tls-2.0.0: Network/TLS/Handshake/Server/ServerHello13.hs
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
module Network.TLS.Handshake.Server.ServerHello13 (
sendServerHello13,
) where
import Control.Monad.State.Strict
import qualified Data.ByteString as B
import Network.TLS.Cipher
import Network.TLS.Context.Internal
import Network.TLS.Credentials
import Network.TLS.Crypto
import Network.TLS.Extension
import Network.TLS.Handshake.Common
import Network.TLS.Handshake.Common13
import Network.TLS.Handshake.Control
import Network.TLS.Handshake.Key
import Network.TLS.Handshake.Random
import Network.TLS.Handshake.Server.Common
import Network.TLS.Handshake.Signature
import Network.TLS.Handshake.State
import Network.TLS.Handshake.State13
import Network.TLS.IO
import Network.TLS.Imports
import Network.TLS.Parameters
import Network.TLS.Session
import Network.TLS.State
import Network.TLS.Struct
import Network.TLS.Struct13
import Network.TLS.Types
import Network.TLS.X509
sendServerHello13
:: ServerParams
-> Context
-> KeyShareEntry
-> (Cipher, Hash, Bool)
-> CH
-> IO
( SecretTriple ApplicationSecret
, ClientTrafficSecret HandshakeSecret
, Bool
, Bool
)
sendServerHello13 sparams ctx clientKeyShare (usedCipher, usedHash, rtt0) CH{..} = do
newSession ctx >>= \ss -> usingState_ ctx $ do
setSession ss False
setClientSupportsPHA supportsPHA
usingHState ctx $ setSupportedGroup $ keyShareEntryGroup clientKeyShare
srand <- setServerParameter
-- ALPN is used in choosePSK
protoExt <- applicationProtocol ctx chExtensions sparams
(psk, binderInfo, is0RTTvalid) <- choosePSK
earlyKey <- calculateEarlySecret ctx choice (Left psk) True
let earlySecret = pairBase earlyKey
clientEarlySecret = pairClient earlyKey
extensions <- checkBinder earlySecret binderInfo
hrr <- usingState_ ctx getTLS13HRR
let authenticated = isJust binderInfo
rtt0OK = authenticated && not hrr && rtt0 && rtt0accept && is0RTTvalid
extraCreds <-
usingState_ ctx getClientSNI >>= onServerNameIndication (serverHooks sparams)
let allCreds =
filterCredentials (isCredentialAllowed TLS13 chExtensions) $
extraCreds `mappend` sharedCredentials (ctxShared ctx)
----------------------------------------------------------------
established <- ctxEstablished ctx
if established /= NotEstablished
then
if rtt0OK
then do
usingHState ctx $ setTLS13HandshakeMode RTT0
usingHState ctx $ setTLS13RTT0Status RTT0Accepted
else do
usingHState ctx $ setTLS13HandshakeMode PreSharedKey
usingHState ctx $ setTLS13RTT0Status RTT0Rejected
else when authenticated $ usingHState ctx $ setTLS13HandshakeMode PreSharedKey
-- else : FullHandshake or HelloRetryRequest
mCredInfo <-
if authenticated then return Nothing else decideCredentialInfo allCreds
(ecdhe, keyShare) <- makeServerKeyShare ctx clientKeyShare
ensureRecvComplete ctx
(clientHandshakeSecret, handSecret) <- runPacketFlight ctx $ do
sendServerHello keyShare srand extensions
sendChangeCipherSpec13 ctx
----------------------------------------------------------------
handKey <- liftIO $ calculateHandshakeSecret ctx choice earlySecret ecdhe
let serverHandshakeSecret = triServer handKey
clientHandshakeSecret = triClient handKey
handSecret = triBase handKey
liftIO $ do
if rtt0OK && not (ctxQUICMode ctx)
then setRxRecordState ctx usedHash usedCipher clientEarlySecret
else setRxRecordState ctx usedHash usedCipher clientHandshakeSecret
setTxRecordState ctx usedHash usedCipher serverHandshakeSecret
let mEarlySecInfo
| rtt0OK = Just $ EarlySecretInfo usedCipher clientEarlySecret
| otherwise = Nothing
handSecInfo = HandshakeSecretInfo usedCipher (clientHandshakeSecret, serverHandshakeSecret)
contextSync ctx $ SendServerHello chExtensions mEarlySecInfo handSecInfo
----------------------------------------------------------------
sendExtensions rtt0OK protoExt
case mCredInfo of
Nothing -> return ()
Just (cred, hashSig) -> sendCertAndVerify cred hashSig
let ServerTrafficSecret shs = serverHandshakeSecret
rawFinished <- makeFinished ctx usedHash shs
