cryptol-3.0.0: CHANGES.md
# 3.0.0 -- 2023-06-26
## Language changes
* Cryptol now includes a redesigned module system that is significantly more
expressive than in previous releases. The new module system includes the
following features:
* Nested modules: Modules may now be defined within other modules.
* Named interfaces: An interface specifies the parameters to a module.
Separating the interface from the parameter declarations makes it possible
to have different parameters that use the same interface.
* Top-level module constraints: These are useful to specify constraints
between different module parameters (i.e., ones that come from different
interfaces or multiple copies of the same interface).
See the
[manual section](https://galoisinc.github.io/cryptol/master/Modules.html#instantiation-by-parametrizing-declarations)
for more information.
* Declarations may now use *numeric constraint guards*. This is a feature
that allows a function to behave differently depending on its numeric
type parameters. See the [manual section](https://galoisinc.github.io/cryptol/master/BasicSyntax.html#numeric-constraint-guards))
for more information.
* The foreign function interface (FFI) has been added, which allows Cryptol to
call functions written in C. See the [manual section](https://galoisinc.github.io/cryptol/master/FFI.html)
for more information.
* The unary `-` operator now has the same precedence as binary `-`, meaning
expressions like `-x^^2` will now parse as `-(x^^2)` instead of `(-x)^^2`.
**This is a breaking change.** A warning has been added in cases where the
behavior has changed, and can be disabled with `:set warnPrefixAssoc=off`.
* Infix operators are now allowed in import lists: `import M ((<+>))` will
import only the operator `<+>` from module `M`.
* `lib/Array.cry` now contains an `arrayEq` primitive. Like the other
array-related primitives, this has no computational interpretation (and
therefore cannot be used in the Cryptol interpreter), but it is useful for
stating specifications that are used in SAW.
## New features
* Add a `:time` command to benchmark the evaluation time of expressions.
* Add support for literate Cryptol using reStructuredText. Cryptol code
is extracted from `.. code-block:: cryptol` and `.. sourcecode:: cryptol`
directives.
* Add a syntax highlight file for Vim,
available in `syntax-highlight/cryptol.vim`
* Add `:new-seed` and `:set-seed` commands to the REPL.
These affect random test generation,
and help write reproducable Cryptol scripts.
* Add support for the CVC5 solver, which can be selected with
`:set prover=cvc5`. If you want to specify a What4 or SBV backend, you can
use `:set prover=w4-cvc5` or `:set prover=sbv-cvc5`, respectively. (Note that
`sbv-cvc5` is non-functional on Windows at this time due to a downstream issue
with CVC5 1.0.4 and earlier.)
* Add `:file-deps` commands to the REPL and Python API.
It shows information about the source files and dependencies of
modules or Cryptol files.
## Bug fixes
* Fix a bug in the What4 backend that could cause applications of `(@)` with
symbolic `Integer` indices to become out of bounds (#1359).
* Fix a bug that caused finite bitvector enumerations to panic when used in
combination with `(#)` (e.g., `[0..1] # 0`).
* Cryptol's markdown parser is slightly more permissive and will now parse code
blocks with whitespace in between the backticks and `cryptol`. This sort of
whitespace is often inserted by markdown generation tools such as `pandoc`.
* Improve documentation for `fromInteger` (#1465)
* Closed issues #812, #977, #1090, #1140, #1147, #1253, #1322, #1324, #1329,
#1344, #1347, #1351, #1354, #1355, #1359, #1366, #1368, #1370, #1371, #1372,
#1373, #1378, #1383, #1385, #1386, #1391, #1394, #1395, #1396, #1398, #1399,
#1404, #1415, #1423, #1435, #1439, #1440, #1441, #1442, #1444, #1445, #1448,
#1449, #1450, #1451, #1452, #1456, #1457, #1458, #1462, #1465, #1466, #1470,
#1475, #1480, #1483, #1484, #1485, #1487, #1488, #1491, #1496, #1497, #1501,
#1503, #1510, #1511, #1513, and #1514.
* Merged pull requests #1184, #1205, #1279, #1356, #1357, #1358, #1361, #1363,
#1365, #1367, #1376, #1379, #1380, #1384, #1387, #1388, #1393, #1401, #1402,
#1403, #1406, #1408, #1409, #1410, #1411, #1412, #1413, #1414, #1416, #1417,
#1418, #1419, #1420, #1422, #1424, #1429, #1430, #1431, #1432, #1436, #1438,
#1443, #1447, #1453, #1454, #1459, #1460, #1461, #1463, #1464, #1467, #1468,
#1472, #1473, #1474, #1476, #1477, #1478, #1481, #1493, #1499, #1502, #1504,
#1506, #1509, #1512, #1516, #1518, #1519, #1520, #1521, #1523, #1527, and
#1528.
