) ( const point_t p, const point_t q ) {+ /* equality mod 2-torsion compares x/y */+ gf a, b;+ cryptonite_gf_mul ( a, p->y, q->x );+ cryptonite_gf_mul ( b, q->y, p->x );+ mask_t succ = cryptonite_gf_eq(a,b);+ + #if (COFACTOR == 8) && IMAGINE_TWIST+ cryptonite_gf_mul ( a, p->y, q->y );+ cryptonite_gf_mul ( b, q->x, p->x );+ #if !(IMAGINE_TWIST)+ cryptonite_gf_sub ( a, ZERO, a );+ #else+ /* Interesting note: the 4tor would normally be rotation.+ * But because of the *i twist, it's actually+ * (x,y) <-> (iy,ix)+ */+ + /* No code, just a comment. */+ #endif+ succ |= cryptonite_gf_eq(a,b);+ #endif+ + return mask_to_bool(succ);+}++cryptonite_decaf_bool_t API_NS(point_valid) (+ const point_t p+) {+ gf a,b,c;+ cryptonite_gf_mul(a,p->x,p->y);+ cryptonite_gf_mul(b,p->z,p->t);+ mask_t out = cryptonite_gf_eq(a,b);+ cryptonite_gf_sqr(a,p->x);+ cryptonite_gf_sqr(b,p->y);+ cryptonite_gf_sub(a,b,a);+ cryptonite_gf_sqr(b,p->t);+ cryptonite_gf_mulw(c,b,TWISTED_D);+ cryptonite_gf_sqr(b,p->z);+ cryptonite_gf_add(b,b,c);+ out &= cryptonite_gf_eq(a,b);+ out &= ~cryptonite_gf_eq(p->z,ZERO);+ return mask_to_bool(out);+}++void API_NS(point_debugging_torque) (+ point_t q,+ const point_t p+) {+#if COFACTOR == 8 && IMAGINE_TWIST+ gf tmp;+ cryptonite_gf_mul(tmp,p->x,SQRT_MINUS_ONE);+ cryptonite_gf_mul(q->x,p->y,SQRT_MINUS_ONE);+ cryptonite_gf_copy(q->y,tmp);+ cryptonite_gf_copy(q->z,p->z);+ cryptonite_gf_sub(q->t,ZERO,p->t);+#else+ cryptonite_gf_sub(q->x,ZERO,p->x);+ cryptonite_gf_sub(q->y,ZERO,p->y);+ cryptonite_gf_copy(q->z,p->z);+ cryptonite_gf_copy(q->t,p->t);+#endif+}++void API_NS(point_debugging_pscale) (+ point_t q,+ const point_t p,+ const uint8_t factor[SER_BYTES]+) {+ gf gfac,tmp;+ /* NB this means you'll never pscale by negative numbers for p521 */+ ignore_result(cryptonite_gf_deserialize(gfac,factor,0));+ cryptonite_gf_cond_sel(gfac,gfac,ONE,cryptonite_gf_eq(gfac,ZERO));+ cryptonite_gf_mul(tmp,p->x,gfac);+ cryptonite_gf_copy(q->x,tmp);+ cryptonite_gf_mul(tmp,p->y,gfac);+ cryptonite_gf_copy(q->y,tmp);+ cryptonite_gf_mul(tmp,p->z,gfac);+ cryptonite_gf_copy(q->z,tmp);+ cryptonite_gf_mul(tmp,p->t,gfac);+ cryptonite_gf_copy(q->t,tmp);+}++static void cryptonite_gf_batch_invert (+ gf *__restrict__ out,+ const gf *in,+ unsigned int n+) {+ gf t1;+ assert(n>1);+ + cryptonite_gf_copy(out[1], in[0]);+ int i;+ for (i=1; i<(int) (n-1); i++) {+ cryptonite_gf_mul(out[i+1], out[i], in[i]);+ }+ cryptonite_gf_mul(out[0], out[n-1], in[n-1]);++ cryptonite_gf_invert(out[0], out[0], 1);++ for (i=n-1; i>0; i--) {+ cryptonite_gf_mul(t1, out[i], out[0]);+ cryptonite_gf_copy(out[i], t1);+ cryptonite_gf_mul(t1, out[0], in[i]);+ cryptonite_gf_copy(out[0], t1);+ }+}++static void batch_normalize_niels (+ niels_t *table,+ const gf *zs,+ gf *__restrict__ zis,+ int n+) {+ int i;+ gf product;+ cryptonite_gf_batch_invert(zis, zs, n);++ for (i=0; i<n; i++) {+ cryptonite_gf_mul(product, table[i]->a, zis[i]);+ cryptonite_gf_strong_reduce(product);+ cryptonite_gf_copy(table[i]->a, product);+ + cryptonite_gf_mul(product, table[i]->b, zis[i]);+ cryptonite_gf_strong_reduce(product);+ cryptonite_gf_copy(table[i]->b, product);+ + cryptonite_gf_mul(product, table[i]->c, zis[i]);+ cryptonite_gf_strong_reduce(product);+ cryptonite_gf_copy(table[i]->c, product);+ }+ + cryptonite_decaf_bzero(product,sizeof(product));+}++void API_NS(precompute) (+ precomputed_s *table,+ const point_t base+) { + const unsigned int n = COMBS_N, t = COMBS_T, s = COMBS_S;+ assert(n*t*s >= SCALAR_BITS);+ + point_t working, start, doubles[t-1];+ API_NS(point_copy)(working, base);+ pniels_t pn_tmp;+ + gf zs[n<<(t-1)], zis[n<<(t-1)];+ + unsigned int i,j,k;+ + /* Compute n tables */+ for (i=0; i<n; i++) {++ /* Doubling phase */+ for (j=0; j<t; j++) {+ if (j) API_NS(point_add)(start, start, working);+ else API_NS(point_copy)(start, working);++ if (j==t-1 && i==n-1) break;++ point_double_internal(working, working,0);+ if (j<t-1) API_NS(point_copy)(doubles[j], working);++ for (k=0; k<s-1; k++)+ point_double_internal(working, working, k<s-2);+ }++ /* Gray-code phase */+ for (j=0;; j++) {+ int gray = j ^ (j>>1);+ int idx = (((i+1)<<(t-1))-1) ^ gray;++ pt_to_pniels(pn_tmp, start);+ memcpy(table->table[idx], pn_tmp->n, sizeof(pn_tmp->n));+ cryptonite_gf_copy(zs[idx], pn_tmp->z);+ + if (j >= (1u<<(t-1)) - 1) break;+ int delta = (j+1) ^ ((j+1)>>1) ^ gray;++ for (k=0; delta>1; k++)+ delta >>=1;+ + if (gray & (1<<k)) {+ API_NS(point_add)(start, start, doubles[k]);+ } else {+ API_NS(point_sub)(start, start, doubles[k]);+ }+ }+ }+ + batch_normalize_niels(table->table,(const gf *)zs,zis,n<<(t-1));+ + cryptonite_decaf_bzero(zs,sizeof(zs));+ cryptonite_decaf_bzero(zis,sizeof(zis));+ cryptonite_decaf_bzero(pn_tmp,sizeof(pn_tmp));+ cryptonite_decaf_bzero(working,sizeof(working));+ cryptonite_decaf_bzero(start,sizeof(start));+ cryptonite_decaf_bzero(doubles,sizeof(doubles));+}++static CRYPTONITE_DECAF_INLINE void+constant_time_lookup_niels (+ niels_s *__restrict__ ni,+ const niels_t *table,+ int nelts,+ int idx+) {+ constant_time_lookup(ni, table, sizeof(niels_s), nelts, idx);+}++void API_NS(precomputed_scalarmul) (+ point_t out,+ const precomputed_s *table,+ const scalar_t scalar+) {+ int i;+ unsigned j,k;+ const unsigned int n = COMBS_N, t = COMBS_T, s = COMBS_S;+ + scalar_t scalar1x;+ API_NS(scalar_add)(scalar1x, scalar, precomputed_scalarmul_adjustment);+ API_NS(scalar_halve)(scalar1x,scalar1x);+ + niels_t ni;+ + for (i=s-1; i>=0; i--) {+ if (i != (int)s-1) point_double_internal(out,out,0);+ + for (j=0; j<n; j++) {+ int tab = 0;+ + for (k=0; k<t; k++) {+ unsigned int bit = i + s*(k + j*t);+ if (bit < SCALAR_BITS) {+ tab |= (scalar1x->limb[bit/WBITS] >> (bit%WBITS) & 1) << k;+ }+ }+ + mask_t invert = (tab>>(t-1))-1;+ tab ^= invert;+ tab &= (1<<(t-1)) - 1;++ constant_time_lookup_niels(ni, &table->table[j<<(t-1)], 1<<(t-1), tab);++ cond_neg_niels(ni, invert);+ if ((i!=(int)s-1)||j) {+ add_niels_to_pt(out, ni, j==n-1 && i);+ } else {+ niels_to_pt(out, ni);+ }+ }+ }+ + cryptonite_decaf_bzero(ni,sizeof(ni));+ cryptonite_decaf_bzero(scalar1x,sizeof(scalar1x));+}++void API_NS(point_cond_sel) (+ point_t out,+ const point_t a,+ const point_t b,+ cryptonite_decaf_bool_t pick_b+) {+ constant_time_select(out,a,b,sizeof(point_t),bool_to_mask(pick_b),0);+}++/* FUTURE: restore Curve25519 Montgomery ladder? */+cryptonite_decaf_error_t API_NS(direct_scalarmul) (+ uint8_t scaled[SER_BYTES],+ const uint8_t base[SER_BYTES],+ const scalar_t scalar,+ cryptonite_decaf_bool_t allow_identity,+ cryptonite_decaf_bool_t short_circuit+) {+ point_t basep;+ cryptonite_decaf_error_t succ = API_NS(point_decode)(basep, base, allow_identity);+ if (short_circuit && succ != CRYPTONITE_DECAF_SUCCESS) return succ;+ API_NS(point_cond_sel)(basep, API_NS(point_base), basep, succ);+ API_NS(point_scalarmul)(basep, basep, scalar);+ API_NS(point_encode)(scaled, basep);+ API_NS(point_destroy)(basep);+ return succ;+}++void API_NS(point_mul_by_cofactor_and_encode_like_eddsa) (+ uint8_t enc[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const point_t p+) {+ + /* The point is now on the twisted curve. Move it to untwisted. */+ gf x, y, z, t;+ point_t q;+#if COFACTOR == 8+ API_NS(point_double)(q,p);+#else+ API_NS(point_copy)(q,p);+#endif+ +#if EDDSA_USE_SIGMA_ISOGENY+ {+ /* Use 4-isogeny like ed25519:+ * 2*x*y*sqrt(d/a-1)/(ax^2 + y^2 - 2)+ * (y^2 - ax^2)/(y^2 + ax^2)+ * with a = -1, d = -EDWARDS_D:+ * -2xysqrt(EDWARDS_D-1)/(2z^2-y^2+x^2)+ * (y^2+x^2)/(y^2-x^2)+ */+ gf u;+ cryptonite_gf_sqr ( x, q->x ); // x^2+ cryptonite_gf_sqr ( t, q->y ); // y^2+ cryptonite_gf_add( u, x, t ); // x^2 + y^2+ cryptonite_gf_add( z, q->y, q->x );+ cryptonite_gf_sqr ( y, z);+ cryptonite_gf_sub ( y, u, y ); // -2xy+ cryptonite_gf_sub ( z, t, x ); // y^2 - x^2+ cryptonite_gf_sqr ( x, q->z );+ cryptonite_gf_add ( t, x, x);+ cryptonite_gf_sub ( t, t, z); // 2z^2 - y^2 + x^2+ cryptonite_gf_mul ( x, y, z ); // 2xy(y^2-x^2)+ cryptonite_gf_mul ( y, u, t ); // (x^2+y^2)(2z^2-y^2+x^2)+ cryptonite_gf_mul ( u, z, t );+ cryptonite_gf_copy( z, u );+ cryptonite_gf_mul ( u, x, SQRT_ONE_MINUS_D );+ cryptonite_gf_copy( x, u );+ cryptonite_decaf_bzero(u,sizeof(u));+ }+#elif IMAGINE_TWIST+ {+ API_NS(point_double)(q,q);+ API_NS(point_double)(q,q);+ cryptonite_gf_mul_qnr(x, q->x);+ cryptonite_gf_copy(y, q->y);+ cryptonite_gf_copy(z, q->z);+ }+#else+ {+ /* 4-isogeny: 2xy/(y^+x^2), (y^2-x^2)/(2z^2-y^2+x^2) */+ gf u;+ cryptonite_gf_sqr ( x, q->x );+ cryptonite_gf_sqr ( t, q->y );+ cryptonite_gf_add( u, x, t );+ cryptonite_gf_add( z, q->y, q->x );+ cryptonite_gf_sqr ( y, z);+ cryptonite_gf_sub ( y, u, y );+ cryptonite_gf_sub ( z, t, x );+ cryptonite_gf_sqr ( x, q->z );+ cryptonite_gf_add ( t, x, x); + cryptonite_gf_sub ( t, t, z);+ cryptonite_gf_mul ( x, t, y );+ cryptonite_gf_mul ( y, z, u );+ cryptonite_gf_mul ( z, u, t );+ cryptonite_decaf_bzero(u,sizeof(u));+ }+#endif+ /* Affinize */+ cryptonite_gf_invert(z,z,1);+ cryptonite_gf_mul(t,x,z);+ cryptonite_gf_mul(x,y,z);+ + /* Encode */+ enc[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES-1] = 0;+ cryptonite_gf_serialize(enc, x, 1);+ enc[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES-1] |= 0x80 & cryptonite_gf_lobit(t);++ cryptonite_decaf_bzero(x,sizeof(x));+ cryptonite_decaf_bzero(y,sizeof(y));+ cryptonite_decaf_bzero(z,sizeof(z));+ cryptonite_decaf_bzero(t,sizeof(t));+ API_NS(point_destroy)(q);+}+++cryptonite_decaf_error_t API_NS(point_decode_like_eddsa_and_ignore_cofactor) (+ point_t p,+ const uint8_t enc[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES]+) {+ uint8_t enc2[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES];+ memcpy(enc2,enc,sizeof(enc2));++ mask_t low = ~word_is_zero(enc2[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES-1] & 0x80);+ enc2[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES-1] &= ~0x80;+ + mask_t succ = cryptonite_gf_deserialize(p->y, enc2, 1);+#if 0 == 0+ succ &= word_is_zero(enc2[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES-1]);+#endif++ cryptonite_gf_sqr(p->x,p->y);+ cryptonite_gf_sub(p->z,ONE,p->x); /* num = 1-y^2 */+ #if EDDSA_USE_SIGMA_ISOGENY+ cryptonite_gf_mulw(p->t,p->z,EDWARDS_D); /* d-dy^2 */+ cryptonite_gf_mulw(p->x,p->z,EDWARDS_D-1); /* num = (1-y^2)(d-1) */+ cryptonite_gf_copy(p->z,p->x);+ #else+ cryptonite_gf_mulw(p->t,p->x,EDWARDS_D); /* dy^2 */+ #endif+ cryptonite_gf_sub(p->t,ONE,p->t); /* denom = 1-dy^2 or 1-d + dy^2 */+ + cryptonite_gf_mul(p->x,p->z,p->t);+ succ &= cryptonite_gf_isr(p->t,p->x); /* 1/sqrt(num * denom) */+ + cryptonite_gf_mul(p->x,p->t,p->z); /* sqrt(num / denom) */+ cryptonite_gf_cond_neg(p->x,~cryptonite_gf_lobit(p->x)^low);+ cryptonite_gf_copy(p->z,ONE);+ + #if EDDSA_USE_SIGMA_ISOGENY+ {+ /* Use 4-isogeny like ed25519:+ * 2*x*y/sqrt(1-d/a)/(ax^2 + y^2 - 2)+ * (y^2 - ax^2)/(y^2 + ax^2)+ * (MAGIC: above formula may be off by a factor of -a+ * or something somewhere; check it for other a)+ *+ * with a = -1, d = -EDWARDS_D:+ * -2xy/sqrt(1-EDWARDS_D)/(2z^2-y^2+x^2)+ * (y^2+x^2)/(y^2-x^2)+ */+ gf a, b, c, d;+ cryptonite_gf_sqr ( c, p->x );+ cryptonite_gf_sqr ( a, p->y );+ cryptonite_gf_add ( d, c, a ); // x^2 + y^2+ cryptonite_gf_add ( p->t, p->y, p->x );+ cryptonite_gf_sqr ( b, p->t );+ cryptonite_gf_sub ( b, b, d ); // 2xy+ cryptonite_gf_sub ( p->t, a, c ); // y^2 - x^2+ cryptonite_gf_sqr ( p->x, p->z );+ cryptonite_gf_add ( p->z, p->x, p->x );+ cryptonite_gf_sub ( a, p->z, p->t ); // 2z^2 - y^2 + x^2+ cryptonite_gf_mul ( c, a, SQRT_ONE_MINUS_D );+ cryptonite_gf_mul ( p->x, b, p->t); // (2xy)(y^2-x^2)+ cryptonite_gf_mul ( p->z, p->t, c ); // (y^2-x^2)sd(2z^2 - y^2 + x^2)+ cryptonite_gf_mul ( p->y, d, c ); // (y^2+x^2)sd(2z^2 - y^2 + x^2)+ cryptonite_gf_mul ( p->t, d, b );+ cryptonite_decaf_bzero(a,sizeof(a));+ cryptonite_decaf_bzero(b,sizeof(b));+ cryptonite_decaf_bzero(c,sizeof(c));+ cryptonite_decaf_bzero(d,sizeof(d));+ } + #elif IMAGINE_TWIST+ {+ cryptonite_gf_mul(p->t,p->x,SQRT_MINUS_ONE);+ cryptonite_gf_copy(p->x,p->t);+ cryptonite_gf_mul(p->t,p->x,p->y);+ }+ #else+ {+ /* 4-isogeny 2xy/(y^2-ax^2), (y^2+ax^2)/(2-y^2-ax^2) */+ gf a, b, c, d;+ cryptonite_gf_sqr ( c, p->x );+ cryptonite_gf_sqr ( a, p->y );+ cryptonite_gf_add ( d, c, a );+ cryptonite_gf_add ( p->t, p->y, p->x );+ cryptonite_gf_sqr ( b, p->t );+ cryptonite_gf_sub ( b, b, d );+ cryptonite_gf_sub ( p->t, a, c );+ cryptonite_gf_sqr ( p->x, p->z );+ cryptonite_gf_add ( p->z, p->x, p->x );+ cryptonite_gf_sub ( a, p->z, d );+ cryptonite_gf_mul ( p->x, a, b );+ cryptonite_gf_mul ( p->z, p->t, a );+ cryptonite_gf_mul ( p->y, p->t, d );+ cryptonite_gf_mul ( p->t, b, d );+ cryptonite_decaf_bzero(a,sizeof(a));+ cryptonite_decaf_bzero(b,sizeof(b));+ cryptonite_decaf_bzero(c,sizeof(c));+ cryptonite_decaf_bzero(d,sizeof(d));+ }+ #endif+ + cryptonite_decaf_bzero(enc2,sizeof(enc2));+ assert(API_NS(point_valid)(p) || ~succ);+ return cryptonite_decaf_succeed_if(mask_to_bool(succ));+}++cryptonite_decaf_error_t cryptonite_decaf_x448 (+ uint8_t out[X_PUBLIC_BYTES],+ const uint8_t base[X_PUBLIC_BYTES],+ const uint8_t scalar[X_PRIVATE_BYTES]+) {+ gf x1, x2, z2, x3, z3, t1, t2;+ ignore_result(cryptonite_gf_deserialize(x1,base,1));+ cryptonite_gf_copy(x2,ONE);+ cryptonite_gf_copy(z2,ZERO);+ cryptonite_gf_copy(x3,x1);+ cryptonite_gf_copy(z3,ONE);+ + int t;+ mask_t swap = 0;+ + for (t = X_PRIVATE_BITS-1; t>=0; t--) {+ uint8_t sb = scalar[t/8];+ + /* Scalar conditioning */+ if (t/8==0) sb &= -(uint8_t)COFACTOR;+ else if (t == X_PRIVATE_BITS-1) sb = -1;+ + mask_t k_t = (sb>>(t%8)) & 1;+ k_t = -k_t; /* set to all 0s or all 1s */+ + swap ^= k_t;+ cryptonite_gf_cond_swap(x2,x3,swap);+ cryptonite_gf_cond_swap(z2,z3,swap);+ swap = k_t;+ + cryptonite_gf_add_nr(t1,x2,z2); /* A = x2 + z2 */ /* 2+e */+ cryptonite_gf_sub_nr(t2,x2,z2); /* B = x2 - z2 */ /* 3+e */+ cryptonite_gf_sub_nr(z2,x3,z3); /* D = x3 - z3 */ /* 3+e */+ cryptonite_gf_mul(x2,t1,z2); /* DA */+ cryptonite_gf_add_nr(z2,z3,x3); /* C = x3 + z3 */ /* 2+e */+ cryptonite_gf_mul(x3,t2,z2); /* CB */+ cryptonite_gf_sub_nr(z3,x2,x3); /* DA-CB */ /* 3+e */+ cryptonite_gf_sqr(z2,z3); /* (DA-CB)^2 */+ cryptonite_gf_mul(z3,x1,z2); /* z3 = x1(DA-CB)^2 */+ cryptonite_gf_add_nr(z2,x2,x3); /* (DA+CB) */ /* 2+e */+ cryptonite_gf_sqr(x3,z2); /* x3 = (DA+CB)^2 */+ + cryptonite_gf_sqr(z2,t1); /* AA = A^2 */+ cryptonite_gf_sqr(t1,t2); /* BB = B^2 */+ cryptonite_gf_mul(x2,z2,t1); /* x2 = AA*BB */+ cryptonite_gf_sub_nr(t2,z2,t1); /* E = AA-BB */ /* 3+e */+ + cryptonite_gf_mulw(t1,t2,-EDWARDS_D); /* E*-d = a24*E */+ cryptonite_gf_add_nr(t1,t1,z2); /* AA + a24*E */ /* 2+e */+ cryptonite_gf_mul(z2,t2,t1); /* z2 = E(AA+a24*E) */+ }+ + /* Finish */+ cryptonite_gf_cond_swap(x2,x3,swap);+ cryptonite_gf_cond_swap(z2,z3,swap);+ cryptonite_gf_invert(z2,z2,0);+ cryptonite_gf_mul(x1,x2,z2);+ cryptonite_gf_serialize(out,x1,1);+ mask_t nz = ~cryptonite_gf_eq(x1,ZERO);+ + cryptonite_decaf_bzero(x1,sizeof(x1));+ cryptonite_decaf_bzero(x2,sizeof(x2));+ cryptonite_decaf_bzero(z2,sizeof(z2));+ cryptonite_decaf_bzero(x3,sizeof(x3));+ cryptonite_decaf_bzero(z3,sizeof(z3));+ cryptonite_decaf_bzero(t1,sizeof(t1));+ cryptonite_decaf_bzero(t2,sizeof(t2));+ + return cryptonite_decaf_succeed_if(mask_to_bool(nz));+}++/* Thanks Johan Pascal */+void cryptonite_decaf_ed448_convert_public_key_to_x448 (+ uint8_t x[CRYPTONITE_DECAF_X448_PUBLIC_BYTES],+ const uint8_t ed[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES]+) {+ gf y;+ {+ uint8_t enc2[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES];+ memcpy(enc2,ed,sizeof(enc2));++ /* retrieve y from the ed compressed point */+ enc2[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES-1] &= ~0x80;+ ignore_result(cryptonite_gf_deserialize(y, enc2, 0));+ cryptonite_decaf_bzero(enc2,sizeof(enc2));+ }+ + {+ gf n,d;+ +#if EDDSA_USE_SIGMA_ISOGENY+ /* u = (1+y)/(1-y)*/+ cryptonite_gf_add(n, y, ONE); /* n = y+1 */+ cryptonite_gf_sub(d, ONE, y); /* d = 1-y */+ cryptonite_gf_invert(d, d, 0); /* d = 1/(1-y) */+ cryptonite_gf_mul(y, n, d); /* u = (y+1)/(1-y) */+ cryptonite_gf_serialize(x,y,1);+#else /* EDDSA_USE_SIGMA_ISOGENY */+ /* u = y^2 * (1-dy^2) / (1-y^2) */+ cryptonite_gf_sqr(n,y); /* y^2*/+ cryptonite_gf_sub(d,ONE,n); /* 1-y^2*/+ cryptonite_gf_invert(d,d,0); /* 1/(1-y^2)*/+ cryptonite_gf_mul(y,n,d); /* y^2 / (1-y^2) */+ cryptonite_gf_mulw(d,n,EDWARDS_D); /* dy^2*/+ cryptonite_gf_sub(d, ONE, d); /* 1-dy^2*/+ cryptonite_gf_mul(n, y, d); /* y^2 * (1-dy^2) / (1-y^2) */+ cryptonite_gf_serialize(x,n,1);+#endif /* EDDSA_USE_SIGMA_ISOGENY */+ + cryptonite_decaf_bzero(y,sizeof(y));+ cryptonite_decaf_bzero(n,sizeof(n));+ cryptonite_decaf_bzero(d,sizeof(d));+ }+}++void cryptonite_decaf_x448_generate_key (+ uint8_t out[X_PUBLIC_BYTES],+ const uint8_t scalar[X_PRIVATE_BYTES]+) {+ cryptonite_decaf_x448_derive_public_key(out,scalar);+}++void cryptonite_decaf_x448_derive_public_key (+ uint8_t out[X_PUBLIC_BYTES],+ const uint8_t scalar[X_PRIVATE_BYTES]+) {+ /* Scalar conditioning */+ uint8_t scalar2[X_PRIVATE_BYTES];+ memcpy(scalar2,scalar,sizeof(scalar2));+ scalar2[0] &= -(uint8_t)COFACTOR;+ + scalar2[X_PRIVATE_BYTES-1] &= ~(-1u<<((X_PRIVATE_BITS+7)%8));+ scalar2[X_PRIVATE_BYTES-1] |= 1<<((X_PRIVATE_BITS+7)%8);+ + scalar_t the_scalar;+ API_NS(scalar_decode_long)(the_scalar,scalar2,sizeof(scalar2));+ + /* We're gonna isogenize by 2, so divide by 2.+ *+ * Why by 2, even though it's a 4-isogeny?+ *+ * The isogeny map looks like+ * Montgomery <-2-> Jacobi <-2-> Edwards+ *+ * Since the Jacobi base point is the PREimage of the iso to+ * the Montgomery curve, and we're going+ * Jacobi -> Edwards -> Jacobi -> Montgomery,+ * we pick up only a factor of 2 over Jacobi -> Montgomery. + */+ API_NS(scalar_halve)(the_scalar,the_scalar);+ point_t p;+ API_NS(precomputed_scalarmul)(p,API_NS(precomputed_base),the_scalar);+ + /* Isogenize to Montgomery curve.+ *+ * Why isn't this just a separate function, eg cryptonite_decaf_encode_like_x448?+ * Basically because in general it does the wrong thing if there is a cofactor+ * component in the input. In this function though, there isn't a cofactor+ * component in the input.+ */+ cryptonite_gf_invert(p->t,p->x,0); /* 1/x */+ cryptonite_gf_mul(p->z,p->t,p->y); /* y/x */+ cryptonite_gf_sqr(p->y,p->z); /* (y/x)^2 */+#if IMAGINE_TWIST+ cryptonite_gf_sub(p->y,ZERO,p->y);+#endif+ cryptonite_gf_serialize(out,p->y,1);+ + cryptonite_decaf_bzero(scalar2,sizeof(scalar2));+ API_NS(scalar_destroy)(the_scalar);+ API_NS(point_destroy)(p);+}++/**+ * @cond internal+ * Control for variable-time scalar multiply algorithms.+ */+struct smvt_control {+ int power, addend;+};++static int recode_wnaf (+ struct smvt_control *control, /* [nbits/(table_bits+1) + 3] */+ const scalar_t scalar,+ unsigned int table_bits+) {+ unsigned int table_size = SCALAR_BITS/(table_bits+1) + 3;+ int position = table_size - 1; /* at the end */+ + /* place the end marker */+ control[position].power = -1;+ control[position].addend = 0;+ position--;++ /* PERF: Could negate scalar if it's large. But then would need more cases+ * in the actual code that uses it, all for an expected reduction of like 1/5 op.+ * Probably not worth it.+ */+ + uint64_t current = scalar->limb[0] & 0xFFFF;+ uint32_t mask = (1<<(table_bits+1))-1;++ unsigned int w;+ const unsigned int B_OVER_16 = sizeof(scalar->limb[0]) / 2;+ for (w = 1; w<(SCALAR_BITS-1)/16+3; w++) {+ if (w < (SCALAR_BITS-1)/16+1) {+ /* Refill the 16 high bits of current */+ current += (uint32_t)((scalar->limb[w/B_OVER_16]>>(16*(w%B_OVER_16)))<<16);+ }+ + while (current & 0xFFFF) {+ assert(position >= 0);+ uint32_t pos = __builtin_ctz((uint32_t)current), odd = (uint32_t)current >> pos;+ int32_t delta = odd & mask;+ if (odd & 1<<(table_bits+1)) delta -= (1<<(table_bits+1));+ current -= delta << pos;+ control[position].power = pos + 16*(w-1);+ control[position].addend = delta;+ position--;+ }+ current >>= 16;+ }+ assert(current==0);+ + position++;+ unsigned int n = table_size - position;+ unsigned int i;+ for (i=0; i<n; i++) {+ control[i] = control[i+position];+ }+ return n-1;+}++static void+prepare_wnaf_table(+ pniels_t *output,+ const point_t working,+ unsigned int tbits+) {+ point_t tmp;+ int i;+ pt_to_pniels(output[0], working);++ if (tbits == 0) return;++ API_NS(point_double)(tmp,working);+ pniels_t twop;+ pt_to_pniels(twop, tmp);++ add_pniels_to_pt(tmp, output[0],0);+ pt_to_pniels(output[1], tmp);++ for (i=2; i < 1<<tbits; i++) {+ add_pniels_to_pt(tmp, twop,0);+ pt_to_pniels(output[i], tmp);+ }+ + API_NS(point_destroy)(tmp);+ cryptonite_decaf_bzero(twop,sizeof(twop));+}++extern const gf API_NS(precomputed_wnaf_as_fe)[];+static const niels_t *API_NS(wnaf_base) = (const niels_t *)API_NS(precomputed_wnaf_as_fe);+const size_t API_NS(sizeof_precomputed_wnafs)+ = sizeof(niels_t)<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS;++void API_NS(precompute_wnafs) (+ niels_t out[1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS],+ const point_t base+);++void API_NS(precompute_wnafs) (+ niels_t out[1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS],+ const point_t base+) {+ pniels_t tmp[1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS];+ gf zs[1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS], zis[1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS];+ int i;+ prepare_wnaf_table(tmp,base,CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS);+ for (i=0; i<1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS; i++) {+ memcpy(out[i], tmp[i]->n, sizeof(niels_t));+ cryptonite_gf_copy(zs[i], tmp[i]->z);+ }+ batch_normalize_niels(out, (const gf *)zs, zis, 1<<CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS);+ + cryptonite_decaf_bzero(tmp,sizeof(tmp));+ cryptonite_decaf_bzero(zs,sizeof(zs));+ cryptonite_decaf_bzero(zis,sizeof(zis));+}++void API_NS(base_double_scalarmul_non_secret) (+ point_t combo,+ const scalar_t scalar1,+ const point_t base2,+ const scalar_t scalar2+) {+ const int table_bits_var = CRYPTONITE_DECAF_WNAF_VAR_TABLE_BITS,+ table_bits_pre = CRYPTONITE_DECAF_WNAF_FIXED_TABLE_BITS;+ struct smvt_control control_var[SCALAR_BITS/(table_bits_var+1)+3];+ struct smvt_control control_pre[SCALAR_BITS/(table_bits_pre+1)+3];+ + int ncb_pre = recode_wnaf(control_pre, scalar1, table_bits_pre);+ int ncb_var = recode_wnaf(control_var, scalar2, table_bits_var);+ + pniels_t precmp_var[1<<table_bits_var];+ prepare_wnaf_table(precmp_var, base2, table_bits_var);+ + int contp=0, contv=0, i = control_var[0].power;++ if (i < 0) {+ API_NS(point_copy)(combo, API_NS(point_identity));+ return;+ } else if (i > control_pre[0].power) {+ pniels_to_pt(combo, precmp_var[control_var[0].addend >> 1]);+ contv++;+ } else if (i == control_pre[0].power && i >=0 ) {+ pniels_to_pt(combo, precmp_var[control_var[0].addend >> 1]);+ add_niels_to_pt(combo, API_NS(wnaf_base)[control_pre[0].addend >> 1], i);+ contv++; contp++;+ } else {+ i = control_pre[0].power;+ niels_to_pt(combo, API_NS(wnaf_base)[control_pre[0].addend >> 1]);+ contp++;+ }+ + for (i--; i >= 0; i--) {+ int cv = (i==control_var[contv].power), cp = (i==control_pre[contp].power);+ point_double_internal(combo,combo,i && !(cv||cp));++ if (cv) {+ assert(control_var[contv].addend);++ if (control_var[contv].addend > 0) {+ add_pniels_to_pt(combo, precmp_var[control_var[contv].addend >> 1], i&&!cp);+ } else {+ sub_pniels_from_pt(combo, precmp_var[(-control_var[contv].addend) >> 1], i&&!cp);+ }+ contv++;+ }++ if (cp) {+ assert(control_pre[contp].addend);++ if (control_pre[contp].addend > 0) {+ add_niels_to_pt(combo, API_NS(wnaf_base)[control_pre[contp].addend >> 1], i);+ } else {+ sub_niels_from_pt(combo, API_NS(wnaf_base)[(-control_pre[contp].addend) >> 1], i);+ }+ contp++;+ }+ }+ + /* This function is non-secret, but whatever this is cheap. */+ cryptonite_decaf_bzero(control_var,sizeof(control_var));+ cryptonite_decaf_bzero(control_pre,sizeof(control_pre));+ cryptonite_decaf_bzero(precmp_var,sizeof(precmp_var));++ assert(contv == ncb_var); (void)ncb_var;+ assert(contp == ncb_pre); (void)ncb_pre;+}++void API_NS(point_destroy) (+ point_t point+) {+ cryptonite_decaf_bzero(point, sizeof(point_t));+}++void API_NS(precomputed_destroy) (+ precomputed_s *pre+) {+ cryptonite_decaf_bzero(pre, API_NS(sizeof_precomputed_s));+}
+ cbits/decaf/ed448goldilocks/decaf_all.c view
@@ -0,0 +1,3 @@+/* Combined to avoid link failure on OpenBSD with --strip-unneeded, see #186 */+#include "decaf.c"+#include "decaf_tables.c"
+ cbits/decaf/ed448goldilocks/decaf_tables.c view
@@ -0,0 +1,354 @@+/** @warning: this file was automatically generated. */+#include "field.h"++#include <decaf.h>++#define API_NS(_id) cryptonite_decaf_448_##_id+const API_NS(point_t) API_NS(point_base) = {{+{FIELD_LITERAL(0x00fffffffffffffe,0x00ffffffffffffff,0x00ffffffffffffff,0x00ffffffffffffff,0x0000000000000003,0x0000000000000000,0x0000000000000000,0x0000000000000000)},+ {FIELD_LITERAL(0x0081e6d37f752992,0x003078ead1c28721,0x00135cfd2394666c,0x0041149c50506061,0x0031d30e4f5490b3,0x00902014990dc141,0x0052341b04c1e328,0x0014237853c10a1b)},+ {FIELD_LITERAL(0x00fffffffffffffb,0x00ffffffffffffff,0x00ffffffffffffff,0x00ffffffffffffff,0x00fffffffffffffe,0x00ffffffffffffff,0x00ffffffffffffff,0x00ffffffffffffff)},+ {FIELD_LITERAL(0x008f205b70660415,0x00881c60cfd3824f,0x00377a638d08500d,0x008c66d5d4672615,0x00e52fa558e08e13,0x0087770ae1b6983d,0x004388f55a0aa7ff,0x00b4d9a785cf1a91)}+}};+const gf API_NS(precomputed_base_as_fe)[240]+VECTOR_ALIGNED = {+ {FIELD_LITERAL(0x00e614a9f7278dc5,0x002e454ad04c5124,0x00d8f58cee1436f3,0x00c83ed46e4180ec,0x00a41e93274a38fa,0x00c1e7e53257771e,0x0043e0ff03c0392f,0x002c7c6405ce61df)},+ {FIELD_LITERAL(0x0033c4f9dc990b33,0x00c291cb1ceb55c3,0x002ae3f58ade88b2,0x006b1f9f11395474,0x002ded6e4b27ff7c,0x0041012ed4aa10e1,0x003c22d20a36bae7,0x001f584eed472b19)},+ {FIELD_LITERAL(0x00c3514779ee6f60,0x001574c873b20c2b,0x004cd6a46a5a5e65,0x0059a068aeb4204a,0x004c610458bc354d,0x00e94567479d02d2,0x00feaf77ed118e28,0x00f58a8bf115eeb5)},+ {FIELD_LITERAL(0x0046110878fcb20f,0x00df43db21cc6f32,0x00ffdde9f4516644,0x00519917791686b9,0x00b72b441fd34473,0x008d45684cb1c72b,0x0015181370fc17a5,0x00a456d1307f74d3)},+ {FIELD_LITERAL(0x001430f149b607dc,0x00e992ccd16715fc,0x00a62209b0a32a09,0x00b889cedc26b8e4,0x0059bf9a3ac109cf,0x006871bb3b7feac2,0x00f4a4d5fd9a0e6b,0x00b95db460cd69a5)},+ {FIELD_LITERAL(0x0036304418bda702,0x007bc56861561558,0x00f344bc8e30416f,0x00a64537080f59d7,0x00b4c20077d00ace,0x00ee79620b26f8cc,0x00a6a558e0b5403d,0x008f1d2c766f3d19)},+ {FIELD_LITERAL(0x00ef21c0297d3112,0x0073f89bd27c35b1,0x00ec44f9b1ff5e33,0x006bee51d878f1ee,0x001571a4b2aceddb,0x00cd0182d55131d1,0x0026761dbc1844be,0x00f01865af716474)},+ {FIELD_LITERAL(0x0021dfef3f5fe8cc,0x0038c659ed1dbd68,0x0058ded9bcebe283,0x00077bbb094983ee,0x00b7b484e913d70c,0x0063e477a9506397,0x0000b996a6e01629,0x00ab68b41f75cd37)},+ {FIELD_LITERAL(0x00a1fbd946403a4e,0x00be5a4e2d611b05,0x00ea4f210888bc6e,0x0043e9b0e0ae50fe,0x002abc4f6bd86845,0x00c3ed649c67f663,0x00d4eeb391a520e7,0x004b19cf1bfe7584)},+ {FIELD_LITERAL(0x0099a75e6f22999e,0x001f16454c79f659,0x00d776a37fddc812,0x0095fdd63b6b0a78,0x00d232169366e947,0x002ea77dd21e9de7,0x00e8c46e85f97a90,0x00358758651f8cd9)},+ {FIELD_LITERAL(0x002b6f5036a07bdf,0x004f6940af3e2646,0x00866028f8986799,0x00838b26ccb50415,0x0010557417f00b11,0x008a3b6bc447e96b,0x003de3d035e9e0c9,0x00188fca2b6d4011)},+ {FIELD_LITERAL(0x001ca4038635312b,0x0078dc75c1e01c44,0x004340f00b3100a4,0x005e63e36bf6646e,0x008e1efd4b624688,0x00a61c2ffb1525e1,0x0072587505a75b81,0x00a8637140d96e78)},+ {FIELD_LITERAL(0x004a7c41ffac8a41,0x005bf37075b1c20b,0x00c053b570a42408,0x002bb7e278d328e7,0x00b2378b63245100,0x003318bf2a1a368a,0x00f4e3e0bdbe02de,0x0058921e4b1e32f8)},+ {FIELD_LITERAL(0x005e93d6fa1118a0,0x0062b43515d381e2,0x002c42864052e620,0x00af258bae6ccbd3,0x00954247094d654d,0x005db01f5b010810,0x009c8cf25efa8204,0x005f73ced3714ef7)},+ {FIELD_LITERAL(0x0085f89aff2cf49d,0x00f591ee8480f6f0,0x00378ed518114265,0x00f04293e2a09008,0x00c58688db9140ed,0x00e9912696399ff1,0x0055bd1b96367413,0x0023a70cf830f999)},+ {FIELD_LITERAL(0x001c83772944584e,0x00c1ba881e472bcc,0x00af2715a0aef13f,0x00bd0360d25610a6,0x00c42f8b3eebebde,0x00a9e474849788b1,0x00dcd1a1a2efec5c,0x009480d34c2818c0)},+ {FIELD_LITERAL(0x00b4b6e09a565d74,0x0095efcf6175aa48,0x00498defe7ae7810,0x00309b684ed26470,0x007a8873a91d4e44,0x00ea4b3f857eb27a,0x00979b8619d25a9e,0x00721a2770eeb6e9)},+ {FIELD_LITERAL(0x00b422f0f4be195f,0x00e88cfa83bfa2db,0x009fd60666ea4268,0x0095a458f5e801d0,0x00b9eee6882081f6,0x00b27edb37604948,0x00a7f67c4d44d8db,0x00df840ccf290c01)},+ {FIELD_LITERAL(0x00c9fed0d47c9103,0x00ba73ed9294a043,0x005cbbc928e652e1,0x0068419e98ee8215,0x00f63de63786300b,0x009aa9bb6c19f8aa,0x0066c536b573213f,0x00d2b77a5b2f2450)},+ {FIELD_LITERAL(0x00810236c68d5b74,0x00d0a1af1872a011,0x007f23ee29e3801a,0x009a55a678f8dba4,0x0065445dcff9be40,0x00f3978789a9abc5,0x00001f010d23f5e8,0x00ff80042934b0c5)},+ {FIELD_LITERAL(0x00a6749f4b3f9745,0x003ab85f4180e502,0x006a7de9b530ed50,0x0050b5353b0441bf,0x00a093583ac6ede4,0x00c4918ad1406299,0x000f75cf2a353a2b,0x001c6644a0683a56)},+ {FIELD_LITERAL(0x00e8694156c09bfe,0x00f6f3a5bd17ad96,0x0098dbed45edad12,0x00edfe2b84921821,0x0097884330199b67,0x004aab02685b3e9e,0x0068ac0bd2453c30,0x00167c1c1c87d8f5)},+ {FIELD_LITERAL(0x008bba5fbf63f599,0x0059a3c960c7d63f,0x00ce2db75b08b7d9,0x0097e80cb2104171,0x009b68be26a140d0,0x002b9b9954e94c68,0x00023ca8fc411beb,0x00cbc4bcccbada07)},+ {FIELD_LITERAL(0x0053c100e77b678d,0x000f115c400fa96f,0x005928d3de22afa2,0x00e47cd9bdbdbe96,0x00597ecfe84abf19,0x0058bb428e4c7a32,0x00dd582f76ecf584,0x00b1211365eccb79)},+ {FIELD_LITERAL(0x00dbfb9a00a58e68,0x004468189350d82f,0x00b4b12407ee92c6,0x00e27a7908f73455,0x00f071170071b5ae,0x00221a5e6ba229dd,0x001903e3f6a81f83,0x00be36325402775f)},+ {FIELD_LITERAL(0x004d298d6e691756,0x00775644dfce310b,0x00a861887823ea98,0x00cf0b6014fa6e6f,0x005f4e296380826f,0x00bf423392627f90,0x002893bfc8122f6a,0x00440dbc89bea228)},+ {FIELD_LITERAL(0x00acbb4f40a4ab73,0x00d6a82f48fa3366,0x000a7958fc6faac2,0x008a4cdd60a7c33c,0x005e5587dd8b6f1a,0x00e40f63086a88e8,0x0030940cbbcda0ad,0x009a42e3dc35c130)},+ {FIELD_LITERAL(0x00d37716cad825f1,0x00883870cba9552a,0x008ef785f5c762e3,0x006cb253e0469242,0x007b8f17fee9d967,0x00a43de6932b52b6,0x001aca9fe2af783c,0x008967778ff0b680)},+ {FIELD_LITERAL(0x006400c4cdc6c9c3,0x001e8c978691083f,0x00ad74f01f68e0c5,0x00f7feb0372b5f6a,0x002f60d175ade13a,0x0098ec54a221a678,0x00fcfea8a71f244e,0x00dea6660e45ded2)},+ {FIELD_LITERAL(0x002585b4aa8d6752,0x00e62da7615a2089,0x0010c1c741f39b68,0x00569bb1eced9f65,0x00ba6d09e4daa724,0x007d3e20aef281b9,0x00bd7f65aca3ffdc,0x00dea434a50288a8)},+ {FIELD_LITERAL(0x007ba92a2489170f,0x00cd356354d31e9c,0x00a60d47406e5430,0x009c3d5fde8ed877,0x00079eaa50dd08d1,0x0024674d593ffa5f,0x005391be9596c53b,0x00856ca8d50acdd9)},+ {FIELD_LITERAL(0x00d4620aa5e5bdec,0x002303c4b9b5d941,0x003b061f857ebb2a,0x00371f9e856d49fd,0x0071c36c5335051e,0x0040e4346a4d359f,0x00b31dbd959ec40c,0x00d99353a71bf6de)},+ {FIELD_LITERAL(0x0078898adf0f21dd,0x006e09bfedd8604a,0x00efaf0e0f9bb666,0x00b0f685db8852c3,0x0094c86ec566b841,0x00e5c2879ba50dbe,0x00a87cd444cff758,0x00d3e26fd47f23df)},+ {FIELD_LITERAL(0x00b82c07fb1854f8,0x0057f654a06fad9f,0x004c00383250cf92,0x008b91713d291af6,0x002f2521777859b9,0x00533111421f22c8,0x00643da86fab9794,0x00dc7fb0680e3d40)},+ {FIELD_LITERAL(0x00e59ffd40e87788,0x006431e9755a50af,0x00a03ce700fb580a,0x00ad7e70aa3c9b9e,0x0078970a2b4db503,0x00c800451849637a,0x00e7e6a5b49e123f,0x00e1ed15f77bcb4d)},+ {FIELD_LITERAL(0x00bc1d1d1af47f28,0x00ebc5501bbd81f0,0x00aa6b5513547aa4,0x0074ed33551343fe,0x00d2114f6ef7d43b,0x006335b41d518aeb,0x00ebd46919692fb8,0x0052d5d4e3fada95)},+ {FIELD_LITERAL(0x00ebfc9f489799a4,0x00497535b6980688,0x00fef76499e6a51b,0x00018eedde7a18da,0x00f435d9e72b69c7,0x005ab0faa8281675,0x003232d06e290be8,0x005473ec8be0286c)},+ {FIELD_LITERAL(0x00c6eb0d0ebb4874,0x00856a2274119097,0x00380bc7b29e3719,0x00b1ae149f0e424d,0x0009b41855b9de26,0x0098684013d0f53f,0x0082e8554c38a6ff,0x00e76c18c353743a)},+ {FIELD_LITERAL(0x008da1194e1ab61f,0x008edb5f89688805,0x00f4970252f851bd,0x007a46f632b6ad20,0x006d2d1c37e9f90a,0x0060dd09353f665f,0x000a625a80d86657,0x000f93f6fedd0888)},+ {FIELD_LITERAL(0x003b019b31992fb4,0x004f6a2ad1f64c28,0x008a744134e5c571,0x000ca33172f9af3f,0x00d478755a67bb8b,0x009d1f5c48abb223,0x004da4d6f12ee901,0x0084f09541f4140d)},+ {FIELD_LITERAL(0x0031f412f5cacd43,0x00e5afb75dd20e94,0x001ce24b3452740e,0x00176d6dedf30ff1,0x0082e22e564fffca,0x001d56fbe007097f,0x0095b37c851a6918,0x008ec50ef97f8f4c)},+ {FIELD_LITERAL(0x007e2b1c52251f57,0x00cbef37c9380033,0x0037ed652761bceb,0x00f1c2a5dc6dd232,0x0026e1b90d63ce0b,0x00938d732173a6b8,0x00d439aa45da993f,0x00d356b8deaccef7)},+ {FIELD_LITERAL(0x00ed32377f56c67d,0x00c3b6a4de32e4a7,0x00481a36c0dd5d91,0x00bb557d20466ba7,0x00645f6d3200163e,0x005eb4c54df7c48c,0x00fd8e3d08f1e3b4,0x001156353f099147)},+ {FIELD_LITERAL(0x00ae1b4c089b2756,0x00e686d2b916fb5f,0x007ac43ec2437dd8,0x00f7bfdf7e860ed2,0x0097dbcb8b786dc9,0x00ec7a90401c8b2f,0x00425ed017989bdb,0x00444bc9ca6d914d)},+ {FIELD_LITERAL(0x00e5e7b83b53ab7f,0x004e4bed6ca44fc5,0x0008bd7a67c40d4d,0x009dbec74a4a2f0e,0x0077df3f4fc2c73f,0x0046b1af5e73ea8d,0x009f096cb7be8670,0x003ad0a29929141d)},+ {FIELD_LITERAL(0x00991a1222e9b2e1,0x00be7583901d7dc7,0x00fd1d0c8169d3da,0x000fe0a94a68acf9,0x00b77bd05afc78a2,0x00a84f1697f87ebc,0x000097cfdb0c2ecb,0x007d51d70352ed1b)},+ {FIELD_LITERAL(0x0025dc2a60643159,0x001f0d8ff85f95b4,0x00ed74a4bc598a73,0x00f30afe6f0574a9,0x0003788545d4d28c,0x009dc410ad120ac0,0x001950947e69961d,0x001ceb23cb0355b0)},+ {FIELD_LITERAL(0x00ee2202ded9f1bd,0x002fa4fce658976d,0x00e7c15bc9716470,0x004f7ea99d500369,0x004b995a18318376,0x00246c4f8af91911,0x00cc77a07d09dbfe,0x007906f6f1364be6)},+ {FIELD_LITERAL(0x003c97e6384da36e,0x00423d53eac81a09,0x00b70d68f3cdce35,0x00ee7959b354b92c,0x00f4e9718819c8ca,0x009349f12acbffe9,0x005aee7b62cb7da6,0x00d97764154ffc86)},+ {FIELD_LITERAL(0x00d95d1c5fcb435a,0x0016d1ed6b5086f9,0x00792aa0b7e54d71,0x0067b65715f1925d,0x00a219755ec6176b,0x00bc3f026b12c28f,0x00700c897ffeb93e,0x0089b83f6ec50b46)},+ {FIELD_LITERAL(0x00ad9cdb4544b923,0x00d11664c7284061,0x00815ae86b8f910b,0x005414fb2591c3c6,0x0094ba83e2d7ef9e,0x0001dbc16599386c,0x00c8721f0493911b,0x00c1be6b463c346c)},+ {FIELD_LITERAL(0x0079680ce111ed3b,0x001a1ed82806122c,0x000c2e7466d15df3,0x002c407f6f7150fd,0x00c5e7c96b1b0ce3,0x009aa44626863ff9,0x00887b8b5b80be42,0x00b6023cec964825)},+ {FIELD_LITERAL(0x00fed3cd80ca2292,0x0015b043a73ca613,0x000a9fd7bf9be227,0x003b5e03de2db983,0x005af72d46904ef7,0x00c0f1b5c49faa99,0x00dc86fc3bd305e1,0x00c92f08c1cb1797)},+ {FIELD_LITERAL(0x001b571efb768f37,0x009d778487cf5cfd,0x00430e37327ebfd4,0x00a92447e5970a41,0x00eb13127c0edbac,0x00ec61e5aefeaf20,0x00447eebf57d2e5c,0x00f01433e550e558)},+ {FIELD_LITERAL(0x0039dd7ce7fc6860,0x00d64f6425653da1,0x003e037c7f57d0af,0x0063477a06e2bcf2,0x001727dbb7ac67e6,0x0049589f5efafe2e,0x00fc0fef2e813d54,0x008baa5d087fb50d)},+ {FIELD_LITERAL(0x00a7527958238159,0x0013ec9537a84cd6,0x001d7fee7d562525,0x00b9eefa6191d5e5,0x00dbc97db70bcb8a,0x00481affc7a4d395,0x006f73d3e70c31bb,0x00183f324ed96a61)},+ {FIELD_LITERAL(0x00db04a6264ba838,0x00582b1f9fddc1b3,0x003ee72e4aaa027f,0x007d1de938cd0dd5,0x0032d5d66cf76afa,0x00c9c717c95c1ec2,0x00f27aa11764b8d6,0x00713a482b7ef36e)},+ {FIELD_LITERAL(0x00ece96f95f2b66f,0x00ece7952813a27b,0x0026fc36592e489e,0x007157d1a2de0f66,0x00759dc111d86ddf,0x0012881e5780bb0f,0x00c8ccc83ad29496,0x0012b9bd1929eb71)},+ {FIELD_LITERAL(0x001bf51f7d65cdfd,0x00d14cdafa16a97d,0x002c38e60fcd10e7,0x00a27446e393efbd,0x000b5d8946a71fdd,0x0063df2cde128f2f,0x006c8679569b1888,0x0059ffc4925d732d)},+ {FIELD_LITERAL(0x00f05ea5df25a20f,0x00cb6224e5b932ce,0x00d3aed52e2718d9,0x00fb89ee0996ce72,0x006197045a6e1e80,0x00bcdf20057fc6f9,0x0059bf78b6ae5c2c,0x0049cacb87455db0)},+ 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{FIELD_LITERAL(0x0059eb4ff288a383,0x00283876be3388ab,0x00bdd22974a2543b,0x0059eef0fe982d74,0x0097a5cf63dad778,0x004bc6002aebc99f,0x00c9a91d6118c690,0x0038364612a527ab)},+ {FIELD_LITERAL(0x00006e34a35d9fbc,0x00eee4e48b2f019a,0x006b344743003a5f,0x00541d514f04a7e3,0x00e81f9ee7647455,0x005e2b916c438f81,0x00116f8137b7eff0,0x009bd3decc7039d1)},+ {FIELD_LITERAL(0x0040f7e7c5b37bf2,0x0064e4dc81181bba,0x00a8767ae2a366b6,0x001496b4f90546f2,0x002a28493f860441,0x0021f59513049a3a,0x00852d369a8b7ee3,0x00dd2e7d8b7d30a9)},+ {FIELD_LITERAL(0x00fa2dd90bcbeef2,0x00507d774710de2a,0x00b585ad10e7e373,0x0041f487e4b4f921,0x00191c9d8212f81d,0x001bc55cbdd8d474,0x0017954bdba8827b,0x0004d6d3a991ca44)},+ {FIELD_LITERAL(0x00e38abece3c82ab,0x005a51f18a2c7a86,0x009dafa2e86d592e,0x00495a62eb688678,0x00b79df74c0eb212,0x0023e8cc78b75982,0x005998cb91075e13,0x00735aa9ba61bc76)},+ {FIELD_LITERAL(0x00334f5303ea1222,0x00dfb3dbeb0a5d3e,0x002940d9592335c1,0x00706a7a63e8938a,0x005a533558bc4caf,0x00558e33192022a9,0x00970d9faf74c133,0x002979fcb63493ca)},+ {FIELD_LITERAL(0x00260857d22419d7,0x005e0387d77651f0,0x008e0025ed2eb499,0x00c830b135804c2a,0x0037f43dbd3a77f6,0x008a4073d2f7379c,0x0072be0ce503ad58,0x00e6869d130c78be)},+ {FIELD_LITERAL(0x00bfc5fa1e4ea21f,0x00c21d7b6bb892e6,0x00cf043f3acf0291,0x00c13f2f849b3c90,0x00d1a97ebef10891,0x0061e130a445e7fe,0x0019513fdedbf22b,0x001d60c813bff841)},+ {FIELD_LITERAL(0x006e9f475cccf2ee,0x00454b9cd506430c,0x00224a4fb79ee479,0x0062e3347ef0b5e2,0x0034fd2a3512232a,0x00b8b3cb0f457046,0x00eb20165daa38ec,0x00128eebc2d9c0f7)},+ {FIELD_LITERAL(0x00e6a9e38030fdec,0x001c23597bc14288,0x0097156a46356df1,0x00642048f0daca6a,0x003970a6e7955fd4,0x00a511e335e3cfc6,0x0054865756c85e31,0x00465f1ab66a6190)},+ {FIELD_LITERAL(0x003e4964fa8a8fc8,0x00f6a1cdbcf41689,0x00943cb18fe7fda7,0x00606dafbf34440a,0x005d37a86399c789,0x00e79a2a69417403,0x00fe34f7e68b8866,0x0011f448ed2df10e)},+ {FIELD_LITERAL(0x00c79e0b6d97dfbd,0x00917c71fd2bc6e8,0x00db7529ccfb63d8,0x00be5be957f17866,0x00a9e11fdc2cdac1,0x007b91a8e1f44443,0x00a3065e4057d80f,0x004825f5b8d5f6d4)},+ {FIELD_LITERAL(0x000e0a81033e033b,0x00aec986ee821eab,0x00d1a4a48379273c,0x00609b79a9e06304,0x00e9618b4fe8f307,0x006ffdfa50b50969,0x009530224887ac0c,0x0020e7b36f0cef97)},+ {FIELD_LITERAL(0x00fd579ffb691713,0x00b76af4f81c412d,0x00f239de96110f82,0x00e965fb437f0306,0x00ca7e9436900921,0x00e487f1325fa24a,0x00633907de476380,0x00721c62ac5b8ea0)},+ {FIELD_LITERAL(0x00b37396c3320791,0x00fc7b67175c5783,0x00c36d2cd73ecc38,0x0080ebcc0b328fc5,0x0043a5b22b35d35d,0x00466c9f1713c9da,0x0026ad346dcaa8da,0x007c684e701183a6)},+ {FIELD_LITERAL(0x003f2ab1abd14b06,0x00b129a8e8e37230,0x0048bc5b083d5c64,0x0002606c12933a98,0x00cf8051ceec1a73,0x00a755a8836c3ce6,0x002dabaa90ca4cb9,0x00b6e5525ddfc0f2)},+ {FIELD_LITERAL(0x00c4a1fb48635413,0x00b5dd54423ad59f,0x009ff5d53fd24a88,0x003c98d267fc06a7,0x002db7cb20013641,0x00bd1d6716e191f2,0x006dbc8b29094241,0x0044bbf233dafa2c)},+ {FIELD_LITERAL(0x00dff3103786ff34,0x000144553b1f20c3,0x0095613baeb930e4,0x00098058275ea5d4,0x007cd1402b046756,0x0074d74e4d58aee3,0x005f93fc343ff69b,0x00873df17296b3b0)},+ {FIELD_LITERAL(0x00aa7c72be0ace19,0x004095d22fc37e4d,0x00a7d85f9e3b7c61,0x00ff21d344c9553c,0x00d105d6268e8b86,0x000616d733758845,0x003ecb4ba7210610,0x006a75e7dddc03b7)},+ {FIELD_LITERAL(0x007860d99db787cf,0x00fda8983018f4a8,0x008c8866bac4743c,0x00ef471f84c82a3f,0x00abea5976d3b8e7,0x00714882896cd015,0x00b49fae584ddac5,0x008e33a1a0b69c81)},+ {FIELD_LITERAL(0x000a9ee23c06881f,0x002c727d3d871945,0x00f47d971512d24a,0x00671e816f9ef31a,0x00883af2cfaad673,0x00601f98583d6c9a,0x00b435f5adc79655,0x00ad87b71c04bff2)},+ {FIELD_LITERAL(0x0084911d36175613,0x00dbaa24427629dd,0x009b6f30b1554fc7,0x0026da093cf7ea9e,0x00eac4cfb8218c7c,0x00c4bde074231490,0x0089e5b5afb62587,0x0067fcb73adfdbcc)},+ {FIELD_LITERAL(0x00eebfd4e2312cc3,0x00474b2564e4fc8c,0x003303ef14b1da9b,0x003c93e0e66beb1d,0x0013619b0566925a,0x008817c24d901bf3,0x00b62bd8898d218b,0x0075a7716f1e88a2)},+ {FIELD_LITERAL(0x007f8a43da97dd5c,0x00058539c800fc7b,0x0040f3cf5a28414a,0x00d68dd0d95283d6,0x004adce9da90146e,0x00befa41c7d4f908,0x007603bc2e3c3060,0x00bdf360ab3545db)},+ {FIELD_LITERAL(0x00f6de725e1976f0,0x00d96f80a02fda8a,0x00b25412a0e629fa,0x00c540e7e78fdb62,0x004ad02fb7336d3a,0x004922ae1bea5a3a,0x0026147d42d4bfeb,0x00d379a5bc4b94bc)},+ {FIELD_LITERAL(0x00c338b915d8fef0,0x00a893292045c39a,0x0028ab4f2eba6887,0x0060743cb519fd61,0x0006213964093ac0,0x007c0b7a43f6266d,0x008e3557c4fa5bda,0x002da976de7b8d9d)},+ {FIELD_LITERAL(0x0070047189452f4c,0x00f7ad12e1ce78d5,0x00af1ba51ec44a8b,0x005f39f63e667cd6,0x00058eac4648425e,0x00d7fdab42bea03b,0x0028576a5688de15,0x00af973209e77c10)},+ {FIELD_LITERAL(0x00b78d6075749232,0x0001dc47a33b2cdc,0x0018c7b2e91b24f1,0x00b5bdc68f9876bd,0x0013f489ccba2b44,0x003b8846066128de,0x003d6252c8884dcf,0x00e3ae84b9908209)},+ {FIELD_LITERAL(0x00aa2261022d883f,0x00ebcca4548010ac,0x002528512e28a437,0x0070ca7676b66082,0x0084bda170f7c6d3,0x00581b4747c9b8bb,0x005c96a01061c7e2,0x00fb7c4a362b5273)},+ {FIELD_LITERAL(0x006366c380f7b574,0x001c7d1f09ff0438,0x003e20a7301f5b22,0x00d3efb1916d28f6,0x0049f4f81060ce83,0x00c69d91ea43ced1,0x002b6f3e5cd269ed,0x005b0fb22ce9ec65)},+ {FIELD_LITERAL(0x003cffdf14aed2fd,0x009f0d77d7c5b2d9,0x004812ec41321d9f,0x008a1448bddf0916,0x008fef86030175df,0x00e3d703200a76c7,0x00d1babb470b2094,0x009f3a43b0e5828c)},+ {FIELD_LITERAL(0x00a94700032a093f,0x0076e96c225216e7,0x00a63a4316e45f91,0x007d8bbb4645d3b2,0x00340a6ff22793eb,0x006f935d4572aeb7,0x00b1fb69f00afa28,0x009e8f3423161ed3)},+ {FIELD_LITERAL(0x00ae307cf069f701,0x005859f222dd618b,0x00212d6c46ec0b0d,0x00a0fe4642afb62d,0x00420d8e4a0a8903,0x00a80ff639bdf7b0,0x0019bee1490b5d8e,0x007439e4b9c27a86)},+ {FIELD_LITERAL(0x00610b6394a312e8,0x005aaa19d96160f5,0x008190e286138c4a,0x006538796a5cd53b,0x00fe28804432a97c,0x007315e011f55112,0x000bd4157d5acb9d,0x00d1b95469350336)},+ {FIELD_LITERAL(0x0060db815bc4786c,0x006fab25beedc434,0x00c610d06084797c,0x000c48f08537bec0,0x0031aba51c5b93da,0x007968fa6e01f347,0x0030070da52840c6,0x00c043c225a4837f)},+ {FIELD_LITERAL(0x0051cfcc5885377a,0x00dce566cb1803ca,0x00430c7643f2c7d4,0x00dce1a1337bdcc0,0x0010d5bd7283c128,0x003b1b547f9b46fe,0x000f245e37e770ab,0x007b72511f022b37)},+ {FIELD_LITERAL(0x00e4302ff9b6116c,0x0092314b81d5f02a,0x000d31425f30702f,0x004946262e04213c,0x007ead9d19b6f9ed,0x001080a31ce8989f,0x001b632f36672a74,0x00a03933d9645a83)},+ {FIELD_LITERAL(0x004a2902926f8d3f,0x00ad79b42637ab75,0x0088f60b90f2d4e8,0x0030f54ef0e398c4,0x00021dc9bf99681e,0x007ebf66fde74ee3,0x004ade654386e9a4,0x00e7485066be4c27)},+ {FIELD_LITERAL(0x008940211aa0d633,0x00addae28136571d,0x00d68fdbba20d673,0x003bc6129bc9e21a,0x000346cf184ebe9a,0x0068774d741ebc7f,0x0019d5e9e6966557,0x0003cbd7f981b651)},+ {FIELD_LITERAL(0x00bba0ed9c67c41f,0x00b30c8e225ba195,0x008bb5762a5cef18,0x00e0df31b06fb7cc,0x0018b912141991d5,0x00f6ed54e093eac2,0x0009e288264dbbb3,0x00feb663299b89ef)}+};+const gf API_NS(precomputed_wnaf_as_fe)[96]+VECTOR_ALIGNED = {+ {FIELD_LITERAL(0x00cfc32590115acd,0x0079f0e2a5c7af1b,0x00dd94605b8d7332,0x0097dd6c75f5f3f3,0x00d9c59e36156de9,0x00edfbfd6cde47d7,0x0095b97c9f67c39a,0x007d7b90f587debc)},+ {FIELD_LITERAL(0x00cfc32590115acd,0x0079f0e2a5c7af1b,0x00dd94605b8d7332,0x0017dd6c75f5f3f3,0x00d9c59e36156de8,0x00edfbfd6cde47d7,0x0095b97c9f67c39a,0x00fd7b90f587debc)},+ {FIELD_LITERAL(0x001071dd4d8ae672,0x004f14ebe5f4f174,0x00e0987625c34c73,0x0092d00712c6f8c1,0x009ef424965e980b,0x00a8e0cf9369764b,0x000aa81907b4d207,0x00d5002c74d37924)},+ {FIELD_LITERAL(0x00f3c4efe62b8b17,0x001e6acc1b6add7b,0x003367ef45836df5,0x000efc2d87a6ba53,0x00405a96933964ca,0x00572c2ae16357c6,0x00a9dc34ba6a7946,0x00151831e32ad161)},+ {FIELD_LITERAL(0x00315f0372d1774a,0x007de9ed2960e79d,0x008b3d7c4c198add,0x00a5e6a45fa57892,0x00f32201aa80115a,0x007fb9386a433a1a,0x00abf6960b291ee6,0x002d8069294ebc2a)},+ {FIELD_LITERAL(0x00fa5e878ae22827,0x00d33c7bb3963bd0,0x0053401a101efac6,0x0063df0bcbce59a5,0x007bca269c8b584b,0x00611a8a9978842c,0x00bb96e8da12b8a8,0x00e17844d01d394d)},+ {FIELD_LITERAL(0x00c107c50e9b4d0d,0x00f6b65a5fada2f2,0x000bb67e79353fae,0x0018853f610ed92d,0x008c51f4d36d6915,0x00e3e9c096dd1c12,0x009d6b9ea6cde415,0x00304864dd66f4c6)},+ {FIELD_LITERAL(0x00f3123b214085fb,0x00d005bafffb8f53,0x00d1606987dfe6ea,0x00e825edf73b018d,0x0082aa733829a933,0x00c857d8d7830d76,0x00ebdb8d2cbbe7e6,0x0063de0e9930722e)},+ {FIELD_LITERAL(0x004ffebce35619ab,0x00d281a1543365c5,0x00ad17eeb3d098b8,0x008653b06bb7806d,0x0040026e64a28b62,0x00d9e06d52ea19df,0x008e7c684856876a,0x003ebbc191443f3b)},+ {FIELD_LITERAL(0x00c0a062813b8884,0x0054d18cc36e636b,0x00e4493fcadba51a,0x005cda5b6577c9cf,0x00cc165615c315cf,0x001bbd5e155f17bb,0x004dee92a4f18e47,0x003e95412929bfb8)},+ {FIELD_LITERAL(0x0015326f3e1f5fb6,0x0076886ca4eb6041,0x00fb34645ee36c23,0x006042a4cb8f7bb2,0x00b43e736403dd2f,0x00a8986566e7c60c,0x0010ea48904bf6d1,0x008b5ae8c5ddafbe)},+ {FIELD_LITERAL(0x003a9f4a12faee9a,0x00e6ba523a29af6b,0x001dde79a8ef06ef,0x0033ed4361647314,0x00b0556ae76eb1c9,0x00e8b892762bd092,0x004709c83705e374,0x0077382d86f79b47)},+ {FIELD_LITERAL(0x006638c5cee4113d,0x005c100c7276ed52,0x00d10562e281768d,0x0008e851e1eb2ed9,0x00d7cc086a7af373,0x00993ed528eb7942,0x0051677625b7df14,0x0029fbbcf6aaa3f7)},+ {FIELD_LITERAL(0x001081503e396419,0x007a2c7aa8870415,0x00d372a4baf3490a,0x00b18821a1e18013,0x00b83fa876c54211,0x00e4bcf47a2ae1e9,0x0069a384ba9bf3c3,0x00b784d44ee9d468)},+ {FIELD_LITERAL(0x00b4e3ad7c2ea1be,0x009962715cf7008a,0x00fbc6fdcc089d5e,0x001e29847c349313,0x00c1145569b3874d,0x0094f50069a1499b,0x004cec2bb8f423c8,0x0077eb0034c34627)},+ 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{FIELD_LITERAL(0x00b42f011dbc757c,0x004a8e19d4f07c42,0x00a6d7828318b7ff,0x0004c9ce49ba3c0f,0x005fe71688087b6a,0x006e1d8f9a3d84ed,0x0089693e7e8e9a1f,0x0073bf4183ba45c5)},+ {FIELD_LITERAL(0x0029e8ce35530d30,0x00d20f389f61fe3a,0x00cf9e8ddf74e1d4,0x004bec01b04d4979,0x007d92c9f6fd5ddd,0x00c072fa91981808,0x009afda4fe8a1676,0x00c96522ee879a14)},+ {FIELD_LITERAL(0x005f0cd9cd83497b,0x00e382f098d97f00,0x0073e37e004eed2e,0x000707fe98b12237,0x0016d92a2b73d561,0x00a42926ab390165,0x00b394db4b1cc8fc,0x002fa14a3f6efa33)},+ {FIELD_LITERAL(0x0055076a513d05ee,0x00f076d43cec14ad,0x00a4e386b252faf4,0x00c0713b79b313eb,0x00507efa72f46f19,0x00141bc1e7c66844,0x005629ef060c19ea,0x0085327113d1772c)},+ {FIELD_LITERAL(0x00ed490108514e35,0x006bed897e6b4958,0x0000f2cae0dc546c,0x008175eb3e5008e4,0x0093e3fe8f3aed42,0x00e9dbc15fd54d1a,0x00844979a4cfc0c1,0x00ea3194d64ea60b)},+ {FIELD_LITERAL(0x00b64d054ec7ed5c,0x007b924cd329fbce,0x00fe8805a8737293,0x00fb82f1d52b43ae,0x004ea745c72e1a76,0x0095ba2552861c0c,0x00f66846c3547784,0x003b815bd05dc23c)},+ {FIELD_LITERAL(0x00669e32fd197ef7,0x001dfca2c5e2f7c9,0x00a2ae0964a1e5e2,0x00b4334b15c91232,0x0096419585110d96,0x009c0b2262172a58,0x009d7c87cf6d35ca,0x008a5ce50d3cabf6)},+ {FIELD_LITERAL(0x00888b9c1cf73530,0x00375346c6afecd2,0x00142240b35b74d3,0x00d952835f86a5f5,0x000665c2658eaf9a,0x00f29f43062b2033,0x00a19a58c5bc85f9,0x00e62ac95724a937)},+ {FIELD_LITERAL(0x003bedc9ae9d1730,0x00fedd7c04cbc775,0x00c19abc4540c61d,0x00115294c57fb687,0x00663fceb174cd8f,0x001671f572b885b0,0x002d14694ed85978,0x00127282078a8e44)},+ {FIELD_LITERAL(0x00e6d2822aa72eca,0x00d832957cdc0058,0x00dc60e5bed23e18,0x00b94b4c418b03a3,0x00df3b85d410a430,0x0055e81b70bc79d4,0x00081d9369cbd1a0,0x00f7fee3acf0c656)},+ {FIELD_LITERAL(0x003baba41b5abffb,0x00661ee09fca8193,0x00e0c6c92e6aea59,0x00886c207bcbe591,0x00aef9e7798e8004,0x00164f599f4d707a,0x00bb1597a76d21f2,0x00fda82d5e025626)},+ {FIELD_LITERAL(0x00552b53a9640f0e,0x005985236f4d88bf,0x00b7aaec965a8ae5,0x00cedada7b5ccf95,0x007b1ea2088f1902,0x0028445e38b4a7fa,0x0057f10ddc50efed,0x007637a3147bc5cb)},+ {FIELD_LITERAL(0x008174fe4db53757,0x00930c4f4a35ecc8,0x000e9f82c1c95a8f,0x00c6480547d66e5e,0x00dce888f9a7bf39,0x006671a5022cb906,0x004823c19b5337a0,0x00455338b7fec529)},+ {FIELD_LITERAL(0x005ac123fdc45964,0x00395057c2221d17,0x003c09c74cf84eb1,0x00b5ca859bbebf9d,0x001b26b274a7d235,0x00e8c63508e96a48,0x00edbce4d51d721e,0x00c49436797d6f83)},+ {FIELD_LITERAL(0x0071595be88a7f40,0x00a05e6ac1c0fc87,0x00a01bf6538b29eb,0x00badcd80b881fb8,0x005bfe7af8049f8b,0x0084918e6ae35537,0x00ed4bd54759316e,0x007f135988d6b548)},+ {FIELD_LITERAL(0x0075656c41e06629,0x0086059d83396637,0x004f304ecb457b37,0x00e3b4887db6be65,0x0020b54c263bb0be,0x0060a69193e561c3,0x00e6863f20dc8ce9,0x00afe16ac56e6478)}+};
+ cbits/decaf/ed448goldilocks/eddsa.c view
@@ -0,0 +1,326 @@+/**+ * @file ed448goldilocks/eddsa.c+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @cond internal+ * @brief EdDSA routines.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */+#include "word.h"+#include <decaf/ed448.h>+#include <decaf/shake.h>+#include <decaf/sha512.h>+#include <string.h>++#define API_NAME "cryptonite_decaf_448"+#define API_NS(_id) cryptonite_decaf_448_##_id++#define hash_ctx_t cryptonite_decaf_shake256_ctx_t+#define hash_init cryptonite_decaf_shake256_init+#define hash_update cryptonite_decaf_shake256_update+#define hash_final cryptonite_decaf_shake256_final+#define hash_destroy cryptonite_decaf_shake256_destroy+#define hash_hash cryptonite_decaf_shake256_hash++#define NO_CONTEXT CRYPTONITE_DECAF_EDDSA_448_SUPPORTS_CONTEXTLESS_SIGS+#define EDDSA_USE_SIGMA_ISOGENY 0+#define COFACTOR 4++#if NO_CONTEXT+const uint8_t CRYPTONITE_NO_CONTEXT_POINTS_HERE = 0;+const uint8_t * const CRYPTONITE_DECAF_ED448_NO_CONTEXT = &CRYPTONITE_NO_CONTEXT_POINTS_HERE;+#endif++/* EDDSA_BASE_POINT_RATIO = 1 or 2+ * Because EdDSA25519 is not on E_d but on the isogenous E_sigma_d,+ * its base point is twice ours.+ */+#define EDDSA_BASE_POINT_RATIO (1+EDDSA_USE_SIGMA_ISOGENY)++static void clamp (+ uint8_t secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES]+) {+ /* Blarg */+ secret_scalar_ser[0] &= -COFACTOR;+ uint8_t hibit = (1<<0)>>1;+ if (hibit == 0) {+ secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES - 1] = 0;+ secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES - 2] |= 0x80;+ } else {+ secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES - 1] &= hibit-1;+ secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES - 1] |= hibit;+ }+}++static void hash_init_with_dom(+ hash_ctx_t hash,+ uint8_t prehashed,+ uint8_t for_prehash,+ const uint8_t *context,+ uint8_t context_len+) {+ hash_init(hash);++#if NO_CONTEXT+ if (context_len == 0 && context == CRYPTONITE_DECAF_ED448_NO_CONTEXT) {+ (void)prehashed;+ (void)for_prehash;+ (void)context;+ (void)context_len;+ return;+ }+#endif+ const char *dom_s = "SigEd448";+ const uint8_t dom[2] = {2+word_is_zero(prehashed)+word_is_zero(for_prehash), context_len};+ hash_update(hash,(const unsigned char *)dom_s, strlen(dom_s));+ hash_update(hash,dom,2);+ hash_update(hash,context,context_len);+}++void cryptonite_decaf_ed448_prehash_init (+ hash_ctx_t hash+) {+ hash_init(hash);+}++/* In this file because it uses the hash */+void cryptonite_decaf_ed448_convert_private_key_to_x448 (+ uint8_t x[CRYPTONITE_DECAF_X448_PRIVATE_BYTES],+ const uint8_t ed[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES]+) {+ /* pass the private key through hash_hash function */+ /* and keep the first CRYPTONITE_DECAF_X448_PRIVATE_BYTES bytes */+ hash_hash(+ x,+ CRYPTONITE_DECAF_X448_PRIVATE_BYTES,+ ed,+ CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES+ );+}+ +void cryptonite_decaf_ed448_derive_public_key (+ uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const uint8_t privkey[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES]+) {+ /* only this much used for keygen */+ uint8_t secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES];+ + hash_hash(+ secret_scalar_ser,+ sizeof(secret_scalar_ser),+ privkey,+ CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES+ );+ clamp(secret_scalar_ser);+ + API_NS(scalar_t) secret_scalar;+ API_NS(scalar_decode_long)(secret_scalar, secret_scalar_ser, sizeof(secret_scalar_ser));+ + /* Since we are going to mul_by_cofactor during encoding, divide by it here.+ * However, the EdDSA base point is not the same as the decaf base point if+ * the sigma isogeny is in use: the EdDSA base point is on Etwist_d/(1-d) and+ * the decaf base point is on Etwist_d, and when converted it effectively+ * picks up a factor of 2 from the isogenies. So we might start at 2 instead of 1. + */+ for (unsigned int c = EDDSA_BASE_POINT_RATIO; c < COFACTOR; c <<= 1) {+ API_NS(scalar_halve)(secret_scalar,secret_scalar);+ }+ + API_NS(point_t) p;+ API_NS(precomputed_scalarmul)(p,API_NS(precomputed_base),secret_scalar);+ + API_NS(point_mul_by_cofactor_and_encode_like_eddsa)(pubkey, p);+ + /* Cleanup */+ API_NS(scalar_destroy)(secret_scalar);+ API_NS(point_destroy)(p);+ cryptonite_decaf_bzero(secret_scalar_ser, sizeof(secret_scalar_ser));+}++void cryptonite_decaf_ed448_sign (+ uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t privkey[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const uint8_t *message,+ size_t message_len,+ uint8_t prehashed,+ const uint8_t *context,+ uint8_t context_len+) {+ API_NS(scalar_t) secret_scalar;+ hash_ctx_t hash;+ {+ /* Schedule the secret key */+ struct {+ uint8_t secret_scalar_ser[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES];+ uint8_t seed[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES];+ } __attribute__((packed)) expanded;+ hash_hash(+ (uint8_t *)&expanded,+ sizeof(expanded),+ privkey,+ CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES+ );+ clamp(expanded.secret_scalar_ser); + API_NS(scalar_decode_long)(secret_scalar, expanded.secret_scalar_ser, sizeof(expanded.secret_scalar_ser));+ + /* Hash to create the nonce */+ hash_init_with_dom(hash,prehashed,0,context,context_len);+ hash_update(hash,expanded.seed,sizeof(expanded.seed));+ hash_update(hash,message,message_len);+ cryptonite_decaf_bzero(&expanded, sizeof(expanded));+ }+ + /* Decode the nonce */+ API_NS(scalar_t) nonce_scalar;+ {+ uint8_t nonce[2*CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES];+ hash_final(hash,nonce,sizeof(nonce));+ API_NS(scalar_decode_long)(nonce_scalar, nonce, sizeof(nonce));+ cryptonite_decaf_bzero(nonce, sizeof(nonce));+ }+ + uint8_t nonce_point[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES] = {0};+ {+ /* Scalarmul to create the nonce-point */+ API_NS(scalar_t) nonce_scalar_2;+ API_NS(scalar_halve)(nonce_scalar_2,nonce_scalar);+ for (unsigned int c = 2*EDDSA_BASE_POINT_RATIO; c < COFACTOR; c <<= 1) {+ API_NS(scalar_halve)(nonce_scalar_2,nonce_scalar_2);+ }+ + API_NS(point_t) p;+ API_NS(precomputed_scalarmul)(p,API_NS(precomputed_base),nonce_scalar_2);+ API_NS(point_mul_by_cofactor_and_encode_like_eddsa)(nonce_point, p);+ API_NS(point_destroy)(p);+ API_NS(scalar_destroy)(nonce_scalar_2);+ }+ + API_NS(scalar_t) challenge_scalar;+ {+ /* Compute the challenge */+ hash_init_with_dom(hash,prehashed,0,context,context_len);+ hash_update(hash,nonce_point,sizeof(nonce_point));+ hash_update(hash,pubkey,CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES);+ hash_update(hash,message,message_len);+ uint8_t challenge[2*CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES];+ hash_final(hash,challenge,sizeof(challenge));+ hash_destroy(hash);+ API_NS(scalar_decode_long)(challenge_scalar,challenge,sizeof(challenge));+ cryptonite_decaf_bzero(challenge,sizeof(challenge));+ }+ + API_NS(scalar_mul)(challenge_scalar,challenge_scalar,secret_scalar);+ API_NS(scalar_add)(challenge_scalar,challenge_scalar,nonce_scalar);+ + cryptonite_decaf_bzero(signature,CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES);+ memcpy(signature,nonce_point,sizeof(nonce_point));+ API_NS(scalar_encode)(&signature[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],challenge_scalar);+ + API_NS(scalar_destroy)(secret_scalar);+ API_NS(scalar_destroy)(nonce_scalar);+ API_NS(scalar_destroy)(challenge_scalar);+}+++void cryptonite_decaf_ed448_sign_prehash (+ uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t privkey[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const cryptonite_decaf_ed448_prehash_ctx_t hash,+ const uint8_t *context,+ uint8_t context_len+) {+ uint8_t hash_output[64]; /* MAGIC but true for all existing schemes */+ {+ cryptonite_decaf_ed448_prehash_ctx_t hash_too;+ memcpy(hash_too,hash,sizeof(hash_too));+ hash_final(hash_too,hash_output,sizeof(hash_output));+ hash_destroy(hash_too);+ }++ cryptonite_decaf_ed448_sign(signature,privkey,pubkey,hash_output,sizeof(hash_output),1,context,context_len);+ cryptonite_decaf_bzero(hash_output,sizeof(hash_output));+}++cryptonite_decaf_error_t cryptonite_decaf_ed448_verify (+ const uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const uint8_t *message,+ size_t message_len,+ uint8_t prehashed,+ const uint8_t *context,+ uint8_t context_len+) { + API_NS(point_t) pk_point, r_point;+ cryptonite_decaf_error_t error = API_NS(point_decode_like_eddsa_and_ignore_cofactor)(pk_point,pubkey);+ if (CRYPTONITE_DECAF_SUCCESS != error) { return error; }+ + error = API_NS(point_decode_like_eddsa_and_ignore_cofactor)(r_point,signature);+ if (CRYPTONITE_DECAF_SUCCESS != error) { return error; }+ + API_NS(scalar_t) challenge_scalar;+ {+ /* Compute the challenge */+ hash_ctx_t hash;+ hash_init_with_dom(hash,prehashed,0,context,context_len);+ hash_update(hash,signature,CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES);+ hash_update(hash,pubkey,CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES);+ hash_update(hash,message,message_len);+ uint8_t challenge[2*CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES];+ hash_final(hash,challenge,sizeof(challenge));+ hash_destroy(hash);+ API_NS(scalar_decode_long)(challenge_scalar,challenge,sizeof(challenge));+ cryptonite_decaf_bzero(challenge,sizeof(challenge));+ }+ API_NS(scalar_sub)(challenge_scalar, API_NS(scalar_zero), challenge_scalar);+ + API_NS(scalar_t) response_scalar;+ API_NS(scalar_decode_long)(+ response_scalar,+ &signature[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES+ );+#if EDDSA_BASE_POINT_RATIO == 2+ API_NS(scalar_add)(response_scalar,response_scalar,response_scalar);+#endif+ + + /* pk_point = -c(x(P)) + (cx + k)G = kG */+ API_NS(base_double_scalarmul_non_secret)(+ pk_point,+ response_scalar,+ pk_point,+ challenge_scalar+ );+ return cryptonite_decaf_succeed_if(API_NS(point_eq(pk_point,r_point)));+}+++cryptonite_decaf_error_t cryptonite_decaf_ed448_verify_prehash (+ const uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const cryptonite_decaf_ed448_prehash_ctx_t hash,+ const uint8_t *context,+ uint8_t context_len+) {+ cryptonite_decaf_error_t ret;+ + uint8_t hash_output[64]; /* MAGIC but true for all existing schemes */+ {+ cryptonite_decaf_ed448_prehash_ctx_t hash_too;+ memcpy(hash_too,hash,sizeof(hash_too));+ hash_final(hash_too,hash_output,sizeof(hash_output));+ hash_destroy(hash_too);+ }+ + ret = cryptonite_decaf_ed448_verify(signature,pubkey,hash_output,sizeof(hash_output),1,context,context_len);+ + return ret;+}
+ cbits/decaf/ed448goldilocks/scalar.c view
@@ -0,0 +1,341 @@+/**+ * @file ed448goldilocks/scalar.c+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief Decaf high-level functions.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */+#include "word.h"+#include "constant_time.h"+#include <decaf.h>++/* Template stuff */+#define API_NS(_id) cryptonite_decaf_448_##_id+#define SCALAR_BITS CRYPTONITE_DECAF_448_SCALAR_BITS+#define SCALAR_SER_BYTES CRYPTONITE_DECAF_448_SCALAR_BYTES+#define SCALAR_LIMBS CRYPTONITE_DECAF_448_SCALAR_LIMBS+#define scalar_t API_NS(scalar_t)++static const cryptonite_decaf_word_t MONTGOMERY_FACTOR = (cryptonite_decaf_word_t)0x3bd440fae918bc5ull;+static const scalar_t sc_p = {{{+ SC_LIMB(0x2378c292ab5844f3), SC_LIMB(0x216cc2728dc58f55), SC_LIMB(0xc44edb49aed63690), SC_LIMB(0xffffffff7cca23e9), SC_LIMB(0xffffffffffffffff), SC_LIMB(0xffffffffffffffff), SC_LIMB(0x3fffffffffffffff)+}}}, sc_r2 = {{{+ SC_LIMB(0xe3539257049b9b60), SC_LIMB(0x7af32c4bc1b195d9), SC_LIMB(0x0d66de2388ea1859), SC_LIMB(0xae17cf725ee4d838), SC_LIMB(0x1a9cc14ba3c47c44), SC_LIMB(0x2052bcb7e4d070af), SC_LIMB(0x3402a939f823b729)+}}};+/* End of template stuff */++#define WBITS CRYPTONITE_DECAF_WORD_BITS /* NB this may be different from ARCH_WORD_BITS */++const scalar_t API_NS(scalar_one) = {{{1}}}, API_NS(scalar_zero) = {{{0}}};++/** {extra,accum} - sub +? p+ * Must have extra <= 1+ */+static CRYPTONITE_DECAF_NOINLINE void sc_subx(+ scalar_t out,+ const cryptonite_decaf_word_t accum[SCALAR_LIMBS],+ const scalar_t sub,+ const scalar_t p,+ cryptonite_decaf_word_t extra+) {+ cryptonite_decaf_dsword_t chain = 0;+ unsigned int i;+ for (i=0; i<SCALAR_LIMBS; i++) {+ chain = (chain + accum[i]) - sub->limb[i];+ out->limb[i] = chain;+ chain >>= WBITS;+ }+ cryptonite_decaf_word_t borrow = chain+extra; /* = 0 or -1 */+ + chain = 0;+ for (i=0; i<SCALAR_LIMBS; i++) {+ chain = (chain + out->limb[i]) + (p->limb[i] & borrow);+ out->limb[i] = chain;+ chain >>= WBITS;+ }+}++static CRYPTONITE_DECAF_NOINLINE void sc_montmul (+ scalar_t out,+ const scalar_t a,+ const scalar_t b+) {+ unsigned int i,j;+ cryptonite_decaf_word_t accum[SCALAR_LIMBS+1] = {0};+ cryptonite_decaf_word_t hi_carry = 0;+ + for (i=0; i<SCALAR_LIMBS; i++) {+ cryptonite_decaf_word_t mand = a->limb[i];+ const cryptonite_decaf_word_t *mier = b->limb;+ + cryptonite_decaf_dword_t chain = 0;+ for (j=0; j<SCALAR_LIMBS; j++) {+ chain += ((cryptonite_decaf_dword_t)mand)*mier[j] + accum[j];+ accum[j] = chain;+ chain >>= WBITS;+ }+ accum[j] = chain;+ + mand = accum[0] * MONTGOMERY_FACTOR;+ chain = 0;+ mier = sc_p->limb;+ for (j=0; j<SCALAR_LIMBS; j++) {+ chain += (cryptonite_decaf_dword_t)mand*mier[j] + accum[j];+ if (j) accum[j-1] = chain;+ chain >>= WBITS;+ }+ chain += accum[j];+ chain += hi_carry;+ accum[j-1] = chain;+ hi_carry = chain >> WBITS;+ }+ + sc_subx(out, accum, sc_p, sc_p, hi_carry);+}++void API_NS(scalar_mul) (+ scalar_t out,+ const scalar_t a,+ const scalar_t b+) {+ sc_montmul(out,a,b);+ sc_montmul(out,out,sc_r2);+}++/* PERF: could implement this */+static CRYPTONITE_DECAF_INLINE void sc_montsqr (scalar_t out, const scalar_t a) {+ sc_montmul(out,a,a);+}++cryptonite_decaf_error_t API_NS(scalar_invert) (+ scalar_t out,+ const scalar_t a+) {+ /* Fermat's little theorem, sliding window.+ * Sliding window is fine here because the modulus isn't secret.+ */+ const int SCALAR_WINDOW_BITS = 3;+ scalar_t precmp[1<<SCALAR_WINDOW_BITS];+ const int LAST = (1<<SCALAR_WINDOW_BITS)-1;++ /* Precompute precmp = [a^1,a^3,...] */+ sc_montmul(precmp[0],a,sc_r2);+ if (LAST > 0) sc_montmul(precmp[LAST],precmp[0],precmp[0]);++ int i;+ for (i=1; i<=LAST; i++) {+ sc_montmul(precmp[i],precmp[i-1],precmp[LAST]);+ }+ + /* Sliding window */+ unsigned residue = 0, trailing = 0, started = 0;+ for (i=SCALAR_BITS-1; i>=-SCALAR_WINDOW_BITS; i--) {+ + if (started) sc_montsqr(out,out);+ + cryptonite_decaf_word_t w = (i>=0) ? sc_p->limb[i/WBITS] : 0;+ if (i >= 0 && i<WBITS) {+ assert(w >= 2);+ w-=2;+ }+ + residue = (residue<<1) | ((w>>(i%WBITS))&1);+ if (residue>>SCALAR_WINDOW_BITS != 0) {+ assert(trailing == 0);+ trailing = residue;+ residue = 0;+ }+ + if (trailing > 0 && (trailing & ((1<<SCALAR_WINDOW_BITS)-1)) == 0) {+ if (started) {+ sc_montmul(out,out,precmp[trailing>>(SCALAR_WINDOW_BITS+1)]);+ } else {+ API_NS(scalar_copy)(out,precmp[trailing>>(SCALAR_WINDOW_BITS+1)]);+ started = 1;+ }+ trailing = 0;+ }+ trailing <<= 1;+ + }+ assert(residue==0);+ assert(trailing==0);+ + /* Demontgomerize */+ sc_montmul(out,out,API_NS(scalar_one));+ cryptonite_decaf_bzero(precmp, sizeof(precmp));+ return cryptonite_decaf_succeed_if(~API_NS(scalar_eq)(out,API_NS(scalar_zero)));+}++void API_NS(scalar_sub) (+ scalar_t out,+ const scalar_t a,+ const scalar_t b+) {+ sc_subx(out, a->limb, b, sc_p, 0);+}++void API_NS(scalar_add) (+ scalar_t out,+ const scalar_t a,+ const scalar_t b+) {+ cryptonite_decaf_dword_t chain = 0;+ unsigned int i;+ for (i=0; i<SCALAR_LIMBS; i++) {+ chain = (chain + a->limb[i]) + b->limb[i];+ out->limb[i] = chain;+ chain >>= WBITS;+ }+ sc_subx(out, out->limb, sc_p, sc_p, chain);+}++void+API_NS(scalar_set_unsigned) (+ scalar_t out,+ uint64_t w+) {+ memset(out,0,sizeof(scalar_t));+ unsigned int i = 0;+ for (; i<sizeof(uint64_t)/sizeof(cryptonite_decaf_word_t); i++) {+ out->limb[i] = w;+#if CRYPTONITE_DECAF_WORD_BITS < 64+ w >>= 8*sizeof(cryptonite_decaf_word_t);+#endif+ }+}++cryptonite_decaf_bool_t+API_NS(scalar_eq) (+ const scalar_t a,+ const scalar_t b+) {+ cryptonite_decaf_word_t diff = 0;+ unsigned int i;+ for (i=0; i<SCALAR_LIMBS; i++) {+ diff |= a->limb[i] ^ b->limb[i];+ }+ return mask_to_bool(word_is_zero(diff));+}++static CRYPTONITE_DECAF_INLINE void scalar_decode_short (+ scalar_t s,+ const unsigned char *ser,+ unsigned int nbytes+) {+ unsigned int i,j,k=0;+ for (i=0; i<SCALAR_LIMBS; i++) {+ cryptonite_decaf_word_t out = 0;+ for (j=0; j<sizeof(cryptonite_decaf_word_t) && k<nbytes; j++,k++) {+ out |= ((cryptonite_decaf_word_t)ser[k])<<(8*j);+ }+ s->limb[i] = out;+ }+}++cryptonite_decaf_error_t API_NS(scalar_decode)(+ scalar_t s,+ const unsigned char ser[SCALAR_SER_BYTES]+) {+ unsigned int i;+ scalar_decode_short(s, ser, SCALAR_SER_BYTES);+ cryptonite_decaf_dsword_t accum = 0;+ for (i=0; i<SCALAR_LIMBS; i++) {+ accum = (accum + s->limb[i] - sc_p->limb[i]) >> WBITS;+ }+ /* Here accum == 0 or -1 */+ + API_NS(scalar_mul)(s,s,API_NS(scalar_one)); /* ham-handed reduce */+ + return cryptonite_decaf_succeed_if(~word_is_zero(accum));+}++void API_NS(scalar_destroy) (+ scalar_t scalar+) {+ cryptonite_decaf_bzero(scalar, sizeof(scalar_t));+}++void API_NS(scalar_decode_long)(+ scalar_t s,+ const unsigned char *ser,+ size_t ser_len+) {+ if (ser_len == 0) {+ API_NS(scalar_copy)(s, API_NS(scalar_zero));+ return;+ }+ + size_t i;+ scalar_t t1, t2;++ i = ser_len - (ser_len%SCALAR_SER_BYTES);+ if (i==ser_len) i -= SCALAR_SER_BYTES;+ + scalar_decode_short(t1, &ser[i], ser_len-i);++ if (ser_len == sizeof(scalar_t)) {+ assert(i==0);+ /* ham-handed reduce */+ API_NS(scalar_mul)(s,t1,API_NS(scalar_one));+ API_NS(scalar_destroy)(t1);+ return;+ }++ while (i) {+ i -= SCALAR_SER_BYTES;+ sc_montmul(t1,t1,sc_r2);+ ignore_result( API_NS(scalar_decode)(t2, ser+i) );+ API_NS(scalar_add)(t1, t1, t2);+ }++ API_NS(scalar_copy)(s, t1);+ API_NS(scalar_destroy)(t1);+ API_NS(scalar_destroy)(t2);+}++void API_NS(scalar_encode)(+ unsigned char ser[SCALAR_SER_BYTES],+ const scalar_t s+) {+ unsigned int i,j,k=0;+ for (i=0; i<SCALAR_LIMBS; i++) {+ for (j=0; j<sizeof(cryptonite_decaf_word_t); j++,k++) {+ ser[k] = s->limb[i] >> (8*j);+ }+ }+}++void API_NS(scalar_cond_sel) (+ scalar_t out,+ const scalar_t a,+ const scalar_t b,+ cryptonite_decaf_bool_t pick_b+) {+ constant_time_select(out,a,b,sizeof(scalar_t),bool_to_mask(pick_b),sizeof(out->limb[0]));+}++void API_NS(scalar_halve) (+ scalar_t out,+ const scalar_t a+) {+ cryptonite_decaf_word_t mask = -(a->limb[0] & 1);+ cryptonite_decaf_dword_t chain = 0;+ unsigned int i;+ for (i=0; i<SCALAR_LIMBS; i++) {+ chain = (chain + a->limb[i]) + (sc_p->limb[i] & mask);+ out->limb[i] = chain;+ chain >>= CRYPTONITE_DECAF_WORD_BITS;+ }+ for (i=0; i<SCALAR_LIMBS-1; i++) {+ out->limb[i] = out->limb[i]>>1 | out->limb[i+1]<<(WBITS-1);+ }+ out->limb[i] = out->limb[i]>>1 | chain<<(WBITS-1);+}+
+ cbits/decaf/include/arch_32/arch_intrinsics.h view
@@ -0,0 +1,22 @@+/* Copyright (c) 2016 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#ifndef __ARCH_ARCH_32_ARCH_INTRINSICS_H__+#define __ARCH_ARCH_32_ARCH_INTRINSICS_H__++#define ARCH_WORD_BITS 32++static __inline__ __attribute((always_inline,unused))+uint32_t word_is_zero(uint32_t a) {+ /* let's hope the compiler isn't clever enough to optimize this. */+ return (((uint64_t)a)-1)>>32;+}++static __inline__ __attribute((always_inline,unused))+uint64_t widemul(uint32_t a, uint32_t b) {+ return ((uint64_t)a) * b;+}++#endif /* __ARCH_ARM_32_ARCH_INTRINSICS_H__ */+
+ cbits/decaf/include/arch_ref64/arch_intrinsics.h view
@@ -0,0 +1,22 @@+/* Copyright (c) 2016 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#ifndef __ARCH_REF64_ARCH_INTRINSICS_H__+#define __ARCH_REF64_ARCH_INTRINSICS_H__++#define ARCH_WORD_BITS 64++static __inline__ __attribute((always_inline,unused))+uint64_t word_is_zero(uint64_t a) {+ /* let's hope the compiler isn't clever enough to optimize this. */+ return (((__uint128_t)a)-1)>>64;+}++static __inline__ __attribute((always_inline,unused))+__uint128_t widemul(uint64_t a, uint64_t b) {+ return ((__uint128_t)a) * b; +}++#endif /* ARCH_REF64_ARCH_INTRINSICS_H__ */+
+ cbits/decaf/include/constant_time.h view