loadPacket13 ctx $ Handshake13 [rawFinished]
return (clientHandshakeSecret, handSecret)
----------------------------------------------------------------
hChSf <- transcriptHash ctx
appKey <- calculateApplicationSecret ctx choice handSecret hChSf
let clientApplicationSecret0 = triClient appKey
serverApplicationSecret0 = triServer appKey
setTxRecordState ctx usedHash usedCipher serverApplicationSecret0
let appSecInfo = ApplicationSecretInfo (clientApplicationSecret0, serverApplicationSecret0)
contextSync ctx $ SendServerFinished appSecInfo
----------------------------------------------------------------
if rtt0OK
then setEstablished ctx (EarlyDataAllowed rtt0max)
else
when (established == NotEstablished) $
setEstablished ctx (EarlyDataNotAllowed 3) -- hardcoding
return (appKey, clientHandshakeSecret, authenticated, rtt0OK)
where
choice = makeCipherChoice TLS13 usedCipher
setServerParameter = do
srand <-
serverRandom ctx TLS13 $ supportedVersions $ serverSupported sparams
usingState_ ctx $ setVersion TLS13
failOnEitherError $ usingHState ctx $ setHelloParameters13 usedCipher
return srand
supportsPHA = case extensionLookup EID_PostHandshakeAuth chExtensions
>>= extensionDecode MsgTClientHello of
Just PostHandshakeAuth -> True
Nothing -> False
choosePSK = case extensionLookup EID_PreSharedKey chExtensions
>>= extensionDecode MsgTClientHello of
Just (PreSharedKeyClientHello (PskIdentity sessionId obfAge : _) bnds@(bnd : _)) -> do
when (null dhModes) $
throwCore $
Error_Protocol "no psk_key_exchange_modes extension" MissingExtension
if PSK_DHE_KE `elem` dhModes
then do
let len = sum (map (\x -> B.length x + 1) bnds) + 2
mgr = sharedSessionManager $ serverShared sparams
msdata <-
if rtt0
then sessionResumeOnlyOnce mgr sessionId
else sessionResume mgr sessionId
case msdata of
Just sdata -> do
let tinfo = fromJust $ sessionTicketInfo sdata
psk = sessionSecret sdata
isFresh <- checkFreshness tinfo obfAge
(isPSKvalid, is0RTTvalid) <- checkSessionEquality sdata
if isPSKvalid && isFresh
then return (psk, Just (bnd, 0 :: Int, len), is0RTTvalid)
else -- fall back to full handshake
return (zero, Nothing, False)
_ -> return (zero, Nothing, False)
else return (zero, Nothing, False)
_ -> return (zero, Nothing, False)
checkSessionEquality sdata = do
msni <- usingState_ ctx getClientSNI
malpn <- usingState_ ctx getNegotiatedProtocol
let isSameSNI = sessionClientSNI sdata == msni
isSameCipher = sessionCipher sdata == cipherID usedCipher
ciphers = supportedCiphers $ serverSupported sparams
isSameKDF = case find (\c -> cipherID c == sessionCipher sdata) ciphers of
Nothing -> False
Just c -> cipherHash c == cipherHash usedCipher
isSameVersion = TLS13 == sessionVersion sdata
isSameALPN = sessionALPN sdata == malpn
isPSKvalid = isSameKDF && isSameSNI -- fixme: SNI is not required
is0RTTvalid = isSameVersion && isSameCipher && isSameALPN
return (isPSKvalid, is0RTTvalid)
rtt0max = safeNonNegative32 $ serverEarlyDataSize sparams
rtt0accept = serverEarlyDataSize sparams > 0
checkBinder _ Nothing = return []
checkBinder earlySecret (Just (binder, n, tlen)) = do
binder' <- makePSKBinder ctx earlySecret usedHash tlen Nothing
unless (binder == binder') $
decryptError "PSK binder validation failed"
let selectedIdentity = extensionEncode $ PreSharedKeyServerHello $ fromIntegral n
return [ExtensionRaw EID_PreSharedKey selectedIdentity]
decideCredentialInfo allCreds = do
cHashSigs <- case extensionLookup EID_SignatureAlgorithms chExtensions of
Nothing ->
throwCore $ Error_Protocol "no signature_algorithms extension" MissingExtension
Just sa -> case extensionDecode MsgTClientHello sa of
Nothing ->
throwCore $ Error_Protocol "broken signature_algorithms extension" DecodeError
Just (SignatureAlgorithms sas) -> return sas
-- When deciding signature algorithm and certificate, we try to keep
-- certificates supported by the client, but fallback to all credentials
-- if this produces no suitable result (see RFC 5246 section 7.4.2 and
-- RFC 8446 section 4.4.2.2).