# 2.13.0
## Language changes
* Update the implementation of the Prelude function `sortBy` to use
a merge sort instead of an insertion sort. This improves the both
asymptotic and observed performance on sorting tasks.
## UI improvements
* "Type mismatch" errors now show a context giving more information
about the location of the error. The context is shown when the
part of the types match, but then some nested types do not.
For example, when mathching `{ a : [8], b : [8] }` with
`{ a : [8], b : [16] }` the error will be `8` does not match `16`
and the context will be `{ b : [ERROR] _ }` indicating that the
error is in the length of the sequence of field `b`.
## Bug fixes
* The What4 backend now properly supports Boolector 3.2.2 or later.
* Make error message locations more precise in some cases (issue #1299).
* Make `:reload` behave as expected after loading a module with `:module`
(issue #1313).
* Make `include` paths work as expected when nested within another `include`
(issue #1321).
* Fix a panic that occurred when loading dependencies before `include`s are
resolved (issue #1330).
* Closed issues #1098, #1280, and #1347.
* Merged pull requests #1233, #1300, #1301, #1302, #1303, #1305, #1306, #1307,
#1308, #1311, #1312, #1317, #1319, #1323, #1326, #1331, #1333, #1336, #1337,
#1338, #1342, #1346, #1348, and #1349.
# 2.12.0
## Language changes
* Updates to the layout rule. We simplified the specification and made
some minor changes, in particular:
- Paren blocks nested in a layout block need to respect the indentation
if the layout block
- We allow nested layout blocks to have the same indentation, which is
convenient when writing `private` declarations as they don't need to
be indented as long as they are at the end of the file.
* New enumeration forms `[x .. y by n]`, `[x .. <y by n]`,
`[x .. y down by n]` and `[x .. >y down by n]` have been
implemented. These new forms let the user explicitly specify
the stride for an enumeration, as opposed to the previous
`[x, y .. z]` form (where the stride was computed from `x` and `y`).
* Nested modules are now available (from pull request #1048). For example, the following is now valid Cryptol:
module SubmodTest where
import submodule B as C
submodule A where
propA = C::y > 5
submodule B where
y : Integer
y = 42
## New features
* What4 prover backends now feature an improved multi-SAT procedure
which is significantly faster than the old algorithm. Thanks to
Levent Erkök for the suggestion.
* There is a new `w4-abc` solver option, which communicates to ABC
as an external process via What4.
* Expanded support for declaration forms in the REPL. You can now
define infix operators, type synonyms and mutually-recursive functions,
and state signatures and fixity declarations. Multiple declarations
can be combined into a single line by separating them with `;`,
which is necessary for stating a signature together with a
definition, etc.
* There is a new `:set path` REPL option that provides an alternative to
`CRYPTOLPATH` for controlling where to search for imported modules
(issue #631).
* The `cryptol-remote-api` server now natively supports HTTPS (issue
#1008), `newtype` values (issue #1033), and safety checking (issue
#1166).
* Releases optionally include solvers (issue #1111). See the
`*-with-solvers*` files in the assets list for this release.
## Bug fixes
* Closed issues #422, #436, #619, #631, #633, #640, #680, #734, #735,
#759, #760, #764, #849, #996, #1000, #1008, #1019, #1032, #1033,
#1034, #1043, #1047, #1060, #1064, #1083, #1084, #1087, #1102, #1111,
#1113, #1117, #1125, #1133, #1142, #1144, #1145, #1146, #1157, #1160,
#1163, #1166, #1169, #1175, #1179, #1182, #1190, #1191, #1196, #1197,
#1204, #1209, #1210, #1213, #1216, #1223, #1226, #1238, #1239, #1240,
#1241, #1250, #1256, #1259, #1261, #1266, #1274, #1275, #1283, and
#1291.
* Merged pull requests #1048, #1128, #1129, #1130, #1131, #1135, #1136,
#1137, #1139, #1148, #1149, #1150, #1152, #1154, #1156, #1158, #1159,
#1161, #1164, #1165, #1168, #1170, #1171, #1172, #1173, #1174, #1176,
#1181, #1183, #1186, #1188, #1192, #1193, #1194, #1195, #1199, #1200,
#1202, #1203, #1205, #1207, #1211, #1214, #1215, #1218, #1219, #1221,
#1224, #1225, #1227, #1228, #1230, #1231, #1232, #1234, #1242, #1243,
#1244, #1245, #1246, #1247, #1248, #1251, #1252, #1254, #1255, #1258,
#1263, #1265, #1268, #1269, #1270, #1271, #1272, #1273, #1276, #1281,
#1282, #1284, #1285, #1286, #1287, #1288, #1293, #1294, and #1295.