@@ -0,0 +1,362 @@+/**+ * @file constant_time.h+ * @copyright+ * Copyright (c) 2014 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ * @author Mike Hamburg+ *+ * @brief Constant-time routines.+ */++#ifndef __CONSTANT_TIME_H__+#define __CONSTANT_TIME_H__ 1++#include "word.h"+#include <string.h>++/*+ * Constant-time operations on hopefully-compile-time-sized memory+ * regions. Needed for flexibility / demagication: not all fields+ * have sizes which are multiples of the vector width, necessitating+ * a change from the Ed448 versions.+ *+ * These routines would be much simpler to define at the byte level,+ * but if not vectorized they would be a significant fraction of the+ * runtime. Eg on NEON-less ARM, constant_time_lookup is like 15% of+ * signing time, vs 6% on Haswell with its fancy AVX2 vectors.+ *+ * If the compiler could do a good job of autovectorizing the code,+ * we could just leave it with the byte definition. But that's unlikely+ * on most deployed compilers, especially if you consider that pcmpeq[size]+ * is much faster than moving a scalar to the vector unit (which is what+ * a naive autovectorizer will do with constant_time_lookup on Intel).+ *+ * Instead, we're putting our trust in the loop unroller and unswitcher.+ */+++/**+ * Unaligned big (vector?) register.+ */+typedef struct {+ big_register_t unaligned;+} __attribute__((packed)) unaligned_br_t;++/**+ * Unaligned word register, for architectures where that matters.+ */+typedef struct {+ word_t unaligned;+} __attribute__((packed)) unaligned_word_t;++/**+ * @brief Constant-time conditional swap.+ *+ * If doswap, then swap elem_bytes between *a and *b.+ *+ * *a and *b must not alias. Also, they must be at least as aligned+ * as their sizes, if the CPU cares about that sort of thing.+ */+static __inline__ void+__attribute__((unused,always_inline))+constant_time_cond_swap (+ void *__restrict__ a_,+ void *__restrict__ b_,+ word_t elem_bytes,+ mask_t doswap+) {+ word_t k;+ unsigned char *a = (unsigned char *)a_;+ unsigned char *b = (unsigned char *)b_;+ + big_register_t br_mask = br_set_to_mask(doswap);+ for (k=0; k<=elem_bytes-sizeof(big_register_t); k+=sizeof(big_register_t)) {+ if (elem_bytes % sizeof(big_register_t)) {+ /* unaligned */+ big_register_t xor =+ ((unaligned_br_t*)(&a[k]))->unaligned+ ^ ((unaligned_br_t*)(&b[k]))->unaligned;+ xor &= br_mask;+ ((unaligned_br_t*)(&a[k]))->unaligned ^= xor;+ ((unaligned_br_t*)(&b[k]))->unaligned ^= xor;+ } else {+ /* aligned */+ big_register_t xor =+ *((big_register_t*)(&a[k]))+ ^ *((big_register_t*)(&b[k]));+ xor &= br_mask;+ *((big_register_t*)(&a[k])) ^= xor;+ *((big_register_t*)(&b[k])) ^= xor;+ }+ }++ if (elem_bytes % sizeof(big_register_t) >= sizeof(word_t)) {+ for (; k<=elem_bytes-sizeof(word_t); k+=sizeof(word_t)) {+ if (elem_bytes % sizeof(word_t)) {+ /* unaligned */+ word_t xor =+ ((unaligned_word_t*)(&a[k]))->unaligned+ ^ ((unaligned_word_t*)(&b[k]))->unaligned;+ xor &= doswap;+ ((unaligned_word_t*)(&a[k]))->unaligned ^= xor;+ ((unaligned_word_t*)(&b[k]))->unaligned ^= xor;+ } else {+ /* aligned */+ word_t xor =+ *((word_t*)(&a[k]))+ ^ *((word_t*)(&b[k]));+ xor &= doswap;+ *((word_t*)(&a[k])) ^= xor;+ *((word_t*)(&b[k])) ^= xor;+ }+ }+ }+ + if (elem_bytes % sizeof(word_t)) {+ for (; k<elem_bytes; k+=1) {+ unsigned char xor = a[k] ^ b[k];+ xor &= doswap;+ a[k] ^= xor;+ b[k] ^= xor;+ }+ }+}++/**+ * @brief Constant-time equivalent of memcpy(out, table + elem_bytes*idx, elem_bytes);+ *+ * The table must be at least as aligned as elem_bytes. The output must be word aligned,+ * and if the input size is vector aligned it must also be vector aligned.+ *+ * The table and output must not alias.+ */+static __inline__ void+__attribute__((unused,always_inline))+constant_time_lookup (+ void *__restrict__ out_,+ const void *table_,+ word_t elem_bytes,+ word_t n_table,+ word_t idx+) {+ big_register_t big_one = br_set_to_mask(1), big_i = br_set_to_mask(idx);+ + /* Can't do pointer arithmetic on void* */+ unsigned char *out = (unsigned char *)out_;+ const unsigned char *table = (const unsigned char *)table_;+ word_t j,k;+ + memset(out, 0, elem_bytes);+ for (j=0; j<n_table; j++, big_i-=big_one) { + big_register_t br_mask = br_is_zero(big_i);+ for (k=0; k<=elem_bytes-sizeof(big_register_t); k+=sizeof(big_register_t)) {+ if (elem_bytes % sizeof(big_register_t)) {+ /* unaligned */+ ((unaligned_br_t *)(out+k))->unaligned+ |= br_mask & ((const unaligned_br_t*)(&table[k+j*elem_bytes]))->unaligned;+ } else {+ /* aligned */+ *(big_register_t *)(out+k) |= br_mask & *(const big_register_t*)(&table[k+j*elem_bytes]);+ }+ }++ word_t mask = word_is_zero(idx^j);+ if (elem_bytes % sizeof(big_register_t) >= sizeof(word_t)) {+ for (; k<=elem_bytes-sizeof(word_t); k+=sizeof(word_t)) {+ if (elem_bytes % sizeof(word_t)) {+ /* input unaligned, output aligned */+ *(word_t *)(out+k) |= mask & ((const unaligned_word_t*)(&table[k+j*elem_bytes]))->unaligned;+ } else {+ /* aligned */+ *(word_t *)(out+k) |= mask & *(const word_t*)(&table[k+j*elem_bytes]);+ }+ }+ }+ + if (elem_bytes % sizeof(word_t)) {+ for (; k<elem_bytes; k+=1) {+ out[k] |= mask & table[k+j*elem_bytes];+ }+ }+ }+}++/**+ * @brief Constant-time equivalent of memcpy(table + elem_bytes*idx, in, elem_bytes);+ *+ * The table must be at least as aligned as elem_bytes. The input must be word aligned,+ * and if the output size is vector aligned it must also be vector aligned.+ *+ * The table and input must not alias.+ */+static __inline__ void+__attribute__((unused,always_inline))+constant_time_insert (+ void *__restrict__ table_,+ const void *in_,+ word_t elem_bytes,+ word_t n_table,+ word_t idx+) {+ big_register_t big_one = br_set_to_mask(1), big_i = br_set_to_mask(idx);+ + /* Can't do pointer arithmetic on void* */+ const unsigned char *in = (const unsigned char *)in_;+ unsigned char *table = (unsigned char *)table_;+ word_t j,k;+ + for (j=0; j<n_table; j++, big_i-=big_one) { + big_register_t br_mask = br_is_zero(big_i);+ for (k=0; k<=elem_bytes-sizeof(big_register_t); k+=sizeof(big_register_t)) {+ if (elem_bytes % sizeof(big_register_t)) {+ /* unaligned */+ ((unaligned_br_t*)(&table[k+j*elem_bytes]))->unaligned+ = ( ((unaligned_br_t*)(&table[k+j*elem_bytes]))->unaligned & ~br_mask )+ | ( ((const unaligned_br_t *)(in+k))->unaligned & br_mask );+ } else {+ /* aligned */+ *(big_register_t*)(&table[k+j*elem_bytes])+ = ( *(big_register_t*)(&table[k+j*elem_bytes]) & ~br_mask )+ | ( *(const big_register_t *)(in+k) & br_mask );+ }+ }++ word_t mask = word_is_zero(idx^j);+ if (elem_bytes % sizeof(big_register_t) >= sizeof(word_t)) {+ for (; k<=elem_bytes-sizeof(word_t); k+=sizeof(word_t)) {+ if (elem_bytes % sizeof(word_t)) {+ /* output unaligned, input aligned */+ ((unaligned_word_t*)(&table[k+j*elem_bytes]))->unaligned+ = ( ((unaligned_word_t*)(&table[k+j*elem_bytes]))->unaligned & ~mask )+ | ( *(const word_t *)(in+k) & mask );+ } else {+ /* aligned */+ *(word_t*)(&table[k+j*elem_bytes])+ = ( *(word_t*)(&table[k+j*elem_bytes]) & ~mask )+ | ( *(const word_t *)(in+k) & mask );+ }+ }+ }+ + if (elem_bytes % sizeof(word_t)) {+ for (; k<elem_bytes; k+=1) {+ table[k+j*elem_bytes]+ = ( table[k+j*elem_bytes] & ~mask )+ | ( in[k] & mask );+ }+ }+ }+}++/**+ * @brief Constant-time a = b&mask.+ *+ * The input and output must be at least as aligned as elem_bytes.+ */+static __inline__ void+__attribute__((unused,always_inline))+constant_time_mask (+ void * a_,+ const void *b_,+ word_t elem_bytes,+ mask_t mask+) {+ unsigned char *a = (unsigned char *)a_;+ const unsigned char *b = (const unsigned char *)b_;+ + word_t k;+ big_register_t br_mask = br_set_to_mask(mask);+ for (k=0; k<=elem_bytes-sizeof(big_register_t); k+=sizeof(big_register_t)) {+ if (elem_bytes % sizeof(big_register_t)) {+ /* unaligned */+ ((unaligned_br_t*)(&a[k]))->unaligned = br_mask & ((const unaligned_br_t*)(&b[k]))->unaligned;+ } else {+ /* aligned */+ *(big_register_t *)(a+k) = br_mask & *(const big_register_t*)(&b[k]);+ }+ }++ if (elem_bytes % sizeof(big_register_t) >= sizeof(word_t)) {+ for (; k<=elem_bytes-sizeof(word_t); k+=sizeof(word_t)) {+ if (elem_bytes % sizeof(word_t)) {+ /* unaligned */+ ((unaligned_word_t*)(&a[k]))->unaligned = mask & ((const unaligned_word_t*)(&b[k]))->unaligned;+ } else {+ /* aligned */+ *(word_t *)(a+k) = mask & *(const word_t*)(&b[k]);+ }+ }+ }+ + if (elem_bytes % sizeof(word_t)) {+ for (; k<elem_bytes; k+=1) {+ a[k] = mask & b[k];+ }+ }+}++/**+ * @brief Constant-time a = mask ? bTrue : bFalse.+ *+ * The input and output must be at least as aligned as alignment_bytes+ * or their size, whichever is smaller.+ *+ * Note that the output is not __restrict__, but if it overlaps either+ * input, it must be equal and not partially overlap.+ */+static __inline__ void+__attribute__((unused,always_inline))+constant_time_select (+ void *a_,+ const void *bFalse_,+ const void *bTrue_,+ word_t elem_bytes,+ mask_t mask,+ size_t alignment_bytes+) {+ unsigned char *a = (unsigned char *)a_;+ const unsigned char *bTrue = (const unsigned char *)bTrue_;+ const unsigned char *bFalse = (const unsigned char *)bFalse_;+ + alignment_bytes |= elem_bytes;++ word_t k;+ big_register_t br_mask = br_set_to_mask(mask);+ for (k=0; k<=elem_bytes-sizeof(big_register_t); k+=sizeof(big_register_t)) {+ if (alignment_bytes % sizeof(big_register_t)) {+ /* unaligned */+ ((unaligned_br_t*)(&a[k]))->unaligned =+ ( br_mask & ((const unaligned_br_t*)(&bTrue [k]))->unaligned)+ | (~br_mask & ((const unaligned_br_t*)(&bFalse[k]))->unaligned);+ } else {+ /* aligned */+ *(big_register_t *)(a+k) =+ ( br_mask & *(const big_register_t*)(&bTrue [k]))+ | (~br_mask & *(const big_register_t*)(&bFalse[k]));+ }+ }++ if (elem_bytes % sizeof(big_register_t) >= sizeof(word_t)) {+ for (; k<=elem_bytes-sizeof(word_t); k+=sizeof(word_t)) {+ if (alignment_bytes % sizeof(word_t)) {+ /* unaligned */+ ((unaligned_word_t*)(&a[k]))->unaligned =+ ( mask & ((const unaligned_word_t*)(&bTrue [k]))->unaligned)+ | (~mask & ((const unaligned_word_t*)(&bFalse[k]))->unaligned);+ } else {+ /* aligned */+ *(word_t *)(a+k) =+ ( mask & *(const word_t*)(&bTrue [k]))+ | (~mask & *(const word_t*)(&bFalse[k]));+ }+ }+ }+ + if (elem_bytes % sizeof(word_t)) {+ for (; k<elem_bytes; k+=1) {+ a[k] = ( mask & bTrue[k]) | (~mask & bFalse[k]);+ }+ }+}++#endif /* __CONSTANT_TIME_H__ */
+ cbits/decaf/include/decaf.h view
@@ -0,0 +1,32 @@+/**+ * @file decaf.h+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * Master header for Decaf library.+ *+ * The Decaf library implements cryptographic operations on a elliptic curve+ * groups of prime order p. It accomplishes this by using a twisted Edwards+ * curve (isogenous to Ed448-Goldilocks or Ed25519) and wiping out the cofactor.+ *+ * The formulas are all complete and have no special cases. However, some+ * functions can fail. For example, decoding functions can fail because not+ * every string is the encoding of a valid group element.+ *+ * The formulas contain no data-dependent branches, timing or memory accesses,+ * except for cryptonite_decaf_XXX_base_double_scalarmul_non_secret.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */++#ifndef __CRYPTONITE_DECAF_H__+#define __CRYPTONITE_DECAF_H__ 1++#include <decaf/point_255.h>+#include <decaf/point_448.h>++#endif /* __CRYPTONITE_DECAF_H__ */
+ cbits/decaf/include/decaf/common.h view
@@ -0,0 +1,116 @@+/**+ * @file decaf/common.h+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief Common utility headers for Decaf library.+ */++#ifndef __CRYPTONITE_DECAF_COMMON_H__+#define __CRYPTONITE_DECAF_COMMON_H__ 1++#include <stdint.h>+#include <sys/types.h>++#ifdef __cplusplus+extern "C" {+#endif++/* Goldilocks' build flags default to hidden and stripping executables. */+/** @cond internal */+#if defined(DOXYGEN) && !defined(__attribute__)+#define __attribute__((x))+#endif+#define CRYPTONITE_DECAF_API_VIS __attribute__((visibility("default")))+#define CRYPTONITE_DECAF_NOINLINE __attribute__((noinline))+#define CRYPTONITE_DECAF_WARN_UNUSED __attribute__((warn_unused_result))+#define CRYPTONITE_DECAF_NONNULL __attribute__((nonnull))+#define CRYPTONITE_DECAF_INLINE inline __attribute__((always_inline,unused))+// Cribbed from libnotmuch+#if defined (__clang_major__) && __clang_major__ >= 3 \+ || defined (__GNUC__) && __GNUC__ >= 5 \+ || defined (__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ >= 5+#define CRYPTONITE_DECAF_DEPRECATED(msg) __attribute__ ((deprecated(msg)))+#else+#define CRYPTONITE_DECAF_DEPRECATED(msg) __attribute__ ((deprecated))+#endif+/** @endcond */++/* Internal word types.+ *+ * Somewhat tricky. This could be decided separately per platform. However,+ * the structs do need to be all the same size and alignment on a given+ * platform to support dynamic linking, since even if you header was built+ * with eg arch_neon, you might end up linking a library built with arch_arm32.+ */+#ifndef CRYPTONITE_DECAF_WORD_BITS+ #if (defined(__ILP64__) || defined(__amd64__) || defined(__x86_64__) || (((__UINT_FAST32_MAX__)>>30)>>30))+ #define CRYPTONITE_DECAF_WORD_BITS 64 /**< The number of bits in a word */+ #else+ #define CRYPTONITE_DECAF_WORD_BITS 32 /**< The number of bits in a word */+ #endif+#endif+ +#if CRYPTONITE_DECAF_WORD_BITS == 64+typedef uint64_t cryptonite_decaf_word_t; /**< Word size for internal computations */+typedef int64_t cryptonite_decaf_sword_t; /**< Signed word size for internal computations */+typedef uint64_t cryptonite_decaf_bool_t; /**< "Boolean" type, will be set to all-zero or all-one (i.e. -1u) */+typedef __uint128_t cryptonite_decaf_dword_t; /**< Double-word size for internal computations */+typedef __int128_t cryptonite_decaf_dsword_t; /**< Signed double-word size for internal computations */+#elif CRYPTONITE_DECAF_WORD_BITS == 32 /**< The number of bits in a word */+typedef uint32_t cryptonite_decaf_word_t; /**< Word size for internal computations */+typedef int32_t cryptonite_decaf_sword_t; /**< Signed word size for internal computations */+typedef uint32_t cryptonite_decaf_bool_t; /**< "Boolean" type, will be set to all-zero or all-one (i.e. -1u) */+typedef uint64_t cryptonite_decaf_dword_t; /**< Double-word size for internal computations */+typedef int64_t cryptonite_decaf_dsword_t; /**< Signed double-word size for internal computations */+#else+#error "Only supporting CRYPTONITE_DECAF_WORD_BITS = 32 or 64 for now"+#endif+ +/** CRYPTONITE_DECAF_TRUE = -1 so that CRYPTONITE_DECAF_TRUE & x = x */+static const cryptonite_decaf_bool_t CRYPTONITE_DECAF_TRUE = -(cryptonite_decaf_bool_t)1;++/** CRYPTONITE_DECAF_FALSE = 0 so that CRYPTONITE_DECAF_FALSE & x = 0 */+static const cryptonite_decaf_bool_t CRYPTONITE_DECAF_FALSE = 0;++/** Another boolean type used to indicate success or failure. */+typedef enum {+ CRYPTONITE_DECAF_SUCCESS = -1, /**< The operation succeeded. */+ CRYPTONITE_DECAF_FAILURE = 0 /**< The operation failed. */+} cryptonite_decaf_error_t;+++/** Return success if x is true */+static CRYPTONITE_DECAF_INLINE cryptonite_decaf_error_t+cryptonite_decaf_succeed_if(cryptonite_decaf_bool_t x) {+ return (cryptonite_decaf_error_t)x;+}++/** Return CRYPTONITE_DECAF_TRUE iff x == CRYPTONITE_DECAF_SUCCESS */+static CRYPTONITE_DECAF_INLINE cryptonite_decaf_bool_t+cryptonite_decaf_successful(cryptonite_decaf_error_t e) {+ cryptonite_decaf_dword_t w = ((cryptonite_decaf_word_t)e) ^ ((cryptonite_decaf_word_t)CRYPTONITE_DECAF_SUCCESS);+ return (w-1)>>CRYPTONITE_DECAF_WORD_BITS;+}+ +/** Overwrite data with zeros. Uses memset_s if available. */+void cryptonite_decaf_bzero (+ void *data,+ size_t size+) CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_API_VIS;++/** Compare two buffers, returning CRYPTONITE_DECAF_TRUE if they are equal. */+cryptonite_decaf_bool_t cryptonite_decaf_memeq (+ const void *data1,+ const void *data2,+ size_t size+) CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_API_VIS;+ +#ifdef __cplusplus+} /* extern "C" */+#endif+ +#endif /* __CRYPTONITE_DECAF_COMMON_H__ */
+ cbits/decaf/include/decaf/ed448.h view
@@ -0,0 +1,227 @@+/**+ * @file decaf/ed448.h+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief A group of prime order p, based on Ed448-Goldilocks.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */++#ifndef __CRYPTONITE_DECAF_ED448_H__+#define __CRYPTONITE_DECAF_ED448_H__ 1++#include <decaf/point_448.h>+#include <decaf/shake.h>+#include <decaf/sha512.h>++#ifdef __cplusplus+extern "C" {+#endif++/** Number of bytes in an EdDSA public key. */+#define CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES 57++/** Number of bytes in an EdDSA private key. */+#define CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES++/** Number of bytes in an EdDSA private key. */+#define CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES (CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES + CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES)++/** Does EdDSA support non-contextual signatures? */+#define CRYPTONITE_DECAF_EDDSA_448_SUPPORTS_CONTEXTLESS_SIGS 0++/** Prehash context renaming macros. */+#define cryptonite_decaf_ed448_prehash_ctx_s cryptonite_decaf_shake256_ctx_s+#define cryptonite_decaf_ed448_prehash_ctx_t cryptonite_decaf_shake256_ctx_t+#define cryptonite_decaf_ed448_prehash_update cryptonite_decaf_shake256_update+#define cryptonite_decaf_ed448_prehash_destroy cryptonite_decaf_shake256_destroy++/**+ * @brief EdDSA key generation. This function uses a different (non-Decaf)+ * encoding.+ *+ * @param [out] pubkey The public key.+ * @param [in] privkey The private key.+ */ +void cryptonite_decaf_ed448_derive_public_key (+ uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const uint8_t privkey[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA signing.+ *+ * @param [out] signature The signature.+ * @param [in] privkey The private key.+ * @param [in] pubkey The public key.+ * @param [in] message The message to sign.+ * @param [in] message_len The length of the message.+ * @param [in] prehashed Nonzero if the message is actually the hash of something you want to sign.+ * @param [in] context A "context" for this signature of up to 255 bytes.+ * @param [in] context_len Length of the context.+ *+ * @warning For Ed25519, it is unsafe to use the same key for both prehashed and non-prehashed+ * messages, at least without some very careful protocol-level disambiguation. For Ed448 it is+ * safe. The C++ wrapper is designed to make it harder to screw this up, but this C code gives+ * you no seat belt.+ */ +void cryptonite_decaf_ed448_sign (+ uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t privkey[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const uint8_t *message,+ size_t message_len,+ uint8_t prehashed,+ const uint8_t *context,+ uint8_t context_len+) CRYPTONITE_DECAF_API_VIS __attribute__((nonnull(1,2,3))) CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA signing with prehash.+ *+ * @param [out] signature The signature.+ * @param [in] privkey The private key.+ * @param [in] pubkey The public key.+ * @param [in] hash The hash of the message. This object will not be modified by the call.+ * @param [in] context A "context" for this signature of up to 255 bytes. Must be the same as what was used for the prehash.+ * @param [in] context_len Length of the context.+ *+ * @warning For Ed25519, it is unsafe to use the same key for both prehashed and non-prehashed+ * messages, at least without some very careful protocol-level disambiguation. For Ed448 it is+ * safe. The C++ wrapper is designed to make it harder to screw this up, but this C code gives+ * you no seat belt.+ */ +void cryptonite_decaf_ed448_sign_prehash (+ uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t privkey[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const cryptonite_decaf_ed448_prehash_ctx_t hash,+ const uint8_t *context,+ uint8_t context_len+) CRYPTONITE_DECAF_API_VIS __attribute__((nonnull(1,2,3,4))) CRYPTONITE_DECAF_NOINLINE;+ +/**+ * @brief Prehash initialization, with contexts if supported.+ *+ * @param [out] hash The hash object to be initialized.+ */+void cryptonite_decaf_ed448_prehash_init (+ cryptonite_decaf_ed448_prehash_ctx_t hash+) CRYPTONITE_DECAF_API_VIS __attribute__((nonnull(1))) CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA signature verification.+ *+ * Uses the standard (i.e. less-strict) verification formula.+ *+ * @param [in] signature The signature.+ * @param [in] pubkey The public key.+ * @param [in] message The message to verify.+ * @param [in] message_len The length of the message.+ * @param [in] prehashed Nonzero if the message is actually the hash of something you want to verify.+ * @param [in] context A "context" for this signature of up to 255 bytes.+ * @param [in] context_len Length of the context.+ *+ * @warning For Ed25519, it is unsafe to use the same key for both prehashed and non-prehashed+ * messages, at least without some very careful protocol-level disambiguation. For Ed448 it is+ * safe. The C++ wrapper is designed to make it harder to screw this up, but this C code gives+ * you no seat belt.+ */+cryptonite_decaf_error_t cryptonite_decaf_ed448_verify (+ const uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const uint8_t *message,+ size_t message_len,+ uint8_t prehashed,+ const uint8_t *context,+ uint8_t context_len+) CRYPTONITE_DECAF_API_VIS __attribute__((nonnull(1,2))) CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA signature verification.+ *+ * Uses the standard (i.e. less-strict) verification formula.+ *+ * @param [in] signature The signature.+ * @param [in] pubkey The public key.+ * @param [in] hash The hash of the message. This object will not be modified by the call.+ * @param [in] context A "context" for this signature of up to 255 bytes. Must be the same as what was used for the prehash.+ * @param [in] context_len Length of the context.+ *+ * @warning For Ed25519, it is unsafe to use the same key for both prehashed and non-prehashed+ * messages, at least without some very careful protocol-level disambiguation. For Ed448 it is+ * safe. The C++ wrapper is designed to make it harder to screw this up, but this C code gives+ * you no seat belt.+ */+cryptonite_decaf_error_t cryptonite_decaf_ed448_verify_prehash (+ const uint8_t signature[CRYPTONITE_DECAF_EDDSA_448_SIGNATURE_BYTES],+ const uint8_t pubkey[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const cryptonite_decaf_ed448_prehash_ctx_t hash,+ const uint8_t *context,+ uint8_t context_len+) CRYPTONITE_DECAF_API_VIS __attribute__((nonnull(1,2))) CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA point encoding. Used internally, exposed externally.+ * Multiplies the point by the current cofactor first.+ *+ * @param [out] enc The encoded point.+ * @param [in] p The point.+ */ +void cryptonite_decaf_448_point_mul_by_cofactor_and_encode_like_eddsa (+ uint8_t enc[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES],+ const cryptonite_decaf_448_point_t p+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA point decoding. Remember that while points on the+ * EdDSA curves have cofactor information, Decaf ignores (quotients+ * out) all cofactor information.+ *+ * @param [out] enc The encoded point.+ * @param [in] p The point.+ */ +cryptonite_decaf_error_t cryptonite_decaf_448_point_decode_like_eddsa_and_ignore_cofactor (+ cryptonite_decaf_448_point_t p,+ const uint8_t enc[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA to ECDH public key conversion+ * Deserialize the point to get y on Edwards curve,+ * Convert it to u coordinate on Montgomery curve.+ *+ * @warning This function does not check that the public key being converted+ * is a valid EdDSA public key (FUTURE?)+ *+ * @param[out] x The ECDH public key as in RFC7748(point on Montgomery curve)+ * @param[in] ed The EdDSA public key(point on Edwards curve)+ */+void cryptonite_decaf_ed448_convert_public_key_to_x448 (+ uint8_t x[CRYPTONITE_DECAF_X448_PUBLIC_BYTES],+ const uint8_t ed[CRYPTONITE_DECAF_EDDSA_448_PUBLIC_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief EdDSA to ECDH private key conversion+ * Using the appropriate hash function, hash the EdDSA private key+ * and keep only the lower bytes to get the ECDH private key+ *+ * @param[out] x The ECDH private key as in RFC7748+ * @param[in] ed The EdDSA private key+ */+void cryptonite_decaf_ed448_convert_private_key_to_x448 (+ uint8_t x[CRYPTONITE_DECAF_X448_PRIVATE_BYTES],+ const uint8_t ed[CRYPTONITE_DECAF_EDDSA_448_PRIVATE_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++#ifdef __cplusplus+} /* extern "C" */+#endif++#endif /* __CRYPTONITE_DECAF_ED448_H__ */
+ cbits/decaf/include/decaf/point_255.h view
@@ -0,0 +1,1 @@+/* Not needed if 448-only */
+ cbits/decaf/include/decaf/point_448.h view
@@ -0,0 +1,724 @@+/**+ * @file decaf/point_448.h+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief A group of prime order p, based on Ed448-Goldilocks.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */++#ifndef __CRYPTONITE_DECAF_POINT_448_H__+#define __CRYPTONITE_DECAF_POINT_448_H__ 1++#include <decaf/common.h>++#ifdef __cplusplus+extern "C" {+#endif++/** @cond internal */+#define CRYPTONITE_DECAF_448_SCALAR_LIMBS ((446-1)/CRYPTONITE_DECAF_WORD_BITS+1)+/** @endcond */++/** The number of bits in a scalar */+#define CRYPTONITE_DECAF_448_SCALAR_BITS 446++/** @cond internal */+#ifndef __CRYPTONITE_DECAF_448_GF_DEFINED__+#define __CRYPTONITE_DECAF_448_GF_DEFINED__ 1+/** @brief Galois field element internal structure */+typedef struct cryptonite_gf_448_s {+ cryptonite_decaf_word_t limb[512/CRYPTONITE_DECAF_WORD_BITS];+} __attribute__((aligned(16))) cryptonite_gf_448_s, cryptonite_gf_448_t[1];+#endif /* __CRYPTONITE_DECAF_448_GF_DEFINED__ */+/** @endcond */++/** Number of bytes in a serialized point. */+#define CRYPTONITE_DECAF_448_SER_BYTES 56++/** Number of bytes in an elligated point. For now set the same as SER_BYTES+ * but could be different for other curves.+ */+#define CRYPTONITE_DECAF_448_HASH_BYTES 56++/** Number of bytes in a serialized scalar. */+#define CRYPTONITE_DECAF_448_SCALAR_BYTES 56++/** Number of bits in the "which" field of an elligator inverse */+#define CRYPTONITE_DECAF_448_INVERT_ELLIGATOR_WHICH_BITS 3++/** Number of bytes in an x448 public key */+#define CRYPTONITE_DECAF_X448_PUBLIC_BYTES 56++/** Number of bytes in an x448 private key */+#define CRYPTONITE_DECAF_X448_PRIVATE_BYTES 56++/** Twisted Edwards extended homogeneous coordinates */+typedef struct cryptonite_decaf_448_point_s {+ /** @cond internal */+ cryptonite_gf_448_t x,y,z,t;+ /** @endcond */+} cryptonite_decaf_448_point_t[1];++/** Precomputed table based on a point. Can be trivial implementation. */+struct cryptonite_decaf_448_precomputed_s;++/** Precomputed table based on a point. Can be trivial implementation. */+typedef struct cryptonite_decaf_448_precomputed_s cryptonite_decaf_448_precomputed_s; ++/** Size and alignment of precomputed point tables. */+extern const size_t cryptonite_decaf_448_sizeof_precomputed_s CRYPTONITE_DECAF_API_VIS, cryptonite_decaf_448_alignof_precomputed_s CRYPTONITE_DECAF_API_VIS;++/** Scalar is stored packed, because we don't need the speed. */+typedef struct cryptonite_decaf_448_scalar_s {+ /** @cond internal */+ cryptonite_decaf_word_t limb[CRYPTONITE_DECAF_448_SCALAR_LIMBS];+ /** @endcond */+} cryptonite_decaf_448_scalar_t[1];++/** A scalar equal to 1. */+extern const cryptonite_decaf_448_scalar_t cryptonite_decaf_448_scalar_one CRYPTONITE_DECAF_API_VIS;++/** A scalar equal to 0. */+extern const cryptonite_decaf_448_scalar_t cryptonite_decaf_448_scalar_zero CRYPTONITE_DECAF_API_VIS;++/** The identity point on the curve. */+extern const cryptonite_decaf_448_point_t cryptonite_decaf_448_point_identity CRYPTONITE_DECAF_API_VIS;++/** An arbitrarily chosen base point on the curve. */+extern const cryptonite_decaf_448_point_t cryptonite_decaf_448_point_base CRYPTONITE_DECAF_API_VIS;++/** Precomputed table for the base point on the curve. */+extern const struct cryptonite_decaf_448_precomputed_s *cryptonite_decaf_448_precomputed_base CRYPTONITE_DECAF_API_VIS;++/**+ * @brief Read a scalar from wire format or from bytes.+ *+ * @param [in] ser Serialized form of a scalar.+ * @param [out] out Deserialized form.+ *+ * @retval CRYPTONITE_DECAF_SUCCESS The scalar was correctly encoded.+ * @retval CRYPTONITE_DECAF_FAILURE The scalar was greater than the modulus,+ * and has been reduced modulo that modulus.+ */+cryptonite_decaf_error_t cryptonite_decaf_448_scalar_decode (+ cryptonite_decaf_448_scalar_t out,+ const unsigned char ser[CRYPTONITE_DECAF_448_SCALAR_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Read a scalar from wire format or from bytes. Reduces mod+ * scalar prime.+ *+ * @param [in] ser Serialized form of a scalar.+ * @param [in] ser_len Length of serialized form.+ * @param [out] out Deserialized form.+ */+void cryptonite_decaf_448_scalar_decode_long (+ cryptonite_decaf_448_scalar_t out,+ const unsigned char *ser,+ size_t ser_len+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;+ +/**+ * @brief Serialize a scalar to wire format.+ *+ * @param [out] ser Serialized form of a scalar.+ * @param [in] s Deserialized scalar.+ */+void cryptonite_decaf_448_scalar_encode (+ unsigned char ser[CRYPTONITE_DECAF_448_SCALAR_BYTES],+ const cryptonite_decaf_448_scalar_t s+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE CRYPTONITE_DECAF_NOINLINE;+ +/**+ * @brief Add two scalars. The scalars may use the same memory.+ * @param [in] a One scalar.+ * @param [in] b Another scalar.+ * @param [out] out a+b.+ */+void cryptonite_decaf_448_scalar_add (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a,+ const cryptonite_decaf_448_scalar_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Compare two scalars.+ * @param [in] a One scalar.+ * @param [in] b Another scalar.+ * @retval CRYPTONITE_DECAF_TRUE The scalars are equal.+ * @retval CRYPTONITE_DECAF_FALSE The scalars are not equal.+ */ +cryptonite_decaf_bool_t cryptonite_decaf_448_scalar_eq (+ const cryptonite_decaf_448_scalar_t a,+ const cryptonite_decaf_448_scalar_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Subtract two scalars. The scalars may use the same memory.+ * @param [in] a One scalar.+ * @param [in] b Another scalar.+ * @param [out] out a-b.+ */ +void cryptonite_decaf_448_scalar_sub (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a,+ const cryptonite_decaf_448_scalar_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Multiply two scalars. The scalars may use the same memory.+ * @param [in] a One scalar.+ * @param [in] b Another scalar.+ * @param [out] out a*b.+ */ +void cryptonite_decaf_448_scalar_mul (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a,+ const cryptonite_decaf_448_scalar_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;+ +/**+* @brief Halve a scalar. The scalars may use the same memory.+* @param [in] a A scalar.+* @param [out] out a/2.+*/+void cryptonite_decaf_448_scalar_halve (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Invert a scalar. When passed zero, return 0. The input and output may alias.+ * @param [in] a A scalar.+ * @param [out] out 1/a.+ * @return CRYPTONITE_DECAF_SUCCESS The input is nonzero.+ */ +cryptonite_decaf_error_t cryptonite_decaf_448_scalar_invert (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Copy a scalar. The scalars may use the same memory, in which+ * case this function does nothing.+ * @param [in] a A scalar.+ * @param [out] out Will become a copy of a.+ */+static inline void CRYPTONITE_DECAF_NONNULL cryptonite_decaf_448_scalar_copy (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a+) {+ *out = *a;+}++/**+ * @brief Set a scalar to an unsigned 64-bit integer.+ * @param [in] a An integer.+ * @param [out] out Will become equal to a.+ */ +void cryptonite_decaf_448_scalar_set_unsigned (+ cryptonite_decaf_448_scalar_t out,+ uint64_t a+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL;++/**+ * @brief Encode a point as a sequence of bytes.+ *+ * @param [out] ser The byte representation of the point.+ * @param [in] pt The point to encode.+ */+void cryptonite_decaf_448_point_encode (+ uint8_t ser[CRYPTONITE_DECAF_448_SER_BYTES],+ const cryptonite_decaf_448_point_t pt+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Decode a point from a sequence of bytes.+ *+ * Every point has a unique encoding, so not every+ * sequence of bytes is a valid encoding. If an invalid+ * encoding is given, the output is undefined.+ *+ * @param [out] pt The decoded point.+ * @param [in] ser The serialized version of the point.+ * @param [in] allow_identity CRYPTONITE_DECAF_TRUE if the identity is a legal input.+ * @retval CRYPTONITE_DECAF_SUCCESS The decoding succeeded.+ * @retval CRYPTONITE_DECAF_FAILURE The decoding didn't succeed, because+ * ser does not represent a point.+ */+cryptonite_decaf_error_t cryptonite_decaf_448_point_decode (+ cryptonite_decaf_448_point_t pt,+ const uint8_t ser[CRYPTONITE_DECAF_448_SER_BYTES],+ cryptonite_decaf_bool_t allow_identity+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Copy a point. The input and output may alias,+ * in which case this function does nothing.+ *+ * @param [out] a A copy of the point.+ * @param [in] b Any point.+ */+static inline void CRYPTONITE_DECAF_NONNULL cryptonite_decaf_448_point_copy (+ cryptonite_decaf_448_point_t a,+ const cryptonite_decaf_448_point_t b+) {+ *a=*b;+}++/**+ * @brief Test whether two points are equal. If yes, return+ * CRYPTONITE_DECAF_TRUE, else return CRYPTONITE_DECAF_FALSE.+ *+ * @param [in] a A point.+ * @param [in] b Another point.+ * @retval CRYPTONITE_DECAF_TRUE The points are equal.+ * @retval CRYPTONITE_DECAF_FALSE The points are not equal.+ */+cryptonite_decaf_bool_t cryptonite_decaf_448_point_eq (+ const cryptonite_decaf_448_point_t a,+ const cryptonite_decaf_448_point_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Add two points to produce a third point. The+ * input points and output point can be pointers to the same+ * memory.+ *+ * @param [out] sum The sum a+b.+ * @param [in] a An addend.+ * @param [in] b An addend.+ */+void cryptonite_decaf_448_point_add (+ cryptonite_decaf_448_point_t sum,+ const cryptonite_decaf_448_point_t a,+ const cryptonite_decaf_448_point_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL;++/**+ * @brief Double a point. Equivalent to+ * cryptonite_decaf_448_point_add(two_a,a,a), but potentially faster.+ *+ * @param [out] two_a The sum a+a.+ * @param [in] a A point.+ */+void cryptonite_decaf_448_point_double (+ cryptonite_decaf_448_point_t two_a,+ const cryptonite_decaf_448_point_t a+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL;++/**+ * @brief Subtract two points to produce a third point. The+ * input points and output point can be pointers to the same+ * memory.+ *+ * @param [out] diff The difference a-b.+ * @param [in] a The minuend.+ * @param [in] b The subtrahend.+ */+void cryptonite_decaf_448_point_sub (+ cryptonite_decaf_448_point_t diff,+ const cryptonite_decaf_448_point_t a,+ const cryptonite_decaf_448_point_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL;+ +/**+ * @brief Negate a point to produce another point. The input+ * and output points can use the same memory.+ *+ * @param [out] nega The negated input point+ * @param [in] a The input point.+ */+void cryptonite_decaf_448_point_negate (+ cryptonite_decaf_448_point_t nega,+ const cryptonite_decaf_448_point_t a+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL;++/**+ * @brief Multiply a base point by a scalar: scaled = scalar*base.+ *+ * @param [out] scaled The scaled point base*scalar+ * @param [in] base The point to be scaled.+ * @param [in] scalar The scalar to multiply by.+ */+void cryptonite_decaf_448_point_scalarmul (+ cryptonite_decaf_448_point_t scaled,+ const cryptonite_decaf_448_point_t base,+ const cryptonite_decaf_448_scalar_t scalar+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Multiply a base point by a scalar: scaled = scalar*base.+ * This function operates directly on serialized forms.+ *+ * @warning This function is experimental. It may not be supported+ * long-term.+ *+ * @param [out] scaled The scaled point base*scalar+ * @param [in] base The point to be scaled.+ * @param [in] scalar The scalar to multiply by.+ * @param [in] allow_identity Allow the input to be the identity.+ * @param [in] short_circuit Allow a fast return if the input is illegal.+ *+ * @retval CRYPTONITE_DECAF_SUCCESS The scalarmul succeeded.+ * @retval CRYPTONITE_DECAF_FAILURE The scalarmul didn't succeed, because+ * base does not represent a point.+ */+cryptonite_decaf_error_t cryptonite_decaf_448_direct_scalarmul (+ uint8_t scaled[CRYPTONITE_DECAF_448_SER_BYTES],+ const uint8_t base[CRYPTONITE_DECAF_448_SER_BYTES],+ const cryptonite_decaf_448_scalar_t scalar,+ cryptonite_decaf_bool_t allow_identity,+ cryptonite_decaf_bool_t short_circuit+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief RFC 7748 Diffie-Hellman scalarmul. This function uses a different+ * (non-Decaf) encoding.+ *+ * @param [out] scaled The scaled point base*scalar+ * @param [in] base The point to be scaled.+ * @param [in] scalar The scalar to multiply by.+ *+ * @retval CRYPTONITE_DECAF_SUCCESS The scalarmul succeeded.+ * @retval CRYPTONITE_DECAF_FAILURE The scalarmul didn't succeed, because the base+ * point is in a small subgroup.+ */+cryptonite_decaf_error_t cryptonite_decaf_x448 (+ uint8_t out[CRYPTONITE_DECAF_X448_PUBLIC_BYTES],+ const uint8_t base[CRYPTONITE_DECAF_X448_PUBLIC_BYTES],+ const uint8_t scalar[CRYPTONITE_DECAF_X448_PRIVATE_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NOINLINE;++/** The base point for X448 Diffie-Hellman */+extern const uint8_t cryptonite_decaf_x448_base_point[CRYPTONITE_DECAF_X448_PUBLIC_BYTES] CRYPTONITE_DECAF_API_VIS;++/**+ * @brief RFC 7748 Diffie-Hellman base point scalarmul. This function uses+ * a different (non-Decaf) encoding.+ *+ * @deprecated Renamed to cryptonite_decaf_x448_derive_public_key.+ * I have no particular timeline for removing this name.+ *+ * @param [out] scaled The scaled point base*scalar+ * @param [in] scalar The scalar to multiply by.+ */+void cryptonite_decaf_x448_generate_key (+ uint8_t out[CRYPTONITE_DECAF_X448_PUBLIC_BYTES],+ const uint8_t scalar[CRYPTONITE_DECAF_X448_PRIVATE_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE CRYPTONITE_DECAF_DEPRECATED("Renamed to cryptonite_decaf_x448_derive_public_key");+ +/**+ * @brief RFC 7748 Diffie-Hellman base point scalarmul. This function uses+ * a different (non-Decaf) encoding.+ *+ * Does exactly the same thing as cryptonite_decaf_x448_generate_key,+ * but has a better name.+ *+ * @param [out] scaled The scaled point base*scalar+ * @param [in] scalar The scalar to multiply by.+ */+void cryptonite_decaf_x448_derive_public_key (+ uint8_t out[CRYPTONITE_DECAF_X448_PUBLIC_BYTES],+ const uint8_t scalar[CRYPTONITE_DECAF_X448_PRIVATE_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/* FUTURE: uint8_t cryptonite_decaf_448_encode_like_curve448) */++/**+ * @brief Precompute a table for fast scalar multiplication.+ * Some implementations do not include precomputed points; for+ * those implementations, this implementation simply copies the+ * point.+ *+ * @param [out] a A precomputed table of multiples of the point.+ * @param [in] b Any point.+ */+void cryptonite_decaf_448_precompute (+ cryptonite_decaf_448_precomputed_s *a,+ const cryptonite_decaf_448_point_t b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Multiply a precomputed base point by a scalar:+ * scaled = scalar*base.+ * Some implementations do not include precomputed points; for+ * those implementations, this function is the same as+ * cryptonite_decaf_448_point_scalarmul+ *+ * @param [out] scaled The scaled point base*scalar+ * @param [in] base The point to be scaled.+ * @param [in] scalar The scalar to multiply by.+ */+void cryptonite_decaf_448_precomputed_scalarmul (+ cryptonite_decaf_448_point_t scaled,+ const cryptonite_decaf_448_precomputed_s *base,+ const cryptonite_decaf_448_scalar_t scalar+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Multiply two base points by two scalars:+ * scaled = scalar1*base1 + scalar2*base2.+ *+ * Equivalent to two calls to cryptonite_decaf_448_point_scalarmul, but may be+ * faster.+ *+ * @param [out] combo The linear combination scalar1*base1 + scalar2*base2.+ * @param [in] base1 A first point to be scaled.+ * @param [in] scalar1 A first scalar to multiply by.+ * @param [in] base2 A second point to be scaled.+ * @param [in] scalar2 A second scalar to multiply by.+ */+void cryptonite_decaf_448_point_double_scalarmul (+ cryptonite_decaf_448_point_t combo,+ const cryptonite_decaf_448_point_t base1,+ const cryptonite_decaf_448_scalar_t scalar1,+ const cryptonite_decaf_448_point_t base2,+ const cryptonite_decaf_448_scalar_t scalar2+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;+ +/**+ * Multiply one base point by two scalars:+ *+ * a1 = scalar1 * base+ * a2 = scalar2 * base+ *+ * Equivalent to two calls to cryptonite_decaf_448_point_scalarmul, but may be+ * faster.+ *+ * @param [out] a1 The first multiple. It may be the same as the input point.+ * @param [out] a2 The second multiple. It may be the same as the input point.+ * @param [in] base1 A point to be scaled.+ * @param [in] scalar1 A first scalar to multiply by.+ * @param [in] scalar2 A second scalar to multiply by.+ */+void cryptonite_decaf_448_point_dual_scalarmul (+ cryptonite_decaf_448_point_t a1,+ cryptonite_decaf_448_point_t a2,+ const cryptonite_decaf_448_point_t base1,+ const cryptonite_decaf_448_scalar_t scalar1,+ const cryptonite_decaf_448_scalar_t scalar2+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Multiply two base points by two scalars:+ * scaled = scalar1*cryptonite_decaf_448_point_base + scalar2*base2.+ *+ * Otherwise equivalent to cryptonite_decaf_448_point_double_scalarmul, but may be+ * faster at the expense of being variable time.+ *+ * @param [out] combo The linear combination scalar1*base + scalar2*base2.+ * @param [in] scalar1 A first scalar to multiply by.+ * @param [in] base2 A second point to be scaled.+ * @param [in] scalar2 A second scalar to multiply by.+ *+ * @warning: This function takes variable time, and may leak the scalars+ * used. It is designed for signature verification.+ */+void cryptonite_decaf_448_base_double_scalarmul_non_secret (+ cryptonite_decaf_448_point_t combo,+ const cryptonite_decaf_448_scalar_t scalar1,+ const cryptonite_decaf_448_point_t base2,+ const cryptonite_decaf_448_scalar_t scalar2+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Constant-time decision between two points. If pick_b+ * is zero, out = a; else out = b.+ *+ * @param [out] out The output. It may be the same as either input.+ * @param [in] a Any point.+ * @param [in] b Any point.+ * @param [in] pick_b If nonzero, choose point b.+ */+void cryptonite_decaf_448_point_cond_sel (+ cryptonite_decaf_448_point_t out,+ const cryptonite_decaf_448_point_t a,+ const cryptonite_decaf_448_point_t b,+ cryptonite_decaf_word_t pick_b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Constant-time decision between two scalars. If pick_b+ * is zero, out = a; else out = b.+ *+ * @param [out] out The output. It may be the same as either input.+ * @param [in] a Any scalar.+ * @param [in] b Any scalar.+ * @param [in] pick_b If nonzero, choose scalar b.+ */+void cryptonite_decaf_448_scalar_cond_sel (+ cryptonite_decaf_448_scalar_t out,+ const cryptonite_decaf_448_scalar_t a,+ const cryptonite_decaf_448_scalar_t b,+ cryptonite_decaf_word_t pick_b+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Test that a point is valid, for debugging purposes.+ *+ * @param [in] to_test The point to test.+ * @retval CRYPTONITE_DECAF_TRUE The point is valid.+ * @retval CRYPTONITE_DECAF_FALSE The point is invalid.+ */+cryptonite_decaf_bool_t cryptonite_decaf_448_point_valid (+ const cryptonite_decaf_448_point_t to_test+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_WARN_UNUSED CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Torque a point, for debugging purposes. The output+ * will be equal to the input.+ *+ * @param [out] q The point to torque.+ * @param [in] p The point to torque.+ */+void cryptonite_decaf_448_point_debugging_torque (+ cryptonite_decaf_448_point_t q,+ const cryptonite_decaf_448_point_t p+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Projectively scale a point, for debugging purposes.+ * The output will be equal to the input, and will be valid+ * even if the factor is zero.+ *+ * @param [out] q The point to scale.+ * @param [in] p The point to scale.+ * @param [in] factor Serialized GF factor to scale.+ */+void cryptonite_decaf_448_point_debugging_pscale (+ cryptonite_decaf_448_point_t q,+ const cryptonite_decaf_448_point_t p,+ const unsigned char factor[CRYPTONITE_DECAF_448_SER_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Almost-Elligator-like hash to curve.+ *+ * Call this function with the output of a hash to make a hash to the curve.+ *+ * This function runs Elligator2 on the cryptonite_decaf_448 Jacobi quartic model. It then+ * uses the isogeny to put the result in twisted Edwards form. As a result,+ * it is safe (cannot produce points of order 4), and would be compatible with+ * hypothetical other implementations of Decaf using a Montgomery or untwisted+ * Edwards model.+ *+ * Unlike Elligator, this function may be up to 4:1 on [0,(p-1)/2]:+ * A factor of 2 due to the isogeny.+ * A factor of 2 because we quotient out the 2-torsion.+ *+ * This makes it about 8:1 overall, or 16:1 overall on curves with cofactor 8.+ *+ * Negating the input (mod q) results in the same point. Inverting the input+ * (mod q) results in the negative point. This is the same as Elligator.+ *+ * This function isn't quite indifferentiable from a random oracle.+ * However, it is suitable for many protocols, including SPEKE and SPAKE2 EE. + * Furthermore, calling it twice with independent seeds and adding the results+ * is indifferentiable from a random oracle.+ *+ * @param [in] hashed_data Output of some hash function.+ * @param [out] pt The data hashed to the curve.+ */+void+cryptonite_decaf_448_point_from_hash_nonuniform (+ cryptonite_decaf_448_point_t pt,+ const unsigned char hashed_data[CRYPTONITE_DECAF_448_HASH_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Indifferentiable hash function encoding to curve.+ *+ * Equivalent to calling cryptonite_decaf_448_point_from_hash_nonuniform twice and adding.+ *+ * @param [in] hashed_data Output of some hash function.+ * @param [out] pt The data hashed to the curve.+ */ +void cryptonite_decaf_448_point_from_hash_uniform (+ cryptonite_decaf_448_point_t pt,+ const unsigned char hashed_data[2*CRYPTONITE_DECAF_448_HASH_BYTES]+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE;++/**+ * @brief Inverse of elligator-like hash to curve.+ *+ * This function writes to the buffer, to make it so that+ * cryptonite_decaf_448_point_from_hash_nonuniform(buffer) = pt if+ * possible. Since there may be multiple preimages, the+ * "which" parameter chooses between them. To ensure uniform+ * inverse sampling, this function succeeds or fails+ * independently for different "which" values.+ *+ * @param [out] recovered_hash Encoded data.+ * @param [in] pt The point to encode.+ * @param [in] which A value determining which inverse point+ * to return.+ *+ * @retval CRYPTONITE_DECAF_SUCCESS The inverse succeeded.+ * @retval CRYPTONITE_DECAF_FAILURE The inverse failed.+ */+cryptonite_decaf_error_t+cryptonite_decaf_448_invert_elligator_nonuniform (+ unsigned char recovered_hash[CRYPTONITE_DECAF_448_HASH_BYTES],+ const cryptonite_decaf_448_point_t pt,+ uint32_t which+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE CRYPTONITE_DECAF_WARN_UNUSED;++/**+ * @brief Inverse of elligator-like hash to curve.+ *+ * This function writes to the buffer, to make it so that+ * cryptonite_decaf_448_point_from_hash_uniform(buffer) = pt if+ * possible. Since there may be multiple preimages, the+ * "which" parameter chooses between them. To ensure uniform+ * inverse sampling, this function succeeds or fails+ * independently for different "which" values.+ *+ * @param [out] recovered_hash Encoded data.+ * @param [in] pt The point to encode.+ * @param [in] which A value determining which inverse point+ * to return.+ *+ * @retval CRYPTONITE_DECAF_SUCCESS The inverse succeeded.+ * @retval CRYPTONITE_DECAF_FAILURE The inverse failed.+ */+cryptonite_decaf_error_t+cryptonite_decaf_448_invert_elligator_uniform (+ unsigned char recovered_hash[2*CRYPTONITE_DECAF_448_HASH_BYTES],+ const cryptonite_decaf_448_point_t pt,+ uint32_t which+) CRYPTONITE_DECAF_API_VIS CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_NOINLINE CRYPTONITE_DECAF_WARN_UNUSED;++/**+ * @brief Overwrite scalar with zeros.+ */+void cryptonite_decaf_448_scalar_destroy (+ cryptonite_decaf_448_scalar_t scalar+) CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_API_VIS;++/**+ * @brief Overwrite point with zeros.+ */+void cryptonite_decaf_448_point_destroy (+ cryptonite_decaf_448_point_t point+) CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_API_VIS;++/**+ * @brief Overwrite precomputed table with zeros.+ */+void cryptonite_decaf_448_precomputed_destroy (+ cryptonite_decaf_448_precomputed_s *pre+) CRYPTONITE_DECAF_NONNULL CRYPTONITE_DECAF_API_VIS;++#ifdef __cplusplus+} /* extern "C" */+#endif++#endif /* __CRYPTONITE_DECAF_POINT_448_H__ */
+ cbits/decaf/include/decaf/sha512.h view
@@ -0,0 +1,1 @@+/* Not needed if 448-only */
+ cbits/decaf/include/decaf/shake.h view
@@ -0,0 +1,96 @@+/*+ * Copyright (C) 2006-2009 Vincent Hanquez <vincent@snarc.org>+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions+ * are met:+ * 1. Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * 2. Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ *+ * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES+ * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.+ * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT+ * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF+ * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */+#ifndef CRYPTONITE_DECAF_SHAKE_H+#define CRYPTONITE_DECAF_SHAKE_H++#include "cryptonite_sha3.h"++#include <decaf/common.h>++#define CHUNK_SIZE_32 0x80000000++typedef struct sha3_shake256_ctx+{+ struct sha3_ctx sc[1];+ uint8_t filler[136]; // 200 - 2*(256/8)+}+cryptonite_decaf_shake256_ctx_t[1];++static inline void cryptonite_decaf_shake256_init(cryptonite_decaf_shake256_ctx_t ctx)+{+ cryptonite_sha3_init(ctx -> sc, 256);+}++static inline void cryptonite_decaf_shake256_update(cryptonite_decaf_shake256_ctx_t ctx, const uint8_t *in, size_t inlen)+{+#if __SIZE_MAX__ > UINT32_MAX+ // split data over 4 GB in 2-GB chunks+ while (inlen > UINT32_MAX) {+ cryptonite_sha3_update(ctx -> sc, in, CHUNK_SIZE_32);+ inlen -= CHUNK_SIZE_32;+ in += CHUNK_SIZE_32;+ }+#endif+ cryptonite_sha3_update(ctx -> sc, in, (uint32_t) inlen);+}++static inline void cryptonite_decaf_shake256_output(cryptonite_decaf_shake256_ctx_t ctx, uint8_t *out, size_t outlen) {+#if __SIZE_MAX__ > UINT32_MAX+ // split data over 4 GB in 2-GB chunks+ while (outlen > UINT32_MAX) {+ cryptonite_sha3_output(ctx -> sc, out, CHUNK_SIZE_32);+ outlen -= CHUNK_SIZE_32;+ out += CHUNK_SIZE_32;+ }+#endif+ cryptonite_sha3_output(ctx -> sc, out, (uint32_t) outlen);+}++static inline void cryptonite_decaf_shake256_final(cryptonite_decaf_shake256_ctx_t ctx, uint8_t *out, size_t outlen)+{+ cryptonite_sha3_finalize_shake(ctx -> sc);+ cryptonite_decaf_shake256_output(ctx, out, outlen);++ cryptonite_decaf_shake256_init(ctx);+}++static inline void cryptonite_decaf_shake256_destroy(cryptonite_decaf_shake256_ctx_t ctx)+{+ cryptonite_decaf_bzero(ctx, sizeof(*ctx));+}++static inline void cryptonite_decaf_shake256_hash(uint8_t *out, size_t outlen, const uint8_t *in, size_t inlen)+{+ cryptonite_decaf_shake256_ctx_t ctx;++ cryptonite_decaf_shake256_init(ctx);+ cryptonite_decaf_shake256_update(ctx, in, inlen);++ cryptonite_sha3_finalize_shake(ctx -> sc);+ cryptonite_decaf_shake256_output(ctx, out, outlen);++ cryptonite_decaf_shake256_destroy(ctx);+}++#endif
+ cbits/decaf/include/field.h view
@@ -0,0 +1,107 @@+/**+ * @file field.h+ * @brief Generic gf header.+ * @copyright+ * Copyright (c) 2014 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ * @author Mike Hamburg+ */++#ifndef __GF_H__+#define __GF_H__++#include "constant_time.h"+#include "f_field.h"+#include <string.h>+ +/** Square x, n times. */+static CRYPTONITE_DECAF_INLINE void cryptonite_gf_sqrn (+ cryptonite_gf_s *__restrict__ y,+ const gf x,+ int n+) {+ gf tmp;+ assert(n>0);+ if (n&1) {+ cryptonite_gf_sqr(y,x);+ n--;+ } else {+ cryptonite_gf_sqr(tmp,x);+ cryptonite_gf_sqr(y,tmp);+ n-=2;+ }+ for (; n; n-=2) {+ cryptonite_gf_sqr(tmp,y);+ cryptonite_gf_sqr(y,tmp);+ }+}++#define cryptonite_gf_add_nr cryptonite_gf_add_RAW++/** Subtract mod p. Bias by 2 and don't reduce */+static inline void cryptonite_gf_sub_nr ( gf c, const gf a, const gf b ) {+ cryptonite_gf_sub_RAW(c,a,b);+ cryptonite_gf_bias(c, 2);+ if (GF_HEADROOM < 3) cryptonite_gf_weak_reduce(c);+}++/** Subtract mod p. Bias by amt but don't reduce. */+static inline void cryptonite_gf_subx_nr ( gf c, const gf a, const gf b, int amt ) {+ cryptonite_gf_sub_RAW(c,a,b);+ cryptonite_gf_bias(c, amt);+ if (GF_HEADROOM < amt+1) cryptonite_gf_weak_reduce(c);+}++/** Mul by signed int. Not constant-time WRT the sign of that int. */+static inline void cryptonite_gf_mulw(gf c, const gf a, int32_t w) {+ if (w>0) {+ cryptonite_gf_mulw_unsigned(c, a, w);+ } else {+ cryptonite_gf_mulw_unsigned(c, a, -w);+ cryptonite_gf_sub(c,ZERO,c);+ }+}++/** Constant time, x = is_z ? z : y */+static inline void cryptonite_gf_cond_sel(gf x, const gf y, const gf z, mask_t is_z) {+ constant_time_select(x,y,z,sizeof(gf),is_z,0);+}++/** Constant time, if (neg) x=-x; */+static inline void cryptonite_gf_cond_neg(gf x, mask_t neg) {+ gf y;+ cryptonite_gf_sub(y,ZERO,x);+ cryptonite_gf_cond_sel(x,x,y,neg);+}++/** Constant time, if (swap) (x,y) = (y,x); */+static inline void+cryptonite_gf_cond_swap(gf x, cryptonite_gf_s *__restrict__ y, mask_t swap) {+ constant_time_cond_swap(x,y,sizeof(cryptonite_gf_s),swap);+}++static CRYPTONITE_DECAF_INLINE void cryptonite_gf_mul_qnr(cryptonite_gf_s *__restrict__ out, const gf x) {+#if P_MOD_8 == 5+ /* r = QNR * r0^2 */+ cryptonite_gf_mul(out,x,SQRT_MINUS_ONE);+#elif P_MOD_8 == 3 || P_MOD_8 == 7+ cryptonite_gf_sub(out,ZERO,x);+#else+ #error "Only supporting p=3,5,7 mod 8"+#endif+}++static CRYPTONITE_DECAF_INLINE void cryptonite_gf_div_qnr(cryptonite_gf_s *__restrict__ out, const gf x) {+#if P_MOD_8 == 5+ /* r = QNR * r0^2 */+ cryptonite_gf_mul(out,x,SQRT_MINUS_ONE);+ cryptonite_gf_sub(out,ZERO,out);+#elif P_MOD_8 == 3 || P_MOD_8 == 7+ cryptonite_gf_sub(out,ZERO,x);+#else+ #error "Only supporting p=3,5,7 mod 8"+#endif+}+++#endif // __GF_H__
+ cbits/decaf/include/portable_endian.h view
@@ -0,0 +1,6 @@+/* portable_endian.h not used */++#if defined(__MINGW32__)+// does not exist on MinGW, but unused anyway+extern int posix_memalign(void **, size_t, size_t);+#endif
+ cbits/decaf/include/word.h view
@@ -0,0 +1,281 @@+/* Copyright (c) 2014 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#ifndef __WORD_H__+#define __WORD_H__++/* for posix_memalign */+#define _XOPEN_SOURCE 600+#define __STDC_WANT_LIB_EXT1__ 1 /* for memset_s */+#include <string.h>+#if defined(__sun) && defined(__SVR4)+extern int posix_memalign(void **, size_t, size_t);+#endif++#include <assert.h>+#include <stdint.h>+#include "arch_intrinsics.h"++#include <decaf/common.h>++#ifndef _BSD_SOURCE+#define _BSD_SOURCE 1+#endif++#ifndef _DEFAULT_SOURCE+#define _DEFAULT_SOURCE 1+#endif++#include "portable_endian.h"++#include <stdlib.h>+#include <sys/types.h>+#include <inttypes.h>++#if defined(__ARM_NEON__)+#include <arm_neon.h>+#elif defined(__SSE2__)+ #if !defined(__GNUC__) || __clang__ || __GNUC__ >= 5 || (__GNUC__==4 && __GNUC_MINOR__ >= 4)+ #include <immintrin.h>+ #else+ #include <emmintrin.h>+ #endif+#endif++#if (ARCH_WORD_BITS == 64)+ typedef uint64_t word_t, mask_t;+ typedef __uint128_t dword_t;+ typedef int32_t hsword_t;+ typedef int64_t sword_t;+ typedef __int128_t dsword_t;+#elif (ARCH_WORD_BITS == 32)+ typedef uint32_t word_t, mask_t;+ typedef uint64_t dword_t;+ typedef int16_t hsword_t;+ typedef int32_t sword_t;+ typedef int64_t dsword_t;+#else+ #error "For now, libdecaf only supports 32- and 64-bit architectures."+#endif+ +/* Scalar limbs are keyed off of the API word size instead of the arch word size. */+#if CRYPTONITE_DECAF_WORD_BITS == 64+ #define SC_LIMB(x) (x##ull)+#elif CRYPTONITE_DECAF_WORD_BITS == 32+ #define SC_LIMB(x) ((uint32_t)x##ull),(x##ull>>32)+#else+ #error "For now, libdecaf only supports 32- and 64-bit architectures."+#endif++#ifdef __ARM_NEON__+ typedef uint32x4_t vecmask_t;+#elif __clang__+ typedef uint64_t uint64x2_t __attribute__((ext_vector_type(2)));+ typedef int64_t int64x2_t __attribute__((ext_vector_type(2)));+ typedef uint64_t uint64x4_t __attribute__((ext_vector_type(4)));+ typedef int64_t int64x4_t __attribute__((ext_vector_type(4)));+ typedef uint32_t uint32x4_t __attribute__((ext_vector_type(4)));+ typedef int32_t int32x4_t __attribute__((ext_vector_type(4)));+ typedef uint32_t uint32x2_t __attribute__((ext_vector_type(2)));+ typedef int32_t int32x2_t __attribute__((ext_vector_type(2)));+ typedef uint32_t uint32x8_t __attribute__((ext_vector_type(8)));+ typedef int32_t int32x8_t __attribute__((ext_vector_type(8)));+ typedef word_t vecmask_t __attribute__((ext_vector_type(4)));+#else /* GCC, hopefully? */+ typedef uint64_t uint64x2_t __attribute__((vector_size(16)));+ typedef int64_t int64x2_t __attribute__((vector_size(16)));+ typedef uint64_t uint64x4_t __attribute__((vector_size(32)));+ typedef int64_t int64x4_t __attribute__((vector_size(32)));+ typedef uint32_t uint32x4_t __attribute__((vector_size(16)));+ typedef int32_t int32x4_t __attribute__((vector_size(16)));+ typedef uint32_t uint32x2_t __attribute__((vector_size(8)));+ typedef int32_t int32x2_t __attribute__((vector_size(8)));+ typedef uint32_t uint32x8_t __attribute__((vector_size(32)));+ typedef int32_t int32x8_t __attribute__((vector_size(32)));+ typedef word_t vecmask_t __attribute__((vector_size(32)));+#endif++#if __AVX2__+ #define VECTOR_ALIGNED __attribute__((aligned(32)))+ typedef uint32x8_t big_register_t;+ typedef uint64x4_t uint64xn_t;+ typedef uint32x8_t uint32xn_t;++ static CRYPTONITE_DECAF_INLINE big_register_t+ br_set_to_mask(mask_t x) {+ uint32_t y = (uint32_t)x;+ big_register_t ret = {y,y,y,y,y,y,y,y};+ return ret;+ }+#elif __SSE2__+ #define VECTOR_ALIGNED __attribute__((aligned(16)))+ typedef uint32x4_t big_register_t;+ typedef uint64x2_t uint64xn_t;+ typedef uint32x4_t uint32xn_t;++ static CRYPTONITE_DECAF_INLINE big_register_t+ br_set_to_mask(mask_t x) {+ uint32_t y = x;+ big_register_t ret = {y,y,y,y};+ return ret;+ }+#elif __ARM_NEON__+ #define VECTOR_ALIGNED __attribute__((aligned(16)))+ typedef uint32x4_t big_register_t;+ typedef uint64x2_t uint64xn_t;+ typedef uint32x4_t uint32xn_t;+ + static CRYPTONITE_DECAF_INLINE big_register_t+ br_set_to_mask(mask_t x) {+ return vdupq_n_u32(x);+ }+#elif _WIN64 || __amd64__ || __X86_64__ || __aarch64__+ #define VECTOR_ALIGNED __attribute__((aligned(8)))+ typedef uint64_t big_register_t, uint64xn_t;++ typedef uint32_t uint32xn_t;+ static CRYPTONITE_DECAF_INLINE big_register_t+ br_set_to_mask(mask_t x) {+ return (big_register_t)x;+ }+#else+ #define VECTOR_ALIGNED __attribute__((aligned(4)))+ typedef uint64_t uint64xn_t;+ typedef uint32_t uint32xn_t;+ typedef uint32_t big_register_t;++ static CRYPTONITE_DECAF_INLINE big_register_t+ br_set_to_mask(mask_t x) {+ return (big_register_t)x;+ }+#endif++typedef struct {+ uint64xn_t unaligned;+} __attribute__((packed)) unaligned_uint64xn_t;++typedef struct {+ uint32xn_t unaligned;+} __attribute__((packed)) unaligned_uint32xn_t;++#if __AVX2__+ static CRYPTONITE_DECAF_INLINE big_register_t+ br_is_zero(big_register_t x) {+ return (big_register_t)(x == br_set_to_mask(0));+ }+#elif __SSE2__+ static CRYPTONITE_DECAF_INLINE big_register_t+ br_is_zero(big_register_t x) {+ return (big_register_t)_mm_cmpeq_epi32((__m128i)x, _mm_setzero_si128());+ //return (big_register_t)(x == br_set_to_mask(0));+ }+#elif __ARM_NEON__+ static CRYPTONITE_DECAF_INLINE big_register_t+ br_is_zero(big_register_t x) {+ return vceqq_u32(x,x^x);+ }+#else+ #define br_is_zero word_is_zero+#endif++/**+ * Really call memset, in a way that prevents the compiler from optimizing it out.+ * @param p The object to zeroize.+ * @param c The char to set it to (probably zero).+ * @param s The size of the object.+ */+#if defined(__DARWIN_C_LEVEL) || defined(__STDC_LIB_EXT1__)+#define HAS_MEMSET_S+#endif++#if !defined(__STDC_WANT_LIB_EXT1__) || __STDC_WANT_LIB_EXT1__ != 1+#define NEED_MEMSET_S_EXTERN+#endif++#ifdef HAS_MEMSET_S+ #ifdef NEED_MEMSET_S_EXTERN+ extern int memset_s(void *, size_t, int, size_t);+ #endif+ static CRYPTONITE_DECAF_INLINE void+ really_memset(void *p, char c, size_t s) {+ memset_s(p, s, c, s);+ }+#else+ /* PERF: use words? */+ static CRYPTONITE_DECAF_INLINE void+ really_memset(void *p, char c, size_t s) {+ volatile char *pv = (volatile char *)p;+ size_t i;+ for (i=0; i<s; i++) pv[i] = c;+ }+#endif++/**+ * Allocate memory which is sufficiently aligned to be used for the+ * largest vector on the system (for now that's a big_register_t).+ *+ * Man malloc says that it does this, but at least for AVX2 on MacOS X,+ * it's lying.+ *+ * @param size The size of the region to allocate.+ * @return A suitable pointer, which can be free'd with free(),+ * or NULL if no memory can be allocated.+ */+static CRYPTONITE_DECAF_INLINE void *+malloc_vector(size_t size) {+ void *out = NULL;+ + int ret = posix_memalign(&out, sizeof(big_register_t), size);+ + if (ret) {+ return NULL;+ } else {+ return out;+ }+}++/* PERF: vectorize vs unroll */+#ifdef __clang__+#if 100*__clang_major__ + __clang_minor__ > 305+#define UNROLL _Pragma("clang loop unroll(full)")+#endif+#endif++#ifndef UNROLL+#define UNROLL+#endif++/* The plan on booleans:+ *+ * The external interface uses cryptonite_decaf_bool_t, but this might be a different+ * size than our particular arch's word_t (and thus mask_t). Also, the caller+ * isn't guaranteed to pass it as nonzero. So bool_to_mask converts word sizes+ * and checks nonzero.+ *+ * On the flip side, mask_t is always -1 or 0, but it might be a different size+ * than cryptonite_decaf_bool_t.+ *+ * On the third hand, we have success vs boolean types, but that's handled in+ * common.h: it converts between cryptonite_decaf_bool_t and cryptonite_decaf_error_t.+ */+static CRYPTONITE_DECAF_INLINE cryptonite_decaf_bool_t mask_to_bool (mask_t m) {+ return (cryptonite_decaf_sword_t)(sword_t)m;+}++static CRYPTONITE_DECAF_INLINE mask_t bool_to_mask (cryptonite_decaf_bool_t m) {+ /* On most arches this will be optimized to a simple cast. */+ mask_t ret = 0;+ unsigned int limit = sizeof(cryptonite_decaf_bool_t)/sizeof(mask_t);+ if (limit < 1) limit = 1;+ for (unsigned int i=0; i<limit; i++) {+ ret |= ~ word_is_zero(m >> (i*8*sizeof(word_t)));+ }+ return ret;+}++static CRYPTONITE_DECAF_INLINE void ignore_result ( cryptonite_decaf_bool_t boo ) {+ (void)boo;+}++#endif /* __WORD_H__ */
+ cbits/decaf/p448/arch_32/f_impl.c view
@@ -0,0 +1,101 @@+/* Copyright (c) 2014 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#include "f_field.h"++#if (defined(__OPTIMIZE__) && !defined(__OPTIMIZE_SIZE__) && !I_HATE_UNROLLED_LOOPS) \+ || defined(CRYPTONITE_DECAF_FORCE_UNROLL)+#define REPEAT8(_x) _x _x _x _x _x _x _x _x+#define FOR_LIMB(_i,_start,_end,_x) do { _i=_start; REPEAT8( if (_i<_end) { _x; } _i++;) } while (0)+#else+#define FOR_LIMB(_i,_start,_end,_x) do { for (_i=_start; _i<_end; _i++) _x; } while (0)+#endif++void cryptonite_gf_mul (cryptonite_gf_s *__restrict__ cs, const gf as, const gf bs) { + const uint32_t *a = as->limb, *b = bs->limb;+ uint32_t *c = cs->limb;++ uint64_t accum0 = 0, accum1 = 0, accum2 = 0;+ uint32_t mask = (1<<28) - 1; ++ uint32_t aa[8], bb[8];+ + int i,j;+ for (i=0; i<8; i++) {+ aa[i] = a[i] + a[i+8];+ bb[i] = b[i] + b[i+8];+ }+ + FOR_LIMB(j,0,8,{+ accum2 = 0;+ + FOR_LIMB (i,0,j+1,{+ accum2 += widemul(a[j-i],b[i]);+ accum1 += widemul(aa[j-i],bb[i]);+ accum0 += widemul(a[8+j-i], b[8+i]);+ });+ + accum1 -= accum2;+ accum0 += accum2;+ accum2 = 0;+ + FOR_LIMB (i,j+1,8,{+ accum0 -= widemul(a[8+j-i], b[i]);+ accum2 += widemul(aa[8+j-i], bb[i]);+ accum1 += widemul(a[16+j-i], b[8+i]);+ });++ accum1 += accum2;+ accum0 += accum2;++ c[j] = ((uint32_t)(accum0)) & mask;+ c[j+8] = ((uint32_t)(accum1)) & mask;++ accum0 >>= 28;+ accum1 >>= 28;+ });+ + accum0 += accum1;+ accum0 += c[8];+ accum1 += c[0];+ c[8] = ((uint32_t)(accum0)) & mask;+ c[0] = ((uint32_t)(accum1)) & mask;+ + accum0 >>= 28;+ accum1 >>= 28;+ c[9] += ((uint32_t)(accum0));+ c[1] += ((uint32_t)(accum1));+}++void cryptonite_gf_mulw_unsigned (cryptonite_gf_s *__restrict__ cs, const gf as, uint32_t b) {+ assert(b<1<<28);+ + const uint32_t *a = as->limb;+ uint32_t *c = cs->limb;++ uint64_t accum0 = 0, accum8 = 0;+ uint32_t mask = (1ull<<28)-1; ++ int i;+ FOR_LIMB(i,0,8,{+ accum0 += widemul(b, a[i]);+ accum8 += widemul(b, a[i+8]);++ c[i] = accum0 & mask; accum0 >>= 28;+ c[i+8] = accum8 & mask; accum8 >>= 28;+ });++ accum0 += accum8 + c[8];+ c[8] = accum0 & mask;+ c[9] += accum0 >> 28;++ accum8 += c[0];+ c[0] = accum8 & mask;+ c[1] += accum8 >> 28;+}++void cryptonite_gf_sqr (cryptonite_gf_s *__restrict__ cs, const gf as) {+ cryptonite_gf_mul(cs,as,as); /* Performs better with a dedicated square */+}+
+ cbits/decaf/p448/arch_32/f_impl.h view
@@ -0,0 +1,40 @@+/* Copyright (c) 2014-2016 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#define GF_HEADROOM 2+#define LIMB(x) (x##ull)&((1ull<<28)-1), (x##ull)>>28+#define FIELD_LITERAL(a,b,c,d,e,f,g,h) \+ {{LIMB(a),LIMB(b),LIMB(c),LIMB(d),LIMB(e),LIMB(f),LIMB(g),LIMB(h)}}+ +#define LIMB_PLACE_VALUE(i) 28++void cryptonite_gf_add_RAW (gf out, const gf a, const gf b) {+ for (unsigned int i=0; i<sizeof(*out)/sizeof(out->limb[0]); i++) {+ out->limb[i] = a->limb[i] + b->limb[i];+ }+}++void cryptonite_gf_sub_RAW (gf out, const gf a, const gf b) {+ for (unsigned int i=0; i<sizeof(*out)/sizeof(out->limb[0]); i++) {+ out->limb[i] = a->limb[i] - b->limb[i];+ }+}++void cryptonite_gf_bias (gf a, int amt) { + uint32_t co1 = ((1ull<<28)-1)*amt, co2 = co1-amt;+ for (unsigned int i=0; i<sizeof(*a)/sizeof(a->limb[0]); i++) {+ a->limb[i] += (i==sizeof(*a)/sizeof(a->limb[0])/2) ? co2 : co1;+ }+}++void cryptonite_gf_weak_reduce (gf a) {+ uint32_t mask = (1ull<<28) - 1;+ uint32_t tmp = a->limb[15] >> 28;+ a->limb[8] += tmp;+ for (unsigned int i=15; i>0; i--) {+ a->limb[i] = (a->limb[i] & mask) + (a->limb[i-1]>>28);+ }+ a->limb[0] = (a->limb[0] & mask) + tmp;+}+
+ cbits/decaf/p448/arch_ref64/f_impl.c view
