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libsodium/ChangeLog
2024-05-25 14:37:41 +02:00

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* Version 1.0.20
This point release includes all the changes from 1.0.19-stable,
mainly addressing compilation issues and improvements to the .NET
packages.
* Version 1.0.19-stable
- Building with `zig build` now requires Zig 0.12.
- When using the traditional build system, -O3 is used instead of -Ofast.
- Improved detection of the compiler flags required on aarch64.
- Improved compatibility with custom build systems on aarch64.
- apple-xcframework: VisionOS packages are not built if Xcode doesn't
include that SDK.
- `crypto_kdf_hkdf_sha512_statebytes()` was added.
- When using Visual Studio, runtime CPU feature detection is now enabled
on Windows/aarch64.
- There were issues with C++ guards affecting usage of libsodium
using Swift on Windows. This has been fixed.
- Emscripten: `crypto_aead_aegis*()` functions are now exported in
JavaScript builds
- Emscripten: unsupported `--memory-init-file` option has been removed.
- apple-xcframework: the minimal deployment target can be set to iOS 11+.
- .NET packages now include precompiled libraries for Windows/arm64,
iOS, TvOS and Catalyst.
- .NET precompiled libraries now work on any CPUs, using only runtime
feature detection.
- SYSV assembly should not be used when targeting Windows (reported by
@meiyese, thanks!)
- Compatibility issues with LLVM 18 and AVX512 have been addressed.
- GitHub attestation build provenance are now added to NuGet packages.
- JavaScript tests can now use Bun as an alternative to Node.
* Version 1.0.19
This release includes all the changes from 1.0.18-stable, as well as two
additions:
- New AEADs: AEGIS-128L and AEGIS-256 are now available in the
`crypto_aead_aegis128l_*()` and `crypto_aead_aegis256_*()` namespaces.
AEGIS is a family of authenticated ciphers for high-performance applications,
leveraging hardware AES acceleration on `x86_64` and `aarch64`. In addition
to performance, AEGIS ciphers have unique properties making them easier and
safer to use than AES-GCM. They can also be used as high-performance MACs.
- The HKDF key derivation mechanism, required by many standard protocols, is
now available in the `crypto_kdf_hkdf_*()` namespace. It is implemented for
the SHA-256 and SHA-512 hash functions.
- The `osx.sh` build script was renamed to `macos.sh`.
- Support for android-mips was removed.
* Version 1.0.18-stable
- Visual Studio: support for Windows/ARM64 builds has been added.
- Visual Studio: AVX512 implementations are enabled on supported CPUs.
- Visual Studio: an MSVC 2022 solution was added.
- Apple XCFramework: support for VisionOS was added.
- Apple XCFramework: support for Catalyst was added.
- Apple XCFramework: building the simulators is now optional.
- iOS: bitcode is not generated any more, as it was deprecated by Apple.
- watchOS: support for arm64 was added.
- The Zig toolchain can now be used as a modern build system to replace
autoconf/automake/libtool/make/ccache and the compiler. This enables faster
compilation times, easier cross compilation, and static libraries optimized
for any CPU.
- The Zig toolchain is now the recommended way to compile `libsodium`
to WebAssembly/WASI(X).
- libsodium can now be added as a dependency to Zig projects.
- Memory fences were added to remove some gadgets that could be used
alongside speculative loads.
- The AES-GCM implementation was completely rewritten. It is now faster,
and also available on aarch64, including Windows/ARM64.
- Compatibility with CET instrumentation / IBT / Shadow Stack was added.
- Emscripten: the `crypto_pwhash_*()` functions have been removed from Sumo
builds, as they reserve a substantial amount of JavaScript memory, even when
not used.
- Benchmarks now use `CLOCK_MONOTONIC` if possible.
- WebAssembly: tests can now run using Bun, WasmEdge, Wazero, wasm3 and
wasmer-js. Support for WAVM and Lucet have been removed, as these projects
have reached EOL.
- .NET: the minimum supported macOS version is now 1.0.15; this matches
Microsoft guidelines.