# 2.11.0
## Language changes
* The `newtype` construct, which has existed in the interpreter in an
incomplete and undocumented form for quite a while, is now fullly
supported. The construct is documented in section 1.22 of [Programming
Cryptol](https://cryptol.net/files/ProgrammingCryptol.pdf). Note,
however, that the `cryptol-remote-api` RPC server currently does not
include full support for referring to `newtype` names, though it can
work with implementations that use `newtype` internally.
## New features
* By default, the interpreter will now track source locations of
expressions being evaluated, and retain call stack information.
This information is incorporated into error messages arising from
runtime errors. This additional bookkeeping incurs significant
runtime overhead, but may be disabled using the `--no-call-stacks`
command-line option.
* The `:exhaust` command now works for floating-point types and the
`:check` command now uses more representative sampling of
floating-point input values to test.
* The `cryptol-remote-api` RPC server now has methods corresponding to
the `:prove` and `:sat` commands in the REPL.
* The `cryptol-eval-server` executable is a new, stateless server
providing a subset of the functionality of `cryptol-remote-api`
dedicated entirely to invoking Cryptol functions on concrete inputs.
## Internal changes
* A single running instance of the SMT solver used for type checking
(Z3) is now used to check a larger number of type correctness queries.
This means that fewer solver instances are invoked, and type checking
should generally be faster.
* The Cryptol interpreter now builds against `libBF` version 0.6, which
fixes a few bugs in the evaluation of floating-point operations.
## Bug fixes
* Closed issues #118, #398, #426, #470, #491, #567, #594, #639, #656,
#698, #743, #810, #858, #870, #905, #915, #917, #962, #973, #975,
#980, #984, #986, #990, #996, #997, #1002, #1006, #1009, #1012, #1024,
#1030, #1035, #1036, #1039, #1040, #1044, #1045, #1049, #1050, #1051,
#1052, #1063, #1092, #1093, #1094, and #1100.
# 2.10.0
## Language changes
* Cryptol now supports primality checking at the type level. The
type-level predicate `prime` is true when its parameter passes the
Miller-Rabin probabilistic primality test implemented in the GMP
library.
* The `Z p` type is now a `Field` when `p` is prime, allowing additional
operations on `Z p` values.
* The literals `0` and `1` can now be used at type `Bit`, as
alternatives for `False` and `True`, respectively.
## New features
* The interpreter now includes a number of primitive functions that
allow faster execution of a number of common cryptographic functions,
including the core operations of AES and SHA-2, operations on GF(2)
polynomials (the existing `pmod`, `pdiv`, and `pmult` functions), and
some operations on prime field elliptic curves. These functions are
useful for implementing higher-level algorithms, such as many
post-quantum schemes, with more acceptable performance than possible
when running a top-to-bottom Cryptol implementation in the
interpreter.
For a full list of the new primitives, see the new Cryptol
[`SuiteB`](https://github.com/GaloisInc/cryptol/blob/master/lib/SuiteB.cry)
and
[`PrimeEC`](https://github.com/GaloisInc/cryptol/blob/master/lib/PrimeEC.cry)
modules.
* The REPL now allows lines containing only comments, making it easier
to copy and paste examples.
* The interpreter has generally improved performance overall.
* Several error messages are more comprehensible and less verbose.
* Cryptol releases and nightly builds now include an RPC server
alongside the REPL. This provides an alternative interface to the same
interpreter and proof engine available from the REPL, but is
better-suited to programmatic use. Details on the protocol used by the
server are available
[here](https://github.com/GaloisInc/argo/blob/master/docs/Protocol.rst).
A Python client for this protocol is available
[here](https://github.com/GaloisInc/argo/tree/master/python).
* Windows builds are now distributed as both `.tar.gz` and `.msi` files.
## Bug Fixes
* Closed issues #98, #485, #713, #744, #746, #787, #796, #803, #818,
#826, #838, #856, #873, #875, #876, #877, #879, #880, #881, #883,
#886, #887, #888, #892, #894, #901, #910, #913, #924, #926, #931,
#933, #937, #939, #946, #948, #953, #956, #958, and #969.