@@ -0,0 +1,302 @@+/* Copyright (c) 2014 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#include "f_field.h"++void cryptonite_gf_mul (cryptonite_gf_s *__restrict__ cs, const gf as, const gf bs) {+ const uint64_t *a = as->limb, *b = bs->limb;+ uint64_t *c = cs->limb;++ __uint128_t accum0 = 0, accum1 = 0, accum2;+ uint64_t mask = (1ull<<56) - 1; ++ uint64_t aa[4], bb[4], bbb[4];++ unsigned int i;+ for (i=0; i<4; i++) {+ aa[i] = a[i] + a[i+4];+ bb[i] = b[i] + b[i+4];+ bbb[i] = bb[i] + b[i+4];+ }++ int I_HATE_UNROLLED_LOOPS = 0;++ if (I_HATE_UNROLLED_LOOPS) {+ /* The compiler probably won't unroll this,+ * so it's like 80% slower.+ */+ for (i=0; i<4; i++) {+ accum2 = 0;++ unsigned int j;+ for (j=0; j<=i; j++) {+ accum2 += widemul(a[j], b[i-j]);+ accum1 += widemul(aa[j], bb[i-j]);+ accum0 += widemul(a[j+4], b[i-j+4]);+ }+ for (; j<4; j++) {+ accum2 += widemul(a[j], b[i-j+8]);+ accum1 += widemul(aa[j], bbb[i-j+4]);+ accum0 += widemul(a[j+4], bb[i-j+4]);+ }++ accum1 -= accum2;+ accum0 += accum2;++ c[i] = ((uint64_t)(accum0)) & mask;+ c[i+4] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;+ }+ } else {+ accum2 = widemul(a[0], b[0]);+ accum1 += widemul(aa[0], bb[0]);+ accum0 += widemul(a[4], b[4]);++ accum2 += widemul(a[1], b[7]);+ accum1 += widemul(aa[1], bbb[3]);+ accum0 += widemul(a[5], bb[3]);++ accum2 += widemul(a[2], b[6]);+ accum1 += widemul(aa[2], bbb[2]);+ accum0 += widemul(a[6], bb[2]);++ accum2 += widemul(a[3], b[5]);+ accum1 += widemul(aa[3], bbb[1]);+ accum0 += widemul(a[7], bb[1]);++ accum1 -= accum2;+ accum0 += accum2;++ c[0] = ((uint64_t)(accum0)) & mask;+ c[4] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ accum2 = widemul(a[0], b[1]);+ accum1 += widemul(aa[0], bb[1]);+ accum0 += widemul(a[4], b[5]);++ accum2 += widemul(a[1], b[0]);+ accum1 += widemul(aa[1], bb[0]);+ accum0 += widemul(a[5], b[4]);++ accum2 += widemul(a[2], b[7]);+ accum1 += widemul(aa[2], bbb[3]);+ accum0 += widemul(a[6], bb[3]);++ accum2 += widemul(a[3], b[6]);+ accum1 += widemul(aa[3], bbb[2]);+ accum0 += widemul(a[7], bb[2]);++ accum1 -= accum2;+ accum0 += accum2;++ c[1] = ((uint64_t)(accum0)) & mask;+ c[5] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ accum2 = widemul(a[0], b[2]);+ accum1 += widemul(aa[0], bb[2]);+ accum0 += widemul(a[4], b[6]);++ accum2 += widemul(a[1], b[1]);+ accum1 += widemul(aa[1], bb[1]);+ accum0 += widemul(a[5], b[5]);++ accum2 += widemul(a[2], b[0]);+ accum1 += widemul(aa[2], bb[0]);+ accum0 += widemul(a[6], b[4]);++ accum2 += widemul(a[3], b[7]);+ accum1 += widemul(aa[3], bbb[3]);+ accum0 += widemul(a[7], bb[3]);++ accum1 -= accum2;+ accum0 += accum2;++ c[2] = ((uint64_t)(accum0)) & mask;+ c[6] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ accum2 = widemul(a[0], b[3]);+ accum1 += widemul(aa[0], bb[3]);+ accum0 += widemul(a[4], b[7]);++ accum2 += widemul(a[1], b[2]);+ accum1 += widemul(aa[1], bb[2]);+ accum0 += widemul(a[5], b[6]);++ accum2 += widemul(a[2], b[1]);+ accum1 += widemul(aa[2], bb[1]);+ accum0 += widemul(a[6], b[5]);++ accum2 += widemul(a[3], b[0]);+ accum1 += widemul(aa[3], bb[0]);+ accum0 += widemul(a[7], b[4]);++ accum1 -= accum2;+ accum0 += accum2;++ c[3] = ((uint64_t)(accum0)) & mask;+ c[7] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;+ } /* !I_HATE_UNROLLED_LOOPS */++ accum0 += accum1;+ accum0 += c[4];+ accum1 += c[0];+ c[4] = ((uint64_t)(accum0)) & mask;+ c[0] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ c[5] += ((uint64_t)(accum0));+ c[1] += ((uint64_t)(accum1));+}++void cryptonite_gf_mulw_unsigned (cryptonite_gf_s *__restrict__ cs, const gf as, uint32_t b) {+ const uint64_t *a = as->limb;+ uint64_t *c = cs->limb;++ __uint128_t accum0 = 0, accum4 = 0;+ uint64_t mask = (1ull<<56) - 1; ++ int i;+ for (i=0; i<4; i++) {+ accum0 += widemul(b, a[i]);+ accum4 += widemul(b, a[i+4]);+ c[i] = accum0 & mask; accum0 >>= 56;+ c[i+4] = accum4 & mask; accum4 >>= 56;+ }+ + accum0 += accum4 + c[4];+ c[4] = accum0 & mask;+ c[5] += accum0 >> 56;++ accum4 += c[0];+ c[0] = accum4 & mask;+ c[1] += accum4 >> 56;+}++void cryptonite_gf_sqr (cryptonite_gf_s *__restrict__ cs, const gf as) {+ const uint64_t *a = as->limb;+ uint64_t *c = cs->limb;++ __uint128_t accum0 = 0, accum1 = 0, accum2;+ uint64_t mask = (1ull<<56) - 1; ++ uint64_t aa[4];++ /* For some reason clang doesn't vectorize this without prompting? */+ unsigned int i;+ for (i=0; i<4; i++) {+ aa[i] = a[i] + a[i+4];+ }++ accum2 = widemul(a[0],a[3]);+ accum0 = widemul(aa[0],aa[3]);+ accum1 = widemul(a[4],a[7]);++ accum2 += widemul(a[1], a[2]);+ accum0 += widemul(aa[1], aa[2]);+ accum1 += widemul(a[5], a[6]);++ accum0 -= accum2;+ accum1 += accum2;++ c[3] = ((uint64_t)(accum1))<<1 & mask;+ c[7] = ((uint64_t)(accum0))<<1 & mask;++ accum0 >>= 55;+ accum1 >>= 55;++ accum0 += widemul(2*aa[1],aa[3]);+ accum1 += widemul(2*a[5], a[7]);+ accum0 += widemul(aa[2], aa[2]);+ accum1 += accum0;++ accum0 -= widemul(2*a[1], a[3]);+ accum1 += widemul(a[6], a[6]);+ + accum2 = widemul(a[0],a[0]);+ accum1 -= accum2;+ accum0 += accum2;++ accum0 -= widemul(a[2], a[2]);+ accum1 += widemul(aa[0], aa[0]);+ accum0 += widemul(a[4], a[4]);++ c[0] = ((uint64_t)(accum0)) & mask;+ c[4] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ accum2 = widemul(2*aa[2],aa[3]);+ accum0 -= widemul(2*a[2], a[3]);+ accum1 += widemul(2*a[6], a[7]);++ accum1 += accum2;+ accum0 += accum2;++ accum2 = widemul(2*a[0],a[1]);+ accum1 += widemul(2*aa[0], aa[1]);+ accum0 += widemul(2*a[4], a[5]);++ accum1 -= accum2;+ accum0 += accum2;++ c[1] = ((uint64_t)(accum0)) & mask;+ c[5] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ accum2 = widemul(aa[3],aa[3]);+ accum0 -= widemul(a[3], a[3]);+ accum1 += widemul(a[7], a[7]);++ accum1 += accum2;+ accum0 += accum2;++ accum2 = widemul(2*a[0],a[2]);+ accum1 += widemul(2*aa[0], aa[2]);+ accum0 += widemul(2*a[4], a[6]);++ accum2 += widemul(a[1], a[1]);+ accum1 += widemul(aa[1], aa[1]);+ accum0 += widemul(a[5], a[5]);++ accum1 -= accum2;+ accum0 += accum2;++ c[2] = ((uint64_t)(accum0)) & mask;+ c[6] = ((uint64_t)(accum1)) & mask;++ accum0 >>= 56;+ accum1 >>= 56;++ accum0 += c[3];+ accum1 += c[7];+ c[3] = ((uint64_t)(accum0)) & mask;+ c[7] = ((uint64_t)(accum1)) & mask;++ /* we could almost stop here, but it wouldn't be stable, so... */++ accum0 >>= 56;+ accum1 >>= 56;+ c[4] += ((uint64_t)(accum0)) + ((uint64_t)(accum1));+ c[0] += ((uint64_t)(accum1));+}+
+ cbits/decaf/p448/arch_ref64/f_impl.h view
@@ -0,0 +1,38 @@+/* Copyright (c) 2014-2016 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++#define GF_HEADROOM 9999 /* Everything is reduced anyway */+#define FIELD_LITERAL(a,b,c,d,e,f,g,h) {{a,b,c,d,e,f,g,h}}+ +#define LIMB_PLACE_VALUE(i) 56++void cryptonite_gf_add_RAW (gf out, const gf a, const gf b) {+ for (unsigned int i=0; i<8; i++) {+ out->limb[i] = a->limb[i] + b->limb[i];+ }+ cryptonite_gf_weak_reduce(out);+}++void cryptonite_gf_sub_RAW (gf out, const gf a, const gf b) {+ uint64_t co1 = ((1ull<<56)-1)*2, co2 = co1-2;+ for (unsigned int i=0; i<8; i++) {+ out->limb[i] = a->limb[i] - b->limb[i] + ((i==4) ? co2 : co1);+ }+ cryptonite_gf_weak_reduce(out);+}++void cryptonite_gf_bias (gf a, int amt) {+ (void) a;+ (void) amt;+}++void cryptonite_gf_weak_reduce (gf a) {+ uint64_t mask = (1ull<<56) - 1;+ uint64_t tmp = a->limb[7] >> 56;+ a->limb[4] += tmp;+ for (unsigned int i=7; i>0; i--) {+ a->limb[i] = (a->limb[i] & mask) + (a->limb[i-1]>>56);+ }+ a->limb[0] = (a->limb[0] & mask) + tmp;+}
+ cbits/decaf/p448/f_arithmetic.c view
@@ -0,0 +1,46 @@+/**+ * @cond internal+ * @file f_arithmetic.c+ * @copyright+ * Copyright (c) 2014 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ * @author Mike Hamburg+ * @brief Field-specific arithmetic.+ */++#include "field.h"++mask_t cryptonite_gf_isr (+ gf a,+ const gf x+) {+ gf L0, L1, L2;+ cryptonite_gf_sqr (L1, x );+ cryptonite_gf_mul (L2, x, L1 );+ cryptonite_gf_sqr (L1, L2 );+ cryptonite_gf_mul (L2, x, L1 );+ cryptonite_gf_sqrn (L1, L2, 3 );+ cryptonite_gf_mul (L0, L2, L1 );+ cryptonite_gf_sqrn (L1, L0, 3 );+ cryptonite_gf_mul (L0, L2, L1 );+ cryptonite_gf_sqrn (L2, L0, 9 );+ cryptonite_gf_mul (L1, L0, L2 );+ cryptonite_gf_sqr (L0, L1 );+ cryptonite_gf_mul (L2, x, L0 );+ cryptonite_gf_sqrn (L0, L2, 18 );+ cryptonite_gf_mul (L2, L1, L0 );+ cryptonite_gf_sqrn (L0, L2, 37 );+ cryptonite_gf_mul (L1, L2, L0 );+ cryptonite_gf_sqrn (L0, L1, 37 );+ cryptonite_gf_mul (L1, L2, L0 );+ cryptonite_gf_sqrn (L0, L1, 111 );+ cryptonite_gf_mul (L2, L1, L0 );+ cryptonite_gf_sqr (L0, L2 );+ cryptonite_gf_mul (L1, x, L0 );+ cryptonite_gf_sqrn (L0, L1, 223 );+ cryptonite_gf_mul (L1, L2, L0 );+ cryptonite_gf_sqr (L2, L1);+ cryptonite_gf_mul (L0, L2, x);+ cryptonite_gf_copy(a,L1);+ return cryptonite_gf_eq(L0,ONE);+}
+ cbits/decaf/p448/f_field.h view
@@ -0,0 +1,108 @@+/**+ * @file p448/f_field.h+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief Field-specific code for 2^448 - 2^224 - 1.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */++#ifndef __P448_F_FIELD_H__+#define __P448_F_FIELD_H__ 1++#include "constant_time.h"+#include <string.h>+#include <assert.h>++#include "word.h"++#define __CRYPTONITE_DECAF_448_GF_DEFINED__ 1+#define NLIMBS (64/sizeof(word_t))+#define X_SER_BYTES 56+#define SER_BYTES 56+typedef struct cryptonite_gf_448_s {+ word_t limb[NLIMBS];+} __attribute__((aligned(16))) cryptonite_gf_448_s, cryptonite_gf_448_t[1];++#define GF_LIT_LIMB_BITS 56+#define GF_BITS 448+#define ZERO cryptonite_gf_448_ZERO+#define ONE cryptonite_gf_448_ONE+#define MODULUS cryptonite_gf_448_MODULUS+#define gf cryptonite_gf_448_t+#define cryptonite_gf_s cryptonite_gf_448_s+#define cryptonite_gf_eq cryptonite_gf_448_eq+#define cryptonite_gf_hibit cryptonite_gf_448_hibit+#define cryptonite_gf_copy cryptonite_gf_448_copy+#define cryptonite_gf_add cryptonite_gf_448_add+#define cryptonite_gf_sub cryptonite_gf_448_sub+#define cryptonite_gf_add_RAW cryptonite_gf_448_add_RAW+#define cryptonite_gf_sub_RAW cryptonite_gf_448_sub_RAW+#define cryptonite_gf_bias cryptonite_gf_448_bias+#define cryptonite_gf_weak_reduce cryptonite_gf_448_weak_reduce+#define cryptonite_gf_strong_reduce cryptonite_gf_448_strong_reduce+#define cryptonite_gf_mul cryptonite_gf_448_mul+#define cryptonite_gf_sqr cryptonite_gf_448_sqr+#define cryptonite_gf_mulw_unsigned cryptonite_gf_448_mulw_unsigned+#define cryptonite_gf_isr cryptonite_gf_448_isr+#define cryptonite_gf_serialize cryptonite_gf_448_serialize+#define cryptonite_gf_deserialize cryptonite_gf_448_deserialize++/* RFC 7748 support */+#define X_PUBLIC_BYTES X_SER_BYTES+#define X_PRIVATE_BYTES X_PUBLIC_BYTES+#define X_PRIVATE_BITS 448++#define SQRT_MINUS_ONE P448_SQRT_MINUS_ONE /* might not be defined */++#define INLINE_UNUSED __inline__ __attribute__((unused,always_inline))++#ifdef __cplusplus+extern "C" {+#endif++/* Defined below in f_impl.h */+static INLINE_UNUSED void cryptonite_gf_copy (gf out, const gf a) { *out = *a; }+static INLINE_UNUSED void cryptonite_gf_add_RAW (gf out, const gf a, const gf b);+static INLINE_UNUSED void cryptonite_gf_sub_RAW (gf out, const gf a, const gf b);+static INLINE_UNUSED void cryptonite_gf_bias (gf inout, int amount);+static INLINE_UNUSED void cryptonite_gf_weak_reduce (gf inout);++void cryptonite_gf_strong_reduce (gf inout); +void cryptonite_gf_add (gf out, const gf a, const gf b);+void cryptonite_gf_sub (gf out, const gf a, const gf b);+void cryptonite_gf_mul (cryptonite_gf_s *__restrict__ out, const gf a, const gf b);+void cryptonite_gf_mulw_unsigned (cryptonite_gf_s *__restrict__ out, const gf a, uint32_t b);+void cryptonite_gf_sqr (cryptonite_gf_s *__restrict__ out, const gf a);+mask_t cryptonite_gf_isr(gf a, const gf x); /** a^2 x = 1, QNR, or 0 if x=0. Return true if successful */+mask_t cryptonite_gf_eq (const gf x, const gf y);+mask_t cryptonite_gf_hibit (const gf x);++void cryptonite_gf_serialize (uint8_t *serial, const gf x,int with_highbit);+mask_t cryptonite_gf_deserialize (gf x, const uint8_t serial[SER_BYTES],int with_highbit);+++#ifdef __cplusplus+} /* extern "C" */+#endif++#include "f_impl.h" /* Bring in the inline implementations */++#define P_MOD_8 7+#if P_MOD_8 == 5+ extern const gf SQRT_MINUS_ONE;+#endif++#ifndef LIMBPERM+ #define LIMBPERM(i) (i)+#endif+#define LIMB_MASK(i) (((1ull)<<LIMB_PLACE_VALUE(i))-1)++static const gf ZERO = {{{0}}}, ONE = {{{ [LIMBPERM(0)] = 1 }}};++#endif /* __P448_F_FIELD_H__ */
+ cbits/decaf/p448/f_generic.c view
@@ -0,0 +1,133 @@+/**+ * @file p448/f_generic.c+ * @author Mike Hamburg+ *+ * @copyright+ * Copyright (c) 2015-2016 Cryptography Research, Inc. \n+ * Released under the MIT License. See LICENSE.txt for license information.+ *+ * @brief Generic arithmetic which has to be compiled per field.+ *+ * @warning This file was automatically generated in Python.+ * Please do not edit it.+ */+#include "field.h"++static const gf MODULUS = {FIELD_LITERAL(+ 0xffffffffffffff, 0xffffffffffffff, 0xffffffffffffff, 0xffffffffffffff, 0xfffffffffffffe, 0xffffffffffffff, 0xffffffffffffff, 0xffffffffffffff+)};+ +#if P_MOD_8 == 5+ const gf SQRT_MINUS_ONE = {FIELD_LITERAL(+ /* NOPE */+ )};+#endif++/** Serialize to wire format. */+void cryptonite_gf_serialize (uint8_t serial[SER_BYTES], const gf x, int with_hibit) {+ gf red;+ cryptonite_gf_copy(red, x);+ cryptonite_gf_strong_reduce(red);+ if (!with_hibit) { assert(cryptonite_gf_hibit(red) == 0); }+ + unsigned int j=0, fill=0;+ dword_t buffer = 0;+ UNROLL for (unsigned int i=0; i<(with_hibit ? X_SER_BYTES : SER_BYTES); i++) {+ if (fill < 8 && j < NLIMBS) {+ buffer |= ((dword_t)red->limb[LIMBPERM(j)]) << fill;+ fill += LIMB_PLACE_VALUE(LIMBPERM(j));+ j++;+ }+ serial[i] = buffer;+ fill -= 8;+ buffer >>= 8;+ }+}++/** Return high bit of x = low bit of 2x mod p */+mask_t cryptonite_gf_hibit(const gf x) {+ gf y;+ cryptonite_gf_add(y,x,x);+ cryptonite_gf_strong_reduce(y);+ return -(y->limb[0]&1);+}++/** Deserialize from wire format; return -1 on success and 0 on failure. */+mask_t cryptonite_gf_deserialize (gf x, const uint8_t serial[SER_BYTES], int with_hibit) {+ unsigned int j=0, fill=0;+ dword_t buffer = 0;+ dsword_t scarry = 0;+ UNROLL for (unsigned int i=0; i<NLIMBS; i++) {+ UNROLL while (fill < LIMB_PLACE_VALUE(LIMBPERM(i)) && j < (with_hibit ? X_SER_BYTES : SER_BYTES)) {+ buffer |= ((dword_t)serial[j]) << fill;+ fill += 8;+ j++;+ }+ x->limb[LIMBPERM(i)] = (i<NLIMBS-1) ? buffer & LIMB_MASK(LIMBPERM(i)) : buffer;+ fill -= LIMB_PLACE_VALUE(LIMBPERM(i));+ buffer >>= LIMB_PLACE_VALUE(LIMBPERM(i));+ scarry = (scarry + x->limb[LIMBPERM(i)] - MODULUS->limb[LIMBPERM(i)]) >> (8*sizeof(word_t));+ }+ mask_t succ = with_hibit ? -(mask_t)1 : ~cryptonite_gf_hibit(x);+ return succ & word_is_zero(buffer) & ~word_is_zero(scarry);+}++/** Reduce to canonical form. */+void cryptonite_gf_strong_reduce (gf a) {+ /* first, clear high */+ cryptonite_gf_weak_reduce(a); /* Determined to have negligible perf impact. */++ /* now the total is less than 2p */++ /* compute total_value - p. No need to reduce mod p. */+ dsword_t scarry = 0;+ for (unsigned int i=0; i<NLIMBS; i++) {+ scarry = scarry + a->limb[LIMBPERM(i)] - MODULUS->limb[LIMBPERM(i)];+ a->limb[LIMBPERM(i)] = scarry & LIMB_MASK(LIMBPERM(i));+ scarry >>= LIMB_PLACE_VALUE(LIMBPERM(i));+ }++ /* uncommon case: it was >= p, so now scarry = 0 and this = x+ * common case: it was < p, so now scarry = -1 and this = x - p + 2^255+ * so let's add back in p. will carry back off the top for 2^255.+ */+ assert(word_is_zero(scarry) | word_is_zero(scarry+1));++ word_t scarry_0 = scarry;+ dword_t carry = 0;++ /* add it back */+ for (unsigned int i=0; i<NLIMBS; i++) {+ carry = carry + a->limb[LIMBPERM(i)] + (scarry_0 & MODULUS->limb[LIMBPERM(i)]);+ a->limb[LIMBPERM(i)] = carry & LIMB_MASK(LIMBPERM(i));+ carry >>= LIMB_PLACE_VALUE(LIMBPERM(i));+ }++ assert(word_is_zero(carry + scarry_0));+}++/** Subtract two gf elements d=a-b */+void cryptonite_gf_sub (gf d, const gf a, const gf b) {+ cryptonite_gf_sub_RAW ( d, a, b );+ cryptonite_gf_bias( d, 2 );+ cryptonite_gf_weak_reduce ( d );+}++/** Add two field elements d = a+b */+void cryptonite_gf_add (gf d, const gf a, const gf b) {+ cryptonite_gf_add_RAW ( d, a, b );+ cryptonite_gf_weak_reduce ( d );+}++/** Compare a==b */+mask_t cryptonite_gf_eq(const gf a, const gf b) {+ gf c;+ cryptonite_gf_sub(c,a,b);+ cryptonite_gf_strong_reduce(c);+ mask_t ret=0;+ for (unsigned int i=0; i<NLIMBS; i++) {+ ret |= c->limb[LIMBPERM(i)];+ }++ return word_is_zero(ret);+}
+ cbits/decaf/utils.c view
@@ -0,0 +1,43 @@+/* Copyright (c) 2015 Cryptography Research, Inc.+ * Released under the MIT License. See LICENSE.txt for license information.+ */++/**+ * @file utils.c+ * @author Mike Hamburg+ * @brief Decaf utility functions.+ */++#include <decaf/common.h>++void cryptonite_decaf_bzero (+ void *s,+ size_t size+) {+#ifdef __STDC_LIB_EXT1__+ memset_s(s, size, 0, size);+#else+ const size_t sw = sizeof(cryptonite_decaf_word_t);+ volatile uint8_t *destroy = (volatile uint8_t *)s;+ for (; size && ((uintptr_t)destroy)%sw; size--, destroy++)+ *destroy = 0;+ for (; size >= sw; size -= sw, destroy += sw)+ *(volatile cryptonite_decaf_word_t *)destroy = 0;+ for (; size; size--, destroy++)+ *destroy = 0;+#endif+}++cryptonite_decaf_bool_t cryptonite_decaf_memeq (+ const void *data1_,+ const void *data2_,+ size_t size+) {+ const unsigned char *data1 = (const unsigned char *)data1_;+ const unsigned char *data2 = (const unsigned char *)data2_;+ unsigned char ret = 0;+ for (; size; size--, data1++, data2++) {+ ret |= *data1 ^ *data2;+ }+ return (((cryptonite_decaf_dword_t)ret) - 1) >> 8;+}
+ cbits/ed25519/ed25519-cryptonite-exts.h view
@@ -0,0 +1,246 @@+/*+ Public domain by Olivier Chéron <olivier.cheron@gmail.com>++ Arithmetic extensions to Ed25519-donna+*/+++/*+ Scalar functions+*/++void+ED25519_FN(ed25519_scalar_encode) (unsigned char out[32], const bignum256modm in) {+ contract256_modm(out, in);+}++void+ED25519_FN(ed25519_scalar_decode_long) (bignum256modm out, const unsigned char *in, size_t len) {+ expand256_modm(out, in, len);+}++int+ED25519_FN(ed25519_scalar_eq) (const bignum256modm a, const bignum256modm b) {+ bignum256modm_element_t e = 0;++ for (int i = 0; i < bignum256modm_limb_size; i++) {+ e |= a[i] ^ b[i];+ }++ return (int) (1 & ((e - 1) >> bignum256modm_bits_per_limb));+}++void+ED25519_FN(ed25519_scalar_add) (bignum256modm r, const bignum256modm x, const bignum256modm y) {+ add256_modm(r, x, y);+}++void+ED25519_FN(ed25519_scalar_mul) (bignum256modm r, const bignum256modm x, const bignum256modm y) {+ mul256_modm(r, x, y);+}+++/*+ Point functions+*/++void+ED25519_FN(ed25519_point_encode) (unsigned char r[32], const ge25519 *p) {+ ge25519_pack(r, p);+}++int+ED25519_FN(ed25519_point_decode_vartime) (ge25519 *r, const unsigned char p[32]) {+ unsigned char p_neg[32];++ // invert parity bit of X coordinate so the point is negated twice+ // (once here, once in ge25519_unpack_negative_vartime)+ for (int i = 0; i < 31; i++) {+ p_neg[i] = p[i];+ }+ p_neg[31] = p[31] ^ 0x80;++ return ge25519_unpack_negative_vartime(r, p_neg);+}++int+ED25519_FN(ed25519_point_eq) (const ge25519 *p, const ge25519 *q) {+ bignum25519 a, b;+ unsigned char contract_a[32], contract_b[32];+ int eq;++ // pX * qZ = qX * pZ+ curve25519_mul(a, p->x, q->z);+ curve25519_contract(contract_a, a);+ curve25519_mul(b, q->x, p->z);+ curve25519_contract(contract_b, b);+ eq = ed25519_verify(contract_a, contract_b, 32);++ // pY * qZ = qY * pZ+ curve25519_mul(a, p->y, q->z);+ curve25519_contract(contract_a, a);+ curve25519_mul(b, q->y, p->z);+ curve25519_contract(contract_b, b);+ eq &= ed25519_verify(contract_a, contract_b, 32);++ return eq;+}++static int+ED25519_FN(ed25519_point_is_identity) (const ge25519 *p) {+ static const unsigned char zero[32] = {0};+ unsigned char check[32];+ bignum25519 d;+ int eq;++ // pX = 0+ curve25519_contract(check, p->x);+ eq = ed25519_verify(check, zero, 32);++ // pY - pZ = 0+ curve25519_sub_reduce(d, p->y, p->z);+ curve25519_contract(check, d);+ eq &= ed25519_verify(check, zero, 32);++ return eq;+}++void+ED25519_FN(ed25519_point_negate) (ge25519 *r, const ge25519 *p) {+ curve25519_neg(r->x, p->x);+ curve25519_copy(r->y, p->y);+ curve25519_copy(r->z, p->z);+ curve25519_neg(r->t, p->t);+}++void+ED25519_FN(ed25519_point_add) (ge25519 *r, const ge25519 *p, const ge25519 *q) {+ ge25519_add(r, p, q);+}++void+ED25519_FN(ed25519_point_double) (ge25519 *r, const ge25519 *p) {+ ge25519_double(r, p);+}++void+ED25519_FN(ed25519_point_mul_by_cofactor) (ge25519 *r, const ge25519 *p) {+ ge25519_double_partial(r, p);+ ge25519_double_partial(r, r);+ ge25519_double(r, r);+}++void+ED25519_FN(ed25519_point_base_scalarmul) (ge25519 *r, const bignum256modm s) {+ ge25519_scalarmult_base_niels(r, ge25519_niels_base_multiples, s);+}++#if defined(ED25519_64BIT)+typedef uint64_t ed25519_move_cond_word;+#else+typedef uint32_t ed25519_move_cond_word;+#endif++/* out = (flag) ? in : out */+DONNA_INLINE static void+ed25519_move_cond_pniels(ge25519_pniels *out, const ge25519_pniels *in, uint32_t flag) {+ const int word_count = sizeof(ge25519_pniels) / sizeof(ed25519_move_cond_word);+ const ed25519_move_cond_word nb = (ed25519_move_cond_word) flag - 1, b = ~nb;++ ed25519_move_cond_word *outw = (ed25519_move_cond_word *) out;+ const ed25519_move_cond_word *inw = (const ed25519_move_cond_word *) in;++ // ge25519_pniels has 4 coordinates, so word_count is divisible by 4+ for (int i = 0; i < word_count; i += 4) {+ outw[i + 0] = (outw[i + 0] & nb) | (inw[i + 0] & b);+ outw[i + 1] = (outw[i + 1] & nb) | (inw[i + 1] & b);+ outw[i + 2] = (outw[i + 2] & nb) | (inw[i + 2] & b);+ outw[i + 3] = (outw[i + 3] & nb) | (inw[i + 3] & b);+ }+}++static void+ed25519_point_scalarmul_w_choose_pniels(ge25519_pniels *t, const ge25519_pniels table[15], uint32_t pos) {+ // initialize t to identity, i.e. (1, 1, 1, 0)+ memset(t, 0, sizeof(ge25519_pniels));+ t->ysubx[0] = 1;+ t->xaddy[0] = 1;+ t->z[0] = 1;++ // move one entry from table matching requested position,+ // scanning all table to avoid cache-timing attack+ //+ // when pos == 0, no entry matches and this returns+ // identity as expected+ for (uint32_t i = 1; i < 16; i++) {+ uint32_t flag = ((i ^ pos) - 1) >> 31;+ ed25519_move_cond_pniels(t, table + i - 1, flag);+ }+}++void+ED25519_FN(ed25519_point_scalarmul) (ge25519 *r, const ge25519 *p, const bignum256modm s) {+ ge25519_pniels mult[15];+ ge25519_pniels pn;+ ge25519_p1p1 t;+ unsigned char ss[32];++ // transform scalar as little-endian number+ contract256_modm(ss, s);++ // initialize r to identity, i.e. ge25519 (0, 1, 1, 0)+ memset(r, 0, sizeof(ge25519));+ r->y[0] = 1;+ r->z[0] = 1;++ // precompute multiples of P: 1.P, 2.P, ..., 15.P+ ge25519_full_to_pniels(&mult[0], p);+ for (int i = 1; i < 15; i++) {+ ge25519_pnielsadd(&mult[i], p, &mult[i-1]);+ }++ // 4-bit fixed window, still 256 doublings but 64 additions+ for (int i = 31; i >= 0; i--) {+ // higher bits in ss[i]+ ed25519_point_scalarmul_w_choose_pniels(&pn, mult, ss[i] >> 4);+ ge25519_pnielsadd_p1p1(&t, r, &pn, 0);+ ge25519_p1p1_to_partial(r, &t);++ ge25519_double_partial(r, r);+ ge25519_double_partial(r, r);+ ge25519_double_partial(r, r);+ ge25519_double(r, r);++ // lower bits in ss[i]+ ed25519_point_scalarmul_w_choose_pniels(&pn, mult, ss[i] & 0x0F);+ ge25519_pnielsadd_p1p1(&t, r, &pn, 0);+ if (i > 0) {+ ge25519_p1p1_to_partial(r, &t);++ ge25519_double_partial(r, r);+ ge25519_double_partial(r, r);+ ge25519_double_partial(r, r);+ ge25519_double(r, r);+ } else {+ ge25519_p1p1_to_full(r, &t);+ }+ }+}++void+ED25519_FN(ed25519_base_double_scalarmul_vartime) (ge25519 *r, const bignum256modm s1, const ge25519 *p2, const bignum256modm s2) {+ // computes [s1]basepoint + [s2]p2+ ge25519_double_scalarmult_vartime(r, p2, s2, s1);+}++int+ED25519_FN(ed25519_point_has_prime_order) (const ge25519 *p) {+ static const bignum256modm sc_zero = {0};+ ge25519 q;++ // computes Q = m.P, vartime allowed because m is not secret+ ED25519_FN(ed25519_base_double_scalarmul_vartime) (&q, sc_zero, p, modm_m);++ return ED25519_FN(ed25519_point_is_identity) (&q);+}
cbits/ed25519/ed25519-donna-impl-base.h view
@@ -287,7 +287,13 @@ ge25519_nielsadd2_p1p1(&t, r, &ge25519_niels_sliding_multiples[abs(slide2[i]) / 2], (unsigned char)slide2[i] >> 7); } - ge25519_p1p1_to_partial(r, &t);+ // diverges from the original source code and resolves bug explained+ // in <https://github.com/floodyberry/ed25519-donna/issues/31>+ if (i == 0) {+ ge25519_p1p1_to_full(r, &t);+ } else {+ ge25519_p1p1_to_partial(r, &t);+ } } }
cbits/ed25519/ed25519.c view
@@ -11,6 +11,7 @@ #include "ed25519.h" #include "ed25519-randombytes.h" #include "ed25519-hash.h"+#include "ed25519-cryptonite-exts.h" /* Generates a (extsk[0..31]) and aExt (extsk[32..63])
− cbits/ed448/x448.c
@@ -1,311 +0,0 @@-/* Copyright (c) 2015 Cryptography Research, Inc.- * Released under the MIT License. See LICENSE.txt for license information.- */--/**- * @file decaf.c- * @author Mike Hamburg- * @brief Decaf high-level functions.- */--#include <stdint.h>-#include "x448.h"--#ifdef ARCH_X86_64-#define WBITS 64-#else-#define WBITS 32-#endif--#define LBITS (WBITS * 7 / 8)-#define X448_LIMBS (448/LBITS)--#if WBITS == 64-typedef uint64_t decaf_word_t;-typedef int64_t decaf_sword_t;-typedef __uint128_t decaf_dword_t;-typedef __int128_t decaf_sdword_t;-#elif WBITS == 32-typedef uint32_t decaf_word_t;-typedef int32_t decaf_sword_t;-typedef uint64_t decaf_dword_t;-typedef int64_t decaf_sdword_t;-#else-#error "WBITS must be 32 or 64"-#endif--typedef struct { decaf_word_t limb[X448_LIMBS]; } gf_s, gf[1];--const unsigned char X448_BASE_POINT[X448_BYTES] = {5};--static const gf ZERO = {{{0}}}, ONE = {{{1}}};--#define LMASK ((((decaf_word_t)1)<<LBITS)-1)-#if WBITS == 64-static const gf P = {{{ LMASK, LMASK, LMASK, LMASK, LMASK-1, LMASK, LMASK, LMASK }}};-#else-static const gf P = {{{ LMASK, LMASK, LMASK, LMASK, LMASK, LMASK, LMASK, LMASK,- LMASK-1, LMASK, LMASK, LMASK, LMASK, LMASK, LMASK, LMASK }}};-#endif-static const int EDWARDS_D = -39081;--#if (defined(__OPTIMIZE__) && !defined(__OPTIMIZE_SIZE__)) || defined(DECAF_FORCE_UNROLL)- #if X448_LIMBS==8- #define FOR_LIMB_U(i,op) { unsigned int i=0; \- op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; \- }- #elif X448_LIMBS==16- #define FOR_LIMB_U(i,op) { unsigned int i=0; \- op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; \- op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; op;i++; \- }- #else- #define FOR_LIMB_U(i,op) { unsigned int i=0; for (i=0; i<X448_LIMBS; i++) { op; }}- #endif-#else-#define FOR_LIMB_U(i,op) { unsigned int i=0; for (i=0; i<X448_LIMBS; i++) { op; }}-#endif--#define FOR_LIMB(i,op) { unsigned int i=0; for (i=0; i<X448_LIMBS; i++) { op; }}--/** Copy x = y */-static void gf_cpy(gf x, const gf y) {- FOR_LIMB_U(i, x->limb[i] = y->limb[i]);-}--/** Mostly-unoptimized multiply (PERF), but at least it's unrolled. */-static void-gf_mul (gf c, const gf a, const gf b) {- gf aa;- gf_cpy(aa,a);-- decaf_dword_t accum[X448_LIMBS] = {0};- FOR_LIMB_U(i, {- FOR_LIMB_U(j,{ accum[(i+j)%X448_LIMBS] += (decaf_dword_t)b->limb[i] * aa->limb[j]; });- aa->limb[(X448_LIMBS-1-i)^(X448_LIMBS/2)] += aa->limb[X448_LIMBS-1-i];- });-- accum[X448_LIMBS-1] += accum[X448_LIMBS-2] >> LBITS;- accum[X448_LIMBS-2] &= LMASK;- accum[X448_LIMBS/2] += accum[X448_LIMBS-1] >> LBITS;- FOR_LIMB_U(j,{- accum[j] += accum[(j-1)%X448_LIMBS] >> LBITS;- accum[(j-1)%X448_LIMBS] &= LMASK;- });- FOR_LIMB_U(j, c->limb[j] = accum[j] );-}--/** No dedicated square (PERF) */-#define gf_sqr(c,a) gf_mul(c,a,a)--/** Inverse square root using addition chain. */-static void-gf_isqrt(gf y, const gf x) {- int i;-#define STEP(s,m,n) gf_mul(s,m,c); gf_cpy(c,s); for (i=0;i<n;i++) gf_sqr(c,c);- gf a, b, c;- gf_sqr ( c, x );- STEP(b,x,1);- STEP(b,x,3);- STEP(a,b,3);- STEP(a,b,9);- STEP(b,a,1);- STEP(a,x,18);- STEP(a,b,37);- STEP(b,a,37);- STEP(b,a,111);- STEP(a,b,1);- STEP(b,x,223);- gf_mul(y,a,c);-}--static void-gf_inv(gf y, const gf x) {- gf z,w;- gf_sqr(z,x); /* x^2 */- gf_isqrt(w,z); /* +- 1/sqrt(x^2) = +- 1/x */- gf_sqr(z,w); /* 1/x^2 */- gf_mul(w,x,z); /* 1/x */- gf_cpy(y,w);-}--/** Weak reduce mod p. */-static void-gf_reduce(gf x) {- x->limb[X448_LIMBS/2] += x->limb[X448_LIMBS-1] >> LBITS;- FOR_LIMB_U(j,{- x->limb[j] += x->limb[(j-1)%X448_LIMBS] >> LBITS;- x->limb[(j-1)%X448_LIMBS] &= LMASK;- });-}--/** Add mod p. Conservatively always weak-reduce. (PERF) */-static void-gf_add ( gf x, const gf y, const gf z ) {- FOR_LIMB_U(i, x->limb[i] = y->limb[i] + z->limb[i] );- gf_reduce(x);-}--/** Subtract mod p. Conservatively always weak-reduce. (PERF) */-static void-gf_sub ( gf x, const gf y, const gf z ) {- FOR_LIMB_U(i, x->limb[i] = y->limb[i] - z->limb[i] + 2*P->limb[i] );- gf_reduce(x);-}--/** Constant time, if (swap) (x,y) = (y,x); */-static void-cond_swap(gf x, gf_s *__restrict__ y, decaf_word_t swap) {- FOR_LIMB_U(i, {- decaf_word_t s = (x->limb[i] ^ y->limb[i]) & swap;- x->limb[i] ^= s;- y->limb[i] ^= s;- });-}--/**- * Mul by signed int. Not constant-time WRT the sign of that int.- * Just uses a full mul (PERF)- */-static inline void-gf_mlw(gf a, const gf b, int w) {- if (w>0) {- gf ww = {{{w}}};- gf_mul(a,b,ww);- } else {- gf ww = {{{-w}}};- gf_mul(a,b,ww);- gf_sub(a,ZERO,a);- }-}--/** Canonicalize */-static void gf_canon ( gf a ) {- gf_reduce(a);-- /* subtract p with borrow */- decaf_sdword_t carry = 0;- FOR_LIMB(i, {- carry = carry + a->limb[i] - P->limb[i];- a->limb[i] = carry & LMASK;- carry >>= LBITS;- });-- decaf_word_t addback = carry;- carry = 0;-- /* add it back */- FOR_LIMB(i, {- carry = carry + a->limb[i] + (P->limb[i] & addback);- a->limb[i] = carry & LMASK;- carry >>= LBITS;- });-}--/* Deserialize */-static decaf_word_t-gf_deser(gf s, const unsigned char ser[X448_BYTES]) {- unsigned int i, k=0, bits=0;- decaf_dword_t buf=0;- for (i=0; i<X448_BYTES; i++) {- buf |= (decaf_dword_t)ser[i]<<bits;- for (bits += 8; (bits>=LBITS || i==X448_BYTES-1) && k<X448_LIMBS; bits-=LBITS, buf>>=LBITS) {- s->limb[k++] = buf & LMASK;- }- }-- decaf_sdword_t accum = 0;- FOR_LIMB(i, accum = (accum + s->limb[i] - P->limb[i]) >> WBITS );- return accum;-}--/* Serialize */-static void-gf_ser(uint8_t ser[X448_BYTES], gf a) {- gf_canon(a);- int k=0, bits=0;- decaf_dword_t buf=0;- FOR_LIMB(i, {- buf |= (decaf_dword_t)a->limb[i]<<bits;- for (bits += LBITS; (bits>=8 || i==X448_LIMBS-1) && k<X448_BYTES; bits-=8, buf>>=8) {- ser[k++]=buf;- }- });-}--int __attribute__((visibility("default"))) cryptonite_x448 (- unsigned char out[X448_BYTES],- const unsigned char scalar[X448_BYTES],- const unsigned char base[X448_BYTES]-) {- gf x1, x2, z2, x3, z3, t1, t2;- gf_deser(x1,base);- gf_cpy(x2,ONE);- gf_cpy(z2,ZERO);- gf_cpy(x3,x1);- gf_cpy(z3,ONE);-- int t;- decaf_word_t swap = 0;-- for (t = 448-1; t>=0; t--) {- uint8_t sb = scalar[t/8];-- /* Scalar conditioning */- if (t/8==0) sb &= 0xFC;- else if (t/8 == X448_BYTES-1) sb |= 0x80;-- decaf_word_t k_t = (sb>>(t%8)) & 1;- k_t = -k_t; /* set to all 0s or all 1s */-- swap ^= k_t;- cond_swap(x2,x3,swap);- cond_swap(z2,z3,swap);- swap = k_t;-- gf_add(t1,x2,z2); /* A = x2 + z2 */- gf_sub(t2,x2,z2); /* B = x2 - z2 */- gf_sub(z2,x3,z3); /* D = x3 - z3 */- gf_mul(x2,t1,z2); /* DA */- gf_add(z2,z3,x3); /* C = x3 + z3 */- gf_mul(x3,t2,z2); /* CB */- gf_sub(z3,x2,x3); /* DA-CB */- gf_sqr(z2,z3); /* (DA-CB)^2 */- gf_mul(z3,x1,z2); /* z3 = x1(DA-CB)^2 */- gf_add(z2,x2,x3); /* (DA+CB) */- gf_sqr(x3,z2); /* x3 = (DA+CB)^2 */-- gf_sqr(z2,t1); /* AA = A^2 */- gf_sqr(t1,t2); /* BB = B^2 */- gf_mul(x2,z2,t1); /* x2 = AA*BB */- gf_sub(t2,z2,t1); /* E = AA-BB */-- gf_mlw(t1,t2,-EDWARDS_D); /* E*-d = a24*E */- gf_add(t1,t1,z2); /* AA + a24*E */- gf_mul(z2,t2,t1); /* z2 = E(AA+a24*E) */- }-- /* Finish */- cond_swap(x2,x3,swap);- cond_swap(z2,z3,swap);- gf_inv(z2,z2);- gf_mul(x1,x2,z2);- gf_ser(out,x1);-- decaf_sword_t nz = 0;- for (t=0; t<X448_BYTES; t++) {- nz |= out[t];- }- nz = (nz-1)>>8; /* 0 = succ, -1 = fail */-- /* return value: 0 = succ, -1 = fail */- return nz;-}--int __attribute__((visibility("default")))-cryptonite_x448_base (- unsigned char out[X448_BYTES],- const unsigned char scalar[X448_BYTES]-) {- return cryptonite_x448(out,scalar,X448_BASE_POINT);-}
− cbits/ed448/x448.h
@@ -1,25 +0,0 @@--#define X448_BYTES (448/8)--/* The base point (5) */-extern const unsigned char X448_BASE_POINT[X448_BYTES];--/* Returns 0 on success, -1 on failure */-int __attribute__((visibility("default")))-cryptonite_x448 (- unsigned char out[X448_BYTES],- const unsigned char scalar[X448_BYTES],- const unsigned char base[X448_BYTES]-);--/* Returns 0 on success, -1 on failure- *- * Same as x448(out,scalar,X448_BASE_POINT), except that- * an implementation may optimize it.- */-int __attribute__((visibility("default")))-cryptonite_x448_base (- unsigned char out[X448_BYTES],- const unsigned char scalar[X448_BYTES]-);-
+ cbits/include32/p256/p256.h view
@@ -0,0 +1,167 @@+/*+ * Copyright 2013 The Android Open Source Project+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions are met:+ * * Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * * Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ * * Neither the name of Google Inc. nor the names of its contributors may+ * be used to endorse or promote products derived from this software+ * without specific prior written permission.+ *+ * THIS SOFTWARE IS PROVIDED BY Google Inc. ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF+ * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO+ * EVENT SHALL Google Inc. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,+ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;+ * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR+ * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF+ * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */++#ifndef SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_+#define SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_++// Collection of routines manipulating 256 bit unsigned integers.+// Just enough to implement ecdsa-p256 and related algorithms.++#include <stdint.h>++#ifdef __cplusplus+extern "C" {+#endif++#define P256_BITSPERDIGIT 32+#define P256_NDIGITS 8+#define P256_NBYTES 32++// n' such as n * n' = -1 mod (2^32)+#define P256_MONTGOMERY_FACTOR 0xEE00BC4F++#define P256_LITERAL(lo,hi) (lo), (hi)++typedef int cryptonite_p256_err;+typedef uint32_t cryptonite_p256_digit;+typedef int32_t cryptonite_p256_sdigit;+typedef uint64_t cryptonite_p256_ddigit;+typedef int64_t cryptonite_p256_sddigit;++// Defining cryptonite_p256_int as struct to leverage struct assigment.+typedef struct {+ cryptonite_p256_digit a[P256_NDIGITS];+} cryptonite_p256_int;++extern const cryptonite_p256_int cryptonite_SECP256r1_n; // Curve order+extern const cryptonite_p256_int cryptonite_SECP256r1_p; // Curve prime+extern const cryptonite_p256_int cryptonite_SECP256r1_b; // Curve param++// Initialize a cryptonite_p256_int to zero.+void cryptonite_p256_init(cryptonite_p256_int* a);++// Clear a cryptonite_p256_int to zero.+void cryptonite_p256_clear(cryptonite_p256_int* a);++// Return bit. Index 0 is least significant.+int cryptonite_p256_get_bit(const cryptonite_p256_int* a, int index);++// b := a % MOD+void cryptonite_p256_mod(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ cryptonite_p256_int* b);++// c := a * (top_b | b) % MOD+void cryptonite_p256_modmul(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ const cryptonite_p256_digit top_b,+ const cryptonite_p256_int* b,+ cryptonite_p256_int* c);++// b := 1 / a % MOD+// MOD best be SECP256r1_n+void cryptonite_p256_modinv(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ cryptonite_p256_int* b);++// b := 1 / a % MOD+// MOD best be SECP256r1_n+// Faster than cryptonite_p256_modinv()+void cryptonite_p256_modinv_vartime(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ cryptonite_p256_int* b);++// b := a << (n % P256_BITSPERDIGIT)+// Returns the bits shifted out of most significant digit.+cryptonite_p256_digit cryptonite_p256_shl(const cryptonite_p256_int* a, int n, cryptonite_p256_int* b);++// b := a >> (n % P256_BITSPERDIGIT)+void cryptonite_p256_shr(const cryptonite_p256_int* a, int n, cryptonite_p256_int* b);++int cryptonite_p256_is_zero(const cryptonite_p256_int* a);+int cryptonite_p256_is_odd(const cryptonite_p256_int* a);+int cryptonite_p256_is_even(const cryptonite_p256_int* a);++// Returns -1, 0 or 1.+int cryptonite_p256_cmp(const cryptonite_p256_int* a, const cryptonite_p256_int *b);++// c: = a - b+// Returns -1 on borrow.+int cryptonite_p256_sub(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c);++// c := a + b+// Returns 1 on carry.+int cryptonite_p256_add(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c);++// c := a + (single digit)b+// Returns carry 1 on carry.+int cryptonite_p256_add_d(const cryptonite_p256_int* a, cryptonite_p256_digit b, cryptonite_p256_int* c);++// ec routines.++// {out_x,out_y} := nG+void cryptonite_p256_base_point_mul(const cryptonite_p256_int *n,+ cryptonite_p256_int *out_x,+ cryptonite_p256_int *out_y);++// {out_x,out_y} := n{in_x,in_y}+void cryptonite_p256_point_mul(const cryptonite_p256_int *n,+ const cryptonite_p256_int *in_x,+ const cryptonite_p256_int *in_y,+ cryptonite_p256_int *out_x,+ cryptonite_p256_int *out_y);++// {out_x,out_y} := n1G + n2{in_x,in_y}+void cryptonite_p256_points_mul_vartime(+ const cryptonite_p256_int *n1, const cryptonite_p256_int *n2,+ const cryptonite_p256_int *in_x, const cryptonite_p256_int *in_y,+ cryptonite_p256_int *out_x, cryptonite_p256_int *out_y);++// Return whether point {x,y} is on curve.+int cryptonite_p256_is_valid_point(const cryptonite_p256_int* x, const cryptonite_p256_int* y);++// Outputs big-endian binary form. No leading zero skips.+void cryptonite_p256_to_bin(const cryptonite_p256_int* src, uint8_t dst[P256_NBYTES]);++// Reads from big-endian binary form,+// thus pre-pad with leading zeros if short.+void cryptonite_p256_from_bin(const uint8_t src[P256_NBYTES], cryptonite_p256_int* dst);++#define P256_DIGITS(x) ((x)->a)+#define P256_DIGIT(x,y) ((x)->a[y])++#define P256_ZERO {{0}}+#define P256_ONE {{1}}++#ifdef __cplusplus+}+#endif++#endif // SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_
+ cbits/include32/p256/p256_gf.h view
@@ -0,0 +1,779 @@+/*+ * Copyright 2013 The Android Open Source Project+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions are met:+ * * Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * * Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ * * Neither the name of Google Inc. nor the names of its contributors may+ * be used to endorse or promote products derived from this software+ * without specific prior written permission.+ *+ * THIS SOFTWARE IS PROVIDED BY Google Inc. ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF+ * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO+ * EVENT SHALL Google Inc. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,+ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;+ * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR+ * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF+ * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */++// This is an implementation of the P256 finite field. It's written to be+// portable and still constant-time.+//+// WARNING: Implementing these functions in a constant-time manner is far from+// obvious. Be careful when touching this code.+//+// See http://www.imperialviolet.org/2010/12/04/ecc.html ([1]) for background.++#include <stdint.h>+#include <stdio.h>++#include <string.h>+#include <stdlib.h>++#include "p256/p256.h"++typedef uint8_t u8;+typedef uint32_t u32;+typedef int32_t s32;+typedef uint64_t u64;++/* Our field elements are represented as nine 32-bit limbs.+ *+ * The value of an felem (field element) is:+ * x[0] + (x[1] * 2**29) + (x[2] * 2**57) + ... + (x[8] * 2**228)+ *+ * That is, each limb is alternately 29 or 28-bits wide in little-endian+ * order.+ *+ * This means that an felem hits 2**257, rather than 2**256 as we would like. A+ * 28, 29, ... pattern would cause us to hit 2**256, but that causes problems+ * when multiplying as terms end up one bit short of a limb which would require+ * much bit-shifting to correct.+ *+ * Finally, the values stored in an felem are in Montgomery form. So the value+ * |y| is stored as (y*R) mod p, where p is the P-256 prime and R is 2**257.+ */+typedef u32 limb;+#define NLIMBS 9+typedef limb felem[NLIMBS];++static const limb kBottom28Bits = 0xfffffff;+static const limb kBottom29Bits = 0x1fffffff;++/* kOne is the number 1 as an felem. It's 2**257 mod p split up into 29 and+ * 28-bit words. */+static const felem kOne = {+ 2, 0, 0, 0xffff800,+ 0x1fffffff, 0xfffffff, 0x1fbfffff, 0x1ffffff,+ 0+};+static const felem kZero = {0};+static const felem kP = {+ 0x1fffffff, 0xfffffff, 0x1fffffff, 0x3ff,+ 0, 0, 0x200000, 0xf000000,+ 0xfffffff+};+static const felem k2P = {+ 0x1ffffffe, 0xfffffff, 0x1fffffff, 0x7ff,+ 0, 0, 0x400000, 0xe000000,+ 0x1fffffff+};+/* kPrecomputed contains precomputed values to aid the calculation of scalar+ * multiples of the base point, G. It's actually two, equal length, tables+ * concatenated.+ *+ * The first table contains (x,y) felem pairs for 16 multiples of the base+ * point, G.+ *+ * Index | Index (binary) | Value+ * 0 | 0000 | 0G (all zeros, omitted)+ * 1 | 0001 | G+ * 2 | 0010 | 2**64G+ * 3 | 0011 | 2**64G + G+ * 4 | 0100 | 2**128G+ * 5 | 0101 | 2**128G + G+ * 6 | 0110 | 2**128G + 2**64G+ * 7 | 0111 | 2**128G + 2**64G + G+ * 8 | 1000 | 2**192G+ * 9 | 1001 | 2**192G + G+ * 10 | 1010 | 2**192G + 2**64G+ * 11 | 1011 | 2**192G + 2**64G + G+ * 12 | 1100 | 2**192G + 2**128G+ * 13 | 1101 | 2**192G + 2**128G + G+ * 14 | 1110 | 2**192G + 2**128G + 2**64G+ * 15 | 1111 | 2**192G + 2**128G + 2**64G + G+ *+ * The second table follows the same style, but the terms are 2**32G,+ * 2**96G, 2**160G, 2**224G.+ *+ * This is ~2KB of data. */+static const limb kPrecomputed[NLIMBS * 2 * 15 * 2] = {+ 0x11522878, 0xe730d41, 0xdb60179, 0x4afe2ff, 0x12883add, 0xcaddd88, 0x119e7edc, 0xd4a6eab, 0x3120bee,+ 0x1d2aac15, 0xf25357c, 0x19e45cdd, 0x5c721d0, 0x1992c5a5, 0xa237487, 0x154ba21, 0x14b10bb, 0xae3fe3,+ 0xd41a576, 0x922fc51, 0x234994f, 0x60b60d3, 0x164586ae, 0xce95f18, 0x1fe49073, 0x3fa36cc, 0x5ebcd2c,+ 0xb402f2f, 0x15c70bf, 0x1561925c, 0x5a26704, 0xda91e90, 0xcdc1c7f, 0x1ea12446, 0xe1ade1e, 0xec91f22,+ 0x26f7778, 0x566847e, 0xa0bec9e, 0x234f453, 0x1a31f21a, 0xd85e75c, 0x56c7109, 0xa267a00, 0xb57c050,+ 0x98fb57, 0xaa837cc, 0x60c0792, 0xcfa5e19, 0x61bab9e, 0x589e39b, 0xa324c5, 0x7d6dee7, 0x2976e4b,+ 0x1fc4124a, 0xa8c244b, 0x1ce86762, 0xcd61c7e, 0x1831c8e0, 0x75774e1, 0x1d96a5a9, 0x843a649, 0xc3ab0fa,+ 0x6e2e7d5, 0x7673a2a, 0x178b65e8, 0x4003e9b, 0x1a1f11c2, 0x7816ea, 0xf643e11, 0x58c43df, 0xf423fc2,+ 0x19633ffa, 0x891f2b2, 0x123c231c, 0x46add8c, 0x54700dd, 0x59e2b17, 0x172db40f, 0x83e277d, 0xb0dd609,+ 0xfd1da12, 0x35c6e52, 0x19ede20c, 0xd19e0c0, 0x97d0f40, 0xb015b19, 0x449e3f5, 0xe10c9e, 0x33ab581,+ 0x56a67ab, 0x577734d, 0x1dddc062, 0xc57b10d, 0x149b39d, 0x26a9e7b, 0xc35df9f, 0x48764cd, 0x76dbcca,+ 0xca4b366, 0xe9303ab, 0x1a7480e7, 0x57e9e81, 0x1e13eb50, 0xf466cf3, 0x6f16b20, 0x4ba3173, 0xc168c33,+ 0x15cb5439, 0x6a38e11, 0x73658bd, 0xb29564f, 0x3f6dc5b, 0x53b97e, 0x1322c4c0, 0x65dd7ff, 0x3a1e4f6,+ 0x14e614aa, 0x9246317, 0x1bc83aca, 0xad97eed, 0xd38ce4a, 0xf82b006, 0x341f077, 0xa6add89, 0x4894acd,+ 0x9f162d5, 0xf8410ef, 0x1b266a56, 0xd7f223, 0x3e0cb92, 0xe39b672, 0x6a2901a, 0x69a8556, 0x7e7c0,+ 0x9b7d8d3, 0x309a80, 0x1ad05f7f, 0xc2fb5dd, 0xcbfd41d, 0x9ceb638, 0x1051825c, 0xda0cf5b, 0x812e881,+ 0x6f35669, 0x6a56f2c, 0x1df8d184, 0x345820, 0x1477d477, 0x1645db1, 0xbe80c51, 0xc22be3e, 0xe35e65a,+ 0x1aeb7aa0, 0xc375315, 0xf67bc99, 0x7fdd7b9, 0x191fc1be, 0x61235d, 0x2c184e9, 0x1c5a839, 0x47a1e26,+ 0xb7cb456, 0x93e225d, 0x14f3c6ed, 0xccc1ac9, 0x17fe37f3, 0x4988989, 0x1a90c502, 0x2f32042, 0xa17769b,+ 0xafd8c7c, 0x8191c6e, 0x1dcdb237, 0x16200c0, 0x107b32a1, 0x66c08db, 0x10d06a02, 0x3fc93, 0x5620023,+ 0x16722b27, 0x68b5c59, 0x270fcfc, 0xfad0ecc, 0xe5de1c2, 0xeab466b, 0x2fc513c, 0x407f75c, 0xbaab133,+ 0x9705fe9, 0xb88b8e7, 0x734c993, 0x1e1ff8f, 0x19156970, 0xabd0f00, 0x10469ea7, 0x3293ac0, 0xcdc98aa,+ 0x1d843fd, 0xe14bfe8, 0x15be825f, 0x8b5212, 0xeb3fb67, 0x81cbd29, 0xbc62f16, 0x2b6fcc7, 0xf5a4e29,+ 0x13560b66, 0xc0b6ac2, 0x51ae690, 0xd41e271, 0xf3e9bd4, 0x1d70aab, 0x1029f72, 0x73e1c35, 0xee70fbc,+ 0xad81baf, 0x9ecc49a, 0x86c741e, 0xfe6be30, 0x176752e7, 0x23d416, 0x1f83de85, 0x27de188, 0x66f70b8,+ 0x181cd51f, 0x96b6e4c, 0x188f2335, 0xa5df759, 0x17a77eb6, 0xfeb0e73, 0x154ae914, 0x2f3ec51, 0x3826b59,+ 0xb91f17d, 0x1c72949, 0x1362bf0a, 0xe23fddf, 0xa5614b0, 0xf7d8f, 0x79061, 0x823d9d2, 0x8213f39,+ 0x1128ae0b, 0xd095d05, 0xb85c0c2, 0x1ecb2ef, 0x24ddc84, 0xe35e901, 0x18411a4a, 0xf5ddc3d, 0x3786689,+ 0x52260e8, 0x5ae3564, 0x542b10d, 0x8d93a45, 0x19952aa4, 0x996cc41, 0x1051a729, 0x4be3499, 0x52b23aa,+ 0x109f307e, 0x6f5b6bb, 0x1f84e1e7, 0x77a0cfa, 0x10c4df3f, 0x25a02ea, 0xb048035, 0xe31de66, 0xc6ecaa3,+ 0x28ea335, 0x2886024, 0x1372f020, 0xf55d35, 0x15e4684c, 0xf2a9e17, 0x1a4a7529, 0xcb7beb1, 0xb2a78a1,+ 0x1ab21f1f, 0x6361ccf, 0x6c9179d, 0xb135627, 0x1267b974, 0x4408bad, 0x1cbff658, 0xe3d6511, 0xc7d76f,+ 0x1cc7a69, 0xe7ee31b, 0x54fab4f, 0x2b914f, 0x1ad27a30, 0xcd3579e, 0xc50124c, 0x50daa90, 0xb13f72,+ 0xb06aa75, 0x70f5cc6, 0x1649e5aa, 0x84a5312, 0x329043c, 0x41c4011, 0x13d32411, 0xb04a838, 0xd760d2d,+ 0x1713b532, 0xbaa0c03, 0x84022ab, 0x6bcf5c1, 0x2f45379, 0x18ae070, 0x18c9e11e, 0x20bca9a, 0x66f496b,+ 0x3eef294, 0x67500d2, 0xd7f613c, 0x2dbbeb, 0xb741038, 0xe04133f, 0x1582968d, 0xbe985f7, 0x1acbc1a,+ 0x1a6a939f, 0x33e50f6, 0xd665ed4, 0xb4b7bd6, 0x1e5a3799, 0x6b33847, 0x17fa56ff, 0x65ef930, 0x21dc4a,+ 0x2b37659, 0x450fe17, 0xb357b65, 0xdf5efac, 0x15397bef, 0x9d35a7f, 0x112ac15f, 0x624e62e, 0xa90ae2f,+ 0x107eecd2, 0x1f69bbe, 0x77d6bce, 0x5741394, 0x13c684fc, 0x950c910, 0x725522b, 0xdc78583, 0x40eeabb,+ 0x1fde328a, 0xbd61d96, 0xd28c387, 0x9e77d89, 0x12550c40, 0x759cb7d, 0x367ef34, 0xae2a960, 0x91b8bdc,+ 0x93462a9, 0xf469ef, 0xb2e9aef, 0xd2ca771, 0x54e1f42, 0x7aaa49, 0x6316abb, 0x2413c8e, 0x5425bf9,+ 0x1bed3e3a, 0xf272274, 0x1f5e7326, 0x6416517, 0xea27072, 0x9cedea7, 0x6e7633, 0x7c91952, 0xd806dce,+ 0x8e2a7e1, 0xe421e1a, 0x418c9e1, 0x1dbc890, 0x1b395c36, 0xa1dc175, 0x1dc4ef73, 0x8956f34, 0xe4b5cf2,+ 0x1b0d3a18, 0x3194a36, 0x6c2641f, 0xe44124c, 0xa2f4eaa, 0xa8c25ba, 0xf927ed7, 0x627b614, 0x7371cca,+ 0xba16694, 0x417bc03, 0x7c0a7e3, 0x9c35c19, 0x1168a205, 0x8b6b00d, 0x10e3edc9, 0x9c19bf2, 0x5882229,+ 0x1b2b4162, 0xa5cef1a, 0x1543622b, 0x9bd433e, 0x364e04d, 0x7480792, 0x5c9b5b3, 0xe85ff25, 0x408ef57,+ 0x1814cfa4, 0x121b41b, 0xd248a0f, 0x3b05222, 0x39bb16a, 0xc75966d, 0xa038113, 0xa4a1769, 0x11fbc6c,+ 0x917e50e, 0xeec3da8, 0x169d6eac, 0x10c1699, 0xa416153, 0xf724912, 0x15cd60b7, 0x4acbad9, 0x5efc5fa,+ 0xf150ed7, 0x122b51, 0x1104b40a, 0xcb7f442, 0xfbb28ff, 0x6ac53ca, 0x196142cc, 0x7bf0fa9, 0x957651,+ 0x4e0f215, 0xed439f8, 0x3f46bd5, 0x5ace82f, 0x110916b6, 0x6db078, 0xffd7d57, 0xf2ecaac, 0xca86dec,+ 0x15d6b2da, 0x965ecc9, 0x1c92b4c2, 0x1f3811, 0x1cb080f5, 0x2d8b804, 0x19d1c12d, 0xf20bd46, 0x1951fa7,+ 0xa3656c3, 0x523a425, 0xfcd0692, 0xd44ddc8, 0x131f0f5b, 0xaf80e4a, 0xcd9fc74, 0x99bb618, 0x2db944c,+ 0xa673090, 0x1c210e1, 0x178c8d23, 0x1474383, 0x10b8743d, 0x985a55b, 0x2e74779, 0x576138, 0x9587927,+ 0x133130fa, 0xbe05516, 0x9f4d619, 0xbb62570, 0x99ec591, 0xd9468fe, 0x1d07782d, 0xfc72e0b, 0x701b298,+ 0x1863863b, 0x85954b8, 0x121a0c36, 0x9e7fedf, 0xf64b429, 0x9b9d71e, 0x14e2f5d8, 0xf858d3a, 0x942eea8,+ 0xda5b765, 0x6edafff, 0xa9d18cc, 0xc65e4ba, 0x1c747e86, 0xe4ea915, 0x1981d7a1, 0x8395659, 0x52ed4e2,+ 0x87d43b7, 0x37ab11b, 0x19d292ce, 0xf8d4692, 0x18c3053f, 0x8863e13, 0x4c146c0, 0x6bdf55a, 0x4e4457d,+ 0x16152289, 0xac78ec2, 0x1a59c5a2, 0x2028b97, 0x71c2d01, 0x295851f, 0x404747b, 0x878558d, 0x7d29aa4,+ 0x13d8341f, 0x8daefd7, 0x139c972d, 0x6b7ea75, 0xd4a9dde, 0xff163d8, 0x81d55d7, 0xa5bef68, 0xb7b30d8,+ 0xbe73d6f, 0xaa88141, 0xd976c81, 0x7e7a9cc, 0x18beb771, 0xd773cbd, 0x13f51951, 0x9d0c177, 0x1c49a78,+};+++/* Field element operations: */++/* NON_ZERO_TO_ALL_ONES returns:+ * 0xffffffff for 0 < x <= 2**31+ * 0 for x == 0 or x > 2**31.+ *+ * x must be a u32 or an equivalent type such as limb. */+#define NON_ZERO_TO_ALL_ONES(x) ((((u32)(x) - 1) >> 31) - 1)++/* felem_reduce_carry adds a multiple of p in order to cancel |carry|,+ * which is a term at 2**257.+ *+ * On entry: carry < 2**3, inout[0,2,...] < 2**29, inout[1,3,...] < 2**28.+ * On exit: inout[0,2,..] < 2**30, inout[1,3,...] < 2**29. */+static void felem_reduce_carry(felem inout, limb carry) {+ const u32 carry_mask = NON_ZERO_TO_ALL_ONES(carry);++ inout[0] += carry << 1;+ inout[3] += 0x10000000 & carry_mask;+ /* carry < 2**3 thus (carry << 11) < 2**14 and we added 2**28 in the+ * previous line therefore this doesn't underflow. */+ inout[3] -= carry << 11;+ inout[4] += (0x20000000 - 1) & carry_mask;+ inout[5] += (0x10000000 - 1) & carry_mask;+ inout[6] += (0x20000000 - 1) & carry_mask;+ inout[6] -= carry << 22;+ /* This may underflow if carry is non-zero but, if so, we'll fix it in the+ * next line. */+ inout[7] -= 1 & carry_mask;+ inout[7] += carry << 25;+}++/* felem_sum sets out = in+in2.+ *+ * On entry, in[i]+in2[i] must not overflow a 32-bit word.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29 */+static void felem_sum(felem out, const felem in, const felem in2) {+ limb carry = 0;+ unsigned i;++ for (i = 0;; i++) {+ out[i] = in[i] + in2[i];+ out[i] += carry;+ carry = out[i] >> 29;+ out[i] &= kBottom29Bits;++ i++;+ if (i == NLIMBS)+ break;++ out[i] = in[i] + in2[i];+ out[i] += carry;+ carry = out[i] >> 28;+ out[i] &= kBottom28Bits;+ }++ felem_reduce_carry(out, carry);+}++#define two31m3 (((limb)1) << 31) - (((limb)1) << 3)+#define two30m2 (((limb)1) << 30) - (((limb)1) << 2)+#define two30p13m2 (((limb)1) << 30) + (((limb)1) << 13) - (((limb)1) << 2)+#define two31m2 (((limb)1) << 31) - (((limb)1) << 2)+#define two31p24m2 (((limb)1) << 31) + (((limb)1) << 24) - (((limb)1) << 2)+#define two30m27m2 (((limb)1) << 30) - (((limb)1) << 27) - (((limb)1) << 2)++/* zero31 is 0 mod p. */+static const felem zero31 = { two31m3, two30m2, two31m2, two30p13m2, two31m2, two30m2, two31p24m2, two30m27m2, two31m2 };++/* felem_diff sets out = in-in2.+ *+ * On entry: in[0,2,...] < 2**30, in[1,3,...] < 2**29 and+ * in2[0,2,...] < 2**30, in2[1,3,...] < 2**29.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */+static void felem_diff(felem out, const felem in, const felem in2) {+ limb carry = 0;+ unsigned i;++ for (i = 0;; i++) {+ out[i] = in[i] - in2[i];+ out[i] += zero31[i];+ out[i] += carry;+ carry = out[i] >> 29;+ out[i] &= kBottom29Bits;++ i++;+ if (i == NLIMBS)+ break;++ out[i] = in[i] - in2[i];+ out[i] += zero31[i];+ out[i] += carry;+ carry = out[i] >> 28;+ out[i] &= kBottom28Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_reduce_degree sets out = tmp/R mod p where tmp contains 64-bit words+ * with the same 29,28,... bit positions as an felem.+ *+ * The values in felems are in Montgomery form: x*R mod p where R = 2**257.+ * Since we just multiplied two Montgomery values together, the result is+ * x*y*R*R mod p. We wish to divide by R in order for the result also to be+ * in Montgomery form.+ *+ * On entry: tmp[i] < 2**64+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29 */+static void felem_reduce_degree(felem out, u64 tmp[17]) {+ /* The following table may be helpful when reading this code:+ *+ * Limb number: 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10...+ * Width (bits): 29| 28| 29| 28| 29| 28| 29| 28| 29| 28| 29+ * Start bit: 0 | 29| 57| 86|114|143|171|200|228|257|285+ * (odd phase): 0 | 28| 57| 85|114|142|171|199|228|256|285 */+ limb tmp2[18], carry, x, xMask;+ unsigned i;++ /* tmp contains 64-bit words with the same 29,28,29-bit positions as an+ * felem. So the top of an element of tmp might overlap with another+ * element two positions down. The following loop eliminates this+ * overlap. */+ tmp2[0] = (limb)(tmp[0] & kBottom29Bits);++ /* In the following we use "(limb) tmp[x]" and "(limb) (tmp[x]>>32)" to try+ * and hint to the compiler that it can do a single-word shift by selecting+ * the right register rather than doing a double-word shift and truncating+ * afterwards. */+ tmp2[1] = ((limb) tmp[0]) >> 29;+ tmp2[1] |= (((limb)(tmp[0] >> 32)) << 3) & kBottom28Bits;+ tmp2[1] += ((limb) tmp[1]) & kBottom28Bits;+ carry = tmp2[1] >> 28;+ tmp2[1] &= kBottom28Bits;++ for (i = 2; i < 17; i++) {+ tmp2[i] = ((limb)(tmp[i - 2] >> 32)) >> 25;+ tmp2[i] += ((limb)(tmp[i - 1])) >> 28;+ tmp2[i] += (((limb)(tmp[i - 1] >> 32)) << 4) & kBottom29Bits;+ tmp2[i] += ((limb) tmp[i]) & kBottom29Bits;+ tmp2[i] += carry;+ carry = tmp2[i] >> 29;+ tmp2[i] &= kBottom29Bits;++ i++;+ if (i == 17)+ break;+ tmp2[i] = ((limb)(tmp[i - 2] >> 32)) >> 25;+ tmp2[i] += ((limb)(tmp[i - 1])) >> 29;+ tmp2[i] += (((limb)(tmp[i - 1] >> 32)) << 3) & kBottom28Bits;+ tmp2[i] += ((limb) tmp[i]) & kBottom28Bits;+ tmp2[i] += carry;+ carry = tmp2[i] >> 28;+ tmp2[i] &= kBottom28Bits;+ }++ tmp2[17] = ((limb)(tmp[15] >> 32)) >> 25;+ tmp2[17] += ((limb)(tmp[16])) >> 29;+ tmp2[17] += (((limb)(tmp[16] >> 32)) << 3);+ tmp2[17] += carry;++ /* Montgomery elimination of terms.+ *+ * Since R is 2**257, we can divide by R with a bitwise shift if we can+ * ensure that the right-most 257 bits are all zero. We can make that true by+ * adding multiplies of p without affecting the value.+ *+ * So we eliminate limbs from right to left. Since the bottom 29 bits of p+ * are all ones, then by adding tmp2[0]*p to tmp2 we'll make tmp2[0] == 0.+ * We can do that for 8 further limbs and then right shift to eliminate the+ * extra factor of R. */+ for (i = 0;; i += 2) {+ tmp2[i + 1] += tmp2[i] >> 29;+ x = tmp2[i] & kBottom29Bits;+ xMask = NON_ZERO_TO_ALL_ONES(x);+ tmp2[i] = 0;++ /* The bounds calculations for this loop are tricky. Each iteration of+ * the loop eliminates two words by adding values to words to their+ * right.+ *+ * The following table contains the amounts added to each word (as an+ * offset from the value of i at the top of the loop). The amounts are+ * accounted for from the first and second half of the loop separately+ * and are written as, for example, 28 to mean a value <2**28.+ *+ * Word: 3 4 5 6 7 8 9 10+ * Added in top half: 28 11 29 21 29 28+ * 28 29+ * 29+ * Added in bottom half: 29 10 28 21 28 28+ * 29+ *+ * The value that is currently offset 7 will be offset 5 for the next+ * iteration and then offset 3 for the iteration after that. Therefore+ * the total value added will be the values added at 7, 5 and 3.+ *+ * The following table accumulates these values. The sums at the bottom+ * are written as, for example, 29+28, to mean a value < 2**29+2**28.+ *+ * Word: 3 4 5 6 7 8 9 10 11 12 13+ * 28 11 10 29 21 29 28 28 28 28 28+ * 29 28 11 28 29 28 29 28 29 28+ * 29 28 21 21 29 21 29 21+ * 10 29 28 21 28 21 28+ * 28 29 28 29 28 29 28+ * 11 10 29 10 29 10+ * 29 28 11 28 11+ * 29 29+ * --------------------------------------------+ * 30+ 31+ 30+ 31+ 30++ * 28+ 29+ 28+ 29+ 21++ * 21+ 28+ 21+ 28+ 10+ * 10 21+ 10 21++ * 11 11+ *+ * So the greatest amount is added to tmp2[10] and tmp2[12]. If+ * tmp2[10/12] has an initial value of <2**29, then the maximum value+ * will be < 2**31 + 2**30 + 2**28 + 2**21 + 2**11, which is < 2**32,+ * as required. */+ tmp2[i + 3] += (x << 10) & kBottom28Bits;+ tmp2[i + 4] += (x >> 18);++ tmp2[i + 6] += (x << 21) & kBottom29Bits;+ tmp2[i + 7] += x >> 8;++ /* At position 200, which is the starting bit position for word 7, we+ * have a factor of 0xf000000 = 2**28 - 2**24. */+ tmp2[i + 7] += 0x10000000 & xMask;+ /* Word 7 is 28 bits wide, so the 2**28 term exactly hits word 8. */+ tmp2[i + 8] += (x - 1) & xMask;+ tmp2[i + 7] -= (x << 24) & kBottom28Bits;+ tmp2[i + 8] -= x >> 4;++ tmp2[i + 8] += 0x20000000 & xMask;+ tmp2[i + 8] -= x;+ tmp2[i + 8] += (x << 28) & kBottom29Bits;+ tmp2[i + 9] += ((x >> 1) - 1) & xMask;++ if (i+1 == NLIMBS)+ break;+ tmp2[i + 2] += tmp2[i + 1] >> 28;+ x = tmp2[i + 1] & kBottom28Bits;+ xMask = NON_ZERO_TO_ALL_ONES(x);+ tmp2[i + 1] = 0;++ tmp2[i + 4] += (x << 11) & kBottom29Bits;+ tmp2[i + 5] += (x >> 18);++ tmp2[i + 7] += (x << 21) & kBottom28Bits;+ tmp2[i + 8] += x >> 7;++ /* At position 199, which is the starting bit of the 8th word when+ * dealing with a context starting on an odd word, we have a factor of+ * 0x1e000000 = 2**29 - 2**25. Since we have not updated i, the 8th+ * word from i+1 is i+8. */+ tmp2[i + 8] += 0x20000000 & xMask;+ tmp2[i + 9] += (x - 1) & xMask;+ tmp2[i + 8] -= (x << 25) & kBottom29Bits;+ tmp2[i + 9] -= x >> 4;++ tmp2[i + 9] += 0x10000000 & xMask;+ tmp2[i + 9] -= x;+ tmp2[i + 10] += (x - 1) & xMask;+ }++ /* We merge the right shift with a carry chain. The words above 2**257 have+ * widths of 28,29,... which we need to correct when copying them down. */+ carry = 0;+ for (i = 0; i < 8; i++) {+ /* The maximum value of tmp2[i + 9] occurs on the first iteration and+ * is < 2**30+2**29+2**28. Adding 2**29 (from tmp2[i + 10]) is+ * therefore safe. */+ out[i] = tmp2[i + 9];+ out[i] += carry;+ out[i] += (tmp2[i + 10] << 28) & kBottom29Bits;+ carry = out[i] >> 29;+ out[i] &= kBottom29Bits;++ i++;+ out[i] = tmp2[i + 9] >> 1;+ out[i] += carry;+ carry = out[i] >> 28;+ out[i] &= kBottom28Bits;+ }++ out[8] = tmp2[17];+ out[8] += carry;+ carry = out[8] >> 29;+ out[8] &= kBottom29Bits;++ felem_reduce_carry(out, carry);+}++/* felem_square sets out=in*in.+ *+ * On entry: in[0,2,...] < 2**30, in[1,3,...] < 2**29.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */+static void felem_square(felem out, const felem in) {+ u64 tmp[17];++ tmp[0] = ((u64) in[0]) * in[0];+ tmp[1] = ((u64) in[0]) * (in[1] << 1);+ tmp[2] = ((u64) in[0]) * (in[2] << 1) ++ ((u64) in[1]) * (in[1] << 1);+ tmp[3] = ((u64) in[0]) * (in[3] << 1) ++ ((u64) in[1]) * (in[2] << 1);+ tmp[4] = ((u64) in[0]) * (in[4] << 1) ++ ((u64) in[1]) * (in[3] << 2) + ((u64) in[2]) * in[2];+ tmp[5] = ((u64) in[0]) * (in[5] << 1) + ((u64) in[1]) *+ (in[4] << 1) + ((u64) in[2]) * (in[3] << 1);+ tmp[6] = ((u64) in[0]) * (in[6] << 1) + ((u64) in[1]) *+ (in[5] << 2) + ((u64) in[2]) * (in[4] << 1) ++ ((u64) in[3]) * (in[3] << 1);+ tmp[7] = ((u64) in[0]) * (in[7] << 1) + ((u64) in[1]) *+ (in[6] << 1) + ((u64) in[2]) * (in[5] << 1) ++ ((u64) in[3]) * (in[4] << 1);+ /* tmp[8] has the greatest value of 2**61 + 2**60 + 2**61 + 2**60 + 2**60,+ * which is < 2**64 as required. */+ tmp[8] = ((u64) in[0]) * (in[8] << 1) + ((u64) in[1]) *+ (in[7] << 2) + ((u64) in[2]) * (in[6] << 1) ++ ((u64) in[3]) * (in[5] << 2) + ((u64) in[4]) * in[4];+ tmp[9] = ((u64) in[1]) * (in[8] << 1) + ((u64) in[2]) *+ (in[7] << 1) + ((u64) in[3]) * (in[6] << 1) ++ ((u64) in[4]) * (in[5] << 1);+ tmp[10] = ((u64) in[2]) * (in[8] << 1) + ((u64) in[3]) *+ (in[7] << 2) + ((u64) in[4]) * (in[6] << 1) ++ ((u64) in[5]) * (in[5] << 1);+ tmp[11] = ((u64) in[3]) * (in[8] << 1) + ((u64) in[4]) *+ (in[7] << 1) + ((u64) in[5]) * (in[6] << 1);+ tmp[12] = ((u64) in[4]) * (in[8] << 1) ++ ((u64) in[5]) * (in[7] << 2) + ((u64) in[6]) * in[6];+ tmp[13] = ((u64) in[5]) * (in[8] << 1) ++ ((u64) in[6]) * (in[7] << 1);+ tmp[14] = ((u64) in[6]) * (in[8] << 1) ++ ((u64) in[7]) * (in[7] << 1);+ tmp[15] = ((u64) in[7]) * (in[8] << 1);+ tmp[16] = ((u64) in[8]) * in[8];++ felem_reduce_degree(out, tmp);+}++/* felem_mul sets out=in*in2.+ *+ * On entry: in[0,2,...] < 2**30, in[1,3,...] < 2**29 and+ * in2[0,2,...] < 2**30, in2[1,3,...] < 2**29.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */+static void felem_mul(felem out, const felem in, const felem in2) {+ u64 tmp[17];++ tmp[0] = ((u64) in[0]) * in2[0];+ tmp[1] = ((u64) in[0]) * (in2[1] << 0) ++ ((u64) in[1]) * (in2[0] << 0);+ tmp[2] = ((u64) in[0]) * (in2[2] << 0) + ((u64) in[1]) *+ (in2[1] << 1) + ((u64) in[2]) * (in2[0] << 0);+ tmp[3] = ((u64) in[0]) * (in2[3] << 0) + ((u64) in[1]) *+ (in2[2] << 0) + ((u64) in[2]) * (in2[1] << 0) ++ ((u64) in[3]) * (in2[0] << 0);+ tmp[4] = ((u64) in[0]) * (in2[4] << 0) + ((u64) in[1]) *+ (in2[3] << 1) + ((u64) in[2]) * (in2[2] << 0) ++ ((u64) in[3]) * (in2[1] << 1) ++ ((u64) in[4]) * (in2[0] << 0);+ tmp[5] = ((u64) in[0]) * (in2[5] << 0) + ((u64) in[1]) *+ (in2[4] << 0) + ((u64) in[2]) * (in2[3] << 0) ++ ((u64) in[3]) * (in2[2] << 0) + ((u64) in[4]) *+ (in2[1] << 0) + ((u64) in[5]) * (in2[0] << 0);+ tmp[6] = ((u64) in[0]) * (in2[6] << 0) + ((u64) in[1]) *+ (in2[5] << 1) + ((u64) in[2]) * (in2[4] << 0) ++ ((u64) in[3]) * (in2[3] << 1) + ((u64) in[4]) *+ (in2[2] << 0) + ((u64) in[5]) * (in2[1] << 1) ++ ((u64) in[6]) * (in2[0] << 0);+ tmp[7] = ((u64) in[0]) * (in2[7] << 0) + ((u64) in[1]) *+ (in2[6] << 0) + ((u64) in[2]) * (in2[5] << 0) ++ ((u64) in[3]) * (in2[4] << 0) + ((u64) in[4]) *+ (in2[3] << 0) + ((u64) in[5]) * (in2[2] << 0) ++ ((u64) in[6]) * (in2[1] << 0) ++ ((u64) in[7]) * (in2[0] << 0);+ /* tmp[8] has the greatest value but doesn't overflow. See logic in+ * felem_square. */+ tmp[8] = ((u64) in[0]) * (in2[8] << 0) + ((u64) in[1]) *+ (in2[7] << 1) + ((u64) in[2]) * (in2[6] << 0) ++ ((u64) in[3]) * (in2[5] << 1) + ((u64) in[4]) *+ (in2[4] << 0) + ((u64) in[5]) * (in2[3] << 1) ++ ((u64) in[6]) * (in2[2] << 0) + ((u64) in[7]) *+ (in2[1] << 1) + ((u64) in[8]) * (in2[0] << 0);+ tmp[9] = ((u64) in[1]) * (in2[8] << 0) + ((u64) in[2]) *+ (in2[7] << 0) + ((u64) in[3]) * (in2[6] << 0) ++ ((u64) in[4]) * (in2[5] << 0) + ((u64) in[5]) *+ (in2[4] << 0) + ((u64) in[6]) * (in2[3] << 0) ++ ((u64) in[7]) * (in2[2] << 0) ++ ((u64) in[8]) * (in2[1] << 0);+ tmp[10] = ((u64) in[2]) * (in2[8] << 0) + ((u64) in[3]) *+ (in2[7] << 1) + ((u64) in[4]) * (in2[6] << 0) ++ ((u64) in[5]) * (in2[5] << 1) + ((u64) in[6]) *+ (in2[4] << 0) + ((u64) in[7]) * (in2[3] << 1) ++ ((u64) in[8]) * (in2[2] << 0);+ tmp[11] = ((u64) in[3]) * (in2[8] << 0) + ((u64) in[4]) *+ (in2[7] << 0) + ((u64) in[5]) * (in2[6] << 0) ++ ((u64) in[6]) * (in2[5] << 0) + ((u64) in[7]) *+ (in2[4] << 0) + ((u64) in[8]) * (in2[3] << 0);+ tmp[12] = ((u64) in[4]) * (in2[8] << 0) + ((u64) in[5]) *+ (in2[7] << 1) + ((u64) in[6]) * (in2[6] << 0) ++ ((u64) in[7]) * (in2[5] << 1) ++ ((u64) in[8]) * (in2[4] << 0);+ tmp[13] = ((u64) in[5]) * (in2[8] << 0) + ((u64) in[6]) *+ (in2[7] << 0) + ((u64) in[7]) * (in2[6] << 0) ++ ((u64) in[8]) * (in2[5] << 0);+ tmp[14] = ((u64) in[6]) * (in2[8] << 0) + ((u64) in[7]) *+ (in2[7] << 1) + ((u64) in[8]) * (in2[6] << 0);+ tmp[15] = ((u64) in[7]) * (in2[8] << 0) ++ ((u64) in[8]) * (in2[7] << 0);+ tmp[16] = ((u64) in[8]) * (in2[8] << 0);++ felem_reduce_degree(out, tmp);+}++static void felem_assign(felem out, const felem in) {+ memcpy(out, in, sizeof(felem));+}++/* felem_scalar_3 sets out=3*out.+ *+ * On entry: out[0,2,...] < 2**30, out[1,3,...] < 2**29.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */+static void felem_scalar_3(felem out) {+ limb carry = 0;+ unsigned i;++ for (i = 0;; i++) {+ out[i] *= 3;+ out[i] += carry;+ carry = out[i] >> 29;+ out[i] &= kBottom29Bits;++ i++;+ if (i == NLIMBS)+ break;++ out[i] *= 3;+ out[i] += carry;+ carry = out[i] >> 28;+ out[i] &= kBottom28Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_scalar_4 sets out=4*out.+ *+ * On entry: out[0,2,...] < 2**30, out[1,3,...] < 2**29.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */+static void felem_scalar_4(felem out) {+ limb carry = 0, next_carry;+ unsigned i;++ for (i = 0;; i++) {+ next_carry = out[i] >> 27;+ out[i] <<= 2;+ out[i] &= kBottom29Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 29);+ out[i] &= kBottom29Bits;++ i++;+ if (i == NLIMBS)+ break;++ next_carry = out[i] >> 26;+ out[i] <<= 2;+ out[i] &= kBottom28Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 28);+ out[i] &= kBottom28Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_scalar_8 sets out=8*out.+ *+ * On entry: out[0,2,...] < 2**30, out[1,3,...] < 2**29.+ * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */+static void felem_scalar_8(felem out) {+ limb carry = 0, next_carry;+ unsigned i;++ for (i = 0;; i++) {+ next_carry = out[i] >> 26;+ out[i] <<= 3;+ out[i] &= kBottom29Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 29);+ out[i] &= kBottom29Bits;++ i++;+ if (i == NLIMBS)+ break;++ next_carry = out[i] >> 25;+ out[i] <<= 3;+ out[i] &= kBottom28Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 28);+ out[i] &= kBottom28Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_is_zero_vartime returns 1 iff |in| == 0. It takes a variable amount of+ * time depending on the value of |in|. */+static char felem_is_zero_vartime(const felem in) {+ limb carry;+ int i;+ limb tmp[NLIMBS];++ felem_assign(tmp, in);++ /* First, reduce tmp to a minimal form. */+ do {+ carry = 0;+ for (i = 0;; i++) {+ tmp[i] += carry;+ carry = tmp[i] >> 29;+ tmp[i] &= kBottom29Bits;++ i++;+ if (i == NLIMBS)+ break;++ tmp[i] += carry;+ carry = tmp[i] >> 28;+ tmp[i] &= kBottom28Bits;+ }++ felem_reduce_carry(tmp, carry);+ } while (carry);++ /* tmp < 2**257, so the only possible zero values are 0, p and 2p. */+ return memcmp(tmp, kZero, sizeof(tmp)) == 0 ||+ memcmp(tmp, kP, sizeof(tmp)) == 0 ||+ memcmp(tmp, k2P, sizeof(tmp)) == 0;+}+++/* Montgomery operations: */++#define kRDigits {2, 0, 0, 0xfffffffe, 0xffffffff, 0xffffffff, 0xfffffffd, 1} // 2^257 mod p256.p++#define kRInvDigits {0x80000000, 1, 0xffffffff, 0, 0x80000001, 0xfffffffe, 1, 0x7fffffff} // 1 / 2^257 mod p256.p++static const cryptonite_p256_int kR = { kRDigits };+static const cryptonite_p256_int kRInv = { kRInvDigits };++/* to_montgomery sets out = R*in. */+static void to_montgomery(felem out, const cryptonite_p256_int* in) {+ cryptonite_p256_int in_shifted;+ int i;++ cryptonite_p256_init(&in_shifted);+ cryptonite_p256_modmul(&cryptonite_SECP256r1_p, in, 0, &kR, &in_shifted);++ for (i = 0; i < NLIMBS; i++) {+ if ((i & 1) == 0) {+ out[i] = P256_DIGIT(&in_shifted, 0) & kBottom29Bits;+ cryptonite_p256_shr(&in_shifted, 29, &in_shifted);+ } else {+ out[i] = P256_DIGIT(&in_shifted, 0) & kBottom28Bits;+ cryptonite_p256_shr(&in_shifted, 28, &in_shifted);+ }+ }++ cryptonite_p256_clear(&in_shifted);+}++/* from_montgomery sets out=in/R. */+static void from_montgomery(cryptonite_p256_int* out, const felem in) {+ cryptonite_p256_int result, tmp;+ int i, top;++ cryptonite_p256_init(&result);+ cryptonite_p256_init(&tmp);++ cryptonite_p256_add_d(&tmp, in[NLIMBS - 1], &result);+ for (i = NLIMBS - 2; i >= 0; i--) {+ if ((i & 1) == 0) {+ top = cryptonite_p256_shl(&result, 29, &tmp);+ } else {+ top = cryptonite_p256_shl(&result, 28, &tmp);+ }+ top |= cryptonite_p256_add_d(&tmp, in[i], &result);+ }++ cryptonite_p256_modmul(&cryptonite_SECP256r1_p, &kRInv, top, &result, out);++ cryptonite_p256_clear(&result);+ cryptonite_p256_clear(&tmp);+}
+ cbits/include64/p256/p256.h view
@@ -0,0 +1,167 @@+/*+ * Copyright 2013 The Android Open Source Project+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions are met:+ * * Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * * Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ * * Neither the name of Google Inc. nor the names of its contributors may+ * be used to endorse or promote products derived from this software+ * without specific prior written permission.+ *+ * THIS SOFTWARE IS PROVIDED BY Google Inc. ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF+ * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO+ * EVENT SHALL Google Inc. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,+ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;+ * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR+ * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF+ * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */++#ifndef SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_+#define SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_++// Collection of routines manipulating 256 bit unsigned integers.+// Just enough to implement ecdsa-p256 and related algorithms.++#include <stdint.h>++#ifdef __cplusplus+extern "C" {+#endif++#define P256_BITSPERDIGIT 64+#define P256_NDIGITS 4+#define P256_NBYTES 32++// n' such as n * n' = -1 mod (2^64)+#define P256_MONTGOMERY_FACTOR 0xCCD1C8AAEE00BC4F++#define P256_LITERAL(lo,hi) (((uint32_t) (lo)) + (((uint64_t) (hi)) << 32))++typedef int cryptonite_p256_err;+typedef uint64_t cryptonite_p256_digit;+typedef int64_t cryptonite_p256_sdigit;+typedef __uint128_t cryptonite_p256_ddigit;+typedef __int128_t cryptonite_p256_sddigit;++// Defining cryptonite_p256_int as struct to leverage struct assigment.+typedef struct {+ cryptonite_p256_digit a[P256_NDIGITS];+} cryptonite_p256_int;++extern const cryptonite_p256_int cryptonite_SECP256r1_n; // Curve order+extern const cryptonite_p256_int cryptonite_SECP256r1_p; // Curve prime+extern const cryptonite_p256_int cryptonite_SECP256r1_b; // Curve param++// Initialize a cryptonite_p256_int to zero.+void cryptonite_p256_init(cryptonite_p256_int* a);++// Clear a cryptonite_p256_int to zero.+void cryptonite_p256_clear(cryptonite_p256_int* a);++// Return bit. Index 0 is least significant.+int cryptonite_p256_get_bit(const cryptonite_p256_int* a, int index);++// b := a % MOD+void cryptonite_p256_mod(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ cryptonite_p256_int* b);++// c := a * (top_b | b) % MOD+void cryptonite_p256_modmul(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ const cryptonite_p256_digit top_b,+ const cryptonite_p256_int* b,+ cryptonite_p256_int* c);++// b := 1 / a % MOD+// MOD best be SECP256r1_n+void cryptonite_p256_modinv(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ cryptonite_p256_int* b);++// b := 1 / a % MOD+// MOD best be SECP256r1_n+// Faster than cryptonite_p256_modinv()+void cryptonite_p256_modinv_vartime(+ const cryptonite_p256_int* MOD,+ const cryptonite_p256_int* a,+ cryptonite_p256_int* b);++// b := a << (n % P256_BITSPERDIGIT)+// Returns the bits shifted out of most significant digit.+cryptonite_p256_digit cryptonite_p256_shl(const cryptonite_p256_int* a, int n, cryptonite_p256_int* b);++// b := a >> (n % P256_BITSPERDIGIT)+void cryptonite_p256_shr(const cryptonite_p256_int* a, int n, cryptonite_p256_int* b);++int cryptonite_p256_is_zero(const cryptonite_p256_int* a);+int cryptonite_p256_is_odd(const cryptonite_p256_int* a);+int cryptonite_p256_is_even(const cryptonite_p256_int* a);++// Returns -1, 0 or 1.+int cryptonite_p256_cmp(const cryptonite_p256_int* a, const cryptonite_p256_int *b);++// c: = a - b+// Returns -1 on borrow.+int cryptonite_p256_sub(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c);++// c := a + b+// Returns 1 on carry.+int cryptonite_p256_add(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c);++// c := a + (single digit)b+// Returns carry 1 on carry.+int cryptonite_p256_add_d(const cryptonite_p256_int* a, cryptonite_p256_digit b, cryptonite_p256_int* c);++// ec routines.++// {out_x,out_y} := nG+void cryptonite_p256_base_point_mul(const cryptonite_p256_int *n,+ cryptonite_p256_int *out_x,+ cryptonite_p256_int *out_y);++// {out_x,out_y} := n{in_x,in_y}+void cryptonite_p256_point_mul(const cryptonite_p256_int *n,+ const cryptonite_p256_int *in_x,+ const cryptonite_p256_int *in_y,+ cryptonite_p256_int *out_x,+ cryptonite_p256_int *out_y);++// {out_x,out_y} := n1G + n2{in_x,in_y}+void cryptonite_p256_points_mul_vartime(+ const cryptonite_p256_int *n1, const cryptonite_p256_int *n2,+ const cryptonite_p256_int *in_x, const cryptonite_p256_int *in_y,+ cryptonite_p256_int *out_x, cryptonite_p256_int *out_y);++// Return whether point {x,y} is on curve.+int cryptonite_p256_is_valid_point(const cryptonite_p256_int* x, const cryptonite_p256_int* y);++// Outputs big-endian binary form. No leading zero skips.+void cryptonite_p256_to_bin(const cryptonite_p256_int* src, uint8_t dst[P256_NBYTES]);++// Reads from big-endian binary form,+// thus pre-pad with leading zeros if short.+void cryptonite_p256_from_bin(const uint8_t src[P256_NBYTES], cryptonite_p256_int* dst);++#define P256_DIGITS(x) ((x)->a)+#define P256_DIGIT(x,y) ((x)->a[y])++#define P256_ZERO {{0}}+#define P256_ONE {{1}}++#ifdef __cplusplus+}+#endif++#endif // SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_