- .NET: all the packages are now built using Zig, on all platforms. This
allows us to easily match Microsoft's requirements, including supported glibc
versions. However, on x86_64, targets are expected to support at least the
AVX instruction set.
- .NET: packages for ARM64 are now available.
- C23 `memset_explicit()` is now used, when available.
- Compilation now uses `-Ofast` or `-O3` instead of `-O2` by default.
- Portability improvements to help compile libsodium to modern game consoles.
- JavaScript: a default `unhandledRejection` handler is not set any more.
- Slightly faster 25519 operations.
- OpenBSD: leverage `MAP_CONCEAL`.
* Version 1.0.18
- Enterprise versions of Visual Studio are now supported.
- Visual Studio 2019 is now supported.
- 32-bit binaries for Visual Studio 2010 are now provided.
- A test designed to trigger an OOM condition didn't work on Linux systems
with memory overcommit turned on. It has been removed in order to fix
Ansible builds.
- Emscripten: `print` and `printErr` functions are overridden to send
errors to the console, if there is one.
- Emscripten: `UTF8ToString()` is now exported since `Pointer_stringify()`
has been deprecated.
- Libsodium version detection has been fixed in the CMake recipe.
- Generic hashing got a 10% speedup on AVX2.
- New target: WebAssembly/WASI (compile with `dist-builds/wasm32-wasi.sh`).
- New functions to map a hash to an edwards25519 point or get a random point:
`core_ed25519_from_hash()` and `core_ed25519_random()`.
- `crypto_core_ed25519_scalar_mul()` has been implemented for
`scalar*scalar (mod L)` multiplication.
- Support for the Ristretto group has been implemented for interoperability
with wasm-crypto.
- Improvements have been made to the test suite.
- Portability improvements have been made.
- `getentropy()` is now used on systems providing this system call.
- `randombytes_salsa20` has been renamed to `randombytes_internal`.
- Support for NativeClient has been removed.
- Most `((nonnull))` attributes have been relaxed to allow 0-length inputs
to be `NULL`.
- The `-ftree-vectorize` and `-ftree-slp-vectorize` compiler switches are
now used, if available, for optimized builds.
* Version 1.0.17-stable
- AVX512 detection has been improved.
- A compilation option was added to enable retpoline support.
- `-ftls-model=global-dynamic` is now set, if available.
- Portability and documentation improvements.
* Version 1.0.17
- Bug fix: `sodium_pad()` didn't properly support block sizes >= 256 bytes.
- JS/WebAssembly: some old iOS versions can't instantiate the WebAssembly
module; fall back to Javascript on these.
- JS/WebAssembly: compatibility with newer Emscripten versions.
- Bug fix: `crypto_pwhash_scryptsalsa208sha256_str_verify()` and
`crypto_pwhash_scryptsalsa208sha256_str_needs_rehash()` didn't return
`EINVAL` on input strings with a short length, unlike their high-level
counterpart.
- Added a workaround for Visual Studio 2010 bug causing CPU features
not to be detected.
- Portability improvements.
- Test vectors from Project Wycheproof have been added.
- New low-level APIs for arithmetic mod the order of the prime order group:
`crypto_core_ed25519_scalar_random()`, `crypto_core_ed25519_scalar_reduce()`,
`crypto_core_ed25519_scalar_invert()`, `crypto_core_ed25519_scalar_negate()`,
`crypto_core_ed25519_scalar_complement()`, `crypto_core_ed25519_scalar_add()`
and `crypto_core_ed25519_scalar_sub()`.
- New low-level APIs for scalar multiplication without clamping:
`crypto_scalarmult_ed25519_base_noclamp()` and
`crypto_scalarmult_ed25519_noclamp()`. These new APIs are especially useful
for blinding.
- `sodium_sub()` has been implemented.
- Support for WatchOS has been added.
- getrandom(2) is now used on FreeBSD 12+.
- The `nonnull` attribute has been added to all relevant prototypes.
- More reliable AVX512 detection.