# 2.9.1
## Language changes
* The type of `generate` which is used for `a@i` sequence definitions,
is generalized so that the index type can be any `Integral` type
large enough to index the entire array being defined.
## Bug Fixes
* Closed issues #848, #850, #851, #859, and #861.
* Fixed Windows installer paths.
# 2.9.0
## Language changes
* Removed the `Arith` class. Replaced it instead with more specialized
numeric classes: `Ring`, `Integral`, `Field`, and `Round`. `Ring`
is the closest analogue to the old `Arith` class; it contains the
`fromInteger`, `(+)`, `(*)`, `(-)` and `negate` methods. `Ring`
contains all the base arithmetic types in Cryptol, and lifts
pointwise over tuples, sequences and functions, just as `Arith` did.
The new `Integral` class now contains the integer division and
modulus methods (`(/)` and `(%)`), and the sequence indexing,
sequence update and shifting operations are generalized over
`Integral`. The `toInteger` operation is also generalized over this
class. `Integral` contains the bitvector types and `Integer`.
The new `Field` class contains types representing mathematical
fields (or types that are approximately fields). It is currently
inhabited by the new `Rational` type, and the `Float`
family of types. It will eventually also contain the
`Real` type. It has the operation `recip` for reciprocal
and `(/.)` for field division (not to be confused for `(/)`,
which is Euclidean integral division).
There is also a new `Round` class for types that can sensibly be
rounded to integers. This class has the methods `floor`, `ceiling`,
`trunc`, `roundToEven` and `roundAway` for performing different
kinds of integer rounding. `Rational` and `Float` inhabit `Round`.
The type of `(^^)` is modified to be
`{a, e} (Ring a, Integral e) => a -> e -> a`. This makes it clear
that the semantics are iterated multiplication, which makes sense
in any ring.
Finally, the `lg2`, `(/$)` and `(%$)` methods of `Arith` have
had their types specialized so they operate only on bitvectors.
* Added an `Eq` class, and moved the equality operations
from `Cmp` into `Eq`. The `Z` type becomes a member of `Eq`
but not `Cmp`.
* Added a base `Rational` type. It is implemented as a pair of
integers, quotiented in the usual way. As such, it reduces to the
theory of integers and requires no new solver support (beyond
nonlinear integer arithmetic). `Rational` inhabits the new
`Field` and `Round` classes. Rational values can be
constructed using the `ratio` function, or via `fromInteger`.
* The `generate` function (and thus `x @ i= e` definitions) has had
its type specialized so the index type is always `Integer`.
* The new typeclasses are arranged into a class hierarchy, and the
typechecker will use that information to infer superclass instances
from subclasses.
* Added a family of base types, `Float e p`, for working with
floating point numbers. The parameters control the precision of
the numbers, with `e` being the number of bits to use in the exponent
and `p-1` being the number of bits to use in the mantissa.
The `Float` family of types may be used through the usual overloaded
functionality in Cryptol, and there is a new built-in module called
`Float`, which contains functionality specific to floating point numbers.
* Add a way to write fractional literals in base 2,8,10, and 16.
Fractional literals are overloaded, and may be used for different types
(currently `Rational` and the `Float` family). Fractional literal in base
2,8,and 16 must be precise, and will be rejected statically if they cannot be
represented exactly. Fractional literals in base 10 are rounded to the
nearest even representable number.
* Changes to the defaulting algorithm. The new algorithm only applies
to constraints arising from literals (i.e., `Literal` and `FLiteral`
constraints). The guiding principle is that we now default these
to one of the infinite precision types `Integer` or `Rational`.
`Literal` constraints are defaulted to `Integer`, unless the corresponding
type also has `Field` constraint, in which case we use `Rational`.
Fractional literal constraints are always defaulted to `Rational.
## New features
* Document the behavior of lifted selectors.
* Added support for symbolic simulation via the `What4` library
in addition to the previous method based on `SBV`. The What4
symbolic simulator is used when selecting solvers with the `w4`
prefix, such as `w4-z3`, `w4-cvc4`, `w4-yices`, etc.
The `SBV` and `What4` libraries make different tradeoffs in how
they represent formulae. You may find one works better than another
for the same problem, even with the same solver.
* More detailed information about the status of various symbols
in the output of the `:browse` command (issue #688).
* The `:safe` command will attempt to prove that a given Cryptol
term is safe; in other words, that it will not encounter a run-time
error for all inputs. Run-time errors arise from things like
division-by-zero, index-out-of-bounds situations and
explicit calls to `error` or `assert`.