+ cbits/include64/p256/p256_gf.h view
@@ -0,0 +1,713 @@+/*+ * Copyright 2013 The Android Open Source Project+ *+ * Redistribution and use in source and binary forms, with or without+ * modification, are permitted provided that the following conditions are met:+ * * Redistributions of source code must retain the above copyright+ * notice, this list of conditions and the following disclaimer.+ * * Redistributions in binary form must reproduce the above copyright+ * notice, this list of conditions and the following disclaimer in the+ * documentation and/or other materials provided with the distribution.+ * * Neither the name of Google Inc. nor the names of its contributors may+ * be used to endorse or promote products derived from this software+ * without specific prior written permission.+ *+ * THIS SOFTWARE IS PROVIDED BY Google Inc. ``AS IS'' AND ANY EXPRESS OR+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF+ * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO+ * EVENT SHALL Google Inc. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,+ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;+ * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,+ * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR+ * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF+ * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.+ */++// This is an implementation of the P256 finite field. It's written to be+// portable and still constant-time.+//+// WARNING: Implementing these functions in a constant-time manner is far from+// obvious. Be careful when touching this code.+//+// See http://www.imperialviolet.org/2010/12/04/ecc.html ([1]) for background.++#include <stdint.h>+#include <stdio.h>++#include <string.h>+#include <stdlib.h>++#include "p256/p256.h"++typedef uint8_t u8;+typedef uint32_t u32;+typedef uint64_t u64;+typedef int64_t s64;+typedef __uint128_t u128;++/* Our field elements are represented as five 64-bit limbs.+ *+ * The value of an felem (field element) is:+ * x[0] + (x[1] * 2**51) + (x[2] * 2**103) + ... + (x[4] * 2**206)+ *+ * That is, each limb is alternately 51 or 52-bits wide in little-endian+ * order.+ *+ * This means that an felem hits 2**257, rather than 2**256 as we would like.+ *+ * Finally, the values stored in an felem are in Montgomery form. So the value+ * |y| is stored as (y*R) mod p, where p is the P-256 prime and R is 2**257.+ */+typedef u64 limb;+#define NLIMBS 5+typedef limb felem[NLIMBS];++static const limb kBottom51Bits = 0x7ffffffffffff;+static const limb kBottom52Bits = 0xfffffffffffff;++/* kOne is the number 1 as an felem. It's 2**257 mod p split up into 51 and+ * 52-bit words. */+static const felem kOne = {+ 2, 0xfc00000000000, 0x7ffffffffffff, 0xfff7fffffffff, 0x7ffff+};+static const felem kZero = {0};+static const felem kP = {+ 0x7ffffffffffff, 0x1fffffffffff, 0, 0x4000000000, 0x3fffffffc0000+};+static const felem k2P = {+ 0x7fffffffffffe, 0x3fffffffffff, 0, 0x8000000000, 0x7fffffff80000+};+/* kPrecomputed contains precomputed values to aid the calculation of scalar+ * multiples of the base point, G. It's actually two, equal length, tables+ * concatenated.+ *+ * The first table contains (x,y) felem pairs for 16 multiples of the base+ * point, G.+ *+ * Index | Index (binary) | Value+ * 0 | 0000 | 0G (all zeros, omitted)+ * 1 | 0001 | G+ * 2 | 0010 | 2**64G+ * 3 | 0011 | 2**64G + G+ * 4 | 0100 | 2**128G+ * 5 | 0101 | 2**128G + G+ * 6 | 0110 | 2**128G + 2**64G+ * 7 | 0111 | 2**128G + 2**64G + G+ * 8 | 1000 | 2**192G+ * 9 | 1001 | 2**192G + G+ * 10 | 1010 | 2**192G + 2**64G+ * 11 | 1011 | 2**192G + 2**64G + G+ * 12 | 1100 | 2**192G + 2**128G+ * 13 | 1101 | 2**192G + 2**128G + G+ * 14 | 1110 | 2**192G + 2**128G + 2**64G+ * 15 | 1111 | 2**192G + 2**128G + 2**64G + G+ *+ * The second table follows the same style, but the terms are 2**32G,+ * 2**96G, 2**160G, 2**224G.+ *+ * This is ~2KB of data. */+static const limb kPrecomputed[NLIMBS * 2 * 15 * 2] = {+ 0x661a831522878, 0xf17fb6d805e79, 0x5889441d6ea57, 0xae33cfdb995bb, 0xc482fbb529ba,+ 0x4a6af9d2aac15, 0x90e867917377c, 0x487cc962d2ae3, 0xec2a97443446e, 0x2b8ff8c52c42,+ 0x45f8a2d41a576, 0xb06988d2653e4, 0x718b22c357305, 0x33fc920e79d2b, 0x17af34b0fe8db,+ 0x38e17eb402f2f, 0x3382558649705, 0x47f6d48f482d1, 0x7bd42488d9b83, 0x3b247c8b86b78,+ 0x4d08fc26f7778, 0x7a29a82fb2795, 0x75cd18f90d11a, 0xad8e213b0bc, 0x2d5f0142899e8,+ 0x506f98098fb57, 0x2f0c98301e4aa, 0x39b30dd5cf67d, 0x9c146498ab13c, 0xa5db92df5b7b,+ 0x184897fc4124a, 0xe3f73a19d8aa, 0x4e1c18e47066b, 0x27b2d4b52eaee, 0x30eac3ea10e99,+ 0x4e74546e2e7d5, 0x1f4dde2d97a1d, 0x6ead0f88e1200, 0x7dec87c220f02, 0x3d08ff096310f,+ 0x23e5659633ffa, 0x6ec648f08c722, 0x3172a3806ea35, 0xf6e5b681eb3c5, 0x2c3758260f89d,+ 0x38dca4fd1da12, 0xf06067b78830d, 0x3194be87a068c, 0x78893c7eb602b, 0xcead60438432,+ 0x6ee69a56a67ab, 0xd886f77701895, 0x67b0a4d9cee2b, 0x3586bbf3e4d53, 0x1db6f32921d93,+ 0x260756ca4b366, 0x4f40e9d2039fa, 0x4f3f09f5a82bf, 0xccde2d641e8cd, 0x305a30cd2e8c5,+ 0x471c235cb5439, 0xab279cd962f5a, 0x17e1fb6e2dd94, 0xfe64589800a77, 0xe8793d99775f,+ 0x48c62f4e614aa, 0xbf76ef20eb2a4, 0x669c672556c, 0x24683e0eff056, 0x12252b369ab76,+ 0x821de9f162d5, 0xf911ec99a95be, 0x6721f065c906b, 0x58d452035c736, 0x1f9f01a6a15,+ 0x6135009b7d8d3, 0xdaeeeb417dfc0, 0x63865fea0ee17, 0x6e0a304b939d6, 0x204ba2076833d,+ 0x4ade586f35669, 0x2c1077e34611a, 0x5b1a3bea3b81a, 0xf97d018a22c8b, 0x38d7996b08af8,+ 0x6ea62baeb7aa0, 0xebdcbd9ef2670, 0x35dc8fe0df3fe, 0xe458309d20c24, 0x11e87898716a0,+ 0x7c44bab7cb456, 0xd64d3cf1bb64, 0x189bff1bf9e66, 0xb5218a049311, 0x285dda6cbcc81,+ 0x3238dcafd8c7c, 0x607736c8de0, 0xdb83d99508b1, 0x4e1a0d404cd81, 0x1588008c00ff2,+ 0x16b8b36722b27, 0x876609c3f3f1a, 0x66b72ef0e17d6, 0x705f8a279d568, 0x2eaac4cd01fdd,+ 0x1171ce9705fe9, 0xffc79cd3264ee, 0x700c8ab4b80f0, 0x208d3d4f57a1, 0x337262a8ca4eb,+ 0x297fd01d843fd, 0xa90956fa097f8, 0x529759fdb3845, 0x1d78c5e2d0397, 0x3d6938a4adbf3,+ 0x16d5853560b66, 0xf138946b9a430, 0x2ab79f4dea6a0, 0xd42053ee43ae1, 0x3b9c3ef1cf870,+ 0x598934ad81baf, 0x5f1821b1d07a7, 0x416bb3a973ff3, 0x23f07bd0a047a, 0x19bdc2e09f786,+ 0x56dc9981cd51f, 0xfbace23c8cd65, 0x673bd3bf5b52e, 0x46a95d229fd61, 0xe09ad64bcfb1,+ 0xe5292b91f17d, 0xfeefcd8afc287, 0x58f52b0a58711, 0x4800f20c201ef, 0x2084fce608f67,+ 0x12ba0b128ae0b, 0x5977ae17030b4, 0x101126ee420f6, 0xf70823495c6bd, 0xde19a27d7770,+ 0x5c6ac852260e8, 0x9d22950ac4356, 0x441cca955246c, 0x660a34e5332d9, 0x14ac8ea92f8d2,+ 0x6b6d7709f307e, 0x67d7e13879db, 0x2ea8626f9fbbd, 0x99609006a4b40, 0x31bb2a8f8c779,+ 0x10c04828ea335, 0xae9acdcbc080a, 0x617af2342607a, 0xc7494ea53e553, 0x2ca9e2872defa,+ 0x6c399fab21f1f, 0xab139b245e758, 0x3ad933dcba589, 0x4797fecb08811, 0x31f5dbf8f594,+ 0x7dc6361cc7a69, 0xc8a7953ead3f9, 0x79ed693d18015, 0x418a024999a6a, 0x2c4fdc9436aa,+ 0x1eb98cb06aa75, 0x2989592796a9c, 0x11194821e425, 0xe27a648228388, 0x35d834b6c12a0,+ 0x541807713b532, 0x7ae0a1008aaee, 0x7017a29bcb5e, 0x6b193c23c315c, 0x19bd25ac82f2a,+ 0x6a01a43eef294, 0xddf5b5fd84f19, 0x33f5ba081c016, 0xdeb052d1bc082, 0x6b2f06afa617,+ 0x7ca1eda6a939f, 0xbdeb35997b50c, 0x47f2d1bccda5, 0xc2ff4adfed667, 0x87712997be4,+ 0x21fc2e2b37659, 0xf7d62cd5ed951, 0x27fa9cbdf7efa, 0xba25582bf3a6b, 0x2a42b8bd89398,+ 0x6d377d07eecd2, 0x9ca1df5af387, 0x1109e3427e2ba, 0xce4aa4572a19, 0x103baaef71e16,+ 0x2c3b2dfde328a, 0xbec4b4a30e1ef, 0x37d92a86204f3, 0x806cfde68eb39, 0x246e2f72b8aa5,+ 0x68d3de93462a9, 0x53b8acba6bbc3, 0x2492a70fa1696, 0x38c62d5760f55, 0x15096fe4904f2,+ 0x4e44e9bed3e3a, 0xb28bfd79cc9bc, 0x6a77513839320, 0x480dcec6739db, 0x3601b739f2465,+ 0x43c348e2a7e1, 0xe448106327879, 0x175d9cae1b0ed, 0xd3b89dee743b8, 0x392d73ca255bc,+ 0x32946db0d3a18, 0x9261b09907cc, 0x5ba517a755722, 0x51f24fdaf5184, 0x1cdc732989ed8,+ 0x2f7806ba16694, 0xae0c9f029f8d0, 0xd8b45102ce1, 0xca1c7db9316d6, 0x162088a67066f,+ 0x39de35b2b4162, 0xa19f550d88ae9, 0x7921b27026cde, 0x94b936b66e900, 0x1023bd5fa17fc,+ 0x436837814cfa4, 0x29113492283c4, 0x66d1cdd8b51d8, 0xa540702278eb2, 0x47ef1b29285d,+ 0x587b50917e50e, 0xb4cda75bab3b, 0x112520b0a9886, 0x66b9ac16fee49, 0x17bf17e92b2eb,+ 0x2456a2f150ed7, 0xfa214412d0280, 0x3ca7dd947fe5b, 0xa72c28598d58a, 0x255d945efc3e,+ 0x2873f04e0f215, 0x74178fd1af57b, 0x788848b5b2d6, 0xb1ffafaae0db6, 0x32a1b7b3cbb2a,+ 0x4bd9935d6b2da, 0x9c08f24ad30a5, 0x4e58407a80f, 0x1b3a3825a5b17, 0x6547e9fc82f5,+ 0x47484aa3656c3, 0x6ee43f341a494, 0x64a98f87adea2, 0x619b3f8e95f01, 0xb6e513266ed8,+ 0x421c2a673090, 0xa1c1de32348c7, 0x55b85c3a1e8a3, 0xe05ce8ef330b4, 0x2561e49c15d84,+ 0x40aa2d33130fa, 0x12b827d35866f, 0xfe4cf62c8ddb, 0x2fa0ef05bb28d, 0x1c06ca63f1cb8,+ 0x32a971863863b, 0xff6fc86830da1, 0x71e7b25a14cf3, 0xea9c5ebb1373a, 0x250bbaa3e1634,+ 0x5b5ffeda5b765, 0xf25d2a746331b, 0x115e3a3f43632, 0x67303af43c9d5, 0x14bb538a0e559,+ 0x75623687d43b7, 0xa349674a4b38d, 0x613c61829ffc6, 0x689828d8110c7, 0x139115f5af7d5,+ 0xf1d856152289, 0x45cbe967168ab, 0x51f38e1680901, 0x34808e8f652b0, 0x1f4a6a921e156,+ 0x35dfaf3d8341f, 0xf53ace725cb63, 0x3d86a54eef35b, 0xa103aabaffe2c, 0x2decc36296fbd,+ 0x510282be73d6f, 0xd4e6365db206a, 0x4bdc5f5bb8bf3, 0xde7ea32a3aee7, 0x71269e274305,+};+++/* Field element operations: */++/* NON_ZERO_TO_ALL_ONES returns:+ * 0xffffffffffffffff for 0 < x <= 2**63+ * 0 for x == 0 or x > 2**63.+ *+ * x must be a u64 or an equivalent type such as limb. */+#define NON_ZERO_TO_ALL_ONES(x) ((((u64)(x) - 1) >> 63) - 1)++/* felem_reduce_carry adds a multiple of p in order to cancel |carry|,+ * which is a term at 2**257.+ *+ * On entry: carry < 2**6, inout[0,2,...] < 2**51, inout[1,3,...] < 2**52.+ * On exit: inout[0,2,..] < 2**52, inout[1,3,...] < 2**53. */+static void felem_reduce_carry(felem inout, limb carry) {+ const u64 carry_mask = NON_ZERO_TO_ALL_ONES(carry);++ inout[0] += carry << 1;+ inout[1] += 0x10000000000000 & carry_mask;+ /* carry < 2**6 thus (carry << 46) < 2**52 and we added 2**52 in the+ * previous line therefore this doesn't underflow. */+ inout[1] -= carry << 46;+ inout[2] += (0x8000000000000 - 1) & carry_mask;+ inout[3] += (0x10000000000000 - 1) & carry_mask;+ inout[3] -= carry << 39;+ /* This may underflow if carry is non-zero but, if so, we'll fix it in the+ * next line. */+ inout[4] -= 1 & carry_mask;+ inout[4] += carry << 19;+}++/* felem_sum sets out = in+in2.+ *+ * On entry, in[i]+in2[i] must not overflow a 64-bit word.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53 */+static void felem_sum(felem out, const felem in, const felem in2) {+ limb carry = 0;+ unsigned i;++ for (i = 0;; i++) {+ out[i] = in[i] + in2[i];+ out[i] += carry;+ carry = out[i] >> 51;+ out[i] &= kBottom51Bits;++ i++;+ if (i == NLIMBS)+ break;++ out[i] = in[i] + in2[i];+ out[i] += carry;+ carry = out[i] >> 52;+ out[i] &= kBottom52Bits;+ }++ felem_reduce_carry(out, carry);+}++#define two53m3 (((limb)1) << 53) - (((limb)1) << 3)+#define two54m52p48m2 (((limb)1) << 54) - (((limb)1) << 52) + (((limb)1) << 48) - (((limb)1) << 2)+#define two53m2p0 (((limb)1) << 53) - (((limb)1) << 2) + (((limb)1) << 0)+#define two54m52p41m2 (((limb)1) << 54) - (((limb)1) << 52) + (((limb)1) << 41) - (((limb)1) << 2)+#define two53m21m2p0 (((limb)1) << 53) - (((limb)1) << 21) - (((limb)1) << 2) + (((limb)1) << 0)++/* zero53 is 0 mod p. */+static const felem zero53 = { two53m3, two54m52p48m2, two53m2p0, two54m52p41m2, two53m21m2p0 };++/* felem_diff sets out = in-in2.+ *+ * On entry: in[0,2,...] < 2**52, in[1,3,...] < 2**53 and+ * in2[0,2,...] < 2**52, in2[1,3,...] < 2**53.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53. */+static void felem_diff(felem out, const felem in, const felem in2) {+ limb carry = 0;+ unsigned i;++ for (i = 0;; i++) {+ out[i] = in[i] - in2[i];+ out[i] += zero53[i];+ out[i] += carry;+ carry = out[i] >> 51;+ out[i] &= kBottom51Bits;++ i++;+ if (i == NLIMBS)+ break;++ out[i] = in[i] - in2[i];+ out[i] += zero53[i];+ out[i] += carry;+ carry = out[i] >> 52;+ out[i] &= kBottom52Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_reduce_degree sets out = tmp/R mod p where tmp contains 64-bit words+ * with the same 51,52,... bit positions as an felem.+ *+ * The values in felems are in Montgomery form: x*R mod p where R = 2**257.+ * Since we just multiplied two Montgomery values together, the result is+ * x*y*R*R mod p. We wish to divide by R in order for the result also to be+ * in Montgomery form.+ *+ * On entry: tmp[i] < 2**128+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53 */+static void felem_reduce_degree(felem out, u128 tmp[9]) {+ /* The following table may be helpful when reading this code:+ *+ * Limb number: 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10+ * Width (bits): 51| 52| 51| 52| 51| 52| 51| 52| 51| 52| 51+ * Start bit: 0 | 51|103|154|206|257|309|360|412|463|515+ * (odd phase): 0 | 52|103|155|206|258|309|361|412|464|515 */+ limb tmp2[10], carry, x, xShiftedMask;+ unsigned i;++ /* tmp contains 128-bit words with the same 51,52,51-bit positions as an+ * felem. So the top of an element of tmp might overlap with another+ * element two positions down. The following loop eliminates this+ * overlap. */+ tmp2[0] = (limb)(tmp[0] & kBottom51Bits);++ /* In the following we use "(limb) tmp[x]" and "(limb) (tmp[x]>>64)" to try+ * and hint to the compiler that it can do a single-word shift by selecting+ * the right register rather than doing a double-word shift and truncating+ * afterwards. */+ tmp2[1] = ((limb) tmp[0]) >> 51;+ tmp2[1] |= (((limb)(tmp[0] >> 64)) << 13) & kBottom52Bits;+ tmp2[1] += ((limb) tmp[1]) & kBottom52Bits;+ carry = tmp2[1] >> 52;+ tmp2[1] &= kBottom52Bits;++ for (i = 2; i < 9; i++) {+ tmp2[i] = ((limb)(tmp[i - 2] >> 64)) >> 39;+ tmp2[i] += ((limb)(tmp[i - 1])) >> 52;+ tmp2[i] += (((limb)(tmp[i - 1] >> 64)) << 12) & kBottom51Bits;+ tmp2[i] += ((limb) tmp[i]) & kBottom51Bits;+ tmp2[i] += carry;+ carry = tmp2[i] >> 51;+ tmp2[i] &= kBottom51Bits;++ i++;+ if (i == 9)+ break;+ tmp2[i] = ((limb)(tmp[i - 2] >> 64)) >> 39;+ tmp2[i] += ((limb)(tmp[i - 1])) >> 51;+ tmp2[i] += (((limb)(tmp[i - 1] >> 64)) << 13) & kBottom52Bits;+ tmp2[i] += ((limb) tmp[i]) & kBottom52Bits;+ tmp2[i] += carry;+ carry = tmp2[i] >> 52;+ tmp2[i] &= kBottom52Bits;+ }++ tmp2[9] = ((limb)(tmp[7] >> 64)) >> 39;+ tmp2[9] += ((limb)(tmp[8])) >> 51;+ tmp2[9] += (((limb)(tmp[8] >> 64)) << 13);+ tmp2[9] += carry;++ /* Montgomery elimination of terms.+ *+ * Since R is 2**257, we can divide by R with a bitwise shift if we can+ * ensure that the right-most 257 bits are all zero. We can make that true by+ * adding multiplies of p without affecting the value.+ *+ * So we eliminate limbs from right to left. Since the bottom 51 bits of p+ * are all ones, then by adding tmp2[0]*p to tmp2 we'll make tmp2[0] == 0.+ * We can do that for 8 further limbs and then right shift to eliminate the+ * extra factor of R. */+ for (i = 0;; i += 2) {+ tmp2[i + 1] += tmp2[i] >> 51;+ x = tmp2[i] & kBottom51Bits;+ xShiftedMask = NON_ZERO_TO_ALL_ONES(x >> 1);+ tmp2[i] = 0;++ /* The bounds calculations for this loop are tricky. Each iteration of+ * the loop eliminates two words by adding values to words to their+ * right.+ *+ * The following table contains the amounts added to each word (as an+ * offset from the value of i at the top of the loop). The amounts are+ * accounted for from the first and second half of the loop separately+ * and are written as, for example, 51 to mean a value <2**51.+ *+ * Word: 1 2 3 4 5 6+ * Added in top half: 52 44 52 37 50+ * 51+ * 51+ * Added in bottom half: 51 45 51 38 50+ * 52+ * 52+ *+ * The value that is currently offset 5 will be offset 3 for the next+ * iteration and then offset 1 for the iteration after that. Therefore+ * the total value added will be the values added at 5, 3 and 1.+ *+ * The following table accumulates these values. The sums at the bottom+ * are written as, for example, 53+45, to mean a value < 2**53+2**45.+ *+ * Word: 1 2 3 4 5 6 7 8 9+ * 52 44 52 37 50 50 50 50 50+ * 51 45 51 38 37 38 37+ * 52 51 52 51 52 51+ * 51 52 51 52 51+ * 44 52 51 52+ * 51 45 44+ * 52+ * ------------------------------------+ * 53+ 53+ 54+ 52+ 53+ 52++ * 45 44+ 50+ 51+ 52+ 50++ * 37 45+ 50+ 50+ 37+ * 38 44+ 38+ * 37+ *+ * So the greatest amount is added to tmp2[5]. If tmp2[5] has an initial+ * value of <2**52, then the maximum value will be < 2**54 + 2**52 + 2**50 ++ * 2**45 + 2**38, which is < 2**64, as required. */+ tmp2[i + 1] += (x << 45) & kBottom52Bits;+ tmp2[i + 2] += x >> 7;++ tmp2[i + 3] += (x << 38) & kBottom52Bits;+ tmp2[i + 4] += x >> 14;++ /* On tmp2[i + 4], when x < 2**1, the subtraction with (x << 18) will not+ * underflow because it is balanced with the (x << 50) term. On the next+ * word tmp2[i + 5], terms with (x >> 1) and (x >> 33) are both zero and+ * there is no underflow either.+ *+ * When x >= 2**1, we add 2**51 to tmp2[i + 4] to avoid an underflow.+ * Removing 1 from tmp2[i + 5] is safe because (x >> 1) - (x >> 33) is+ * strictly positive.+ */+ tmp2[i + 4] += 0x8000000000000 & xShiftedMask;+ tmp2[i + 5] -= 1 & xShiftedMask;++ tmp2[i + 4] -= (x << 18) & kBottom51Bits;+ tmp2[i + 4] += (x << 50) & kBottom51Bits;+ tmp2[i + 5] += (x >> 1) - (x >> 33);++ if (i+1 == NLIMBS)+ break;+ tmp2[i + 2] += tmp2[i + 1] >> 52;+ x = tmp2[i + 1] & kBottom52Bits;+ xShiftedMask = NON_ZERO_TO_ALL_ONES(x >> 2);+ tmp2[i + 1] = 0;++ tmp2[i + 2] += (x << 44) & kBottom51Bits;+ tmp2[i + 3] += x >> 7;++ tmp2[i + 4] += (x << 37) & kBottom51Bits;+ tmp2[i + 5] += x >> 14;++ /* On tmp2[i + 5], when x < 2**2, the subtraction with (x << 18) will not+ * underflow because it is balanced with the (x << 50) term. On the next+ * word tmp2[i + 6], terms with (x >> 2) and (x >> 34) are both zero and+ * there is no underflow either.+ *+ * When x >= 2**2, we add 2**52 to tmp2[i + 5] to avoid an underflow.+ * Removing 1 from tmp2[i + 6] is safe because (x >> 2) - (x >> 34) is+ * stricly positive.+ */+ tmp2[i + 5] += 0x10000000000000 & xShiftedMask;+ tmp2[i + 6] -= 1 & xShiftedMask;++ tmp2[i + 5] -= (x << 18) & kBottom52Bits;+ tmp2[i + 5] += (x << 50) & kBottom52Bits;+ tmp2[i + 6] += (x >> 2) - (x >> 34);+ }++ /* We merge the right shift with a carry chain. The words above 2**257 have+ * widths of 52,51,... which we need to correct when copying them down. */+ carry = 0;+ for (i = 0; i < 4; i++) {+ out[i] = tmp2[i + 5];+ out[i] += carry;+ carry = out[i] >> 51;+ out[i] &= kBottom51Bits;++ i++;+ out[i] = tmp2[i + 5] << 1;+ out[i] += carry;+ carry = out[i] >> 52;+ out[i] &= kBottom52Bits;+ }++ out[4] = tmp2[9];+ out[4] += carry;+ carry = out[4] >> 51;+ out[4] &= kBottom51Bits;++ felem_reduce_carry(out, carry);+}++/* felem_square sets out=in*in.+ *+ * On entry: in[0,2,...] < 2**52, in[1,3,...] < 2**53.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53. */+static void felem_square(felem out, const felem in) {+ u128 tmp[9], x1x1, x3x3;++ x1x1 = ((u128) in[1]) * in[1];+ x3x3 = ((u128) in[3]) * in[3];++ tmp[0] = ((u128) in[0]) * (in[0] << 0);+ tmp[1] = ((u128) in[0]) * (in[1] << 1) + ((x1x1 & 1) << 51);+ tmp[2] = ((u128) in[0]) * (in[2] << 1) + (x1x1 >> 1);+ tmp[3] = ((u128) in[0]) * (in[3] << 1) ++ ((u128) in[1]) * (in[2] << 1);+ tmp[4] = ((u128) in[0]) * (in[4] << 1) ++ ((u128) in[1]) * (in[3] << 0) ++ ((u128) in[2]) * (in[2] << 0);+ tmp[5] = ((u128) in[1]) * (in[4] << 1) ++ ((u128) in[2]) * (in[3] << 1) + ((x3x3 & 1) << 51);+ tmp[6] = ((u128) in[2]) * (in[4] << 1) + (x3x3 >> 1);+ tmp[7] = ((u128) in[3]) * (in[4] << 1);+ tmp[8] = ((u128) in[4]) * (in[4] << 0);++ felem_reduce_degree(out, tmp);+}++/* felem_mul sets out=in*in2.+ *+ * On entry: in[0,2,...] < 2**52, in[1,3,...] < 2**53 and+ * in2[0,2,...] < 2**52, in2[1,3,...] < 2**53.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53. */+static void felem_mul(felem out, const felem in, const felem in2) {+ u128 tmp[9], x1y1, x1y3, x3y1, x3y3;++ x1y1 = ((u128) in[1]) * in2[1];+ x1y3 = ((u128) in[1]) * in2[3];+ x3y1 = ((u128) in[3]) * in2[1];+ x3y3 = ((u128) in[3]) * in2[3];++ tmp[0] = ((u128) in[0]) * in2[0];+ tmp[1] = ((u128) in[0]) * in2[1] ++ ((u128) in[1]) * in2[0] + ((x1y1 & 1) << 51);+ tmp[2] = ((u128) in[0]) * in2[2] + (x1y1 >> 1) ++ ((u128) in[2]) * in2[0];+ tmp[3] = ((u128) in[0]) * in2[3] ++ ((u128) in[1]) * in2[2] ++ ((u128) in[2]) * in2[1] + ((x1y3 & 1) << 51) ++ ((u128) in[3]) * in2[0] + ((x3y1 & 1) << 51);+ tmp[4] = ((u128) in[0]) * in2[4] + (x1y3 >> 1) ++ ((u128) in[2]) * in2[2] + (x3y1 >> 1) ++ ((u128) in[4]) * in2[0];+ tmp[5] = ((u128) in[1]) * in2[4] ++ ((u128) in[2]) * in2[3] ++ ((u128) in[3]) * in2[2] ++ ((u128) in[4]) * in2[1] + ((x3y3 & 1) << 51);+ tmp[6] = ((u128) in[2]) * in2[4] + (x3y3 >> 1) ++ ((u128) in[4]) * in2[2];+ tmp[7] = ((u128) in[3]) * in2[4] ++ ((u128) in[4]) * in2[3];+ tmp[8] = ((u128) in[4]) * in2[4];++ felem_reduce_degree(out, tmp);+}++static void felem_assign(felem out, const felem in) {+ memcpy(out, in, sizeof(felem));+}++/* felem_scalar_3 sets out=3*out.+ *+ * On entry: out[0,2,...] < 2**52, out[1,3,...] < 2**53.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53. */+static void felem_scalar_3(felem out) {+ limb carry = 0;+ unsigned i;++ for (i = 0;; i++) {+ out[i] *= 3;+ out[i] += carry;+ carry = out[i] >> 51;+ out[i] &= kBottom51Bits;++ i++;+ if (i == NLIMBS)+ break;++ out[i] *= 3;+ out[i] += carry;+ carry = out[i] >> 52;+ out[i] &= kBottom52Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_scalar_4 sets out=4*out.+ *+ * On entry: out[0,2,...] < 2**52, out[1,3,...] < 2**53.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53. */+static void felem_scalar_4(felem out) {+ limb carry = 0, next_carry;+ unsigned i;++ for (i = 0;; i++) {+ next_carry = out[i] >> 49;+ out[i] <<= 2;+ out[i] &= kBottom51Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 51);+ out[i] &= kBottom51Bits;++ i++;+ if (i == NLIMBS)+ break;++ next_carry = out[i] >> 50;+ out[i] <<= 2;+ out[i] &= kBottom52Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 52);+ out[i] &= kBottom52Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_scalar_8 sets out=8*out.+ *+ * On entry: out[0,2,...] < 2**52, out[1,3,...] < 2**53.+ * On exit: out[0,2,...] < 2**52, out[1,3,...] < 2**53. */+static void felem_scalar_8(felem out) {+ limb carry = 0, next_carry;+ unsigned i;++ for (i = 0;; i++) {+ next_carry = out[i] >> 48;+ out[i] <<= 3;+ out[i] &= kBottom51Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 51);+ out[i] &= kBottom51Bits;++ i++;+ if (i == NLIMBS)+ break;++ next_carry = out[i] >> 49;+ out[i] <<= 3;+ out[i] &= kBottom52Bits;+ out[i] += carry;+ carry = next_carry + (out[i] >> 52);+ out[i] &= kBottom52Bits;+ }++ felem_reduce_carry(out, carry);+}++/* felem_is_zero_vartime returns 1 iff |in| == 0. It takes a variable amount of+ * time depending on the value of |in|. */+static char felem_is_zero_vartime(const felem in) {+ limb carry;+ int i;+ limb tmp[NLIMBS];++ felem_assign(tmp, in);++ /* First, reduce tmp to a minimal form. */+ do {+ carry = 0;+ for (i = 0;; i++) {+ tmp[i] += carry;+ carry = tmp[i] >> 51;+ tmp[i] &= kBottom51Bits;++ i++;+ if (i == NLIMBS)+ break;++ tmp[i] += carry;+ carry = tmp[i] >> 52;+ tmp[i] &= kBottom52Bits;+ }++ felem_reduce_carry(tmp, carry);+ } while (carry);++ /* tmp < 2**257, so the only possible zero values are 0, p and 2p. */+ return memcmp(tmp, kZero, sizeof(tmp)) == 0 ||+ memcmp(tmp, kP, sizeof(tmp)) == 0 ||+ memcmp(tmp, k2P, sizeof(tmp)) == 0;+}+++/* Montgomery operations: */++#define kRDigits {2, 0xfffffffe00000000, 0xffffffffffffffff, 0x1fffffffd} // 2^257 mod p256.p++#define kRInvDigits {0x180000000, 0xffffffff, 0xfffffffe80000001, 0x7fffffff00000001} // 1 / 2^257 mod p256.p++static const cryptonite_p256_int kR = { kRDigits };+static const cryptonite_p256_int kRInv = { kRInvDigits };++/* to_montgomery sets out = R*in. */+static void to_montgomery(felem out, const cryptonite_p256_int* in) {+ cryptonite_p256_int in_shifted;+ int i;++ cryptonite_p256_init(&in_shifted);+ cryptonite_p256_modmul(&cryptonite_SECP256r1_p, in, 0, &kR, &in_shifted);++ for (i = 0; i < NLIMBS; i++) {+ if ((i & 1) == 0) {+ out[i] = P256_DIGIT(&in_shifted, 0) & kBottom51Bits;+ cryptonite_p256_shr(&in_shifted, 51, &in_shifted);+ } else {+ out[i] = P256_DIGIT(&in_shifted, 0) & kBottom52Bits;+ cryptonite_p256_shr(&in_shifted, 52, &in_shifted);+ }+ }++ cryptonite_p256_clear(&in_shifted);+}++/* from_montgomery sets out=in/R. */+static void from_montgomery(cryptonite_p256_int* out, const felem in) {+ cryptonite_p256_int result, tmp;+ int i, top;++ cryptonite_p256_init(&result);+ cryptonite_p256_init(&tmp);++ cryptonite_p256_add_d(&tmp, in[NLIMBS - 1], &result);+ for (i = NLIMBS - 2; i >= 0; i--) {+ if ((i & 1) == 0) {+ top = cryptonite_p256_shl(&result, 51, &tmp);+ } else {+ top = cryptonite_p256_shl(&result, 52, &tmp);+ }+ top += cryptonite_p256_add_d(&tmp, in[i], &result);+ }++ cryptonite_p256_modmul(&cryptonite_SECP256r1_p, &kRInv, top, &result, out);++ cryptonite_p256_clear(&result);+ cryptonite_p256_clear(&tmp);+}
cbits/p256/p256.c view
@@ -25,7 +25,7 @@ */ // This is an implementation of the P256 elliptic curve group. It's written to-// be portable 32-bit, although it's still constant-time.+// be portable and still constant-time. // // WARNING: Implementing these functions in a constant-time manner is far from // obvious. Be careful when touching this code.@@ -40,14 +40,16 @@ #include "p256/p256.h" const cryptonite_p256_int cryptonite_SECP256r1_n = // curve order- {{0xfc632551, 0xf3b9cac2, 0xa7179e84, 0xbce6faad, -1, -1, 0, -1}};+ {{P256_LITERAL(0xfc632551, 0xf3b9cac2), P256_LITERAL(0xa7179e84, 0xbce6faad),+ P256_LITERAL(-1, -1), P256_LITERAL(0, -1)}}; const cryptonite_p256_int cryptonite_SECP256r1_p = // curve field size- {{-1, -1, -1, 0, 0, 0, 1, -1 }};+ {{P256_LITERAL(-1, -1), P256_LITERAL(-1, 0),+ P256_LITERAL(0, 0), P256_LITERAL(1, -1) }}; const cryptonite_p256_int cryptonite_SECP256r1_b = // curve b- {{0x27d2604b, 0x3bce3c3e, 0xcc53b0f6, 0x651d06b0,- 0x769886bc, 0xb3ebbd55, 0xaa3a93e7, 0x5ac635d8}};+ {{P256_LITERAL(0x27d2604b, 0x3bce3c3e), P256_LITERAL(0xcc53b0f6, 0x651d06b0),+ P256_LITERAL(0x769886bc, 0xb3ebbd55), P256_LITERAL(0xaa3a93e7, 0x5ac635d8)}}; void cryptonite_p256_init(cryptonite_p256_int* a) { memset(a, 0, sizeof(*a));@@ -61,9 +63,10 @@ } int cryptonite_p256_is_zero(const cryptonite_p256_int* a) {- int i, result = 0;+ cryptonite_p256_digit result = 0;+ int i = 0; for (i = 0; i < P256_NDIGITS; ++i) result |= P256_DIGIT(a, i);- return !result;+ return result == 0; } // top, c[] += a[] * b@@ -167,6 +170,10 @@ // top can be any value at this point. // Guestimate reducer as top * MOD, since msw of MOD is -1. top_reducer = mulAdd(MOD, top, 0, reducer);+#if P256_BITSPERDIGIT > 32+ // Correction when msw of MOD has only high 32 bits set+ top_reducer += mulAdd(MOD, top >> 32, 0, reducer);+#endif // Subtract reducer from top | tmp. top = subTop(top_reducer, reducer, top, tmp + i);@@ -229,7 +236,7 @@ P256_DIGIT(b, i) = accu; } P256_DIGIT(b, i) = (P256_DIGIT(a, i) >> 1) |- (highbit << (P256_BITSPERDIGIT - 1));+ (((cryptonite_p256_sdigit) highbit) << (P256_BITSPERDIGIT - 1)); } // Return -1, 0, 1 for a < b, a == b or a > b respectively.@@ -359,30 +366,163 @@ } void cryptonite_p256_from_bin(const uint8_t src[P256_NBYTES], cryptonite_p256_int* dst) {- int i;+ int i, n; const uint8_t* p = &src[0]; for (i = P256_NDIGITS - 1; i >= 0; --i) {- P256_DIGIT(dst, i) =- (p[0] << 24) |- (p[1] << 16) |- (p[2] << 8) |- p[3];- p += 4;+ cryptonite_p256_digit dig = 0;+ n = P256_BITSPERDIGIT;+ while (n > 0) {+ n -= 8;+ dig |= ((cryptonite_p256_digit) *(p++)) << n;+ }+ P256_DIGIT(dst, i) = dig; } } void cryptonite_p256_to_bin(const cryptonite_p256_int* src, uint8_t dst[P256_NBYTES]) {- int i;+ int i, n; uint8_t* p = &dst[0]; for (i = P256_NDIGITS -1; i >= 0; --i) { const cryptonite_p256_digit dig = P256_DIGIT(src, i);- p[0] = dig >> 24;- p[1] = dig >> 16;- p[2] = dig >> 8;- p[3] = dig;- p += 4;+ n = P256_BITSPERDIGIT;+ while (n > 0) {+ n -= 8;+ *(p++) = dig >> n;+ } }+}++/*+ "p256e" functions are not part of the original source+*/++#define MSB_COMPLEMENT(x) (((x) >> (P256_BITSPERDIGIT - 1)) - 1)++// c = a + b mod MOD+void cryptonite_p256e_modadd(const cryptonite_p256_int* MOD, const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c) {+ assert(c); /* avoid repeated checks inside inlined cryptonite_p256_add */+ cryptonite_p256_digit top = cryptonite_p256_add(a, b, c);+ top = subM(MOD, top, P256_DIGITS(c), -1);+ top = subM(MOD, top, P256_DIGITS(c), MSB_COMPLEMENT(top));+ addM(MOD, 0, P256_DIGITS(c), top);+}++// c = a - b mod MOD+void cryptonite_p256e_modsub(const cryptonite_p256_int* MOD, const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c) {+ assert(c); /* avoid repeated checks inside inlined cryptonite_p256_sub */+ cryptonite_p256_digit top = cryptonite_p256_sub(a, b, c);+ top = addM(MOD, top, P256_DIGITS(c), ~MSB_COMPLEMENT(top));+ top = subM(MOD, top, P256_DIGITS(c), MSB_COMPLEMENT(top));+ addM(MOD, 0, P256_DIGITS(c), top);+}++#define NTH_DOUBLE_THEN_ADD(i, a, nth, b, out) \+ cryptonite_p256e_montmul(a, a, out); \+ for (i = 1; i < nth; i++) \+ cryptonite_p256e_montmul(out, out, out); \+ cryptonite_p256e_montmul(out, b, out);++const cryptonite_p256_int cryptonite_SECP256r1_r2 = // r^2 mod n+ {{P256_LITERAL(0xBE79EEA2, 0x83244C95), P256_LITERAL(0x49BD6FA6, 0x4699799C),+ P256_LITERAL(0x2B6BEC59, 0x2845B239), P256_LITERAL(0xF3D95620, 0x66E12D94)}};++const cryptonite_p256_int cryptonite_SECP256r1_one = {{1}};++// Montgomery multiplication, i.e. c = ab/r mod n with r = 2^256.+// Implementation is adapted from 'sc_montmul' in libdecaf.+static void cryptonite_p256e_montmul(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c) {+ int i, j, borrow;+ cryptonite_p256_digit accum[P256_NDIGITS+1] = {0};+ cryptonite_p256_digit hi_carry = 0;++ for (i=0; i<P256_NDIGITS; i++) {+ cryptonite_p256_digit mand = P256_DIGIT(a, i);+ const cryptonite_p256_digit *mier = P256_DIGITS(b);++ cryptonite_p256_ddigit chain = 0;+ for (j=0; j<P256_NDIGITS; j++) {+ chain += ((cryptonite_p256_ddigit)mand)*mier[j] + accum[j];+ accum[j] = chain;+ chain >>= P256_BITSPERDIGIT;+ }+ accum[j] = chain;++ mand = accum[0] * P256_MONTGOMERY_FACTOR;+ chain = 0;+ mier = P256_DIGITS(&cryptonite_SECP256r1_n);+ for (j=0; j<P256_NDIGITS; j++) {+ chain += (cryptonite_p256_ddigit)mand*mier[j] + accum[j];+ if (j) accum[j-1] = chain;+ chain >>= P256_BITSPERDIGIT;+ }+ chain += accum[j];+ chain += hi_carry;+ accum[j-1] = chain;+ hi_carry = chain >> P256_BITSPERDIGIT;+ }++ memcpy(P256_DIGITS(c), accum, sizeof(*c));+ borrow = cryptonite_p256_sub(c, &cryptonite_SECP256r1_n, c);+ addM(&cryptonite_SECP256r1_n, 0, P256_DIGITS(c), borrow + hi_carry);+}++// b = 1/a mod n, using Fermat's little theorem.+void cryptonite_p256e_scalar_invert(const cryptonite_p256_int* a, cryptonite_p256_int* b) {+ cryptonite_p256_int _1, _10, _11, _101, _111, _1010, _1111;+ cryptonite_p256_int _10101, _101010, _101111, x6, x8, x16, x32;+ int i;++ // Montgomerize+ cryptonite_p256e_montmul(a, &cryptonite_SECP256r1_r2, &_1);++ // P-256 (secp256r1) Scalar Inversion+ // <https://briansmith.org/ecc-inversion-addition-chains-01>+ cryptonite_p256e_montmul(&_1 , &_1 , &_10);+ cryptonite_p256e_montmul(&_10 , &_1 , &_11);+ cryptonite_p256e_montmul(&_10 , &_11 , &_101);+ cryptonite_p256e_montmul(&_10 , &_101 , &_111);+ cryptonite_p256e_montmul(&_101 , &_101 , &_1010);+ cryptonite_p256e_montmul(&_101 , &_1010 , &_1111);+ NTH_DOUBLE_THEN_ADD(i, &_1010, 1 , &_1 , &_10101);+ cryptonite_p256e_montmul(&_10101 , &_10101 , &_101010);+ cryptonite_p256e_montmul(&_101 , &_101010, &_101111);+ cryptonite_p256e_montmul(&_10101 , &_101010, &x6);+ NTH_DOUBLE_THEN_ADD(i, &x6 , 2 , &_11 , &x8);+ NTH_DOUBLE_THEN_ADD(i, &x8 , 8 , &x8 , &x16);+ NTH_DOUBLE_THEN_ADD(i, &x16 , 16 , &x16 , &x32);++ NTH_DOUBLE_THEN_ADD(i, &x32 , 32+32, &x32 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 32, &x32 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 6, &_101111, b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 3, &_111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 2, &_11 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 1 + 4, &_1111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 5, &_10101 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 1 + 3, &_101 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 3, &_101 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 3, &_101 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 3, &_111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 3 + 6, &_101111, b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 4, &_1111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 1 + 1, &_1 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 4 + 1, &_1 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 4, &_1111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 3, &_111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 1 + 3, &_111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 3, &_111 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 3, &_101 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 1 + 2, &_11 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 4 + 6, &_101111, b);+ NTH_DOUBLE_THEN_ADD(i, b , 2, &_11 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 3 + 2, &_11 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 3 + 2, &_11 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 1, &_1 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 5, &_10101 , b);+ NTH_DOUBLE_THEN_ADD(i, b , 2 + 4, &_1111 , b);++ // Demontgomerize+ cryptonite_p256e_montmul(b, &cryptonite_SECP256r1_one, b); }
− cbits/p256/p256.h
@@ -1,162 +0,0 @@-/*- * Copyright 2013 The Android Open Source Project- *- * Redistribution and use in source and binary forms, with or without- * modification, are permitted provided that the following conditions are met:- * * Redistributions of source code must retain the above copyright- * notice, this list of conditions and the following disclaimer.- * * Redistributions in binary form must reproduce the above copyright- * notice, this list of conditions and the following disclaimer in the- * documentation and/or other materials provided with the distribution.- * * Neither the name of Google Inc. nor the names of its contributors may- * be used to endorse or promote products derived from this software- * without specific prior written permission.- *- * THIS SOFTWARE IS PROVIDED BY Google Inc. ``AS IS'' AND ANY EXPRESS OR- * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF- * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO- * EVENT SHALL Google Inc. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,- * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,- * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;- * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,- * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR- * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF- * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.- */--#ifndef SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_-#define SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_--// Collection of routines manipulating 256 bit unsigned integers.-// Just enough to implement ecdsa-p256 and related algorithms.--#include <stdint.h>--#ifdef __cplusplus-extern "C" {-#endif--#define P256_BITSPERDIGIT 32-#define P256_NDIGITS 8-#define P256_NBYTES 32--typedef int cryptonite_p256_err;-typedef uint32_t cryptonite_p256_digit;-typedef int32_t cryptonite_p256_sdigit;-typedef uint64_t cryptonite_p256_ddigit;-typedef int64_t cryptonite_p256_sddigit;--// Defining cryptonite_p256_int as struct to leverage struct assigment.-typedef struct {- cryptonite_p256_digit a[P256_NDIGITS];-} cryptonite_p256_int;--extern const cryptonite_p256_int cryptonite_SECP256r1_n; // Curve order-extern const cryptonite_p256_int cryptonite_SECP256r1_p; // Curve prime-extern const cryptonite_p256_int cryptonite_SECP256r1_b; // Curve param--// Initialize a cryptonite_p256_int to zero.-void cryptonite_p256_init(cryptonite_p256_int* a);--// Clear a cryptonite_p256_int to zero.-void cryptonite_p256_clear(cryptonite_p256_int* a);--// Return bit. Index 0 is least significant.-int cryptonite_p256_get_bit(const cryptonite_p256_int* a, int index);--// b := a % MOD-void cryptonite_p256_mod(- const cryptonite_p256_int* MOD,- const cryptonite_p256_int* a,- cryptonite_p256_int* b);--// c := a * (top_b | b) % MOD-void cryptonite_p256_modmul(- const cryptonite_p256_int* MOD,- const cryptonite_p256_int* a,- const cryptonite_p256_digit top_b,- const cryptonite_p256_int* b,- cryptonite_p256_int* c);--// b := 1 / a % MOD-// MOD best be SECP256r1_n-void cryptonite_p256_modinv(- const cryptonite_p256_int* MOD,- const cryptonite_p256_int* a,- cryptonite_p256_int* b);--// b := 1 / a % MOD-// MOD best be SECP256r1_n-// Faster than cryptonite_p256_modinv()-void cryptonite_p256_modinv_vartime(- const cryptonite_p256_int* MOD,- const cryptonite_p256_int* a,- cryptonite_p256_int* b);--// b := a << (n % P256_BITSPERDIGIT)-// Returns the bits shifted out of most significant digit.-cryptonite_p256_digit cryptonite_p256_shl(const cryptonite_p256_int* a, int n, cryptonite_p256_int* b);--// b := a >> (n % P256_BITSPERDIGIT)-void cryptonite_p256_shr(const cryptonite_p256_int* a, int n, cryptonite_p256_int* b);--int cryptonite_p256_is_zero(const cryptonite_p256_int* a);-int cryptonite_p256_is_odd(const cryptonite_p256_int* a);-int cryptonite_p256_is_even(const cryptonite_p256_int* a);--// Returns -1, 0 or 1.-int cryptonite_p256_cmp(const cryptonite_p256_int* a, const cryptonite_p256_int *b);--// c: = a - b-// Returns -1 on borrow.-int cryptonite_p256_sub(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c);--// c := a + b-// Returns 1 on carry.-int cryptonite_p256_add(const cryptonite_p256_int* a, const cryptonite_p256_int* b, cryptonite_p256_int* c);--// c := a + (single digit)b-// Returns carry 1 on carry.-int cryptonite_p256_add_d(const cryptonite_p256_int* a, cryptonite_p256_digit b, cryptonite_p256_int* c);--// ec routines.--// {out_x,out_y} := nG-void cryptonite_p256_base_point_mul(const cryptonite_p256_int *n,- cryptonite_p256_int *out_x,- cryptonite_p256_int *out_y);--// {out_x,out_y} := n{in_x,in_y}-void cryptonite_p256_point_mul(const cryptonite_p256_int *n,- const cryptonite_p256_int *in_x,- const cryptonite_p256_int *in_y,- cryptonite_p256_int *out_x,- cryptonite_p256_int *out_y);--// {out_x,out_y} := n1G + n2{in_x,in_y}-void cryptonite_p256_points_mul_vartime(- const cryptonite_p256_int *n1, const cryptonite_p256_int *n2,- const cryptonite_p256_int *in_x, const cryptonite_p256_int *in_y,- cryptonite_p256_int *out_x, cryptonite_p256_int *out_y);--// Return whether point {x,y} is on curve.-int cryptonite_p256_is_valid_point(const cryptonite_p256_int* x, const cryptonite_p256_int* y);--// Outputs big-endian binary form. No leading zero skips.-void cryptonite_p256_to_bin(const cryptonite_p256_int* src, uint8_t dst[P256_NBYTES]);--// Reads from big-endian binary form,-// thus pre-pad with leading zeros if short.-void cryptonite_p256_from_bin(const uint8_t src[P256_NBYTES], cryptonite_p256_int* dst);--#define P256_DIGITS(x) ((x)->a)-#define P256_DIGIT(x,y) ((x)->a[y])--#define P256_ZERO {{0}}-#define P256_ONE {{1}}--#ifdef __cplusplus-}-#endif--#endif // SYSTEM_CORE_INCLUDE_MINCRYPT_LITE_P256_H_
cbits/p256/p256_ec.c view
@@ -25,580 +25,18 @@ */ // This is an implementation of the P256 elliptic curve group. It's written to-// be portable 32-bit, although it's still constant-time.+// be portable and still constant-time. // // WARNING: Implementing these functions in a constant-time manner is far from // obvious. Be careful when touching this code. // // See http://www.imperialviolet.org/2010/12/04/ecc.html ([1]) for background. -#include <stdint.h>-#include <stdio.h>--#include <string.h>-#include <stdlib.h>--#include "p256/p256.h"--typedef uint8_t u8;-typedef uint32_t u32;-typedef int32_t s32;-typedef uint64_t u64;--/* Our field elements are represented as nine 32-bit limbs.- *- * The value of an felem (field element) is:- * x[0] + (x[1] * 2**29) + (x[2] * 2**57) + ... + (x[8] * 2**228)- *- * That is, each limb is alternately 29 or 28-bits wide in little-endian- * order.- *- * This means that an felem hits 2**257, rather than 2**256 as we would like. A- * 28, 29, ... pattern would cause us to hit 2**256, but that causes problems- * when multiplying as terms end up one bit short of a limb which would require- * much bit-shifting to correct.- *- * Finally, the values stored in an felem are in Montgomery form. So the value- * |y| is stored as (y*R) mod p, where p is the P-256 prime and R is 2**257.- */-typedef u32 limb;-#define NLIMBS 9-typedef limb felem[NLIMBS];--static const limb kBottom28Bits = 0xfffffff;-static const limb kBottom29Bits = 0x1fffffff;--/* kOne is the number 1 as an felem. It's 2**257 mod p split up into 29 and- * 28-bit words. */-static const felem kOne = {- 2, 0, 0, 0xffff800,- 0x1fffffff, 0xfffffff, 0x1fbfffff, 0x1ffffff,- 0-};-static const felem kZero = {0};-static const felem kP = {- 0x1fffffff, 0xfffffff, 0x1fffffff, 0x3ff,- 0, 0, 0x200000, 0xf000000,- 0xfffffff-};-static const felem k2P = {- 0x1ffffffe, 0xfffffff, 0x1fffffff, 0x7ff,- 0, 0, 0x400000, 0xe000000,- 0x1fffffff-};-/* kPrecomputed contains precomputed values to aid the calculation of scalar- * multiples of the base point, G. It's actually two, equal length, tables- * concatenated.- *- * The first table contains (x,y) felem pairs for 16 multiples of the base- * point, G.- *- * Index | Index (binary) | Value- * 0 | 0000 | 0G (all zeros, omitted)- * 1 | 0001 | G- * 2 | 0010 | 2**64G- * 3 | 0011 | 2**64G + G- * 4 | 0100 | 2**128G- * 5 | 0101 | 2**128G + G- * 6 | 0110 | 2**128G + 2**64G- * 7 | 0111 | 2**128G + 2**64G + G- * 8 | 1000 | 2**192G- * 9 | 1001 | 2**192G + G- * 10 | 1010 | 2**192G + 2**64G- * 11 | 1011 | 2**192G + 2**64G + G- * 12 | 1100 | 2**192G + 2**128G- * 13 | 1101 | 2**192G + 2**128G + G- * 14 | 1110 | 2**192G + 2**128G + 2**64G- * 15 | 1111 | 2**192G + 2**128G + 2**64G + G- *- * The second table follows the same style, but the terms are 2**32G,- * 2**96G, 2**160G, 2**224G.- *- * This is ~2KB of data. */-static const limb kPrecomputed[NLIMBS * 2 * 15 * 2] = {- 0x11522878, 0xe730d41, 0xdb60179, 0x4afe2ff, 0x12883add, 0xcaddd88, 0x119e7edc, 0xd4a6eab, 0x3120bee,- 0x1d2aac15, 0xf25357c, 0x19e45cdd, 0x5c721d0, 0x1992c5a5, 0xa237487, 0x154ba21, 0x14b10bb, 0xae3fe3,- 0xd41a576, 0x922fc51, 0x234994f, 0x60b60d3, 0x164586ae, 0xce95f18, 0x1fe49073, 0x3fa36cc, 0x5ebcd2c,- 0xb402f2f, 0x15c70bf, 0x1561925c, 0x5a26704, 0xda91e90, 0xcdc1c7f, 0x1ea12446, 0xe1ade1e, 0xec91f22,- 0x26f7778, 0x566847e, 0xa0bec9e, 0x234f453, 0x1a31f21a, 0xd85e75c, 0x56c7109, 0xa267a00, 0xb57c050,- 0x98fb57, 0xaa837cc, 0x60c0792, 0xcfa5e19, 0x61bab9e, 0x589e39b, 0xa324c5, 0x7d6dee7, 0x2976e4b,- 0x1fc4124a, 0xa8c244b, 0x1ce86762, 0xcd61c7e, 0x1831c8e0, 0x75774e1, 0x1d96a5a9, 0x843a649, 0xc3ab0fa,- 0x6e2e7d5, 0x7673a2a, 0x178b65e8, 0x4003e9b, 0x1a1f11c2, 0x7816ea, 0xf643e11, 0x58c43df, 0xf423fc2,- 0x19633ffa, 0x891f2b2, 0x123c231c, 0x46add8c, 0x54700dd, 0x59e2b17, 0x172db40f, 0x83e277d, 0xb0dd609,- 0xfd1da12, 0x35c6e52, 0x19ede20c, 0xd19e0c0, 0x97d0f40, 0xb015b19, 0x449e3f5, 0xe10c9e, 0x33ab581,- 0x56a67ab, 0x577734d, 0x1dddc062, 0xc57b10d, 0x149b39d, 0x26a9e7b, 0xc35df9f, 0x48764cd, 0x76dbcca,- 0xca4b366, 0xe9303ab, 0x1a7480e7, 0x57e9e81, 0x1e13eb50, 0xf466cf3, 0x6f16b20, 0x4ba3173, 0xc168c33,- 0x15cb5439, 0x6a38e11, 0x73658bd, 0xb29564f, 0x3f6dc5b, 0x53b97e, 0x1322c4c0, 0x65dd7ff, 0x3a1e4f6,- 0x14e614aa, 0x9246317, 0x1bc83aca, 0xad97eed, 0xd38ce4a, 0xf82b006, 0x341f077, 0xa6add89, 0x4894acd,- 0x9f162d5, 0xf8410ef, 0x1b266a56, 0xd7f223, 0x3e0cb92, 0xe39b672, 0x6a2901a, 0x69a8556, 0x7e7c0,- 0x9b7d8d3, 0x309a80, 0x1ad05f7f, 0xc2fb5dd, 0xcbfd41d, 0x9ceb638, 0x1051825c, 0xda0cf5b, 0x812e881,- 0x6f35669, 0x6a56f2c, 0x1df8d184, 0x345820, 0x1477d477, 0x1645db1, 0xbe80c51, 0xc22be3e, 0xe35e65a,- 0x1aeb7aa0, 0xc375315, 0xf67bc99, 0x7fdd7b9, 0x191fc1be, 0x61235d, 0x2c184e9, 0x1c5a839, 0x47a1e26,- 0xb7cb456, 0x93e225d, 0x14f3c6ed, 0xccc1ac9, 0x17fe37f3, 0x4988989, 0x1a90c502, 0x2f32042, 0xa17769b,- 0xafd8c7c, 0x8191c6e, 0x1dcdb237, 0x16200c0, 0x107b32a1, 0x66c08db, 0x10d06a02, 0x3fc93, 0x5620023,- 0x16722b27, 0x68b5c59, 0x270fcfc, 0xfad0ecc, 0xe5de1c2, 0xeab466b, 0x2fc513c, 0x407f75c, 0xbaab133,- 0x9705fe9, 0xb88b8e7, 0x734c993, 0x1e1ff8f, 0x19156970, 0xabd0f00, 0x10469ea7, 0x3293ac0, 0xcdc98aa,- 0x1d843fd, 0xe14bfe8, 0x15be825f, 0x8b5212, 0xeb3fb67, 0x81cbd29, 0xbc62f16, 0x2b6fcc7, 0xf5a4e29,- 0x13560b66, 0xc0b6ac2, 0x51ae690, 0xd41e271, 0xf3e9bd4, 0x1d70aab, 0x1029f72, 0x73e1c35, 0xee70fbc,- 0xad81baf, 0x9ecc49a, 0x86c741e, 0xfe6be30, 0x176752e7, 0x23d416, 0x1f83de85, 0x27de188, 0x66f70b8,- 0x181cd51f, 0x96b6e4c, 0x188f2335, 0xa5df759, 0x17a77eb6, 0xfeb0e73, 0x154ae914, 0x2f3ec51, 0x3826b59,- 0xb91f17d, 0x1c72949, 0x1362bf0a, 0xe23fddf, 0xa5614b0, 0xf7d8f, 0x79061, 0x823d9d2, 0x8213f39,- 0x1128ae0b, 0xd095d05, 0xb85c0c2, 0x1ecb2ef, 0x24ddc84, 0xe35e901, 0x18411a4a, 0xf5ddc3d, 0x3786689,- 0x52260e8, 0x5ae3564, 0x542b10d, 0x8d93a45, 0x19952aa4, 0x996cc41, 0x1051a729, 0x4be3499, 0x52b23aa,- 0x109f307e, 0x6f5b6bb, 0x1f84e1e7, 0x77a0cfa, 0x10c4df3f, 0x25a02ea, 0xb048035, 0xe31de66, 0xc6ecaa3,- 0x28ea335, 0x2886024, 0x1372f020, 0xf55d35, 0x15e4684c, 0xf2a9e17, 0x1a4a7529, 0xcb7beb1, 0xb2a78a1,- 0x1ab21f1f, 0x6361ccf, 0x6c9179d, 0xb135627, 0x1267b974, 0x4408bad, 0x1cbff658, 0xe3d6511, 0xc7d76f,- 0x1cc7a69, 0xe7ee31b, 0x54fab4f, 0x2b914f, 0x1ad27a30, 0xcd3579e, 0xc50124c, 0x50daa90, 0xb13f72,- 0xb06aa75, 0x70f5cc6, 0x1649e5aa, 0x84a5312, 0x329043c, 0x41c4011, 0x13d32411, 0xb04a838, 0xd760d2d,- 0x1713b532, 0xbaa0c03, 0x84022ab, 0x6bcf5c1, 0x2f45379, 0x18ae070, 0x18c9e11e, 0x20bca9a, 0x66f496b,- 0x3eef294, 0x67500d2, 0xd7f613c, 0x2dbbeb, 0xb741038, 0xe04133f, 0x1582968d, 0xbe985f7, 0x1acbc1a,- 0x1a6a939f, 0x33e50f6, 0xd665ed4, 0xb4b7bd6, 0x1e5a3799, 0x6b33847, 0x17fa56ff, 0x65ef930, 0x21dc4a,- 0x2b37659, 0x450fe17, 0xb357b65, 0xdf5efac, 0x15397bef, 0x9d35a7f, 0x112ac15f, 0x624e62e, 0xa90ae2f,- 0x107eecd2, 0x1f69bbe, 0x77d6bce, 0x5741394, 0x13c684fc, 0x950c910, 0x725522b, 0xdc78583, 0x40eeabb,- 0x1fde328a, 0xbd61d96, 0xd28c387, 0x9e77d89, 0x12550c40, 0x759cb7d, 0x367ef34, 0xae2a960, 0x91b8bdc,- 0x93462a9, 0xf469ef, 0xb2e9aef, 0xd2ca771, 0x54e1f42, 0x7aaa49, 0x6316abb, 0x2413c8e, 0x5425bf9,- 0x1bed3e3a, 0xf272274, 0x1f5e7326, 0x6416517, 0xea27072, 0x9cedea7, 0x6e7633, 0x7c91952, 0xd806dce,- 0x8e2a7e1, 0xe421e1a, 0x418c9e1, 0x1dbc890, 0x1b395c36, 0xa1dc175, 0x1dc4ef73, 0x8956f34, 0xe4b5cf2,- 0x1b0d3a18, 0x3194a36, 0x6c2641f, 0xe44124c, 0xa2f4eaa, 0xa8c25ba, 0xf927ed7, 0x627b614, 0x7371cca,- 0xba16694, 0x417bc03, 0x7c0a7e3, 0x9c35c19, 0x1168a205, 0x8b6b00d, 0x10e3edc9, 0x9c19bf2, 0x5882229,- 0x1b2b4162, 0xa5cef1a, 0x1543622b, 0x9bd433e, 0x364e04d, 0x7480792, 0x5c9b5b3, 0xe85ff25, 0x408ef57,- 0x1814cfa4, 0x121b41b, 0xd248a0f, 0x3b05222, 0x39bb16a, 0xc75966d, 0xa038113, 0xa4a1769, 0x11fbc6c,- 0x917e50e, 0xeec3da8, 0x169d6eac, 0x10c1699, 0xa416153, 0xf724912, 0x15cd60b7, 0x4acbad9, 0x5efc5fa,- 0xf150ed7, 0x122b51, 0x1104b40a, 0xcb7f442, 0xfbb28ff, 0x6ac53ca, 0x196142cc, 0x7bf0fa9, 0x957651,- 0x4e0f215, 0xed439f8, 0x3f46bd5, 0x5ace82f, 0x110916b6, 0x6db078, 0xffd7d57, 0xf2ecaac, 0xca86dec,- 0x15d6b2da, 0x965ecc9, 0x1c92b4c2, 0x1f3811, 0x1cb080f5, 0x2d8b804, 0x19d1c12d, 0xf20bd46, 0x1951fa7,- 0xa3656c3, 0x523a425, 0xfcd0692, 0xd44ddc8, 0x131f0f5b, 0xaf80e4a, 0xcd9fc74, 0x99bb618, 0x2db944c,- 0xa673090, 0x1c210e1, 0x178c8d23, 0x1474383, 0x10b8743d, 0x985a55b, 0x2e74779, 0x576138, 0x9587927,- 0x133130fa, 0xbe05516, 0x9f4d619, 0xbb62570, 0x99ec591, 0xd9468fe, 0x1d07782d, 0xfc72e0b, 0x701b298,- 0x1863863b, 0x85954b8, 0x121a0c36, 0x9e7fedf, 0xf64b429, 0x9b9d71e, 0x14e2f5d8, 0xf858d3a, 0x942eea8,- 0xda5b765, 0x6edafff, 0xa9d18cc, 0xc65e4ba, 0x1c747e86, 0xe4ea915, 0x1981d7a1, 0x8395659, 0x52ed4e2,- 0x87d43b7, 0x37ab11b, 0x19d292ce, 0xf8d4692, 0x18c3053f, 0x8863e13, 0x4c146c0, 0x6bdf55a, 0x4e4457d,- 0x16152289, 0xac78ec2, 0x1a59c5a2, 0x2028b97, 0x71c2d01, 0x295851f, 0x404747b, 0x878558d, 0x7d29aa4,- 0x13d8341f, 0x8daefd7, 0x139c972d, 0x6b7ea75, 0xd4a9dde, 0xff163d8, 0x81d55d7, 0xa5bef68, 0xb7b30d8,- 0xbe73d6f, 0xaa88141, 0xd976c81, 0x7e7a9cc, 0x18beb771, 0xd773cbd, 0x13f51951, 0x9d0c177, 0x1c49a78,-};+#include "p256/p256_gf.h" /* Field element operations: */ -/* NON_ZERO_TO_ALL_ONES returns:- * 0xffffffff for 0 < x <= 2**31- * 0 for x == 0 or x > 2**31.- *- * x must be a u32 or an equivalent type such as limb. */-#define NON_ZERO_TO_ALL_ONES(x) ((((u32)(x) - 1) >> 31) - 1)--/* felem_reduce_carry adds a multiple of p in order to cancel |carry|,- * which is a term at 2**257.- *- * On entry: carry < 2**3, inout[0,2,...] < 2**29, inout[1,3,...] < 2**28.- * On exit: inout[0,2,..] < 2**30, inout[1,3,...] < 2**29. */-static void felem_reduce_carry(felem inout, limb carry) {- const u32 carry_mask = NON_ZERO_TO_ALL_ONES(carry);-- inout[0] += carry << 1;- inout[3] += 0x10000000 & carry_mask;- /* carry < 2**3 thus (carry << 11) < 2**14 and we added 2**28 in the- * previous line therefore this doesn't underflow. */- inout[3] -= carry << 11;- inout[4] += (0x20000000 - 1) & carry_mask;- inout[5] += (0x10000000 - 1) & carry_mask;- inout[6] += (0x20000000 - 1) & carry_mask;- inout[6] -= carry << 22;- /* This may underflow if carry is non-zero but, if so, we'll fix it in the- * next line. */- inout[7] -= 1 & carry_mask;- inout[7] += carry << 25;-}--/* felem_sum sets out = in+in2.- *- * On entry, in[i]+in2[i] must not overflow a 32-bit word.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29 */-static void felem_sum(felem out, const felem in, const felem in2) {- limb carry = 0;- unsigned i;-- for (i = 0;; i++) {- out[i] = in[i] + in2[i];- out[i] += carry;- carry = out[i] >> 29;- out[i] &= kBottom29Bits;-- i++;- if (i == NLIMBS)- break;-- out[i] = in[i] + in2[i];- out[i] += carry;- carry = out[i] >> 28;- out[i] &= kBottom28Bits;- }-- felem_reduce_carry(out, carry);-}--#define two31m3 (((limb)1) << 31) - (((limb)1) << 3)-#define two30m2 (((limb)1) << 30) - (((limb)1) << 2)-#define two30p13m2 (((limb)1) << 30) + (((limb)1) << 13) - (((limb)1) << 2)-#define two31m2 (((limb)1) << 31) - (((limb)1) << 2)-#define two31p24m2 (((limb)1) << 31) + (((limb)1) << 24) - (((limb)1) << 2)-#define two30m27m2 (((limb)1) << 30) - (((limb)1) << 27) - (((limb)1) << 2)--/* zero31 is 0 mod p. */-static const felem zero31 = { two31m3, two30m2, two31m2, two30p13m2, two31m2, two30m2, two31p24m2, two30m27m2, two31m2 };--/* felem_diff sets out = in-in2.- *- * On entry: in[0,2,...] < 2**30, in[1,3,...] < 2**29 and- * in2[0,2,...] < 2**30, in2[1,3,...] < 2**29.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */-static void felem_diff(felem out, const felem in, const felem in2) {- limb carry = 0;- unsigned i;-- for (i = 0;; i++) {- out[i] = in[i] - in2[i];- out[i] += zero31[i];- out[i] += carry;- carry = out[i] >> 29;- out[i] &= kBottom29Bits;-- i++;- if (i == NLIMBS)- break;-- out[i] = in[i] - in2[i];- out[i] += zero31[i];- out[i] += carry;- carry = out[i] >> 28;- out[i] &= kBottom28Bits;- }-- felem_reduce_carry(out, carry);-}--/* felem_reduce_degree sets out = tmp/R mod p where tmp contains 64-bit words- * with the same 29,28,... bit positions as an felem.- *- * The values in felems are in Montgomery form: x*R mod p where R = 2**257.- * Since we just multiplied two Montgomery values together, the result is- * x*y*R*R mod p. We wish to divide by R in order for the result also to be- * in Montgomery form.- *- * On entry: tmp[i] < 2**64- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29 */-static void felem_reduce_degree(felem out, u64 tmp[17]) {- /* The following table may be helpful when reading this code:- *- * Limb number: 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10...- * Width (bits): 29| 28| 29| 28| 29| 28| 29| 28| 29| 28| 29- * Start bit: 0 | 29| 57| 86|114|143|171|200|228|257|285- * (odd phase): 0 | 28| 57| 85|114|142|171|199|228|256|285 */- limb tmp2[18], carry, x, xMask;- unsigned i;-- /* tmp contains 64-bit words with the same 29,28,29-bit positions as an- * felem. So the top of an element of tmp might overlap with another- * element two positions down. The following loop eliminates this- * overlap. */- tmp2[0] = (limb)(tmp[0] & kBottom29Bits);-- /* In the following we use "(limb) tmp[x]" and "(limb) (tmp[x]>>32)" to try- * and hint to the compiler that it can do a single-word shift by selecting- * the right register rather than doing a double-word shift and truncating- * afterwards. */- tmp2[1] = ((limb) tmp[0]) >> 29;- tmp2[1] |= (((limb)(tmp[0] >> 32)) << 3) & kBottom28Bits;- tmp2[1] += ((limb) tmp[1]) & kBottom28Bits;- carry = tmp2[1] >> 28;- tmp2[1] &= kBottom28Bits;-- for (i = 2; i < 17; i++) {- tmp2[i] = ((limb)(tmp[i - 2] >> 32)) >> 25;- tmp2[i] += ((limb)(tmp[i - 1])) >> 28;- tmp2[i] += (((limb)(tmp[i - 1] >> 32)) << 4) & kBottom29Bits;- tmp2[i] += ((limb) tmp[i]) & kBottom29Bits;- tmp2[i] += carry;- carry = tmp2[i] >> 29;- tmp2[i] &= kBottom29Bits;-- i++;- if (i == 17)- break;- tmp2[i] = ((limb)(tmp[i - 2] >> 32)) >> 25;- tmp2[i] += ((limb)(tmp[i - 1])) >> 29;- tmp2[i] += (((limb)(tmp[i - 1] >> 32)) << 3) & kBottom28Bits;- tmp2[i] += ((limb) tmp[i]) & kBottom28Bits;- tmp2[i] += carry;- carry = tmp2[i] >> 28;- tmp2[i] &= kBottom28Bits;- }-- tmp2[17] = ((limb)(tmp[15] >> 32)) >> 25;- tmp2[17] += ((limb)(tmp[16])) >> 29;- tmp2[17] += (((limb)(tmp[16] >> 32)) << 3);- tmp2[17] += carry;-- /* Montgomery elimination of terms.- *- * Since R is 2**257, we can divide by R with a bitwise shift if we can- * ensure that the right-most 257 bits are all zero. We can make that true by- * adding multiplies of p without affecting the value.- *- * So we eliminate limbs from right to left. Since the bottom 29 bits of p- * are all ones, then by adding tmp2[0]*p to tmp2 we'll make tmp2[0] == 0.- * We can do that for 8 further limbs and then right shift to eliminate the- * extra factor of R. */- for (i = 0;; i += 2) {- tmp2[i + 1] += tmp2[i] >> 29;- x = tmp2[i] & kBottom29Bits;- xMask = NON_ZERO_TO_ALL_ONES(x);- tmp2[i] = 0;-- /* The bounds calculations for this loop are tricky. Each iteration of- * the loop eliminates two words by adding values to words to their- * right.- *- * The following table contains the amounts added to each word (as an- * offset from the value of i at the top of the loop). The amounts are- * accounted for from the first and second half of the loop separately- * and are written as, for example, 28 to mean a value <2**28.- *- * Word: 3 4 5 6 7 8 9 10- * Added in top half: 28 11 29 21 29 28- * 28 29- * 29- * Added in bottom half: 29 10 28 21 28 28- * 29- *- * The value that is currently offset 7 will be offset 5 for the next- * iteration and then offset 3 for the iteration after that. Therefore- * the total value added will be the values added at 7, 5 and 3.- *- * The following table accumulates these values. The sums at the bottom- * are written as, for example, 29+28, to mean a value < 2**29+2**28.- *- * Word: 3 4 5 6 7 8 9 10 11 12 13- * 28 11 10 29 21 29 28 28 28 28 28- * 29 28 11 28 29 28 29 28 29 28- * 29 28 21 21 29 21 29 21- * 10 29 28 21 28 21 28- * 28 29 28 29 28 29 28- * 11 10 29 10 29 10- * 29 28 11 28 11- * 29 29- * --------------------------------------------- * 30+ 31+ 30+ 31+ 30+- * 28+ 29+ 28+ 29+ 21+- * 21+ 28+ 21+ 28+ 10- * 10 21+ 10 21+- * 11 11- *- * So the greatest amount is added to tmp2[10] and tmp2[12]. If- * tmp2[10/12] has an initial value of <2**29, then the maximum value- * will be < 2**31 + 2**30 + 2**28 + 2**21 + 2**11, which is < 2**32,- * as required. */- tmp2[i + 3] += (x << 10) & kBottom28Bits;- tmp2[i + 4] += (x >> 18);-- tmp2[i + 6] += (x << 21) & kBottom29Bits;- tmp2[i + 7] += x >> 8;-- /* At position 200, which is the starting bit position for word 7, we- * have a factor of 0xf000000 = 2**28 - 2**24. */- tmp2[i + 7] += 0x10000000 & xMask;- /* Word 7 is 28 bits wide, so the 2**28 term exactly hits word 8. */- tmp2[i + 8] += (x - 1) & xMask;- tmp2[i + 7] -= (x << 24) & kBottom28Bits;- tmp2[i + 8] -= x >> 4;-- tmp2[i + 8] += 0x20000000 & xMask;- tmp2[i + 8] -= x;- tmp2[i + 8] += (x << 28) & kBottom29Bits;- tmp2[i + 9] += ((x >> 1) - 1) & xMask;-- if (i+1 == NLIMBS)- break;- tmp2[i + 2] += tmp2[i + 1] >> 28;- x = tmp2[i + 1] & kBottom28Bits;- xMask = NON_ZERO_TO_ALL_ONES(x);- tmp2[i + 1] = 0;-- tmp2[i + 4] += (x << 11) & kBottom29Bits;- tmp2[i + 5] += (x >> 18);-- tmp2[i + 7] += (x << 21) & kBottom28Bits;- tmp2[i + 8] += x >> 7;-- /* At position 199, which is the starting bit of the 8th word when- * dealing with a context starting on an odd word, we have a factor of- * 0x1e000000 = 2**29 - 2**25. Since we have not updated i, the 8th- * word from i+1 is i+8. */- tmp2[i + 8] += 0x20000000 & xMask;- tmp2[i + 9] += (x - 1) & xMask;- tmp2[i + 8] -= (x << 25) & kBottom29Bits;- tmp2[i + 9] -= x >> 4;-- tmp2[i + 9] += 0x10000000 & xMask;- tmp2[i + 9] -= x;- tmp2[i + 10] += (x - 1) & xMask;- }-- /* We merge the right shift with a carry chain. The words above 2**257 have- * widths of 28,29,... which we need to correct when copying them down. */- carry = 0;- for (i = 0; i < 8; i++) {- /* The maximum value of tmp2[i + 9] occurs on the first iteration and- * is < 2**30+2**29+2**28. Adding 2**29 (from tmp2[i + 10]) is- * therefore safe. */- out[i] = tmp2[i + 9];- out[i] += carry;- out[i] += (tmp2[i + 10] << 28) & kBottom29Bits;- carry = out[i] >> 29;- out[i] &= kBottom29Bits;-- i++;- out[i] = tmp2[i + 9] >> 1;- out[i] += carry;- carry = out[i] >> 28;- out[i] &= kBottom28Bits;- }-- out[8] = tmp2[17];- out[8] += carry;- carry = out[8] >> 29;- out[8] &= kBottom29Bits;-- felem_reduce_carry(out, carry);-}--/* felem_square sets out=in*in.- *- * On entry: in[0,2,...] < 2**30, in[1,3,...] < 2**29.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */-static void felem_square(felem out, const felem in) {- u64 tmp[17];-- tmp[0] = ((u64) in[0]) * in[0];- tmp[1] = ((u64) in[0]) * (in[1] << 1);- tmp[2] = ((u64) in[0]) * (in[2] << 1) +- ((u64) in[1]) * (in[1] << 1);- tmp[3] = ((u64) in[0]) * (in[3] << 1) +- ((u64) in[1]) * (in[2] << 1);- tmp[4] = ((u64) in[0]) * (in[4] << 1) +- ((u64) in[1]) * (in[3] << 2) + ((u64) in[2]) * in[2];- tmp[5] = ((u64) in[0]) * (in[5] << 1) + ((u64) in[1]) *- (in[4] << 1) + ((u64) in[2]) * (in[3] << 1);- tmp[6] = ((u64) in[0]) * (in[6] << 1) + ((u64) in[1]) *- (in[5] << 2) + ((u64) in[2]) * (in[4] << 1) +- ((u64) in[3]) * (in[3] << 1);- tmp[7] = ((u64) in[0]) * (in[7] << 1) + ((u64) in[1]) *- (in[6] << 1) + ((u64) in[2]) * (in[5] << 1) +- ((u64) in[3]) * (in[4] << 1);- /* tmp[8] has the greatest value of 2**61 + 2**60 + 2**61 + 2**60 + 2**60,- * which is < 2**64 as required. */- tmp[8] = ((u64) in[0]) * (in[8] << 1) + ((u64) in[1]) *- (in[7] << 2) + ((u64) in[2]) * (in[6] << 1) +- ((u64) in[3]) * (in[5] << 2) + ((u64) in[4]) * in[4];- tmp[9] = ((u64) in[1]) * (in[8] << 1) + ((u64) in[2]) *- (in[7] << 1) + ((u64) in[3]) * (in[6] << 1) +- ((u64) in[4]) * (in[5] << 1);- tmp[10] = ((u64) in[2]) * (in[8] << 1) + ((u64) in[3]) *- (in[7] << 2) + ((u64) in[4]) * (in[6] << 1) +- ((u64) in[5]) * (in[5] << 1);- tmp[11] = ((u64) in[3]) * (in[8] << 1) + ((u64) in[4]) *- (in[7] << 1) + ((u64) in[5]) * (in[6] << 1);- tmp[12] = ((u64) in[4]) * (in[8] << 1) +- ((u64) in[5]) * (in[7] << 2) + ((u64) in[6]) * in[6];- tmp[13] = ((u64) in[5]) * (in[8] << 1) +- ((u64) in[6]) * (in[7] << 1);- tmp[14] = ((u64) in[6]) * (in[8] << 1) +- ((u64) in[7]) * (in[7] << 1);- tmp[15] = ((u64) in[7]) * (in[8] << 1);- tmp[16] = ((u64) in[8]) * in[8];-- felem_reduce_degree(out, tmp);-}--/* felem_mul sets out=in*in2.- *- * On entry: in[0,2,...] < 2**30, in[1,3,...] < 2**29 and- * in2[0,2,...] < 2**30, in2[1,3,...] < 2**29.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */-static void felem_mul(felem out, const felem in, const felem in2) {- u64 tmp[17];-- tmp[0] = ((u64) in[0]) * in2[0];- tmp[1] = ((u64) in[0]) * (in2[1] << 0) +- ((u64) in[1]) * (in2[0] << 0);- tmp[2] = ((u64) in[0]) * (in2[2] << 0) + ((u64) in[1]) *- (in2[1] << 1) + ((u64) in[2]) * (in2[0] << 0);- tmp[3] = ((u64) in[0]) * (in2[3] << 0) + ((u64) in[1]) *- (in2[2] << 0) + ((u64) in[2]) * (in2[1] << 0) +- ((u64) in[3]) * (in2[0] << 0);- tmp[4] = ((u64) in[0]) * (in2[4] << 0) + ((u64) in[1]) *- (in2[3] << 1) + ((u64) in[2]) * (in2[2] << 0) +- ((u64) in[3]) * (in2[1] << 1) +- ((u64) in[4]) * (in2[0] << 0);- tmp[5] = ((u64) in[0]) * (in2[5] << 0) + ((u64) in[1]) *- (in2[4] << 0) + ((u64) in[2]) * (in2[3] << 0) +- ((u64) in[3]) * (in2[2] << 0) + ((u64) in[4]) *- (in2[1] << 0) + ((u64) in[5]) * (in2[0] << 0);- tmp[6] = ((u64) in[0]) * (in2[6] << 0) + ((u64) in[1]) *- (in2[5] << 1) + ((u64) in[2]) * (in2[4] << 0) +- ((u64) in[3]) * (in2[3] << 1) + ((u64) in[4]) *- (in2[2] << 0) + ((u64) in[5]) * (in2[1] << 1) +- ((u64) in[6]) * (in2[0] << 0);- tmp[7] = ((u64) in[0]) * (in2[7] << 0) + ((u64) in[1]) *- (in2[6] << 0) + ((u64) in[2]) * (in2[5] << 0) +- ((u64) in[3]) * (in2[4] << 0) + ((u64) in[4]) *- (in2[3] << 0) + ((u64) in[5]) * (in2[2] << 0) +- ((u64) in[6]) * (in2[1] << 0) +- ((u64) in[7]) * (in2[0] << 0);- /* tmp[8] has the greatest value but doesn't overflow. See logic in- * felem_square. */- tmp[8] = ((u64) in[0]) * (in2[8] << 0) + ((u64) in[1]) *- (in2[7] << 1) + ((u64) in[2]) * (in2[6] << 0) +- ((u64) in[3]) * (in2[5] << 1) + ((u64) in[4]) *- (in2[4] << 0) + ((u64) in[5]) * (in2[3] << 1) +- ((u64) in[6]) * (in2[2] << 0) + ((u64) in[7]) *- (in2[1] << 1) + ((u64) in[8]) * (in2[0] << 0);- tmp[9] = ((u64) in[1]) * (in2[8] << 0) + ((u64) in[2]) *- (in2[7] << 0) + ((u64) in[3]) * (in2[6] << 0) +- ((u64) in[4]) * (in2[5] << 0) + ((u64) in[5]) *- (in2[4] << 0) + ((u64) in[6]) * (in2[3] << 0) +- ((u64) in[7]) * (in2[2] << 0) +- ((u64) in[8]) * (in2[1] << 0);- tmp[10] = ((u64) in[2]) * (in2[8] << 0) + ((u64) in[3]) *- (in2[7] << 1) + ((u64) in[4]) * (in2[6] << 0) +- ((u64) in[5]) * (in2[5] << 1) + ((u64) in[6]) *- (in2[4] << 0) + ((u64) in[7]) * (in2[3] << 1) +- ((u64) in[8]) * (in2[2] << 0);- tmp[11] = ((u64) in[3]) * (in2[8] << 0) + ((u64) in[4]) *- (in2[7] << 0) + ((u64) in[5]) * (in2[6] << 0) +- ((u64) in[6]) * (in2[5] << 0) + ((u64) in[7]) *- (in2[4] << 0) + ((u64) in[8]) * (in2[3] << 0);- tmp[12] = ((u64) in[4]) * (in2[8] << 0) + ((u64) in[5]) *- (in2[7] << 1) + ((u64) in[6]) * (in2[6] << 0) +- ((u64) in[7]) * (in2[5] << 1) +- ((u64) in[8]) * (in2[4] << 0);- tmp[13] = ((u64) in[5]) * (in2[8] << 0) + ((u64) in[6]) *- (in2[7] << 0) + ((u64) in[7]) * (in2[6] << 0) +- ((u64) in[8]) * (in2[5] << 0);- tmp[14] = ((u64) in[6]) * (in2[8] << 0) + ((u64) in[7]) *- (in2[7] << 1) + ((u64) in[8]) * (in2[6] << 0);- tmp[15] = ((u64) in[7]) * (in2[8] << 0) +- ((u64) in[8]) * (in2[7] << 0);- tmp[16] = ((u64) in[8]) * (in2[8] << 0);-- felem_reduce_degree(out, tmp);-}--static void felem_assign(felem out, const felem in) {- memcpy(out, in, sizeof(felem));-}- /* felem_inv calculates |out| = |in|^{-1} * * Based on Fermat's Little Theorem:@@ -667,131 +105,7 @@ felem_mul(out, ftmp2, ftmp); /* 2^256 - 2^224 + 2^192 + 2^96 - 3 */ } -/* felem_scalar_3 sets out=3*out.- *- * On entry: out[0,2,...] < 2**30, out[1,3,...] < 2**29.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */-static void felem_scalar_3(felem out) {- limb carry = 0;- unsigned i; - for (i = 0;; i++) {- out[i] *= 3;- out[i] += carry;- carry = out[i] >> 29;- out[i] &= kBottom29Bits;-- i++;- if (i == NLIMBS)- break;-- out[i] *= 3;- out[i] += carry;- carry = out[i] >> 28;- out[i] &= kBottom28Bits;- }-- felem_reduce_carry(out, carry);-}--/* felem_scalar_4 sets out=4*out.- *- * On entry: out[0,2,...] < 2**30, out[1,3,...] < 2**29.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */-static void felem_scalar_4(felem out) {- limb carry = 0, next_carry;- unsigned i;-- for (i = 0;; i++) {- next_carry = out[i] >> 27;- out[i] <<= 2;- out[i] &= kBottom29Bits;- out[i] += carry;- carry = next_carry + (out[i] >> 29);- out[i] &= kBottom29Bits;-- i++;- if (i == NLIMBS)- break;-- next_carry = out[i] >> 26;- out[i] <<= 2;- out[i] &= kBottom28Bits;- out[i] += carry;- carry = next_carry + (out[i] >> 28);- out[i] &= kBottom28Bits;- }-- felem_reduce_carry(out, carry);-}--/* felem_scalar_8 sets out=8*out.- *- * On entry: out[0,2,...] < 2**30, out[1,3,...] < 2**29.- * On exit: out[0,2,...] < 2**30, out[1,3,...] < 2**29. */-static void felem_scalar_8(felem out) {- limb carry = 0, next_carry;- unsigned i;-- for (i = 0;; i++) {- next_carry = out[i] >> 26;- out[i] <<= 3;- out[i] &= kBottom29Bits;- out[i] += carry;- carry = next_carry + (out[i] >> 29);- out[i] &= kBottom29Bits;-- i++;- if (i == NLIMBS)- break;-- next_carry = out[i] >> 25;- out[i] <<= 3;- out[i] &= kBottom28Bits;- out[i] += carry;- carry = next_carry + (out[i] >> 28);- out[i] &= kBottom28Bits;- }-- felem_reduce_carry(out, carry);-}--/* felem_is_zero_vartime returns 1 iff |in| == 0. It takes a variable amount of- * time depending on the value of |in|. */-static char felem_is_zero_vartime(const felem in) {- limb carry;- int i;- limb tmp[NLIMBS];-- felem_assign(tmp, in);-- /* First, reduce tmp to a minimal form. */- do {- carry = 0;- for (i = 0;; i++) {- tmp[i] += carry;- carry = tmp[i] >> 29;- tmp[i] &= kBottom29Bits;-- i++;- if (i == NLIMBS)- break;-- tmp[i] += carry;- carry = tmp[i] >> 28;- tmp[i] &= kBottom28Bits;- }-- felem_reduce_carry(tmp, carry);- } while (carry);-- /* tmp < 2**257, so the only possible zero values are 0, p and 2p. */- return memcmp(tmp, kZero, sizeof(tmp)) == 0 ||- memcmp(tmp, kP, sizeof(tmp)) == 0 ||- memcmp(tmp, k2P, sizeof(tmp)) == 0;-}-- /* Group operations: * * Elements of the elliptic curve group are represented in Jacobian@@ -971,9 +285,9 @@ felem_diff(y_out, y_out, tmp); } -/* copy_conditional sets out=in if mask = 0xffffffff in constant time.+/* copy_conditional sets out=in if mask = -1 in constant time. *- * On entry: mask is either 0 or 0xffffffff. */+ * On entry: mask is either 0 or -1. */ static void copy_conditional(felem out, const felem in, limb mask) { int i; @@ -1168,58 +482,6 @@ } } -#define kRDigits {2, 0, 0, 0xfffffffe, 0xffffffff, 0xffffffff, 0xfffffffd, 1} // 2^257 mod p256.p--#define kRInvDigits {0x80000000, 1, 0xffffffff, 0, 0x80000001, 0xfffffffe, 1, 0x7fffffff} // 1 / 2^257 mod p256.p--static const cryptonite_p256_int kR = { kRDigits };-static const cryptonite_p256_int kRInv = { kRInvDigits };--/* to_montgomery sets out = R*in. */-static void to_montgomery(felem out, const cryptonite_p256_int* in) {- cryptonite_p256_int in_shifted;- int i;-- cryptonite_p256_init(&in_shifted);- cryptonite_p256_modmul(&cryptonite_SECP256r1_p, in, 0, &kR, &in_shifted);-- for (i = 0; i < NLIMBS; i++) {- if ((i & 1) == 0) {- out[i] = P256_DIGIT(&in_shifted, 0) & kBottom29Bits;- cryptonite_p256_shr(&in_shifted, 29, &in_shifted);- } else {- out[i] = P256_DIGIT(&in_shifted, 0) & kBottom28Bits;- cryptonite_p256_shr(&in_shifted, 28, &in_shifted);- }- }-- cryptonite_p256_clear(&in_shifted);-}--/* from_montgomery sets out=in/R. */-static void from_montgomery(cryptonite_p256_int* out, const felem in) {- cryptonite_p256_int result, tmp;- int i, top;-- cryptonite_p256_init(&result);- cryptonite_p256_init(&tmp);-- cryptonite_p256_add_d(&tmp, in[NLIMBS - 1], &result);- for (i = NLIMBS - 2; i >= 0; i--) {- if ((i & 1) == 0) {- top = cryptonite_p256_shl(&result, 29, &tmp);- } else {- top = cryptonite_p256_shl(&result, 28, &tmp);- }- top |= cryptonite_p256_add_d(&tmp, in[i], &result);- }-- cryptonite_p256_modmul(&cryptonite_SECP256r1_p, &kRInv, top, &result, out);-- cryptonite_p256_clear(&result);- cryptonite_p256_clear(&tmp);-}- /* cryptonite_p256_base_point_mul sets {out_x,out_y} = nG, where n is < the * order of the group. */ void cryptonite_p256_base_point_mul(const cryptonite_p256_int* n, cryptonite_p256_int* out_x, cryptonite_p256_int* out_y) {@@ -1287,19 +549,44 @@ const cryptonite_p256_int *in_x2, const cryptonite_p256_int *in_y2, cryptonite_p256_int *out_x, cryptonite_p256_int *out_y) {- felem x1, y1, z1, x2, y2, z2, px1, py1, px2, py2;- const cryptonite_p256_int one = P256_ONE;+ felem x, y, z, px1, py1, px2, py2; to_montgomery(px1, in_x1); to_montgomery(py1, in_y1); to_montgomery(px2, in_x2); to_montgomery(py2, in_y2); - scalar_mult(x1, y1, z1, px1, py1, &one);- scalar_mult(x2, y2, z2, px2, py2, &one);- point_add_or_double_vartime(x1, y1, z1, x1, y1, z1, x2, y2, z2);+ point_add_or_double_vartime(x, y, z, px1, py1, kOne, px2, py2, kOne); - point_to_affine(px1, py1, x1, y1, z1);+ point_to_affine(px1, py1, x, y, z); from_montgomery(out_x, px1); from_montgomery(out_y, py1);+}++/* this function is not part of the original source+ negate a point, i.e. (out_x, out_y) = (in_x, -in_y)+ */+void cryptonite_p256e_point_negate(+ const cryptonite_p256_int *in_x, const cryptonite_p256_int *in_y,+ cryptonite_p256_int *out_x, cryptonite_p256_int *out_y)+{+ memcpy(out_x, in_x, P256_NBYTES);+ cryptonite_p256_sub(&cryptonite_SECP256r1_p, in_y, out_y);+}++/* this function is not part of the original source+ cryptonite_p256e_point_mul sets {out_x,out_y} = n*{in_x,in_y}, where+ n is < the order of the group.+ */+void cryptonite_p256e_point_mul(const cryptonite_p256_int* n,+ const cryptonite_p256_int* in_x, const cryptonite_p256_int* in_y,+ cryptonite_p256_int* out_x, cryptonite_p256_int* out_y) {+ felem x, y, z, px, py;++ to_montgomery(px, in_x);+ to_montgomery(py, in_y);+ scalar_mult(x, y, z, px, py, n);+ point_to_affine(px, py, x, y, z);+ from_montgomery(out_x, px);+ from_montgomery(out_y, py); }