- Javascript/Webassembly builds now use dynamic memory growth.
* Version 1.0.16
- Signatures computations and verifications are now way faster on
64-bit platforms with compilers supporting 128-bit arithmetic (gcc,
clang, icc). This includes the WebAssembly target.
- New low-level APIs for computations over edwards25519:
`crypto_scalarmult_ed25519()`, `crypto_scalarmult_ed25519_base()`,
`crypto_core_ed25519_is_valid_point()`, `crypto_core_ed25519_add()`,
`crypto_core_ed25519_sub()` and `crypto_core_ed25519_from_uniform()`
(elligator representative to point).
- `crypto_sign_open()`, `crypto_sign_verify_detached() and
`crypto_sign_edwards25519sha512batch_open` now reject public keys in
non-canonical form in addition to low-order points.
- The library can be built with `ED25519_NONDETERMINISTIC` defined in
order to use synthetic nonces for EdDSA. This is disabled by default.
- Webassembly: `crypto_pwhash_*()` functions are now included in
non-sumo builds.
- `sodium_stackzero()` was added to wipe content off the stack.
- Android: support new SDKs where unified headers have become the
default.
- The Salsa20-based PRNG example is now thread-safe on platforms with
support for thread-local storage, optionally mixes bits from RDRAND.
- CMAKE: static library detection on Unix systems has been improved
(thanks to @BurningEnlightenment, @nibua-r, @mellery451)
- Argon2 and scrypt are slightly faster on Linux.
* Version 1.0.15
- The default password hashing algorithm is now Argon2id. The
`pwhash_str_verify()` function can still verify Argon2i hashes
without any changes, and `pwhash()` can still compute Argon2i hashes
as well.
- The aes128ctr primitive was removed. It was slow, non-standard, not
authenticated, and didn't seem to be used by any opensource project.
- Argon2id required at least 3 passes like Argon2i, despite a minimum
of `1` as defined by the `OPSLIMIT_MIN` constant. This has been fixed.
- The secretstream construction was slightly changed to be consistent
with forthcoming variants.
- The Javascript and Webassembly versions have been merged, and the
module now returns a `.ready` promise that will resolve after the
Webassembly code is loaded and compiled.
- Note that due to these incompatible changes, the library version
major was bumped up.
* Version 1.0.14
- iOS binaries should now be compatible with WatchOS and TVOS.
- WebAssembly is now officially supported. Special thanks to
@facekapow and @pepyakin who helped to make it happen.
- Internal consistency checks failing and primitives used with
dangerous/out-of-bounds/invalid parameters used to call abort(3).
Now, a custom handler *that doesn't return* can be set with the
`set_sodium_misuse()` function. It still aborts by default or if the
handler ever returns. This is not a replacement for non-fatal,
expected runtime errors. This handler will be only called in
unexpected situations due to potential bugs in the library or in
language bindings.
- `*_MESSAGEBYTES_MAX` macros (and the corresponding
`_messagebytes_max()` symbols) have been added to represent the
maximum message size that can be safely handled by a primitive.
Language bindings are encouraged to check user inputs against these
maximum lengths.
- The test suite has been extended to cover more edge cases.
- crypto_sign_ed25519_pk_to_curve25519() now rejects points that are
not on the curve, or not in the main subgroup.
- Further changes have been made to ensure that smart compilers will
not optimize out code that we don't want to be optimized.
- Visual Studio solutions are now included in distribution tarballs.
- The `sodium_runtime_has_*` symbols for CPU features detection are
now defined as weak symbols, i.e. they can be replaced with an
application-defined implementation. This can be useful to disable
AVX* when temperature/power consumption is a concern.
- `crypto_kx_*()` now aborts if called with no non-NULL pointers to
store keys to.
- SSE2 implementations of `crypto_verify_*()` have been added.
- Passwords can be hashed using a specific algorithm with the new
`crypto_pwhash_str_alg()` function.
- Due to popular demand, base64 encoding (`sodium_bin2base64()`) and
decoding (`sodium_base642bin()`) have been implemented.