let sHashSigs = filter isHashSignatureValid13 $ supportedHashSignatures $ ctxSupported ctx
hashSigs = sHashSigs `intersect` cHashSigs
cltCreds = filterCredentialsWithHashSignatures chExtensions allCreds
case credentialsFindForSigning13 hashSigs cltCreds of
Nothing ->
case credentialsFindForSigning13 hashSigs allCreds of
Nothing -> throwCore $ Error_Protocol "credential not found" HandshakeFailure
mcs -> return mcs
mcs -> return mcs
sendServerHello keyShare srand extensions = do
let serverKeyShare = extensionEncode $ KeyShareServerHello keyShare
selectedVersion = extensionEncode $ SupportedVersionsServerHello TLS13
extensions' =
ExtensionRaw EID_KeyShare serverKeyShare
: ExtensionRaw EID_SupportedVersions selectedVersion
: extensions
helo = ServerHello13 srand chSession (cipherID usedCipher) extensions'
loadPacket13 ctx $ Handshake13 [helo]
sendCertAndVerify cred@(certChain, _) hashSig = do
storePrivInfoServer ctx cred
when (serverWantClientCert sparams) $ do
let certReqCtx = "" -- this must be zero length here.
certReq = makeCertRequest sparams ctx certReqCtx
loadPacket13 ctx $ Handshake13 [certReq]
usingHState ctx $ setCertReqSent True
let CertificateChain cs = certChain
ess = replicate (length cs) []
loadPacket13 ctx $ Handshake13 [Certificate13 "" certChain ess]
liftIO $ usingState_ ctx $ setServerCertificateChain certChain
hChSc <- transcriptHash ctx
pubkey <- getLocalPublicKey ctx
vrfy <- makeCertVerify ctx pubkey hashSig hChSc
loadPacket13 ctx $ Handshake13 [vrfy]
sendExtensions rtt0OK protoExt = do
msni <- liftIO $ usingState_ ctx getClientSNI
let sniExtension = case msni of
-- RFC6066: In this event, the server SHALL include
-- an extension of type "server_name" in the
-- (extended) server hello. The "extension_data"
-- field of this extension SHALL be empty.
Just _ -> Just $ ExtensionRaw EID_ServerName ""
Nothing -> Nothing
mgroup <- usingHState ctx getSupportedGroup
let serverGroups = supportedGroups (ctxSupported ctx)
groupExtension
| null serverGroups = Nothing
| maybe True (== head serverGroups) mgroup = Nothing
| otherwise =
Just $
ExtensionRaw EID_SupportedGroups $
extensionEncode (SupportedGroups serverGroups)
let earlyDataExtension
| rtt0OK =
Just $
ExtensionRaw EID_EarlyData $
extensionEncode (EarlyDataIndication Nothing)
| otherwise = Nothing
let extensions =
sharedHelloExtensions (serverShared sparams)
++ catMaybes
[ earlyDataExtension
, groupExtension
, sniExtension
]
++ protoExt
extensions' <-
liftIO $ onEncryptedExtensionsCreating (serverHooks sparams) extensions
loadPacket13 ctx $ Handshake13 [EncryptedExtensions13 extensions']
dhModes = case extensionLookup EID_PskKeyExchangeModes chExtensions
>>= extensionDecode MsgTClientHello of
Just (PskKeyExchangeModes ms) -> ms
Nothing -> []
hashSize = hashDigestSize usedHash
zero = B.replicate hashSize 0
credentialsFindForSigning13
:: [HashAndSignatureAlgorithm]
-> Credentials
-> Maybe (Credential, HashAndSignatureAlgorithm)
credentialsFindForSigning13 hss0 creds = loop hss0
where
loop [] = Nothing
loop (hs : hss) = case credentialsFindForSigning13' hs creds of
Nothing -> loop hss
Just cred -> Just (cred, hs)
-- See credentialsFindForSigning.
credentialsFindForSigning13'
:: HashAndSignatureAlgorithm -> Credentials -> Maybe Credential
credentialsFindForSigning13' sigAlg (Credentials l) = find forSigning l
where
forSigning cred = case credentialDigitalSignatureKey cred of
Nothing -> False
Just pub -> pub `signatureCompatible13` sigAlg
contextSync :: Context -> ServerState -> IO ()
contextSync ctx ctl = case ctxHandshakeSync ctx of
HandshakeSync _ sync -> sync ctx ctl