cryptonite.cabal view
@@ -1,28 +1,30 @@ Name: cryptonite-Version: 0.15.1+version: 0.30 Synopsis: Cryptography Primitives sink Description: A repository of cryptographic primitives. .- * Symmetric ciphers: AES, DES, 3DES, Blowfish, Camellia, RC4, Salsa, ChaCha.+ * Symmetric ciphers: AES, DES, 3DES, CAST5, Blowfish, Twofish, Camellia, RC4, Salsa, XSalsa, ChaCha. .- * Hash: SHA1, SHA2, SHA3, MD2, MD4, MD5, Keccak, Skein, Ripemd, Tiger, Whirlpool, Blake2+ * Hash: SHA1, SHA2, SHA3, SHAKE, MD2, MD4, MD5, Keccak, Skein, Ripemd, Tiger, Whirlpool, Blake2 .- * MAC: HMAC, Poly1305+ * MAC: HMAC, KMAC, Poly1305 .- * Assymmetric crypto: DSA, RSA, DH, ECDH, ECDSA, ECC, Curve25519, Ed25519+ * Asymmetric crypto: DSA, RSA, DH, ECDH, ECDSA, ECC, Curve25519, Curve448, Ed25519, Ed448 .- * Key Derivation Function: PBKDF2, Scrypt, HKDF+ * Key Derivation Function: PBKDF2, Scrypt, HKDF, Argon2, BCrypt, BCryptPBKDF . * Cryptographic Random generation: System Entropy, Deterministic Random Generator . * Data related: Anti-Forensic Information Splitter (AFIS) . If anything cryptographic related is missing from here, submit- a pull request to have it added. This package strive to be a+ a pull request to have it added. This package strives to be a cryptographic kitchen sink that provides cryptography for everyone. . Evaluate the security related to your requirements before using.+ .+ Read "Crypto.Tutorial" for a quick start guide. License: BSD3 License-file: LICENSE Copyright: Vincent Hanquez <vincent@snarc.org>@@ -33,18 +35,29 @@ Build-Type: Simple Homepage: https://github.com/haskell-crypto/cryptonite Bug-reports: https://github.com/haskell-crypto/cryptonite/issues-Cabal-Version: >=1.10+Cabal-Version: 1.18+tested-with: GHC==9.2.2, GHC==9.0.2, GHC==8.10.7, GHC==8.8.4 extra-doc-files: README.md CHANGELOG.md extra-source-files: cbits/*.h cbits/aes/*.h cbits/ed25519/*.h- cbits/ed448/*.h- cbits/p256/*.h+ cbits/decaf/include/*.h+ cbits/decaf/include/decaf/*.h+ cbits/decaf/include/arch_32/*.h+ cbits/decaf/include/arch_ref64/*.h+ cbits/decaf/p448/arch_32/*.h+ cbits/decaf/p448/arch_ref64/*.h+ cbits/decaf/p448/*.h+ cbits/decaf/ed448goldilocks/decaf_tables.c+ cbits/decaf/ed448goldilocks/decaf.c+ cbits/include32/p256/*.h+ cbits/include64/p256/*.h cbits/blake2/ref/*.h- cbits/blake2/ref/*.c cbits/blake2/sse/*.h- cbits/blake2/sse/*.c+ cbits/argon2/*.h+ cbits/argon2/*.c cbits/aes/x86ni_impl.c+ cbits/cryptonite_hash_prefix.c tests/*.hs source-repository head@@ -66,8 +79,8 @@ Default: False Manual: True -Flag support_blake2_sse- Description: Use SSE optimized version of BLAKE2.+Flag support_sse+ Description: Use SSE optimized version of (BLAKE2, ARGON2) Default: False Manual: True @@ -86,9 +99,21 @@ Default: False Manual: True +Flag check_alignment+ Description: extra check on alignment in C layers, which cause lowlevel assert errors. for debugging only.+ Default: False+ Manual: True++Flag use_target_attributes+ Description: use GCC / clang function attributes instead of global target options.+ Default: True+ Manual: True+ Library Exposed-modules: Crypto.Cipher.AES+ Crypto.Cipher.AESGCMSIV Crypto.Cipher.Blowfish+ Crypto.Cipher.CAST5 Crypto.Cipher.Camellia Crypto.Cipher.ChaCha Crypto.Cipher.ChaChaPoly1305@@ -96,28 +121,42 @@ Crypto.Cipher.RC4 Crypto.Cipher.Salsa Crypto.Cipher.TripleDES+ Crypto.Cipher.Twofish Crypto.Cipher.Types+ Crypto.Cipher.Utils+ Crypto.Cipher.XSalsa+ Crypto.ConstructHash.MiyaguchiPreneel Crypto.Data.AFIS Crypto.Data.Padding+ Crypto.ECC+ Crypto.ECC.Edwards25519 Crypto.Error Crypto.MAC.CMAC Crypto.MAC.Poly1305 Crypto.MAC.HMAC+ Crypto.MAC.KMAC Crypto.Number.Basic Crypto.Number.F2m Crypto.Number.Generate Crypto.Number.ModArithmetic+ Crypto.Number.Nat Crypto.Number.Prime Crypto.Number.Serialize+ Crypto.Number.Serialize.LE Crypto.Number.Serialize.Internal+ Crypto.Number.Serialize.Internal.LE+ Crypto.KDF.Argon2 Crypto.KDF.PBKDF2 Crypto.KDF.Scrypt Crypto.KDF.BCrypt+ Crypto.KDF.BCryptPBKDF Crypto.KDF.HKDF Crypto.Hash Crypto.Hash.IO Crypto.Hash.Algorithms+ Crypto.OTP Crypto.PubKey.Curve25519+ Crypto.PubKey.Curve448 Crypto.PubKey.MaskGenFunction Crypto.PubKey.DH Crypto.PubKey.DSA@@ -127,24 +166,36 @@ Crypto.PubKey.ECC.ECDSA Crypto.PubKey.ECC.P256 Crypto.PubKey.ECC.Types+ Crypto.PubKey.ECDSA+ Crypto.PubKey.ECIES Crypto.PubKey.Ed25519 Crypto.PubKey.Ed448+ Crypto.PubKey.EdDSA Crypto.PubKey.RSA Crypto.PubKey.RSA.PKCS15 Crypto.PubKey.RSA.Prim Crypto.PubKey.RSA.PSS Crypto.PubKey.RSA.OAEP Crypto.PubKey.RSA.Types+ Crypto.PubKey.Rabin.OAEP+ Crypto.PubKey.Rabin.Basic+ Crypto.PubKey.Rabin.Modified+ Crypto.PubKey.Rabin.RW+ Crypto.PubKey.Rabin.Types Crypto.Random Crypto.Random.Types Crypto.Random.Entropy Crypto.Random.EntropyPool Crypto.Random.Entropy.Unsafe+ Crypto.System.CPU+ Crypto.Tutorial Other-modules: Crypto.Cipher.AES.Primitive Crypto.Cipher.Blowfish.Box Crypto.Cipher.Blowfish.Primitive+ Crypto.Cipher.CAST5.Primitive Crypto.Cipher.Camellia.Primitive Crypto.Cipher.DES.Primitive+ Crypto.Cipher.Twofish.Primitive Crypto.Cipher.Types.AEAD Crypto.Cipher.Types.Base Crypto.Cipher.Types.Block@@ -154,6 +205,7 @@ Crypto.Error.Types Crypto.Number.Compat Crypto.Hash.Types+ Crypto.Hash.Blake2 Crypto.Hash.Blake2s Crypto.Hash.Blake2sp Crypto.Hash.Blake2b@@ -165,6 +217,7 @@ Crypto.Hash.SHA512 Crypto.Hash.SHA512t Crypto.Hash.SHA3+ Crypto.Hash.SHAKE Crypto.Hash.Keccak Crypto.Hash.MD2 Crypto.Hash.MD4@@ -181,29 +234,38 @@ Crypto.Random.Probabilistic Crypto.PubKey.Internal Crypto.PubKey.ElGamal+ Crypto.ECC.Simple.Types+ Crypto.ECC.Simple.Prim+ Crypto.Internal.Builder Crypto.Internal.ByteArray Crypto.Internal.Compat Crypto.Internal.CompatPrim Crypto.Internal.DeepSeq Crypto.Internal.Imports+ Crypto.Internal.Nat Crypto.Internal.Words Crypto.Internal.WordArray- Build-depends: base >= 4.3 && < 5- , bytestring- , memory >= 0.8+ if impl(ghc < 8.8)+ Buildable: False+ else+ Build-depends: base++ Build-depends: bytestring+ , memory >= 0.14.18+ , basement >= 0.0.6 , ghc-prim- ghc-options: -Wall -fwarn-tabs -optc-O3 -fno-warn-unused-imports+ ghc-options: -Wall -fwarn-tabs -optc-O3+ if os(linux)+ extra-libraries: pthread default-language: Haskell2010 cc-options: -std=gnu99 if flag(old_toolchain_inliner) cc-options: -fgnu89-inline C-sources: cbits/cryptonite_chacha.c , cbits/cryptonite_salsa.c+ , cbits/cryptonite_xsalsa.c , cbits/cryptonite_rc4.c , cbits/cryptonite_cpu.c- , cbits/curve25519/curve25519-donna.c- , cbits/ed25519/ed25519.c- , cbits/ed448/x448.c , cbits/p256/p256.c , cbits/p256/p256_ec.c , cbits/cryptonite_blake2s.c@@ -215,7 +277,6 @@ , cbits/cryptonite_sha256.c , cbits/cryptonite_sha512.c , cbits/cryptonite_sha3.c- , cbits/cryptonite_keccak.c , cbits/cryptonite_md2.c , cbits/cryptonite_md4.c , cbits/cryptonite_md5.c@@ -225,8 +286,46 @@ , cbits/cryptonite_tiger.c , cbits/cryptonite_whirlpool.c , cbits/cryptonite_scrypt.c- include-dirs: cbits cbits/ed25519+ , cbits/cryptonite_pbkdf2.c+ , cbits/ed25519/ed25519.c+ include-dirs: cbits+ , cbits/ed25519+ , cbits/decaf/include+ , cbits/decaf/p448 + if arch(x86_64) || arch(aarch64)+ include-dirs: cbits/include64+ else+ include-dirs: cbits/include32++ if arch(x86_64) || arch(aarch64)+ C-sources: cbits/decaf/p448/arch_ref64/f_impl.c+ , cbits/decaf/p448/f_generic.c+ , cbits/decaf/p448/f_arithmetic.c+ , cbits/decaf/utils.c+ , cbits/decaf/ed448goldilocks/scalar.c+ , cbits/decaf/ed448goldilocks/decaf_all.c+ , cbits/decaf/ed448goldilocks/eddsa.c++ include-dirs: cbits/decaf/include/arch_ref64+ , cbits/decaf/p448/arch_ref64+ else+ C-sources: cbits/decaf/p448/arch_32/f_impl.c+ , cbits/decaf/p448/f_generic.c+ , cbits/decaf/p448/f_arithmetic.c+ , cbits/decaf/utils.c+ , cbits/decaf/ed448goldilocks/scalar.c+ , cbits/decaf/ed448goldilocks/decaf_all.c+ , cbits/decaf/ed448goldilocks/eddsa.c++ include-dirs: cbits/decaf/include/arch_32+ , cbits/decaf/p448/arch_32++ if arch(x86_64) || arch(aarch64)+ C-sources: cbits/curve25519/curve25519-donna-c64.c+ else+ C-sources: cbits/curve25519/curve25519-donna.c+ -- FIXME armel or mispel is also little endian. -- might be a good idea to also add a runtime autodetect mode. -- ARCH_ENDIAN_UNKNOWN@@ -239,15 +338,19 @@ if arch(x86_64) CPP-options: -DARCH_X86_64 - if flag(support_rdrand) && (arch(i386) || arch(x86_64))+ if flag(support_rdrand) && (arch(i386) || arch(x86_64)) && !os(windows) CPP-options: -DSUPPORT_RDRAND Other-modules: Crypto.Random.Entropy.RDRand c-sources: cbits/cryptonite_rdrand.c if flag(support_aesni) && (os(linux) || os(freebsd) || os(osx)) && (arch(i386) || arch(x86_64))- CC-options: -mssse3 -maes -DWITH_AESNI+ CC-options: -DWITH_AESNI+ if !flag(use_target_attributes)+ CC-options: -mssse3 -maes if flag(support_pclmuldq)- CC-options: -msse4.1 -mpclmul -DWITH_PCLMUL+ CC-options: -DWITH_PCLMUL+ if !flag(use_target_attributes)+ CC-options: -msse4.1 -mpclmul C-sources: cbits/aes/x86ni.c , cbits/aes/generic.c , cbits/aes/gf.c@@ -257,7 +360,7 @@ , cbits/aes/gf.c , cbits/cryptonite_aes.c - if arch(x86_64) || flag(support_blake2_sse)+ if arch(x86_64) || flag(support_sse) C-sources: cbits/blake2/sse/blake2s.c , cbits/blake2/sse/blake2sp.c , cbits/blake2/sse/blake2b.c@@ -270,6 +373,14 @@ , cbits/blake2/ref/blake2bp-ref.c include-dirs: cbits/blake2/ref + if arch(x86_64) || flag(support_sse)+ CPP-options: -DSUPPORT_SSE+ if arch(i386)+ CC-options: -msse2++ C-sources: cbits/argon2/argon2.c+ include-dirs: cbits/argon2+ if os(windows) cpp-options: -DWINDOWS Build-Depends: Win32@@ -284,6 +395,10 @@ if flag(support_deepseq) CPP-options: -DWITH_DEEPSEQ_SUPPORT Build-depends: deepseq+ if flag(check_alignment)+ cc-options: -DWITH_ASSERT_ALIGNMENT+ if flag(use_target_attributes)+ cc-options: -DWITH_TARGET_ATTRIBUTES Test-Suite test-cryptonite type: exitcode-stdio-1.0@@ -292,44 +407,81 @@ Other-modules: BlockCipher ChaCha BCrypt+ BCryptPBKDF+ ECC+ ECC.Edwards25519+ ECDSA Hash Imports KAT_AES.KATCBC KAT_AES.KATECB KAT_AES.KATGCM+ KAT_AES.KATCCM KAT_AES.KATOCB3 KAT_AES.KATXTS KAT_AES+ KAT_AESGCMSIV KAT_AFIS+ KAT_Argon2 KAT_Blowfish+ KAT_CAST5 KAT_Camellia KAT_Curve25519+ KAT_Curve448 KAT_DES KAT_Ed25519+ KAT_Ed448+ KAT_EdDSA KAT_CMAC+ KAT_HKDF KAT_HMAC+ KAT_KMAC+ KAT_MiyaguchiPreneel KAT_PBKDF2+ KAT_OTP KAT_PubKey.DSA KAT_PubKey.ECC KAT_PubKey.ECDSA KAT_PubKey.OAEP KAT_PubKey.PSS KAT_PubKey.P256+ KAT_PubKey.RSA+ KAT_PubKey.Rabin KAT_PubKey KAT_RC4 KAT_Scrypt KAT_TripleDES+ KAT_Twofish+ ChaChaPoly1305+ Number+ Number.F2m+ Padding Poly1305 Salsa Utils- Build-Depends: base >= 3 && < 5+ XSalsa+ Build-Depends: base >= 0 && < 10 , bytestring , memory- , byteable , tasty , tasty-quickcheck , tasty-hunit , tasty-kat , cryptonite- ghc-options: -Wall -fno-warn-orphans -fno-warn-missing-signatures -fno-warn-unused-imports -rtsopts+ ghc-options: -Wall -fno-warn-orphans -fno-warn-missing-signatures -rtsopts+ default-language: Haskell2010++Benchmark bench-cryptonite+ type: exitcode-stdio-1.0+ hs-source-dirs: benchs+ Main-is: Bench.hs+ Other-modules: Number.F2m+ Build-Depends: base+ , bytestring+ , deepseq+ , memory+ , gauge+ , random+ , cryptonite+ ghc-options: -Wall -fno-warn-missing-signatures default-language: Haskell2010
tests/BCrypt.hs view
@@ -75,4 +75,8 @@ tests = testGroup "bcrypt" [ testGroup "KATs" makeKATs , testCase "Invalid hash length" (assertEqual "" (Left "Invalid hash format") (validatePasswordEither B.empty ("$2a$06$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s" :: B.ByteString)))+ , testCase "Hash and validate" (assertBool "Hashed password should validate" (validatePassword somePassword (bcrypt 5 aSalt somePassword :: B.ByteString))) ]+ where+ somePassword = "some password" :: B.ByteString+ aSalt = "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f" :: B.ByteString
+ tests/BCryptPBKDF.hs view
@@ -0,0 +1,75 @@+{-# LANGUAGE OverloadedStrings #-}++module BCryptPBKDF (tests) where++import qualified Data.ByteString as B++import Test.Tasty+import Test.Tasty.HUnit++import Crypto.KDF.BCryptPBKDF (Parameters (..), generate,+ hashInternal)++tests :: TestTree+tests = testGroup "BCryptPBKDF"+ [ testGroup "generate"+ [ testCase "1" generate1+ , testCase "2" generate2+ , testCase "3" generate3+ ]+ , testGroup "hashInternal"+ [ testCase "1" hashInternal1+ ]+ ]+ where+ -- test vector taken from the go implementation by @dchest+ generate1 = expected @=? generate params pass salt+ where+ params = Parameters 12 32+ pass = "password" :: B.ByteString+ salt = "salt" :: B.ByteString+ expected = B.pack+ [ 0x1a, 0xe4, 0x2c, 0x05, 0xd4, 0x87, 0xbc, 0x02+ , 0xf6, 0x49, 0x21, 0xa4, 0xeb, 0xe4, 0xea, 0x93+ , 0xbc, 0xac, 0xfe, 0x13, 0x5f, 0xda, 0x99, 0x97+ , 0x4c, 0x06, 0xb7, 0xb0, 0x1f, 0xae, 0x14, 0x9a+ ] :: B.ByteString++ -- test vector generated with the go implemenation by @dchest+ generate2 = expected @=? generate params pass salt+ where+ params = Parameters 7 71+ pass = "DieWuerdeDesMenschenIstUnantastbar" :: B.ByteString+ salt = "Tafelsalz" :: B.ByteString+ expected = B.pack+ [ 0x17, 0xb4, 0x76, 0xaa, 0xd7, 0x42, 0x33, 0x49+ , 0x5c, 0xe8, 0x79, 0x49, 0x15, 0x74, 0x4c, 0x71+ , 0xf9, 0x99, 0x66, 0x89, 0x7a, 0x60, 0xc3, 0x70+ , 0xb4, 0x3c, 0xa8, 0x83, 0x80, 0x5a, 0x56, 0xde+ , 0x38, 0xbc, 0x51, 0x8c, 0xd4, 0xeb, 0xd1, 0xcf+ , 0x46, 0x0a, 0x68, 0x3d, 0xc8, 0x12, 0xcf, 0xf8+ , 0x43, 0xce, 0x21, 0x9d, 0x98, 0x81, 0x20, 0x26+ , 0x6e, 0x42, 0x0f, 0xaa, 0x75, 0x5d, 0x09, 0x8d+ , 0x45, 0xda, 0xd5, 0x15, 0x6e, 0x65, 0x1d+ ] :: B.ByteString++ -- test vector generated with the go implemenation by @dchest+ generate3 = expected @=? generate params pass salt+ where+ params = Parameters 5 5+ pass = "ABC" :: B.ByteString+ salt = "DEF" :: B.ByteString+ expected = B.pack+ [ 0xdd, 0x6e, 0xa0, 0x69, 0x29+ ] :: B.ByteString++ hashInternal1 = expected @=? hashInternal passHash saltHash+ where+ passHash = B.pack [ 0 .. 63 ] :: B.ByteString+ saltHash = B.pack [ 64 .. 127 ] :: B.ByteString+ expected = B.pack+ [ 0x87, 0x90, 0x48, 0x70, 0xee, 0xf9, 0xde, 0xdd+ , 0xf8, 0xe7, 0x61, 0x1a, 0x14, 0x01, 0x06, 0xe6+ , 0xaa, 0xf1, 0xa3, 0x63, 0xd9, 0xa2, 0xc5, 0x04+ , 0xdb, 0x35, 0x64, 0x43, 0x72, 0x1e, 0xb5, 0x55+ ] :: B.ByteString
tests/BlockCipher.hs view
@@ -16,8 +16,8 @@ import Data.Maybe import Crypto.Error import Crypto.Cipher.Types-import Data.ByteArray as B hiding (pack, null)-import qualified Data.ByteString as B+import Data.ByteArray as B hiding (pack, null, length)+import qualified Data.ByteString as B hiding (all, take, replicate) ------------------------------------------------------------------------ -- KAT@@ -161,7 +161,7 @@ ++ maybeGroup makeCFBTest "CFB" (kat_CFB kats) ++ maybeGroup makeCTRTest "CTR" (kat_CTR kats) -- ++ maybeGroup makeXTSTest "XTS" (kat_XTS kats)- -- ++ maybeGroup makeAEADTest "AEAD" (kat_AEAD kats)+ ++ maybeGroup makeAEADTest "AEAD" (kat_AEAD kats) ) where makeECBTest i d = [ testCase ("E" ++ i) (ecbEncrypt ctx (ecbPlaintext d) @?= ecbCiphertext d)@@ -191,25 +191,24 @@ [ testCase ("E" ++ i) (xtsEncrypt ctx iv 0 (xtsPlaintext d) @?= xtsCiphertext d) , testCase ("D" ++ i) (xtsDecrypt ctx iv 0 (xtsCiphertext d) @?= xtsPlaintext d) ]- where ctx1 = cipherInit (cipherMakeKey cipher $ xtsKey1 d)- ctx2 = cipherInit (cipherMakeKey cipher $ xtsKey2 d)+ where ctx1 = cipherInitNoErr (cipherMakeKey cipher $ xtsKey1 d)+ ctx2 = cipherInitNoErr (cipherMakeKey cipher $ xtsKey2 d) ctx = (ctx1, ctx2) iv = cipherMakeIV cipher $ xtsIV d+-} makeAEADTest i d =- [ testCase ("AE" ++ i) (etag @?= aeadTag d)- , testCase ("AD" ++ i) (dtag @?= aeadTag d)+ [ testCase ("AE" ++ i) (etag @?= AuthTag (B.convert (aeadTag d)))+ , testCase ("AD" ++ i) (dtag @?= AuthTag (B.convert (aeadTag d))) , testCase ("E" ++ i) (ebs @?= aeadCiphertext d) , testCase ("D" ++ i) (dbs @?= aeadPlaintext d) ]- where ctx = cipherInit (cipherMakeKey cipher $ aeadKey d)- aead = maybe (error $ "cipher doesn't support aead mode: " ++ show (aeadMode d)) id- $ aeadInit (aeadMode d) ctx (aeadIV d)+ where ctx = cipherInitNoErr (cipherMakeKey cipher $ aeadKey d)+ aead = aeadInitNoErr (aeadMode d) ctx (aeadIV d) aeadHeaded = aeadAppendHeader aead (aeadHeader d) (ebs,aeadEFinal) = aeadEncrypt aeadHeaded (aeadPlaintext d) (dbs,aeadDFinal) = aeadDecrypt aeadHeaded (aeadCiphertext d) etag = aeadFinalize aeadEFinal (aeadTaglen d) dtag = aeadFinalize aeadDFinal (aeadTaglen d)--} cipherInitNoErr :: BlockCipher c => Key c -> c cipherInitNoErr (Key k) =@@ -217,6 +216,11 @@ CryptoPassed a -> a CryptoFailed e -> error (show e) + aeadInitNoErr :: (ByteArrayAccess iv, BlockCipher cipher) => AEADMode -> cipher -> iv -> AEAD cipher+ aeadInitNoErr mode ct iv =+ case aeadInit mode ct iv of+ CryptoPassed a -> a+ CryptoFailed _ -> error $ "cipher doesn't support aead mode: " ++ show mode ------------------------------------------------------------------------ -- Properties ------------------------------------------------------------------------@@ -389,7 +393,7 @@ testBlockCipherAEAD :: BlockCipher a => a -> [TestTree] testBlockCipherAEAD cipher = [ testProperty "OCB" (aeadProp AEAD_OCB)- , testProperty "CCM" (aeadProp AEAD_CCM)+ , testProperty "CCM" (aeadProp (AEAD_CCM 0 CCM_M16 CCM_L2)) , testProperty "EAX" (aeadProp AEAD_EAX) , testProperty "CWC" (aeadProp AEAD_CWC) , testProperty "GCM" (aeadProp AEAD_GCM)@@ -398,7 +402,7 @@ toTests :: BlockCipher a => a -> (AEADMode -> AEADUnit a -> Bool) toTests _ = testProperty_AEAD testProperty_AEAD mode (AEADUnit key testIV (unPlaintext -> aad) (unPlaintext -> plaintext)) = withCtx key $ \ctx ->- case aeadInit mode ctx testIV of+ case aeadInit mode' ctx iv' of CryptoPassed iniAead -> let aead = aeadAppendHeader iniAead aad (eText, aeadE) = aeadEncrypt aead plaintext@@ -409,6 +413,10 @@ CryptoFailed err | err == CryptoError_AEADModeNotSupported -> True | otherwise -> error ("testProperty_AEAD: " ++ show err)+ where (mode', iv') = updateCcmInputSize mode (B.length plaintext) testIV+ updateCcmInputSize aeadmode k iv = case aeadmode of+ AEAD_CCM _ m l -> (AEAD_CCM k m l, B.take 13 (iv <> (B.replicate 15 0)))+ aeadOther -> (aeadOther, iv) withCtx :: Cipher c => Key c -> (c -> a) -> a withCtx (Key key) f =@@ -437,11 +445,33 @@ (testBlockCipherBasic cipher ++ testBlockCipherModes cipher ++ testBlockCipherAEAD cipher) ] +-- | Test IV arithmetic (based on the cipher block size)+testIvArith :: BlockCipher a => a -> [TestTree]+testIvArith cipher =+ [ testCase "nullIV is null" $+ True @=? B.all (== 0) (ivNull cipher)+ , testProperty "ivAdd is linear" $ \a b -> do+ iv <- generateIvFromCipher cipher+ return $ ivAdd iv (a + b) `propertyEq` ivAdd (ivAdd iv a) b+ ]+ where+ ivNull :: BlockCipher a => a -> IV a+ ivNull = const nullIV++ -- uses IV pattern <00 .. 00 FF .. FF> to test carry propagation+ generateIvFromCipher :: BlockCipher a => a -> Gen (IV a)+ generateIvFromCipher c = do+ let n = blockSize c+ i <- choose (0, n)+ let zeros = Prelude.replicate (n - i) 0x00+ ones = Prelude.replicate i 0xFF+ return $ cipherMakeIV c (B.pack $ zeros ++ ones)+ -- | Return tests for a specific blockcipher and a list of KATs testBlockCipher :: BlockCipher a => KATs -> a -> TestTree testBlockCipher kats cipher = testGroup (cipherName cipher) ( (if kats == defaultKATs then [] else [testKATs kats cipher])- ++ testModes cipher+ ++ testModes cipher ++ testIvArith cipher ) cipherMakeKey :: Cipher cipher => cipher -> ByteString -> Key cipher
+ tests/ECC.hs view
@@ -0,0 +1,343 @@+{-# LANGUAGE ExistentialQuantification #-}+{-# LANGUAGE FlexibleContexts #-}+{-# LANGUAGE OverloadedStrings #-}+module ECC (tests) where++import Crypto.Error+import qualified Crypto.ECC as ECC++import Data.ByteArray.Encoding++import Imports++data Curve = forall curve. (ECC.EllipticCurveDH curve, Show curve, Eq (ECC.Point curve)) => Curve curve++instance Show Curve where+ showsPrec d (Curve curve) = showsPrec d curve++instance Arbitrary Curve where+ arbitrary = elements+ [ Curve ECC.Curve_P256R1+ , Curve ECC.Curve_P384R1+ , Curve ECC.Curve_P521R1+ , Curve ECC.Curve_X25519+ , Curve ECC.Curve_X448+ ]++data CurveArith = forall curve. (ECC.EllipticCurveBasepointArith curve, Show curve) => CurveArith curve++instance Show CurveArith where+ showsPrec d (CurveArith curve) = showsPrec d curve++instance Arbitrary CurveArith where+ arbitrary = elements+ [ CurveArith ECC.Curve_P256R1+ , CurveArith ECC.Curve_P384R1+ , CurveArith ECC.Curve_P521R1+ , CurveArith ECC.Curve_Edwards25519+ ]++data VectorPoint = VectorPoint+ { vpCurve :: Curve+ , vpHex :: ByteString+ , vpError :: Maybe CryptoError+ }++vectorsPoint =+ [ VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = ""+ , vpError = Just CryptoError_PointSizeInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "00"+ , vpError = Just CryptoError_PointFormatInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "0408edd7b50085a952172228aca391beebe9ba942a0ae9eb15bcc8d50795d1a5505221c7b9b3bb4310f165fc3ac3114339db8170ceae6697e0f9736698b33551b8"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "04216f25b00717d46deef3402628f6abf265bfa12aea515ae8f100ce415e251e72cd5cd8f47f613a0f4e0f4f9410dd9c85c149cffcb320c2d52bf550a397ec92e5"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "0421eba6080610926609bb8d52afd3331ed1b07e0ba4c1441a118b62497d3e85f39a50c865027cdd84298cdf094b7818f2a65ae59f46c971a32ab4ea3c2c93c959"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "0400d7fc4050dfe73475502d5d1fadc105d7725508f48da2cd4729bf191fd6490a0001a16f417a27530e756efeb4a228f02db878072b9f833e99a2821d85fa78fc"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "040000fc4050dfe73475502d5d1fadc105d7725508f48da2cd4729bf191fd6490a0001a16f417a27530e756efeb4a228f02db878072b9f833e99a2821d85fa78fc"+ , vpError = Just CryptoError_PointCoordinatesInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "04d7fc4050dfe73475502d5d1fadc105d7725508f48da2cd4729bf191fd6490a01a16f417a27530e756efeb4a228f02db878072b9f833e99a2821d85fa78fc"+ , vpError = Just CryptoError_PublicKeySizeInvalid -- tests leading zeros+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P256R1+ , vpHex = "040000d7fc4050dfe73475502d5d1fadc105d7725508f48da2cd4729bf191fd6490a000001a16f417a27530e756efeb4a228f02db878072b9f833e99a2821d85fa78fc"+ , vpError = Just CryptoError_PublicKeySizeInvalid -- tests leading zeros+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = ""+ , vpError = Just CryptoError_PointSizeInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "00"+ , vpError = Just CryptoError_PointFormatInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "0409281a103fb1773445e16eec86adb095e32928ccc9c806bd210c649712813bdb6cab40163a8cb163b578ea8dda5eb32cfb5208ebf0d31a6c590fa92f5a61f32dbc0d518b166ea5a9adf9dd21c1bd09932ca21c6a5725ca89542ac57b6a9eca6f"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "040c7b3fb575c1db7bc61fe7a456cc34a8289f41e167938a56e5ba2787723f3de2c645112705e13ed24f477730173935ca4e0ff468e7e0acf78a9f59dadff8193a0e23789eb3737730c089b27a0f94de7d95b8db4466d017fb21a5710d6ca85775"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "0438e7705220b60460194be63d21c8945be2a211957168fa60f26b2ad4e8f5cd96a7779e7edff4deda9ded63243c2127e273d4444edaaba03b79b6caafc5033432af13776f851c0c7e1080c60d7ee3b61740720ab98461813dab5fb8c31bfa9ed9"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "04000836bf09614bf5b3c0ffe9b0822a2cc109a90b13d4d3510ce14f766e7d90875ec4bc8d6bee11fc1fdf97473a67884c00b1e2685367bdb846c95181b0f35a35cfbee04451122cc55a1e363acaa6c002e71b0b6ff7d0f5dc830a32f0e5086189"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "04000036bf09614bf5b3c0ffe9b0822a2cc109a90b13d4d3510ce14f766e7d90875ec4bc8d6bee11fc1fdf97473a67884c00b1e2685367bdb846c95181b0f35a35cfbee04451122cc55a1e363acaa6c002e71b0b6ff7d0f5dc830a32f0e5086189"+ , vpError = Just CryptoError_PointCoordinatesInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "040836bf09614bf5b3c0ffe9b0822a2cc109a90b13d4d3510ce14f766e7d90875ec4bc8d6bee11fc1fdf97473a67884cb1e2685367bdb846c95181b0f35a35cfbee04451122cc55a1e363acaa6c002e71b0b6ff7d0f5dc830a32f0e5086189"+ , vpError = Nothing -- ignores leading zeros+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P384R1+ , vpHex = "0400000836bf09614bf5b3c0ffe9b0822a2cc109a90b13d4d3510ce14f766e7d90875ec4bc8d6bee11fc1fdf97473a67884c0000b1e2685367bdb846c95181b0f35a35cfbee04451122cc55a1e363acaa6c002e71b0b6ff7d0f5dc830a32f0e5086189"+ , vpError = Nothing -- ignores leading zeros+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = ""+ , vpError = Just CryptoError_PointSizeInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "00"+ , vpError = Just CryptoError_PointFormatInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "04000ce5c207335134567026063743df82c1b551a009cf616471f0e23fa9767a50cc7f8771ef13a65c49ce7e1cd1ac3ad721dcc3ddd35f98ae5d380a0832f87a9f0ca4012914911d6bea7f3c481d694fb1645be27c7b66b09b28e261f8030b3fb8206f6a95f6ad73db755765b64f592a799234f8f451cb787abe95b1a54991a799ad0d69da"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "04003a5e6c1ce3a6a323757005da17b357db991bd1ad835e6201411f458b5c2edb3c66786b727b7e15fbad7dd74a4b0eb542183b5242e5952061cb85e7229353eb0dc300aac2dbd5232d582481ba7a59a993eb04c4466a1b17ba0015b65c616ce8703e70880969d8d58e633acb29c3ca017eb1b88649387b867466090ce1a57c2b4f8376bb"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "04003e0659fe9498695a3d8c88b8e25fa8133c30ab10eccbe9094344c99924f89fb69d9b3acf03bf438328f9cba55fa28a05be9a7e18780706b3728abfee2592aeb86d0001ea5ff64f2ca7a6453c79f80550e971843e073f4f8fec75bad2e52a4483ebf1f16f43d0de27e1967ea22f9722527652fa74439fdc03a569fba29e2d6f7c012db6"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "040043f91fd92d9ccd6d5584b265a2a775d222f4a41ff98190677d985e0889737cbe631d525835fe04faffcdebeccb783538280f4600ae82347b0470583abd9def306000a2e9bdc34f42b134517fc1e961befea0affd1f9666361a039192082a892dd722931d5865b62b69d7369e74895120e540cb10030cccb6049d809fbcf3f54537b378"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "040000f91fd92d9ccd6d5584b265a2a775d222f4a41ff98190677d985e0889737cbe631d525835fe04faffcdebeccb783538280f4600ae82347b0470583abd9def306000a2e9bdc34f42b134517fc1e961befea0affd1f9666361a039192082a892dd722931d5865b62b69d7369e74895120e540cb10030cccb6049d809fbcf3f54537b378"+ , vpError = Just CryptoError_PointCoordinatesInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "0443f91fd92d9ccd6d5584b265a2a775d222f4a41ff98190677d985e0889737cbe631d525835fe04faffcdebeccb783538280f4600ae82347b0470583abd9def3060a2e9bdc34f42b134517fc1e961befea0affd1f9666361a039192082a892dd722931d5865b62b69d7369e74895120e540cb10030cccb6049d809fbcf3f54537b378"+ , vpError = Nothing -- ignores leading zeros+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_P521R1+ , vpHex = "04000043f91fd92d9ccd6d5584b265a2a775d222f4a41ff98190677d985e0889737cbe631d525835fe04faffcdebeccb783538280f4600ae82347b0470583abd9def30600000a2e9bdc34f42b134517fc1e961befea0affd1f9666361a039192082a892dd722931d5865b62b69d7369e74895120e540cb10030cccb6049d809fbcf3f54537b378"+ , vpError = Nothing -- ignores leading zeros+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = ""+ , vpError = Just CryptoError_PublicKeySizeInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "22cd98c65fb50db3be0d6d359456c0cd3516952a6e7229ff672893944f703f10"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "23cd98c65fb50db3be0d6d359456c0cd3516952a6e7229ff672893944f703f10"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "0023cd98c65fb50db3be0d6d359456c0cd3516952a6e7229ff672893944f703f10"+ , vpError = Just CryptoError_PublicKeySizeInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X448+ , vpHex = ""+ , vpError = Just CryptoError_PublicKeySizeInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X448+ , vpHex = "2b162c2fef165ecbb203e40975ae4424f0f8db25ab582cb96b2e5ffe90a31798b35480b594c99dc32b437e61a74f792d8ecf5fc3e8cfeb75"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X448+ , vpHex = "2c162c2fef165ecbb203e40975ae4424f0f8db25ab582cb96b2e5ffe90a31798b35480b594c99dc32b437e61a74f792d8ecf5fc3e8cfeb75"+ , vpError = Nothing+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X448+ , vpHex = "002c162c2fef165ecbb203e40975ae4424f0f8db25ab582cb96b2e5ffe90a31798b35480b594c99dc32b437e61a74f792d8ecf5fc3e8cfeb75"+ , vpError = Just CryptoError_PublicKeySizeInvalid+ }+ ]++vectorsWeakPoint =+ [ VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "0000000000000000000000000000000000000000000000000000000000000000"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "0100000000000000000000000000000000000000000000000000000000000000"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "e0eb7a7c3b41b8ae1656e3faf19fc46ada098deb9c32b1fd866205165f49b800"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "5f9c95bca3508c24b1d0b1559c83ef5b04445cc4581c8e86d8224eddd09f1157"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "ecffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff7f"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "edffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff7f"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X25519+ , vpHex = "eeffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff7f"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X448+ , vpHex = "0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ , VectorPoint+ { vpCurve = Curve ECC.Curve_X448+ , vpHex = "0100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000"+ , vpError = Just CryptoError_ScalarMultiplicationInvalid+ }+ ]++vpEncodedPoint :: VectorPoint -> ByteString+vpEncodedPoint vector = let Right bs = convertFromBase Base16 (vpHex vector) in bs++cryptoError :: CryptoFailable a -> Maybe CryptoError+cryptoError = onCryptoFailure Just (const Nothing)++doPointDecodeTest i vector =+ case vpCurve vector of+ Curve curve ->+ let prx = Just curve -- using Maybe as Proxy+ in testCase (show i) (vpError vector @=? cryptoError (ECC.decodePoint prx $ vpEncodedPoint vector))++doWeakPointECDHTest i vector =+ case vpCurve vector of+ Curve curve -> testCase (show i) $ do+ let prx = Just curve -- using Maybe as Proxy+ CryptoPassed public = ECC.decodePoint prx $ vpEncodedPoint vector+ keyPair <- ECC.curveGenerateKeyPair prx+ vpError vector @=? cryptoError (ECC.ecdh prx (ECC.keypairGetPrivate keyPair) public)++tests = testGroup "ECC"+ [ testGroup "decodePoint" $ zipWith doPointDecodeTest [katZero..] vectorsPoint+ , testGroup "ECDH weak points" $ zipWith doWeakPointECDHTest [katZero..] vectorsWeakPoint+ , testGroup "property"+ [ testProperty "decodePoint.encodePoint==id" $ \testDRG (Curve curve) ->+ let prx = Just curve -- using Maybe as Proxy+ keyPair = withTestDRG testDRG $ ECC.curveGenerateKeyPair prx+ p1 = ECC.keypairGetPublic keyPair+ bs = ECC.encodePoint prx p1 :: ByteString+ p2 = ECC.decodePoint prx bs+ in CryptoPassed p1 == p2+ , localOption (QuickCheckTests 20) $ testProperty "ECDH commutes" $ \testDRG (Curve curve) ->+ let prx = Just curve -- using Maybe as Proxy+ (alice, bob) = withTestDRG testDRG $+ (,) <$> ECC.curveGenerateKeyPair prx+ <*> ECC.curveGenerateKeyPair prx+ aliceShared = ECC.ecdh prx (ECC.keypairGetPrivate alice) (ECC.keypairGetPublic bob)+ bobShared = ECC.ecdh prx (ECC.keypairGetPrivate bob) (ECC.keypairGetPublic alice)+ aliceShared' = ECC.ecdhRaw prx (ECC.keypairGetPrivate alice) (ECC.keypairGetPublic bob)+ bobShared' = ECC.ecdhRaw prx (ECC.keypairGetPrivate bob) (ECC.keypairGetPublic alice)+ in aliceShared == bobShared && aliceShared == CryptoPassed aliceShared'+ && bobShared == CryptoPassed bobShared'+ , testProperty "decodeScalar.encodeScalar==id" $ \testDRG (CurveArith curve) ->+ let prx = Just curve -- using Maybe as Proxy+ s1 = withTestDRG testDRG $ ECC.curveGenerateScalar prx+ bs = ECC.encodeScalar prx s1 :: ByteString+ s2 = ECC.decodeScalar prx bs+ in CryptoPassed s1 == s2+ , testProperty "scalarFromInteger.scalarToInteger==id" $ \testDRG (CurveArith curve) ->+ let prx = Just curve -- using Maybe as Proxy+ s1 = withTestDRG testDRG $ ECC.curveGenerateScalar prx+ bs = ECC.scalarToInteger prx s1+ s2 = ECC.scalarFromInteger prx bs+ in CryptoPassed s1 == s2+ , localOption (QuickCheckTests 20) $ testProperty "(a + b).P = a.P + b.P" $ \testDRG (CurveArith curve) ->+ let prx = Just curve -- using Maybe as Proxy+ (s, a, b) = withTestDRG testDRG $+ (,,) <$> ECC.curveGenerateScalar prx+ <*> ECC.curveGenerateScalar prx+ <*> ECC.curveGenerateScalar prx+ p = ECC.pointBaseSmul prx s+ in ECC.pointSmul prx (ECC.scalarAdd prx a b) p == ECC.pointAdd prx (ECC.pointSmul prx a p) (ECC.pointSmul prx b p)+ , localOption (QuickCheckTests 20) $ testProperty "(a * b).P = a.(b.P)" $ \testDRG (CurveArith curve) ->+ let prx = Just curve -- using Maybe as Proxy+ (s, a, b) = withTestDRG testDRG $+ (,,) <$> ECC.curveGenerateScalar prx+ <*> ECC.curveGenerateScalar prx+ <*> ECC.curveGenerateScalar prx+ p = ECC.pointBaseSmul prx s+ in ECC.pointSmul prx (ECC.scalarMul prx a b) p == ECC.pointSmul prx a (ECC.pointSmul prx b p)+ ]+ ]
+ tests/ECC/Edwards25519.hs view
@@ -0,0 +1,147 @@+{-# LANGUAGE OverloadedStrings #-}+module ECC.Edwards25519 ( tests ) where++import Crypto.Error+import Crypto.ECC.Edwards25519+import qualified Data.ByteString as B+import Data.Word (Word8)+import Imports++instance Arbitrary Scalar where+ arbitrary = fmap (throwCryptoError . scalarDecodeLong)+ (arbitraryBS 64)++smallScalar :: Word8 -> Scalar+smallScalar = throwCryptoError . scalarDecodeLong . B.singleton++newtype PrimeOrder = PrimeOrder Point+ deriving Show++-- points in the prime-order subgroup+instance Arbitrary PrimeOrder where+ arbitrary = (PrimeOrder . toPoint) `fmap` arbitrary++-- arbitrary curve point, including points with a torsion component+instance Arbitrary Point where+ arbitrary = do a <- arbitrary+ b <- elements $ map smallScalar [0 .. 7]+ return (pointsMulVarTime a b torsion8)++-- an 8-torsion point+torsion8 :: Point+torsion8 = throwCryptoError $ pointDecode ("\199\ETBjp=M\216O\186<\vv\r\DLEg\SI* S\250,9\204\198N\199\253w\146\172\ETXz" :: ByteString)++tests = testGroup "ECC.Edwards25519"+ [ testGroup "vectors"+ [ testCase "11*G" $ p011 @=? toPoint s011+ , testCase "123*G" $ p123 @=? toPoint s123+ , testCase "134*G" $ p134 @=? toPoint s134+ , testCase "123*G + 11*G" $ p134 @=? pointAdd p123 p011+ ]+ , testGroup "scalar arithmetic"+ [ testProperty "scalarDecodeLong.scalarEncode==id" $ \s ->+ let bs = scalarEncode s :: ByteString+ ss = scalarDecodeLong bs+ in CryptoPassed s `propertyEq` ss+ , testCase "curve order" $ s0 @=? sN+ , testProperty "addition with zero" $ \s ->+ propertyHold [ eqTest "zero left" s (scalarAdd s0 s)+ , eqTest "zero right" s (scalarAdd s s0)+ ]+ , testProperty "addition associative" $ \sa sb sc ->+ scalarAdd sa (scalarAdd sb sc) === scalarAdd (scalarAdd sa sb) sc+ , testProperty "addition commutative" $ \sa sb ->+ scalarAdd sa sb === scalarAdd sb sa+ , testProperty "multiplication with zero" $ \s ->+ propertyHold [ eqTest "zero left" s0 (scalarMul s0 s)+ , eqTest "zero right" s0 (scalarMul s s0)+ ]+ , testProperty "multiplication with one" $ \s ->+ propertyHold [ eqTest "one left" s (scalarMul s1 s)+ , eqTest "one right" s (scalarMul s s1)+ ]+ , testProperty "multiplication associative" $ \sa sb sc ->+ scalarMul sa (scalarMul sb sc) === scalarMul (scalarMul sa sb) sc+ , testProperty "multiplication commutative" $ \sa sb ->+ scalarMul sa sb === scalarMul sb sa+ , testProperty "multiplication distributive" $ \sa sb sc ->+ propertyHold [ eqTest "distributive left" ((sa `scalarMul` sb) `scalarAdd` (sa `scalarMul` sc))+ (sa `scalarMul` (sb `scalarAdd` sc))+ , eqTest "distributive right" ((sb `scalarMul` sa) `scalarAdd` (sc `scalarMul` sa))+ ((sb `scalarAdd` sc) `scalarMul` sa)+ ]+ ]+ , testGroup "point arithmetic"+ [ testProperty "pointDecode.pointEncode==id" $ \p ->+ let bs = pointEncode p :: ByteString+ p' = pointDecode bs+ in CryptoPassed p `propertyEq` p'+ , testProperty "pointEncode.pointDecode==id" $ \p ->+ let b = pointEncode p :: ByteString+ p' = pointDecode b+ b' = pointEncode `fmap` p'+ in CryptoPassed b `propertyEq` b'+ , testProperty "addition with identity" $ \p ->+ propertyHold [ eqTest "identity left" p (pointAdd p0 p)+ , eqTest "identity right" p (pointAdd p p0)+ ]+ , testProperty "addition associative" $ \pa pb pc ->+ pointAdd pa (pointAdd pb pc) === pointAdd (pointAdd pa pb) pc+ , testProperty "addition commutative" $ \pa pb ->+ pointAdd pa pb === pointAdd pb pa+ , testProperty "negation" $ \p ->+ p0 `propertyEq` pointAdd p (pointNegate p)+ , testProperty "doubling" $ \p ->+ pointAdd p p `propertyEq` pointDouble p+ , testProperty "multiplication by cofactor" $ \p ->+ pointMul s8 p `propertyEq` pointMulByCofactor p+ , testProperty "prime order" $ \(PrimeOrder p) ->+ True `propertyEq` pointHasPrimeOrder p+ , testCase "8-torsion point" $ do+ assertBool "mul by 4" $ p0 /= pointMul s4 torsion8+ assertBool "mul by 8" $ p0 == pointMul s8 torsion8+ , testProperty "scalarmult with zero" $ \p ->+ p0 `propertyEq` pointMul s0 p+ , testProperty "scalarmult with one" $ \p ->+ p `propertyEq` pointMul s1 p+ , testProperty "scalarmult with two" $ \p ->+ pointDouble p `propertyEq` pointMul s2 p+ , testProperty "scalarmult with curve order - 1" $ \p ->+ pointHasPrimeOrder p === (pointNegate p == pointMul sI p)+ , testProperty "scalarmult commutative" $ \a b ->+ pointMul a (toPoint b) === pointMul b (toPoint a)+ , testProperty "scalarmult distributive" $ \x y (PrimeOrder p) ->+ let pR = pointMul x p `pointAdd` pointMul y p+ in pR `propertyEq` pointMul (x `scalarAdd` y) p+ , testProperty "double scalarmult" $ \n1 n2 p ->+ let pR = pointAdd (toPoint n1) (pointMul n2 p)+ in pR `propertyEq` pointsMulVarTime n1 n2 p+ ]+ ]+ where+ p0 = toPoint s0+ s0 = smallScalar 0+ s1 = smallScalar 1+ s2 = smallScalar 2+ s4 = smallScalar 4+ s8 = smallScalar 8+ sI = throwCryptoError $ scalarDecodeLong ("\236\211\245\\\SUBc\DC2X\214\156\247\162\222\249\222\DC4\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\DLE" :: ByteString)+ sN = throwCryptoError $ scalarDecodeLong ("\237\211\245\\\SUBc\DC2X\214\156\247\162\222\249\222\DC4\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\NUL\DLE" :: ByteString)++ s011 = throwCryptoError $ scalarDecodeLong ("\011" :: ByteString)+ s123 = throwCryptoError $ scalarDecodeLong ("\123" :: ByteString)+ s134 = throwCryptoError $ scalarDecodeLong ("\134" :: ByteString)++ p011 = throwCryptoError $ pointDecode ("\x13\x37\x03\x6a\xc3\x2d\x8f\x30\xd4\x58\x9c\x3c\x1c\x59\x58\x12\xce\x0f\xff\x40\xe3\x7c\x6f\x5a\x97\xab\x21\x3f\x31\x82\x90\xad" :: ByteString)+ p123 = throwCryptoError $ pointDecode ("\xc4\xb8\x00\xc8\x70\x10\xf9\x46\x83\x03\xde\xea\x87\x65\x03\xe8\x86\xbf\xde\x19\x00\xe9\xe8\x46\xfd\x4c\x3c\xd0\x9c\x1c\xbc\x9f" :: ByteString)+ p134 = throwCryptoError $ pointDecode ("\x51\x20\xab\xe0\x3c\xa2\xaf\x66\xc7\x7c\xa3\x20\xf0\xb2\x1f\xb5\x56\xf6\xb6\x5f\xdd\x7e\x32\x64\xc1\x4a\x30\xd9\x7b\xf7\xa7\x6f" :: ByteString)++ -- Using <http://cr.yp.to/python/py>:+ --+ -- >>> import ed25519+ -- >>> encodepoint(scalarmult(B, 11)).encode('hex')+ -- '1337036ac32d8f30d4589c3c1c595812ce0fff40e37c6f5a97ab213f318290ad'+ -- >>> encodepoint(scalarmult(B, 123)).encode('hex')+ -- 'c4b800c87010f9468303deea876503e886bfde1900e9e846fd4c3cd09c1cbc9f'+ -- >>> encodepoint(scalarmult(B, 134)).encode('hex')+ -- '5120abe03ca2af66c77ca320f0b21fb556f6b65fdd7e3264c14a30d97bf7a76f'
+ tests/ECDSA.hs view
@@ -0,0 +1,61 @@+{-# LANGUAGE ExistentialQuantification #-}+{-# LANGUAGE FlexibleContexts #-}+module ECDSA (tests) where++import qualified Crypto.ECC as ECDSA+import qualified Crypto.PubKey.ECC.ECDSA as ECC+import qualified Crypto.PubKey.ECC.Types as ECC+import qualified Crypto.PubKey.ECDSA as ECDSA+import Crypto.Hash.Algorithms+import Crypto.Error+import qualified Data.ByteString as B++import Imports++data Curve = forall curve. (ECDSA.EllipticCurveECDSA curve, Show (ECDSA.Scalar curve)) => Curve curve ECC.Curve ECC.CurveName++instance Show Curve where+ showsPrec d (Curve _ _ name) = showsPrec d name++instance Arbitrary Curve where+ arbitrary = elements+ [ makeCurve ECDSA.Curve_P256R1 ECC.SEC_p256r1+ , makeCurve ECDSA.Curve_P384R1 ECC.SEC_p384r1+ , makeCurve ECDSA.Curve_P521R1 ECC.SEC_p521r1+ ]+ where+ makeCurve c name = Curve c (ECC.getCurveByName name) name++arbitraryScalar curve = choose (1, n - 1)+ where n = ECC.ecc_n (ECC.common_curve curve)++sigECCToECDSA :: ECDSA.EllipticCurveECDSA curve+ => proxy curve -> ECC.Signature -> ECDSA.Signature curve+sigECCToECDSA prx (ECC.Signature r s) =+ ECDSA.Signature (throwCryptoError $ ECDSA.scalarFromInteger prx r)+ (throwCryptoError $ ECDSA.scalarFromInteger prx s)++tests = localOption (QuickCheckTests 5) $ testGroup "ECDSA"+ [ testProperty "SHA1" $ propertyECDSA SHA1+ , testProperty "SHA224" $ propertyECDSA SHA224+ , testProperty "SHA256" $ propertyECDSA SHA256+ , testProperty "SHA384" $ propertyECDSA SHA384+ , testProperty "SHA512" $ propertyECDSA SHA512+ ]+ where+ propertyECDSA hashAlg (Curve c curve _) (ArbitraryBS0_2901 msg) = do+ d <- arbitraryScalar curve+ kECC <- arbitraryScalar curve+ let privECC = ECC.PrivateKey curve d+ prx = Just c -- using Maybe as Proxy+ kECDSA = throwCryptoError $ ECDSA.scalarFromInteger prx kECC+ privECDSA = throwCryptoError $ ECDSA.scalarFromInteger prx d+ pubECDSA = ECDSA.toPublic prx privECDSA+ Just sigECC = ECC.signWith kECC privECC hashAlg msg+ Just sigECDSA = ECDSA.signWith prx kECDSA privECDSA hashAlg msg+ sigECDSA' = sigECCToECDSA prx sigECC+ msg' = msg `B.append` B.singleton 42+ return $ propertyHold [ eqTest "signature" sigECDSA sigECDSA'+ , eqTest "verification" True (ECDSA.verify prx hashAlg pubECDSA sigECDSA' msg)+ , eqTest "alteration" False (ECDSA.verify prx hashAlg pubECDSA sigECDSA msg')+ ]
tests/Hash.hs view
@@ -1,6 +1,6 @@ {-# LANGUAGE OverloadedStrings #-}-{-# LANGUAGE ViewPatterns #-} {-# LANGUAGE ExistentialQuantification #-}+{-# LANGUAGE DataKinds #-} module Hash ( tests ) where@@ -8,7 +8,9 @@ import Crypto.Hash import qualified Data.ByteString as B+import Data.ByteArray (convert) import qualified Data.ByteArray.Encoding as B (convertToBase, Base(..))+import GHC.TypeLits import Imports v0,v1,v2 :: ByteString@@ -138,10 +140,78 @@ "a69f73cca23a9ac5c8b567dc185a756e97c982164fe25859e0d1dcc1475c80a615b2123af1f5f94c11e3e9402c3ac558f500199d95b6d3e301758586281dcd26", "01dedd5de4ef14642445ba5f5b97c15e47b9ad931326e4b0727cd94cefc44fff23f07bf543139939b49128caf436dc1bdee54fcb24023a08d9403f9b4bf0d450", "28e361fe8c56e617caa56c28c7c36e5c13be552b77081be82b642f08bb7ef085b9a81910fe98269386b9aacfd2349076c9506126e198f6f6ad44c12017ca77b1" ])+ , ("Blake2b-160", HashAlg Blake2b_160, [+ "3345524abf6bbe1809449224b5972c41790b6cf2",+ "3c523ed102ab45a37d54f5610d5a983162fde84f",+ "a3d365b5fba5d36fbb19c03b7fde496058969c5a" ])+ , ("Blake2b-224", HashAlg Blake2b_224, [+ "836cc68931c2e4e3e838602eca1902591d216837bafddfe6f0c8cb07",+ "477c3985751dd4d1b8c93827ea5310b33bb02a26463a050dffd3e857",+ "a4a1b6851be66891a3deff406c4d7556879ebf952407450755f90eb6" ])+ , ("Blake2b-256", HashAlg Blake2b_256, [+ "0e5751c026e543b2e8ab2eb06099daa1d1e5df47778f7787faab45cdf12fe3a8",+ "01718cec35cd3d796dd00020e0bfecb473ad23457d063b75eff29c0ffa2e58a9",+ "036c13096926b3dfccfe3f233bd1b2f583b818b8b15c01be65af69238e900b2c" ])+ , ("Blake2b-384", HashAlg Blake2b_384, [+ "b32811423377f52d7862286ee1a72ee540524380fda1724a6f25d7978c6fd3244a6caf0498812673c5e05ef583825100",+ "b7c81b228b6bd912930e8f0b5387989691c1cee1e65aade4da3b86a3c9f678fc8018f6ed9e2906720c8d2a3aeda9c03d",+ "927a1f297873cbe887a93b2183c4e2eba53966ba92c6db8b87029a1d8c673471d09740676cced79c5016838973f630c3" ]) , ("Blake2b-512", HashAlg Blake2b_512, [ "786a02f742015903c6c6fd852552d272912f4740e15847618a86e217f71f5419d25e1031afee585313896444934eb04b903a685b1448b755d56f701afe9be2ce", "a8add4bdddfd93e4877d2746e62817b116364a1fa7bc148d95090bc7333b3673f82401cf7aa2e4cb1ecd90296e3f14cb5413f8ed77be73045b13914cdcd6a918", "af438eea5d8cdb209336a7e85bf58090dc21b49d823f89a7d064c119f127bd361af9c7d109edda0f0e91bdce078d1d86b8e6f25727c98f6d3bb6f50acb2dd376" ])+ , ("Blake2s-160", HashAlg Blake2s_160, [+ "354c9c33f735962418bdacb9479873429c34916f",+ "5a604fec9713c369e84b0ed68daed7d7504ef240",+ "759bef6d041bcbd861b8b51baaece6c8fffd0acf" ])+ , ("Blake2s-224", HashAlg Blake2s_224, [+ "1fa1291e65248b37b3433475b2a0dd63d54a11ecc4e3e034e7bc1ef4",+ "e4e5cb6c7cae41982b397bf7b7d2d9d1949823ae78435326e8db4912",+ "e220025fd46a9a635c3f7f60bb96a84c01019ac0817f5901e7eeaa2c" ])+ , ("Blake2s-256", HashAlg Blake2s_256, [+ "69217a3079908094e11121d042354a7c1f55b6482ca1a51e1b250dfd1ed0eef9",+ "606beeec743ccbeff6cbcdf5d5302aa855c256c29b88c8ed331ea1a6bf3c8812",+ "94662583a600a12dff357c0a6f1b514a710ef0f587a38e8d2e4d7f67e9c81667" ])+ , ("SHAKE128_4096", HashAlg (SHAKE128 :: SHAKE128 4096), [+ "7f9c2ba4e88f827d616045507605853ed73b8093f6efbc88eb1a6eacfa66ef263cb1eea988004b93103cfb0aeefd2a686e01fa4a58e8a3639ca8a1e3f9ae57e235b8cc873c23dc62b8d260169afa2f75ab916a58d974918835d25e6a435085b2badfd6dfaac359a5efbb7bcc4b59d538df9a04302e10c8bc1cbf1a0b3a5120ea17cda7cfad765f5623474d368ccca8af0007cd9f5e4c849f167a580b14aabdefaee7eef47cb0fca9767be1fda69419dfb927e9df07348b196691abaeb580b32def58538b8d23f87732ea63b02b4fa0f4873360e2841928cd60dd4cee8cc0d4c922a96188d032675c8ac850933c7aff1533b94c834adbb69c6115bad4692d8619f90b0cdf8a7b9c264029ac185b70b83f2801f2f4b3f70c593ea3aeeb613a7f1b1de33fd75081f592305f2e4526edc09631b10958f464d889f31ba010250fda7f1368ec2967fc84ef2ae9aff268e0b1700affc6820b523a3d917135f2dff2ee06bfe72b3124721d4a26c04e53a75e30e73a7a9c4a95d91c55d495e9f51dd0b5e9d83c6d5e8ce803aa62b8d654db53d09b8dcff273cdfeb573fad8bcd45578bec2e770d01efde86e721a3f7c6cce275dabe6e2143f1af18da7efddc4c7b70b5e345db93cc936bea323491ccb38a388f546a9ff00dd4e1300b9b2153d2041d205b443e41b45a653f2a5c4492c1add544512dda2529833462b71a41a45be97290b6f",+ "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",+ "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" ])+ , ("SHAKE256_4096", HashAlg (SHAKE256 :: SHAKE256 4096), [+ "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",+ "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",+ "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" ])+ , ("Blake2b 160", HashAlg (Blake2b :: Blake2b 160), [+ "3345524abf6bbe1809449224b5972c41790b6cf2",+ "3c523ed102ab45a37d54f5610d5a983162fde84f",+ "a3d365b5fba5d36fbb19c03b7fde496058969c5a" ])+ , ("Blake2b 224", HashAlg (Blake2b :: Blake2b 224), [+ "836cc68931c2e4e3e838602eca1902591d216837bafddfe6f0c8cb07",+ "477c3985751dd4d1b8c93827ea5310b33bb02a26463a050dffd3e857",+ "a4a1b6851be66891a3deff406c4d7556879ebf952407450755f90eb6" ])+ , ("Blake2b 256", HashAlg (Blake2b :: Blake2b 256), [+ "0e5751c026e543b2e8ab2eb06099daa1d1e5df47778f7787faab45cdf12fe3a8",+ "01718cec35cd3d796dd00020e0bfecb473ad23457d063b75eff29c0ffa2e58a9",+ "036c13096926b3dfccfe3f233bd1b2f583b818b8b15c01be65af69238e900b2c" ])+ , ("Blake2b 384", HashAlg (Blake2b :: Blake2b 384), [+ "b32811423377f52d7862286ee1a72ee540524380fda1724a6f25d7978c6fd3244a6caf0498812673c5e05ef583825100",+ "b7c81b228b6bd912930e8f0b5387989691c1cee1e65aade4da3b86a3c9f678fc8018f6ed9e2906720c8d2a3aeda9c03d",+ "927a1f297873cbe887a93b2183c4e2eba53966ba92c6db8b87029a1d8c673471d09740676cced79c5016838973f630c3" ])+ , ("Blake2b 512", HashAlg (Blake2b :: Blake2b 512), [+ "786a02f742015903c6c6fd852552d272912f4740e15847618a86e217f71f5419d25e1031afee585313896444934eb04b903a685b1448b755d56f701afe9be2ce",+ "a8add4bdddfd93e4877d2746e62817b116364a1fa7bc148d95090bc7333b3673f82401cf7aa2e4cb1ecd90296e3f14cb5413f8ed77be73045b13914cdcd6a918",+ "af438eea5d8cdb209336a7e85bf58090dc21b49d823f89a7d064c119f127bd361af9c7d109edda0f0e91bdce078d1d86b8e6f25727c98f6d3bb6f50acb2dd376" ])+ , ("Blake2s 160", HashAlg (Blake2s :: Blake2s 160), [+ "354c9c33f735962418bdacb9479873429c34916f",+ "5a604fec9713c369e84b0ed68daed7d7504ef240",+ "759bef6d041bcbd861b8b51baaece6c8fffd0acf" ])+ , ("Blake2s 224", HashAlg (Blake2s :: Blake2s 224), [+ "1fa1291e65248b37b3433475b2a0dd63d54a11ecc4e3e034e7bc1ef4",+ "e4e5cb6c7cae41982b397bf7b7d2d9d1949823ae78435326e8db4912",+ "e220025fd46a9a635c3f7f60bb96a84c01019ac0817f5901e7eeaa2c" ])+ , ("Blake2s 256", HashAlg (Blake2s ::Blake2s 256), [+ "69217a3079908094e11121d042354a7c1f55b6482ca1a51e1b250dfd1ed0eef9",+ "606beeec743ccbeff6cbcdf5d5302aa855c256c29b88c8ed331ea1a6bf3c8812",+ "94662583a600a12dff357c0a6f1b514a710ef0f587a38e8d2e4d7f67e9c81667" ]) ] runhash :: HashAlg -> ByteString -> ByteString@@ -151,6 +221,24 @@ runhashinc (HashAlg hashAlg) v = B.convertToBase B.Base16 $ hashinc $ v where hashinc = hashFinalize . foldl hashUpdate (hashInitWith hashAlg) +data HashPrefixAlg = forall alg . HashAlgorithmPrefix alg => HashPrefixAlg alg++expectedPrefix :: [ (String, HashPrefixAlg) ]+expectedPrefix =+ [ ("MD5", HashPrefixAlg MD5)+ , ("SHA1", HashPrefixAlg SHA1)+ , ("SHA224", HashPrefixAlg SHA224)+ , ("SHA256", HashPrefixAlg SHA256)+ , ("SHA384", HashPrefixAlg SHA384)+ , ("SHA512", HashPrefixAlg SHA512)+ ]++runhashpfx :: HashPrefixAlg -> ByteString -> ByteString+runhashpfx (HashPrefixAlg hashAlg) v = B.convertToBase B.Base16 $ hashWith hashAlg v++runhashpfxpfx :: HashPrefixAlg -> ByteString -> Int -> ByteString+runhashpfxpfx (HashPrefixAlg hashAlg) v len = B.convertToBase B.Base16 $ hashPrefixWith hashAlg v len+ makeTestAlg (name, hashAlg, results) = testGroup name $ concatMap maketest (zip3 is vectors results) where@@ -166,7 +254,40 @@ runhash hashAlg inp `propertyEq` runhashinc hashAlg (chunkS ckLen inp) ] +makeTestPrefix (hashName, hashAlg) =+ [ testProperty hashName $ \(ArbitraryBS0_2901 inp) (Int0_2901 len) ->+ runhashpfx hashAlg (B.take len inp) `propertyEq` runhashpfxpfx hashAlg inp len+ ]++makeTestHybrid (hashName, HashPrefixAlg alg) =+ [ testProperty hashName $ \(ArbitraryBS0_2901 start) (ArbitraryBS0_2901 end) -> do+ len <- choose (0, B.length end)+ let ref = hashWith alg (start `B.append` B.take len end)+ hyb = hashFinalizePrefix (hashUpdate (hashInitWith alg) start) end len+ return (ref `propertyEq` hyb)+ ]++-- SHAKE128 truncation example with expected byte at final position+-- <https://csrc.nist.gov/CSRC/media/Projects/Cryptographic-Standards-and-Guidelines/documents/examples/ShakeTruncation.pdf>+shake128TruncationBytes = [0x01, 0x03, 0x07, 0x0f, 0x0f, 0x2f, 0x6f, 0x6f]++makeTestSHAKE128Truncation i byte =+ testCase (show i) $ xof 4088 `B.snoc` byte @=? xof (4088 + i)+ where+ hashEmpty :: KnownNat n => proxy n -> Digest (SHAKE128 n)+ hashEmpty _ = hash B.empty++ xof n = case someNatVal n of+ Nothing -> error ("invalid Nat: " ++ show n)+ Just (SomeNat p) -> convert (hashEmpty p)+ tests = testGroup "hash" [ testGroup "KATs" (map makeTestAlg expected) , testGroup "Chunking" (concatMap makeTestChunk expected)+ , testGroup "Prefix" (concatMap makeTestPrefix expectedPrefix)+ , testGroup "Hybrid" (concatMap makeTestHybrid expectedPrefix)+ , testGroup "Truncating"+ [ testGroup "SHAKE128"+ (zipWith makeTestSHAKE128Truncation [1..] shake128TruncationBytes)+ ] ]
tests/KAT_AES.hs view
@@ -3,13 +3,16 @@ import Imports import BlockCipher+import Data.Maybe import Crypto.Cipher.Types import qualified Crypto.Cipher.AES as AES+import qualified Data.ByteString as B import qualified KAT_AES.KATECB as KATECB import qualified KAT_AES.KATCBC as KATCBC import qualified KAT_AES.KATXTS as KATXTS import qualified KAT_AES.KATGCM as KATGCM+import qualified KAT_AES.KATCCM as KATCCM import qualified KAT_AES.KATOCB3 as KATOCB3 {-@@ -37,6 +40,23 @@ toKatGCM = toKatAEAD AEAD_GCM toKatOCB = toKatAEAD AEAD_OCB +toKatCCM (k,iv,h,i,o,m) =+ KAT_AEAD { aeadMode = AEAD_CCM (B.length i) (ccmMVal m) CCM_L2+ , aeadKey = k+ , aeadIV = iv+ , aeadHeader = h+ , aeadPlaintext = i+ , aeadCiphertext = ct+ , aeadTaglen = m+ , aeadTag = at+ }+ where ccmMVal x = fromMaybe (error $ "unsupported CCM tag length: " ++ show x) $+ lookup x [ (4, CCM_M4), (6, CCM_M6), (8, CCM_M8), (10, CCM_M10)+ , (12, CCM_M12), (14, CCM_M14), (16, CCM_M16)+ ]+ ctWithTag = B.drop (B.length h) o+ (ct, at) = B.splitAt (B.length ctWithTag - m) ctWithTag+ kats128 = defaultKATs { kat_ECB = map toKatECB KATECB.vectors_aes128_enc , kat_CBC = map toKatCBC KATCBC.vectors_aes128_enc@@ -48,7 +68,8 @@ ] , kat_XTS = map toKatXTS KATXTS.vectors_aes128_enc , kat_AEAD = map toKatGCM KATGCM.vectors_aes128_enc ++- map toKatOCB KATOCB3.vectors_aes128_enc+ map toKatOCB KATOCB3.vectors_aes128_enc +++ map toKatCCM KATCCM.vectors_aes128_enc } kats192 = defaultKATs
+ tests/KAT_AES/KATCCM.hs view
@@ -0,0 +1,155 @@+{-# LANGUAGE OverloadedStrings #-}+module KAT_AES.KATCCM where++import qualified Data.ByteString as B++-- (key, iv, header, in, out+atag, taglen)+type KATCCM = (B.ByteString, B.ByteString, B.ByteString, B.ByteString, B.ByteString, Int)++vectors_aes128_enc :: [KATCCM]+vectors_aes128_enc =+ [ ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x03\x02\x01\x00\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07"+ , {- in = -} "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x58\x8c\x97\x9a\x61\xc6\x63\xd2\xf0\x66\xd0\xc2\xc0\xf9\x89\x80\x6d\x5f\x6b\x61\xda\xc3\x84\x17\xe8\xd1\x2c\xfd\xf9\x26\xe0"+ , {- M = -} 8)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x04\x03\x02\x01\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07"+ , {- in = -} "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x72\xc9\x1a\x36\xe1\x35\xf8\xcf\x29\x1c\xa8\x94\x08\x5c\x87\xe3\xcc\x15\xc4\x39\xc9\xe4\x3a\x3b\xa0\x91\xd5\x6e\x10\x40\x09\x16"+ , {- M = -} 8)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x05\x04\x03\x02\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07"+ , {- in = -} "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f\x20"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x51\xb1\xe5\xf4\x4a\x19\x7d\x1d\xa4\x6b\x0f\x8e\x2d\x28\x2a\xe8\x71\xe8\x38\xbb\x64\xda\x85\x96\x57\x4a\xda\xa7\x6f\xbd\x9f\xb0\xc5"+ , {- M = -} 8)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x06\x05\x04\x03\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b"+ , {- in = -} "\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\xa2\x8c\x68\x65\x93\x9a\x9a\x79\xfa\xaa\x5c\x4c\x2a\x9d\x4a\x91\xcd\xac\x8c\x96\xc8\x61\xb9\xc9\xe6\x1e\xf1"+ , {- M = -} 8)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x07\x06\x05\x04\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b"+ , {- in = -} "\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\xdc\xf1\xfb\x7b\x5d\x9e\x23\xfb\x9d\x4e\x13\x12\x53\x65\x8a\xd8\x6e\xbd\xca\x3e\x51\xe8\x3f\x07\x7d\x9c\x2d\x93"+ , {- M = -} 8)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x08\x07\x06\x05\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b"+ , {- in = -} "\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f\x20"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x6f\xc1\xb0\x11\xf0\x06\x56\x8b\x51\x71\xa4\x2d\x95\x3d\x46\x9b\x25\x70\xa4\xbd\x87\x40\x5a\x04\x43\xac\x91\xcb\x94"+ , {- M = -} 8)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x09\x08\x07\x06\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07"+ , {- in = -} "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x01\x35\xd1\xb2\xc9\x5f\x41\xd5\xd1\xd4\xfe\xc1\x85\xd1\x66\xb8\x09\x4e\x99\x9d\xfe\xd9\x6c\x04\x8c\x56\x60\x2c\x97\xac\xbb\x74\x90"+ , {- M = -} 10)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x0a\x09\x08\x07\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07"+ , {- in = -} "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x7b\x75\x39\x9a\xc0\x83\x1d\xd2\xf0\xbb\xd7\x58\x79\xa2\xfd\x8f\x6c\xae\x6b\x6c\xd9\xb7\xdb\x24\xc1\x7b\x44\x33\xf4\x34\x96\x3f\x34\xb4"+ , {- M = -} 10)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x0b\x0a\x09\x08\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07"+ , {- in = -} "\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f\x20"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x82\x53\x1a\x60\xcc\x24\x94\x5a\x4b\x82\x79\x18\x1a\xb5\xc8\x4d\xf2\x1c\xe7\xf9\xb7\x3f\x42\xe1\x97\xea\x9c\x07\xe5\x6b\x5e\xb1\x7e\x5f\x4e"+ , {- M = -} 10)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x0c\x0b\x0a\x09\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b"+ , {- in = -} "\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x07\x34\x25\x94\x15\x77\x85\x15\x2b\x07\x40\x98\x33\x0a\xbb\x14\x1b\x94\x7b\x56\x6a\xa9\x40\x6b\x4d\x99\x99\x88\xdd"+ , {- M = -} 10)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x0d\x0c\x0b\x0a\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b"+ , {- in = -} "\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x67\x6b\xb2\x03\x80\xb0\xe3\x01\xe8\xab\x79\x59\x0a\x39\x6d\xa7\x8b\x83\x49\x34\xf5\x3a\xa2\xe9\x10\x7a\x8b\x6c\x02\x2c"+ , {- M = -} 10)+ , ( {- key = -} "\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf"+ , {- iv = -} "\x00\x00\x00\x0e\x0d\x0c\x0b\xa0\xa1\xa2\xa3\xa4\xa5"+ , {- hdr = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b"+ , {- in = -} "\x0c\x0d\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f\x20"+ , {- out = -} "\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\xc0\xff\xa0\xd6\xf0\x5b\xdb\x67\xf2\x4d\x43\xa4\x33\x8d\x2a\xa4\xbe\xd7\xb2\x0e\x43\xcd\x1a\xa3\x16\x62\xe7\xad\x65\xd6\xdb"+ , {- M = -} 10)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x41\x2b\x4e\xa9\xcd\xbe\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x0b\xe1\xa8\x8b\xac\xe0\x18\xb1"+ , {- in = -} "\x08\xe8\xcf\x97\xd8\x20\xea\x25\x84\x60\xe9\x6a\xd9\xcf\x52\x89\x05\x4d\x89\x5c\xea\xc4\x7c"+ , {- out = -} "\x0b\xe1\xa8\x8b\xac\xe0\x18\xb1\x4c\xb9\x7f\x86\xa2\xa4\x68\x9a\x87\x79\x47\xab\x80\x91\xef\x53\x86\xa6\xff\xbd\xd0\x80\xf8\xe7\x8c\xf7\xcb\x0c\xdd\xd7\xb3"+ , {- M = -} 8)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x33\x56\x8e\xf7\xb2\x63\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x63\x01\x8f\x76\xdc\x8a\x1b\xcb"+ , {- in = -} "\x90\x20\xea\x6f\x91\xbd\xd8\x5a\xfa\x00\x39\xba\x4b\xaf\xf9\xbf\xb7\x9c\x70\x28\x94\x9c\xd0\xec"+ , {- out = -} "\x63\x01\x8f\x76\xdc\x8a\x1b\xcb\x4c\xcb\x1e\x7c\xa9\x81\xbe\xfa\xa0\x72\x6c\x55\xd3\x78\x06\x12\x98\xc8\x5c\x92\x81\x4a\xbc\x33\xc5\x2e\xe8\x1d\x7d\x77\xc0\x8a"+ , {- M = -} 8)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x10\x3f\xe4\x13\x36\x71\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\xaa\x6c\xfa\x36\xca\xe8\x6b\x40"+ , {- in = -} "\xb9\x16\xe0\xea\xcc\x1c\x00\xd7\xdc\xec\x68\xec\x0b\x3b\xbb\x1a\x02\xde\x8a\x2d\x1a\xa3\x46\x13\x2e"+ , {- out = -} "\xaa\x6c\xfa\x36\xca\xe8\x6b\x40\xb1\xd2\x3a\x22\x20\xdd\xc0\xac\x90\x0d\x9a\xa0\x3c\x61\xfc\xf4\xa5\x59\xa4\x41\x77\x67\x08\x97\x08\xa7\x76\x79\x6e\xdb\x72\x35\x06"+ , {- M = -} 8)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x76\x4c\x63\xb8\x05\x8e\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\xd0\xd0\x73\x5c\x53\x1e\x1b\xec\xf0\x49\xc2\x44"+ , {- in = -} "\x12\xda\xac\x56\x30\xef\xa5\x39\x6f\x77\x0c\xe1\xa6\x6b\x21\xf7\xb2\x10\x1c"+ , {- out = -} "\xd0\xd0\x73\x5c\x53\x1e\x1b\xec\xf0\x49\xc2\x44\x14\xd2\x53\xc3\x96\x7b\x70\x60\x9b\x7c\xbb\x7c\x49\x91\x60\x28\x32\x45\x26\x9a\x6f\x49\x97\x5b\xca\xde\xaf"+ , {- M = -} 8)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\xf8\xb6\x78\x09\x4e\x3b\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x77\xb6\x0f\x01\x1c\x03\xe1\x52\x58\x99\xbc\xae"+ , {- in = -} "\xe8\x8b\x6a\x46\xc7\x8d\x63\xe5\x2e\xb8\xc5\x46\xef\xb5\xde\x6f\x75\xe9\xcc\x0d"+ , {- out = -} "\x77\xb6\x0f\x01\x1c\x03\xe1\x52\x58\x99\xbc\xae\x55\x45\xff\x1a\x08\x5e\xe2\xef\xbf\x52\xb2\xe0\x4b\xee\x1e\x23\x36\xc7\x3e\x3f\x76\x2c\x0c\x77\x44\xfe\x7e\x3c"+ , {- M = -} 8)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\xd5\x60\x91\x2d\x3f\x70\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\xcd\x90\x44\xd2\xb7\x1f\xdb\x81\x20\xea\x60\xc0"+ , {- in = -} "\x64\x35\xac\xba\xfb\x11\xa8\x2e\x2f\x07\x1d\x7c\xa4\xa5\xeb\xd9\x3a\x80\x3b\xa8\x7f"+ , {- out = -} "\xcd\x90\x44\xd2\xb7\x1f\xdb\x81\x20\xea\x60\xc0\x00\x97\x69\xec\xab\xdf\x48\x62\x55\x94\xc5\x92\x51\xe6\x03\x57\x22\x67\x5e\x04\xc8\x47\x09\x9e\x5a\xe0\x70\x45\x51"+ , {- M = -} 8)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x42\xff\xf8\xf1\x95\x1c\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\xd8\x5b\xc7\xe6\x9f\x94\x4f\xb8"+ , {- in = -} "\x8a\x19\xb9\x50\xbc\xf7\x1a\x01\x8e\x5e\x67\x01\xc9\x17\x87\x65\x98\x09\xd6\x7d\xbe\xdd\x18"+ , {- out = -} "\xd8\x5b\xc7\xe6\x9f\x94\x4f\xb8\xbc\x21\x8d\xaa\x94\x74\x27\xb6\xdb\x38\x6a\x99\xac\x1a\xef\x23\xad\xe0\xb5\x29\x39\xcb\x6a\x63\x7c\xf9\xbe\xc2\x40\x88\x97\xc6\xba"+ , {- M = -} 10)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x92\x0f\x40\xe5\x6c\xdc\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x74\xa0\xeb\xc9\x06\x9f\x5b\x37"+ , {- in = -} "\x17\x61\x43\x3c\x37\xc5\xa3\x5f\xc1\xf3\x9f\x40\x63\x02\xeb\x90\x7c\x61\x63\xbe\x38\xc9\x84\x37"+ , {- out = -} "\x74\xa0\xeb\xc9\x06\x9f\x5b\x37\x58\x10\xe6\xfd\x25\x87\x40\x22\xe8\x03\x61\xa4\x78\xe3\xe9\xcf\x48\x4a\xb0\x4f\x44\x7e\xff\xf6\xf0\xa4\x77\xcc\x2f\xc9\xbf\x54\x89\x44"+ , {- M = -} 10)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x27\xca\x0c\x71\x20\xbc\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x44\xa3\xaa\x3a\xae\x64\x75\xca"+ , {- in = -} "\xa4\x34\xa8\xe5\x85\x00\xc6\xe4\x15\x30\x53\x88\x62\xd6\x86\xea\x9e\x81\x30\x1b\x5a\xe4\x22\x6b\xfa"+ , {- out = -} "\x44\xa3\xaa\x3a\xae\x64\x75\xca\xf2\xbe\xed\x7b\xc5\x09\x8e\x83\xfe\xb5\xb3\x16\x08\xf8\xe2\x9c\x38\x81\x9a\x89\xc8\xe7\x76\xf1\x54\x4d\x41\x51\xa4\xed\x3a\x8b\x87\xb9\xce"+ , {- M = -} 10)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x5b\x8c\xcb\xcd\x9a\xf8\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\xec\x46\xbb\x63\xb0\x25\x20\xc3\x3c\x49\xfd\x70"+ , {- in = -} "\xb9\x6b\x49\xe2\x1d\x62\x17\x41\x63\x28\x75\xdb\x7f\x6c\x92\x43\xd2\xd7\xc2"+ , {- out = -} "\xec\x46\xbb\x63\xb0\x25\x20\xc3\x3c\x49\xfd\x70\x31\xd7\x50\xa0\x9d\xa3\xed\x7f\xdd\xd4\x9a\x20\x32\xaa\xbf\x17\xec\x8e\xbf\x7d\x22\xc8\x08\x8c\x66\x6b\xe5\xc1\x97"+ , {- M = -} 10)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x3e\xbe\x94\x04\x4b\x9a\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x47\xa6\x5a\xc7\x8b\x3d\x59\x42\x27\xe8\x5e\x71"+ , {- in = -} "\xe2\xfc\xfb\xb8\x80\x44\x2c\x73\x1b\xf9\x51\x67\xc8\xff\xd7\x89\x5e\x33\x70\x76"+ , {- out = -} "\x47\xa6\x5a\xc7\x8b\x3d\x59\x42\x27\xe8\x5e\x71\xe8\x82\xf1\xdb\xd3\x8c\xe3\xed\xa7\xc2\x3f\x04\xdd\x65\x07\x1e\xb4\x13\x42\xac\xdf\x7e\x00\xdc\xce\xc7\xae\x52\x98\x7d"+ , {- M = -} 10)+ , ( {- key = -} "\xd7\x82\x8d\x13\xb2\xb0\xbd\xc3\x25\xa7\x62\x36\xdf\x93\xcc\x6b"+ , {- iv = -} "\x00\x8d\x49\x3b\x30\xae\x8b\x3c\x96\x96\x76\x6c\xfa"+ , {- hdr = -} "\x6e\x37\xa6\xef\x54\x6d\x95\x5d\x34\xab\x60\x59"+ , {- in = -} "\xab\xf2\x1c\x0b\x02\xfe\xb8\x8f\x85\x6d\xf4\xa3\x73\x81\xbc\xe3\xcc\x12\x85\x17\xd4"+ , {- out = -} "\x6e\x37\xa6\xef\x54\x6d\x95\x5d\x34\xab\x60\x59\xf3\x29\x05\xb8\x8a\x64\x1b\x04\xb9\xc9\xff\xb5\x8c\xc3\x90\x90\x0f\x3d\xa1\x2a\xb1\x6d\xce\x9e\x82\xef\xa1\x6d\xa6\x20\x59"+ , {- M = -} 10)+ ]
tests/KAT_AES/KATGCM.hs view
@@ -56,6 +56,14 @@ , {-out = -}"\xe4\x42\xf8\xc4\xc6\x67\x84\x86\x4a\x5a\x6e\xc7\xe0\xca\x68\xac\x16\xbc\x5b\xbf\xf7\xd5\xf3\xfa\xf3\xb2\xcb\xb0\xa2\x14\xa1" , {-taglen = -}16 , {-tag = -}"\x94\xd1\x47\xc3\xa2\xca\x93\xe9\x66\x93\x1e\x3b\xb3\xbb\x67\x01")+ -- vector 6 tests 32-bit counter wrapping+ , ( {-key = -}"\x01\x02\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , {-iv = -}"\xe8\x38\x84\x1d\x75\xae\x33\xb5\x4b\x51\x57\x89\xc9\x5f\xbe\x65"+ , {-aad = -}"\x54\x68\x65\x20\x66\x69\x76\x65\x20\x62\x6f\x78\x69\x6e\x67\x20\x77\x69\x7a\x61\x72\x64\x73\x20\x6a\x75\x6d\x70\x20\x71\x75\x69\x63\x6b\x6c\x79\x2e"+ , {-input = -}"\x54\x68\x65\x20\x71\x75\x69\x63\x6b\x20\x62\x72\x6f\x77\x6e\x20\x66\x6f\x78\x20\x6a\x75\x6d\x70\x73\x20\x6f\x76\x65\x72\x20\x74\x68\x65\x20\x6c\x61\x7a\x79\x20\x64\x6f\x67"+ , {-out = -}"\x82\x31\x9e\x5a\x6a\x7f\x43\xd0\x42\x8c\xf1\x01\xcf\x0c\x75\xf1\x5d\xda\x4f\xa1\x28\x95\xcd\xd7\x7b\xd5\x42\x68\x2f\xcd\x10\x1b\x0c\x75\x05\x54\xf4\x2f\x2b\xf6\x69\x96\x29"+ , {-taglen = -}16+ , {-tag = -}"\x9a\xfa\xf4\xea\xae\x2e\x6f\x40\x00\xf4\x89\x77\xd0\x1e\xd5\x14") ] vectors_aes256_enc :: [KATGCM]
+ tests/KAT_AESGCMSIV.hs view