- A new `crypto_secretstream_*()` API was added to safely encrypt files
and multi-part messages.
- The `sodium_pad()` and `sodium_unpad()` helper functions have been
added in order to add & remove padding.
- An AVX512 optimized implementation of Argon2 has been added (written
by Ondrej Mosnáček, thanks!)
- The `crypto_pwhash_str_needs_rehash()` function was added to check if
a password hash string matches the given parameters, or if it needs an
update.
- The library can now be compiled with recent versions of
emscripten/binaryen that don't allow multiple variables declarations
using a single `var` statement.
* Version 1.0.13
- Javascript: the sumo builds now include all symbols. They were
previously limited to symbols defined in minimal builds.
- The public `crypto_pwhash_argon2i_MEMLIMIT_MAX` constant was
incorrectly defined on 32-bit platforms. This has been fixed.
- Version 1.0.12 didn't compile on OpenBSD/i386 using the base gcc
compiler. This has been fixed.
- The Android compilation scripts have been updated for NDK r14b.
- armv7s-optimized code was re-added to iOS builds.
- An AVX2 optimized implementation of the Argon2 round function was
added.
- The Argon2id variant of Argon2 has been implemented. The
high-level `crypto_pwhash_str_verify()` function automatically detects
the algorithm and can verify both Argon2i and Argon2id hashed passwords.
The default algorithm for newly hashed passwords remains Argon2i in
this version to avoid breaking compatibility with verifiers running
libsodium <= 1.0.12.
- A `crypto_box_curve25519xchacha20poly1305_seal*()` function set was
implemented.
- scrypt was removed from minimal builds.
- libsodium is now available on NuGet.
* Version 1.0.12
- Ed25519ph was implemented, adding a multi-part signature API
(`crypto_sign_init()`, `crypto_sign_update()`, `crypto_sign_final_*()`).
- New constants and related accessors have been added for Scrypt and
Argon2.
- XChaCha20 has been implemented. Like XSalsa20, this construction
extends the ChaCha20 cipher to accept a 192-bit nonce. This makes it safe
to use ChaCha20 with random nonces.
- `crypto_secretbox`, `crypto_box` and `crypto_aead` now offer
variants leveraging XChaCha20.
- SHA-2 is about 20% faster, which also gives a speed boost to
signature and signature verification.
- AVX2 implementations of Salsa20 and ChaCha20 have been added. They
are twice as fast as the SSE2 implementations. The speed gain is
even more significant on Windows, that previously didn't use
vectorized implementations.
- New high-level API: `crypto_kdf`, to easily derive one or more
subkeys from a master key.
- Siphash with a 128-bit output has been implemented, and is
available as `crypto_shorthash_siphashx_*`.
- New `*_keygen()` helpers functions have been added to create secret
keys for all constructions. This improves code clarity and can prevent keys
from being partially initialized.
- A new `randombytes_buf_deterministic()` function was added to
deterministically fill a memory region with pseudorandom data. This
function can especially be useful to write reproducible tests.
- A preliminary `crypto_kx_*()` API was added to compute shared session
keys.
- AVX2 detection is more reliable.
- The pthreads library is not required any more when using MingW.
- `contrib/Findsodium.cmake` was added as an example to include
libsodium in a project using cmake.
- Compatibility with gcc 2.x has been restored.
- Minimal builds can be checked using `sodium_library_minimal()`.
- The `--enable-opt` compilation switch has become compatible with more
platforms.
- Android builds are now using clang on platforms where it is
available.
* Version 1.0.11
- `sodium_init()` is now thread-safe, and can be safely called multiple
times.
- Android binaries now properly support 64-bit Android, targeting
platform 24, but without breaking compatibility with platforms 16 and
21.
- Better support for old gcc versions.
- On FreeBSD, core dumps are disabled on regions allocated with
sodium allocation functions.
- AVX2 detection was fixed, resulting in faster Blake2b hashing on
platforms where it was not properly detected.