* The `:prove` and `:sat` commands now incorporate safety predicates
by default. In a `:sat` call, models will only be found that do not
cause run-time errors. For `:prove` calls, the safety conditions are
added as additional proof goals. The prior behavior
(which ignored safety conditions) can be restored using
`:set ignore-safety = on`.
* Improvements to the `any` prover. It will now shut down external
prover processes correctly when one finds a solution. It will also
wait for the first _successful_ result to be returned from a prover,
instead of failing as soon as one prover fails.
* An experimental `parmap` primitive that applies a function to a
sequence of arguments and computes the results in parallel. This
operation should be considered experimental and may significantly
change or disappear in the future, and could possibly uncover
unknown race conditions in the interpreter.
## Bug fixes
* Closed issues #346, #444, #614, #617, #636, #660, #662, #663, #664,
#667, #670, #702, #711, #712, #716, #723, #725, #731, #835, #836,
#839, #840, and #845
# 2.8.0 (September 4, 2019)
## New features
* Added support for indexing on the left-hand sides of declarations,
record field constructors, and record updaters (issue #577). This
builds on a new primitive function called `generate`, where the new
syntax `x @ i = e` is sugar for `x = generate (\i -> e)`.
* Added support for element type ascriptions on sequence enumerations.
The syntax `[a,b..c:t]` indicates that the elements should be of type
`t`.
* Added support for wildcards in sequence enumerations. For example, the
syntax `[1 .. _] : [3][8]` yields `[0x01, 0x02, 0x03]`. It can also be
used polymorphically. For example, the most general type of `[1 .. _]`
is `{n, a} (n >= 1, Literal n a, fin n) => [n]a`
* Changed the syntax of type signatures to allow multiple constraint
arrows in type schemas (issue #599). The following are now equivalent:
f : {a} (fin a, a >= 1) => [a] -> [a]
f : {a} (fin a) => (a >= 1) => [a] -> [a]
* Added a mechanism for user-defined type constraint operators, and use
this to define the new type constraint synonyms (<) and (>) (issues
#400, #618).
* Added support for primitive type declarations. The prelude now uses
this mechanism to declare all of the basic types.
* Added support for Haskell-style "block arguments", reducing the need
for parentheses in some cases. For example, `generate (\i -> i +1)`
can now be written `generate \i -> i + 1`.
* Improved shadowing errors (part of the fix for issue #569).
## Bug fixes
* Closed many issues, including #265, #367, #437, #508, #522, #549,
#557, #559, #569, #578, #590, #595, #596, #601, #607, #608, #610,
#615, #621, and #636.
# 2.7.0 (April 30, 2019)
## New features
* Added syntax for record updates (see #399 for details of implemented
and planned features).
* Updated the `:browse` command to list module parameters (issue #586).
* Added support for test vector creation (the `:dumptests` command).
This feature computes a list of random inputs and outputs for the
given expression of function type and saves it to a file. This is
useful for generating tests from a trusted Cryptol specification to
apply to an implementation written in another language.
## Breaking changes
* Removed the `[x..]` construct from the language (issue #574). It
was shorthand for `[x..2^^n-1]` for a bit vector of size `n`, which was
often not what the user intended. Users should instead write either
`[x..y]` or `[x...]`, to construct a smaller range or a lazy sequence,
respectively.
* Renamed the value-level `width` function to `length`, and generalized
its type (issue #550). It does not behave identically to the
type-level `width` operator, which led to confusion. The name
`length` matches more closely with similar functions in other
languages.
## Bug fixes
* Improved type checking performance of decimal literals.
* Improved type checking of `/^` and `%^` (issues #581, #582).
* Improved performance of sequence updates with the `update` primitive
(issue #579).
* Fixed elapsed time printed by `:prove` and `:sat` (issue #572).
* Fixed SMT-Lib formulas generated for right shifts (issue #566).
* Fixed crash when importing non-parameterized modules with the
backtick prefix (issue #565).
* Improved performance of symbolic execution for `Z n` (issue #554).
* Fixed interpretation of the `satNum` option so finding multiple
solutions doesn't run forever (issue #553).
* Improved type checking of the `length` function (issue #548).
* Improved error message when trying to prove properties in
parameterized modules (issue #545).
* Stopped warning about defaulting at the REPL when `warnDefaulting` is
set to `false` (issue #543).
* Fixed builds on non-x86 architectures (issue #542).
* Made browsing of interactively-bound identifiers work better (issue #538).
* Fixed a bug that allowed changing the semantics of the `_ # _`
pattern and the `-` and `~` operators by creating local definitions
of functions that they expand to (issue #568).
* Closed issues #498, #547, #551, #562, and #563.