@@ -0,0 +1,494 @@+{-# LANGUAGE FlexibleInstances #-}+{-# LANGUAGE OverloadedStrings #-}+{-# LANGUAGE Rank2Types #-}+{-# LANGUAGE RecordWildCards #-}+module KAT_AESGCMSIV (tests) where++import Imports++import Data.Proxy+import qualified Data.ByteArray as B++import Crypto.Cipher.AES+import Crypto.Cipher.AESGCMSIV+import Crypto.Cipher.Types+import Crypto.Error++data Vector c = Vector+ { vecPlaintext :: ByteString+ , vecAAD :: ByteString+ , vecKey :: ByteString+ , vecNonce :: ByteString+ , vecTag :: ByteString+ , vecCiphertext :: ByteString+ }++vecCipher :: Cipher c => Vector c -> c+vecCipher = throwCryptoError . cipherInit . vecKey++vectors128 :: [Vector AES128]+vectors128 =+ [ Vector+ { vecPlaintext = ""+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xdc\x20\xe2\xd8\x3f\x25\x70\x5b\xb4\x9e\x43\x9e\xca\x56\xde\x25"+ , vecCiphertext = ""+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x57\x87\x82\xff\xf6\x01\x3b\x81\x5b\x28\x7c\x22\x49\x3a\x36\x4c"+ , vecCiphertext = "\xb5\xd8\x39\x33\x0a\xc7\xb7\x86"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xa4\x97\x8d\xb3\x57\x39\x1a\x0b\xc4\xfd\xec\x8b\x0d\x10\x66\x39"+ , vecCiphertext = "\x73\x23\xea\x61\xd0\x59\x32\x26\x00\x47\xd9\x42"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x30\x3a\xaf\x90\xf6\xfe\x21\x19\x9c\x60\x68\x57\x74\x37\xa0\xc4"+ , vecCiphertext = "\x74\x3f\x7c\x80\x77\xab\x25\xf8\x62\x4e\x2e\x94\x85\x79\xcf\x77"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x1a\x8e\x45\xdc\xd4\x57\x8c\x66\x7c\xd8\x68\x47\xbf\x61\x55\xff"+ , vecCiphertext = "\x84\xe0\x7e\x62\xba\x83\xa6\x58\x54\x17\x24\x5d\x7e\xc4\x13\xa9\xfe\x42\x7d\x63\x15\xc0\x9b\x57\xce\x45\xf2\xe3\x93\x6a\x94\x45"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x5e\x6e\x31\x1d\xbf\x39\x5d\x35\xb0\xfe\x39\xc2\x71\x43\x88\xf8"+ , vecCiphertext = "\x3f\xd2\x4c\xe1\xf5\xa6\x7b\x75\xbf\x23\x51\xf1\x81\xa4\x75\xc7\xb8\x00\xa5\xb4\xd3\xdc\xf7\x01\x06\xb1\xee\xa8\x2f\xa1\xd6\x4d\xf4\x2b\xf7\x22\x61\x22\xfa\x92\xe1\x7a\x40\xee\xaa\xc1\x20\x1b"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x8a\x26\x3d\xd3\x17\xaa\x88\xd5\x6b\xdf\x39\x36\xdb\xa7\x5b\xb8"+ , vecCiphertext = "\x24\x33\x66\x8f\x10\x58\x19\x0f\x6d\x43\xe3\x60\xf4\xf3\x5c\xd8\xe4\x75\x12\x7c\xfc\xa7\x02\x8e\xa8\xab\x5c\x20\xf7\xab\x2a\xf0\x25\x16\xa2\xbd\xcb\xc0\x8d\x52\x1b\xe3\x7f\xf2\x8c\x15\x2b\xba\x36\x69\x7f\x25\xb4\xcd\x16\x9c\x65\x90\xd1\xdd\x39\x56\x6d\x3f"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x3b\x0a\x1a\x25\x60\x96\x9c\xdf\x79\x0d\x99\x75\x9a\xbd\x15\x08"+ , vecCiphertext = "\x1e\x6d\xab\xa3\x56\x69\xf4\x27"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x08\x29\x9c\x51\x02\x74\x5a\xaa\x3a\x0c\x46\x9f\xad\x9e\x07\x5a"+ , vecCiphertext = "\x29\x6c\x78\x89\xfd\x99\xf4\x19\x17\xf4\x46\x20"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x8f\x89\x36\xec\x03\x9e\x4e\x4b\xb9\x7e\xbd\x8c\x44\x57\x44\x1f"+ , vecCiphertext = "\xe2\xb0\xc5\xda\x79\xa9\x01\xc1\x74\x5f\x70\x05\x25\xcb\x33\x5b"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xe6\xaf\x6a\x7f\x87\x28\x7d\xa0\x59\xa7\x16\x84\xed\x34\x98\xe1"+ , vecCiphertext = "\x62\x00\x48\xef\x3c\x1e\x73\xe5\x7e\x02\xbb\x85\x62\xc4\x16\xa3\x19\xe7\x3e\x4c\xaa\xc8\xe9\x6a\x1e\xcb\x29\x33\x14\x5a\x1d\x71"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x6a\x8c\xc3\x86\x5f\x76\x89\x7c\x2e\x4b\x24\x5c\xf3\x1c\x51\xf2"+ , vecCiphertext = "\x50\xc8\x30\x3e\xa9\x39\x25\xd6\x40\x90\xd0\x7b\xd1\x09\xdf\xd9\x51\x5a\x5a\x33\x43\x10\x19\xc1\x7d\x93\x46\x59\x99\xa8\xb0\x05\x32\x01\xd7\x23\x12\x0a\x85\x62\xb8\x38\xcd\xff\x25\xbf\x9d\x1e"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x05\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xcd\xc4\x6a\xe4\x75\x56\x3d\xe0\x37\x00\x1e\xf8\x4a\xe2\x17\x44"+ , vecCiphertext = "\x2f\x5c\x64\x05\x9d\xb5\x5e\xe0\xfb\x84\x7e\xd5\x13\x00\x37\x46\xac\xa4\xe6\x1c\x71\x1b\x5d\xe2\xe7\xa7\x7f\xfd\x02\xda\x42\xfe\xec\x60\x19\x10\xd3\x46\x7b\xb8\xb3\x6e\xbb\xae\xbc\xe5\xfb\xa3\x0d\x36\xc9\x5f\x48\xa3\xe7\x98\x0f\x0e\x7a\xc2\x99\x33\x2a\x80"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00"+ , vecAAD = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x07\xeb\x1f\x84\xfb\x28\xf8\xcb\x73\xde\x8e\x99\xe2\xf4\x8a\x14"+ , vecCiphertext = "\xa8\xfe\x3e\x87"+ }+ , Vector+ { vecPlaintext = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00"+ , vecAAD = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x24\xaf\xc9\x80\x5e\x97\x6f\x45\x1e\x6d\x87\xf6\xfe\x10\x65\x14"+ , vecCiphertext = "\x6b\xb0\xfe\xcf\x5d\xed\x9b\x77\xf9\x02\xc7\xd5\xda\x23\x6a\x43\x91\xdd\x02\x97"+ }+ , Vector+ { vecPlaintext = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00"+ , vecAAD = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xbf\xf9\xb2\xef\x00\xfb\x47\x92\x0c\xc7\x2a\x0c\x0f\x13\xb9\xfd"+ , vecCiphertext = "\x44\xd0\xaa\xf6\xfb\x2f\x1f\x34\xad\xd5\xe8\x06\x4e\x83\xe1\x2a\x2a\xda"+ }+ , Vector+ { vecPlaintext = ""+ , vecAAD = ""+ , vecKey = "\xe6\x60\x21\xd5\xeb\x8e\x4f\x40\x66\xd4\xad\xb9\xc3\x35\x60\xe4"+ , vecNonce = "\xf4\x6e\x44\xbb\x3d\xa0\x01\x5c\x94\xf7\x08\x87"+ , vecTag = "\xa4\x19\x4b\x79\x07\x1b\x01\xa8\x7d\x65\xf7\x06\xe3\x94\x95\x78"+ , vecCiphertext = ""+ }+ , Vector+ { vecPlaintext = "\x7a\x80\x6c"+ , vecAAD = "\x46\xbb\x91\xc3\xc5"+ , vecKey = "\x36\x86\x42\x00\xe0\xea\xf5\x28\x4d\x88\x4a\x0e\x77\xd3\x16\x46"+ , vecNonce = "\xba\xe8\xe3\x7f\xc8\x34\x41\xb1\x60\x34\x56\x6b"+ , vecTag = "\x71\x1b\xd8\x5b\xc1\xe4\xd3\xe0\xa4\x62\xe0\x74\xee\xa4\x28\xa8"+ , vecCiphertext = "\xaf\x60\xeb"+ }+ , Vector+ { vecPlaintext = "\xbd\xc6\x6f\x14\x65\x45"+ , vecAAD = "\xfc\x88\x0c\x94\xa9\x51\x98\x87\x42\x96"+ , vecKey = "\xae\xdb\x64\xa6\xc5\x90\xbc\x84\xd1\xa5\xe2\x69\xe4\xb4\x78\x01"+ , vecNonce = "\xaf\xc0\x57\x7e\x34\x69\x9b\x9e\x67\x1f\xdd\x4f"+ , vecTag = "\xd6\xa9\xc4\x55\x45\xcf\xc1\x1f\x03\xad\x74\x3d\xba\x20\xf9\x66"+ , vecCiphertext = "\xbb\x93\xa3\xe3\x4d\x3c"+ }+ , Vector+ { vecPlaintext = "\x11\x77\x44\x1f\x19\x54\x95\x86\x0f"+ , vecAAD = "\x04\x67\x87\xf3\xea\x22\xc1\x27\xaa\xf1\x95\xd1\x89\x47\x28"+ , vecKey = "\xd5\xcc\x1f\xd1\x61\x32\x0b\x69\x20\xce\x07\x78\x7f\x86\x74\x3b"+ , vecNonce = "\x27\x5d\x1a\xb3\x2f\x6d\x1f\x04\x34\xd8\x84\x8c"+ , vecTag = "\x1d\x02\xfd\x0c\xd1\x74\xc8\x4f\xc5\xda\xe2\xf6\x0f\x52\xfd\x2b"+ , vecCiphertext = "\x4f\x37\x28\x1f\x7a\xd1\x29\x49\xd0"+ }+ , Vector+ { vecPlaintext = "\x9f\x57\x2c\x61\x4b\x47\x45\x91\x44\x74\xe7\xc7"+ , vecAAD = "\xc9\x88\x2e\x53\x86\xfd\x9f\x92\xec\x48\x9c\x8f\xde\x2b\xe2\xcf\x97\xe7\x4e\x93"+ , vecKey = "\xb3\xfe\xd1\x47\x3c\x52\x8b\x84\x26\xa5\x82\x99\x59\x29\xa1\x49"+ , vecNonce = "\x9e\x9a\xd8\x78\x0c\x8d\x63\xd0\xab\x41\x49\xc0"+ , vecTag = "\xc1\xdc\x2f\x87\x1f\xb7\x56\x1d\xa1\x28\x6e\x65\x5e\x24\xb7\xb0"+ , vecCiphertext = "\xf5\x46\x73\xc5\xdd\xf7\x10\xc7\x45\x64\x1c\x8b"+ }+ , Vector+ { vecPlaintext = "\x0d\x8c\x84\x51\x17\x80\x82\x35\x5c\x9e\x94\x0f\xea\x2f\x58"+ , vecAAD = "\x29\x50\xa7\x0d\x5a\x1d\xb2\x31\x6f\xd5\x68\x37\x8d\xa1\x07\xb5\x2b\x0d\xa5\x52\x10\xcc\x1c\x1b\x0a"+ , vecKey = "\x2d\x4e\xd8\x7d\xa4\x41\x02\x95\x2e\xf9\x4b\x02\xb8\x05\x24\x9b"+ , vecNonce = "\xac\x80\xe6\xf6\x14\x55\xbf\xac\x83\x08\xa2\xd4"+ , vecTag = "\x83\xb3\x44\x9b\x9f\x39\x55\x2d\xe9\x9d\xc2\x14\xa1\x19\x0b\x0b"+ , vecCiphertext = "\xc9\xff\x54\x5e\x07\xb8\x8a\x01\x5f\x05\xb2\x74\x54\x0a\xa1"+ }+ , Vector+ { vecPlaintext = "\x6b\x3d\xb4\xda\x3d\x57\xaa\x94\x84\x2b\x98\x03\xa9\x6e\x07\xfb\x6d\xe7"+ , vecAAD = "\x18\x60\xf7\x62\xeb\xfb\xd0\x82\x84\xe4\x21\x70\x2d\xe0\xde\x18\xba\xa9\xc9\x59\x62\x91\xb0\x84\x66\xf3\x7d\xe2\x1c\x7f"+ , vecKey = "\xbd\xe3\xb2\xf2\x04\xd1\xe9\xf8\xb0\x6b\xc4\x7f\x97\x45\xb3\xd1"+ , vecNonce = "\xae\x06\x55\x6f\xb6\xaa\x78\x90\xbe\xbc\x18\xfe"+ , vecTag = "\x3e\x37\x70\x94\xf0\x47\x09\xf6\x4d\x7b\x98\x53\x10\xa4\xdb\x84"+ , vecCiphertext = "\x62\x98\xb2\x96\xe2\x4e\x8c\xc3\x5d\xce\x0b\xed\x48\x4b\x7f\x30\xd5\x80"+ }+ , Vector+ { vecPlaintext = "\xe4\x2a\x3c\x02\xc2\x5b\x64\x86\x9e\x14\x6d\x7b\x23\x39\x87\xbd\xdf\xc2\x40\x87\x1d"+ , vecAAD = "\x75\x76\xf7\x02\x8e\xc6\xeb\x5e\xa7\xe2\x98\x34\x2a\x94\xd4\xb2\x02\xb3\x70\xef\x97\x68\xec\x65\x61\xc4\xfe\x6b\x7e\x72\x96\xfa\x85\x9c\x21"+ , vecKey = "\xf9\x01\xcf\xe8\xa6\x96\x15\xa9\x3f\xdf\x7a\x98\xca\xd4\x81\x79"+ , vecNonce = "\x62\x45\x70\x9f\xb1\x88\x53\xf6\x8d\x83\x36\x40"+ , vecTag = "\x2d\x15\x50\x6c\x84\xa9\xed\xd6\x5e\x13\xe9\xd2\x4a\x2a\x6e\x70"+ , vecCiphertext = "\x39\x1c\xc3\x28\xd4\x84\xa4\xf4\x64\x06\x18\x1b\xcd\x62\xef\xd9\xb3\xee\x19\x7d\x05"+ }+ ]++vectors256 :: [Vector AES256]+vectors256 =+ [ Vector+ { vecPlaintext = ""+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x07\xf5\xf4\x16\x9b\xbf\x55\xa8\x40\x0c\xd4\x7e\xa6\xfd\x40\x0f"+ , vecCiphertext = ""+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x84\x31\x22\x13\x0f\x73\x64\xb7\x61\xe0\xb9\x74\x27\xe3\xdf\x28"+ , vecCiphertext = "\xc2\xef\x32\x8e\x5c\x71\xc8\x3b"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x8c\xa5\x0d\xa9\xae\x65\x59\xe4\x8f\xd1\x0f\x6e\x5c\x9c\xa1\x7e"+ , vecCiphertext = "\x9a\xab\x2a\xeb\x3f\xaa\x0a\x34\xae\xa8\xe2\xb1"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xc9\xea\xc6\xfa\x70\x09\x42\x70\x2e\x90\x86\x23\x83\xc6\xc3\x66"+ , vecCiphertext = "\x85\xa0\x1b\x63\x02\x5b\xa1\x9b\x7f\xd3\xdd\xfc\x03\x3b\x3e\x76"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xe8\x19\xe6\x3a\xbc\xd0\x20\xb0\x06\xa9\x76\x39\x76\x32\xeb\x5d"+ , vecCiphertext = "\x4a\x6a\x9d\xb4\xc8\xc6\x54\x92\x01\xb9\xed\xb5\x30\x06\xcb\xa8\x21\xec\x9c\xf8\x50\x94\x8a\x7c\x86\xc6\x8a\xc7\x53\x9d\x02\x7f"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x79\x0b\xc9\x68\x80\xa9\x9b\xa8\x04\xbd\x12\xc0\xe6\xa2\x2c\xc4"+ , vecCiphertext = "\xc0\x0d\x12\x18\x93\xa9\xfa\x60\x3f\x48\xcc\xc1\xca\x3c\x57\xce\x74\x99\x24\x5e\xa0\x04\x6d\xb1\x6c\x53\xc7\xc6\x6f\xe7\x17\xe3\x9c\xf6\xc7\x48\x83\x7b\x61\xf6\xee\x3a\xdc\xee\x17\x53\x4e\xd5"+ }+ , Vector+ { vecPlaintext = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x11\x28\x64\xc2\x69\xfc\x0d\x9d\x88\xc6\x1f\xa4\x7e\x39\xaa\x08"+ , vecCiphertext = "\xc2\xd5\x16\x0a\x1f\x86\x83\x83\x49\x10\xac\xda\xfc\x41\xfb\xb1\x63\x2d\x4a\x35\x3e\x8b\x90\x5e\xc9\xa5\x49\x9a\xc3\x4f\x96\xc7\xe1\x04\x9e\xb0\x80\x88\x38\x91\xa4\xdb\x8c\xaa\xa1\xf9\x9d\xd0\x04\xd8\x04\x87\x54\x07\x35\x23\x4e\x37\x44\x51\x2c\x6f\x90\xce"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x91\x21\x3f\x26\x7e\x3b\x45\x2f\x02\xd0\x1a\xe3\x3e\x4e\xc8\x54"+ , vecCiphertext = "\x1d\xe2\x29\x67\x23\x7a\x81\x32"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xc1\xa4\xa1\x9a\xe8\x00\x94\x1c\xcd\xc5\x7c\xc8\x41\x3c\x27\x7f"+ , vecCiphertext = "\x16\x3d\x6f\x9c\xc1\xb3\x46\xcd\x45\x3a\x2e\x4c"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xb2\x92\xd2\x8f\xf6\x11\x89\xe8\xe4\x9f\x38\x75\xef\x91\xaf\xf7"+ , vecCiphertext = "\xc9\x15\x45\x82\x3c\xc2\x4f\x17\xdb\xb0\xe9\xe8\x07\xd5\xec\x17"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xae\xa1\xba\xd1\x27\x02\xe1\x96\x56\x04\x37\x4a\xab\x96\xdb\xbc"+ , vecCiphertext = "\x07\xda\xd3\x64\xbf\xc2\xb9\xda\x89\x11\x6d\x7b\xef\x6d\xaa\xaf\x6f\x25\x55\x10\xaa\x65\x4f\x92\x0a\xc8\x1b\x94\xe8\xba\xd3\x65"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x03\x33\x27\x42\xb2\x28\xc6\x47\x17\x36\x16\xcf\xd4\x4c\x54\xeb"+ , vecCiphertext = "\xc6\x7a\x1f\x0f\x56\x7a\x51\x98\xaa\x1f\xcc\x8e\x3f\x21\x31\x43\x36\xf7\xf5\x1c\xa8\xb1\xaf\x61\xfe\xac\x35\xa8\x64\x16\xfa\x47\xfb\xca\x3b\x5f\x74\x9c\xdf\x56\x45\x27\xf2\x31\x4f\x42\xfe\x25"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x05\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = "\x01"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x5b\xde\x02\x85\x03\x7c\x5d\xe8\x1e\x5b\x57\x0a\x04\x9b\x62\xa0"+ , vecCiphertext = "\x67\xfd\x45\xe1\x26\xbf\xb9\xa7\x99\x30\xc4\x3a\xad\x2d\x36\x96\x7d\x3f\x0e\x4d\x21\x7c\x1e\x55\x1f\x59\x72\x78\x70\xbe\xef\xc9\x8c\xb9\x33\xa8\xfc\xe9\xde\x88\x7b\x1e\x40\x79\x99\x88\xdb\x1f\xc3\xf9\x18\x80\xed\x40\x5b\x2d\xd2\x98\x31\x88\x58\x46\x7c\x89"+ }+ , Vector+ { vecPlaintext = "\x02\x00\x00\x00"+ , vecAAD = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\x18\x35\xe5\x17\x74\x1d\xfd\xdc\xcf\xa0\x7f\xa4\x66\x1b\x74\xcf"+ , vecCiphertext = "\x22\xb3\xf4\xcd"+ }+ , Vector+ { vecPlaintext = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00\x00\x00"+ , vecAAD = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xb8\x79\xad\x97\x6d\x82\x42\xac\xc1\x88\xab\x59\xca\xbf\xe3\x07"+ , vecCiphertext = "\x43\xdd\x01\x63\xcd\xb4\x8f\x9f\xe3\x21\x2b\xf6\x1b\x20\x19\x76\x06\x7f\x34\x2b"+ }+ , Vector+ { vecPlaintext = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x04\x00"+ , vecAAD = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x02\x00\x00\x00"+ , vecKey = "\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x03\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xcf\xcd\xf5\x04\x21\x12\xaa\x29\x68\x5c\x91\x2f\xc2\x05\x65\x43"+ , vecCiphertext = "\x46\x24\x01\x72\x4b\x5c\xe6\x58\x8d\x5a\x54\xaa\xe5\x37\x55\x13\xa0\x75"+ }+ , Vector+ { vecPlaintext = ""+ , vecAAD = ""+ , vecKey = "\xe6\x60\x21\xd5\xeb\x8e\x4f\x40\x66\xd4\xad\xb9\xc3\x35\x60\xe4\xf4\x6e\x44\xbb\x3d\xa0\x01\x5c\x94\xf7\x08\x87\x36\x86\x42\x00"+ , vecNonce = "\xe0\xea\xf5\x28\x4d\x88\x4a\x0e\x77\xd3\x16\x46"+ , vecTag = "\x16\x9f\xbb\x2f\xbf\x38\x9a\x99\x5f\x63\x90\xaf\x22\x22\x8a\x62"+ , vecCiphertext = ""+ }+ , Vector+ { vecPlaintext = "\x67\x1f\xdd"+ , vecAAD = "\x4f\xbd\xc6\x6f\x14"+ , vecKey = "\xba\xe8\xe3\x7f\xc8\x34\x41\xb1\x60\x34\x56\x6b\x7a\x80\x6c\x46\xbb\x91\xc3\xc5\xae\xdb\x64\xa6\xc5\x90\xbc\x84\xd1\xa5\xe2\x69"+ , vecNonce = "\xe4\xb4\x78\x01\xaf\xc0\x57\x7e\x34\x69\x9b\x9e"+ , vecTag = "\x93\xda\x9b\xb8\x13\x33\xae\xe0\xc7\x85\xb2\x40\xd3\x19\x71\x9d"+ , vecCiphertext = "\x0e\xac\xcb"+ }+ , Vector+ { vecPlaintext = "\x19\x54\x95\x86\x0f\x04"+ , vecAAD = "\x67\x87\xf3\xea\x22\xc1\x27\xaa\xf1\x95"+ , vecKey = "\x65\x45\xfc\x88\x0c\x94\xa9\x51\x98\x87\x42\x96\xd5\xcc\x1f\xd1\x61\x32\x0b\x69\x20\xce\x07\x78\x7f\x86\x74\x3b\x27\x5d\x1a\xb3"+ , vecNonce = "\x2f\x6d\x1f\x04\x34\xd8\x84\x8c\x11\x77\x44\x1f"+ , vecTag = "\x6b\x62\xb8\x4d\xc4\x0c\x84\x63\x6a\x5e\xc1\x20\x20\xec\x8c\x2c"+ , vecCiphertext = "\xa2\x54\xda\xd4\xf3\xf9"+ }+ , Vector+ { vecPlaintext = "\xc9\x88\x2e\x53\x86\xfd\x9f\x92\xec"+ , vecAAD = "\x48\x9c\x8f\xde\x2b\xe2\xcf\x97\xe7\x4e\x93\x2d\x4e\xd8\x7d"+ , vecKey = "\xd1\x89\x47\x28\xb3\xfe\xd1\x47\x3c\x52\x8b\x84\x26\xa5\x82\x99\x59\x29\xa1\x49\x9e\x9a\xd8\x78\x0c\x8d\x63\xd0\xab\x41\x49\xc0"+ , vecNonce = "\x9f\x57\x2c\x61\x4b\x47\x45\x91\x44\x74\xe7\xc7"+ , vecTag = "\xc0\xfd\x3d\xc6\x62\x8d\xfe\x55\xeb\xb0\xb9\xfb\x22\x95\xc8\xc2"+ , vecCiphertext = "\x0d\xf9\xe3\x08\x67\x82\x44\xc4\x4b"+ }+ , Vector+ { vecPlaintext = "\x1d\xb2\x31\x6f\xd5\x68\x37\x8d\xa1\x07\xb5\x2b"+ , vecAAD = "\x0d\xa5\x52\x10\xcc\x1c\x1b\x0a\xbd\xe3\xb2\xf2\x04\xd1\xe9\xf8\xb0\x6b\xc4\x7f"+ , vecKey = "\xa4\x41\x02\x95\x2e\xf9\x4b\x02\xb8\x05\x24\x9b\xac\x80\xe6\xf6\x14\x55\xbf\xac\x83\x08\xa2\xd4\x0d\x8c\x84\x51\x17\x80\x82\x35"+ , vecNonce = "\x5c\x9e\x94\x0f\xea\x2f\x58\x29\x50\xa7\x0d\x5a"+ , vecTag = "\x40\x40\x99\xc2\x58\x7f\x64\x97\x9f\x21\x82\x67\x06\xd4\x97\xd5"+ , vecCiphertext = "\x8d\xbe\xb9\xf7\x25\x5b\xf5\x76\x9d\xd5\x66\x92"+ }+ , Vector+ { vecPlaintext = "\x21\x70\x2d\xe0\xde\x18\xba\xa9\xc9\x59\x62\x91\xb0\x84\x66"+ , vecAAD = "\xf3\x7d\xe2\x1c\x7f\xf9\x01\xcf\xe8\xa6\x96\x15\xa9\x3f\xdf\x7a\x98\xca\xd4\x81\x79\x62\x45\x70\x9f"+ , vecKey = "\x97\x45\xb3\xd1\xae\x06\x55\x6f\xb6\xaa\x78\x90\xbe\xbc\x18\xfe\x6b\x3d\xb4\xda\x3d\x57\xaa\x94\x84\x2b\x98\x03\xa9\x6e\x07\xfb"+ , vecNonce = "\x6d\xe7\x18\x60\xf7\x62\xeb\xfb\xd0\x82\x84\xe4"+ , vecTag = "\xb3\x08\x0d\x28\xf6\xeb\xb5\xd3\x64\x8c\xe9\x7b\xd5\xba\x67\xfd"+ , vecCiphertext = "\x79\x35\x76\xdf\xa5\xc0\xf8\x87\x29\xa7\xed\x3c\x2f\x1b\xff"+ }+ , Vector+ { vecPlaintext = "\xb2\x02\xb3\x70\xef\x97\x68\xec\x65\x61\xc4\xfe\x6b\x7e\x72\x96\xfa\x85"+ , vecAAD = "\x9c\x21\x59\x05\x8b\x1f\x0f\xe9\x14\x33\xa5\xbd\xc2\x0e\x21\x4e\xab\x7f\xec\xef\x44\x54\xa1\x0e\xf0\x65\x7d\xf2\x1a\xc7"+ , vecKey = "\xb1\x88\x53\xf6\x8d\x83\x36\x40\xe4\x2a\x3c\x02\xc2\x5b\x64\x86\x9e\x14\x6d\x7b\x23\x39\x87\xbd\xdf\xc2\x40\x87\x1d\x75\x76\xf7"+ , vecNonce = "\x02\x8e\xc6\xeb\x5e\xa7\xe2\x98\x34\x2a\x94\xd4"+ , vecTag = "\x45\x4f\xc2\xa1\x54\xfe\xa9\x1f\x83\x63\xa3\x9f\xec\x7d\x0a\x49"+ , vecCiphertext = "\x85\x7e\x16\xa6\x49\x15\xa7\x87\x63\x76\x87\xdb\x4a\x95\x19\x63\x5c\xdd"+ }+ , Vector+ { vecPlaintext = "\xce\xd5\x32\xce\x41\x59\xb0\x35\x27\x7d\x4d\xfb\xb7\xdb\x62\x96\x8b\x13\xcd\x4e\xec"+ , vecAAD = "\x73\x43\x20\xcc\xc9\xd9\xbb\xbb\x19\xcb\x81\xb2\xaf\x4e\xcb\xc3\xe7\x28\x34\x32\x1f\x7a\xa0\xf7\x0b\x72\x82\xb4\xf3\x3d\xf2\x3f\x16\x75\x41"+ , vecKey = "\x3c\x53\x5d\xe1\x92\xea\xed\x38\x22\xa2\xfb\xbe\x2c\xa9\xdf\xc8\x82\x55\xe1\x4a\x66\x1b\x8a\xa8\x2c\xc5\x42\x36\x09\x3b\xbc\x23"+ , vecNonce = "\x68\x80\x89\xe5\x55\x40\xdb\x18\x72\x50\x4e\x1c"+ , vecTag = "\x9d\x6c\x70\x29\x67\x5b\x89\xea\xf4\xba\x1d\xed\x1a\x28\x65\x94"+ , vecCiphertext = "\x62\x66\x60\xc2\x6e\xa6\x61\x2f\xb1\x7a\xd9\x1e\x8e\x76\x76\x39\xed\xd6\xc9\xfa\xee"+ }+ ]++vectorsWrap256 :: [Vector AES256]+vectorsWrap256 =+ [ Vector+ { vecPlaintext = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x4d\xb9\x23\xdc\x79\x3e\xe6\x49\x7c\x76\xdc\xc0\x3a\x98\xe1\x08"+ , vecAAD = ""+ , vecKey = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xff\xff\xff\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecCiphertext = "\xf3\xf8\x0f\x2c\xf0\xcb\x2d\xd9\xc5\x98\x4f\xcd\xa9\x08\x45\x6c\xc5\x37\x70\x3b\x5b\xa7\x03\x24\xa6\x79\x3a\x7b\xf2\x18\xd3\xea"+ }+ , Vector+ { vecPlaintext = "\xeb\x36\x40\x27\x7c\x7f\xfd\x13\x03\xc7\xa5\x42\xd0\x2d\x3e\x4c\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecAAD = ""+ , vecKey = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecNonce = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecTag = "\xff\xff\xff\xff\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00"+ , vecCiphertext = "\x18\xce\x4f\x0b\x8c\xb4\xd0\xca\xc6\x5f\xea\x8f\x79\x25\x7b\x20\x88\x8e\x53\xe7\x22\x99\xe5\x6d"+ }+ ]++makeEncryptionTest :: BlockCipher128 aes => Int -> Vector aes -> TestTree+makeEncryptionTest i vec@Vector{..} =+ testCase (show i) $+ (t, vecCiphertext) @=? encrypt (vecCipher vec) n vecAAD vecPlaintext+ where t = AuthTag (B.convert vecTag)+ n = throwCryptoError (nonce vecNonce)++makeDecryptionTest :: BlockCipher128 aes => Int -> Vector aes -> TestTree+makeDecryptionTest i vec@Vector{..} =+ testCase (show i) $+ Just vecPlaintext @=? decrypt (vecCipher vec) n vecAAD vecCiphertext t+ where t = AuthTag (B.convert vecTag)+ n = throwCryptoError (nonce vecNonce)++katTests :: TestName+ -> (forall c . BlockCipher128 c => Int -> Vector c -> TestTree)+ -> TestTree+katTests name makeTest = testGroup name+ [ testGroup "AES128" $ zipWith makeTest [1..] vectors128+ , testGroup "AES256" $ zipWith makeTest [1..] vectors256+ , testGroup "CounterWrap" $ zipWith makeTest [1..] vectorsWrap256+ ]++newtype Key c = Key ByteString+ deriving (Show,Eq)++instance Arbitrary (Key AES128) where+ arbitrary = Key <$> arbitraryBS 16++instance Arbitrary (Key AES256) where+ arbitrary = Key <$> arbitraryBS 32++instance Arbitrary Nonce where+ arbitrary = throwCryptoError . nonce <$> arbitraryBS 12++encDecTest :: BlockCipher128 c+ => Proxy c -> Key c -> Nonce+ -> ArbitraryBS0_2901 -> ArbitraryBS0_2901 -> Property+encDecTest prx (Key key) iv (ArbitraryBS0_2901 aad) (ArbitraryBS0_2901 input) =+ let c = throwCryptoError (cipherInit key) `asProxyTypeOf` prx+ (tag, ciphertext) = encrypt c iv aad input+ in decrypt c iv aad ciphertext tag === Just input++tests :: TestTree+tests = testGroup "AES-GCM-SIV"+ [ testGroup "KATs"+ [ katTests "encrypt" makeEncryptionTest+ , katTests "decrypt" makeDecryptionTest+ ]+ , testGroup "properties"+ [ testProperty "AES128" $ encDecTest (Proxy :: Proxy AES128)+ , testProperty "AES256" $ encDecTest (Proxy :: Proxy AES256)+ ]+ ]
tests/KAT_AFIS.hs view
@@ -23,8 +23,8 @@ ) ] -mergeKATs = map toProp $ zip mergeVec [(0 :: Int)..]- where toProp ((nbExpands, hashAlg, expected, dat), i) =+mergeKATs = zipWith toProp mergeVec [(0 :: Int)..]+ where toProp (nbExpands, hashAlg, expected, dat) i = testCase ("merge " ++ show i) (expected @=? AFIS.merge hashAlg nbExpands dat) data AFISParams = AFISParams B.ByteString Int SHA1 ChaChaDRG
+ tests/KAT_Argon2.hs view
@@ -0,0 +1,42 @@+{-# LANGUAGE OverloadedStrings #-}+module KAT_Argon2 (tests) where++import Crypto.Error+import qualified Crypto.KDF.Argon2 as Argon2+import qualified Data.ByteString as B+import Imports++data KDFVector = KDFVector+ { kdfPass :: ByteString+ , kdfSalt :: ByteString+ , kdfOptions :: Argon2.Options+ , kdfResult :: ByteString+ }++argon2i_13 :: Argon2.TimeCost -> Argon2.MemoryCost -> Argon2.Options+argon2i_13 iters memory = Argon2.Options+ { Argon2.iterations = iters+ , Argon2.memory = memory+ , Argon2.parallelism = 1+ , Argon2.variant = Argon2.Argon2i+ , Argon2.version = Argon2.Version13+ }++vectors =+ [ KDFVector "password" "somesalt" (argon2i_13 2 65536)+ "\xc1\x62\x88\x32\x14\x7d\x97\x20\xc5\xbd\x1c\xfd\x61\x36\x70\x78\x72\x9f\x6d\xfb\x6f\x8f\xea\x9f\xf9\x81\x58\xe0\xd7\x81\x6e\xd0"+ ]++kdfTests :: [TestTree]+kdfTests = zipWith toKDFTest is vectors+ where+ toKDFTest i v =+ testCase (show i)+ (CryptoPassed (kdfResult v) @=? Argon2.hash (kdfOptions v) (kdfPass v) (kdfSalt v) (B.length $ kdfResult v))++ is :: [Int]+ is = [1..]++tests = testGroup "Argon2"+ [ testGroup "KATs" kdfTests+ ]
+ tests/KAT_CAST5.hs view
@@ -0,0 +1,15 @@+{-# LANGUAGE OverloadedStrings #-}+module KAT_CAST5 (tests) where++import BlockCipher+import qualified Crypto.Cipher.CAST5 as CAST5++vectors_ecb = -- key plaintext ciphertext+ [ KAT_ECB "\x01\x23\x45\x67\x12\x34\x56\x78\x23\x45\x67\x89\x34\x56\x78\x9A" "\x01\x23\x45\x67\x89\xAB\xCD\xEF" "\x23\x8B\x4F\xE5\x84\x7E\x44\xB2"+ , KAT_ECB "\x01\x23\x45\x67\x12\x34\x56\x78\x23\x45" "\x01\x23\x45\x67\x89\xAB\xCD\xEF" "\xEB\x6A\x71\x1A\x2C\x02\x27\x1B"+ , KAT_ECB "\x01\x23\x45\x67\x12" "\x01\x23\x45\x67\x89\xAB\xCD\xEF" "\x7A\xC8\x16\xD1\x6E\x9B\x30\x2E"+ ]++kats = defaultKATs { kat_ECB = vectors_ecb }++tests = testBlockCipher kats (undefined :: CAST5.CAST5)
tests/KAT_Curve25519.hs view
@@ -16,6 +16,8 @@ katTests = [ testCase "0" (aliceMultBob @=? B.convert (Curve25519.dh alicePublic bobPrivate)) , testCase "1" (aliceMultBob @=? B.convert (Curve25519.dh bobPublic alicePrivate))+ , testCase "2" (alicePublic @=? Curve25519.toPublic alicePrivate)+ , testCase "3" (bobPublic @=? Curve25519.toPublic bobPrivate) ] tests = testGroup "Curve25519"
+ tests/KAT_Curve448.hs view
@@ -0,0 +1,25 @@+{-# LANGUAGE OverloadedStrings #-}+module KAT_Curve448 ( tests ) where++import Crypto.Error+import qualified Crypto.PubKey.Curve448 as Curve448+import Data.ByteArray as B+import Imports++alicePrivate = throwCryptoError $ Curve448.secretKey ("\x9a\x8f\x49\x25\xd1\x51\x9f\x57\x75\xcf\x46\xb0\x4b\x58\x00\xd4\xee\x9e\xe8\xba\xe8\xbc\x55\x65\xd4\x98\xc2\x8d\xd9\xc9\xba\xf5\x74\xa9\x41\x97\x44\x89\x73\x91\x00\x63\x82\xa6\xf1\x27\xab\x1d\x9a\xc2\xd8\xc0\xa5\x98\x72\x6b" :: ByteString)+alicePublic = throwCryptoError $ Curve448.publicKey ("\x9b\x08\xf7\xcc\x31\xb7\xe3\xe6\x7d\x22\xd5\xae\xa1\x21\x07\x4a\x27\x3b\xd2\xb8\x3d\xe0\x9c\x63\xfa\xa7\x3d\x2c\x22\xc5\xd9\xbb\xc8\x36\x64\x72\x41\xd9\x53\xd4\x0c\x5b\x12\xda\x88\x12\x0d\x53\x17\x7f\x80\xe5\x32\xc4\x1f\xa0" :: ByteString)+bobPrivate = throwCryptoError $ Curve448.secretKey ("\x1c\x30\x6a\x7a\xc2\xa0\xe2\xe0\x99\x0b\x29\x44\x70\xcb\xa3\x39\xe6\x45\x37\x72\xb0\x75\x81\x1d\x8f\xad\x0d\x1d\x69\x27\xc1\x20\xbb\x5e\xe8\x97\x2b\x0d\x3e\x21\x37\x4c\x9c\x92\x1b\x09\xd1\xb0\x36\x6f\x10\xb6\x51\x73\x99\x2d" :: ByteString)+bobPublic = throwCryptoError $ Curve448.publicKey ("\x3e\xb7\xa8\x29\xb0\xcd\x20\xf5\xbc\xfc\x0b\x59\x9b\x6f\xec\xcf\x6d\xa4\x62\x71\x07\xbd\xb0\xd4\xf3\x45\xb4\x30\x27\xd8\xb9\x72\xfc\x3e\x34\xfb\x42\x32\xa1\x3c\xa7\x06\xdc\xb5\x7a\xec\x3d\xae\x07\xbd\xc1\xc6\x7b\xf3\x36\x09" :: ByteString)+aliceMultBob = "\x07\xff\xf4\x18\x1a\xc6\xcc\x95\xec\x1c\x16\xa9\x4a\x0f\x74\xd1\x2d\xa2\x32\xce\x40\xa7\x75\x52\x28\x1d\x28\x2b\xb6\x0c\x0b\x56\xfd\x24\x64\xc3\x35\x54\x39\x36\x52\x1c\x24\x40\x30\x85\xd5\x9a\x44\x9a\x50\x37\x51\x4a\x87\x9d" :: ByteString++katTests :: [TestTree]+katTests =+ [ testCase "0" (aliceMultBob @=? B.convert (Curve448.dh alicePublic bobPrivate))+ , testCase "1" (aliceMultBob @=? B.convert (Curve448.dh bobPublic alicePrivate))+ , testCase "2" (alicePublic @=? Curve448.toPublic alicePrivate)+ , testCase "3" (bobPublic @=? Curve448.toPublic bobPrivate)+ ]++tests = testGroup "Curve448"+ [ testGroup "KATs" katTests+ ]
tests/KAT_Ed25519.hs view
@@ -1,5 +1,5 @@+{-# LANGUAGE BangPatterns #-} {-# LANGUAGE OverloadedStrings #-}-{-# LANGUAGE BangPatterns #-} module KAT_Ed25519 ( tests ) where import Crypto.Error@@ -13,26 +13,60 @@ , vecSig :: ByteString } deriving (Show,Eq) -vec1 = Vec- { vecSec = "\x4c\xcd\x08\x9b\x28\xff\x96\xda\x9d\xb6\xc3\x46\xec\x11\x4e\x0f\x5b\x8a\x31\x9f\x35\xab\xa6\x24\xda\x8c\xf6\xed\x4f\xb8\xa6\xfb"- , vecPub = "\x3d\x40\x17\xc3\xe8\x43\x89\x5a\x92\xb7\x0a\xa7\x4d\x1b\x7e\xbc\x9c\x98\x2c\xcf\x2e\xc4\x96\x8c\xc0\xcd\x55\xf1\x2a\xf4\x66\x0c"- , vecMsg = "\x72"- , vecSig = "\x92\xa0\x09\xa9\xf0\xd4\xca\xb8\x72\x0e\x82\x0b\x5f\x64\x25\x40\xa2\xb2\x7b\x54\x16\x50\x3f\x8f\xb3\x76\x22\x23\xeb\xdb\x69\xda\x08\x5a\xc1\xe4\x3e\x15\x99\x6e\x45\x8f\x36\x13\xd0\xf1\x1d\x8c\x38\x7b\x2e\xae\xb4\x30\x2a\xee\xb0\x0d\x29\x16\x12\xbb\x0c\x00"- }--testVec :: String -> Vec -> [TestTree]-testVec s vec =- [ testCase (s ++ " gen publickey") (pub @=? Ed25519.toPublic sec)- , testCase (s ++ " gen signature") (sig @=? Ed25519.sign sec pub (vecMsg vec))+vectors =+ [ Vec+ { vecSec = "\x9d\x61\xb1\x9d\xef\xfd\x5a\x60\xba\x84\x4a\xf4\x92\xec\x2c\xc4\x44\x49\xc5\x69\x7b\x32\x69\x19\x70\x3b\xac\x03\x1c\xae\x7f\x60"+ , vecPub = "\xd7\x5a\x98\x01\x82\xb1\x0a\xb7\xd5\x4b\xfe\xd3\xc9\x64\x07\x3a\x0e\xe1\x72\xf3\xda\xa6\x23\x25\xaf\x02\x1a\x68\xf7\x07\x51\x1a"+ , vecMsg = ""+ , vecSig = "\xe5\x56\x43\x00\xc3\x60\xac\x72\x90\x86\xe2\xcc\x80\x6e\x82\x8a\x84\x87\x7f\x1e\xb8\xe5\xd9\x74\xd8\x73\xe0\x65\x22\x49\x01\x55\x5f\xb8\x82\x15\x90\xa3\x3b\xac\xc6\x1e\x39\x70\x1c\xf9\xb4\x6b\xd2\x5b\xf5\xf0\x59\x5b\xbe\x24\x65\x51\x41\x43\x8e\x7a\x10\x0b"+ }+ , Vec+ { vecSec = "\x4c\xcd\x08\x9b\x28\xff\x96\xda\x9d\xb6\xc3\x46\xec\x11\x4e\x0f\x5b\x8a\x31\x9f\x35\xab\xa6\x24\xda\x8c\xf6\xed\x4f\xb8\xa6\xfb"+ , vecPub = "\x3d\x40\x17\xc3\xe8\x43\x89\x5a\x92\xb7\x0a\xa7\x4d\x1b\x7e\xbc\x9c\x98\x2c\xcf\x2e\xc4\x96\x8c\xc0\xcd\x55\xf1\x2a\xf4\x66\x0c"+ , vecMsg = "\x72"+ , vecSig = "\x92\xa0\x09\xa9\xf0\xd4\xca\xb8\x72\x0e\x82\x0b\x5f\x64\x25\x40\xa2\xb2\x7b\x54\x16\x50\x3f\x8f\xb3\x76\x22\x23\xeb\xdb\x69\xda\x08\x5a\xc1\xe4\x3e\x15\x99\x6e\x45\x8f\x36\x13\xd0\xf1\x1d\x8c\x38\x7b\x2e\xae\xb4\x30\x2a\xee\xb0\x0d\x29\x16\x12\xbb\x0c\x00"+ }+ , Vec+ { vecSec = "\xc5\xaa\x8d\xf4\x3f\x9f\x83\x7b\xed\xb7\x44\x2f\x31\xdc\xb7\xb1\x66\xd3\x85\x35\x07\x6f\x09\x4b\x85\xce\x3a\x2e\x0b\x44\x58\xf7"+ , vecPub = "\xfc\x51\xcd\x8e\x62\x18\xa1\xa3\x8d\xa4\x7e\xd0\x02\x30\xf0\x58\x08\x16\xed\x13\xba\x33\x03\xac\x5d\xeb\x91\x15\x48\x90\x80\x25"+ , vecMsg = "\xaf\x82"+ , vecSig = "\x62\x91\xd6\x57\xde\xec\x24\x02\x48\x27\xe6\x9c\x3a\xbe\x01\xa3\x0c\xe5\x48\xa2\x84\x74\x3a\x44\x5e\x36\x80\xd7\xdb\x5a\xc3\xac\x18\xff\x9b\x53\x8d\x16\xf2\x90\xae\x67\xf7\x60\x98\x4d\xc6\x59\x4a\x7c\x15\xe9\x71\x6e\xd2\x8d\xc0\x27\xbe\xce\xea\x1e\xc4\x0a"+ }+ , Vec+ { vecSec = "\xf5\xe5\x76\x7c\xf1\x53\x31\x95\x17\x63\x0f\x22\x68\x76\xb8\x6c\x81\x60\xcc\x58\x3b\xc0\x13\x74\x4c\x6b\xf2\x55\xf5\xcc\x0e\xe5"+ , vecPub = "\x27\x81\x17\xfc\x14\x4c\x72\x34\x0f\x67\xd0\xf2\x31\x6e\x83\x86\xce\xff\xbf\x2b\x24\x28\xc9\xc5\x1f\xef\x7c\x59\x7f\x1d\x42\x6e"+ , vecMsg = 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, vecSig = "\x0a\xab\x4c\x90\x05\x01\xb3\xe2\x4d\x7c\xdf\x46\x63\x32\x6a\x3a\x87\xdf\x5e\x48\x43\xb2\xcb\xdb\x67\xcb\xf6\xe4\x60\xfe\xc3\x50\xaa\x53\x71\xb1\x50\x8f\x9f\x45\x28\xec\xea\x23\xc4\x36\xd9\x4b\x5e\x8f\xcd\x4f\x68\x1e\x30\xa6\xac\x00\xa9\x70\x4a\x18\x8a\x03"+ }+ , Vec+ { vecSec = "\x83\x3f\xe6\x24\x09\x23\x7b\x9d\x62\xec\x77\x58\x75\x20\x91\x1e\x9a\x75\x9c\xec\x1d\x19\x75\x5b\x7d\xa9\x01\xb9\x6d\xca\x3d\x42"+ , vecPub = "\xec\x17\x2b\x93\xad\x5e\x56\x3b\xf4\x93\x2c\x70\xe1\x24\x50\x34\xc3\x54\x67\xef\x2e\xfd\x4d\x64\xeb\xf8\x19\x68\x34\x67\xe2\xbf"+ , vecMsg = "\xdd\xaf\x35\xa1\x93\x61\x7a\xba\xcc\x41\x73\x49\xae\x20\x41\x31\x12\xe6\xfa\x4e\x89\xa9\x7e\xa2\x0a\x9e\xee\xe6\x4b\x55\xd3\x9a\x21\x92\x99\x2a\x27\x4f\xc1\xa8\x36\xba\x3c\x23\xa3\xfe\xeb\xbd\x45\x4d\x44\x23\x64\x3c\xe8\x0e\x2a\x9a\xc9\x4f\xa5\x4c\xa4\x9f"+ , vecSig = "\xdc\x2a\x44\x59\xe7\x36\x96\x33\xa5\x2b\x1b\xf2\x77\x83\x9a\x00\x20\x10\x09\xa3\xef\xbf\x3e\xcb\x69\xbe\xa2\x18\x6c\x26\xb5\x89\x09\x35\x1f\xc9\xac\x90\xb3\xec\xfd\xfb\xc7\xc6\x64\x31\xe0\x30\x3d\xca\x17\x9c\x13\x8a\xc1\x7a\xd9\xbe\xf1\x17\x73\x31\xa7\x04"+ } ]+++doPublicKeyTest i vec = testCase (show i) (pub @=? Ed25519.toPublic sec) where+ !pub = throwCryptoError $ Ed25519.publicKey (vecPub vec)+ !sec = throwCryptoError $ Ed25519.secretKey (vecSec vec)++doSignatureTest i vec = testCase (show i) (sig @=? Ed25519.sign sec pub (vecMsg vec))+ where !sig = throwCryptoError $ Ed25519.signature (vecSig vec) !pub = throwCryptoError $ Ed25519.publicKey (vecPub vec) !sec = throwCryptoError $ Ed25519.secretKey (vecSec vec) -katTests :: [TestTree]-katTests = testVec "vec 1" vec1+doVerifyTest i vec = testCase (show i) (True @=? Ed25519.verify pub (vecMsg vec) sig)+ where+ !sig = throwCryptoError $ Ed25519.signature (vecSig vec)+ !pub = throwCryptoError $ Ed25519.publicKey (vecPub vec) + tests = testGroup "Ed25519"- [ testGroup "KATs" katTests+ [ testCase "gen secretkey" (Ed25519.generateSecretKey *> pure ())+ , testGroup "gen publickey" $ zipWith doPublicKeyTest [katZero..] vectors+ , testGroup "gen signature" $ zipWith doSignatureTest [katZero..] vectors+ , testGroup "verify sig" $ zipWith doVerifyTest [katZero..] vectors ]
tests/KAT_Ed448.hs view
@@ -1,25 +1,90 @@ {-# LANGUAGE OverloadedStrings #-}+{-# LANGUAGE BangPatterns #-} module KAT_Ed448 ( tests ) where import Crypto.Error import qualified Crypto.PubKey.Ed448 as Ed448-import Data.ByteArray as B import Imports -alicePrivate = throwCryptoError $ Ed448.secretKey ("\x9a\x8f\x49\x25\xd1\x51\x9f\x57\x75\xcf\x46\xb0\x4b\x58\x00\xd4\xee\x9e\xe8\xba\xe8\xbc\x55\x65\xd4\x98\xc2\x8d\xd9\xc9\xba\xf5\x74\xa9\x41\x97\x44\x89\x73\x91\x00\x63\x82\xa6\xf1\x27\xab\x1d\x9a\xc2\xd8\xc0\xa5\x98\x72\x6b" :: ByteString)-alicePublic = throwCryptoError $ Ed448.publicKey ("\x9b\x08\xf7\xcc\x31\xb7\xe3\xe6\x7d\x22\xd5\xae\xa1\x21\x07\x4a\x27\x3b\xd2\xb8\x3d\xe0\x9c\x63\xfa\xa7\x3d\x2c\x22\xc5\xd9\xbb\xc8\x36\x64\x72\x41\xd9\x53\xd4\x0c\x5b\x12\xda\x88\x12\x0d\x53\x17\x7f\x80\xe5\x32\xc4\x1f\xa0" :: ByteString)-bobPrivate = throwCryptoError $ Ed448.secretKey ("\x1c\x30\x6a\x7a\xc2\xa0\xe2\xe0\x99\x0b\x29\x44\x70\xcb\xa3\x39\xe6\x45\x37\x72\xb0\x75\x81\x1d\x8f\xad\x0d\x1d\x69\x27\xc1\x20\xbb\x5e\xe8\x97\x2b\x0d\x3e\x21\x37\x4c\x9c\x92\x1b\x09\xd1\xb0\x36\x6f\x10\xb6\x51\x73\x99\x2d" :: ByteString)-bobPublic = throwCryptoError $ Ed448.publicKey ("\x3e\xb7\xa8\x29\xb0\xcd\x20\xf5\xbc\xfc\x0b\x59\x9b\x6f\xec\xcf\x6d\xa4\x62\x71\x07\xbd\xb0\xd4\xf3\x45\xb4\x30\x27\xd8\xb9\x72\xfc\x3e\x34\xfb\x42\x32\xa1\x3c\xa7\x06\xdc\xb5\x7a\xec\x3d\xae\x07\xbd\xc1\xc6\x7b\xf3\x36\x09" :: ByteString)-aliceMultBob = "\x07\xff\xf4\x18\x1a\xc6\xcc\x95\xec\x1c\x16\xa9\x4a\x0f\x74\xd1\x2d\xa2\x32\xce\x40\xa7\x75\x52\x28\x1d\x28\x2b\xb6\x0c\x0b\x56\xfd\x24\x64\xc3\x35\x54\x39\x36\x52\x1c\x24\x40\x30\x85\xd5\x9a\x44\x9a\x50\x37\x51\x4a\x87\x9d" :: ByteString+data Vec = Vec+ { vecSec :: ByteString+ , vecPub :: ByteString+ , vecMsg :: ByteString+ , vecSig :: ByteString+ } deriving (Show,Eq) -katTests :: [TestTree]-katTests =- [ testCase "0" (aliceMultBob @=? B.convert (Ed448.dh alicePublic bobPrivate))- , testCase "1" (aliceMultBob @=? B.convert (Ed448.dh bobPublic alicePrivate))- , testCase "2" (alicePublic @=? Ed448.toPublic alicePrivate)- , testCase "3" (bobPublic @=? Ed448.toPublic bobPrivate)+vectors =+ [ Vec+ { vecSec = "\x6c\x82\xa5\x62\xcb\x80\x8d\x10\xd6\x32\xbe\x89\xc8\x51\x3e\xbf\x6c\x92\x9f\x34\xdd\xfa\x8c\x9f\x63\xc9\x96\x0e\xf6\xe3\x48\xa3\x52\x8c\x8a\x3f\xcc\x2f\x04\x4e\x39\xa3\xfc\x5b\x94\x49\x2f\x8f\x03\x2e\x75\x49\xa2\x00\x98\xf9\x5b"+ , vecPub = "\x5f\xd7\x44\x9b\x59\xb4\x61\xfd\x2c\xe7\x87\xec\x61\x6a\xd4\x6a\x1d\xa1\x34\x24\x85\xa7\x0e\x1f\x8a\x0e\xa7\x5d\x80\xe9\x67\x78\xed\xf1\x24\x76\x9b\x46\xc7\x06\x1b\xd6\x78\x3d\xf1\xe5\x0f\x6c\xd1\xfa\x1a\xbe\xaf\xe8\x25\x61\x80"+ , vecMsg = ""+ , vecSig = "\x53\x3a\x37\xf6\xbb\xe4\x57\x25\x1f\x02\x3c\x0d\x88\xf9\x76\xae\x2d\xfb\x50\x4a\x84\x3e\x34\xd2\x07\x4f\xd8\x23\xd4\x1a\x59\x1f\x2b\x23\x3f\x03\x4f\x62\x82\x81\xf2\xfd\x7a\x22\xdd\xd4\x7d\x78\x28\xc5\x9b\xd0\xa2\x1b\xfd\x39\x80\xff\x0d\x20\x28\xd4\xb1\x8a\x9d\xf6\x3e\x00\x6c\x5d\x1c\x2d\x34\x5b\x92\x5d\x8d\xc0\x0b\x41\x04\x85\x2d\xb9\x9a\xc5\xc7\xcd\xda\x85\x30\xa1\x13\xa0\xf4\xdb\xb6\x11\x49\xf0\x5a\x73\x63\x26\x8c\x71\xd9\x58\x08\xff\x2e\x65\x26\x00"+ }+ , Vec+ { vecSec = "\xc4\xea\xb0\x5d\x35\x70\x07\xc6\x32\xf3\xdb\xb4\x84\x89\x92\x4d\x55\x2b\x08\xfe\x0c\x35\x3a\x0d\x4a\x1f\x00\xac\xda\x2c\x46\x3a\xfb\xea\x67\xc5\xe8\xd2\x87\x7c\x5e\x3b\xc3\x97\xa6\x59\x94\x9e\xf8\x02\x1e\x95\x4e\x0a\x12\x27\x4e"+ , vecPub = "\x43\xba\x28\xf4\x30\xcd\xff\x45\x6a\xe5\x31\x54\x5f\x7e\xcd\x0a\xc8\x34\xa5\x5d\x93\x58\xc0\x37\x2b\xfa\x0c\x6c\x67\x98\xc0\x86\x6a\xea\x01\xeb\x00\x74\x28\x02\xb8\x43\x8e\xa4\xcb\x82\x16\x9c\x23\x51\x60\x62\x7b\x4c\x3a\x94\x80"+ , vecMsg = "\x03"+ , vecSig = "\x26\xb8\xf9\x17\x27\xbd\x62\x89\x7a\xf1\x5e\x41\xeb\x43\xc3\x77\xef\xb9\xc6\x10\xd4\x8f\x23\x35\xcb\x0b\xd0\x08\x78\x10\xf4\x35\x25\x41\xb1\x43\xc4\xb9\x81\xb7\xe1\x8f\x62\xde\x8c\xcd\xf6\x33\xfc\x1b\xf0\x37\xab\x7c\xd7\x79\x80\x5e\x0d\xbc\xc0\xaa\xe1\xcb\xce\xe1\xaf\xb2\xe0\x27\xdf\x36\xbc\x04\xdc\xec\xbf\x15\x43\x36\xc1\x9f\x0a\xf7\xe0\xa6\x47\x29\x05\xe7\x99\xf1\x95\x3d\x2a\x0f\xf3\x34\x8a\xb2\x1a\xa4\xad\xaf\xd1\xd2\x34\x44\x1c\xf8\x07\xc0\x3a\x00"+ }+ , Vec+ { vecSec = "\xcd\x23\xd2\x4f\x71\x42\x74\xe7\x44\x34\x32\x37\xb9\x32\x90\xf5\x11\xf6\x42\x5f\x98\xe6\x44\x59\xff\x20\x3e\x89\x85\x08\x3f\xfd\xf6\x05\x00\x55\x3a\xbc\x0e\x05\xcd\x02\x18\x4b\xdb\x89\xc4\xcc\xd6\x7e\x18\x79\x51\x26\x7e\xb3\x28"+ , vecPub = "\xdc\xea\x9e\x78\xf3\x5a\x1b\xf3\x49\x9a\x83\x1b\x10\xb8\x6c\x90\xaa\xc0\x1c\xd8\x4b\x67\xa0\x10\x9b\x55\xa3\x6e\x93\x28\xb1\xe3\x65\xfc\xe1\x61\xd7\x1c\xe7\x13\x1a\x54\x3e\xa4\xcb\x5f\x7e\x9f\x1d\x8b\x00\x69\x64\x47\x00\x14\x00"+ , vecMsg = "\x0c\x3e\x54\x40\x74\xec\x63\xb0\x26\x5e\x0c"+ , vecSig = "\x1f\x0a\x88\x88\xce\x25\xe8\xd4\x58\xa2\x11\x30\x87\x9b\x84\x0a\x90\x89\xd9\x99\xaa\xba\x03\x9e\xaf\x3e\x3a\xfa\x09\x0a\x09\xd3\x89\xdb\xa8\x2c\x4f\xf2\xae\x8a\xc5\xcd\xfb\x7c\x55\xe9\x4d\x5d\x96\x1a\x29\xfe\x01\x09\x94\x1e\x00\xb8\xdb\xde\xea\x6d\x3b\x05\x10\x68\xdf\x72\x54\xc0\xcd\xc1\x29\xcb\xe6\x2d\xb2\xdc\x95\x7d\xbb\x47\xb5\x1f\xd3\xf2\x13\xfb\x86\x98\xf0\x64\x77\x42\x50\xa5\x02\x89\x61\xc9\xbf\x8f\xfd\x97\x3f\xe5\xd5\xc2\x06\x49\x2b\x14\x0e\x00"+ }+ , Vec+ { vecSec = "\x25\x8c\xdd\x4a\xda\x32\xed\x9c\x9f\xf5\x4e\x63\x75\x6a\xe5\x82\xfb\x8f\xab\x2a\xc7\x21\xf2\xc8\xe6\x76\xa7\x27\x68\x51\x3d\x93\x9f\x63\xdd\xdb\x55\x60\x91\x33\xf2\x9a\xdf\x86\xec\x99\x29\xdc\xcb\x52\xc1\xc5\xfd\x2f\xf7\xe2\x1b"+ , vecPub = "\x3b\xa1\x6d\xa0\xc6\xf2\xcc\x1f\x30\x18\x77\x40\x75\x6f\x5e\x79\x8d\x6b\xc5\xfc\x01\x5d\x7c\x63\xcc\x95\x10\xee\x3f\xd4\x4a\xdc\x24\xd8\xe9\x68\xb6\xe4\x6e\x6f\x94\xd1\x9b\x94\x53\x61\x72\x6b\xd7\x5e\x14\x9e\xf0\x98\x17\xf5\x80"+ , vecMsg = "\x64\xa6\x5f\x3c\xde\xdc\xdd\x66\x81\x1e\x29\x15"+ , vecSig = "\x7e\xee\xab\x7c\x4e\x50\xfb\x79\x9b\x41\x8e\xe5\xe3\x19\x7f\xf6\xbf\x15\xd4\x3a\x14\xc3\x43\x89\xb5\x9d\xd1\xa7\xb1\xb8\x5b\x4a\xe9\x04\x38\xac\xa6\x34\xbe\xa4\x5e\x3a\x26\x95\xf1\x27\x0f\x07\xfd\xcd\xf7\xc6\x2b\x8e\xfe\xaf\x00\xb4\x5c\x2c\x96\xba\x45\x7e\xb1\xa8\xbf\x07\x5a\x3d\xb2\x8e\x5c\x24\xf6\xb9\x23\xed\x4a\xd7\x47\xc3\xc9\xe0\x3c\x70\x79\xef\xb8\x7c\xb1\x10\xd3\xa9\x98\x61\xe7\x20\x03\xcb\xae\x6d\x6b\x8b\x82\x7e\x4e\x6c\x14\x30\x64\xff\x3c\x00"+ }+ , Vec+ { vecSec = "\x7e\xf4\xe8\x45\x44\x23\x67\x52\xfb\xb5\x6b\x8f\x31\xa2\x3a\x10\xe4\x28\x14\xf5\xf5\x5c\xa0\x37\xcd\xcc\x11\xc6\x4c\x9a\x3b\x29\x49\xc1\xbb\x60\x70\x03\x14\x61\x17\x32\xa6\xc2\xfe\xa9\x8e\xeb\xc0\x26\x6a\x11\xa9\x39\x70\x10\x0e"+ , vecPub = "\xb3\xda\x07\x9b\x0a\xa4\x93\xa5\x77\x20\x29\xf0\x46\x7b\xae\xbe\xe5\xa8\x11\x2d\x9d\x3a\x22\x53\x23\x61\xda\x29\x4f\x7b\xb3\x81\x5c\x5d\xc5\x9e\x17\x6b\x4d\x9f\x38\x1c\xa0\x93\x8e\x13\xc6\xc0\x7b\x17\x4b\xe6\x5d\xfa\x57\x8e\x80"+ , vecMsg = "\x64\xa6\x5f\x3c\xde\xdc\xdd\x66\x81\x1e\x29\x15\xe7"+ , vecSig = "\x6a\x12\x06\x6f\x55\x33\x1b\x6c\x22\xac\xd5\xd5\xbf\xc5\xd7\x12\x28\xfb\xda\x80\xae\x8d\xec\x26\xbd\xd3\x06\x74\x3c\x50\x27\xcb\x48\x90\x81\x0c\x16\x2c\x02\x74\x68\x67\x5e\xcf\x64\x5a\x83\x17\x6c\x0d\x73\x23\xa2\xcc\xde\x2d\x80\xef\xe5\xa1\x26\x8e\x8a\xca\x1d\x6f\xbc\x19\x4d\x3f\x77\xc4\x49\x86\xeb\x4a\xb4\x17\x79\x19\xad\x8b\xec\x33\xeb\x47\xbb\xb5\xfc\x6e\x28\x19\x6f\xd1\xca\xf5\x6b\x4e\x7e\x0b\xa5\x51\x92\x34\xd0\x47\x15\x5a\xc7\x27\xa1\x05\x31\x00"+ }+ , Vec+ { vecSec = "\xd6\x5d\xf3\x41\xad\x13\xe0\x08\x56\x76\x88\xba\xed\xda\x8e\x9d\xcd\xc1\x7d\xc0\x24\x97\x4e\xa5\xb4\x22\x7b\x65\x30\xe3\x39\xbf\xf2\x1f\x99\xe6\x8c\xa6\x96\x8f\x3c\xca\x6d\xfe\x0f\xb9\xf4\xfa\xb4\xfa\x13\x5d\x55\x42\xea\x3f\x01"+ , vecPub = "\xdf\x97\x05\xf5\x8e\xdb\xab\x80\x2c\x7f\x83\x63\xcf\xe5\x56\x0a\xb1\xc6\x13\x2c\x20\xa9\xf1\xdd\x16\x34\x83\xa2\x6f\x8a\xc5\x3a\x39\xd6\x80\x8b\xf4\xa1\xdf\xbd\x26\x1b\x09\x9b\xb0\x3b\x3f\xb5\x09\x06\xcb\x28\xbd\x8a\x08\x1f\x00"+ , vecMsg = "\xbd\x0f\x6a\x37\x47\xcd\x56\x1b\xdd\xdf\x46\x40\xa3\x32\x46\x1a\x4a\x30\xa1\x2a\x43\x4c\xd0\xbf\x40\xd7\x66\xd9\xc6\xd4\x58\xe5\x51\x22\x04\xa3\x0c\x17\xd1\xf5\x0b\x50\x79\x63\x1f\x64\xeb\x31\x12\x18\x2d\xa3\x00\x58\x35\x46\x11\x13\x71\x8d\x1a\x5e\xf9\x44"+ , vecSig = "\x55\x4b\xc2\x48\x08\x60\xb4\x9e\xab\x85\x32\xd2\xa5\x33\xb7\xd5\x78\xef\x47\x3e\xeb\x58\xc9\x8b\xb2\xd0\xe1\xce\x48\x8a\x98\xb1\x8d\xfd\xe9\xb9\xb9\x07\x75\xe6\x7f\x47\xd4\xa1\xc3\x48\x20\x58\xef\xc9\xf4\x0d\x2c\xa0\x33\xa0\x80\x1b\x63\xd4\x5b\x3b\x72\x2e\xf5\x52\xba\xd3\xb4\xcc\xb6\x67\xda\x35\x01\x92\xb6\x1c\x50\x8c\xf7\xb6\xb5\xad\xad\xc2\xc8\xd9\xa4\x46\xef\x00\x3f\xb0\x5c\xba\x5f\x30\xe8\x8e\x36\xec\x27\x03\xb3\x49\xca\x22\x9c\x26\x70\x83\x39\x00"+ }+ , Vec+ { vecSec = "\x2e\xc5\xfe\x3c\x17\x04\x5a\xbd\xb1\x36\xa5\xe6\xa9\x13\xe3\x2a\xb7\x5a\xe6\x8b\x53\xd2\xfc\x14\x9b\x77\xe5\x04\x13\x2d\x37\x56\x9b\x7e\x76\x6b\xa7\x4a\x19\xbd\x61\x62\x34\x3a\x21\xc8\x59\x0a\xa9\xce\xbc\xa9\x01\x4c\x63\x6d\xf5"+ , vecPub = "\x79\x75\x6f\x01\x4d\xcf\xe2\x07\x9f\x5d\xd9\xe7\x18\xbe\x41\x71\xe2\xef\x24\x86\xa0\x8f\x25\x18\x6f\x6b\xff\x43\xa9\x93\x6b\x9b\xfe\x12\x40\x2b\x08\xae\x65\x79\x8a\x3d\x81\xe2\x2e\x9e\xc8\x0e\x76\x90\x86\x2e\xf3\xd4\xed\x3a\x00"+ , vecMsg = "\x15\x77\x75\x32\xb0\xbd\xd0\xd1\x38\x9f\x63\x6c\x5f\x6b\x9b\xa7\x34\xc9\x0a\xf5\x72\x87\x7e\x2d\x27\x2d\xd0\x78\xaa\x1e\x56\x7c\xfa\x80\xe1\x29\x28\xbb\x54\x23\x30\xe8\x40\x9f\x31\x74\x50\x41\x07\xec\xd5\xef\xac\x61\xae\x75\x04\xda\xbe\x2a\x60\x2e\xde\x89\xe5\xcc\xa6\x25\x7a\x7c\x77\xe2\x7a\x70\x2b\x3a\xe3\x9f\xc7\x69\xfc\x54\xf2\x39\x5a\xe6\xa1\x17\x8c\xab\x47\x38\xe5\x43\x07\x2f\xc1\xc1\x77\xfe\x71\xe9\x2e\x25\xbf\x03\xe4\xec\xb7\x2f\x47\xb6\x4d\x04\x65\xaa\xea\x4c\x7f\xad\x37\x25\x36\xc8\xba\x51\x6a\x60\x39\xc3\xc2\xa3\x9f\x0e\x4d\x83\x2b\xe4\x32\xdf\xa9\xa7\x06\xa6\xe5\xc7\xe1\x9f\x39\x79\x64\xca\x42\x58\x00\x2f\x7c\x05\x41\xb5\x90\x31\x6d\xbc\x56\x22\xb6\xb2\xa6\xfe\x7a\x4a\xbf\xfd\x96\x10\x5e\xca\x76\xea\x7b\x98\x81\x6a\xf0\x74\x8c\x10\xdf\x04\x8c\xe0\x12\xd9\x01\x01\x5a\x51\xf1\x89\xf3\x88\x81\x45\xc0\x36\x50\xaa\x23\xce\x89\x4c\x3b\xd8\x89\xe0\x30\xd5\x65\x07\x1c\x59\xf4\x09\xa9\x98\x1b\x51\x87\x8f\xd6\xfc\x11\x06\x24\xdc\xbc\xde\x0b\xf7\xa6\x9c\xcc\xe3\x8f\xab\xdf\x86\xf3\xbe\xf6\x04\x48\x19\xde\x11"+ , vecSig = "\xc6\x50\xdd\xbb\x06\x01\xc1\x9c\xa1\x14\x39\xe1\x64\x0d\xd9\x31\xf4\x3c\x51\x8e\xa5\xbe\xa7\x0d\x3d\xcd\xe5\xf4\x19\x1f\xe5\x3f\x00\xcf\x96\x65\x46\xb7\x2b\xcc\x7d\x58\xbe\x2b\x9b\xad\xef\x28\x74\x39\x54\xe3\xa4\x4a\x23\xf8\x80\xe8\xd4\xf1\xcf\xce\x2d\x7a\x61\x45\x2d\x26\xda\x05\x89\x6f\x0a\x50\xda\x66\xa2\x39\xa8\xa1\x88\xb6\xd8\x25\xb3\x30\x5a\xd7\x7b\x73\xfb\xac\x08\x36\xec\xc6\x09\x87\xfd\x08\x52\x7c\x1a\x8e\x80\xd5\x82\x3e\x65\xca\xfe\x2a\x3d\x00"+ }+ , Vec+ { vecSec = "\x87\x2d\x09\x37\x80\xf5\xd3\x73\x0d\xf7\xc2\x12\x66\x4b\x37\xb8\xa0\xf2\x4f\x56\x81\x0d\xaa\x83\x82\xcd\x4f\xa3\xf7\x76\x34\xec\x44\xdc\x54\xf1\xc2\xed\x9b\xea\x86\xfa\xfb\x76\x32\xd8\xbe\x19\x9e\xa1\x65\xf5\xad\x55\xdd\x9c\xe8"+ , vecPub = "\xa8\x1b\x2e\x8a\x70\xa5\xac\x94\xff\xdb\xcc\x9b\xad\xfc\x3f\xeb\x08\x01\xf2\x58\x57\x8b\xb1\x14\xad\x44\xec\xe1\xec\x0e\x79\x9d\xa0\x8e\xff\xb8\x1c\x5d\x68\x5c\x0c\x56\xf6\x4e\xec\xae\xf8\xcd\xf1\x1c\xc3\x87\x37\x83\x8c\xf4\x00"+ , vecMsg = "\x6d\xdf\x80\x2e\x1a\xae\x49\x86\x93\x5f\x7f\x98\x1b\xa3\xf0\x35\x1d\x62\x73\xc0\xa0\xc2\x2c\x9c\x0e\x83\x39\x16\x8e\x67\x54\x12\xa3\xde\xbf\xaf\x43\x5e\xd6\x51\x55\x80\x07\xdb\x43\x84\xb6\x50\xfc\xc0\x7e\x3b\x58\x6a\x27\xa4\xf7\xa0\x0a\xc8\xa6\xfe\xc2\xcd\x86\xae\x4b\xf1\x57\x0c\x41\xe6\xa4\x0c\x93\x1d\xb2\x7b\x2f\xaa\x15\xa8\xce\xdd\x52\xcf\xf7\x36\x2c\x4e\x6e\x23\xda\xec\x0f\xbc\x3a\x79\xb6\x80\x6e\x31\x6e\xfc\xc7\xb6\x81\x19\xbf\x46\xbc\x76\xa2\x60\x67\xa5\x3f\x29\x6d\xaf\xdb\xdc\x11\xc7\x7f\x77\x77\xe9\x72\x66\x0c\xf4\xb6\xa9\xb3\x69\xa6\x66\x5f\x02\xe0\xcc\x9b\x6e\xdf\xad\x13\x6b\x4f\xab\xe7\x23\xd2\x81\x3d\xb3\x13\x6c\xfd\xe9\xb6\xd0\x44\x32\x2f\xee\x29\x47\x95\x2e\x03\x1b\x73\xab\x5c\x60\x33\x49\xb3\x07\xbd\xc2\x7b\xc6\xcb\x8b\x8b\xbd\x7b\xd3\x23\x21\x9b\x80\x33\xa5\x81\xb5\x9e\xad\xeb\xb0\x9b\x3c\x4f\x3d\x22\x77\xd4\xf0\x34\x36\x24\xac\xc8\x17\x80\x47\x28\xb2\x5a\xb7\x97\x17\x2b\x4c\x5c\x21\xa2\x2f\x9c\x78\x39\xd6\x43\x00\x23\x2e\xb6\x6e\x53\xf3\x1c\x72\x3f\xa3\x7f\xe3\x87\xc7\xd3\xe5\x0b\xdf\x98\x13\xa3\x0e\x5b\xb1\x2c\xf4\xcd\x93\x0c\x40\xcf\xb4\xe1\xfc\x62\x25\x92\xa4\x95\x88\x79\x44\x94\xd5\x6d\x24\xea\x4b\x40\xc8\x9f\xc0\x59\x6c\xc9\xeb\xb9\x61\xc8\xcb\x10\xad\xde\x97\x6a\x5d\x60\x2b\x1c\x3f\x85\xb9\xb9\xa0\x01\xed\x3c\x6a\x4d\x3b\x14\x37\xf5\x20\x96\xcd\x19\x56\xd0\x42\xa5\x97\xd5\x61\xa5\x96\xec\xd3\xd1\x73\x5a\x8d\x57\x0e\xa0\xec\x27\x22\x5a\x2c\x4a\xaf\xf2\x63\x06\xd1\x52\x6c\x1a\xf3\xca\x6d\x9c\xf5\xa2\xc9\x8f\x47\xe1\xc4\x6d\xb9\xa3\x32\x34\xcf\xd4\xd8\x1f\x2c\x98\x53\x8a\x09\xeb\xe7\x69\x98\xd0\xd8\xfd\x25\x99\x7c\x7d\x25\x5c\x6d\x66\xec\xe6\xfa\x56\xf1\x11\x44\x95\x0f\x02\x77\x95\xe6\x53\x00\x8f\x4b\xd7\xca\x2d\xee\x85\xd8\xe9\x0f\x3d\xc3\x15\x13\x0c\xe2\xa0\x03\x75\xa3\x18\xc7\xc3\xd9\x7b\xe2\xc8\xce\x5b\x6d\xb4\x1a\x62\x54\xff\x26\x4f\xa6\x15\x5b\xae\xe3\xb0\x77\x3c\x0f\x49\x7c\x57\x3f\x19\xbb\x4f\x42\x40\x28\x1f\x0b\x1f\x4f\x7b\xe8\x57\xa4\xe5\x9d\x41\x6c\x06\xb4\xc5\x0f\xa0\x9e\x18\x10\xdd\xc6\xb1\x46\x7b\xae\xac\x5a\x36\x68\xd1\x1b\x6e\xca\xa9\x01\x44\x00\x16\xf3\x89\xf8\x0a\xcc\x4d\xb9\x77\x02\x5e\x7f\x59\x24\x38\x8c\x7e\x34\x0a\x73\x2e\x55\x44\x40\xe7\x65\x70\xf8\xdd\x71\xb7\xd6\x40\xb3\x45\x0d\x1f\xd5\xf0\x41\x0a\x18\xf9\xa3\x49\x4f\x70\x7c\x71\x7b\x79\xb4\xbf\x75\xc9\x84\x00\xb0\x96\xb2\x16\x53\xb5\xd2\x17\xcf\x35\x65\xc9\x59\x74\x56\xf7\x07\x03\x49\x7a\x07\x87\x63\x82\x9b\xc0\x1b\xb1\xcb\xc8\xfa\x04\xea\xdc\x9a\x6e\x3f\x66\x99\x58\x7a\x9e\x75\xc9\x4e\x5b\xab\x00\x36\xe0\xb2\xe7\x11\x39\x2c\xff\x00\x47\xd0\xd6\xb0\x5b\xd2\xa5\x88\xbc\x10\x97\x18\x95\x42\x59\xf1\xd8\x66\x78\xa5\x79\xa3\x12\x0f\x19\xcf\xb2\x96\x3f\x17\x7a\xeb\x70\xf2\xd4\x84\x48\x26\x26\x2e\x51\xb8\x02\x71\x27\x20\x68\xef\x5b\x38\x56\xfa\x85\x35\xaa\x2a\x88\xb2\xd4\x1f\x2a\x0e\x2f\xda\x76\x24\xc2\x85\x02\x72\xac\x4a\x2f\x56\x1f\x8f\x2f\x7a\x31\x8b\xfd\x5c\xaf\x96\x96\x14\x9e\x4a\xc8\x24\xad\x34\x60\x53\x8f\xdc\x25\x42\x1b\xee\xc2\xcc\x68\x18\x16\x2d\x06\xbb\xed\x0c\x40\xa3\x87\x19\x23\x49\xdb\x67\xa1\x18\xba\xda\x6c\xd5\xab\x01\x40\xee\x27\x32\x04\xf6\x28\xaa\xd1\xc1\x35\xf7\x70\x27\x9a\x65\x1e\x24\xd8\xc1\x4d\x75\xa6\x05\x9d\x76\xb9\x6a\x6f\xd8\x57\xde\xf5\xe0\xb3\x54\xb2\x7a\xb9\x37\xa5\x81\x5d\x16\xb5\xfa\xe4\x07\xff\x18\x22\x2c\x6d\x1e\xd2\x63\xbe\x68\xc9\x5f\x32\xd9\x08\xbd\x89\x5c\xd7\x62\x07\xae\x72\x64\x87\x56\x7f\x9a\x67\xda\xd7\x9a\xbe\xc3\x16\xf6\x83\xb1\x7f\x2d\x02\xbf\x07\xe0\xac\x8b\x5b\xc6\x16\x2c\xf9\x46\x97\xb3\xc2\x7c\xd1\xfe\xa4\x9b\x27\xf2\x3b\xa2\x90\x18\x71\x96\x25\x06\x52\x0c\x39\x2d\xa8\xb6\xad\x0d\x99\xf7\x01\x3f\xbc\x06\xc2\xc1\x7a\x56\x95\x00\xc8\xa7\x69\x64\x81\xc1\xcd\x33\xe9\xb1\x4e\x40\xb8\x2e\x79\xa5\xf5\xdb\x82\x57\x1b\xa9\x7b\xae\x3a\xd3\xe0\x47\x95\x15\xbb\x0e\x2b\x0f\x3b\xfc\xd1\xfd\x33\x03\x4e\xfc\x62\x45\xed\xdd\x7e\xe2\x08\x6d\xda\xe2\x60\x0d\x8c\xa7\x3e\x21\x4e\x8c\x2b\x0b\xdb\x2b\x04\x7c\x6a\x46\x4a\x56\x2e\xd7\x7b\x73\xd2\xd8\x41\xc4\xb3\x49\x73\x55\x12\x57\x71\x3b\x75\x36\x32\xef\xba\x34\x81\x69\xab\xc9\x0a\x68\xf4\x26\x11\xa4\x01\x26\xd7\xcb\x21\xb5\x86\x95\x56\x81\x86\xf7\xe5\x69\xd2\xff\x0f\x9e\x74\x5d\x04\x87\xdd\x2e\xb9\x97\xca\xfc\x5a\xbf\x9d\xd1\x02\xe6\x2f\xf6\x6c\xba\x87"+ , vecSig = "\xe3\x01\x34\x5a\x41\xa3\x9a\x4d\x72\xff\xf8\xdf\x69\xc9\x80\x75\xa0\xcc\x08\x2b\x80\x2f\xc9\xb2\xb6\xbc\x50\x3f\x92\x6b\x65\xbd\xdf\x7f\x4c\x8f\x1c\xb4\x9f\x63\x96\xaf\xc8\xa7\x0a\xbe\x6d\x8a\xef\x0d\xb4\x78\xd4\xc6\xb2\x97\x00\x76\xc6\xa0\x48\x4f\xe7\x6d\x76\xb3\xa9\x76\x25\xd7\x9f\x1c\xe2\x40\xe7\xc5\x76\x75\x0d\x29\x55\x28\x28\x6f\x71\x9b\x41\x3d\xe9\xad\xa3\xe8\xeb\x78\xed\x57\x36\x03\xce\x30\xd8\xbb\x76\x17\x85\xdc\x30\xdb\xc3\x20\x86\x9e\x1a\x00"+ } ] ++doPublicKeyTest i vec = testCase (show i) (pub @=? Ed448.toPublic sec)+ where+ !pub = throwCryptoError $ Ed448.publicKey (vecPub vec)+ !sec = throwCryptoError $ Ed448.secretKey (vecSec vec)++doSignatureTest i vec = testCase (show i) (sig @=? Ed448.sign sec pub (vecMsg vec))+ where+ !sig = throwCryptoError $ Ed448.signature (vecSig vec)+ !pub = throwCryptoError $ Ed448.publicKey (vecPub vec)+ !sec = throwCryptoError $ Ed448.secretKey (vecSec vec)++doVerifyTest i vec = testCase (show i) (True @=? Ed448.verify pub (vecMsg vec) sig)+ where+ !sig = throwCryptoError $ Ed448.signature (vecSig vec)+ !pub = throwCryptoError $ Ed448.publicKey (vecPub vec)++ tests = testGroup "Ed448"- [ testGroup "KATs" katTests+ [ testCase "gen secretkey" (Ed448.generateSecretKey *> pure ())+ , testGroup "gen publickey" $ zipWith doPublicKeyTest [katZero..] vectors+ , testGroup "gen signature" $ zipWith doSignatureTest [katZero..] vectors+ , testGroup "verify sig" $ zipWith doVerifyTest [katZero..] vectors ]
+ tests/KAT_EdDSA.hs view
@@ -0,0 +1,131 @@+{-# LANGUAGE BangPatterns #-}+{-# LANGUAGE ExistentialQuantification #-}+{-# LANGUAGE GADTs #-}+{-# LANGUAGE OverloadedStrings #-}+{-# LANGUAGE RecordWildCards #-}+module KAT_EdDSA ( tests ) where++import Crypto.Error+import Crypto.ECC+import Crypto.Hash.Algorithms+import Crypto.Hash.IO+import qualified Crypto.PubKey.EdDSA as EdDSA+import Imports++data Vec = forall curve hash .+ ( EdDSA.EllipticCurveEdDSA curve+ , HashAlgorithm hash+ , HashDigestSize hash ~ EdDSA.CurveDigestSize curve+ ) => Vec+ { vecPrx :: Maybe curve+ , vecAlg :: hash+ , vecSec :: ByteString+ , vecPub :: ByteString+ , vecMsg :: ByteString+ , vecSig :: ByteString+ }++vectors =+ [ Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = SHA512+ , vecSec = "\x9d\x61\xb1\x9d\xef\xfd\x5a\x60\xba\x84\x4a\xf4\x92\xec\x2c\xc4\x44\x49\xc5\x69\x7b\x32\x69\x19\x70\x3b\xac\x03\x1c\xae\x7f\x60"+ , vecPub = "\xd7\x5a\x98\x01\x82\xb1\x0a\xb7\xd5\x4b\xfe\xd3\xc9\x64\x07\x3a\x0e\xe1\x72\xf3\xda\xa6\x23\x25\xaf\x02\x1a\x68\xf7\x07\x51\x1a"+ , vecMsg = ""+ , vecSig = "\xe5\x56\x43\x00\xc3\x60\xac\x72\x90\x86\xe2\xcc\x80\x6e\x82\x8a\x84\x87\x7f\x1e\xb8\xe5\xd9\x74\xd8\x73\xe0\x65\x22\x49\x01\x55\x5f\xb8\x82\x15\x90\xa3\x3b\xac\xc6\x1e\x39\x70\x1c\xf9\xb4\x6b\xd2\x5b\xf5\xf0\x59\x5b\xbe\x24\x65\x51\x41\x43\x8e\x7a\x10\x0b"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = SHA512+ , vecSec = "\x4c\xcd\x08\x9b\x28\xff\x96\xda\x9d\xb6\xc3\x46\xec\x11\x4e\x0f\x5b\x8a\x31\x9f\x35\xab\xa6\x24\xda\x8c\xf6\xed\x4f\xb8\xa6\xfb"+ , vecPub = "\x3d\x40\x17\xc3\xe8\x43\x89\x5a\x92\xb7\x0a\xa7\x4d\x1b\x7e\xbc\x9c\x98\x2c\xcf\x2e\xc4\x96\x8c\xc0\xcd\x55\xf1\x2a\xf4\x66\x0c"+ , vecMsg = "\x72"+ , vecSig = "\x92\xa0\x09\xa9\xf0\xd4\xca\xb8\x72\x0e\x82\x0b\x5f\x64\x25\x40\xa2\xb2\x7b\x54\x16\x50\x3f\x8f\xb3\x76\x22\x23\xeb\xdb\x69\xda\x08\x5a\xc1\xe4\x3e\x15\x99\x6e\x45\x8f\x36\x13\xd0\xf1\x1d\x8c\x38\x7b\x2e\xae\xb4\x30\x2a\xee\xb0\x0d\x29\x16\x12\xbb\x0c\x00"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = SHA512+ , vecSec = "\xc5\xaa\x8d\xf4\x3f\x9f\x83\x7b\xed\xb7\x44\x2f\x31\xdc\xb7\xb1\x66\xd3\x85\x35\x07\x6f\x09\x4b\x85\xce\x3a\x2e\x0b\x44\x58\xf7"+ , vecPub = "\xfc\x51\xcd\x8e\x62\x18\xa1\xa3\x8d\xa4\x7e\xd0\x02\x30\xf0\x58\x08\x16\xed\x13\xba\x33\x03\xac\x5d\xeb\x91\x15\x48\x90\x80\x25"+ , vecMsg = "\xaf\x82"+ , vecSig = "\x62\x91\xd6\x57\xde\xec\x24\x02\x48\x27\xe6\x9c\x3a\xbe\x01\xa3\x0c\xe5\x48\xa2\x84\x74\x3a\x44\x5e\x36\x80\xd7\xdb\x5a\xc3\xac\x18\xff\x9b\x53\x8d\x16\xf2\x90\xae\x67\xf7\x60\x98\x4d\xc6\x59\x4a\x7c\x15\xe9\x71\x6e\xd2\x8d\xc0\x27\xbe\xce\xea\x1e\xc4\x0a"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = SHA512+ , vecSec = "\xf5\xe5\x76\x7c\xf1\x53\x31\x95\x17\x63\x0f\x22\x68\x76\xb8\x6c\x81\x60\xcc\x58\x3b\xc0\x13\x74\x4c\x6b\xf2\x55\xf5\xcc\x0e\xe5"+ , vecPub = "\x27\x81\x17\xfc\x14\x4c\x72\x34\x0f\x67\xd0\xf2\x31\x6e\x83\x86\xce\xff\xbf\x2b\x24\x28\xc9\xc5\x1f\xef\x7c\x59\x7f\x1d\x42\x6e"+ , vecMsg = 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, vecSig = "\x0a\xab\x4c\x90\x05\x01\xb3\xe2\x4d\x7c\xdf\x46\x63\x32\x6a\x3a\x87\xdf\x5e\x48\x43\xb2\xcb\xdb\x67\xcb\xf6\xe4\x60\xfe\xc3\x50\xaa\x53\x71\xb1\x50\x8f\x9f\x45\x28\xec\xea\x23\xc4\x36\xd9\x4b\x5e\x8f\xcd\x4f\x68\x1e\x30\xa6\xac\x00\xa9\x70\x4a\x18\x8a\x03"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = SHA512+ , vecSec = "\x83\x3f\xe6\x24\x09\x23\x7b\x9d\x62\xec\x77\x58\x75\x20\x91\x1e\x9a\x75\x9c\xec\x1d\x19\x75\x5b\x7d\xa9\x01\xb9\x6d\xca\x3d\x42"+ , vecPub = "\xec\x17\x2b\x93\xad\x5e\x56\x3b\xf4\x93\x2c\x70\xe1\x24\x50\x34\xc3\x54\x67\xef\x2e\xfd\x4d\x64\xeb\xf8\x19\x68\x34\x67\xe2\xbf"+ , vecMsg = "\xdd\xaf\x35\xa1\x93\x61\x7a\xba\xcc\x41\x73\x49\xae\x20\x41\x31\x12\xe6\xfa\x4e\x89\xa9\x7e\xa2\x0a\x9e\xee\xe6\x4b\x55\xd3\x9a\x21\x92\x99\x2a\x27\x4f\xc1\xa8\x36\xba\x3c\x23\xa3\xfe\xeb\xbd\x45\x4d\x44\x23\x64\x3c\xe8\x0e\x2a\x9a\xc9\x4f\xa5\x4c\xa4\x9f"+ , vecSig = "\xdc\x2a\x44\x59\xe7\x36\x96\x33\xa5\x2b\x1b\xf2\x77\x83\x9a\x00\x20\x10\x09\xa3\xef\xbf\x3e\xcb\x69\xbe\xa2\x18\x6c\x26\xb5\x89\x09\x35\x1f\xc9\xac\x90\xb3\xec\xfd\xfb\xc7\xc6\x64\x31\xe0\x30\x3d\xca\x17\x9c\x13\x8a\xc1\x7a\xd9\xbe\xf1\x17\x73\x31\xa7\x04"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = Blake2b_512+ , vecSec = "\x9d\x61\xb1\x9d\xef\xfd\x5a\x60\xba\x84\x4a\xf4\x92\xec\x2c\xc4\x44\x49\xc5\x69\x7b\x32\x69\x19\x70\x3b\xac\x03\x1c\xae\x7f\x60"+ , vecPub = "\x78\xe6\x5b\xf3\x0f\x89\x3d\x32\xfc\x57\xef\x05\x1c\x34\x1b\xde\xde\x24\x25\x44\xfc\x2a\x21\x12\xf0\xfa\x2c\x7a\xfd\xeb\xc0\x2f"+ , vecMsg = ""+ , vecSig = "\x99\xa5\x23\xbd\x46\x16\xc8\x16\x11\x44\xd6\xa9\x9d\x3c\x32\x40\x0c\xb4\xa3\x26\xf4\xd7\x9e\x30\x73\x40\xf6\xaf\xa1\x17\x50\xa0\x08\x5d\x7d\x84\x62\x6b\xc9\xe4\xb1\x53\xfc\x0e\x39\x6d\x15\xce\x44\xc3\x9b\xae\x45\x33\x80\x4d\xb1\xfe\x5b\x52\xf2\xb1\xb8\x05"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = Blake2b_512+ , vecSec = "\x4c\xcd\x08\x9b\x28\xff\x96\xda\x9d\xb6\xc3\x46\xec\x11\x4e\x0f\x5b\x8a\x31\x9f\x35\xab\xa6\x24\xda\x8c\xf6\xed\x4f\xb8\xa6\xfb"+ , vecPub = "\x5e\x71\x39\x2d\x91\xe6\xa5\x8f\xed\xeb\x08\x50\x36\x4f\x56\xcd\x15\x8a\x60\x44\x75\x57\xd7\x89\x03\x89\xc9\xb3\xd4\x57\x6d\x4d"+ , vecMsg = "\x72"+ , vecSig = "\x6d\xa7\x5e\x15\xb5\x70\x7f\x4d\xe5\xa1\x53\xc4\x8a\x5d\x83\x9f\xb8\x50\x74\xc3\x8a\xeb\x62\x85\x97\x7f\x03\xa1\x39\x77\x59\x7f\x97\x60\x69\xfd\xb9\x03\xf1\x83\x47\x4a\xaa\x5e\xd0\xcf\xe8\x78\xba\x8e\xf8\x68\xc5\xe4\x7c\xa3\xf9\x6c\xcf\xb3\xa8\x9b\x2a\x06"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = Blake2b_512+ , vecSec = "\xc5\xaa\x8d\xf4\x3f\x9f\x83\x7b\xed\xb7\x44\x2f\x31\xdc\xb7\xb1\x66\xd3\x85\x35\x07\x6f\x09\x4b\x85\xce\x3a\x2e\x0b\x44\x58\xf7"+ , vecPub = "\x8d\x53\xca\x70\xf0\xea\xb2\x3b\x91\x78\x34\x57\x85\xfc\xdb\x69\xed\x67\x23\xf8\x14\x8f\x7e\x33\x9e\x88\x65\x37\x00\xb7\x18\xda"+ , vecMsg = "\xaf\x82"+ , vecSig = "\x7c\xc3\xc1\x38\x52\xbd\x12\xab\xf3\xce\x4c\xa8\xca\x28\x36\xcb\xf8\x6d\xa9\x6c\x46\x34\xc5\x0d\xf3\xfb\x80\xdc\x80\x9e\x29\xdb\x0e\x10\x9c\x36\x13\x53\x40\x7c\x12\x36\xa9\x04\xf6\x36\x86\x8a\xa3\x39\x77\xa9\x9d\x3f\x84\x45\x98\xdb\x15\x38\xb4\x29\x52\x03"+ }+ , Vec+ { vecPrx = Just Curve_Edwards25519+ , vecAlg = Blake2b_512+ , vecSec = "\xf5\xe5\x76\x7c\xf1\x53\x31\x95\x17\x63\x0f\x22\x68\x76\xb8\x6c\x81\x60\xcc\x58\x3b\xc0\x13\x74\x4c\x6b\xf2\x55\xf5\xcc\x0e\xe5"+ , vecPub = "\x9e\x3c\xa4\x9b\xb2\xd9\xe3\x6b\x8f\x0c\x94\x4a\x7b\x1c\x29\x26\x45\xda\x87\xce\x6f\xa6\xb4\x28\x86\xe5\xd7\xc8\x68\x33\xa7\x14"+ , vecMsg = "\x08\xb8\xb2\xb7\x33\x42\x42\x43\x76\x0f\xe4\x26\xa4\xb5\x49\x08\x63\x21\x10\xa6\x6c\x2f\x65\x91\xea\xbd\x33\x45\xe3\xe4\xeb\x98\xfa\x6e\x26\x4b\xf0\x9e\xfe\x12\xee\x50\xf8\xf5\x4e\x9f\x77\xb1\xe3\x55\xf6\xc5\x05\x44\xe2\x3f\xb1\x43\x3d\xdf\x73\xbe\x84\xd8\x79\xde\x7c\x00\x46\xdc\x49\x96\xd9\xe7\x73\xf4\xbc\x9e\xfe\x57\x38\x82\x9a\xdb\x26\xc8\x1b\x37\xc9\x3a\x1b\x27\x0b\x20\x32\x9d\x65\x86\x75\xfc\x6e\xa5\x34\xe0\x81\x0a\x44\x32\x82\x6b\xf5\x8c\x94\x1e\xfb\x65\xd5\x7a\x33\x8b\xbd\x2e\x26\x64\x0f\x89\xff\xbc\x1a\x85\x8e\xfc\xb8\x55\x0e\xe3\xa5\xe1\x99\x8b\xd1\x77\xe9\x3a\x73\x63\xc3\x44\xfe\x6b\x19\x9e\xe5\xd0\x2e\x82\xd5\x22\xc4\xfe\xba\x15\x45\x2f\x80\x28\x8a\x82\x1a\x57\x91\x16\xec\x6d\xad\x2b\x3b\x31\x0d\xa9\x03\x40\x1a\xa6\x21\x00\xab\x5d\x1a\x36\x55\x3e\x06\x20\x3b\x33\x89\x0c\xc9\xb8\x32\xf7\x9e\xf8\x05\x60\xcc\xb9\xa3\x9c\xe7\x67\x96\x7e\xd6\x28\xc6\xad\x57\x3c\xb1\x16\xdb\xef\xef\xd7\x54\x99\xda\x96\xbd\x68\xa8\xa9\x7b\x92\x8a\x8b\xbc\x10\x3b\x66\x21\xfc\xde\x2b\xec\xa1\x23\x1d\x20\x6b\xe6\xcd\x9e\xc7\xaf\xf6\xf6\xc9\x4f\xcd\x72\x04\xed\x34\x55\xc6\x8c\x83\xf4\xa4\x1d\xa4\xaf\x2b\x74\xef\x5c\x53\xf1\xd8\xac\x70\xbd\xcb\x7e\xd1\x85\xce\x81\xbd\x84\x35\x9d\x44\x25\x4d\x95\x62\x9e\x98\x55\xa9\x4a\x7c\x19\x58\xd1\xf8\xad\xa5\xd0\x53\x2e\xd8\xa5\xaa\x3f\xb2\xd1\x7b\xa7\x0e\xb6\x24\x8e\x59\x4e\x1a\x22\x97\xac\xbb\xb3\x9d\x50\x2f\x1a\x8c\x6e\xb6\xf1\xce\x22\xb3\xde\x1a\x1f\x40\xcc\x24\x55\x41\x19\xa8\x31\xa9\xaa\xd6\x07\x9c\xad\x88\x42\x5d\xe6\xbd\xe1\xa9\x18\x7e\xbb\x60\x92\xcf\x67\xbf\x2b\x13\xfd\x65\xf2\x70\x88\xd7\x8b\x7e\x88\x3c\x87\x59\xd2\xc4\xf5\xc6\x5a\xdb\x75\x53\x87\x8a\xd5\x75\xf9\xfa\xd8\x78\xe8\x0a\x0c\x9b\xa6\x3b\xcb\xcc\x27\x32\xe6\x94\x85\xbb\xc9\xc9\x0b\xfb\xd6\x24\x81\xd9\x08\x9b\xec\xcf\x80\xcf\xe2\xdf\x16\xa2\xcf\x65\xbd\x92\xdd\x59\x7b\x07\x07\xe0\x91\x7a\xf4\x8b\xbb\x75\xfe\xd4\x13\xd2\x38\xf5\x55\x5a\x7a\x56\x9d\x80\xc3\x41\x4a\x8d\x08\x59\xdc\x65\xa4\x61\x28\xba\xb2\x7a\xf8\x7a\x71\x31\x4f\x31\x8c\x78\x2b\x23\xeb\xfe\x80\x8b\x82\xb0\xce\x26\x40\x1d\x2e\x22\xf0\x4d\x83\xd1\x25\x5d\xc5\x1a\xdd\xd3\xb7\x5a\x2b\x1a\xe0\x78\x45\x04\xdf\x54\x3a\xf8\x96\x9b\xe3\xea\x70\x82\xff\x7f\xc9\x88\x8c\x14\x4d\xa2\xaf\x58\x42\x9e\xc9\x60\x31\xdb\xca\xd3\xda\xd9\xaf\x0d\xcb\xaa\xaf\x26\x8c\xb8\xfc\xff\xea\xd9\x4f\x3c\x7c\xa4\x95\xe0\x56\xa9\xb4\x7a\xcd\xb7\x51\xfb\x73\xe6\x66\xc6\xc6\x55\xad\xe8\x29\x72\x97\xd0\x7a\xd1\xba\x5e\x43\xf1\xbc\xa3\x23\x01\x65\x13\x39\xe2\x29\x04\xcc\x8c\x42\xf5\x8c\x30\xc0\x4a\xaf\xdb\x03\x8d\xda\x08\x47\xdd\x98\x8d\xcd\xa6\xf3\xbf\xd1\x5c\x4b\x4c\x45\x25\x00\x4a\xa0\x6e\xef\xf8\xca\x61\x78\x3a\xac\xec\x57\xfb\x3d\x1f\x92\xb0\xfe\x2f\xd1\xa8\x5f\x67\x24\x51\x7b\x65\xe6\x14\xad\x68\x08\xd6\xf6\xee\x34\xdf\xf7\x31\x0f\xdc\x82\xae\xbf\xd9\x04\xb0\x1e\x1d\xc5\x4b\x29\x27\x09\x4b\x2d\xb6\x8d\x6f\x90\x3b\x68\x40\x1a\xde\xbf\x5a\x7e\x08\xd7\x8f\xf4\xef\x5d\x63\x65\x3a\x65\x04\x0c\xf9\xbf\xd4\xac\xa7\x98\x4a\x74\xd3\x71\x45\x98\x67\x80\xfc\x0b\x16\xac\x45\x16\x49\xde\x61\x88\xa7\xdb\xdf\x19\x1f\x64\xb5\xfc\x5e\x2a\xb4\x7b\x57\xf7\xf7\x27\x6c\xd4\x19\xc1\x7a\x3c\xa8\xe1\xb9\x39\xae\x49\xe4\x88\xac\xba\x6b\x96\x56\x10\xb5\x48\x01\x09\xc8\xb1\x7b\x80\xe1\xb7\xb7\x50\xdf\xc7\x59\x8d\x5d\x50\x11\xfd\x2d\xcc\x56\x00\xa3\x2e\xf5\xb5\x2a\x1e\xcc\x82\x0e\x30\x8a\xa3\x42\x72\x1a\xac\x09\x43\xbf\x66\x86\xb6\x4b\x25\x79\x37\x65\x04\xcc\xc4\x93\xd9\x7e\x6a\xed\x3f\xb0\xf9\xcd\x71\xa4\x3d\xd4\x97\xf0\x1f\x17\xc0\xe2\xcb\x37\x97\xaa\x2a\x2f\x25\x66\x56\x16\x8e\x6c\x49\x6a\xfc\x5f\xb9\x32\x46\xf6\xb1\x11\x63\x98\xa3\x46\xf1\xa6\x41\xf3\xb0\x41\xe9\x89\xf7\x91\x4f\x90\xcc\x2c\x7f\xff\x35\x78\x76\xe5\x06\xb5\x0d\x33\x4b\xa7\x7c\x22\x5b\xc3\x07\xba\x53\x71\x52\xf3\xf1\x61\x0e\x4e\xaf\xe5\x95\xf6\xd9\xd9\x0d\x11\xfa\xa9\x33\xa1\x5e\xf1\x36\x95\x46\x86\x8a\x7f\x3a\x45\xa9\x67\x68\xd4\x0f\xd9\xd0\x34\x12\xc0\x91\xc6\x31\x5c\xf4\xfd\xe7\xcb\x68\x60\x69\x37\x38\x0d\xb2\xea\xaa\x70\x7b\x4c\x41\x85\xc3\x2e\xdd\xcd\xd3\x06\x70\x5e\x4d\xc1\xff\xc8\x72\xee\xee\x47\x5a\x64\xdf\xac\x86\xab\xa4\x1c\x06\x18\x98\x3f\x87\x41\xc5\xef\x68\xd3\xa1\x01\xe8\xa3\xb8\xca\xc6\x0c\x90\x5c\x15\xfc\x91\x08\x40\xb9\x4c\x00\xa0\xb9\xd0"+ , vecSig = "\xd0\x39\x65\xac\x31\x6a\x20\xf5\xa4\x7a\xb2\xd6\x18\x5e\xb3\xf0\xae\xea\x9c\x2e\xb8\xab\xe9\x22\xe9\x6d\x31\x7b\x3b\xd0\xef\x02\xe8\xd4\x7f\xd9\x23\x84\xe2\x86\x15\xeb\x33\x14\xad\xbc\x71\xc4\x67\x59\x96\x09\x9e\x48\x4c\xeb\x16\x28\x47\xc4\x0c\x32\x44\x0e"+ }+ ]+++doPublicKeyTest :: Int -> Vec -> TestTree+doPublicKeyTest i Vec{..} =+ testCase (show i) (pub @=? EdDSA.toPublic vecPrx vecAlg sec)+ where+ !pub = throwCryptoError $ EdDSA.publicKey vecPrx vecAlg vecPub+ !sec = throwCryptoError $ EdDSA.secretKey vecPrx vecSec++doSignatureTest :: Int -> Vec -> TestTree+doSignatureTest i Vec{..} =+ testCase (show i) (sig @=? EdDSA.sign vecPrx sec pub vecMsg)+ where+ !sig = throwCryptoError $ EdDSA.signature vecPrx vecAlg vecSig+ !pub = throwCryptoError $ EdDSA.publicKey vecPrx vecAlg vecPub+ !sec = throwCryptoError $ EdDSA.secretKey vecPrx vecSec++doVerifyTest :: Int -> Vec -> TestTree+doVerifyTest i Vec{..} =+ testCase (show i) (True @=? EdDSA.verify vecPrx pub vecMsg sig)+ where+ !sig = throwCryptoError $ EdDSA.signature vecPrx vecAlg vecSig+ !pub = throwCryptoError $ EdDSA.publicKey vecPrx vecAlg vecPub+++tests = testGroup "EdDSA"+ [ testGroup "gen publickey" $ zipWith doPublicKeyTest [katZero..] vectors+ , testGroup "gen signature" $ zipWith doSignatureTest [katZero..] vectors+ , testGroup "verify sig" $ zipWith doVerifyTest [katZero..] vectors+ ]
tests/KAT_HKDF.hs view
@@ -2,10 +2,7 @@ module KAT_HKDF (tests) where import qualified Crypto.KDF.HKDF as HKDF-import Crypto.Hash (MD5(..), SHA1(..), SHA256(..)- , Keccak_224(..), Keccak_256(..), Keccak_384(..), Keccak_512(..)- , SHA3_224(..), SHA3_256(..), SHA3_384(..), SHA3_512(..)- , HashAlgorithm, digestFromByteString)+import Crypto.Hash (SHA256(..), HashAlgorithm) import qualified Data.ByteString as B import Imports
tests/KAT_HMAC.hs view
@@ -132,17 +132,17 @@ macIncrementalTests :: [TestTree] macIncrementalTests =- [ testProperties MD5- , testProperties SHA1- , testProperties SHA256- , testProperties SHA3_224- , testProperties SHA3_256- , testProperties SHA3_384- , testProperties SHA3_512+ [ testIncrProperties MD5+ , testIncrProperties SHA1+ , testIncrProperties SHA256+ , testIncrProperties SHA3_224+ , testIncrProperties SHA3_256+ , testIncrProperties SHA3_384+ , testIncrProperties SHA3_512 ] where- --testProperties :: HashAlgorithm a => a -> [Property]- testProperties a = testGroup (show a)+ --testIncrProperties :: HashAlgorithm a => a -> [Property]+ testIncrProperties a = testGroup (show a) [ testProperty "list-one" (prop_inc0 a) , testProperty "list-multi" (prop_inc1 a) ]
+ tests/KAT_KMAC.hs view
@@ -0,0 +1,129 @@+{-# LANGUAGE DataKinds #-}+{-# LANGUAGE FlexibleContexts #-}+{-# LANGUAGE FlexibleInstances #-}+{-# LANGUAGE OverloadedStrings #-}+{-# LANGUAGE RecordWildCards #-}+module KAT_KMAC (tests) where++import Crypto.Hash (SHAKE128(..), SHAKE256(..),+ HashAlgorithm, digestFromByteString)+import qualified Crypto.MAC.KMAC as KMAC++import qualified Data.ByteString as B++import Imports++data MACVector hash = MACVector+ { macString :: ByteString+ , macKey :: ByteString+ , macSecret :: ByteString+ , macResult :: KMAC.KMAC hash+ }++instance Show (KMAC.KMAC a) where+ show (KMAC.KMAC d) = show d++digest :: HashAlgorithm hash => ByteString -> KMAC.KMAC hash+digest = maybe (error "cannot get digest") KMAC.KMAC . digestFromByteString++vectors128 :: [MACVector (SHAKE128 256)]+vectors128 =+ [ MACVector+ { macString = ""+ , macKey = B.pack [ 0x40 .. 0x5f ]+ , macSecret = B.pack [ 0x00 .. 0x03 ]+ , macResult = digest "\xe5\x78\x0b\x0d\x3e\xa6\xf7\xd3\xa4\x29\xc5\x70\x6a\xa4\x3a\x00\xfa\xdb\xd7\xd4\x96\x28\x83\x9e\x31\x87\x24\x3f\x45\x6e\xe1\x4e"+ }+ , MACVector+ { macString = "My Tagged Application"+ , macKey = B.pack [ 0x40 .. 0x5f ]+ , macSecret = B.pack [ 0x00 .. 0x03 ]+ , macResult = digest "\x3b\x1f\xba\x96\x3c\xd8\xb0\xb5\x9e\x8c\x1a\x6d\x71\x88\x8b\x71\x43\x65\x1a\xf8\xba\x0a\x70\x70\xc0\x97\x9e\x28\x11\x32\x4a\xa5"+ }+ , MACVector+ { macString = "My Tagged Application"+ , macKey = B.pack [ 0x40 .. 0x5f ]+ , macSecret = B.pack [ 0x00 .. 0xc7 ]+ , macResult = digest "\x1f\x5b\x4e\x6c\xca\x02\x20\x9e\x0d\xcb\x5c\xa6\x35\xb8\x9a\x15\xe2\x71\xec\xc7\x60\x07\x1d\xfd\x80\x5f\xaa\x38\xf9\x72\x92\x30"+ }+ ]++vectors256 :: [MACVector (SHAKE256 512)]+vectors256 =+ [ MACVector+ { macString = "My Tagged Application"+ , macKey = B.pack [ 0x40 .. 0x5f ]+ , macSecret = B.pack [ 0x00 .. 0x03 ]+ , macResult = digest "\x20\xc5\x70\xc3\x13\x46\xf7\x03\xc9\xac\x36\xc6\x1c\x03\xcb\x64\xc3\x97\x0d\x0c\xfc\x78\x7e\x9b\x79\x59\x9d\x27\x3a\x68\xd2\xf7\xf6\x9d\x4c\xc3\xde\x9d\x10\x4a\x35\x16\x89\xf2\x7c\xf6\xf5\x95\x1f\x01\x03\xf3\x3f\x4f\x24\x87\x10\x24\xd9\xc2\x77\x73\xa8\xdd"+ }+ , MACVector+ { macString = ""+ , macKey = B.pack [ 0x40 .. 0x5f ]+ , macSecret = B.pack [ 0x00 .. 0xc7 ]+ , macResult = digest "\x75\x35\x8c\xf3\x9e\x41\x49\x4e\x94\x97\x07\x92\x7c\xee\x0a\xf2\x0a\x3f\xf5\x53\x90\x4c\x86\xb0\x8f\x21\xcc\x41\x4b\xcf\xd6\x91\x58\x9d\x27\xcf\x5e\x15\x36\x9c\xbb\xff\x8b\x9a\x4c\x2e\xb1\x78\x00\x85\x5d\x02\x35\xff\x63\x5d\xa8\x25\x33\xec\x6b\x75\x9b\x69"+ }+ , MACVector+ { macString = "My Tagged Application"+ , macKey = B.pack [ 0x40 .. 0x5f ]+ , macSecret = B.pack [ 0x00 .. 0xc7 ]+ , macResult = digest "\xb5\x86\x18\xf7\x1f\x92\xe1\xd5\x6c\x1b\x8c\x55\xdd\xd7\xcd\x18\x8b\x97\xb4\xca\x4d\x99\x83\x1e\xb2\x69\x9a\x83\x7d\xa2\xe4\xd9\x70\xfb\xac\xfd\xe5\x00\x33\xae\xa5\x85\xf1\xa2\x70\x85\x10\xc3\x2d\x07\x88\x08\x01\xbd\x18\x28\x98\xfe\x47\x68\x76\xfc\x89\x65"+ }+ ]++macTests :: [TestTree]+macTests =+ [ testGroup "SHAKE128" (concatMap toMACTest $ zip is vectors128)+ , testGroup "SHAKE256" (concatMap toMACTest $ zip is vectors256)+ ]+ where toMACTest (i, MACVector{..}) =+ [ testCase (show i) (macResult @=? KMAC.kmac macString macKey macSecret)+ , testCase ("incr-" ++ show i) (macResult @=?+ KMAC.finalize (KMAC.update (KMAC.initialize macString macKey) macSecret))+ ]+ is :: [Int]+ is = [1..]++data MacIncremental a = MacIncremental ByteString ByteString ByteString (KMAC.KMAC a)+ deriving (Show,Eq)++instance KMAC.HashSHAKE a => Arbitrary (MacIncremental a) where+ arbitrary = do+ str <- arbitraryBSof 0 49+ key <- arbitraryBSof 1 89+ msg <- arbitraryBSof 1 99+ return $ MacIncremental str key msg (KMAC.kmac str key msg)++data MacIncrementalList a = MacIncrementalList ByteString ByteString [ByteString] (KMAC.KMAC a)+ deriving (Show,Eq)++instance KMAC.HashSHAKE a => Arbitrary (MacIncrementalList a) where+ arbitrary = do+ str <- arbitraryBSof 0 49+ key <- arbitraryBSof 1 89+ msgs <- choose (1,20) >>= \n -> replicateM n (arbitraryBSof 1 99)+ return $ MacIncrementalList str key msgs (KMAC.kmac str key (B.concat msgs))++macIncrementalTests :: [TestTree]+macIncrementalTests =+ [ testIncrProperties "SHAKE128_256" (SHAKE128 :: SHAKE128 256)+ , testIncrProperties "SHAKE256_512" (SHAKE256 :: SHAKE256 512)+ ]+ where+ testIncrProperties :: KMAC.HashSHAKE a => TestName -> a -> TestTree+ testIncrProperties name a = testGroup name+ [ testProperty "list-one" (prop_inc0 a)+ , testProperty "list-multi" (prop_inc1 a)+ ]++ prop_inc0 :: KMAC.HashSHAKE a => a -> MacIncremental a -> Bool+ prop_inc0 _ (MacIncremental str secret msg result) =+ result `assertEq` KMAC.finalize (KMAC.update (KMAC.initialize str secret) msg)++ prop_inc1 :: KMAC.HashSHAKE a => a -> MacIncrementalList a -> Bool+ prop_inc1 _ (MacIncrementalList str secret msgs result) =+ result `assertEq` KMAC.finalize (foldl' KMAC.update (KMAC.initialize str secret) msgs)++tests = testGroup "KMAC"+ [ testGroup "KATs" macTests+ , testGroup "properties" macIncrementalTests+ ]
+ tests/KAT_MiyaguchiPreneel.hs view
@@ -0,0 +1,49 @@++module KAT_MiyaguchiPreneel (tests) where++import Crypto.Cipher.AES (AES128)+import Crypto.ConstructHash.MiyaguchiPreneel as MiyaguchiPreneel++import Imports++import qualified Data.ByteString.Char8 as B8+import qualified Data.ByteArray as B+import Data.ByteArray.Encoding (Base (Base16), convertFromBase)+++runMP128 :: ByteString -> ByteString+runMP128 s = B.convert (MiyaguchiPreneel.compute s :: MiyaguchiPreneel AES128)++hxs :: String -> ByteString+hxs = either (error . ("hxs:" ++)) id . convertFromBase Base16+ . B8.pack . filter (/= ' ')++gAES128 :: TestTree+gAES128 =+ igroup "aes128"+ [ runMP128 B8.empty+ @?= hxs "66e94bd4 ef8a2c3b 884cfa59 ca342b2e"+ , runMP128 (hxs "01000000 00000000 00000000 00000000")+ @?= hxs "46711816 e91d6ff0 59bbbf2b f58e0fd3"+ , runMP128 (hxs "00000000 00000000 00000000 00000001")+ @?= hxs "58e2fcce fa7e3061 367f1d57 a4e7455b"+ , runMP128 (hxs $+ "00000000 00000000 00000000 00000000" +++ "01")+ @?= hxs "a5ff35ae 097adf5d 646abf5e bf4c16f4"+ ]++igroup :: TestName -> [Assertion] -> TestTree+igroup nm = testGroup nm . zipWith (flip ($)) [1..] . map icase+ where+ icase c i = testCase (show (i :: Int)) c++vectors :: TestTree+vectors =+ testGroup "KATs"+ [ gAES128 ]++tests :: TestTree+tests =+ testGroup "MiyaguchiPreneel"+ [ vectors ]
+ tests/KAT_OTP.hs view
@@ -0,0 +1,101 @@+{-# LANGUAGE OverloadedStrings #-}+++module KAT_OTP+ ( tests+ )+where++import Crypto.Hash.Algorithms (SHA1(..), SHA256(..), SHA512(..))+import Crypto.OTP+import Imports++-- | Test values from Appendix D of http://tools.ietf.org/html/rfc4226+hotpExpected :: [(Word64, Word32)]+hotpExpected =+ [ (0, 755224)+ , (1, 287082)+ , (3, 969429)+ , (4, 338314)+ , (5, 254676)+ , (6, 287922)+ , (7, 162583)+ , (8, 399871)+ , (9, 520489)+ ]++-- | Test data from Appendix B of http://tools.ietf.org/html/rfc6238+-- Note that the shared keys for the non SHA-1 values are actually+-- different (see the errata, or the Java example code).+totpSHA1Expected :: [(Word64, Word32)]+totpSHA1Expected =+ [ (59 , 94287082)+ , (1111111109, 07081804)+ , (1111111111, 14050471)+ , (1234567890, 89005924)+ , (2000000000, 69279037)+ , (20000000000, 65353130)+ ]++totpSHA256Expected :: [(Word64, Word32)]+totpSHA256Expected =+ [ (59 , 46119246)+ , (1111111109, 68084774)+ , (1111111111, 67062674)+ , (1234567890, 91819424)+ , (2000000000, 90698825)+ , (20000000000, 77737706)+ ]++totpSHA512Expected :: [(Word64, Word32)]+totpSHA512Expected =+ [ (59 , 90693936)+ , (1111111109, 25091201)+ , (1111111111, 99943326)+ , (1234567890, 93441116)+ , (2000000000, 38618901)+ , (20000000000, 47863826)+ ]++otpKey = "12345678901234567890" :: ByteString+totpSHA256Key = "12345678901234567890123456789012" :: ByteString+totpSHA512Key = "1234567890123456789012345678901234567890123456789012345678901234" :: ByteString++makeKATs otp expected = concatMap (makeTest otp) (zip3 is counts otps)+ where+ is :: [Int]+ is = [1..]++ counts = map fst expected+ otps = map snd expected++makeTest otp (i, count, password) =+ [ testCase (show i) (assertEqual "" password (otp count))+ ]++Right totpSHA1Params = mkTOTPParams SHA1 0 30 OTP8 TwoSteps+Right totpSHA256Params = mkTOTPParams SHA256 0 30 OTP8 TwoSteps+Right totpSHA512Params = mkTOTPParams SHA512 0 30 OTP8 TwoSteps++-- resynching with the expected value should just return the current counter + 1+prop_resyncExpected ctr window = resynchronize SHA1 OTP6 window key ctr (otp, []) == Just (ctr + 1)+ where+ key = "1234" :: ByteString+ otp = hotp SHA1 OTP6 key ctr+++tests = testGroup "OTP"+ [ testGroup "HOTP"+ [ testGroup "KATs" (makeKATs (hotp SHA1 OTP6 otpKey) hotpExpected)+ , testGroup "properties"+ [ testProperty "resync-expected" prop_resyncExpected+ ]+ ]+ , testGroup "TOTP"+ [ testGroup "KATs"+ [ testGroup "SHA1" (makeKATs (totp totpSHA1Params otpKey) totpSHA1Expected)+ , testGroup "SHA256" (makeKATs (totp totpSHA256Params totpSHA256Key) totpSHA256Expected)+ , testGroup "SHA512" (makeKATs (totp totpSHA512Params totpSHA512Key) totpSHA512Expected)+ ]+ ]+ ]
tests/KAT_PBKDF2.hs view
@@ -3,7 +3,7 @@ -- from <http://www.ietf.org/rfc/rfc6070.txt> module KAT_PBKDF2 (tests) where -import Crypto.Hash (SHA1(..), SHA256(..))+import Crypto.Hash (SHA1(..), SHA256(..), SHA512(..)) import qualified Crypto.KDF.PBKDF2 as PBKDF2 import Data.ByteString (ByteString)@@ -42,14 +42,48 @@ ) ] +vectors_hmac_sha512 :: [ (VectParams, ByteString) ]+vectors_hmac_sha512 =+ [ ( ("password", "salt", 1, 32)+ , "\x86\x7f\x70\xcf\x1a\xde\x02\xcf\xf3\x75\x25\x99\xa3\xa5\x3d\xc4\xaf\x34\xc7\xa6\x69\x81\x5a\xe5\xd5\x13\x55\x4e\x1c\x8c\xf2\x52"+ )+ , ( ("password", "salt", 2, 32)+ , "\xe1\xd9\xc1\x6a\xa6\x81\x70\x8a\x45\xf5\xc7\xc4\xe2\x15\xce\xb6\x6e\x01\x1a\x2e\x9f\x00\x40\x71\x3f\x18\xae\xfd\xb8\x66\xd5\x3c"+ )+ , ( ("password", "salt", 4096, 32)+ , "\xd1\x97\xb1\xb3\x3d\xb0\x14\x3e\x01\x8b\x12\xf3\xd1\xd1\x47\x9e\x6c\xde\xbd\xcc\x97\xc5\xc0\xf8\x7f\x69\x02\xe0\x72\xf4\x57\xb5"+ )+ , ( ("passwordPASSWORDpassword", "saltSALTsaltSALTsaltSALTsaltSALTsalt", 1, 72)+ , "n\x23\xf2\x76\x38\x08\x4b\x0f\x7e\xa1\x73\x4e\x0d\x98\x41\xf5\x5d\xd2\x9e\xa6\x0a\x83\x44\x66\xf3\x39\x6b\xac\x80\x1f\xac\x1e\xeb\x63\x80\x2f\x03\xa0\xb4\xac\xd7\x60\x3e\x36\x99\xc8\xb7\x44\x37\xbe\x83\xff\x01\xad\x7f\x55\xda\xc1\xef\x60\xf4\xd5\x64\x80\xc3\x5e\xe6\x8f\xd5\x2c\x69\x36"+ )+ ]++ tests = testGroup "PBKDF2" [ testGroup "KATs-HMAC-SHA1" (katTests (PBKDF2.prfHMAC SHA1) vectors_hmac_sha1)+ , testGroup "KATs-HMAC-SHA1 (fast)" (katTestFastPBKDF2_SHA1 vectors_hmac_sha1) , testGroup "KATs-HMAC-SHA256" (katTests (PBKDF2.prfHMAC SHA256) vectors_hmac_sha256)+ , testGroup "KATs-HMAC-SHA256 (fast)" (katTestFastPBKDF2_SHA256 vectors_hmac_sha256)+ , testGroup "KATs-HMAC-SHA512" (katTests (PBKDF2.prfHMAC SHA512) vectors_hmac_sha512)+ , testGroup "KATs-HMAC-SHA512 (fast)" (katTestFastPBKDF2_SHA512 vectors_hmac_sha512) ]- where katTests prf vects = map (toKatTest prf) $ zip is vects+ where katTests prf = zipWith (toKatTest prf) is - toKatTest prf (i, ((pass, salt, iter, dkLen), output)) =+ toKatTest prf i ((pass, salt, iter, dkLen), output) = testCase (show i) (output @=? PBKDF2.generate prf (PBKDF2.Parameters iter dkLen) pass salt)++ katTestFastPBKDF2_SHA1 = zipWith toKatTestFastPBKDF2_SHA1 is+ toKatTestFastPBKDF2_SHA1 i ((pass, salt, iter, dkLen), output) =+ testCase (show i) (output @=? PBKDF2.fastPBKDF2_SHA1 (PBKDF2.Parameters iter dkLen) pass salt)++ katTestFastPBKDF2_SHA256 = zipWith toKatTestFastPBKDF2_SHA256 is+ toKatTestFastPBKDF2_SHA256 i ((pass, salt, iter, dkLen), output) =+ testCase (show i) (output @=? PBKDF2.fastPBKDF2_SHA256 (PBKDF2.Parameters iter dkLen) pass salt)++ katTestFastPBKDF2_SHA512 = zipWith toKatTestFastPBKDF2_SHA512 is+ toKatTestFastPBKDF2_SHA512 i ((pass, salt, iter, dkLen), output) =+ testCase (show i) (output @=? PBKDF2.fastPBKDF2_SHA512 (PBKDF2.Parameters iter dkLen) pass salt)+ is :: [Int] is = [1..]