- The Sandy2x Curve25519 implementation was not as fast as expected
on some platforms. This has been fixed.
- The NativeClient target was improved. Most notably, it now supports
optimized implementations, and uses pepper_49 by default.
- The library can be compiled with recent Emscripten versions.
Changes have been made to produce smaller code, and the default heap
size was reduced in the standard version.
- The code can now be compiled on SLES11 service pack 4.
- Decryption functions can now accept a NULL pointer for the output.
This checks the MAC without writing the decrypted message.
- crypto_generichash_final() now returns -1 if called twice.
- Support for Visual Studio 2008 was improved.
* Version 1.0.10
- This release only fixes a compilation issue reported with some older
gcc versions. There are no functional changes over the previous release.
* Version 1.0.9
- The Javascript target now includes a `--sumo` option to include all
the symbols of the original C library.
- A detached API was added to the ChaCha20-Poly1305 and AES256-GCM
implementations.
- The Argon2i password hashing function was added, and is accessible
directly and through a new, high-level `crypto_pwhash` API. The scrypt
function remains available as well.
- A speed-record AVX2 implementation of BLAKE2b was added (thanks to
Samuel Neves).
- The library can now be compiled using C++Builder (thanks to @jcolli44)
- Countermeasures for Ed25519 signatures malleability have been added
to match the irtf-cfrg-eddsa draft (note that malleability is irrelevant to
the standard definition of signature security). Signatures with a small-order
`R` point are now also rejected.
- Some implementations are now slightly faster when using the Clang
compiler.
- The HChaCha20 core function was implemented (`crypto_core_hchacha20()`).
- No-op stubs were added for all AES256-GCM public functions even when
compiled on non-Intel platforms.
- `crypt_generichash_blake2b_statebytes()` was added.
- New macros were added for the IETF variant of the ChaCha20-Poly1305
construction.
- The library can now be compiled on Minix.
- HEASLR is now enabled on MinGW builds.
* Version 1.0.8
- Handle the case where the CPU supports AVX, but we are running
on an hypervisor with AVX disabled/not supported.
- Faster (2x) scalarmult_base() when using the ref10 implementation.
* Version 1.0.7
- More functions whose return value should be checked have been
tagged with `__attribute__ ((warn_unused_result))`: `crypto_box_easy()`,
`crypto_box_detached()`, `crypto_box_beforenm()`, `crypto_box()`, and
`crypto_scalarmult()`.
- Sandy2x, the fastest Curve25519 implementation ever, has been
merged in, and is automatically used on CPUs supporting the AVX
instructions set.
- An SSE2 optimized implementation of Poly1305 was added, and is
twice as fast as the portable one.
- An SSSE3 optimized implementation of ChaCha20 was added, and is
twice as fast as the portable one.
- Faster `sodium_increment()` for common nonce sizes.
- New helper functions have been added: `sodium_is_zero()` and
`sodium_add()`.
- `sodium_runtime_has_aesni()` now properly detects the CPU flag when
compiled using Visual Studio.
* Version 1.0.6
- Optimized implementations of Blake2 have been added for modern
Intel platforms. `crypto_generichash()` is now faster than MD5 and SHA1
implementations while being far more secure.
- Functions for which the return value should be checked have been
tagged with `__attribute__ ((warn_unused_result))`. This will
intentionally break code compiled with `-Werror` that didn't bother
checking critical return values.
- The `crypto_sign_edwards25519sha512batch_*()` functions have been
tagged as deprecated.
- Undocumented symbols that were exported, but were only useful for
internal purposes have been removed or made private:
`sodium_runtime_get_cpu_features()`, the implementation-specific
`crypto_onetimeauth_poly1305_donna()` symbols,
`crypto_onetimeauth_poly1305_set_implementation()`,
`crypto_onetimeauth_poly1305_implementation_name()` and
`crypto_onetimeauth_pick_best_implementation()`.
- `sodium_compare()` now works as documented, and compares numbers
in little-endian format instead of behaving like `memcmp()`.
- The previous changes should not break actual applications, but to be
safe, the library version major was incremented.
- `sodium_runtime_has_ssse3()` and `sodium_runtime_has_sse41()` have
been added.
- The library can now be compiled with the CompCert compiler.
* Version 1.0.5
- Compilation issues on some platforms were fixed: missing alignment
directives were added (required at least on RHEL-6/i386), a workaround
for a VRP bug on gcc/armv7 was added, and the library can now be compiled
with the SunPro compiler.
- Javascript target: io.js is not supported any more. Use nodejs.
* Version 1.0.4
- Support for AES256-GCM has been added. This requires
a CPU with the aesni and pclmul extensions, and is accessible via the
crypto_aead_aes256gcm_*() functions.
- The Javascript target doesn't use eval() any more, so that the
library can be used in Chrome packaged applications.
- QNX and CloudABI are now supported.
- Support for NaCl has finally been added.
- ChaCha20 with an extended (96 bit) nonce and a 32-bit counter has
been implemented as crypto_stream_chacha20_ietf(),
crypto_stream_chacha20_ietf_xor() and crypto_stream_chacha20_ietf_xor_ic().
An IETF-compatible version of ChaCha20Poly1305 is available as
crypto_aead_chacha20poly1305_ietf_npubbytes(),
crypto_aead_chacha20poly1305_ietf_encrypt() and
crypto_aead_chacha20poly1305_ietf_decrypt().
- The sodium_increment() helper function has been added, to increment
an arbitrary large number (such as a nonce).
- The sodium_compare() helper function has been added, to compare
arbitrary large numbers (such as nonces, in order to prevent replay
attacks).
* Version 1.0.3
- In addition to sodium_bin2hex(), sodium_hex2bin() is now a
constant-time function.
- crypto_stream_xsalsa20_ic() has been added.
- crypto_generichash_statebytes(), crypto_auth_*_statebytes() and
crypto_hash_*_statebytes() have been added in order to retrieve the
size of structures keeping states from foreign languages.
- The JavaScript target doesn't require /dev/urandom or an external
randombytes() implementation any more. Other minor Emscripten-related
improvements have been made in order to support libsodium.js
- Custom randombytes implementations do not need to provide their own
implementation of randombytes_uniform() any more. randombytes_stir()
and randombytes_close() can also be NULL pointers if they are not
required.
- On Linux, getrandom(2) is being used instead of directly accessing
/dev/urandom, if the kernel supports this system call.
- crypto_box_seal() and crypto_box_seal_open() have been added.
- Visual Studio 2015 is now supported.
* Version 1.0.2
- The _easy and _detached APIs now support precalculated keys;
crypto_box_easy_afternm(), crypto_box_open_easy_afternm(),
crypto_box_detached_afternm() and crypto_box_open_detached_afternm()
have been added as an alternative to the NaCl interface.
- Memory allocation functions can now be used on operating systems with
no memory protection.
- crypto_sign_open() and crypto_sign_edwards25519sha512batch_open()
now accept a NULL pointer instead of a pointer to the message size, if
storing this information is not required.
- The close-on-exec flag is now set on the descriptor returned when
opening /dev/urandom.
- A libsodium-uninstalled.pc file to use pkg-config even when
libsodium is not installed, has been added.
- The iOS target now includes armv7s and arm64 optimized code, as well
as i386 and x86_64 code for the iOS simulator.
- sodium_free() can now be called on regions with PROT_NONE protection.
- The Javascript tests can run on Ubuntu, where the node binary was
renamed nodejs. io.js can also be used instead of node.
* Version 1.0.1
- DLL_EXPORT was renamed SODIUM_DLL_EXPORT in order to avoid
collisions with similar macros defined by other libraries.
- sodium_bin2hex() is now constant-time.
- crypto_secretbox_detached() now supports overlapping input and output
regions.
- NaCl's donna_c64 implementation of curve25519 was reading an extra byte
past the end of the buffer containing the base point. This has been
fixed.
* Version 1.0.0
- The API and ABI are now stable. New features will be added, but
backward-compatibility is guaranteed through all the 1.x.y releases.