tests/KAT_PubKey.hs view
@@ -16,6 +16,8 @@ import KAT_PubKey.DSA import KAT_PubKey.ECC import KAT_PubKey.ECDSA+import KAT_PubKey.RSA+import KAT_PubKey.Rabin import Utils import qualified KAT_PubKey.P256 as P256 @@ -23,7 +25,7 @@ , dbMask :: ByteString } -doMGFTest (i, vmgf) = testCase (show i) (dbMask vmgf @=? actual)+doMGFTest i vmgf = testCase (show i) (dbMask vmgf @=? actual) where actual = mgf1 SHA1 (seed vmgf) (B.length $ dbMask vmgf) vectorsMGF =@@ -34,13 +36,15 @@ ] tests = testGroup "PubKey"- [ testGroup "MGF1" $ map doMGFTest (zip [katZero..] vectorsMGF)+ [ testGroup "MGF1" $ zipWith doMGFTest [katZero..] vectorsMGF+ , rsaTests , pssTests , oaepTests , dsaTests , eccTests , ecdsaTests , P256.tests+ , rabinTests ] --newKats = [ eccKatTests ]
tests/KAT_PubKey/DSA.hs view
@@ -106,7 +106,43 @@ , r = 0x8c2fab489c34672140415d41a65cef1e70192e23 , s = 0x3df86a9e2efe944a1c7ea9c30cac331d00599a0e , pgq = dsaParams- } + }+ , VectorDSA -- 1024-bit example from RFC 6979 with SHA-1+ { msg = "sample"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x7BDB6B0FF756E1BB5D53583EF979082F9AD5BD5B+ , r = 0x2E1A0C2562B2912CAAF89186FB0F42001585DA55+ , s = 0x29EFB6B0AFF2D7A68EB70CA313022253B9A88DF5+ , pgq = rfc6979Params1024+ }+ , VectorDSA -- 1024-bit example from RFC 6979 with SHA-1+ { msg = "test"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x5C842DF4F9E344EE09F056838B42C7A17F4A6433+ , r = 0x42AB2052FD43E123F0607F115052A67DCD9C5C77+ , s = 0x183916B0230D45B9931491D4C6B0BD2FB4AAF088+ , pgq = rfc6979Params1024+ }+ , VectorDSA -- 2048-bit example from RFC 6979 with SHA-1+ { msg = "sample"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0x888FA6F7738A41BDC9846466ABDB8174C0338250AE50CE955CA16230F9CBD53E+ , r = 0x3A1B2DBD7489D6ED7E608FD036C83AF396E290DBD602408E8677DAABD6E7445A+ , s = 0xD26FCBA19FA3E3058FFC02CA1596CDBB6E0D20CB37B06054F7E36DED0CDBBCCF+ , pgq = rfc6979Params2048+ }+ , VectorDSA -- 2048-bit example from RFC 6979 with SHA-1+ { msg = "test"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0x6EEA486F9D41A037B2C640BC5645694FF8FF4B98D066A25F76BE641CCB24BA4F+ , r = 0xC18270A93CFC6063F57A4DFA86024F700D980E4CF4E2CB65A504397273D98EA0+ , s = 0x414F22E5F31A8B6D33295C7539C1C1BA3A6160D7D68D50AC0D3A5BEAC2884FAA+ , pgq = rfc6979Params2048+ } ] where -- (p,g,q) dsaParams = DSA.Params@@ -115,6 +151,174 @@ , DSA.params_q = 0xf85f0f83ac4df7ea0cdf8f469bfeeaea14156495 } +vectorsSHA224 =+ [ VectorDSA+ { msg = "sample"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x562097C06782D60C3037BA7BE104774344687649+ , r = 0x4BC3B686AEA70145856814A6F1BB53346F02101E+ , s = 0x410697B92295D994D21EDD2F4ADA85566F6F94C1+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "test"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x4598B8EFC1A53BC8AECD58D1ABBB0C0C71E67297+ , r = 0x6868E9964E36C1689F6037F91F28D5F2C30610F2+ , s = 0x49CEC3ACDC83018C5BD2674ECAAD35B8CD22940F+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "sample"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0xBC372967702082E1AA4FCE892209F71AE4AD25A6DFD869334E6F153BD0C4D806+ , r = 0xDC9F4DEADA8D8FF588E98FED0AB690FFCE858DC8C79376450EB6B76C24537E2C+ , s = 0xA65A9C3BC7BABE286B195D5DA68616DA8D47FA0097F36DD19F517327DC848CEC+ , pgq = rfc6979Params2048+ }+ , VectorDSA+ { msg = "test"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0x06BD4C05ED74719106223BE33F2D95DA6B3B541DAD7BFBD7AC508213B6DA6670+ , r = 0x272ABA31572F6CC55E30BF616B7A265312018DD325BE031BE0CC82AA17870EA3+ , s = 0xE9CC286A52CCE201586722D36D1E917EB96A4EBDB47932F9576AC645B3A60806+ , pgq = rfc6979Params2048+ }+ ]++vectorsSHA256 =+ [ VectorDSA+ { msg = "sample"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x519BA0546D0C39202A7D34D7DFA5E760B318BCFB+ , r = 0x81F2F5850BE5BC123C43F71A3033E9384611C545+ , s = 0x4CDD914B65EB6C66A8AAAD27299BEE6B035F5E89+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "test"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x5A67592E8128E03A417B0484410FB72C0B630E1A+ , r = 0x22518C127299B0F6FDC9872B282B9E70D0790812+ , s = 0x6837EC18F150D55DE95B5E29BE7AF5D01E4FE160+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "sample"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 0x667098C654426C78D7F8201EAC6C203EF030D43605032C2F1FA937E5237DBD949F34A0A2564FE126DC8B715C5141802CE0979C8246463C40E6B6BDAA2513FA611728716C2E4FD53BC95B89E69949D96512E873B9C8F8DFD499CC312882561ADECB31F658E934C0C197F2C4D96B05CBAD67381E7B768891E4DA3843D24D94CDFB5126E9B8BF21E8358EE0E0A30EF13FD6A664C0DCE3731F7FB49A4845A4FD8254687972A2D382599C9BAC4E0ED7998193078913032558134976410B89D2C171D123AC35FD977219597AA7D15C1A9A428E59194F75C721EBCBCFAE44696A499AFA74E04299F132026601638CB87AB79190D4A0986315DA8EEC6561C938996BEADF+ , k = 0x8926A27C40484216F052F4427CFD5647338B7B3939BC6573AF4333569D597C52+ , r = 0xEACE8BDBBE353C432A795D9EC556C6D021F7A03F42C36E9BC87E4AC7932CC809+ , s = 0x7081E175455F9247B812B74583E9E94F9EA79BD640DC962533B0680793A38D53+ , pgq = rfc6979Params2048+ }+ , VectorDSA+ { msg = "test"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0x1D6CE6DDA1C5D37307839CD03AB0A5CBB18E60D800937D67DFB4479AAC8DEAD7+ , r = 0x8190012A1969F9957D56FCCAAD223186F423398D58EF5B3CEFD5A4146A4476F0+ , s = 0x7452A53F7075D417B4B013B278D1BB8BBD21863F5E7B1CEE679CF2188E1AB19E+ , pgq = rfc6979Params2048+ }+ ]++vectorsSHA384 =+ [ VectorDSA+ { msg = "sample"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x95897CD7BBB944AA932DBC579C1C09EB6FCFC595+ , r = 0x07F2108557EE0E3921BC1774F1CA9B410B4CE65A+ , s = 0x54DF70456C86FAC10FAB47C1949AB83F2C6F7595+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "test"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x220156B761F6CA5E6C9F1B9CF9C24BE25F98CD89+ , r = 0x854CF929B58D73C3CBFDC421E8D5430CD6DB5E66+ , s = 0x91D0E0F53E22F898D158380676A871A157CDA622+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "sample"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 0x667098C654426C78D7F8201EAC6C203EF030D43605032C2F1FA937E5237DBD949F34A0A2564FE126DC8B715C5141802CE0979C8246463C40E6B6BDAA2513FA611728716C2E4FD53BC95B89E69949D96512E873B9C8F8DFD499CC312882561ADECB31F658E934C0C197F2C4D96B05CBAD67381E7B768891E4DA3843D24D94CDFB5126E9B8BF21E8358EE0E0A30EF13FD6A664C0DCE3731F7FB49A4845A4FD8254687972A2D382599C9BAC4E0ED7998193078913032558134976410B89D2C171D123AC35FD977219597AA7D15C1A9A428E59194F75C721EBCBCFAE44696A499AFA74E04299F132026601638CB87AB79190D4A0986315DA8EEC6561C938996BEADF+ , k = 0xC345D5AB3DA0A5BCB7EC8F8FB7A7E96069E03B206371EF7D83E39068EC564920+ , r = 0xB2DA945E91858834FD9BF616EBAC151EDBC4B45D27D0DD4A7F6A22739F45C00B+ , s = 0x19048B63D9FD6BCA1D9BAE3664E1BCB97F7276C306130969F63F38FA8319021B+ , pgq = rfc6979Params2048+ }+ , VectorDSA+ { msg = "test"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0x206E61F73DBE1B2DC8BE736B22B079E9DACD974DB00EEBBC5B64CAD39CF9F91C+ , r = 0x239E66DDBE8F8C230A3D071D601B6FFBDFB5901F94D444C6AF56F732BEB954BE+ , s = 0x6BD737513D5E72FE85D1C750E0F73921FE299B945AAD1C802F15C26A43D34961+ , pgq = rfc6979Params2048+ }+ ]++vectorsSHA512 =+ [ VectorDSA+ { msg = "sample"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x09ECE7CA27D0F5A4DD4E556C9DF1D21D28104F8B+ , r = 0x16C3491F9B8C3FBBDD5E7A7B667057F0D8EE8E1B+ , s = 0x02C36A127A7B89EDBB72E4FFBC71DABC7D4FC69C+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "test"+ , x = 0x411602CB19A6CCC34494D79D98EF1E7ED5AF25F7+ , y = 0x5DF5E01DED31D0297E274E1691C192FE5868FEF9E19A84776454B100CF16F65392195A38B90523E2542EE61871C0440CB87C322FC4B4D2EC5E1E7EC766E1BE8D4CE935437DC11C3C8FD426338933EBFE739CB3465F4D3668C5E473508253B1E682F65CBDC4FAE93C2EA212390E54905A86E2223170B44EAA7DA5DD9FFCFB7F3B+ , k = 0x65D2C2EEB175E370F28C75BFCDC028D22C7DBE9C+ , r = 0x8EA47E475BA8AC6F2D821DA3BD212D11A3DEB9A0+ , s = 0x7C670C7AD72B6C050C109E1790008097125433E8+ , pgq = rfc6979Params1024+ }+ , VectorDSA+ { msg = "sample"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0x5A12994431785485B3F5F067221517791B85A597B7A9436995C89ED0374668FC+ , r = 0x2016ED092DC5FB669B8EFB3D1F31A91EECB199879BE0CF78F02BA062CB4C942E+ , s = 0xD0C76F84B5F091E141572A639A4FB8C230807EEA7D55C8A154A224400AFF2351+ , pgq = rfc6979Params2048+ }+ , VectorDSA+ { msg = "test"+ , x = 0x69C7548C21D0DFEA6B9A51C9EAD4E27C33D3B3F180316E5BCAB92C933F0E4DBC+ , y = 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k = 0xAFF1651E4CD6036D57AA8B2A05CCF1A9D5A40166340ECBBDC55BE10B568AA0AA+ , r = 0x89EC4BB1400ECCFF8E7D9AA515CD1DE7803F2DAFF09693EE7FD1353E90A68307+ , s = 0xC9F0BDABCC0D880BB137A994CC7F3980CE91CC10FAF529FC46565B15CEA854E1+ , pgq = rfc6979Params2048+ }+ ]++rfc6979Params1024 = DSA.Params+ { DSA.params_p = 0x86F5CA03DCFEB225063FF830A0C769B9DD9D6153AD91D7CE27F787C43278B447E6533B86B18BED6E8A48B784A14C252C5BE0DBF60B86D6385BD2F12FB763ED8873ABFD3F5BA2E0A8C0A59082EAC056935E529DAF7C610467899C77ADEDFC846C881870B7B19B2B58F9BE0521A17002E3BDD6B86685EE90B3D9A1B02B782B1779+ , DSA.params_g = 0x07B0F92546150B62514BB771E2A0C0CE387F03BDA6C56B505209FF25FD3C133D89BBCD97E904E09114D9A7DEFDEADFC9078EA544D2E401AEECC40BB9FBBF78FD87995A10A1C27CB7789B594BA7EFB5C4326A9FE59A070E136DB77175464ADCA417BE5DCE2F40D10A46A3A3943F26AB7FD9C0398FF8C76EE0A56826A8A88F1DBD+ , DSA.params_q = 0x996F967F6C8E388D9E28D01E205FBA957A5698B1+ }++rfc6979Params2048 = DSA.Params+ { DSA.params_p = 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params_g = 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params_q = 0xF2C3119374CE76C9356990B465374A17F23F9ED35089BD969F61C6DDE9998C1F+ }+ vectorToPrivate :: VectorDSA -> DSA.PrivateKey vectorToPrivate vector = DSA.PrivateKey { DSA.private_x = x vector@@ -127,16 +331,32 @@ , DSA.public_params = pgq vector } -doSignatureTest (i, vector) = testCase (show i) (expected @=? actual)+doSignatureTest hashAlg i vector = testCase (show i) (expected @=? actual) where expected = Just $ DSA.Signature (r vector) (s vector)- actual = DSA.signWith (k vector) (vectorToPrivate vector) SHA1 (msg vector)+ actual = DSA.signWith (k vector) (vectorToPrivate vector) hashAlg (msg vector) -doVerifyTest (i, vector) = testCase (show i) (True @=? actual)- where actual = DSA.verify SHA1 (vectorToPublic vector) (DSA.Signature (r vector) (s vector)) (msg vector)+doVerifyTest hashAlg i vector = testCase (show i) (True @=? actual)+ where actual = DSA.verify hashAlg (vectorToPublic vector) (DSA.Signature (r vector) (s vector)) (msg vector) dsaTests = testGroup "DSA" [ testGroup "SHA1"- [ testGroup "signature" $ map doSignatureTest (zip [katZero..] vectorsSHA1)- , testGroup "verify" $ map doVerifyTest (zip [katZero..] vectorsSHA1)+ [ testGroup "signature" $ zipWith (doSignatureTest SHA1) [katZero..] vectorsSHA1+ , testGroup "verify" $ zipWith (doVerifyTest SHA1) [katZero..] vectorsSHA1+ ]+ , testGroup "SHA224"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA224) [katZero..] vectorsSHA224+ , testGroup "verify" $ zipWith (doVerifyTest SHA224) [katZero..] vectorsSHA224+ ]+ , testGroup "SHA256"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA256) [katZero..] vectorsSHA256+ , testGroup "verify" $ zipWith (doVerifyTest SHA256) [katZero..] vectorsSHA256+ ]+ , testGroup "SHA384"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA384) [katZero..] vectorsSHA384+ , testGroup "verify" $ zipWith (doVerifyTest SHA384) [katZero..] vectorsSHA384+ ]+ , testGroup "SHA512"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA512) [katZero..] vectorsSHA512+ , testGroup "verify" $ zipWith (doVerifyTest SHA512) [katZero..] vectorsSHA512 ] ]
tests/KAT_PubKey/ECC.hs view
@@ -136,12 +136,18 @@ } ] -doPointValidTest (i, vector) = testCase (show i) (valid vector @=? ECC.isPointValid (curve vector) (ECC.Point (x vector) (y vector)))+doPointValidTest i vector = testCase (show i) (valid vector @=? ECC.isPointValid (curve vector) (ECC.Point (x vector) (y vector))) +arbitraryPoint :: ECC.Curve -> Gen ECC.Point+arbitraryPoint aCurve =+ frequency [(5, return ECC.PointO), (95, pointGen)]+ where+ n = ECC.ecc_n (ECC.common_curve aCurve)+ pointGen = ECC.pointBaseMul aCurve <$> choose (1, n - 1) eccTests = testGroup "ECC"- [ testGroup "valid-point" $ map doPointValidTest (zip [katZero..] vectorsPoint)- , testGroup "property" $+ [ testGroup "valid-point" $ zipWith doPointValidTest [katZero..] vectorsPoint+ , localOption (QuickCheckTests 20) $ testGroup "property" [ testProperty "point-add" $ \aCurve (QAInteger r1) (QAInteger r2) -> let curveN = ECC.ecc_n . ECC.common_curve $ aCurve curveGen = ECC.ecc_g . ECC.common_curve $ aCurve@@ -149,6 +155,24 @@ p2 = ECC.pointMul aCurve r2 curveGen pR = ECC.pointMul aCurve ((r1 + r2) `mod` curveN) curveGen in pR `propertyEq` ECC.pointAdd aCurve p1 p2+ , testProperty "point-negate-add" $ \aCurve -> do+ p <- arbitraryPoint aCurve+ let o = ECC.pointAdd aCurve p (ECC.pointNegate aCurve p)+ return $ ECC.PointO `propertyEq` o+ , testProperty "point-negate-negate" $ \aCurve -> do+ p <- arbitraryPoint aCurve+ return $ p `propertyEq` ECC.pointNegate aCurve (ECC.pointNegate aCurve p)+ , testProperty "point-mul-mul" $ \aCurve (QAInteger n1) (QAInteger n2) -> do+ p <- arbitraryPoint aCurve+ let pRes = ECC.pointMul aCurve (n1 * n2) p+ let pDef = ECC.pointMul aCurve n1 (ECC.pointMul aCurve n2 p)+ return $ pRes `propertyEq` pDef+ , testProperty "double-scalar-mult" $ \aCurve (QAInteger n1) (QAInteger n2) -> do+ p1 <- arbitraryPoint aCurve+ p2 <- arbitraryPoint aCurve+ let pRes = ECC.pointAddTwoMuls aCurve n1 p1 n2 p2+ let pDef = ECC.pointAdd aCurve (ECC.pointMul aCurve n1 p1) (ECC.pointMul aCurve n2 p2)+ return $ pRes `propertyEq` pDef ] ]
tests/KAT_PubKey/ECDSA.hs view
@@ -1,4 +1,5 @@--- Test vectors are taken from GEC2: www.secg.org/collateral/gec2.pdf+-- Test vectors for SHA1 are taken from GEC2: www.secg.org/collateral/gec2.pdf+-- Test vectors for SHA224, SHA256, SHA384, SHA512 are taken from RFC 6979 {-# LANGUAGE OverloadedStrings #-} module KAT_PubKey.ECDSA (ecdsaTests) where @@ -6,7 +7,7 @@ import qualified Crypto.PubKey.ECC.ECDSA as ECDSA import qualified Crypto.PubKey.ECC.Types as ECC-import Crypto.Hash (SHA1(..))+import Crypto.Hash (SHA1(..), SHA224(..), SHA256(..), SHA384(..), SHA512(..)) import Imports @@ -71,22 +72,450 @@ } ] +rfc6979_vectorsSHA224 =+ [ VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "sample"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0x4381526b3fc1e7128f202e194505592f01d5ff4c5af015d8+ , r = 0xa1f00dad97aeec91c95585f36200c65f3c01812aa60378f5+ , s = 0xe07ec1304c7c6c9debbe980b9692668f81d4de7922a0f97a+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "test"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0xf5dc805f76ef851800700cce82e7b98d8911b7d510059fbe+ , r = 0x6945a1c1d1b2206b8145548f633bb61cef04891baf26ed34+ , s = 0xb7fb7fdfc339c0b9bd61a9f5a8eaf9be58fc5cba2cb15293+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "sample"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0xc1d1f2f10881088301880506805feb4825fe09acb6816c36991aa06d+ , r = 0x1cdfe6662dde1e4a1ec4cdedf6a1f5a2fb7fbd9145c12113e6abfd3e+ , s = 0xa6694fd7718a21053f225d3f46197ca699d45006c06f871808f43ebc+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "test"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0xdf8b38d40dca3e077d0ac520bf56b6d565134d9b5f2eae0d34900524+ , r = 0xc441ce8e261ded634e4cf84910e4c5d1d22c5cf3b732bb204dbef019+ , s = 0x902f42847a63bdc5f6046ada114953120f99442d76510150f372a3f4+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "sample"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0x103f90ee9dc52e5e7fb5132b7033c63066d194321491862059967c715985d473+ , r = 0x53b2fff5d1752b2c689df257c04c40a587fababb3f6fc2702f1343af7ca9aa3f+ , s = 0xb9afb64fdc03dc1a131c7d2386d11e349f070aa432a4acc918bea988bf75c74c+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "test"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0x669f4426f2688b8be0db3a6bd1989bdaefff84b649eeb84f3dd26080f667faa7+ , r = 0xc37edb6f0ae79d47c3c27e962fa269bb4f441770357e114ee511f662ec34a692+ , s = 0xc820053a05791e521fcaad6042d40aea1d6b1a540138558f47d0719800e18f2d+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "sample"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0xa4e4d2f0e729eb786b31fc20ad5d849e304450e0ae8e3e341134a5c1afa03cab8083ee4e3c45b06a5899ea56c51b5879+ , r = 0x42356e76b55a6d9b4631c865445dbe54e056d3b3431766d0509244793c3f9366450f76ee3de43f5a125333a6be060122+ , s = 0x9da0c81787064021e78df658f2fbb0b042bf304665db721f077a4298b095e4834c082c03d83028efbf93a3c23940ca8d+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "test"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x18fa39db95aa5f561f30fa3591dc59c0fa3653a80daffa0b48d1a4c6dfcbff6e3d33be4dc5eb8886a8ecd093f2935726+ , r = 0xe8c9d0b6ea72a0e7837fea1d14a1a9557f29faa45d3e7ee888fc5bf954b5e62464a9a817c47ff78b8c11066b24080e72+ , s = 0x07041d4a7a0379ac7232ff72e6f77b6ddb8f09b16cce0ec3286b2bd43fa8c6141c53ea5abef0d8231077a04540a96b66+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "sample"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x121415ec2cd7726330a61f7f3fa5de14be9436019c4db8cb4041f3b54cf31be0493ee3f427fb906393d895a19c9523f3a1d54bb8702bd4aa9c99dab2597b92113f3+ , r = 0x1776331cfcdf927d666e032e00cf776187bc9fdd8e69d0dabb4109ffe1b5e2a30715f4cc923a4a5e94d2503e9acfed92857b7f31d7152e0f8c00c15ff3d87e2ed2e+ , s = 0x050cb5265417fe2320bbb5a122b8e1a32bd699089851128e360e620a30c7e17ba41a666af126ce100e5799b153b60528d5300d08489ca9178fb610a2006c254b41f+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "test"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x040d09fcf3c8a5f62cf4fb223cbbb2b9937f6b0577c27020a99602c25a01136987e452988781484edbbcf1c47e554e7fc901bc3085e5206d9f619cff07e73d6f706+ , r = 0x1c7ed902e123e6815546065a2c4af977b22aa8eaddb68b2c1110e7ea44d42086bfe4a34b67ddc0e17e96536e358219b23a706c6a6e16ba77b65e1c595d43cae17fb+ , s = 0x177336676304fcb343ce028b38e7b4fba76c1c1b277da18cad2a8478b2a9a9f5bec0f3ba04f35db3e4263569ec6aade8c92746e4c82f8299ae1b8f1739f8fd519a4+ }+ ]++rfc6979_vectorsSHA256 =+ [ VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "sample"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0x32b1b6d7d42a05cb449065727a84804fb1a3e34d8f261496+ , r = 0x4b0b8ce98a92866a2820e20aa6b75b56382e0f9bfd5ecb55+ , s = 0xccdb006926ea9565cbadc840829d8c384e06de1f1e381b85+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "test"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0x5c4ce89cf56d9e7c77c8585339b006b97b5f0680b4306c6c+ , r = 0x3a718bd8b4926c3b52ee6bbe67ef79b18cb6eb62b1ad97ae+ , s = 0x5662e6848a4a19b1f1ae2f72acd4b8bbe50f1eac65d9124f+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "sample"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0xad3029e0278f80643de33917ce6908c70a8ff50a411f06e41dedfcdc+ , r = 0x61aa3da010e8e8406c656bc477a7a7189895e7e840cdfe8ff42307ba+ , s = 0xbc814050dab5d23770879494f9e0a680dc1af7161991bde692b10101+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "test"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0xff86f57924da248d6e44e8154eb69f0ae2aebaee9931d0b5a969f904+ , r = 0xad04dde87b84747a243a631ea47a1ba6d1faa059149ad2440de6fba6+ , s = 0x178d49b1ae90e3d8b629be3db5683915f4e8c99fdf6e666cf37adcfd+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "sample"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0xa6e3c57dd01abe90086538398355dd4c3b17aa873382b0f24d6129493d8aad60+ , r = 0xefd48b2aacb6a8fd1140dd9cd45e81d69d2c877b56aaf991c34d0ea84eaf3716+ , s = 0xf7cb1c942d657c41d436c7a1b6e29f65f3e900dbb9aff4064dc4ab2f843acda8+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "test"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0xd16b6ae827f17175e040871a1c7ec3500192c4c92677336ec2537acaee0008e0+ , r = 0xf1abb023518351cd71d881567b1ea663ed3efcf6c5132b354f28d3b0b7d38367+ , s = 0x019f4113742a2b14bd25926b49c649155f267e60d3814b4c0cc84250e46f0083+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "sample"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x180ae9f9aec5438a44bc159a1fcb277c7be54fa20e7cf404b490650a8acc414e375572342863c899f9f2edf9747a9b60+ , r = 0x21b13d1e013c7fa1392d03c5f99af8b30c570c6f98d4ea8e354b63a21d3daa33bde1e888e63355d92fa2b3c36d8fb2cd+ , s = 0xf3aa443fb107745bf4bd77cb3891674632068a10ca67e3d45db2266fa7d1feebefdc63eccd1ac42ec0cb8668a4fa0ab0+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "test"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x0cfac37587532347dc3389fdc98286bba8c73807285b184c83e62e26c401c0faa48dd070ba79921a3457abff2d630ad7+ , r = 0x6d6defac9ab64dabafe36c6bf510352a4cc27001263638e5b16d9bb51d451559f918eedaf2293be5b475cc8f0188636b+ , s = 0x2d46f3becbcc523d5f1a1256bf0c9b024d879ba9e838144c8ba6baeb4b53b47d51ab373f9845c0514eefb14024787265+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "sample"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x0edf38afcaaecab4383358b34d67c9f2216c8382aaea44a3dad5fdc9c32575761793fef24eb0fc276dfc4f6e3ec476752f043cf01415387470bcbd8678ed2c7e1a0+ , r = 0x1511bb4d675114fe266fc4372b87682baecc01d3cc62cf2303c92b3526012659d16876e25c7c1e57648f23b73564d67f61c6f14d527d54972810421e7d87589e1a7+ , s = 0x04a171143a83163d6df460aaf61522695f207a58b95c0644d87e52aa1a347916e4f7a72930b1bc06dbe22ce3f58264afd23704cbb63b29b931f7de6c9d949a7ecfc+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "test"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x01de74955efaabc4c4f17f8e84d881d1310b5392d7700275f82f145c61e843841af09035bf7a6210f5a431a6a9e81c9323354a9e69135d44ebd2fcaa7731b909258+ , r = 0x00e871c4a14f993c6c7369501900c4bc1e9c7b0b4ba44e04868b30b41d8071042eb28c4c250411d0ce08cd197e4188ea4876f279f90b3d8d74a3c76e6f1e4656aa8+ , s = 0x0cd52dbaa33b063c3a6cd8058a1fb0a46a4754b034fcc644766ca14da8ca5ca9fde00e88c1ad60ccba759025299079d7a427ec3cc5b619bfbc828e7769bcd694e86+ }+ ]++rfc6979_vectorsSHA384 =+ [ VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "sample"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0x4730005c4fcb01834c063a7b6760096dbe284b8252ef4311+ , r = 0xda63bf0b9abcf948fbb1e9167f136145f7a20426dcc287d5+ , s = 0xc3aa2c960972bd7a2003a57e1c4c77f0578f8ae95e31ec5e+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "test"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0x5afefb5d3393261b828db6c91fbc68c230727b030c975693+ , r = 0xb234b60b4db75a733e19280a7a6034bd6b1ee88af5332367+ , s = 0x7994090b2d59bb782be57e74a44c9a1c700413f8abefe77a+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "sample"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0x52b40f5a9d3d13040f494e83d3906c6079f29981035c7bd51e5cac40+ , r = 0x0b115e5e36f0f9ec81f1325a5952878d745e19d7bb3eabfaba77e953+ , s = 0x830f34ccdfe826ccfdc81eb4129772e20e122348a2bbd889a1b1af1d+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "test"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0x7046742b839478c1b5bd31db2e862ad868e1a45c863585b5f22bdc2d+ , r = 0x389b92682e399b26518a95506b52c03bc9379a9dadf3391a21fb0ea4+ , s = 0x414a718ed3249ff6dbc5b50c27f71f01f070944da22ab1f78f559aab+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "sample"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0x09f634b188cefd98e7ec88b1aa9852d734d0bc272f7d2a47decc6ebeb375aad4+ , r = 0x0eafea039b20e9b42309fb1d89e213057cbf973dc0cfc8f129edddc800ef7719+ , s = 0x4861f0491e6998b9455193e34e7b0d284ddd7149a74b95b9261f13abde940954+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "test"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0x16aeffa357260b04b1dd199693960740066c1a8f3e8edd79070aa914d361b3b8+ , r = 0x83910e8b48bb0c74244ebdf7f07a1c5413d61472bd941ef3920e623fbccebeb6+ , s = 0x8ddbec54cf8cd5874883841d712142a56a8d0f218f5003cb0296b6b509619f2c+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "sample"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x94ed910d1a099dad3254e9242ae85abde4ba15168eaf0ca87a555fd56d10fbca2907e3e83ba95368623b8c4686915cf9+ , r = 0x94edbb92a5ecb8aad4736e56c691916b3f88140666ce9fa73d64c4ea95ad133c81a648152e44acf96e36dd1e80fabe46+ , s = 0x99ef4aeb15f178cea1fe40db2603138f130e740a19624526203b6351d0a3a94fa329c145786e679e7b82c71a38628ac8+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "test"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x015ee46a5bf88773ed9123a5ab0807962d193719503c527b031b4c2d225092ada71f4a459bc0da98adb95837db8312ea+ , r = 0x8203b63d3c853e8d77227fb377bcf7b7b772e97892a80f36ab775d509d7a5feb0542a7f0812998da8f1dd3ca3cf023db+ , s = 0xddd0760448d42d8a43af45af836fce4de8be06b485e9b61b827c2f13173923e06a739f040649a667bf3b828246baa5a5+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "sample"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x1546a108bc23a15d6f21872f7ded661fa8431ddbd922d0dcdb77cc878c8553ffad064c95a920a750ac9137e527390d2d92f153e66196966ea554d9adfcb109c4211+ , r = 0x1ea842a0e17d2de4f92c15315c63ddf72685c18195c2bb95e572b9c5136ca4b4b576ad712a52be9730627d16054ba40cc0b8d3ff035b12ae75168397f5d50c67451+ , s = 0x1f21a3cee066e1961025fb048bd5fe2b7924d0cd797babe0a83b66f1e35eeaf5fde143fa85dc394a7dee766523393784484bdf3e00114a1c857cde1aa203db65d61+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "test"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x1f1fc4a349a7da9a9e116bfdd055dc08e78252ff8e23ac276ac88b1770ae0b5dceb1ed14a4916b769a523ce1e90ba22846af11df8b300c38818f713dadd85de0c88+ , r = 0x14bee21a18b6d8b3c93fab08d43e739707953244fdbe924fa926d76669e7ac8c89df62ed8975c2d8397a65a49dcc09f6b0ac62272741924d479354d74ff6075578c+ , s = 0x133330865c067a0eaf72362a65e2d7bc4e461e8c8995c3b6226a21bd1aa78f0ed94fe536a0dca35534f0cd1510c41525d163fe9d74d134881e35141ed5e8e95b979+ }+ ]++rfc6979_vectorsSHA512 =+ [ VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "sample"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0xa2ac7ab055e4f20692d49209544c203a7d1f2c0bfbc75db1+ , r = 0x4d60c5ab1996bd848343b31c00850205e2ea6922dac2e4b8+ , s = 0x3f6e837448f027a1bf4b34e796e32a811cbb4050908d8f67+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p192r1+ , msg = "test"+ , d = 0x6fab034934e4c0fc9ae67f5b5659a9d7d1fefd187ee09fd4+ , q = ECC.Point 0xac2c77f529f91689fea0ea5efec7f210d8eea0b9e047ed56+ 0x3bc723e57670bd4887ebc732c523063d0a7c957bc97c1c43+ , k = 0x0758753a5254759c7cfbad2e2d9b0792eee44136c9480527+ , r = 0xfe4f4ae86a58b6507946715934fe2d8ff9d95b6b098fe739+ , s = 0x74cf5605c98fba0e1ef34d4b5a1577a7dcf59457cae52290+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "sample"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0x9db103ffededf9cfdba05184f925400c1653b8501bab89cea0fbec14+ , r = 0x074bd1d979d5f32bf958ddc61e4fb4872adcafeb2256497cdac30397+ , s = 0xa4ceca196c3d5a1ff31027b33185dc8ee43f288b21ab342e5d8eb084+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p224r1+ , msg = "test"+ , d = 0xf220266e1105bfe3083e03ec7a3a654651f45e37167e88600bf257c1+ , q = ECC.Point 0x00cf08da5ad719e42707fa431292dea11244d64fc51610d94b130d6c+ 0xeeab6f3debe455e3dbf85416f7030cbd94f34f2d6f232c69f3c1385a+ , k = 0xe39c2aa4ea6be2306c72126d40ed77bf9739bb4d6ef2bbb1dcb6169d+ , r = 0x049f050477c5add858cac56208394b5a55baebbe887fdf765047c17c+ , s = 0x077eb13e7005929cefa3cd0403c7cdcc077adf4e44f3c41b2f60ecff+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "sample"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0x5fa81c63109badb88c1f367b47da606da28cad69aa22c4fe6ad7df73a7173aa5+ , r = 0x8496a60b5e9b47c825488827e0495b0e3fa109ec4568fd3f8d1097678eb97f00+ , s = 0x2362ab1adbe2b8adf9cb9edab740ea6049c028114f2460f96554f61fae3302fe+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p256r1+ , msg = "test"+ , d = 0xc9afa9d845ba75166b5c215767b1d6934e50c3db36e89b127b8a622b120f6721+ , q = ECC.Point 0x60fed4ba255a9d31c961eb74c6356d68c049b8923b61fa6ce669622e60f29fb6+ 0x7903fe1008b8bc99a41ae9e95628bc64f2f1b20c2d7e9f5177a3c294d4462299+ , k = 0x6915d11632aca3c40d5d51c08daf9c555933819548784480e93499000d9f0b7f+ , r = 0x461d93f31b6540894788fd206c07cfa0cc35f46fa3c91816fff1040ad1581a04+ , s = 0x39af9f15de0db8d97e72719c74820d304ce5226e32dedae67519e840d1194e55+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "sample"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x92fc3c7183a883e24216d1141f1a8976c5b0dd797dfa597e3d7b32198bd35331a4e966532593a52980d0e3aaa5e10ec3+ , r = 0xed0959d5880ab2d869ae7f6c2915c6d60f96507f9cb3e047c0046861da4a799cfe30f35cc900056d7c99cd7882433709+ , s = 0x512c8cceee3890a84058ce1e22dbc2198f42323ce8aca9135329f03c068e5112dc7cc3ef3446defceb01a45c2667fdd5+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p384r1+ , msg = "test"+ , d = 0x6b9d3dad2e1b8c1c05b19875b6659f4de23c3b667bf297ba9aa47740787137d896d5724e4c70a825f872c9ea60d2edf5+ , q = ECC.Point 0xec3a4e415b4e19a4568618029f427fa5da9a8bc4ae92e02e06aae5286b300c64def8f0ea9055866064a254515480bc13+ 0x8015d9b72d7d57244ea8ef9ac0c621896708a59367f9dfb9f54ca84b3f1c9db1288b231c3ae0d4fe7344fd2533264720+ , k = 0x3780c4f67cb15518b6acae34c9f83568d2e12e47deab6c50a4e4ee5319d1e8ce0e2cc8a136036dc4b9c00e6888f66b6c+ , r = 0xa0d5d090c9980faf3c2ce57b7ae951d31977dd11c775d314af55f76c676447d06fb6495cd21b4b6e340fc236584fb277+ , s = 0x976984e59b4c77b0e8e4460dca3d9f20e07b9bb1f63beefaf576f6b2e8b224634a2092cd3792e0159ad9cee37659c736+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "sample"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x1dae2ea071f8110dc26882d4d5eae0621a3256fc8847fb9022e2b7d28e6f10198b1574fdd03a9053c08a1854a168aa5a57470ec97dd5ce090124ef52a2f7ecbffd3+ , r = 0x0c328fafcbd79dd77850370c46325d987cb525569fb63c5d3bc53950e6d4c5f174e25a1ee9017b5d450606add152b534931d7d4e8455cc91f9b15bf05ec36e377fa+ , s = 0x0617cce7cf5064806c467f678d3b4080d6f1cc50af26ca209417308281b68af282623eaa63e5b5c0723d8b8c37ff0777b1a20f8ccb1dccc43997f1ee0e44da4a67a+ }+ , VectorECDSA+ { curve = ECC.getCurveByName ECC.SEC_p521r1+ , msg = "test"+ , d = 0x0fad06daa62ba3b25d2fb40133da757205de67f5bb0018fee8c86e1b68c7e75caa896eb32f1f47c70855836a6d16fcc1466f6d8fbec67db89ec0c08b0e996b83538+ , q = ECC.Point 0x1894550d0785932e00eaa23b694f213f8c3121f86dc97a04e5a7167db4e5bcd371123d46e45db6b5d5370a7f20fb633155d38ffa16d2bd761dcac474b9a2f5023a4+ 0x0493101c962cd4d2fddf782285e64584139c2f91b47f87ff82354d6630f746a28a0db25741b5b34a828008b22acc23f924faafbd4d33f81ea66956dfeaa2bfdfcf5+ , k = 0x16200813020ec986863bedfc1b121f605c1215645018aea1a7b215a564de9eb1b38a67aa1128b80ce391c4fb71187654aaa3431027bfc7f395766ca988c964dc56d+ , r = 0x13e99020abf5cee7525d16b69b229652ab6bdf2affcaef38773b4b7d08725f10cdb93482fdcc54edcee91eca4166b2a7c6265ef0ce2bd7051b7cef945babd47ee6d+ , s = 0x1fbd0013c674aa79cb39849527916ce301c66ea7ce8b80682786ad60f98f7e78a19ca69eff5c57400e3b3a0ad66ce0978214d13baf4e9ac60752f7b155e2de4dce3+ }+ ]+ vectorToPrivate :: VectorECDSA -> ECDSA.PrivateKey vectorToPrivate vector = ECDSA.PrivateKey (curve vector) (d vector) vectorToPublic :: VectorECDSA -> ECDSA.PublicKey vectorToPublic vector = ECDSA.PublicKey (curve vector) (q vector) -doSignatureTest (i, vector) = testCase (show i) (expected @=? actual)+doSignatureTest hashAlg i vector = testCase (show i) (expected @=? actual) where expected = Just $ ECDSA.Signature (r vector) (s vector)- actual = ECDSA.signWith (k vector) (vectorToPrivate vector) SHA1 (msg vector)+ actual = ECDSA.signWith (k vector) (vectorToPrivate vector) hashAlg (msg vector) -doVerifyTest (i, vector) = testCase (show i) (True @=? actual)- where actual = ECDSA.verify SHA1 (vectorToPublic vector) (ECDSA.Signature (r vector) (s vector)) (msg vector)+doVerifyTest hashAlg i vector = testCase (show i) (True @=? actual)+ where actual = ECDSA.verify hashAlg (vectorToPublic vector) (ECDSA.Signature (r vector) (s vector)) (msg vector) ecdsaTests = testGroup "ECDSA" [ testGroup "SHA1"- [ testGroup "signature" $ map doSignatureTest (zip [katZero..] vectorsSHA1)- , testGroup "verify" $ map doVerifyTest (zip [katZero..] vectorsSHA1)+ [ testGroup "signature" $ zipWith (doSignatureTest SHA1) [katZero..] vectorsSHA1+ , testGroup "verify" $ zipWith (doVerifyTest SHA1) [katZero..] vectorsSHA1+ ]+ , testGroup "SHA224"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA224) [katZero..] rfc6979_vectorsSHA224+ , testGroup "verify" $ zipWith (doVerifyTest SHA224) [katZero..] rfc6979_vectorsSHA224+ ]+ , testGroup "SHA256"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA256) [katZero..] rfc6979_vectorsSHA256+ , testGroup "verify" $ zipWith (doVerifyTest SHA256) [katZero..] rfc6979_vectorsSHA256+ ]+ , testGroup "SHA384"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA384) [katZero..] rfc6979_vectorsSHA384+ , testGroup "verify" $ zipWith (doVerifyTest SHA384) [katZero..] rfc6979_vectorsSHA384+ ]+ , testGroup "SHA512"+ [ testGroup "signature" $ zipWith (doSignatureTest SHA512) [katZero..] rfc6979_vectorsSHA512+ , testGroup "verify" $ zipWith (doVerifyTest SHA512) [katZero..] rfc6979_vectorsSHA512 ] ]
tests/KAT_PubKey/OAEP.hs view
@@ -81,17 +81,17 @@ } ] -doEncryptionTest key (i, vec) = testCase (show i) (Right (cipherText vec) @=? actual)- where actual = OAEP.encryptWithSeed (seed vec) (OAEP.defaultOAEPParams SHA1) key (message vec) +doEncryptionTest key i vec = testCase (show i) (Right (cipherText vec) @=? actual)+ where actual = OAEP.encryptWithSeed (seed vec) (OAEP.defaultOAEPParams SHA1) key (message vec) -doDecryptionTest key (i, vec) = testCase (show i) (Right (message vec) @=? actual)+doDecryptionTest key i vec = testCase (show i) (Right (message vec) @=? actual) where actual = OAEP.decrypt Nothing (OAEP.defaultOAEPParams SHA1) key (cipherText vec) oaepTests = testGroup "RSA-OAEP" [ testGroup "internal"- [ doEncryptionTest (private_pub rsaKeyInt) (0 :: Int, vectorInt)- , doDecryptionTest rsaKeyInt (0 :: Int, vectorInt)+ [ doEncryptionTest (private_pub rsaKeyInt) (0 :: Int) vectorInt+ , doDecryptionTest rsaKeyInt (0 :: Int) vectorInt ]- , testGroup "encryption key 1024 bits" $ map (doEncryptionTest $ private_pub rsaKey1) (zip [katZero..] vectorsKey1)- , testGroup "decryption key 1024 bits" $ map (doDecryptionTest rsaKey1) (zip [katZero..] vectorsKey1)+ , testGroup "encryption key 1024 bits" $ zipWith (doEncryptionTest $ private_pub rsaKey1) [katZero..] vectorsKey1+ , testGroup "decryption key 1024 bits" $ zipWith (doDecryptionTest rsaKey1) [katZero..] vectorsKey1 ]
tests/KAT_PubKey/P256.hs view
@@ -17,7 +17,19 @@ deriving (Show,Eq,Ord) instance Arbitrary P256Scalar where- arbitrary = P256Scalar . getQAInteger <$> arbitrary+ -- Cover the full range up to 2^256-1 except 0 and curveN. To test edge+ -- cases with arithmetic functions, some values close to 0, curveN and+ -- 2^256 are given higher frequency.+ arbitrary = P256Scalar <$> oneof+ [ choose (1, w)+ , choose (w + 1, curveN - w - 1)+ , choose (curveN - w, curveN - 1)+ , choose (curveN + 1, curveN + w)+ , choose (curveN + w + 1, high - w - 1)+ , choose (high - w, high - 1)+ ]+ where high = 2^(256 :: Int)+ w = 100 curve = ECC.getCurveByName ECC.SEC_p256r1 curveN = ECC.ecc_n . ECC.common_curve $ curve@@ -26,23 +38,25 @@ pointP256ToECC :: P256.Point -> ECC.Point pointP256ToECC = uncurry ECC.Point . P256.pointToIntegers +i2ospScalar :: Integer -> Bytes+i2ospScalar i =+ case i2ospOf 32 i of+ Nothing -> error "invalid size of P256 scalar"+ Just b -> b+ unP256Scalar :: P256Scalar -> P256.Scalar-unP256Scalar (P256Scalar r') =- let r = if r' == 0 then 0x2901 else (r' `mod` curveN)- rBytes = i2ospScalar r+unP256Scalar (P256Scalar r) =+ let rBytes = i2ospScalar r in case P256.scalarFromBinary rBytes of CryptoFailed err -> error ("cannot convert scalar: " ++ show err) CryptoPassed scalar -> scalar- where- i2ospScalar :: Integer -> Bytes- i2ospScalar i =- case i2ospOf 32 i of- Nothing -> error "invalid size of P256 scalar"- Just b -> b unP256 :: P256Scalar -> Integer-unP256 (P256Scalar r') = if r' == 0 then 0x2901 else (r' `mod` curveN)+unP256 (P256Scalar r) = r +modP256Scalar :: P256Scalar -> P256Scalar+modP256Scalar (P256Scalar r) = P256Scalar (r `mod` curveN)+ p256ScalarToInteger :: P256.Scalar -> Integer p256ScalarToInteger s = os2ip (P256.scalarToBinary s :: Bytes) @@ -55,9 +69,8 @@ tests = testGroup "P256" [ testGroup "scalar"- [ testProperty "marshalling" $ \(QAInteger r') ->- let r = r' `mod` curveN- rBytes = i2ospScalar r+ [ testProperty "marshalling" $ \(QAInteger r) ->+ let rBytes = i2ospScalar r in case P256.scalarFromBinary rBytes of CryptoFailed err -> error (show err) CryptoPassed scalar -> rBytes `propertyEq` P256.scalarToBinary scalar@@ -66,14 +79,9 @@ r' = P256.scalarAdd (unP256Scalar r1) (unP256Scalar r2) in r `propertyEq` p256ScalarToInteger r' , testProperty "add0" $ \r ->- let v = unP256 r+ let v = unP256 r `mod` curveN v' = P256.scalarAdd (unP256Scalar r) P256.scalarZero in v `propertyEq` p256ScalarToInteger v'- , testProperty "add-n-1" $ \r ->- let nm1 = throwCryptoError $ P256.scalarFromInteger (curveN - 1)- v = unP256 r- v' = P256.scalarAdd (unP256Scalar r) nm1- in (((curveN - 1) + v) `mod` curveN) `propertyEq` p256ScalarToInteger v' , testProperty "sub" $ \r1 r2 -> let r = (unP256 r1 - unP256 r2) `mod` curveN r' = P256.scalarSub (unP256Scalar r1) (unP256Scalar r2)@@ -83,21 +91,38 @@ [ eqTest "r1-r2" r (p256ScalarToInteger r') , eqTest "r2-r1" v (p256ScalarToInteger v') ]- , testProperty "sub-n-1" $ \r ->- let nm1 = throwCryptoError $ P256.scalarFromInteger (curveN - 1)- v = unP256 r- v' = P256.scalarSub (unP256Scalar r) nm1- in ((v - (curveN - 1)) `mod` curveN) `propertyEq` p256ScalarToInteger v'+ , testProperty "sub0" $ \r ->+ let v = unP256 r `mod` curveN+ v' = P256.scalarSub (unP256Scalar r) P256.scalarZero+ in v `propertyEq` p256ScalarToInteger v'+ , testProperty "mul" $ \r1 r2 ->+ let r = (unP256 r1 * unP256 r2) `mod` curveN+ r' = P256.scalarMul (unP256Scalar r1) (unP256Scalar r2)+ in r `propertyEq` p256ScalarToInteger r' , testProperty "inv" $ \r' -> let inv = inverseCoprimes (unP256 r') curveN inv' = P256.scalarInv (unP256Scalar r')- in if unP256 r' == 0 then True else inv `propertyEq` p256ScalarToInteger inv'+ in unP256 r' /= 0 ==> inv `propertyEq` p256ScalarToInteger inv'+ , testProperty "inv-safe" $ \r' ->+ let inv = P256.scalarInv (unP256Scalar r')+ inv' = P256.scalarInvSafe (unP256Scalar r')+ in unP256 r' /= 0 ==> inv `propertyEq` inv'+ , testProperty "inv-safe-mul" $ \r' ->+ let inv = P256.scalarInvSafe (unP256Scalar r')+ res = P256.scalarMul (unP256Scalar r') inv+ in unP256 r' /= 0 ==> 1 `propertyEq` p256ScalarToInteger res+ , testProperty "inv-safe-zero" $+ let inv0 = P256.scalarInvSafe P256.scalarZero+ invN = P256.scalarInvSafe P256.scalarN+ in propertyHold [ eqTest "scalarZero" P256.scalarZero inv0+ , eqTest "scalarN" P256.scalarZero invN+ ] ] , testGroup "point" [ testProperty "marshalling" $ \rx ry -> let p = P256.pointFromIntegers (unP256 rx, unP256 ry) b = P256.pointToBinary p :: Bytes- p' = P256.pointFromBinary b+ p' = P256.unsafePointFromBinary b in propertyHold [ eqTest "point" (CryptoPassed p) p' ] , testProperty "marshalling-integer" $ \rx ry -> let p = P256.pointFromIntegers (unP256 rx, unP256 ry)@@ -111,8 +136,16 @@ t = P256.pointFromIntegers (xT, yT) r = P256.pointFromIntegers (xR, yR) in r @=? P256.pointAdd s t- , testProperty "lift-to-curve" $ propertyLiftToCurve- , testProperty "point-add" $ propertyPointAdd+ , testProperty "lift-to-curve" propertyLiftToCurve+ , testProperty "point-add" propertyPointAdd+ , testProperty "point-negate" propertyPointNegate+ , testProperty "point-mul" propertyPointMul+ , testProperty "infinity" $+ let gN = P256.toPoint P256.scalarN+ g1 = P256.pointBase+ in propertyHold [ eqTest "zero" True (P256.pointIsAtInfinity gN)+ , eqTest "base" False (P256.pointIsAtInfinity g1)+ ] ] ] where@@ -132,12 +165,24 @@ pe2 = ECC.pointMul curve (unP256 r2) curveGen pR = P256.toPoint (P256.scalarAdd (unP256Scalar r1) (unP256Scalar r2)) peR = ECC.pointAdd curve pe1 pe2- in propertyHold [ eqTest "p256" pR (P256.pointAdd p1 p2)+ in (unP256 r1 + unP256 r2) `mod` curveN /= 0 ==>+ propertyHold [ eqTest "p256" pR (P256.pointAdd p1 p2) , eqTest "ecc" peR (pointP256ToECC pR) ] - i2ospScalar :: Integer -> Bytes- i2ospScalar i =- case i2ospOf 32 i of- Nothing -> error "invalid size of P256 scalar"- Just b -> b+ propertyPointNegate r =+ let p = P256.toPoint (unP256Scalar r)+ pe = ECC.pointMul curve (unP256 r) curveGen+ pR = P256.pointNegate p+ in ECC.pointNegate curve pe `propertyEq` pointP256ToECC pR++ propertyPointMul s' r' =+ let s = modP256Scalar s'+ r = modP256Scalar r'+ p = P256.toPoint (unP256Scalar r)+ pe = ECC.pointMul curve (unP256 r) curveGen+ pR = P256.toPoint (P256.scalarMul (unP256Scalar s) (unP256Scalar r))+ peR = ECC.pointMul curve (unP256 s) pe+ in propertyHold [ eqTest "p256" pR (P256.pointMul (unP256Scalar s) p)+ , eqTest "ecc" peR (pointP256ToECC pR)+ ]
tests/KAT_PubKey/PSS.hs view
@@ -6,6 +6,9 @@ import Imports +-- Module contains one vector generated by the implementation itself and other+-- vectors from <ftp://ftp.rsasecurity.com/pub/pkcs/pkcs-1/pkcs-1v2-1-vec.zip>+ data VectorPSS = VectorPSS { message :: ByteString , salt :: ByteString , signature :: ByteString@@ -149,325 +152,197 @@ } ] -{--# ===================================-# Example 10: A 2048-bit RSA Key Pair-# ===================================--# -------------------------------# Components of the RSA Key Pair-# --------------------------------# RSA modulus n: -a5 dd 86 7a c4 cb 02 f9 0b 94 57 d4 8c 14 a7 70 -ef 99 1c 56 c3 9c 0e c6 5f d1 1a fa 89 37 ce a5 -7b 9b e7 ac 73 b4 5c 00 17 61 5b 82 d6 22 e3 18 -75 3b 60 27 c0 fd 15 7b e1 2f 80 90 fe e2 a7 ad -cd 0e ef 75 9f 88 ba 49 97 c7 a4 2d 58 c9 aa 12 -cb 99 ae 00 1f e5 21 c1 3b b5 43 14 45 a8 d5 ae -4f 5e 4c 7e 94 8a c2 27 d3 60 40 71 f2 0e 57 7e -90 5f be b1 5d fa f0 6d 1d e5 ae 62 53 d6 3a 6a -21 20 b3 1a 5d a5 da bc 95 50 60 0e 20 f2 7d 37 -39 e2 62 79 25 fe a3 cc 50 9f 21 df f0 4e 6e ea -45 49 c5 40 d6 80 9f f9 30 7e ed e9 1f ff 58 73 -3d 83 85 a2 37 d6 d3 70 5a 33 e3 91 90 09 92 07 -0d f7 ad f1 35 7c f7 e3 70 0c e3 66 7d e8 3f 17 -b8 df 17 78 db 38 1d ce 09 cb 4a d0 58 a5 11 00 -1a 73 81 98 ee 27 cf 55 a1 3b 75 45 39 90 65 82 -ec 8b 17 4b d5 8d 5d 1f 3d 76 7c 61 37 21 ae 05 --# RSA public exponent e: -01 00 01 --# RSA private exponent d: -2d 2f f5 67 b3 fe 74 e0 61 91 b7 fd ed 6d e1 12 -29 0c 67 06 92 43 0d 59 69 18 40 47 da 23 4c 96 -93 de ed 16 73 ed 42 95 39 c9 69 d3 72 c0 4d 6b -47 e0 f5 b8 ce e0 84 3e 5c 22 83 5d bd 3b 05 a0 -99 79 84 ae 60 58 b1 1b c4 90 7c bf 67 ed 84 fa -9a e2 52 df b0 d0 cd 49 e6 18 e3 5d fd fe 59 bc -a3 dd d6 6c 33 ce bb c7 7a d4 41 aa 69 5e 13 e3 -24 b5 18 f0 1c 60 f5 a8 5c 99 4a d1 79 f2 a6 b5 -fb e9 34 02 b1 17 67 be 01 bf 07 34 44 d6 ba 1d -d2 bc a5 bd 07 4d 4a 5f ae 35 31 ad 13 03 d8 4b -30 d8 97 31 8c bb ba 04 e0 3c 2e 66 de 6d 91 f8 -2f 96 ea 1d 4b b5 4a 5a ae 10 2d 59 46 57 f5 c9 -78 95 53 51 2b 29 6d ea 29 d8 02 31 96 35 7e 3e -3a 6e 95 8f 39 e3 c2 34 40 38 ea 60 4b 31 ed c6 -f0 f7 ff 6e 71 81 a5 7c 92 82 6a 26 8f 86 76 8e -96 f8 78 56 2f c7 1d 85 d6 9e 44 86 12 f7 04 8f --# Prime p: -cf d5 02 83 fe ee b9 7f 6f 08 d7 3c bc 7b 38 36 -f8 2b bc d4 99 47 9f 5e 6f 76 fd fc b8 b3 8c 4f -71 dc 9e 88 bd 6a 6f 76 37 1a fd 65 d2 af 18 62 -b3 2a fb 34 a9 5f 71 b8 b1 32 04 3f fe be 3a 95 -2b af 75 92 44 81 48 c0 3f 9c 69 b1 d6 8e 4c e5 -cf 32 c8 6b af 46 fe d3 01 ca 1a b4 03 06 9b 32 -f4 56 b9 1f 71 89 8a b0 81 cd 8c 42 52 ef 52 71 -91 5c 97 94 b8 f2 95 85 1d a7 51 0f 99 cb 73 eb --# Prime q: -cc 4e 90 d2 a1 b3 a0 65 d3 b2 d1 f5 a8 fc e3 1b -54 44 75 66 4e ab 56 1d 29 71 b9 9f b7 be f8 44 -e8 ec 1f 36 0b 8c 2a c8 35 96 92 97 1e a6 a3 8f -72 3f cc 21 1f 5d bc b1 77 a0 fd ac 51 64 a1 d4 -ff 7f bb 4e 82 99 86 35 3c b9 83 65 9a 14 8c dd -42 0c 7d 31 ba 38 22 ea 90 a3 2b e4 6c 03 0e 8c -17 e1 fa 0a d3 78 59 e0 6b 0a a6 fa 3b 21 6d 9c -be 6c 0e 22 33 97 69 c0 a6 15 91 3e 5d a7 19 cf --# p's CRT exponent dP: -1c 2d 1f c3 2f 6b c4 00 4f d8 5d fd e0 fb bf 9a -4c 38 f9 c7 c4 e4 1d ea 1a a8 82 34 a2 01 cd 92 -f3 b7 da 52 65 83 a9 8a d8 5b b3 60 fb 98 3b 71 -1e 23 44 9d 56 1d 17 78 d7 a5 15 48 6b cb f4 7b -46 c9 e9 e1 a3 a1 f7 70 00 ef be b0 9a 8a fe 47 -e5 b8 57 cd a9 9c b1 6d 7f ff 9b 71 2e 3b d6 0c -a9 6d 9c 79 73 d6 16 d4 69 34 a9 c0 50 28 1c 00 -43 99 ce ff 1d b7 dd a7 87 66 a8 a9 b9 cb 08 73 --# q's CRT exponent dQ: -cb 3b 3c 04 ca a5 8c 60 be 7d 9b 2d eb b3 e3 96 -43 f4 f5 73 97 be 08 23 6a 1e 9e af aa 70 65 36 -e7 1c 3a cf e0 1c c6 51 f2 3c 9e 05 85 8f ee 13 -bb 6a 8a fc 47 df 4e dc 9a 4b a3 0b ce cb 73 d0 -15 78 52 32 7e e7 89 01 5c 2e 8d ee 7b 9f 05 a0 -f3 1a c9 4e b6 17 31 64 74 0c 5c 95 14 7c d5 f3 -b5 ae 2c b4 a8 37 87 f0 1d 8a b3 1f 27 c2 d0 ee -a2 dd 8a 11 ab 90 6a ba 20 7c 43 c6 ee 12 53 31 --# CRT coefficient qInv: -12 f6 b2 cf 13 74 a7 36 fa d0 56 16 05 0f 96 ab -4b 61 d1 17 7c 7f 9d 52 5a 29 f3 d1 80 e7 76 67 -e9 9d 99 ab f0 52 5d 07 58 66 0f 37 52 65 5b 0f -25 b8 df 84 31 d9 a8 ff 77 c1 6c 12 a0 a5 12 2a -9f 0b f7 cf d5 a2 66 a3 5c 15 9f 99 12 08 b9 03 -16 ff 44 4f 3e 0b 6b d0 e9 3b 8a 7a 24 48 e9 57 -e3 dd a6 cf cf 22 66 b1 06 01 3a c4 68 08 d3 b3 -88 7b 3b 00 34 4b aa c9 53 0b 4c e7 08 fc 32 b6 --# ----------------------------------# RSASSA-PSS Signature Example 10.1-# -----------------------------------# Message to be signed:-88 31 77 e5 12 6b 9b e2 d9 a9 68 03 27 d5 37 0c -6f 26 86 1f 58 20 c4 3d a6 7a 3a d6 09 --# Salt:-04 e2 15 ee 6f f9 34 b9 da 70 d7 73 0c 87 34 ab -fc ec de 89 --# Signature:-82 c2 b1 60 09 3b 8a a3 c0 f7 52 2b 19 f8 73 54 -06 6c 77 84 7a bf 2a 9f ce 54 2d 0e 84 e9 20 c5 -af b4 9f fd fd ac e1 65 60 ee 94 a1 36 96 01 14 -8e ba d7 a0 e1 51 cf 16 33 17 91 a5 72 7d 05 f2 -1e 74 e7 eb 81 14 40 20 69 35 d7 44 76 5a 15 e7 -9f 01 5c b6 6c 53 2c 87 a6 a0 59 61 c8 bf ad 74 -1a 9a 66 57 02 28 94 39 3e 72 23 73 97 96 c0 2a -77 45 5d 0f 55 5b 0e c0 1d df 25 9b 62 07 fd 0f -d5 76 14 ce f1 a5 57 3b aa ff 4e c0 00 69 95 16 -59 b8 5f 24 30 0a 25 16 0c a8 52 2d c6 e6 72 7e -57 d0 19 d7 e6 36 29 b8 fe 5e 89 e2 5c c1 5b eb -3a 64 75 77 55 92 99 28 0b 9b 28 f7 9b 04 09 00 -0b e2 5b bd 96 40 8b a3 b4 3c c4 86 18 4d d1 c8 -e6 25 53 fa 1a f4 04 0f 60 66 3d e7 f5 e4 9c 04 -38 8e 25 7f 1c e8 9c 95 da b4 8a 31 5d 9b 66 b1 -b7 62 82 33 87 6f f2 38 52 30 d0 70 d0 7e 16 66 --# ----------------------------------# RSASSA-PSS Signature Example 10.2-# -----------------------------------# Message to be signed:-dd 67 0a 01 46 58 68 ad c9 3f 26 13 19 57 a5 0c -52 fb 77 7c db aa 30 89 2c 9e 12 36 11 64 ec 13 -97 9d 43 04 81 18 e4 44 5d b8 7b ee 58 dd 98 7b -34 25 d0 20 71 d8 db ae 80 70 8b 03 9d bb 64 db -d1 de 56 57 d9 fe d0 c1 18 a5 41 43 74 2e 0f f3 -c8 7f 74 e4 58 57 64 7a f3 f7 9e b0 a1 4c 9d 75 -ea 9a 1a 04 b7 cf 47 8a 89 7a 70 8f d9 88 f4 8e -80 1e db 0b 70 39 df 8c 23 bb 3c 56 f4 e8 21 ac --# Salt:-8b 2b dd 4b 40 fa f5 45 c7 78 dd f9 bc 1a 49 cb -57 f9 b7 1b --# Signature:-14 ae 35 d9 dd 06 ba 92 f7 f3 b8 97 97 8a ed 7c -d4 bf 5f f0 b5 85 a4 0b d4 6c e1 b4 2c d2 70 30 -53 bb 90 44 d6 4e 81 3d 8f 96 db 2d d7 00 7d 10 -11 8f 6f 8f 84 96 09 7a d7 5e 1f f6 92 34 1b 28 -92 ad 55 a6 33 a1 c5 5e 7f 0a 0a d5 9a 0e 20 3a -5b 82 78 ae c5 4d d8 62 2e 28 31 d8 71 74 f8 ca -ff 43 ee 6c 46 44 53 45 d8 4a 59 65 9b fb 92 ec -d4 c8 18 66 86 95 f3 47 06 f6 68 28 a8 99 59 63 -7f 2b f3 e3 25 1c 24 bd ba 4d 4b 76 49 da 00 22 -21 8b 11 9c 84 e7 9a 65 27 ec 5b 8a 5f 86 1c 15 -99 52 e2 3e c0 5e 1e 71 73 46 fa ef e8 b1 68 68 -25 bd 2b 26 2f b2 53 10 66 c0 de 09 ac de 2e 42 -31 69 07 28 b5 d8 5e 11 5a 2f 6b 92 b7 9c 25 ab -c9 bd 93 99 ff 8b cf 82 5a 52 ea 1f 56 ea 76 dd -26 f4 3b aa fa 18 bf a9 2a 50 4c bd 35 69 9e 26 -d1 dc c5 a2 88 73 85 f3 c6 32 32 f0 6f 32 44 c3 --# ----------------------------------# RSASSA-PSS Signature Example 10.3-# -----------------------------------# Message to be signed:-48 b2 b6 a5 7a 63 c8 4c ea 85 9d 65 c6 68 28 4b -08 d9 6b dc aa be 25 2d b0 e4 a9 6c b1 ba c6 01 -93 41 db 6f be fb 8d 10 6b 0e 90 ed a6 bc c6 c6 -26 2f 37 e7 ea 9c 7e 5d 22 6b d7 df 85 ec 5e 71 -ef ff 2f 54 c5 db 57 7f f7 29 ff 91 b8 42 49 1d -e2 74 1d 0c 63 16 07 df 58 6b 90 5b 23 b9 1a f1 -3d a1 23 04 bf 83 ec a8 a7 3e 87 1f f9 db --# Salt:-4e 96 fc 1b 39 8f 92 b4 46 71 01 0c 0d c3 ef d6 -e2 0c 2d 73 --# Signature:-6e 3e 4d 7b 6b 15 d2 fb 46 01 3b 89 00 aa 5b bb -39 39 cf 2c 09 57 17 98 70 42 02 6e e6 2c 74 c5 -4c ff d5 d7 d5 7e fb bf 95 0a 0f 5c 57 4f a0 9d -3f c1 c9 f5 13 b0 5b 4f f5 0d d8 df 7e df a2 01 -02 85 4c 35 e5 92 18 01 19 a7 0c e5 b0 85 18 2a -a0 2d 9e a2 aa 90 d1 df 03 f2 da ae 88 5b a2 f5 -d0 5a fd ac 97 47 6f 06 b9 3b 5b c9 4a 1a 80 aa -91 16 c4 d6 15 f3 33 b0 98 89 2b 25 ff ac e2 66 -f5 db 5a 5a 3b cc 10 a8 24 ed 55 aa d3 5b 72 78 -34 fb 8c 07 da 28 fc f4 16 a5 d9 b2 22 4f 1f 8b -44 2b 36 f9 1e 45 6f de a2 d7 cf e3 36 72 68 de -03 07 a4 c7 4e 92 41 59 ed 33 39 3d 5e 06 55 53 -1c 77 32 7b 89 82 1b de df 88 01 61 c7 8c d4 19 -6b 54 19 f7 ac c3 f1 3e 5e bf 16 1b 6e 7c 67 24 -71 6c a3 3b 85 c2 e2 56 40 19 2a c2 85 96 51 d5 -0b de 7e b9 76 e5 1c ec 82 8b 98 b6 56 3b 86 bb --# ----------------------------------# RSASSA-PSS Signature Example 10.4-# -----------------------------------# Message to be signed:-0b 87 77 c7 f8 39 ba f0 a6 4b bb db c5 ce 79 75 -5c 57 a2 05 b8 45 c1 74 e2 d2 e9 05 46 a0 89 c4 -e6 ec 8a df fa 23 a7 ea 97 ba e6 b6 5d 78 2b 82 -db 5d 2b 5a 56 d2 2a 29 a0 5e 7c 44 33 e2 b8 2a -62 1a bb a9 0a dd 05 ce 39 3f c4 8a 84 05 42 45 -1a --# Salt:-c7 cd 69 8d 84 b6 51 28 d8 83 5e 3a 8b 1e b0 e0 -1c b5 41 ec --# Signature:-34 04 7f f9 6c 4d c0 dc 90 b2 d4 ff 59 a1 a3 61 -a4 75 4b 25 5d 2e e0 af 7d 8b f8 7c 9b c9 e7 dd -ee de 33 93 4c 63 ca 1c 0e 3d 26 2c b1 45 ef 93 -2a 1f 2c 0a 99 7a a6 a3 4f 8e ae e7 47 7d 82 cc -f0 90 95 a6 b8 ac ad 38 d4 ee c9 fb 7e ab 7a d0 -2d a1 d1 1d 8e 54 c1 82 5e 55 bf 58 c2 a2 32 34 -b9 02 be 12 4f 9e 90 38 a8 f6 8f a4 5d ab 72 f6 -6e 09 45 bf 1d 8b ac c9 04 4c 6f 07 09 8c 9f ce -c5 8a 3a ab 10 0c 80 51 78 15 5f 03 0a 12 4c 45 -0e 5a cb da 47 d0 e4 f1 0b 80 a2 3f 80 3e 77 4d -02 3b 00 15 c2 0b 9f 9b be 7c 91 29 63 38 d5 ec -b4 71 ca fb 03 20 07 b6 7a 60 be 5f 69 50 4a 9f -01 ab b3 cb 46 7b 26 0e 2b ce 86 0b e8 d9 5b f9 -2c 0c 8e 14 96 ed 1e 52 85 93 a4 ab b6 df 46 2d -de 8a 09 68 df fe 46 83 11 68 57 a2 32 f5 eb f6 -c8 5b e2 38 74 5a d0 f3 8f 76 7a 5f db f4 86 fb --# ----------------------------------# RSASSA-PSS Signature Example 10.5-# ---------------------------------+-- ==================================+-- Example 2: A 1025-bit RSA Key Pair+-- ================================== -# Message to be signed:-f1 03 6e 00 8e 71 e9 64 da dc 92 19 ed 30 e1 7f -06 b4 b6 8a 95 5c 16 b3 12 b1 ed df 02 8b 74 97 -6b ed 6b 3f 6a 63 d4 e7 78 59 24 3c 9c cc dc 98 -01 65 23 ab b0 24 83 b3 55 91 c3 3a ad 81 21 3b -b7 c7 bb 1a 47 0a ab c1 0d 44 25 6c 4d 45 59 d9 -16 +rsaKey2 = PrivateKey+ { private_pub = PublicKey+ { public_n = 0x01d40c1bcf97a68ae7cdbd8a7bf3e34fa19dcca4ef75a47454375f94514d88fed006fb829f8419ff87d6315da68a1ff3a0938e9abb3464011c303ad99199cf0c7c7a8b477dce829e8844f625b115e5e9c4a59cf8f8113b6834336a2fd2689b472cbb5e5cabe674350c59b6c17e176874fb42f8fc3d176a017edc61fd326c4b33c9+ , public_e = 0x010001+ , public_size = 129+ }+ , private_d = 0x027d147e4673057377fd1ea201565772176a7dc38358d376045685a2e787c23c15576bc16b9f444402d6bfc5d98a3e88ea13ef67c353eca0c0ddba9255bd7b8bb50a644afdfd1dd51695b252d22e7318d1b6687a1c10ff75545f3db0fe602d5f2b7f294e3601eab7b9d1cecd767f64692e3e536ca2846cb0c2dd486a39fa75b1+ , private_p = 0x016601e926a0f8c9e26ecab769ea65a5e7c52cc9e080ef519457c644da6891c5a104d3ea7955929a22e7c68a7af9fcad777c3ccc2b9e3d3650bce404399b7e59d1+ , private_q = 0x014eafa1d4d0184da7e31f877d1281ddda625664869e8379e67ad3b75eae74a580e9827abd6eb7a002cb5411f5266797768fb8e95ae40e3e8a01f35ff89e56c079+ , private_dP = 0xe247cce504939b8f0a36090de200938755e2444b29539a7da7a902f6056835c0db7b52559497cfe2c61a8086d0213c472c78851800b171f6401de2e9c2756f31+ , private_dQ = 0xb12fba757855e586e46f64c38a70c68b3f548d93d787b399999d4c8f0bbd2581c21e19ed0018a6d5d3df86424b3abcad40199d31495b61309f27c1bf55d487c1+ , private_qinv = 0x564b1e1fa003bda91e89090425aac05b91da9ee25061e7628d5f51304a84992fdc33762bd378a59f030a334d532bd0dae8f298ea9ed844636ad5fb8cbdc03cad+ } -# Salt:-ef a8 bf f9 62 12 b2 f4 a3 f3 71 a1 0d 57 41 52 -65 5f 5d fb +vectorsKey2 =+ [+ -- Example 2.1+ VectorPSS+ { message = "\xda\xba\x03\x20\x66\x26\x3f\xae\xdb\x65\x98\x48\x11\x52\x78\xa5\x2c\x44\xfa\xa3\xa7\x6f\x37\x51\x5e\xd3\x36\x32\x10\x72\xc4\x0a\x9d\x9b\x53\xbc\x05\x01\x40\x78\xad\xf5\x20\x87\x51\x46\xaa\xe7\x0f\xf0\x60\x22\x6d\xcb\x7b\x1f\x1f\xc2\x7e\x93\x60"+ , salt = "\x57\xbf\x16\x0b\xcb\x02\xbb\x1d\xc7\x28\x0c\xf0\x45\x85\x30\xb7\xd2\x83\x2f\xf7"+ , signature = "\x01\x4c\x5b\xa5\x33\x83\x28\xcc\xc6\xe7\xa9\x0b\xf1\xc0\xab\x3f\xd6\x06\xff\x47\x96\xd3\xc1\x2e\x4b\x63\x9e\xd9\x13\x6a\x5f\xec\x6c\x16\xd8\x88\x4b\xdd\x99\xcf\xdc\x52\x14\x56\xb0\x74\x2b\x73\x68\x68\xcf\x90\xde\x09\x9a\xdb\x8d\x5f\xfd\x1d\xef\xf3\x9b\xa4\x00\x7a\xb7\x46\xce\xfd\xb2\x2d\x7d\xf0\xe2\x25\xf5\x46\x27\xdc\x65\x46\x61\x31\x72\x1b\x90\xaf\x44\x53\x63\xa8\x35\x8b\x9f\x60\x76\x42\xf7\x8f\xab\x0a\xb0\xf4\x3b\x71\x68\xd6\x4b\xae\x70\xd8\x82\x78\x48\xd8\xef\x1e\x42\x1c\x57\x54\xdd\xf4\x2c\x25\x89\xb5\xb3"+ }+ -- Example 2.2+ , VectorPSS+ { message = "\xe4\xf8\x60\x1a\x8a\x6d\xa1\xbe\x34\x44\x7c\x09\x59\xc0\x58\x57\x0c\x36\x68\xcf\xd5\x1d\xd5\xf9\xcc\xd6\xad\x44\x11\xfe\x82\x13\x48\x6d\x78\xa6\xc4\x9f\x93\xef\xc2\xca\x22\x88\xce\xbc\x2b\x9b\x60\xbd\x04\xb1\xe2\x20\xd8\x6e\x3d\x48\x48\xd7\x09\xd0\x32\xd1\xe8\xc6\xa0\x70\xc6\xaf\x9a\x49\x9f\xcf\x95\x35\x4b\x14\xba\x61\x27\xc7\x39\xde\x1b\xb0\xfd\x16\x43\x1e\x46\x93\x8a\xec\x0c\xf8\xad\x9e\xb7\x2e\x83\x2a\x70\x35\xde\x9b\x78\x07\xbd\xc0\xed\x8b\x68\xeb\x0f\x5a\xc2\x21\x6b\xe4\x0c\xe9\x20\xc0\xdb\x0e\xdd\xd3\x86\x0e\xd7\x88\xef\xac\xca\xca\x50\x2d\x8f\x2b\xd6\xd1\xa7\xc1\xf4\x1f\xf4\x6f\x16\x81\xc8\xf1\xf8\x18\xe9\xc4\xf6\xd9\x1a\x0c\x78\x03\xcc\xc6\x3d\x76\xa6\x54\x4d\x84\x3e\x08\x4e\x36\x3b\x8a\xcc\x55\xaa\x53\x17\x33\xed\xb5\xde\xe5\xb5\x19\x6e\x9f\x03\xe8\xb7\x31\xb3\x77\x64\x28\xd9\xe4\x57\xfe\x3f\xbc\xb3\xdb\x72\x74\x44\x2d\x78\x58\x90\xe9\xcb\x08\x54\xb6\x44\x4d\xac\xe7\x91\xd7\x27\x3d\xe1\x88\x97\x19\x33\x8a\x77\xfe"+ , salt = "\x7f\x6d\xd3\x59\xe6\x04\xe6\x08\x70\xe8\x98\xe4\x7b\x19\xbf\x2e\x5a\x7b\x2a\x90"+ , signature = "\x01\x09\x91\x65\x6c\xca\x18\x2b\x7f\x29\xd2\xdb\xc0\x07\xe7\xae\x0f\xec\x15\x8e\xb6\x75\x9c\xb9\xc4\x5c\x5f\xf8\x7c\x76\x35\xdd\x46\xd1\x50\x88\x2f\x4d\xe1\xe9\xae\x65\xe7\xf7\xd9\x01\x8f\x68\x36\x95\x4a\x47\xc0\xa8\x1a\x8a\x6b\x6f\x83\xf2\x94\x4d\x60\x81\xb1\xaa\x7c\x75\x9b\x25\x4b\x2c\x34\xb6\x91\xda\x67\xcc\x02\x26\xe2\x0b\x2f\x18\xb4\x22\x12\x76\x1d\xcd\x4b\x90\x8a\x62\xb3\x71\xb5\x91\x8c\x57\x42\xaf\x4b\x53\x7e\x29\x69\x17\x67\x4f\xb9\x14\x19\x47\x61\x62\x1c\xc1\x9a\x41\xf6\xfb\x95\x3f\xbc\xbb\x64\x9d\xea"+ }+ -- Example 2.3+ , VectorPSS+ { message = "\x52\xa1\xd9\x6c\x8a\xc3\x9e\x41\xe4\x55\x80\x98\x01\xb9\x27\xa5\xb4\x45\xc1\x0d\x90\x2a\x0d\xcd\x38\x50\xd2\x2a\x66\xd2\xbb\x07\x03\xe6\x7d\x58\x67\x11\x45\x95\xaa\xbf\x5a\x7a\xeb\x5a\x8f\x87\x03\x4b\xbb\x30\xe1\x3c\xfd\x48\x17\xa9\xbe\x76\x23\x00\x23\x60\x6d\x02\x86\xa3\xfa\xf8\xa4\xd2\x2b\x72\x8e\xc5\x18\x07\x9f\x9e\x64\x52\x6e\x3a\x0c\xc7\x94\x1a\xa3\x38\xc4\x37\x99\x7c\x68\x0c\xca\xc6\x7c\x66\xbf\xa1"+ , salt = "\xfc\xa8\x62\x06\x8b\xce\x22\x46\x72\x4b\x70\x8a\x05\x19\xda\x17\xe6\x48\x68\x8c"+ , signature = "\x00\x7f\x00\x30\x01\x8f\x53\xcd\xc7\x1f\x23\xd0\x36\x59\xfd\xe5\x4d\x42\x41\xf7\x58\xa7\x50\xb4\x2f\x18\x5f\x87\x57\x85\x20\xc3\x07\x42\xaf\xd8\x43\x59\xb6\xe6\xe8\xd3\xed\x95\x9d\xc6\xfe\x48\x6b\xed\xc8\xe2\xcf\x00\x1f\x63\xa7\xab\xe1\x62\x56\xa1\xb8\x4d\xf0\xd2\x49\xfc\x05\xd3\x19\x4c\xe5\xf0\x91\x27\x42\xdb\xbf\x80\xdd\x17\x4f\x6c\x51\xf6\xba\xd7\xf1\x6c\xf3\x36\x4e\xba\x09\x5a\x06\x26\x7d\xc3\x79\x38\x03\xac\x75\x26\xae\xbe\x0a\x47\x5d\x38\xb8\xc2\x24\x7a\xb5\x1c\x48\x98\xdf\x70\x47\xdc\x6a\xdf\x52\xc6\xc4"+ }+ -- Example 2.4+ , VectorPSS+ { message = "\xa7\x18\x2c\x83\xac\x18\xbe\x65\x70\xa1\x06\xaa\x9d\x5c\x4e\x3d\xbb\xd4\xaf\xae\xb0\xc6\x0c\x4a\x23\xe1\x96\x9d\x79\xff"+ , salt = "\x80\x70\xef\x2d\xe9\x45\xc0\x23\x87\x68\x4b\xa0\xd3\x30\x96\x73\x22\x35\xd4\x40"+ , signature = "\x00\x9c\xd2\xf4\xed\xbe\x23\xe1\x23\x46\xae\x8c\x76\xdd\x9a\xd3\x23\x0a\x62\x07\x61\x41\xf1\x6c\x15\x2b\xa1\x85\x13\xa4\x8e\xf6\xf0\x10\xe0\xe3\x7f\xd3\xdf\x10\xa1\xec\x62\x9a\x0c\xb5\xa3\xb5\xd2\x89\x30\x07\x29\x8c\x30\x93\x6a\x95\x90\x3b\x6b\xa8\x55\x55\xd9\xec\x36\x73\xa0\x61\x08\xfd\x62\xa2\xfd\xa5\x6d\x1c\xe2\xe8\x5c\x4d\xb6\xb2\x4a\x81\xca\x3b\x49\x6c\x36\xd4\xfd\x06\xeb\x7c\x91\x66\xd8\xe9\x48\x77\xc4\x2b\xea\x62\x2b\x3b\xfe\x92\x51\xfd\xc2\x1d\x8d\x53\x71\xba\xda\xd7\x8a\x48\x82\x14\x79\x63\x35\xb4\x0b"+ }+ -- Example 2.5+ , VectorPSS+ { message = "\x86\xa8\x3d\x4a\x72\xee\x93\x2a\x4f\x56\x30\xaf\x65\x79\xa3\x86\xb7\x8f\xe8\x89\x99\xe0\xab\xd2\xd4\x90\x34\xa4\xbf\xc8\x54\xdd\x94\xf1\x09\x4e\x2e\x8c\xd7\xa1\x79\xd1\x95\x88\xe4\xae\xfc\x1b\x1b\xd2\x5e\x95\xe3\xdd\x46\x1f"+ , salt = "\x17\x63\x9a\x4e\x88\xd7\x22\xc4\xfc\xa2\x4d\x07\x9a\x8b\x29\xc3\x24\x33\xb0\xc9"+ , signature = "\x00\xec\x43\x08\x24\x93\x1e\xbd\x3b\xaa\x43\x03\x4d\xae\x98\xba\x64\x6b\x8c\x36\x01\x3d\x16\x71\xc3\xcf\x1c\xf8\x26\x0c\x37\x4b\x19\xf8\xe1\xcc\x8d\x96\x50\x12\x40\x5e\x7e\x9b\xf7\x37\x86\x12\xdf\xcc\x85\xfc\xe1\x2c\xda\x11\xf9\x50\xbd\x0b\xa8\x87\x67\x40\x43\x6c\x1d\x25\x95\xa6\x4a\x1b\x32\xef\xcf\xb7\x4a\x21\xc8\x73\xb3\xcc\x33\xaa\xf4\xe3\xdc\x39\x53\xde\x67\xf0\x67\x4c\x04\x53\xb4\xfd\x9f\x60\x44\x06\xd4\x41\xb8\x16\x09\x8c\xb1\x06\xfe\x34\x72\xbc\x25\x1f\x81\x5f\x59\xdb\x2e\x43\x78\xa3\xad\xdc\x18\x1e\xcf"+ }+ -- Example 2.6+ , VectorPSS+ { message = "\x04\x9f\x91\x54\xd8\x71\xac\x4a\x7c\x7a\xb4\x53\x25\xba\x75\x45\xa1\xed\x08\xf7\x05\x25\xb2\x66\x7c\xf1"+ , salt = "\x37\x81\x0d\xef\x10\x55\xed\x92\x2b\x06\x3d\xf7\x98\xde\x5d\x0a\xab\xf8\x86\xee"+ , signature = "\x00\x47\x5b\x16\x48\xf8\x14\xa8\xdc\x0a\xbd\xc3\x7b\x55\x27\xf5\x43\xb6\x66\xbb\x6e\x39\xd3\x0e\x5b\x49\xd3\xb8\x76\xdc\xcc\x58\xea\xc1\x4e\x32\xa2\xd5\x5c\x26\x16\x01\x44\x56\xad\x2f\x24\x6f\xc8\xe3\xd5\x60\xda\x3d\xdf\x37\x9a\x1c\x0b\xd2\x00\xf1\x02\x21\xdf\x07\x8c\x21\x9a\x15\x1b\xc8\xd4\xec\x9d\x2f\xc2\x56\x44\x67\x81\x10\x14\xef\x15\xd8\xea\x01\xc2\xeb\xbf\xf8\xc2\xc8\xef\xab\x38\x09\x6e\x55\xfc\xbe\x32\x85\xc7\xaa\x55\x88\x51\x25\x4f\xaf\xfa\x92\xc1\xc7\x2b\x78\x75\x86\x63\xef\x45\x82\x84\x31\x39\xd7\xa6"+ }+ ] -# Signature:-7e 09 35 ea 18 f4 d6 c1 d1 7c e8 2e b2 b3 83 6c -55 b3 84 58 9c e1 9d fe 74 33 63 ac 99 48 d1 f3 -46 b7 bf dd fe 92 ef d7 8a db 21 fa ef c8 9a de -42 b1 0f 37 40 03 fe 12 2e 67 42 9a 1c b8 cb d1 -f8 d9 01 45 64 c4 4d 12 01 16 f4 99 0f 1a 6e 38 -77 4c 19 4b d1 b8 21 32 86 b0 77 b0 49 9d 2e 7b -3f 43 4a b1 22 89 c5 56 68 4d ee d7 81 31 93 4b -b3 dd 65 37 23 6f 7c 6f 3d cb 09 d4 76 be 07 72 -1e 37 e1 ce ed 9b 2f 7b 40 68 87 bd 53 15 73 05 -e1 c8 b4 f8 4d 73 3b c1 e1 86 fe 06 cc 59 b6 ed -b8 f4 bd 7f fe fd f4 f7 ba 9c fb 9d 57 06 89 b5 -a1 a4 10 9a 74 6a 69 08 93 db 37 99 25 5a 0c b9 -21 5d 2d 1c d4 90 59 0e 95 2e 8c 87 86 aa 00 11 -26 52 52 47 0c 04 1d fb c3 ee c7 c3 cb f7 1c 24 -86 9d 11 5c 0c b4 a9 56 f5 6d 53 0b 80 ab 58 9a -cf ef c6 90 75 1d df 36 e8 d3 83 f8 3c ed d2 cc +-- ==================================+-- Example 3: A 1026-bit RSA Key Pair+-- ================================== -# ----------------------------------# RSASSA-PSS Signature Example 10.6-# ---------------------------------+rsaKey3 = PrivateKey+ { private_pub = PublicKey+ { public_n = 0x02f246ef451ed3eebb9a310200cc25859c048e4be798302991112eb68ce6db674e280da21feded1ae74880ca522b18db249385012827c515f0e466a1ffa691d98170574e9d0eadb087586ca48933da3cc953d95bd0ed50de10ddcb6736107d6c831c7f663e833ca4c097e700ce0fb945f88fb85fe8e5a773172565b914a471a443+ , public_e = 0x010001+ , public_size = 129+ }+ , private_d = 0x651451733b56de5ac0a689a4aeb6e6894a69014e076c88dd7a667eab3232bbccd2fc44ba2fa9c31db46f21edd1fdb23c5c128a5da5bab91e7f952b67759c7cff705415ac9fa0907c7ca6178f668fb948d869da4cc3b7356f4008dfd5449d32ee02d9a477eb69fc29266e5d9070512375a50fbbcc27e238ad98425f6ebbf88991+ , private_p = 0x01bd36e18ece4b0fdb2e9c9d548bd1a7d6e2c21c6fdc35074a1d05b1c6c8b3d558ea2639c9a9a421680169317252558bd148ad215aac550e2dcf12a82d0ebfe853+ , private_q = 0x01b1b656ad86d8e19d5dc86292b3a192fdf6e0dd37877bad14822fa00190cab265f90d3f02057b6f54d6ecb14491e5adeacebc48bf0ebd2a2ad26d402e54f61651+ , private_dP = 0x1f2779fd2e3e5e6bae05539518fba0cd0ead1aa4513a7cba18f1cf10e3f68195693d278a0f0ee72f89f9bc760d80e2f9d0261d516501c6ae39f14a476ce2ccf5+ , private_dQ = 0x011a0d36794b04a854aab4b2462d439a5046c91d940b2bc6f75b62956fef35a2a6e63c5309817f307bbff9d59e7e331bd363f6d66849b18346adea169f0ae9aec1+ , private_qinv = 0x0b30f0ecf558752fb3a6ce4ba2b8c675f659eba6c376585a1b39712d038ae3d2b46fcb418ae15d0905da6440e1513a30b9b7d6668fbc5e88e5ab7a175e73ba35+ } -# Message to be signed:-25 f1 08 95 a8 77 16 c1 37 45 0b b9 51 9d fa a1 -f2 07 fa a9 42 ea 88 ab f7 1e 9c 17 98 00 85 b5 -55 ae ba b7 62 64 ae 2a 3a b9 3c 2d 12 98 11 91 -dd ac 6f b5 94 9e b3 6a ee 3c 5d a9 40 f0 07 52 -c9 16 d9 46 08 fa 7d 97 ba 6a 29 15 b6 88 f2 03 -23 d4 e9 d9 68 01 d8 9a 72 ab 58 92 dc 21 17 c0 -74 34 fc f9 72 e0 58 cf 8c 41 ca 4b 4f f5 54 f7 -d5 06 8a d3 15 5f ce d0 f3 12 5b c0 4f 91 93 37 -8a 8f 5c 4c 3b 8c b4 dd 6d 1c c6 9d 30 ec ca 6e -aa 51 e3 6a 05 73 0e 9e 34 2e 85 5b af 09 9d ef -b8 af d7 +vectorsKey3 =+ [+ -- Example 3.1+ VectorPSS+ { message = "\x59\x4b\x37\x33\x3b\xbb\x2c\x84\x52\x4a\x87\xc1\xa0\x1f\x75\xfc\xec\x0e\x32\x56\xf1\x08\xe3\x8d\xca\x36\xd7\x0d\x00\x57"+ , salt = "\xf3\x1a\xd6\xc8\xcf\x89\xdf\x78\xed\x77\xfe\xac\xbc\xc2\xf8\xb0\xa8\xe4\xcf\xaa"+ , signature = "\x00\x88\xb1\x35\xfb\x17\x94\xb6\xb9\x6c\x4a\x3e\x67\x81\x97\xf8\xca\xc5\x2b\x64\xb2\xfe\x90\x7d\x6f\x27\xde\x76\x11\x24\x96\x4a\x99\xa0\x1a\x88\x27\x40\xec\xfa\xed\x6c\x01\xa4\x74\x64\xbb\x05\x18\x23\x13\xc0\x13\x38\xa8\xcd\x09\x72\x14\xcd\x68\xca\x10\x3b\xd5\x7d\x3b\xc9\xe8\x16\x21\x3e\x61\xd7\x84\xf1\x82\x46\x7a\xbf\x8a\x01\xcf\x25\x3e\x99\xa1\x56\xea\xa8\xe3\xe1\xf9\x0e\x3c\x6e\x4e\x3a\xa2\xd8\x3e\xd0\x34\x5b\x89\xfa\xfc\x9c\x26\x07\x7c\x14\xb6\xac\x51\x45\x4f\xa2\x6e\x44\x6e\x3a\x2f\x15\x3b\x2b\x16\x79\x7f"+ }+ -- Example 3.2+ , VectorPSS+ { message = "\x8b\x76\x95\x28\x88\x4a\x0d\x1f\xfd\x09\x0c\xf1\x02\x99\x3e\x79\x6d\xad\xcf\xbd\xdd\x38\xe4\x4f\xf6\x32\x4c\xa4\x51"+ , salt = "\xfc\xf9\xf0\xe1\xf1\x99\xa3\xd1\xd0\xda\x68\x1c\x5b\x86\x06\xfc\x64\x29\x39\xf7"+ , signature = "\x02\xa5\xf0\xa8\x58\xa0\x86\x4a\x4f\x65\x01\x7a\x7d\x69\x45\x4f\x3f\x97\x3a\x29\x99\x83\x9b\x7b\xbc\x48\xbf\x78\x64\x11\x69\x17\x95\x56\xf5\x95\xfa\x41\xf6\xff\x18\xe2\x86\xc2\x78\x30\x79\xbc\x09\x10\xee\x9c\xc3\x4f\x49\xba\x68\x11\x24\xf9\x23\xdf\xa8\x8f\x42\x61\x41\xa3\x68\xa5\xf5\xa9\x30\xc6\x28\xc2\xc3\xc2\x00\xe1\x8a\x76\x44\x72\x1a\x0c\xbe\xc6\xdd\x3f\x62\x79\xbd\xe3\xe8\xf2\xbe\x5e\x2d\x4e\xe5\x6f\x97\xe7\xce\xaf\x33\x05\x4b\xe7\x04\x2b\xd9\x1a\x63\xbb\x09\xf8\x97\xbd\x41\xe8\x11\x97\xde\xe9\x9b\x11\xaf"+ }+ -- Example 3.3+ , VectorPSS+ { message = "\x1a\xbd\xba\x48\x9c\x5a\xda\x2f\x99\x5e\xd1\x6f\x19\xd5\xa9\x4d\x9e\x6e\xc3\x4a\x8d\x84\xf8\x45\x57\xd2\x6e\x5e\xf9\xb0\x2b\x22\x88\x7e\x3f\x9a\x4b\x69\x0a\xd1\x14\x92\x09\xc2\x0c\x61\x43\x1f\x0c\x01\x7c\x36\xc2\x65\x7b\x35\xd7\xb0\x7d\x3f\x5a\xd8\x70\x85\x07\xa9\xc1\xb8\x31\xdf\x83\x5a\x56\xf8\x31\x07\x18\x14\xea\x5d\x3d\x8d\x8f\x6a\xde\x40\xcb\xa3\x8b\x42\xdb\x7a\x2d\x3d\x7a\x29\xc8\xf0\xa7\x9a\x78\x38\xcf\x58\xa9\x75\x7f\xa2\xfe\x4c\x40\xdf\x9b\xaa\x19\x3b\xfc\x6f\x92\xb1\x23\xad\x57\xb0\x7a\xce\x3e\x6a\xc0\x68\xc9\xf1\x06\xaf\xd9\xee\xb0\x3b\x4f\x37\xc2\x5d\xbf\xbc\xfb\x30\x71\xf6\xf9\x77\x17\x66\xd0\x72\xf3\xbb\x07\x0a\xf6\x60\x55\x32\x97\x3a\xe2\x50\x51"+ , salt = "\x98\x6e\x7c\x43\xdb\xb6\x71\xbd\x41\xb9\xa7\xf4\xb6\xaf\xc8\x0e\x80\x5f\x24\x23"+ , signature = "\x02\x44\xbc\xd1\xc8\xc1\x69\x55\x73\x6c\x80\x3b\xe4\x01\x27\x2e\x18\xcb\x99\x08\x11\xb1\x4f\x72\xdb\x96\x41\x24\xd5\xfa\x76\x06\x49\xcb\xb5\x7a\xfb\x87\x55\xdb\xb6\x2b\xf5\x1f\x46\x6c\xf2\x3a\x0a\x16\x07\x57\x6e\x98\x3d\x77\x8f\xce\xff\xa9\x2d\xf7\x54\x8a\xea\x8e\xa4\xec\xad\x2c\x29\xdd\x9f\x95\xbc\x07\xfe\x91\xec\xf8\xbe\xe2\x55\xbf\xe8\x76\x2f\xd7\x69\x0a\xa9\xbf\xa4\xfa\x08\x49\xef\x72\x8c\x2c\x42\xc4\x53\x23\x64\x52\x2d\xf2\xab\x7f\x9f\x8a\x03\xb6\x3f\x7a\x49\x91\x75\x82\x86\x68\xf5\xef\x5a\x29\xe3\x80\x2c"+ }+ -- Example 3.4+ , VectorPSS+ { message = "\x8f\xb4\x31\xf5\xee\x79\x2b\x6c\x2a\xc7\xdb\x53\xcc\x42\x86\x55\xae\xb3\x2d\x03\xf4\xe8\x89\xc5\xc2\x5d\xe6\x83\xc4\x61\xb5\x3a\xcf\x89\xf9\xf8\xd3\xaa\xbd\xf6\xb9\xf0\xc2\xa1\xde\x12\xe1\x5b\x49\xed\xb3\x91\x9a\x65\x2f\xe9\x49\x1c\x25\xa7\xfc\xe1\xf7\x22\xc2\x54\x36\x08\xb6\x9d\xc3\x75\xec"+ , salt = "\xf8\x31\x2d\x9c\x8e\xea\x13\xec\x0a\x4c\x7b\x98\x12\x0c\x87\x50\x90\x87\xc4\x78"+ , signature = "\x01\x96\xf1\x2a\x00\x5b\x98\x12\x9c\x8d\xf1\x3c\x4c\xb1\x6f\x8a\xa8\x87\xd3\xc4\x0d\x96\xdf\x3a\x88\xe7\x53\x2e\xf3\x9c\xd9\x92\xf2\x73\xab\xc3\x70\xbc\x1b\xe6\xf0\x97\xcf\xeb\xbf\x01\x18\xfd\x9e\xf4\xb9\x27\x15\x5f\x3d\xf2\x2b\x90\x4d\x90\x70\x2d\x1f\x7b\xa7\xa5\x2b\xed\x8b\x89\x42\xf4\x12\xcd\x7b\xd6\x76\xc9\xd1\x8e\x17\x03\x91\xdc\xd3\x45\xc0\x6a\x73\x09\x64\xb3\xf3\x0b\xcc\xe0\xbb\x20\xba\x10\x6f\x9a\xb0\xee\xb3\x9c\xf8\xa6\x60\x7f\x75\xc0\x34\x7f\x0a\xf7\x9f\x16\xaf\xa0\x81\xd2\xc9\x2d\x1e\xe6\xf8\x36\xb8"+ }+ -- Example 3.5+ , VectorPSS+ { message = "\xfe\xf4\x16\x1d\xfa\xaf\x9c\x52\x95\x05\x1d\xfc\x1f\xf3\x81\x0c\x8c\x9e\xc2\xe8\x66\xf7\x07\x54\x22\xc8\xec\x42\x16\xa9\xc4\xff\x49\x42\x7d\x48\x3c\xae\x10\xc8\x53\x4a\x41\xb2\xfd\x15\xfe\xe0\x69\x60\xec\x6f\xb3\xf7\xa7\xe9\x4a\x2f\x8a\x2e\x3e\x43\xdc\x4a\x40\x57\x6c\x30\x97\xac\x95\x3b\x1d\xe8\x6f\x0b\x4e\xd3\x6d\x64\x4f\x23\xae\x14\x42\x55\x29\x62\x24\x64\xca\x0c\xbf\x0b\x17\x41\x34\x72\x38\x15\x7f\xab\x59\xe4\xde\x55\x24\x09\x6d\x62\xba\xec\x63\xac\x64"+ , salt = "\x50\x32\x7e\xfe\xc6\x29\x2f\x98\x01\x9f\xc6\x7a\x2a\x66\x38\x56\x3e\x9b\x6e\x2d"+ , signature = "\x02\x1e\xca\x3a\xb4\x89\x22\x64\xec\x22\x41\x1a\x75\x2d\x92\x22\x10\x76\xd4\xe0\x1c\x0e\x6f\x0d\xde\x9a\xfd\x26\xba\x5a\xcf\x6d\x73\x9e\xf9\x87\x54\x5d\x16\x68\x3e\x56\x74\xc9\xe7\x0f\x1d\xe6\x49\xd7\xe6\x1d\x48\xd0\xca\xeb\x4f\xb4\xd8\xb2\x4f\xba\x84\xa6\xe3\x10\x8f\xee\x7d\x07\x05\x97\x32\x66\xac\x52\x4b\x4a\xd2\x80\xf7\xae\x17\xdc\x59\xd9\x6d\x33\x51\x58\x6b\x5a\x3b\xdb\x89\x5d\x1e\x1f\x78\x20\xac\x61\x35\xd8\x75\x34\x80\x99\x83\x82\xba\x32\xb7\x34\x95\x59\x60\x8c\x38\x74\x52\x90\xa8\x5e\xf4\xe9\xf9\xbd\x83"+ }+ -- Example 3.6+ , VectorPSS+ { message = "\xef\xd2\x37\xbb\x09\x8a\x44\x3a\xee\xb2\xbf\x6c\x3f\x8c\x81\xb8\xc0\x1b\x7f\xcb\x3f\xeb"+ , salt = "\xb0\xde\x3f\xc2\x5b\x65\xf5\xaf\x96\xb1\xd5\xcc\x3b\x27\xd0\xc6\x05\x30\x87\xb3"+ , signature = "\x01\x2f\xaf\xec\x86\x2f\x56\xe9\xe9\x2f\x60\xab\x0c\x77\x82\x4f\x42\x99\xa0\xca\x73\x4e\xd2\x6e\x06\x44\xd5\xd2\x22\xc7\xf0\xbd\xe0\x39\x64\xf8\xe7\x0a\x5c\xb6\x5e\xd4\x4e\x44\xd5\x6a\xe0\xed\xf1\xff\x86\xca\x03\x2c\xc5\xdd\x44\x04\xdb\xb7\x6a\xb8\x54\x58\x6c\x44\xee\xd8\x33\x6d\x08\xd4\x57\xce\x6c\x03\x69\x3b\x45\xc0\xf1\xef\xef\x93\x62\x4b\x95\xb8\xec\x16\x9c\x61\x6d\x20\xe5\x53\x8e\xbc\x0b\x67\x37\xa6\xf8\x2b\x4b\xc0\x57\x09\x24\xfc\x6b\x35\x75\x9a\x33\x48\x42\x62\x79\xf8\xb3\xd7\x74\x4e\x2d\x22\x24\x26\xce"+ }+ ] -# Salt:-ad 8b 15 23 70 36 46 22 4b 66 0b 55 08 85 91 7c -a2 d1 df 28 +-- ==================================+-- Example 8: A 1031-bit RSA Key Pair+-- ================================== -# Signature:-6d 3b 5b 87 f6 7e a6 57 af 21 f7 54 41 97 7d 21 -80 f9 1b 2c 5f 69 2d e8 29 55 69 6a 68 67 30 d9 -b9 77 8d 97 07 58 cc b2 60 71 c2 20 9f fb d6 12 -5b e2 e9 6e a8 1b 67 cb 9b 93 08 23 9f da 17 f7 -b2 b6 4e cd a0 96 b6 b9 35 64 0a 5a 1c b4 2a 91 -55 b1 c9 ef 7a 63 3a 02 c5 9f 0d 6e e5 9b 85 2c -43 b3 50 29 e7 3c 94 0f f0 41 0e 8f 11 4e ed 46 -bb d0 fa e1 65 e4 2b e2 52 8a 40 1c 3b 28 fd 81 -8e f3 23 2d ca 9f 4d 2a 0f 51 66 ec 59 c4 23 96 -d6 c1 1d bc 12 15 a5 6f a1 71 69 db 95 75 34 3e -f3 4f 9d e3 2a 49 cd c3 17 49 22 f2 29 c2 3e 18 -e4 5d f9 35 31 19 ec 43 19 ce dc e7 a1 7c 64 08 -8c 1f 6f 52 be 29 63 41 00 b3 91 9d 38 f3 d1 ed -94 e6 89 1e 66 a7 3b 8f b8 49 f5 87 4d f5 94 59 -e2 98 c7 bb ce 2e ee 78 2a 19 5a a6 6f e2 d0 73 -2b 25 e5 95 f5 7d 3e 06 1b 1f c3 e4 06 3b f9 8f +rsaKey8 = PrivateKey+ { private_pub = PublicKey+ { public_n = 0x495370a1fb18543c16d3631e3163255df62be6eee890d5f25509e4f778a8ea6fbbbcdf85dff64e0d972003ab3681fbba6dd41fd541829b2e582de9f2a4a4e0a2d0900bef4753db3cee0ee06c7dfae8b1d53b5953218f9cceea695b08668edeaadced9463b1d790d5ebf27e9115b46cad4d9a2b8efab0561b0810344739ada0733f+ , public_e = 0x010001+ , public_size = 129+ }+ , private_d = 0x6c66ffe98980c38fcdeab5159898836165f4b4b817c4f6a8d486ee4ea9130fe9b9092bd136d184f95f504a607eac565846d2fdd6597a8967c7396ef95a6eeebb4578a643966dca4d8ee3de842de63279c618159c1ab54a89437b6a6120e4930afb52a4ba6ced8a4947ac64b30a3497cbe701c2d6266d517219ad0ec6d347dbe9+ , private_p = 0x08dad7f11363faa623d5d6d5e8a319328d82190d7127d2846c439b0ab72619b0a43a95320e4ec34fc3a9cea876422305bd76c5ba7be9e2f410c8060645a1d29edb+ , private_q = 0x0847e732376fc7900f898ea82eb2b0fc418565fdae62f7d9ec4ce2217b97990dd272db157f99f63c0dcbb9fbacdbd4c4dadb6df67756358ca4174825b48f49706d+ , private_dP = 0x05c2a83c124b3621a2aa57ea2c3efe035eff4560f33ddebb7adab81fce69a0c8c2edc16520dda83d59a23be867963ac65f2cc710bbcfb96ee103deb771d105fd85+ , private_dQ = 0x04cae8aa0d9faa165c87b682ec140b8ed3b50b24594b7a3b2c220b3669bb819f984f55310a1ae7823651d4a02e99447972595139363434e5e30a7e7d241551e1b9+ , private_qinv = 0x07d3e47bf686600b11ac283ce88dbb3f6051e8efd04680e44c171ef531b80b2b7c39fc766320e2cf15d8d99820e96ff30dc69691839c4b40d7b06e45307dc91f3f+ } --}+vectorsKey8 =+ [+ -- Example 8.1+ VectorPSS+ { message = "\x81\x33\x2f\x4b\xe6\x29\x48\x41\x5e\xa1\xd8\x99\x79\x2e\xea\xcf\x6c\x6e\x1d\xb1\xda\x8b\xe1\x3b\x5c\xea\x41\xdb\x2f\xed\x46\x70\x92\xe1\xff\x39\x89\x14\xc7\x14\x25\x97\x75\xf5\x95\xf8\x54\x7f\x73\x56\x92\xa5\x75\xe6\x92\x3a\xf7\x8f\x22\xc6\x99\x7d\xdb\x90\xfb\x6f\x72\xd7\xbb\x0d\xd5\x74\x4a\x31\xde\xcd\x3d\xc3\x68\x58\x49\x83\x6e\xd3\x4a\xec\x59\x63\x04\xad\x11\x84\x3c\x4f\x88\x48\x9f\x20\x97\x35\xf5\xfb\x7f\xda\xf7\xce\xc8\xad\xdc\x58\x18\x16\x8f\x88\x0a\xcb\xf4\x90\xd5\x10\x05\xb7\xa8\xe8\x4e\x43\xe5\x42\x87\x97\x75\x71\xdd\x99\xee\xa4\xb1\x61\xeb\x2d\xf1\xf5\x10\x8f\x12\xa4\x14\x2a\x83\x32\x2e\xdb\x05\xa7\x54\x87\xa3\x43\x5c\x9a\x78\xce\x53\xed\x93\xbc\x55\x08\x57\xd7\xa9\xfb"+ , salt = "\x1d\x65\x49\x1d\x79\xc8\x64\xb3\x73\x00\x9b\xe6\xf6\xf2\x46\x7b\xac\x4c\x78\xfa"+ , signature = "\x02\x62\xac\x25\x4b\xfa\x77\xf3\xc1\xac\xa2\x2c\x51\x79\xf8\xf0\x40\x42\x2b\x3c\x5b\xaf\xd4\x0a\x8f\x21\xcf\x0f\xa5\xa6\x67\xcc\xd5\x99\x3d\x42\xdb\xaf\xb4\x09\xc5\x20\xe2\x5f\xce\x2b\x1e\xe1\xe7\x16\x57\x7f\x1e\xfa\x17\xf3\xda\x28\x05\x2f\x40\xf0\x41\x9b\x23\x10\x6d\x78\x45\xaa\xf0\x11\x25\xb6\x98\xe7\xa4\xdf\xe9\x2d\x39\x67\xbb\x00\xc4\xd0\xd3\x5b\xa3\x55\x2a\xb9\xa8\xb3\xee\xf0\x7c\x7f\xec\xdb\xc5\x42\x4a\xc4\xdb\x1e\x20\xcb\x37\xd0\xb2\x74\x47\x69\x94\x0e\xa9\x07\xe1\x7f\xbb\xca\x67\x3b\x20\x52\x23\x80\xc5"+ }+ -- Example 8.2+ , VectorPSS+ { message = "\xe2\xf9\x6e\xaf\x0e\x05\xe7\xba\x32\x6e\xcc\xa0\xba\x7f\xd2\xf7\xc0\x23\x56\xf3\xce\xde\x9d\x0f\xaa\xbf\x4f\xcc\x8e\x60\xa9\x73\xe5\x59\x5f\xd9\xea\x08"+ , salt = "\x43\x5c\x09\x8a\xa9\x90\x9e\xb2\x37\x7f\x12\x48\xb0\x91\xb6\x89\x87\xff\x18\x38"+ , signature = "\x27\x07\xb9\xad\x51\x15\xc5\x8c\x94\xe9\x32\xe8\xec\x0a\x28\x0f\x56\x33\x9e\x44\xa1\xb5\x8d\x4d\xdc\xff\x2f\x31\x2e\x5f\x34\xdc\xfe\x39\xe8\x9c\x6a\x94\xdc\xee\x86\xdb\xbd\xae\x5b\x79\xba\x4e\x08\x19\xa9\xe7\xbf\xd9\xd9\x82\xe7\xee\x6c\x86\xee\x68\x39\x6e\x8b\x3a\x14\xc9\xc8\xf3\x4b\x17\x8e\xb7\x41\xf9\xd3\xf1\x21\x10\x9b\xf5\xc8\x17\x2f\xad\xa2\xe7\x68\xf9\xea\x14\x33\x03\x2c\x00\x4a\x8a\xa0\x7e\xb9\x90\x00\x0a\x48\xdc\x94\xc8\xba\xc8\xaa\xbe\x2b\x09\xb1\xaa\x46\xc0\xa2\xaa\x0e\x12\xf6\x3f\xbb\xa7\x75\xba\x7e"+ }+ -- Example 8.3+ , VectorPSS+ { message = "\xe3\x5c\x6e\xd9\x8f\x64\xa6\xd5\xa6\x48\xfc\xab\x8a\xdb\x16\x33\x1d\xb3\x2e\x5d\x15\xc7\x4a\x40\xed\xf9\x4c\x3d\xc4\xa4\xde\x79\x2d\x19\x08\x89\xf2\x0f\x1e\x24\xed\x12\x05\x4a\x6b\x28\x79\x8f\xcb\x42\xd1\xc5\x48\x76\x9b\x73\x4c\x96\x37\x31\x42\x09\x2a\xed\x27\x76\x03\xf4\x73\x8d\xf4\xdc\x14\x46\x58\x6d\x0e\xc6\x4d\xa4\xfb\x60\x53\x6d\xb2\xae\x17\xfc\x7e\x3c\x04\xbb\xfb\xbb\xd9\x07\xbf\x11\x7c\x08\x63\x6f\xa1\x6f\x95\xf5\x1a\x62\x16\x93\x4d\x3e\x34\xf8\x50\x30\xf1\x7b\xbb\xc5\xba\x69\x14\x40\x58\xaf\xf0\x81\xe0\xb1\x9c\xf0\x3c\x17\x19\x5c\x5e\x88\x8b\xa5\x8f\x6f\xe0\xa0\x2e\x5c\x3b\xda\x97\x19\xa7"+ , salt = "\xc6\xeb\xbe\x76\xdf\x0c\x4a\xea\x32\xc4\x74\x17\x5b\x2f\x13\x68\x62\xd0\x45\x29"+ , signature = "\x2a\xd2\x05\x09\xd7\x8c\xf2\x6d\x1b\x6c\x40\x61\x46\x08\x6e\x4b\x0c\x91\xa9\x1c\x2b\xd1\x64\xc8\x7b\x96\x6b\x8f\xaa\x42\xaa\x0c\xa4\x46\x02\x23\x23\xba\x4b\x1a\x1b\x89\x70\x6d\x7f\x4c\x3b\xe5\x7d\x7b\x69\x70\x2d\x16\x8a\xb5\x95\x5e\xe2\x90\x35\x6b\x8c\x4a\x29\xed\x46\x7d\x54\x7e\xc2\x3c\xba\xdf\x28\x6c\xcb\x58\x63\xc6\x67\x9d\xa4\x67\xfc\x93\x24\xa1\x51\xc7\xec\x55\xaa\xc6\xdb\x40\x84\xf8\x27\x26\x82\x5c\xfe\x1a\xa4\x21\xbc\x64\x04\x9f\xb4\x2f\x23\x14\x8f\x9c\x25\xb2\xdc\x30\x04\x37\xc3\x8d\x42\x8a\xa7\x5f\x96"+ }+ -- Example 8.4+ , VectorPSS+ { message = "\xdb\xc5\xf7\x50\xa7\xa1\x4b\xe2\xb9\x3e\x83\x8d\x18\xd1\x4a\x86\x95\xe5\x2e\x8a\xdd\x9c\x0a\xc7\x33\xb8\xf5\x6d\x27\x47\xe5\x29\xa0\xcc\xa5\x32\xdd\x49\xb9\x02\xae\xfe\xd5\x14\x44\x7f\x9e\x81\xd1\x61\x95\xc2\x85\x38\x68\xcb\x9b\x30\xf7\xd0\xd4\x95\xc6\x9d\x01\xb5\xc5\xd5\x0b\x27\x04\x5d\xb3\x86\x6c\x23\x24\xa4\x4a\x11\x0b\x17\x17\x74\x6d\xe4\x57\xd1\xc8\xc4\x5c\x3c\xd2\xa9\x29\x70\xc3\xd5\x96\x32\x05\x5d\x4c\x98\xa4\x1d\x6e\x99\xe2\xa3\xdd\xd5\xf7\xf9\x97\x9a\xb3\xcd\x18\xf3\x75\x05\xd2\x51\x41\xde\x2a\x1b\xff\x17\xb3\xa7\xdc\xe9\x41\x9e\xcc\x38\x5c\xf1\x1d\x72\x84\x0f\x19\x95\x3f\xd0\x50\x92\x51\xf6\xca\xfd\xe2\x89\x3d\x0e\x75\xc7\x81\xba\x7a\x50\x12\xca\x40\x1a\x4f\xa9\x9e\x04\xb3\xc3\x24\x9f\x92\x6d\x5a\xfe\x82\xcc\x87\xda\xb2\x2c\x3c\x1b\x10\x5d\xe4\x8e\x34\xac\xe9\xc9\x12\x4e\x59\x59\x7a\xc7\xeb\xf8"+ , salt = "\x02\x1f\xdc\xc6\xeb\xb5\xe1\x9b\x1c\xb1\x6e\x9c\x67\xf2\x76\x81\x65\x7f\xe2\x0a"+ , signature = "\x1e\x24\xe6\xe5\x86\x28\xe5\x17\x50\x44\xa9\xeb\x6d\x83\x7d\x48\xaf\x12\x60\xb0\x52\x0e\x87\x32\x7d\xe7\x89\x7e\xe4\xd5\xb9\xf0\xdf\x0b\xe3\xe0\x9e\xd4\xde\xa8\xc1\x45\x4f\xf3\x42\x3b\xb0\x8e\x17\x93\x24\x5a\x9d\xf8\xbf\x6a\xb3\x96\x8c\x8e\xdd\xc3\xb5\x32\x85\x71\xc7\x7f\x09\x1c\xc5\x78\x57\x69\x12\xdf\xeb\xd1\x64\xb9\xde\x54\x54\xfe\x0b\xe1\xc1\xf6\x38\x5b\x32\x83\x60\xce\x67\xec\x7a\x05\xf6\xe3\x0e\xb4\x5c\x17\xc4\x8a\xc7\x00\x41\xd2\xca\xb6\x7f\x0a\x2a\xe7\xaa\xfd\xcc\x8d\x24\x5e\xa3\x44\x2a\x63\x00\xcc\xc7"+ }+ -- Example 8.5+ , VectorPSS+ { message = "\x04\xdc\x25\x1b\xe7\x2e\x88\xe5\x72\x34\x85\xb6\x38\x3a\x63\x7e\x2f\xef\xe0\x76\x60\xc5\x19\xa5\x60\xb8\xbc\x18\xbd\xed\xb8\x6e\xae\x23\x64\xea\x53\xba\x9d\xca\x6e\xb3\xd2\xe7\xd6\xb8\x06\xaf\x42\xb3\xe8\x7f\x29\x1b\x4a\x88\x81\xd5\xbf\x57\x2c\xc9\xa8\x5e\x19\xc8\x6a\xcb\x28\xf0\x98\xf9\xda\x03\x83\xc5\x66\xd3\xc0\xf5\x8c\xfd\x8f\x39\x5d\xcf\x60\x2e\x5c\xd4\x0e\x8c\x71\x83\xf7\x14\x99\x6e\x22\x97\xef"+ , salt = "\xc5\x58\xd7\x16\x7c\xbb\x45\x08\xad\xa0\x42\x97\x1e\x71\xb1\x37\x7e\xea\x42\x69"+ , signature = "\x33\x34\x1b\xa3\x57\x6a\x13\x0a\x50\xe2\xa5\xcf\x86\x79\x22\x43\x88\xd5\x69\x3f\x5a\xcc\xc2\x35\xac\x95\xad\xd6\x8e\x5e\xb1\xee\xc3\x16\x66\xd0\xca\x7a\x1c\xda\x6f\x70\xa1\xaa\x76\x2c\x05\x75\x2a\x51\x95\x0c\xdb\x8a\xf3\xc5\x37\x9f\x18\xcf\xe6\xb5\xbc\x55\xa4\x64\x82\x26\xa1\x5e\x91\x2e\xf1\x9a\xd7\x7a\xde\xea\x91\x1d\x67\xcf\xef\xd6\x9b\xa4\x3f\xa4\x11\x91\x35\xff\x64\x21\x17\xba\x98\x5a\x7e\x01\x00\x32\x5e\x95\x19\xf1\xca\x6a\x92\x16\xbd\xa0\x55\xb5\x78\x50\x15\x29\x11\x25\xe9\x0d\xcd\x07\xa2\xca\x96\x73\xee"+ }+ -- Example 8.6+ , VectorPSS+ { message = "\x0e\xa3\x7d\xf9\xa6\xfe\xa4\xa8\xb6\x10\x37\x3c\x24\xcf\x39\x0c\x20\xfa\x6e\x21\x35\xc4\x00\xc8\xa3\x4f\x5c\x18\x3a\x7e\x8e\xa4\xc9\xae\x09\x0e\xd3\x17\x59\xf4\x2d\xc7\x77\x19\xcc\xa4\x00\xec\xdc\xc5\x17\xac\xfc\x7a\xc6\x90\x26\x75\xb2\xef\x30\xc5\x09\x66\x5f\x33\x21\x48\x2f\xc6\x9a\x9f\xb5\x70\xd1\x5e\x01\xc8\x45\xd0\xd8\xe5\x0d\x2a\x24\xcb\xf1\xcf\x0e\x71\x49\x75\xa5\xdb\x7b\x18\xd9\xe9\xe9\xcb\x91\xb5\xcb\x16\x86\x90\x60\xed\x18\xb7\xb5\x62\x45\x50\x3f\x0c\xaf\x90\x35\x2b\x8d\xe8\x1c\xb5\xa1\xd9\xc6\x33\x60\x92\xf0\xcd"+ , salt = "\x76\xfd\x4e\x64\xfd\xc9\x8e\xb9\x27\xa0\x40\x3e\x35\xa0\x84\xe7\x6b\xa9\xf9\x2a"+ , signature = "\x1e\xd1\xd8\x48\xfb\x1e\xdb\x44\x12\x9b\xd9\xb3\x54\x79\x5a\xf9\x7a\x06\x9a\x7a\x00\xd0\x15\x10\x48\x59\x3e\x0c\x72\xc3\x51\x7f\xf9\xff\x2a\x41\xd0\xcb\x5a\x0a\xc8\x60\xd7\x36\xa1\x99\x70\x4f\x7c\xb6\xa5\x39\x86\xa8\x8b\xbd\x8a\xbc\xc0\x07\x6a\x2c\xe8\x47\x88\x00\x31\x52\x5d\x44\x9d\xa2\xac\x78\x35\x63\x74\xc5\x36\xe3\x43\xfa\xa7\xcb\xa4\x2a\x5a\xaa\x65\x06\x08\x77\x91\xc0\x6a\x8e\x98\x93\x35\xae\xd1\x9b\xfa\xb2\xd5\xe6\x7e\x27\xfb\x0c\x28\x75\xaf\x89\x6c\x21\xb6\xe8\xe7\x30\x9d\x04\xe4\xf6\x72\x7e\x69\x46\x3e"+ }+ ] -doSignTest key (i, vector) = testCase (show i) (Right (signature vector) @=? actual)+doSignTest key i vector = testCase (show i) (Right (signature vector) @=? actual) where actual = PSS.signWithSalt (salt vector) Nothing PSS.defaultPSSParamsSHA1 key (message vector) -doVerifyTest key (i, vector) = testCase (show i) (True @=? actual)+doVerifyTest key i vector = testCase (show i) (True @=? actual) where actual = PSS.verify PSS.defaultPSSParamsSHA1 (private_pub key) (message vector) (signature vector) pssTests = testGroup "RSA-PSS" [ testGroup "signature internal"- [ doSignTest rsaKeyInt (katZero, vectorInt) ]+ [ doSignTest rsaKeyInt katZero vectorInt ] , testGroup "verify internal"- [ doVerifyTest rsaKeyInt (katZero, vectorInt) ]- , testGroup "signature key 1024" $ map (doSignTest rsaKey1) (zip [katZero..] vectorsKey1)- , testGroup "verify key 1024" $ map (doVerifyTest rsaKey1) (zip [katZero..] vectorsKey1)+ [ doVerifyTest rsaKeyInt katZero vectorInt ]+ , testGroup "signature key 1024" $ zipWith (doSignTest rsaKey1) [katZero..] vectorsKey1+ , testGroup "verify key 1024" $ zipWith (doVerifyTest rsaKey1) [katZero..] vectorsKey1+ , testGroup "signature key 1025" $ zipWith (doSignTest rsaKey2) [katZero..] vectorsKey2+ , testGroup "verify key 1025" $ zipWith (doVerifyTest rsaKey2) [katZero..] vectorsKey2+ , testGroup "signature key 1026" $ zipWith (doSignTest rsaKey3) [katZero..] vectorsKey3+ , testGroup "verify key 1026" $ zipWith (doVerifyTest rsaKey3) [katZero..] vectorsKey3+ , testGroup "signature key 1031" $ zipWith (doSignTest rsaKey8) [katZero..] vectorsKey8+ , testGroup "verify key 1031" $ zipWith (doVerifyTest rsaKey8) [katZero..] vectorsKey8 ]
+ tests/KAT_PubKey/RSA.hs view
@@ -0,0 +1,102 @@+{-# LANGUAGE OverloadedStrings #-}+module KAT_PubKey.RSA (rsaTests) where++import qualified Crypto.PubKey.RSA as RSA+import qualified Crypto.PubKey.RSA.PKCS15 as RSA+import Crypto.Hash++import Imports++import Data.Either (isRight)++data VectorRSA = VectorRSA+ { size :: Int+ , msg :: ByteString+ , n :: Integer+ , e :: Integer+ , d :: Integer+ , p :: Integer+ , q :: Integer+ , dP :: Integer+ , dQ :: Integer+ , qinv :: Integer+ , sig :: Either RSA.Error ByteString+ }++vectorsSHA1 =+ [ VectorRSA+ { size = 2048 `div` 8+ , msg = "The quick brown fox jumps over the lazy dog"+ , n = 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 , e = 0x10001+ , d = 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 , p = 0x00f85bfcfe55af59445f21f67ab1d8617d1f84360556eeb660d5c466f29e4d2228f9cc3fde4c594ea97069a19c666b68b6d905b65738ae63de6c11f9181ee9262313e5165591651bb3abec192abbc8c3694550bcffa451a2e2d1976bf3ecbc4480354f8d8646133298156aaa626b8807c5295850f93686400835466b6a5ccec61b+ , q = 0x00cec28b22b1d37c6c60d25e9747cb1bebd1270f0306db56ed8533f392d6a0cfe6b3dde13789758cf89febac214ba96667e46599f89ca210dced550ca6092a854ff95dff80ea48ff1a83455f4bb93f2ececa782da03b85a789239e8be5264130628724ceab57c8f76e4c7e822bf4fbf334c7d32610bec65047433e0e3b636afe1b+ , dP = 0x52fe0a50c339514f33ab19be6e67ac4c2f97f2a55e236ef674f8a89e329ffbe64d731f749d76ca7e7c7e0fef3f9a6ce78d260784a600408736fdda8b60e8f0419088612a3ee7d695f7c171b78200d8abf8e9bdfe7f5e785beb45fa610c9eed151abb76c383ef2e5cfbeb24fcb68a426e741e7b108c53d859e5d39e5970a1f839+ , dQ = 0x39ef91853b47038a6ae707d2642fa9b73e782f60adbf307085eeb4c5e496532b56234a4481a40ac870275da846c74506bf9d28b3dd501c618baf5548013185018fe2a301c0a48bb726297e367dc6129ba7685d8094ad32f0dea64295074f24fbb6dabd7e8daea686a5b09d512be89d91a09cae01eb332eb389480e3cddf2d119+ , qinv = 0x09ce1fa29008ef4b9798e5b8ec213dbdfec4fab4403ebf4b8786ad401ef33bc880c40a990b0826f72415192a206a504b27d2ba45ca555706200ea8e7a9b42d4077e9e6e0d80d4144966c53a36d23d30d987322dcc0013efe8df3b6b5914a2ceefc22cc5de6d569731794e9894f18f11d36a79558dc4c3ae5db1ce9bd05e7bf2e+ , sig = Right "\x56\x66\x99\x0f\xd4\xea\x2b\xe0\x6d\x46\x3b\x10\x99\x5b\x06\x32\x5e\xec\x29\xfe\xa4\x63\x4d\x54\xf6\x31\x74\x5d\x01\x5a\x67\x09\x2e\xa7\x02\x8a\x48\x00\x3c\x0d\xef\x04\xe7\x52\x46\xe0\xfa\xb1\x42\x26\x89\xe7\xec\x25\x44\x76\xa0\x86\x33\xb0\xbe\x22\x17\x88\x9b\x18\x4d\x3e\xc2\x9b\xd4\x61\x2b\x9e\xde\x08\x56\xf8\xd5\xee\xb8\x38\xf4\x3d\xda\x9a\xbb\x34\x58\x87\x71\x1d\x1a\x7e\xc7\x3d\x46\x39\x01\x79\x29\x8b\xa4\xcd\xce\xd7\xab\xcb\x2e\x94\x5c\xfd\x54\xcc\xef\x80\x31\xfc\x5e\x8f\xc2\x4d\x76\x1e\x4c\xbc\x50\x7a\x9b\x08\xae\x85\xeb\x6a\xe0\x80\xdc\xff\x60\x13\xb0\x31\x94\x14\x9d\x8f\x9f\x48\x38\xcf\x4c\x82\x9d\x3b\x68\xc6\xe4\xe9\x5d\x94\x74\xa2\xac\x1f\xb9\x84\x41\x86\x11\xeb\x2c\x50\x64\xd7\x00\xe0\x85\x21\x5a\xd7\xae\x9b\x4c\x8e\x6a\x92\x97\xac\xcc\xb8\x38\x4f\x41\xb9\x3d\xa9\xfe\x69\x8b\x04\x81\xad\xfb\x0f\x49\x74\xfe\x26\x9c\x86\x0c\xf3\xd1\x8e\xa1\xb5\xaf\xef\x85\x3d\xfe\xd0\x7c\xcf\x18\xe4\x0f\x14\x99\xea\x93\x61\x79\x16\xbf\x38\xac\xa2\xa2\xac\xac\x2d\xae\x21\x85\x71\x94\xda\x5d\xa1\x82\xa8\x76\x82\xe5\x2f"+ }+ , VectorRSA+ { size = 360 `div` 8+ , msg = "The quick brown fox jumps over the lazy dog"+ , n = 0x00bc2d7481c83c8be55da4caeaf1a30dbf9a1226ba7443c0a66213180d3eb8e29c3162401b7be067dff8f571a8eb+ , e = 0x10001+ , d = 0x726fb62d82c707507a2d5055a6934136270d28ce350c3a36d89066e26fb54f5b33da0bc9a05c2084f2b39be4e1+ , p = 0x0e3ff89e1f95a461c9f5ee480fd7b13529a225f3ee07fb+ , q = 0x0d349ebc89329b493c03451ad20155de9775df55c55fd1+ , dP = 0x00943adef9fb93a561967bab33f198c2c7414e777df997+ , dQ = 0x078de99ceb5392f7f327dfb97717a27ae2e4606dddaa71+ , qinv = 0x0c54d59eaa029844fb3fe33a180161590b1cb103cc668e+ , sig = Left RSA.SignatureTooLong+ }+ , VectorRSA+ { size = 368 `div` 8+ , msg = "The quick brown fox jumps over the lazy dog"+ , n = 0x009cff2fd20246e390d6860b48a3926e83086d1386f7147e9f195623cf8f18546ceb20d428b77e0748864c8f611cb7+ , e = 0x10001+ , d = 0x0097706cbf6624dd448c3a36ce35c27d49762a4948ca33804178d2ff826f8d336aaed622801c8d76d442be371da841+ , p = 0x00d12519f81441069ab1a86c38e0065e9578a46e655d5a17+ , q = 0x00c02b485ac3ee241d57b6b282f830d7d5bf6f4de75c1661+ , dP = 0x00a1af4611444f34f4d88d7504cf23fd711e70382c42ec07+ , dQ = 0x04226a4219a90bf9dda33e9ff6bb0649c0fea20c723cc1+ , qinv = 0x5dd87bf3c1e295dcc8602859a7cd74f05a2fe91a9d5877+ , sig = Right "\x51\xe4\xdd\x98\xee\xd5\x06\xef\x7a\xa5\x3c\xaf\x29\x33\xa4\x91\xfa\x8b\xb8\x09\xcf\x3e\xa1\x64\x92\x71\xad\x7b\x3a\x83\xb2\xa0\x77\x94\x4e\x59\xdf\x69\x58\x2e\xc8\x8d\xa0\x70\xfe\x7d"+ }+ ]++vectorToPrivate :: VectorRSA -> RSA.PrivateKey+vectorToPrivate vector = RSA.PrivateKey+ { RSA.private_pub = vectorToPublic vector+ , RSA.private_d = d vector+ , RSA.private_p = p vector+ , RSA.private_q = q vector+ , RSA.private_dP = dP vector+ , RSA.private_dQ = dQ vector+ , RSA.private_qinv = qinv vector+ }++vectorToPublic :: VectorRSA -> RSA.PublicKey+vectorToPublic vector = RSA.PublicKey+ { RSA.public_size = size vector+ , RSA.public_n = n vector+ , RSA.public_e = e vector+ }++vectorHasSignature :: VectorRSA -> Bool+vectorHasSignature = isRight . sig++doSignatureTest i vector = testCase (show i) (expected @=? actual)+ where expected = sig vector+ actual = RSA.sign Nothing (Just SHA1) (vectorToPrivate vector) (msg vector)++doVerifyTest i vector = testCase (show i) (True @=? actual)+ where actual = RSA.verify (Just SHA1) (vectorToPublic vector) (msg vector) bs+ Right bs = sig vector++rsaTests = testGroup "RSA"+ [ testGroup "SHA1"+ [ testGroup "signature" $ zipWith doSignatureTest [katZero..] vectorsSHA1+ , testGroup "verify" $ zipWith doVerifyTest [katZero..] $ filter vectorHasSignature vectorsSHA1+ ]+ ]
+ tests/KAT_PubKey/Rabin.hs view
@@ -0,0 +1,145 @@+{-# LANGUAGE OverloadedStrings #-}+module KAT_PubKey.Rabin (rabinTests) where++import qualified Data.ByteString as B++import Crypto.Hash+import Crypto.Number.Serialize (os2ip)+import qualified Crypto.PubKey.Rabin.Basic as BRabin+import qualified Crypto.PubKey.Rabin.Modified as MRabin+import qualified Crypto.PubKey.Rabin.OAEP as OAEP+import qualified Crypto.PubKey.Rabin.RW as RW++import Imports++basicRabinKey = BRabin.PrivateKey+ { BRabin.private_pub = BRabin.PublicKey+ { BRabin.public_n = 0xc9c4b0df9db989d93df4137fc2de2a9cee2610523f7a450ecbbf252babe98fba2f8e389c3e420c081e18f584c5746ca43f77f6af1fc79161f8bf8fbcb9564779986ecbe656dd16740cb8e399c33ff1dcc679e73c9c98a58c65a8673b7de57290a2d3191cb27e29d627f7ec6e874b1406051ffe9181e4d90d1b487b100ad30685 + , BRabin.public_size = 128+ }+ , BRabin.private_p = 0xe071f231ab5912285a1f8db199795f5efdea4c32f646a3436eaec091ba853a3092216f26b539bbac1fe2ab2e4fbb20aad272a434a1e909bf6d3028aecae2a7b7+ , BRabin.private_q = 0xe6229470dc7da58bfcd962f1b3ddcf52304efbfb91d31c8ed84dbae2380c1ad2e338a523b4250863a689b3f262f949bd7a9f1a603c36634bb932dd71bf5daba3+ , BRabin.private_a = 0x65956653f711a63b776ce45862d4cd78f1ad7b1f8ed118bb8b5ea5fffd59762da5dc7c5298e236a8e45d5c93477cbc51f214b1cd1a4980eda859c1cb05e55666+ , BRabin.private_b = -0x63126dd9c5d6b5215f62012885570e1306b6a47ec1c46553f3b13ceae869149d14544438dbb976800cd62fbb52266f9a6405bc91f192a462c974bc8a6f832e03+ }++modifiedRabinKey = MRabin.PrivateKey+ { MRabin.private_pub = MRabin.PublicKey+ { MRabin.public_n = 0x9461a6e7c55cb610f20fd9af5d642404a63332a8d7c4fe7aa559cbcaec691e7216eed5d9322cb6a8619c220a0241b44e0d0a7cefda01fb84e59722b4e842ab5e190d214424bbdfed6d523426fc57a28045dfbb6e8159123077c542c0278ee2daf2d8993e286bf709a10a948da6b13008441581a22233f0ad3d5ebc5858ff7be5 + , MRabin.public_size = 128+ }+ , MRabin.private_p = 0xc401e0ddbe565a8797292389bebb561c35eb019116ba25cc6c865a8d3d7bc599626ddf0bc4f575c22f89144fe99fc3300dd497ec2b7acc0221e729a61756b3f3+ , MRabin.private_q = 0xc1cc0e35f23f5086691a18c755881e3fe6937581948b109f47605b45d055e7b352e19ff729dfb33fbecb1d28b115e590449e5e4e228ab1876d889d3d41d87ec7 + , MRabin.private_d = 0x128c34dcf8ab96c21e41fb35ebac848094c666551af89fcf54ab39795d8d23ce42dddabb264596d50c33844140483689c1a14f9dfb403f709cb2e4569d08556b9267e6460e84c69beda1defabd0285c4852c288b7ac27b78987bd19da337a6b1c7b123476732d9c0f656cc62a17f70e8fe34516cfa85ce6475bddeae9ffa0926+ }++rwKey = RW.PrivateKey+ { RW.private_pub = RW.PublicKey+ { RW.public_n = 0x992db4c84564c68d4ee2fe0903d938b41e83bcac48dfe8f2219ccee2ccbdefda4cbeea9f1c98a515c5f39a458f5ea11bca97102aaa3d9ac69e000093024e7b968359287cdf57bdacff5df1893df3539c7e358f037d49b5c6ae7110ab8117220c73b6265987039c2c97078fccacdd3f5a560aff5076fdc3958c532db28ab9a855 + , RW.public_size = 128+ }+ , RW.private_p = 0xc144dd739c45397d61868ca944a9729a7ad34cf90466c8f5c98a88f5ab5e3288bcfd31d4af1d441d23a756a60abd4cf05c3e0b0053eb150166a327ae31e9347b+ , RW.private_q = 0xcae5a381f25a27ae2c359068753118fc384471cd6027e88b8b910306fb940781261089259a3c569546677aebd268704c767a071dbd4f50cb9f15fe448788856f+ , RW.private_d = 0x1325b69908ac98d1a9dc5fc1207b271683d07795891bfd1e443399dc5997bdfb4997dd53e39314a2b8be7348b1ebd4237952e2055547b358d3c000126049cf729ee5d4f0ea170b902e343a8ef0831900b963ba07a3176088ab2ab095db449d0052150d6be7b5402f459f17c759f6f043b06a5da64cb86bb910d340f7fa28fdce+ }++data EncryptionVector = EncryptionVector+ { seed :: ByteString+ , plainText :: ByteString+ , cipherText :: ByteString+ }++data SignatureVector = SignatureVector + { message :: ByteString+ , padding :: ByteString+ , signature :: Integer+ }++basicRabinEncryptionVectors =+ [ EncryptionVector+ { plainText = "\x75\x0c\x40\x47\xf5\x47\xe8\xe4\x14\x11\x85\x65\x23\x29\x8a\xc9\xba\xe2\x45\xef\xaf\x13\x97\xfb\xe5\x6f\x9d\xd5"+ , seed = "\x0c\xc7\x42\xce\x4a\x9b\x7f\x32\xf9\x51\xbc\xb2\x51\xef\xd9\x25\xfe\x4f\xe3\x5f"+ , cipherText = "\xaf\xc7\x03\xe3\x9d\x2f\x81\xc6\x3a\x80\x2a\xd1\x44\x26\x3f\x17\x0c\x0a\xe6\x48\x68\x98\x23\x14\x8f\x95\xd2\xce\xbb\xe7\x3f\x49\x34\x76\x1d\x99\x30\x7b\xeb\x84\xe5\x2a\x10\xd2\x1e\x11\x7e\x65\xe8\x88\x24\xc1\x12\xeb\x19\x0d\x97\xcd\x12\x25\x6b\x1f\x9b\x0c\x40\x40\xa3\x47\x00\xb7\x11\xf8\x50\x08\x51\x79\xe8\x1b\xd1\x77\xe0\x99\xa7\xe1\x5c\x63\xda\x29\xc7\xde\x28\x5d\x60\xed\x8e\xb2\x12\xd4\xfe\xb8\x1a\x5d\x17\x65\x80\x62\x6e\x65\x5c\x37\x07\x1c\xfa\xff\xe6\x21\xa5\x9f\xcd\x6a\x6a\xce\xa6\x96\xb2\xc5\x08\xe6"+ } + ]++basicRabinSignatureVectors =+ [ SignatureVector+ { message = "\x75\x0c\x40\x47\xf5\x47\xe8\xe4\x14\x11\x85\x65\x23\x29\x8a\xc9\xba\xe2\x45\xef\xaf\x13\x97\xfb\xe5\x6f\x9d\xd5"+ , padding = "\xe9\x87\x17\x15\xa2\xe4\x30\x15"+ , signature = 0xac95807bdd03ca975690151d39d23d75e5db2731c4ba30b83c3f3ea74709e4d4e340d7dab952356a76c9b8705b214e28d59f5bdc7c7fdff4e104569e30359b5c65c2dcd5b94db58505cd8b188267121700beebd7edbee492e374514646471b5c3fa252a2580dc7343f455683815d6d7c590dd3bcaa7df41d8b08197ccb183408+ } + ]++modifiedRabinSignatureVectors =+ [ SignatureVector+ { message = "\x75\x0c\x40\x47\xf5\x47\xe8\xe4\x14\x11\x85\x65\x23\x29\x8a\xc9\xba\xe2\x45\xef\xaf\x13\x97\xfb\xe5\x6f\x9d\xd5"+ , padding = B.empty -- not used+ , signature = 0x278c7c269119218ab7f501ea53a97ab15a3a5a263c6daed8980abec78291e9729e0e3457731cdea8ec31a7566e93d10fc9b2615fe3e54f4533a5506ac24a3bd286e270324e538066f0ddf503f9b5e0c18e18379659834906ebd99c0d31588c66e70fc653bc8865b9239999cbd35704917d8647d1199286c533233e3e03582dd+ } + ]+ +rwEncryptionVectors =+ [ EncryptionVector+ { plainText = "\x75\x0c\x40\x47\xf5\x47\xe8\xe4\x14\x11\x85\x65\x23\x29\x8a\xc9\xba\xe2\x45\xef\xaf\x13\x97\xfb\xe5\x6f\x9d\xd5"+ , seed = "\x0c\xc7\x42\xce\x4a\x9b\x7f\x32\xf9\x51\xbc\xb2\x51\xef\xd9\x25\xfe\x4f\xe3\x5f"+ , cipherText = "\x40\xc2\xe3\x36\xac\x46\x72\x8a\xaf\x33\x75\xe1\x27\xd0\x38\x40\xe2\x24\x4e\x20\xa7\x5d\x85\xd3\x74\x81\x21\xfd\xc9\x40\x90\x80\x8c\xed\x2d\xd3\x5b\xc4\xb7\xc9\x7c\x80\xa5\x2f\x63\x86\x34\x4e\x8c\x92\x07\x86\x9e\xda\xfd\xf8\x11\x83\x8a\x5a\x23\xc1\xe6\x77\x37\x5d\xf9\x5c\x60\xd1\x6d\xfd\x0c\x54\xd1\x00\xe9\xab\x97\x6d\x8e\x83\x8b\x6e\x1a\x38\x73\x43\xe2\x24\xc2\xe2\x4e\x74\x3f\xe4\x4d\xdd\x27\xed\xc7\x72\x88\xd3\x0f\x93\xb3\xdb\xa2\xb7\xaf\x6d\xe9\xab\x76\x53\x63\xf9\x62\xd7\x52\x44\x61\x60\x5d\x2e\x9b\xf7"+ } + ]++rwSignatureVectors =+ [ SignatureVector+ { message = "\x75\x0c\x40\x47\xf5\x47\xe8\xe4\x14\x11\x85\x65\x23\x29\x8a\xc9\xba\xe2\x45\xef\xaf\x13\x97\xfb\xe5\x6f\x9d\xd5"+ , padding = B.empty -- not used+ , signature = 0x1e57b554a8e83aacd9d4067f9535991e7db47803250cded5cc8af5458a6bb11fea852139e0afe143f9339dd94a518e354e702134d1ae222460127829d92e8bf6441336f5ae7044ec7b6c3ad8b9aeeb1ea02a49798e020cb5b558120bbb51f060eb1608ba68f90cac7edb1051c177d3bdbb99d1ad92e8d75d6f72f1d06f1d25be+ } + ]++doBasicRabinEncryptTest key i vector = testCase (show i) (Right (cipherText vector) @=? actual)+ where actual = BRabin.encryptWithSeed (seed vector) (OAEP.defaultOAEPParams SHA1) key (plainText vector)++doBasicRabinDecryptTest key i vector = testCase (show i) (Just (plainText vector) @=? actual)+ where actual = BRabin.decrypt (OAEP.defaultOAEPParams SHA1) key (cipherText vector)++doBasicRabinSignTest key i vector = testCase (show i) (Right (BRabin.Signature ((os2ip $ padding vector), (signature vector))) @=? actual)+ where actual = BRabin.signWith (padding vector) key SHA1 (message vector)++doBasicRabinVerifyTest key i vector = testCase (show i) (True @=? actual)+ where actual = BRabin.verify key SHA1 (message vector) (BRabin.Signature ((os2ip $ padding vector), (signature vector)))++doModifiedRabinSignTest key i vector = testCase (show i) (Right (signature vector) @=? actual)+ where actual = MRabin.sign key SHA1 (message vector)++doModifiedRabinVerifyTest key i vector = testCase (show i) (True @=? actual)+ where actual = MRabin.verify key SHA1 (message vector) (signature vector)++doRwEncryptTest key i vector = testCase (show i) (Right (cipherText vector) @=? actual)+ where actual = RW.encryptWithSeed (seed vector) (OAEP.defaultOAEPParams SHA1) key (plainText vector)++doRwDecryptTest key i vector = testCase (show i) (Just (plainText vector) @=? actual)+ where actual = RW.decrypt (OAEP.defaultOAEPParams SHA1) key (cipherText vector)++doRwSignTest key i vector = testCase (show i) (Right (signature vector) @=? actual)+ where actual = RW.sign key SHA1 (message vector)++doRwVerifyTest key i vector = testCase (show i) (True @=? actual)+ where actual = RW.verify key SHA1 (message vector) (signature vector)++rabinTests = testGroup "Rabin"+ [ testGroup "Basic"+ [ testGroup "encrypt" $ zipWith (doBasicRabinEncryptTest $ BRabin.private_pub basicRabinKey) [katZero..] basicRabinEncryptionVectors+ , testGroup "decrypt" $ zipWith (doBasicRabinDecryptTest basicRabinKey) [katZero..] basicRabinEncryptionVectors+ , testGroup "sign" $ zipWith (doBasicRabinSignTest basicRabinKey) [katZero..] basicRabinSignatureVectors+ , testGroup "verify" $ zipWith (doBasicRabinVerifyTest $ BRabin.private_pub basicRabinKey) [katZero..] basicRabinSignatureVectors+ ]+ , testGroup "Modified"+ [ testGroup "sign" $ zipWith (doModifiedRabinSignTest modifiedRabinKey) [katZero..] modifiedRabinSignatureVectors+ , testGroup "verify" $ zipWith (doModifiedRabinVerifyTest $ MRabin.private_pub modifiedRabinKey) [katZero..] modifiedRabinSignatureVectors+ ]+ , testGroup "RW"+ [ testGroup "encrypt" $ zipWith (doRwEncryptTest $ RW.private_pub rwKey) [katZero..] rwEncryptionVectors+ , testGroup "decrypt" $ zipWith (doRwDecryptTest rwKey) [katZero..] rwEncryptionVectors+ , testGroup "sign" $ zipWith (doRwSignTest rwKey) [katZero..] rwSignatureVectors+ , testGroup "verify" $ zipWith (doRwVerifyTest $ RW.private_pub rwKey) [katZero..] rwSignatureVectors+ ]+ ]
tests/KAT_RC4.hs view
@@ -27,8 +27,8 @@ ] tests = testGroup "RC4"- $ map toKatTest $ zip is vectors- where toKatTest (i, (key, plainText, cipherText)) =+ $ zipWith toKatTest is vectors+ where toKatTest i (key, plainText, cipherText) = testCase (show i) (cipherText @=? snd (RC4.combine (RC4.initialize key) plainText)) is :: [Int] is = [1..]
tests/KAT_Scrypt.hs view
@@ -28,6 +28,6 @@ ] tests = testGroup "Scrypt"- $ map toCase $ zip [(1::Int)..] vectors- where toCase (i, ((pass,salt,n,r,p,dklen), output)) =+ $ zipWith toCase [(1::Int)..] vectors+ where toCase i ((pass,salt,n,r,p,dklen), output) = testCase (show i) (output @=? Scrypt.generate (Scrypt.Parameters n r p dklen) pass salt)
+ tests/KAT_Twofish.hs view
@@ -0,0 +1,45 @@+module KAT_Twofish (tests) where++import Imports+import BlockCipher++import qualified Data.ByteString as B+import Crypto.Cipher.Twofish+++vectors_twofish128 =+ [ KAT_ECB (B.replicate 16 0x00) (B.replicate 16 0x00) (B.pack [0x9F,0x58,0x9F,0x5C,0xF6,0x12,0x2C,0x32,0xB6,0xBF,0xEC,0x2F,0x2A,0xE8,0xC3,0x5A])+ , KAT_ECB (B.pack [0x9F,0x58,0x9F,0x5C,0xF6,0x12,0x2C,0x32,0xB6,0xBF,0xEC,0x2F,0x2A,0xE8,0xC3,0x5A])+ (B.pack [0xD4, 0x91, 0xDB, 0x16, 0xE7, 0xB1, 0xC3, 0x9E, 0x86, 0xCB, 0x08, 0x6B, 0x78, 0x9F, 0x54, 0x19])+ (B.pack [0x01, 0x9F, 0x98, 0x09, 0xDE, 0x17, 0x11, 0x85, 0x8F, 0xAA, 0xC3, 0xA3, 0xBA, 0x20, 0xFB, 0xC3])+ ]++vectors_twofish192 =+ [ KAT_ECB (B.pack [0x01, 0x23, 0x45, 0x67, 0x89, 0xAB, 0xCD, 0xEF, 0xFE, 0xDC, 0xBA, 0x98, 0x76, 0x54, 0x32, 0x10,+ 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77])+ (B.pack [0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00])+ (B.pack [0xCF, 0xD1, 0xD2, 0xE5, 0xA9, 0xBE, 0x9C, 0xDF, 0x50, 0x1F, 0x13, 0xB8, 0x92, 0xBD, 0x22, 0x48])+ , KAT_ECB (B.pack [0x88, 0xB2, 0xB2, 0x70, 0x6B, 0x10, 0x5E, 0x36, 0xB4, 0x46, 0xBB, 0x6D, 0x73, 0x1A, 0x1E, 0x88,+ 0xEF, 0xA7, 0x1F, 0x78, 0x89, 0x65, 0xBD, 0x44])+ (B.pack [0x39, 0xDA, 0x69, 0xD6, 0xBA, 0x49, 0x97, 0xD5, 0x85, 0xB6, 0xDC, 0x07, 0x3C, 0xA3, 0x41, 0xB2])+ (B.pack [0x18, 0x2B, 0x02, 0xD8, 0x14, 0x97, 0xEA, 0x45, 0xF9, 0xDA, 0xAC, 0xDC, 0x29, 0x19, 0x3A, 0x65])]++vectors_twofish256 =+ [ KAT_ECB (B.pack [0x01, 0x23, 0x45, 0x67, 0x89, 0xAB, 0xCD, 0xEF, 0xFE, 0xDC, 0xBA, 0x98, 0x76, 0x54, 0x32, 0x10,+ 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0xAA, 0xBB, 0xCC, 0xDD, 0xEE, 0xFF])+ (B.pack [0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00])+ (B.pack [0x37, 0x52, 0x7B, 0xE0, 0x05, 0x23, 0x34, 0xB8, 0x9F, 0x0C, 0xFC, 0xCA, 0xE8, 0x7C, 0xFA, 0x20])+ , KAT_ECB (B.pack [0xD4, 0x3B, 0xB7, 0x55, 0x6E, 0xA3, 0x2E, 0x46, 0xF2, 0xA2, 0x82, 0xB7, 0xD4, 0x5B, 0x4E, 0x0D,+ 0x57, 0xFF, 0x73, 0x9D, 0x4D, 0xC9, 0x2C, 0x1B, 0xD7, 0xFC, 0x01, 0x70, 0x0C, 0xC8, 0x21, 0x6F])+ (B.pack [0x90, 0xAF, 0xE9, 0x1B, 0xB2, 0x88, 0x54, 0x4F, 0x2C, 0x32, 0xDC, 0x23, 0x9B, 0x26, 0x35, 0xE6])+ (B.pack [0x6C, 0xB4, 0x56, 0x1C, 0x40, 0xBF, 0x0A, 0x97, 0x05, 0x93, 0x1C, 0xB6, 0xD4, 0x08, 0xE7, 0xFA])]++kats128 = defaultKATs { kat_ECB = vectors_twofish128 }+kats192 = defaultKATs { kat_ECB = vectors_twofish192 }+kats256 = defaultKATs { kat_ECB = vectors_twofish256 }++tests = testGroup "Twofish"+ [ testBlockCipher kats128 (undefined :: Twofish128)+ , testBlockCipher kats192 (undefined :: Twofish192)+ , testBlockCipher kats256 (undefined :: Twofish256) ]+
tests/Number.hs view
@@ -4,10 +4,13 @@ import Imports import Data.ByteArray (Bytes)+import qualified Data.ByteArray as B import Crypto.Number.Basic import Crypto.Number.Generate-import Crypto.Number.Serialize+import qualified Crypto.Number.Serialize as BE+import qualified Crypto.Number.Serialize.LE as LE import Crypto.Number.Prime+import Crypto.Number.ModArithmetic import Data.Bits serializationVectors :: [(Int, Integer, ByteString)]@@ -42,17 +45,43 @@ in 0 <= r && r < range , testProperty "generate-prime" $ \testDRG (Int0_2901 baseBits') -> let baseBits = baseBits' `mod` 800- bits = 48 + baseBits -- no point generating lower than 48 bits ..+ bits = 5 + baseBits -- generating lower than 5 bits causes an error .. prime = withTestDRG testDRG $ generatePrime bits- -- with small base bits numbers, the probability that we "cross" this bit size ness- -- to the next is quite high, as the number generated has two highest bit set.- --- in bits == numBits prime || (if baseBits < 64 then (bits + 1) == numBits prime else False)- , testProperty "marshalling" $ \qaInt ->- getQAInteger qaInt == os2ip (i2osp (getQAInteger qaInt) :: Bytes)- , testGroup "marshalling-kat-to-bytearray" $ map toSerializationKat $ zip [katZero..] serializationVectors- , testGroup "marshalling-kat-to-integer" $ map toSerializationKatInteger $ zip [katZero..] serializationVectors- ] + in bits == numBits prime+ , testProperty "generate-safe-prime" $ \testDRG (Int0_2901 baseBits') ->+ let baseBits = baseBits' `mod` 200+ bits = 6 + baseBits+ prime = withTestDRG testDRG $ generateSafePrime bits+ in bits == numBits prime+ , testProperty "as-power-of-2-and-odd" $ \n ->+ let (e, a1) = asPowerOf2AndOdd n+ in n == (2^e)*a1+ , testProperty "squareRoot" $ \testDRG (Int0_2901 baseBits') -> do+ let baseBits = baseBits' `mod` 500+ bits = 5 + baseBits -- generating lower than 5 bits causes an error ..+ p = withTestDRG testDRG $ generatePrime bits+ g <- choose (1, p - 1)+ let square x = (x * x) `mod` p+ r = square <$> squareRoot p g+ case jacobi g p of+ Just 1 -> return $ Just g `assertEq` r+ Just (-1) -> return $ Nothing `assertEq` r+ _ -> error "invalid jacobi result"+ , testProperty "marshalling-be" $ \qaInt ->+ getQAInteger qaInt == BE.os2ip (BE.i2osp (getQAInteger qaInt) :: Bytes)+ , testProperty "marshalling-le" $ \qaInt ->+ getQAInteger qaInt == LE.os2ip (LE.i2osp (getQAInteger qaInt) :: Bytes)+ , testProperty "be-rev-le" $ \qaInt ->+ getQAInteger qaInt == LE.os2ip (B.reverse (BE.i2osp (getQAInteger qaInt) :: Bytes))+ , testProperty "be-rev-le-40" $ \qaInt ->+ getQAInteger qaInt == LE.os2ip (B.reverse (BE.i2ospOf_ 40 (getQAInteger qaInt) :: Bytes))+ , testProperty "le-rev-be" $ \qaInt ->+ getQAInteger qaInt == BE.os2ip (B.reverse (LE.i2osp (getQAInteger qaInt) :: Bytes))+ , testProperty "le-rev-be-40" $ \qaInt ->+ getQAInteger qaInt == BE.os2ip (B.reverse (LE.i2ospOf_ 40 (getQAInteger qaInt) :: Bytes))+ , testGroup "marshalling-kat-to-bytearray" $ zipWith toSerializationKat [katZero..] serializationVectors+ , testGroup "marshalling-kat-to-integer" $ zipWith toSerializationKatInteger [katZero..] serializationVectors+ ] where- toSerializationKat (i, (sz, n, ba)) = testCase (show i) (ba @=? i2ospOf_ sz n)- toSerializationKatInteger (i, (_, n, ba)) = testCase (show i) (n @=? os2ip ba)+ toSerializationKat i (sz, n, ba) = testCase (show i) (ba @=? BE.i2ospOf_ sz n)+ toSerializationKatInteger i (_, n, ba) = testCase (show i) (n @=? BE.os2ip ba)
+ tests/Number/F2m.hs view
@@ -0,0 +1,111 @@+module Number.F2m (tests) where++import Imports hiding ((.&.))+import Data.Bits+import Data.Maybe+import Crypto.Number.Basic (log2)+import Crypto.Number.F2m++addTests = testGroup "addF2m"+ [ testProperty "commutative"+ $ \a b -> a `addF2m` b == b `addF2m` a+ , testProperty "associative"+ $ \a b c -> (a `addF2m` b) `addF2m` c == a `addF2m` (b `addF2m` c)+ , testProperty "0 is neutral"+ $ \a -> a `addF2m` 0 == a+ , testProperty "nullable"+ $ \a -> a `addF2m` a == 0+ , testProperty "works per bit"+ $ \a b -> (a `addF2m` b) .&. b == (a .&. b) `addF2m` b+ ]++modTests = testGroup "modF2m"+ [ testProperty "idempotent"+ $ \(Positive m) (NonNegative a) -> modF2m m a == modF2m m (modF2m m a)+ , testProperty "upper bound"+ $ \(Positive m) (NonNegative a) -> modF2m m a < 2 ^ log2 m+ , testProperty "reach upper"+ $ \(Positive m) -> let a = 2 ^ log2 m - 1 in modF2m m (m `addF2m` a) == a+ , testProperty "lower bound"+ $ \(Positive m) (NonNegative a) -> modF2m m a >= 0+ , testProperty "reach lower"+ $ \(Positive m) -> modF2m m m == 0+ , testProperty "additive"+ $ \(Positive m) (NonNegative a) (NonNegative b)+ -> modF2m m a `addF2m` modF2m m b == modF2m m (a `addF2m` b)+ ]++mulTests = testGroup "mulF2m"+ [ testProperty "commutative"+ $ \(Positive m) (NonNegative a) (NonNegative b) -> mulF2m m a b == mulF2m m b a+ , testProperty "associative"+ $ \(Positive m) (NonNegative a) (NonNegative b) (NonNegative c)+ -> mulF2m m (mulF2m m a b) c == mulF2m m a (mulF2m m b c)+ , testProperty "1 is neutral"+ $ \(Positive m) (NonNegative a) -> mulF2m m a 1 == modF2m m a+ , testProperty "0 is annihilator"+ $ \(Positive m) (NonNegative a) -> mulF2m m a 0 == 0+ , testProperty "distributive"+ $ \(Positive m) (NonNegative a) (NonNegative b) (NonNegative c)+ -> mulF2m m a (b `addF2m` c) == mulF2m m a b `addF2m` mulF2m m a c+ ]++squareTests = testGroup "squareF2m"+ [ testProperty "sqr(a) == a * a"+ $ \(Positive m) (NonNegative a) -> mulF2m m a a == squareF2m m a+ -- disabled because we require @m@ to be a suitable modulus and there is no+ -- way to guarantee this+ -- , testProperty "sqrt(a) * sqrt(a) = a"+ -- $ \(Positive m) (NonNegative aa) -> let a = sqrtF2m m aa in mulF2m m a a == modF2m m aa+ , testProperty "sqrt(a) * sqrt(a) = a in GF(2^16)"+ $ let m = 65581 :: Integer -- x^16 + x^5 + x^3 + x^2 + 1+ nums = [0 .. 65535 :: Integer]+ in nums == [let y = sqrtF2m m x in squareF2m m y | x <- nums]+ ]++powTests = testGroup "powF2m"+ [ testProperty "2 is square"+ $ \(Positive m) (NonNegative a) -> powF2m m a 2 == squareF2m m a+ , testProperty "1 is identity"+ $ \(Positive m) (NonNegative a) -> powF2m m a 1 == modF2m m a+ , testProperty "0 is annihilator"+ $ \(Positive m) (NonNegative a) -> powF2m m a 0 == modF2m m 1+ , testProperty "(a * b) ^ c == (a ^ c) * (b ^ c)"+ $ \(Positive m) (NonNegative a) (NonNegative b) (NonNegative c)+ -> powF2m m (mulF2m m a b) c == mulF2m m (powF2m m a c) (powF2m m b c)+ , testProperty "a ^ (b + c) == (a ^ b) * (a ^ c)"+ $ \(Positive m) (NonNegative a) (NonNegative b) (NonNegative c)+ -> powF2m m a (b + c) == mulF2m m (powF2m m a b) (powF2m m a c)+ , testProperty "a ^ (b * c) == (a ^ b) ^ c"+ $ \(Positive m) (NonNegative a) (NonNegative b) (NonNegative c)+ -> powF2m m a (b * c) == powF2m m (powF2m m a b) c+ ]++invTests = testGroup "invF2m"+ [ testProperty "1 / a * a == 1"+ $ \(Positive m) (NonNegative a)+ -> maybe True (\c -> mulF2m m c a == modF2m m 1) (invF2m m a)+ , testProperty "1 / a == a (mod a^2-1)"+ $ \(NonNegative a) -> a < 2 || invF2m (squareF2m' a `addF2m` 1) a == Just a+ ]++divTests = testGroup "divF2m"+ [ testProperty "1 / a == inv a"+ $ \(Positive m) (NonNegative a) -> divF2m m 1 a == invF2m m a+ , testProperty "a / b == a * inv b"+ $ \(Positive m) (NonNegative a) (NonNegative b)+ -> divF2m m a b == (mulF2m m a <$> invF2m m b)+ , testProperty "a * b / b == a"+ $ \(Positive m) (NonNegative a) (NonNegative b)+ -> isNothing (invF2m m b) || divF2m m (mulF2m m a b) b == Just (modF2m m a)+ ]++tests = testGroup "number.F2m"+ [ addTests+ , modTests+ , mulTests+ , squareTests+ , powTests+ , invTests+ , divTests+ ]
tests/Padding.hs view
@@ -3,7 +3,6 @@ import qualified Data.ByteString as B import Imports-import Crypto.Error import Crypto.Data.Padding @@ -13,6 +12,12 @@ , ("xyze", 5, "xyze\x01") ] +zeroCases =+ [ ("", 4, "\NUL\NUL\NUL\NUL", Nothing)+ , ("abcdef", 8, "abcdef\NUL\NUL", Nothing)+ , ("0123456789abcdef", 16, "0123456789abcdef", Just "0123456789abcdef")+ ]+ --instance Arbitrary where testPad :: Int -> (B.ByteString, Int, B.ByteString) -> TestTree@@ -21,6 +26,13 @@ , eqTest "unpadded" (Just inp) (unpad (PKCS7 sz) padded) ] +testZeroPad :: Int -> (B.ByteString, Int, B.ByteString, Maybe B.ByteString) -> TestTree+testZeroPad n (inp, sz, padded, unpadded) =+ testCase (show n) $ propertyHoldCase [ eqTest "padded" padded (pad (ZERO sz) inp)+ , eqTest "unpadded" unpadded (unpad (ZERO sz) padded)+ ]+ tests = testGroup "Padding"- [ testGroup "Cases" $ map (uncurry testPad) (zip [1..] cases)+ [ testGroup "Cases" $ zipWith testPad [1..] cases+ , testGroup "ZeroCases" $ zipWith testZeroPad [1..] zeroCases ]
tests/Salsa.hs view
@@ -37,7 +37,7 @@ tests = testGroup "Salsa" [ testGroup "KAT" $- map (\(i,f) -> testCase (show (i :: Int)) f) $ zip [1..] $ map (\(r, k,i,e) -> salsaRunSimple e r k i) vectors+ zipWith (\i (r,k,n,e) -> testCase (show (i :: Int)) $ salsaRunSimple e r k n) [1..] vectors , testProperty "generate-combine" salsaGenerateCombine , testProperty "chunking-generate" salsaGenerateChunks , testProperty "chunking-combine" salsaCombineChunks
tests/Tests.hs view
@@ -3,66 +3,103 @@ import Imports +import Crypto.System.CPU+ import qualified Number+import qualified Number.F2m import qualified BCrypt+import qualified BCryptPBKDF+import qualified ECC+import qualified ECC.Edwards25519+import qualified ECDSA import qualified Hash import qualified Poly1305 import qualified Salsa+import qualified XSalsa import qualified ChaCha import qualified ChaChaPoly1305+import qualified KAT_MiyaguchiPreneel import qualified KAT_CMAC import qualified KAT_HMAC+import qualified KAT_KMAC import qualified KAT_HKDF+import qualified KAT_Argon2 import qualified KAT_PBKDF2 import qualified KAT_Curve25519-import qualified KAT_Ed448+import qualified KAT_Curve448 import qualified KAT_Ed25519+import qualified KAT_Ed448+import qualified KAT_EdDSA+import qualified KAT_OTP import qualified KAT_PubKey import qualified KAT_Scrypt -- symmetric cipher -------------------- import qualified KAT_AES+import qualified KAT_AESGCMSIV import qualified KAT_Blowfish+import qualified KAT_CAST5 import qualified KAT_Camellia import qualified KAT_DES import qualified KAT_RC4 import qualified KAT_TripleDES+import qualified KAT_Twofish -- misc -------------------------------- import qualified KAT_AFIS import qualified Padding tests = testGroup "cryptonite"- [ Number.tests+ [ testGroup "runtime"+ [ testCaseInfo "CPU" (return $ show processorOptions)+ ]+ , Number.tests+ , Number.F2m.tests , Hash.tests , Padding.tests+ , testGroup "ConstructHash"+ [ KAT_MiyaguchiPreneel.tests+ ] , testGroup "MAC" [ Poly1305.tests , KAT_CMAC.tests , KAT_HMAC.tests+ , KAT_KMAC.tests ] , KAT_Curve25519.tests- , KAT_Ed448.tests+ , KAT_Curve448.tests , KAT_Ed25519.tests+ , KAT_Ed448.tests+ , KAT_EdDSA.tests , KAT_PubKey.tests+ , KAT_OTP.tests , testGroup "KDF" [ KAT_PBKDF2.tests , KAT_Scrypt.tests , BCrypt.tests+ , BCryptPBKDF.tests , KAT_HKDF.tests+ , KAT_Argon2.tests ] , testGroup "block-cipher" [ KAT_AES.tests+ , KAT_AESGCMSIV.tests , KAT_Blowfish.tests+ , KAT_CAST5.tests , KAT_Camellia.tests , KAT_DES.tests , KAT_TripleDES.tests+ , KAT_Twofish.tests ] , testGroup "stream-cipher" [ KAT_RC4.tests , ChaCha.tests , ChaChaPoly1305.tests , Salsa.tests+ , XSalsa.tests ] , KAT_AFIS.tests+ , ECC.tests+ , ECC.Edwards25519.tests+ , ECDSA.tests ] main = defaultMain tests
tests/Utils.hs view
@@ -2,7 +2,6 @@ module Utils where import Control.Applicative-import Control.Monad (replicateM) import Data.Char import Data.Word import Data.List@@ -20,7 +19,7 @@ deriving (Show,Eq) instance Arbitrary TestDRG where- arbitrary = TestDRG `fmap` arbitrary+ arbitrary = TestDRG `fmap` arbitrary -- distribution not uniform withTestDRG (TestDRG l) f = fst $ withDRG (drgNewTest l) f @@ -28,13 +27,13 @@ deriving (Show,Eq) instance Arbitrary ChunkingLen where- arbitrary = ChunkingLen `fmap` replicateM 16 (choose (0,14))+ arbitrary = ChunkingLen `fmap` vectorOf 16 (choose (0,14)) newtype ChunkingLen0_127 = ChunkingLen0_127 [Int] deriving (Show,Eq) instance Arbitrary ChunkingLen0_127 where- arbitrary = ChunkingLen0_127 `fmap` replicateM 16 (choose (0,127))+ arbitrary = ChunkingLen0_127 `fmap` vectorOf 16 (choose (0,127)) newtype ArbitraryBS0_2901 = ArbitraryBS0_2901 ByteString@@ -63,7 +62,7 @@ arbitrary = oneof [ QAInteger . fromIntegral <$> (choose (0, 65536) :: Gen Int) -- small integer , larger <$> choose (0,4096) <*> choose (0, 65536) -- medium integer- , QAInteger . os2ip . B.pack <$> (choose (0,32) >>= \n -> replicateM n arbitrary) -- [ 0 .. 2^32 ] sized integer+ , QAInteger . os2ip <$> arbitraryBSof 0 32 -- [ 0 .. 2^32 ] sized integer ] where larger :: Int -> Int -> QAInteger@@ -73,10 +72,10 @@ somePrime = 18446744073709551557 arbitraryBS :: Int -> Gen ByteString-arbitraryBS n = B.pack `fmap` replicateM n arbitrary+arbitraryBS = fmap B.pack . vector arbitraryBSof :: Int -> Int -> Gen ByteString-arbitraryBSof minSize maxSize = choose (minSize, maxSize) >>= \n -> (B.pack `fmap` replicateM n arbitrary)+arbitraryBSof minSize maxSize = choose (minSize, maxSize) >>= arbitraryBS chunkS :: ChunkingLen -> ByteString -> [ByteString] chunkS (ChunkingLen originalChunks) = loop originalChunks
+ tests/XSalsa.hs view
@@ -0,0 +1,128 @@+{-# LANGUAGE OverloadedStrings #-}+module XSalsa (tests) where++import qualified Data.ByteString as B+import qualified Crypto.Cipher.XSalsa as XSalsa++import Imports++type Vector = (Int, B.ByteString, B.ByteString, B.ByteString, B.ByteString)++-- Test vectors generated by naclcrypto library (https://nacl.cr.yp.to)+vectors :: [Vector]+vectors =+ [ ( 20+ , "\xA6\xA7\x25\x1C\x1E\x72\x91\x6D\x11\xC2\xCB\x21\x4D\x3C\x25\x25\x39\x12\x1D\x8E\x23\x4E\x65\x2D\x65\x1F\xA4\xC8\xCF\xF8\x80\x30"+ , "\x9E\x64\x5A\x74\xE9\xE0\xA6\x0D\x82\x43\xAC\xD9\x17\x7A\xB5\x1A\x1B\xEB\x8D\x5A\x2F\x5D\x70\x0C"+ , "\x09\x3C\x5E\x55\x85\x57\x96\x25\x33\x7B\xD3\xAB\x61\x9D\x61\x57\x60\xD8\xC5\xB2\x24\xA8\x5B\x1D\x0E\xFE\x0E\xB8\xA7\xEE\x16\x3A\xBB\x03\x76\x52\x9F\xCC\x09\xBA\xB5\x06\xC6\x18\xE1\x3C\xE7\x77\xD8\x2C\x3A\xE9\xD1\xA6\xF9\x72\xD4\x16\x02\x87\xCB\xFE\x60\xBF\x21\x30\xFC\x0A\x6F\xF6\x04\x9D\x0A\x5C\x8A\x82\xF4\x29\x23\x1F\x00\x80\x82\xE8\x45\xD7\xE1\x89\xD3\x7F\x9E\xD2\xB4\x64\xE6\xB9\x19\xE6\x52\x3A\x8C\x12\x10\xBD\x52\xA0\x2A\x4C\x3F\xE4\x06\xD3\x08\x5F\x50\x68\xD1\x90\x9E\xEE\xCA\x63\x69\xAB\xC9\x81\xA4\x2E\x87\xFE\x66\x55\x83\xF0\xAB\x85\xAE\x71\xF6\xF8\x4F\x52\x8E\x6B\x39\x7A\xF8\x6F\x69\x17\xD9\x75\x4B\x73\x20\xDB\xDC\x2F\xEA\x81\x49\x6F\x27\x32\xF5\x32\xAC\x78\xC4\xE9\xC6\xCF\xB1\x8F\x8E\x9B\xDF\x74\x62\x2E\xB1\x26\x14\x14\x16\x77\x69\x71\xA8\x4F\x94\xD1\x56\xBE\xAF\x67\xAE\xCB\xF2\xAD\x41\x2E\x76\xE6\x6E\x8F\xAD\x76\x33\xF5\xB6\xD7\xF3\xD6\x4B\x5C\x6C\x69\xCE\x29\x00\x3C\x60\x24\x46\x5A\xE3\xB8\x9B\xE7\x8E\x91\x5D\x88\xB4\xB5\x62\x1D"+ , "\xB2\xAF\x68\x8E\x7D\x8F\xC4\xB5\x08\xC0\x5C\xC3\x9D\xD5\x83\xD6\x71\x43\x22\xC6\x4D\x7F\x3E\x63\x14\x7A\xED\xE2\xD9\x53\x49\x34\xB0\x4F\xF6\xF3\x37\xB0\x31\x81\x5C\xD0\x94\xBD\xBC\x6D\x7A\x92\x07\x7D\xCE\x70\x94\x12\x28\x68\x22\xEF\x07\x37\xEE\x47\xF6\xB7\xFF\xA2\x2F\x9D\x53\xF1\x1D\xD2\xB0\xA3\xBB\x9F\xC0\x1D\x9A\x88\xF9\xD5\x3C\x26\xE9\x36\x5C\x2C\x3C\x06\x3B\xC4\x84\x0B\xFC\x81\x2E\x4B\x80\x46\x3E\x69\xD1\x79\x53\x0B\x25\xC1\x58\xF5\x43\x19\x1C\xFF\x99\x31\x06\x51\x1A\xA0\x36\x04\x3B\xBC\x75\x86\x6A\xB7\xE3\x4A\xFC\x57\xE2\xCC\xE4\x93\x4A\x5F\xAA\xE6\xEA\xBE\x4F\x22\x17\x70\x18\x3D\xD0\x60\x46\x78\x27\xC2\x7A\x35\x41\x59\xA0\x81\x27\x5A\x29\x1F\x69\xD9\x46\xD6\xFE\x28\xED\x0B\x9C\xE0\x82\x06\xCF\x48\x49\x25\xA5\x1B\x94\x98\xDB\xDE\x17\x8D\xDD\x3A\xE9\x1A\x85\x81\xB9\x16\x82\xD8\x60\xF8\x40\x78\x2F\x6E\xEA\x49\xDB\xB9\xBD\x72\x15\x01\xD2\xC6\x71\x22\xDE\xA3\xB7\x28\x38\x48\xC5\xF1\x3E\x0C\x0D\xE8\x76\xBD\x22\x7A\x85\x6E\x4D\xE5\x93\xA3")+ , ( 20+ , "\x9E\x1D\xA2\x39\xD1\x55\xF5\x2A\xD3\x7F\x75\xC7\x36\x8A\x53\x66\x68\xB0\x51\x95\x29\x23\xAD\x44\xF5\x7E\x75\xAB\x58\x8E\x47\x5A"+ , "\xAF\x06\xF1\x78\x59\xDF\xFA\x79\x98\x91\xC4\x28\x8F\x66\x35\xB5\xC5\xA4\x5E\xEE\x90\x17\xFD\x72"+ , "\xFE\xAC\x9D\x54\xFC\x8C\x11\x5A\xE2\x47\xD9\xA7\xE9\x19\xDD\x76\xCF\xCB\xC7\x2D\x32\xCA\xE4\x94\x48\x60\x81\x7C\xBD\xFB\x8C\x04\xE6\xB1\xDF\x76\xA1\x65\x17\xCD\x33\xCC\xF1\xAC\xDA\x92\x06\x38\x9E\x9E\x31\x8F\x59\x66\xC0\x93\xCF\xB3\xEC\x2D\x9E\xE2\xDE\x85\x64\x37\xED\x58\x1F\x55\x2F\x26\xAC\x29\x07\x60\x9D\xF8\xC6\x13\xB9\xE3\x3D\x44\xBF\xC2\x1F\xF7\x91\x53\xE9\xEF\x81\xA9\xD6\x6C\xC3\x17\x85\x7F\x75\x2C\xC1\x75\xFD\x88\x91\xFE\xFE\xBB\x7D\x04\x1E\x65\x17\xC3\x16\x2D\x19\x7E\x21\x12\x83\x7D\x3B\xC4\x10\x43\x12\xAD\x35\xB7\x5E\xA6\x86\xE7\xC7\x0D\x4E\xC0\x47\x46\xB5\x2F\xF0\x9C\x42\x14\x51\x45\x9F\xB5\x9F"+ , "\x2C\x26\x1A\x2F\x4E\x61\xA6\x2E\x1B\x27\x68\x99\x16\xBF\x03\x45\x3F\xCB\xC9\x7B\xB2\xAF\x6F\x32\x93\x91\xEF\x06\x3B\x5A\x21\x9B\xF9\x84\xD0\x7D\x70\xF6\x02\xD8\x5F\x6D\xB6\x14\x74\xE9\xD9\xF5\xA2\xDE\xEC\xB4\xFC\xD9\x01\x84\xD1\x6F\x3B\x5B\x5E\x16\x8E\xE0\x3E\xA8\xC9\x3F\x39\x33\xA2\x2B\xC3\xD1\xA5\xAE\x8C\x2D\x8B\x02\x75\x7C\x87\xC0\x73\x40\x90\x52\xA2\xA8\xA4\x1E\x7F\x48\x7E\x04\x1F\x9A\x49\xA0\x99\x7B\x54\x0E\x18\x62\x1C\xAD\x3A\x24\xF0\xA5\x6D\x9B\x19\x22\x79\x29\x05\x7A\xB3\xBA\x95\x0F\x62\x74\xB1\x21\xF1\x93\xE3\x2E\x06\xE5\x38\x87\x81\xA1\xCB\x57\x31\x7C\x0B\xA6\x30\x5E\x91\x09\x61\xD0\x10\x02\xF0")+ , ( 20+ , "\xD5\xC7\xF6\x79\x7B\x7E\x7E\x9C\x1D\x7F\xD2\x61\x0B\x2A\xBF\x2B\xC5\xA7\x88\x5F\xB3\xFF\x78\x09\x2F\xB3\xAB\xE8\x98\x6D\x35\xE2"+ , "\x74\x4E\x17\x31\x2B\x27\x96\x9D\x82\x64\x44\x64\x0E\x9C\x4A\x37\x8A\xE3\x34\xF1\x85\x36\x9C\x95"+ , "\x77\x58\x29\x8C\x62\x8E\xB3\xA4\xB6\x96\x3C\x54\x45\xEF\x66\x97\x12\x22\xBE\x5D\x1A\x4A\xD8\x39\x71\x5D\x11\x88\x07\x17\x39\xB7\x7C\xC6\xE0\x5D\x54\x10\xF9\x63\xA6\x41\x67\x62\x97\x57"+ , "\x27\xB8\xCF\xE8\x14\x16\xA7\x63\x01\xFD\x1E\xEC\x6A\x4D\x99\x67\x50\x69\xB2\xDA\x27\x76\xC3\x60\xDB\x1B\xDF\xEA\x7C\x0A\xA6\x13\x91\x3E\x10\xF7\xA6\x0F\xEC\x04\xD1\x1E\x65\xF2\xD6\x4E")+ , ( 20+ , "\x73\x7D\x78\x11\xCE\x96\x47\x2E\xFE\xD1\x22\x58\xB7\x81\x22\xF1\x1D\xEA\xEC\x87\x59\xCC\xBD\x71\xEA\xC6\xBB\xEF\xA6\x27\x78\x5C"+ , "\x6F\xB2\xEE\x3D\xDA\x6D\xBD\x12\xF1\x27\x4F\x12\x67\x01\xEC\x75\xC3\x5C\x86\x60\x7A\xDB\x3E\xDD"+ , "\x50\x13\x25\xFB\x26\x45\x26\x48\x64\xDF\x11\xFA\xA1\x7B\xBD\x58\x31\x2B\x77\xCA\xD3\xD9\x4A\xC8\xFB\x85\x42\xF0\xEB\x65\x3A\xD7\x3D\x7F\xCE\x93\x2B\xB8\x74\xCB\x89\xAC\x39\xFC\x47\xF8\x26\x7C\xF0\xF0\xC2\x09\xF2\x04\xB2\xD8\x57\x8A\x3B\xDF\x46\x1C\xB6\xA2\x71\xA4\x68\xBE\xBA\xCC\xD9\x68\x50\x14\xCC\xBC\x9A\x73\x61\x8C\x6A\x5E\x77\x8A\x21\xCC\x84\x16\xC6\x0A\xD2\x4D\xDC\x41\x7A\x13\x0D\x53\xED\xA6\xDF\xBF\xE4\x7D\x09\x17\x0A\x7B\xE1\xA7\x08\xB7\xB5\xF3\xAD\x46\x43\x10\xBE\x36\xD9\xA2\xA9\x5D\xC3\x9E\x83\xD3\x86\x67\xE8\x42\xEB\x64\x11\xE8\xA2\x37\x12\x29\x7B\x16\x5F\x69\x0C\x2D\x7C\xA1\xB1\x34\x6E\x3C\x1F\xCC\xF5\xCA\xFD\x4F\x8B\xE0"+ , "\x67\x24\xC3\x72\xD2\xE9\x07\x4D\xA5\xE2\x7A\x6C\x54\xB2\xD7\x03\xDC\x1D\x4C\x9B\x1F\x8D\x90\xF0\x0C\x12\x2E\x69\x2A\xCE\x77\x00\xEA\xDC\xA9\x42\x54\x45\x07\xF1\x37\x5B\x65\x81\xD5\xA8\xFB\x39\x98\x1C\x1C\x0E\x6E\x1F\xF2\x14\x0B\x08\x2E\x9E\xC0\x16\xFC\xE1\x41\xD5\x19\x96\x47\xD4\x3B\x0B\x68\xBF\xD0\xFE\xA5\xE0\x0F\x46\x89\x62\xC7\x38\x4D\xD6\x12\x9A\xEA\x6A\x3F\xDF\xE7\x5A\xBB\x21\x0E\xD5\x60\x7C\xEF\x8F\xA0\xE1\x52\x83\x3D\x5A\xC3\x7D\x52\xE5\x57\xB9\x10\x98\xA3\x22\xE7\x6A\x45\xBB\xBC\xF4\x89\x9E\x79\x06\x18\xAA\x3F\x4C\x2E\x5E\x0F\xC3\xDE\x93\x26\x9A\x57\x7D\x77\xA5\x50\x2E\x8E\xA0\x2F\x71\x7B\x1D\xD2\xDF\x1E\xC6\x9D\x8B\x61\xCA")+ , ( 20+ , "\x76\x01\x58\xDA\x09\xF8\x9B\xBA\xB2\xC9\x9E\x69\x97\xF9\x52\x3A\x95\xFC\xEF\x10\x23\x9B\xCC\xA2\x57\x3B\x71\x05\xF6\x89\x8D\x34"+ , "\x43\x63\x6B\x2C\xC3\x46\xFC\x8B\x7C\x85\xA1\x9B\xF5\x07\xBD\xC3\xDA\xFE\x95\x3B\x88\xC6\x9D\xBA"+ , "\xD3\x0A\x6D\x42\xDF\xF4\x9F\x0E\xD0\x39\xA3\x06\xBA\xE9\xDE\xC8\xD9\xE8\x83\x66\xCC\x19\xE8\xC3\x64\x2F\xD5\x8F\xA0\x79\x4E\xBF\x80\x29\xD9\x49\x73\x03\x39\xB0\x82\x3A\x51\xF0\xF4\x9F\x0D\x2C\x71\xF1\x05\x1C\x1E\x0E\x2C\x86\x94\x1F\x17\x27\x89\xCD\xB1\xB0\x10\x74\x13\xE7\x0F\x98\x2F\xF9\x76\x18\x77\xBB\x52\x6E\xF1\xC3\xEB\x11\x06\xA9\x48\xD6\x0E\xF2\x1B\xD3\x5D\x32\xCF\xD6\x4F\x89\xB7\x9E\xD6\x3E\xCC\x5C\xCA\x56\x24\x6A\xF7\x36\x76\x6F\x28\x5D\x8E\x6B\x0D\xA9\xCB\x1C\xD2\x10\x20\x22\x3F\xFA\xCC\x5A\x32"+ , "\xC8\x15\xB6\xB7\x9B\x64\xF9\x36\x9A\xEC\x8D\xCE\x8C\x75\x3D\xF8\xA5\x0F\x2B\xC9\x7C\x70\xCE\x2F\x01\x4D\xB3\x3A\x65\xAC\x58\x16\xBA\xC9\xE3\x0A\xC0\x8B\xDD\xED\x30\x8C\x65\xCB\x87\xE2\x8E\x2E\x71\xB6\x77\xDC\x25\xC5\xA6\x49\x9C\x15\x53\x55\x5D\xAF\x1F\x55\x27\x0A\x56\x95\x9D\xFF\xA0\xC6\x6F\x24\xE0\xAF\x00\x95\x1E\xC4\xBB\x59\xCC\xC3\xA6\xC5\xF5\x2E\x09\x81\x64\x7E\x53\xE4\x39\x31\x3A\x52\xC4\x0F\xA7\x00\x4C\x85\x5B\x6E\x6E\xB2\x5B\x21\x2A\x13\x8E\x84\x3A\x9B\xA4\x6E\xDB\x2A\x03\x9E\xE8\x2A\x26\x3A\xBE")+ , ( 20+ , "\x27\xBA\x7E\x81\xE7\xED\xD4\xE7\x1B\xE5\x3C\x07\xCE\x8E\x63\x31\x38\xF2\x87\xE1\x55\xC7\xFA\x9E\x84\xC4\xAD\x80\x4B\x7F\xA1\xB9"+ , "\xEA\x05\xF4\xEB\xCD\x2F\xB6\xB0\x00\xDA\x06\x12\x86\x1B\xA5\x4F\xF5\xC1\x76\xFB\x60\x13\x91\xAA"+ , "\xE0\x9F\xF5\xD2\xCB\x05\x0D\x69\xB2\xD4\x24\x94\xBD\xE5\x82\x52\x38\xC7\x56\xD6\x99\x1D\x99\xD7\xA2\x0D\x1E\xF0\xB8\x3C\x37\x1C\x89\x87\x26\x90\xB2\xFC\x11\xD5\x36\x9F\x4F\xC4\x97\x1B\x6D\x3D\x6C\x07\x8A\xEF\x9B\x0F\x05\xC0\xE6\x1A\xB8\x9C\x02\x51\x68\x05\x4D\xEF\xEB\x03\xFE\xF6\x33\x85\x87\x00\xC5\x8B\x12\x62\xCE\x01\x13\x00\x01\x26\x73\xE8\x93\xE4\x49\x01\xDC\x18\xEE\xE3\x10\x56\x99\xC4\x4C\x80\x58\x97\xBD\xAF\x77\x6A\xF1\x83\x31\x62\xA2\x1A"+ , "\xA2\x3E\x7E\xF9\x3C\x5D\x06\x67\xC9\x6D\x9E\x40\x4D\xCB\xE6\xBE\x62\x02\x6F\xA9\x8F\x7A\x3F\xF9\xBA\x5D\x45\x86\x43\xA1\x6A\x1C\xEF\x72\x72\xDC\x60\x97\xA9\xB5\x2F\x35\x98\x35\x57\xC7\x7A\x11\xB3\x14\xB4\xF7\xD5\xDC\x2C\xCA\x15\xEE\x47\x61\x6F\x86\x18\x73\xCB\xFE\xD1\xD3\x23\x72\x17\x1A\x61\xE3\x8E\x44\x7F\x3C\xF3\x62\xB3\xAB\xBB\x2E\xD4\x17\x0D\x89\xDC\xB2\x81\x87\xB7\xBF\xD2\x06\xA3\xE0\x26\xF0\x84\xA7\xE0\xED\x63\xD3\x19\xDE\x6B\xC9\xAF\xC0")+ , ( 20+ , 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"\x02\xFE\x84\xCE\x81\xE1\x78\xE7\xAA\xBD\xD3\xBA\x92\x5A\x76\x6C\x3C\x24\x75\x6E\xEF\xAE\x33\x94\x2A\xF7\x5E\x8B\x46\x45\x56\xB5\x99\x7E\x61\x6F\x3F\x2D\xFC\x7F\xCE\x91\x84\x8A\xFD\x79\x91\x2D\x9F\xB5\x52\x01\xB5\x81\x3A\x5A\x07\x4D\x2C\x0D\x42\x92\xC1\xFD\x44\x18\x07\xC5")+ , ( 20+ , "\x05\x3A\x02\xBE\xDD\x63\x68\xC1\xFB\x8A\xFC\x7A\x1B\x19\x9F\x7F\x7E\xA2\x22\x0C\x9A\x4B\x64\x2A\x68\x50\x09\x1C\x9D\x20\xAB\x9C"+ , "\xC7\x13\xEE\xA5\xC2\x6D\xAD\x75\xAD\x3F\x52\x45\x1E\x00\x3A\x9C\xB0\xD6\x49\xF9\x17\xC8\x9D\xDE"+ , "\x8F\x0A\x8A\x16\x47\x60\x42\x65\x67\xE3\x88\x84\x02\x76\xDE\x3F\x95\xCB\x5E\x3F\xAD\xC6\xED\x3F\x3E\x4F\xE8\xBC\x16\x9D\x93\x88\x80\x4D\xCB\x94\xB6\x58\x7D\xBB\x66\xCB\x0B\xD5\xF8\x7B\x8E\x98\xB5\x2A\xF3\x7B\xA2\x90\x62\x9B\x85\x8E\x0E\x2A\xA7\x37\x80\x47\xA2\x66\x02"+ , "\x51\x67\x10\xE5\x98\x43\xE6\xFB\xD4\xF2\x5D\x0D\x8C\xA0\xEC\x0D\x47\xD3\x9D\x12\x5E\x9D\xAD\x98\x7E\x05\x18\xD4\x91\x07\x01\x4C\xB0\xAE\x40\x5E\x30\xC2\xEB\x37\x94\x75\x0B\xCA\x14\x2C\xE9\x5E\x29\x0C\xF9\x5A\xBE\x15\xE8\x22\x82\x3E\x2E\x7D\x3A\xB2\x1B\xC8\xFB\xD4\x45")+ , ( 20+ ,"\x5B\x14\xAB\x0F\xBE\xD4\xC5\x89\x52\x54\x8A\x6C\xB1\xE0\x00\x0C\xF4\x48\x14\x21\xF4\x12\x88\xEA\x0A\xA8\x4A\xDD\x9F\x7D\xEB\x96"+ , "\x54\xBF\x52\xB9\x11\x23\x1B\x95\x2B\xA1\xA6\xAF\x8E\x45\xB1\xC5\xA2\x9D\x97\xE2\xAB\xAD\x7C\x83"+ , "\x37\xFB\x44\xA6\x75\x97\x8B\x56\x0F\xF9\xA4\xA8\x70\x11\xD6\xF3\xAD\x2D\x37\xA2\xC3\x81\x5B\x45\xA3\xC0\xE6\xD1\xB1\xD8\xB1\x78\x4C\xD4\x68\x92\x7C\x2E\xE3\x9E\x1D\xCC\xD4\x76\x5E\x1C\x3D\x67\x6A\x33\x5B\xE1\xCC\xD6\x90\x0A\x45\xF5\xD4\x1A\x31\x76\x48\x31\x5D\x8A\x8C\x24\xAD\xC6\x4E\xB2\x85\xF6\xAE\xBA\x05\xB9\x02\x95\x86\x35\x3D\x30\x3F\x17\xA8\x07\x65\x8B\x9F\xF7\x90\x47\x4E\x17\x37\xBD\x5F\xDC\x60\x4A\xEF\xF8\xDF\xCA\xF1\x42\x7D\xCC\x3A\xAC\xBB\x02\x56\xBA\xDC\xD1\x83\xED\x75\xA2\xDC\x52\x45\x2F\x87\xD3\xC1\xED\x2A\xA5\x83\x47\x2B\x0A\xB9\x1C\xDA\x20\x61\x4E\x9B\x6F\xDB\xDA\x3B\x49\xB0\x98\xC9\x58\x23\xCC\x72\xD8\xE5\xB7\x17\xF2\x31\x4B\x03\x24\xE9\xCE"+ , "\xAE\x6D\xEB\x5D\x6C\xE4\x3D\x4B\x09\xD0\xE6\xB1\xC0\xE9\xF4\x61\x57\xBC\xD8\xAB\x50\xEA\xA3\x19\x7F\xF9\xFA\x2B\xF7\xAF\x64\x9E\xB5\x2C\x68\x54\x4F\xD3\xAD\xFE\x6B\x1E\xB3\x16\xF1\xF2\x35\x38\xD4\x70\xC3\x0D\xBF\xEC\x7E\x57\xB6\x0C\xBC\xD0\x96\xC7\x82\xE7\x73\x6B\x66\x91\x99\xC8\x25\x3E\x70\x21\x4C\xF2\xA0\x98\xFD\xA8\xEA\xC5\xDA\x79\xA9\x49\x6A\x3A\xAE\x75\x4D\x03\xB1\x7C\x6D\x70\xD1\x02\x7F\x42\xBF\x7F\x95\xCE\x3D\x1D\x9C\x33\x88\x54\xE1\x58\xFC\xC8\x03\xE4\xD6\x26\x2F\xB6\x39\x52\x1E\x47\x11\x6E\xF7\x8A\x7A\x43\x7C\xA9\x42\x7B\xA6\x45\xCD\x64\x68\x32\xFE\xAB\x82\x2A\x20\x82\x78\xE4\x5E\x93\xE1\x18\xD7\x80\xB9\x88\xD6\x53\x97\xED\xDF\xD7\xA8\x19\x52\x6E")+ , ( 20+ , "\xD7\x46\x36\xE3\x41\x3A\x88\xD8\x5F\x32\x2C\xA8\x0F\xB0\xBD\x65\x0B\xD0\xBF\x01\x34\xE2\x32\x91\x60\xB6\x96\x09\xCD\x58\xA4\xB0"+ , "\xEF\xB6\x06\xAA\x1D\x9D\x9F\x0F\x46\x5E\xAA\x7F\x81\x65\xF1\xAC\x09\xF5\xCB\x46\xFE\xCF\x2A\x57"+ , "\xF8\x54\x71\xB7\x5F\x6E\xC8\x1A\xBA\xC2\x79\x9E\xC0\x9E\x98\xE2\x80\xB2\xFF\xD6\x4C\xA2\x85\xE5\xA0\x10\x9C\xFB\x31\xFF\xAB\x2D\x61\x7B\x2C\x29\x52\xA2\xA8\xA7\x88\xFC\x0D\xA2\xAF\x7F\x53\x07\x58\xF7\x4F\x1A\xB5\x63\x91\xAB\x5F\xF2\xAD\xBC\xC5\xBE\x2D\x6C\x7F\x49\xFB\xE8\x11\x81\x04\xC6\xFF\x9A\x23\xC6\xDF\xE5\x2F\x57\x95\x4E\x6A\x69\xDC\xEE\x5D\xB0\x6F\x51\x4F\x4A\x0A\x57\x2A\x9A\x85\x25\xD9\x61\xDA\xE7\x22\x69\xB9\x87\x18\x9D\x46\x5D\xF6\x10\x71\x19\xC7\xFA\x79\x08\x53\xE0\x63\xCB\xA0\xFA\xB7\x80\x0C\xA9\x32\xE2\x58\x88\x0F\xD7\x4C\x33\xC7\x84\x67\x5B\xED\xAD\x0E\x7C\x09\xE9\xCC\x4D\x63\xDD\x5E\x97\x13\xD5\xD4\xA0\x19\x6E\x6B\x56\x22\x26\xAC\x31\xB4\xF5\x7C\x04\xF9\x0A\x18\x19\x73\x73\x7D\xDC\x7E\x80\xF3\x64\x11\x2A\x9F\xBB\x43\x5E\xBD\xBC\xAB\xF7\xD4\x90\xCE\x52"+ , "\xB2\xB7\x95\xFE\x6C\x1D\x4C\x83\xC1\x32\x7E\x01\x5A\x67\xD4\x46\x5F\xD8\xE3\x28\x13\x57\x5C\xBA\xB2\x63\xE2\x0E\xF0\x58\x64\xD2\xDC\x17\xE0\xE4\xEB\x81\x43\x6A\xDF\xE9\xF6\x38\xDC\xC1\xC8\xD7\x8F\x6B\x03\x06\xBA\xF9\x38\xE5\xD2\xAB\x0B\x3E\x05\xE7\x35\xCC\x6F\xFF\x2D\x6E\x02\xE3\xD6\x04\x84\xBE\xA7\xC7\xA8\xE1\x3E\x23\x19\x7F\xEA\x7B\x04\xD4\x7D\x48\xF4\xA4\xE5\x94\x41\x74\x53\x94\x92\x80\x0D\x3E\xF5\x1E\x2E\xE5\xE4\xC8\xA0\xBD\xF0\x50\xC2\xDD\x3D\xD7\x4F\xCE\x5E\x7E\x5C\x37\x36\x4F\x75\x47\xA1\x14\x80\xA3\x06\x3B\x9A\x0A\x15\x7B\x15\xB1\x0A\x5A\x95\x4D\xE2\x73\x1C\xED\x05\x5A\xA2\xE2\x76\x7F\x08\x91\xD4\x32\x9C\x42\x6F\x38\x08\xEE\x86\x7B\xED\x0D\xC7\x5B\x59\x22\xB7\xCF\xB8\x95\x70\x0F\xDA\x01\x61\x05\xA4\xC7\xB7\xF0\xBB\x90\xF0\x29\xF6\xBB\xCB\x04\xAC\x36\xAC\x16") + ]++-- Test vector from paper "Cryptography in NaCl"+vectorsCB :: [Vector]+vectorsCB =+ [ ( 20+ , "\x4A\x5D\x9D\x5B\xA4\xCE\x2D\xE1\x72\x8E\x3B\xF4\x80\x35\x0F\x25\xE0\x7E\x21\xC9\x47\xD1\x9E\x33\x76\xF0\x9B\x3C\x1E\x16\x17\x42"+ , "\x69\x69\x6E\xE9\x55\xB6\x2B\x73\xCD\x62\xBD\xA8\x75\xFC\x73\xD6\x82\x19\xE0\x03\x6B\x7A\x0B\x37"+ , "\xBE\x07\x5F\xC5\x3C\x81\xF2\xD5\xCF\x14\x13\x16\xEB\xEB\x0C\x7B\x52\x28\xC5\x2A\x4C\x62\xCB\xD4\x4B\x66\x84\x9B\x64\x24\x4F\xFC\xE5\xEC\xBA\xAF\x33\xBD\x75\x1A\x1A\xC7\x28\xD4\x5E\x6C\x61\x29\x6C\xDC\x3C\x01\x23\x35\x61\xF4\x1D\xB6\x6C\xCE\x31\x4A\xDB\x31\x0E\x3B\xE8\x25\x0C\x46\xF0\x6D\xCE\xEA\x3A\x7F\xA1\x34\x80\x57\xE2\xF6\x55\x6A\xD6\xB1\x31\x8A\x02\x4A\x83\x8F\x21\xAF\x1F\xDE\x04\x89\x77\xEB\x48\xF5\x9F\xFD\x49\x24\xCA\x1C\x60\x90\x2E\x52\xF0\xA0\x89\xBC\x76\x89\x70\x40\xE0\x82\xF9\x37\x76\x38\x48\x64\x5E\x07\x05"+ , "\x8E\x99\x3B\x9F\x48\x68\x12\x73\xC2\x96\x50\xBA\x32\xFC\x76\xCE\x48\x33\x2E\xA7\x16\x4D\x96\xA4\x47\x6F\xB8\xC5\x31\xA1\x18\x6A\xC0\xDF\xC1\x7C\x98\xDC\xE8\x7B\x4D\xA7\xF0\x11\xEC\x48\xC9\x72\x71\xD2\xC2\x0F\x9B\x92\x8F\xE2\x27\x0D\x6F\xB8\x63\xD5\x17\x38\xB4\x8E\xEE\xE3\x14\xA7\xCC\x8A\xB9\x32\x16\x45\x48\xE5\x26\xAE\x90\x22\x43\x68\x51\x7A\xCF\xEA\xBD\x6B\xB3\x73\x2B\xC0\xE9\xDA\x99\x83\x2B\x61\xCA\x01\xB6\xDE\x56\x24\x4A\x9E\x88\xD5\xF9\xB3\x79\x73\xF6\x22\xA4\x3D\x14\xA6\x59\x9B\x1F\x65\x4C\xB4\x5A\x74\xE3\x55\xA5")+ ]++tests = testGroup "XSalsa"+ [ testGroup "KAT" $+ zipWith (\i (r, k, n, p, e) -> testCase (show (i :: Int)) $ salsaRunSimple r k n p e) [1..] vectors+ , testGroup "crypto_box encryption" $+ zipWith (\i (r, k, n, p, e) -> testCase (show (i :: Int)) $ cryptoBoxEnc r k n p e) [1..] vectorsCB+ ]+ where+ salsaRunSimple rounds key nonce plain expected =+ let salsa = XSalsa.initialize rounds key nonce+ in fst (XSalsa.combine salsa plain) @?= expected++ cryptoBoxEnc rounds shared nonce plain expected =+ let zero = B.replicate 16 0+ (iv0, iv1) = B.splitAt 8 nonce+ salsa0 = XSalsa.initialize rounds shared (zero `B.append` iv0)+ salsa1 = XSalsa.derive salsa0 iv1+ (_, salsa2) = XSalsa.generate salsa1 32 :: (B.ByteString, XSalsa.State)+ in fst (XSalsa.combine salsa2 plain) @?= expected