- crypto_sign() properly works with overlapping regions again. Thanks
to @pysiak for reporting this regression introduced in version 0.6.1.
- The test suite has been extended.
* Version 0.7.1 (1.0 RC2)
- This is the second release candidate of Sodium 1.0. Minor
compilation, readability and portability changes have been made and the
test suite was improved, but the API is the same as the previous release
candidate.
* Version 0.7.0 (1.0 RC1)
- Allocating memory to store sensitive data can now be done using
sodium_malloc() and sodium_allocarray(). These functions add guard
pages around the protected data to make it less likely to be
accessible in a heartbleed-like scenario. In addition, the protection
for memory regions allocated that way can be changed using
sodium_mprotect_noaccess(), sodium_mprotect_readonly() and
sodium_mprotect_readwrite().
- ed25519 keys can be converted to curve25519 keys with
crypto_sign_ed25519_pk_to_curve25519() and
crypto_sign_ed25519_sk_to_curve25519(). This allows using the same
keys for signature and encryption.
- The seed and the public key can be extracted from an ed25519 key
using crypto_sign_ed25519_sk_to_seed() and crypto_sign_ed25519_sk_to_pk().
- aes256 was removed. A timing-attack resistant implementation might
be added later, but not before version 1.0 is tagged.
- The crypto_pwhash_scryptxsalsa208sha256_* compatibility layer was
removed. Use crypto_pwhash_scryptsalsa208sha256_*.
- The compatibility layer for implementation-specific functions was
removed.
- Compilation issues with Mingw64 on MSYS (not MSYS2) were fixed.
- crypto_pwhash_scryptsalsa208sha256_STRPREFIX was added: it contains
the prefix produced by crypto_pwhash_scryptsalsa208sha256_str()
* Version 0.6.1
- Important bug fix: when crypto_sign_open() was given a signed
message too short to even contain a signature, it was putting an
unlimited amount of zeros into the target buffer instead of
immediately returning -1. The bug was introduced in version 0.5.0.
- New API: crypto_sign_detached() and crypto_sign_verify_detached()
to produce and verify ed25519 signatures without having to duplicate
the message.
- New ./configure switch: --enable-minimal, to create a smaller
library, with only the functions required for the high-level API.
Mainly useful for the JavaScript target and embedded systems.
- All the symbols are now exported by the Emscripten build script.
- The pkg-config .pc file is now always installed even if the
pkg-config tool is not available during the installation.
* Version 0.6.0
- The ChaCha20 stream cipher has been added, as crypto_stream_chacha20_*
- The ChaCha20Poly1305 AEAD construction has been implemented, as
crypto_aead_chacha20poly1305_*
- The _easy API does not require any heap allocations any more and
does not have any overhead over the NaCl API. With the password
hashing function being an obvious exception, the library doesn't
allocate and will not allocate heap memory ever.
- crypto_box and crypto_secretbox have a new _detached API to store
the authentication tag and the encrypted message separately.
- crypto_pwhash_scryptxsalsa208sha256*() functions have been renamed
crypto_pwhash_scryptsalsa208sha256*().
- The low-level crypto_pwhash_scryptsalsa208sha256_ll() function
allows setting individual parameters of the scrypt function.
- New macros and functions for recommended crypto_pwhash_* parameters
have been added.
- Similarly to crypto_sign_seed_keypair(), crypto_box_seed_keypair()
has been introduced to deterministically generate a key pair from a seed.
- crypto_onetimeauth() now provides a streaming interface.
- crypto_stream_chacha20_xor_ic() and crypto_stream_salsa20_xor_ic()
have been added to use a non-zero initial block counter.
- On Windows, CryptGenRandom() was replaced by RtlGenRandom(), which
doesn't require the Crypt API.
- The high bit in curve25519 is masked instead of processing the key as
a 256-bit value.
- The curve25519 ref implementation was replaced by the latest ref10
implementation from Supercop.
- sodium_mlock() now prevents memory from being included in coredumps
on Linux 3.4+
* Version 0.5.0
- sodium_mlock()/sodium_munlock() have been introduced to lock pages
in memory before storing sensitive data, and to zero them before
unlocking them.
- High-level wrappers for crypto_box and crypto_secretbox
(crypto_box_easy and crypto_secretbox_easy) can be used to avoid
dealing with the specific memory layout regular functions depend on.
- crypto_pwhash_scryptsalsa208sha256* functions have been added
to derive a key from a password, and for password storage.
- Salsa20 and ed25519 implementations now support overlapping
inputs/keys/outputs (changes imported from supercop-20140505).
- New build scripts for Visual Studio, Emscripten, different Android
architectures and msys2 are available.
- The poly1305-53 implementation has been replaced with Floodyberry's
poly1305-donna32 and poly1305-donna64 implementations.
- sodium_hex2bin() has been added to complement sodium_bin2hex().
- On OpenBSD and Bitrig, arc4random() is used instead of reading
/dev/urandom.
- crypto_auth_hmac_sha512() has been implemented.
- sha256 and sha512 now have a streaming interface.
- hmacsha256, hmacsha512 and hmacsha512256 now support keys of
arbitrary length, and have a streaming interface.
- crypto_verify_64() has been implemented.
- first-class Visual Studio build system, thanks to @evoskuil
- CPU features are now detected at runtime.
* Version 0.4.5
- Restore compatibility with OSX <= 10.6
* Version 0.4.4
- Visual Studio is officially supported (VC 2010 & VC 2013)
- mingw64 is now supported
- big-endian architectures are now supported as well
- The donna_c64 implementation of curve25519_donna_c64 now handles
non-canonical points like the ref implementation
- Missing scalarmult_curve25519 and stream_salsa20 constants are now exported
- A crypto_onetimeauth_poly1305_ref() wrapper has been added
* Version 0.4.3
- crypto_sign_seedbytes() and crypto_sign_SEEDBYTES were added.
- crypto_onetimeauth_poly1305_implementation_name() was added.
- poly1305-ref has been replaced by a faster implementation,
Floodyberry's poly1305-donna-unrolled.
- Stackmarkings have been added to assembly code, for Hardened Gentoo.
- pkg-config can now be used in order to retrieve compilations flags for
using libsodium.
- crypto_stream_aes256estream_*() can now deal with unaligned input
on platforms that require word alignment.
- portability improvements.
* Version 0.4.2
- All NaCl constants are now also exposed as functions.
- The Android and iOS cross-compilation script have been improved.
- libsodium can now be cross-compiled to Windows from Linux.
- libsodium can now be compiled with emscripten.
- New convenience function (prototyped in utils.h): sodium_bin2hex().
* Version 0.4.1
- sodium_version_*() functions were not exported in version 0.4. They
are now visible as intended.
- sodium_init() now calls randombytes_stir().
- optimized assembly version of salsa20 is now used on amd64.
- further cleanups and enhanced compatibility with non-C99 compilers.
* Version 0.4
- Most constants and operations are now available as actual functions
instead of macros, making it easier to use from other languages.
- New operation: crypto_generichash, featuring a variable key size, a
variable output size, and a streaming API. Currently implemented using
Blake2b.
- The package can be compiled in a separate directory.
- aes128ctr functions are exported.
- Optimized versions of curve25519 (curve25519_donna_c64), poly1305
(poly1305_53) and ed25519 (ed25519_ref10) are available. Optionally calling
sodium_init() once before using the library makes it pick the fastest
implementation.
- New convenience function: sodium_memzero() in order to securely
wipe a memory area.
- A whole bunch of cleanups and portability enhancements.
- On Windows, a .REF file is generated along with the shared library,
for use with Visual Studio. The installation path for these has become
$prefix/bin as expected by MingW.
* Version 0.3
- The crypto_shorthash operation has been added, implemented using
SipHash-2-4.
* Version 0.2
- crypto_sign_seed_keypair() has been added
* Version 0.1
- Initial release.