6 stable releases
4.2.2 | Jul 24, 2024 |
---|---|
4.2.1 | Feb 17, 2024 |
4.1.1 | Nov 1, 2023 |
4.0.0 | Aug 8, 2022 |
#44 in Cryptography
721 downloads per month
Used in 2 crates
1MB
26K
SLoC
curve25519-dalek
A pure-Rust implementation of group operations on Ristretto and Curve25519.
curve25519-dalek
is a library providing group operations on the Edwards and
Montgomery forms of Curve25519, and on the prime-order Ristretto group.
curve25519-dalek
is not intended to provide implementations of any particular
crypto protocol. Rather, implementations of those protocols (such as
x25519-dalek
and ed25519-dalek
) should use
curve25519-dalek
as a library.
curve25519-dalek
is intended to provide a clean and safe mid-level API for use
implementing a wide range of ECC-based crypto protocols, such as key agreement,
signatures, anonymous credentials, rangeproofs, and zero-knowledge proof
systems.
In particular, curve25519-dalek
implements Ristretto, which constructs a
prime-order group from a non-prime-order Edwards curve. This provides the
speed and safety benefits of Edwards curve arithmetic, without the pitfalls of
cofactor-related abstraction mismatches.
NOTE The main difference with this crate and curve25519-dalek is this adds hash_to_curve for Edwards curves.
Use
Stable
To import curve25519-dalek
, add the following to the dependencies section of
your project's Cargo.toml
:
curve25519-dalek = "4"
If opting into SemVer-exempted features a range can be used to scope the tested compatible version range e.g.:
curve25519-dalek = ">= 4.0, < 4.2"
Feature Flags
Feature | Default? | Description |
---|---|---|
alloc |
✓ | Enables Edwards and Ristretto multiscalar multiplication, batch scalar inversion, and batch Ristretto double-and-compress. Also enables zeroize . |
zeroize |
✓ | Enables Zeroize for all scalar and curve point types. |
precomputed-tables |
✓ | Includes precomputed basepoint multiplication tables. This speeds up EdwardsPoint::mul_base and RistrettoPoint::mul_base by ~4x, at the cost of ~30KB added to the code size. |
rand_core |
Enables Scalar::random and RistrettoPoint::random . This is an optional dependency whose version is not subject to SemVer. See below for more details. |
|
digest |
Enables RistrettoPoint::{from_hash, hash_from_bytes} and Scalar::{from_hash, hash_from_bytes} . This is an optional dependency whose version is not subject to SemVer. See below for more details. |
|
serde |
Enables serde serialization/deserialization for all the point and scalar types. |
|
legacy_compatibility |
Enables Scalar::from_bits , which allows the user to build unreduced scalars whose arithmetic is broken. Do not use this unless you know what you're doing. |
|
group |
Enables external group and ff crate traits |
To disable the default features when using curve25519-dalek
as a dependency,
add default-features = false
to the dependency in your Cargo.toml
. To
disable it when running cargo
, add the --no-default-features
CLI flag.
Major Version API Changes
Breaking changes for each major version release can be found in
CHANGELOG.md
, under the "Breaking changes" subheader. The
latest breaking changes in high level are below:
Breaking changes in 4.0.0
- Update the MSRV from 1.41 to 1.60
- Provide SemVer policy
- Make
digest
andrand_core
optional features - Remove
std
andnightly
features - Replace backend selection - See CHANGELOG.md and backends
- Replace methods
Scalar::{zero, one}
with constantsScalar::{ZERO, ONE}
Scalar::from_canonical_bytes
now returnsCtOption
Scalar::is_canonical
now returnsChoice
- Remove
Scalar::from_bytes_clamped
andScalar::reduce
- Deprecate and feature-gate
Scalar::from_bits
behindlegacy_compatibility
- Deprecate
EdwardsPoint::hash_from_bytes
and rename itEdwardsPoint::nonspec_map_to_curve
- Require including a new trait,
use curve25519_dalek::traits::BasepointTable
whenever usingEdwardsBasepointTable
orRistrettoBasepointTable
This release also does a lot of dependency updates and relaxations to unblock upstream build issues.
Backends
Curve arithmetic is implemented and used by one of the following backends:
Backend | Selection | Implementation | Bits / Word sizes |
---|---|---|---|
serial |
Automatic | An optimized, non-parllel implementation | 32 and 64 |
fiat |
Manual | Formally verified field arithmetic from fiat-crypto | 32 and 64 |
simd |
Automatic | Intel AVX2 / AVX512 IFMA accelerated backend | 64 only |
At runtime, curve25519-dalek
selects an arithmetic backend from the set of backends it was compiled to support. For Intel x86-64 targets, unless otherwise specified, it will build itself with simd
support, and default to serial
at runtime if the appropriate CPU features aren't detected. See SIMD backend for more details.
In the future, simd
backend may be extended to cover more instruction sets. This change will be non-breaking as this is considered as implementation detail.
Manual Backend Override
You can force the crate to compile with specific backend support, e.g., serial
for x86-64 targets to save code size, or fiat
to force the runtime to use verified code. To do this, set the environment variable:
RUSTFLAGS='--cfg curve25519_dalek_backend="BACKEND"'
Equivalently, you can write to
~/.cargo/config
:
[build]
rustflags = ['--cfg=curve25519_dalek_backend="BACKEND"']
More info here.
Note for contributors: The target backends are not entirely independent of each other. The SIMD backend directly depends on parts of the serial backend to function.
Bits / Word size
curve25519-dalek
will automatically choose the word size for the fiat
and
serial
backends, based on the build target.
For example, building for a 64-bit machine, the default 64 bit word size is
automatically chosen when either the serial
or fiat
backend is selected.
In some targets it might be required to override the word size for better
performance.
Backend word size can be overridden for serial
and fiat
by setting the
environment variable:
RUSTFLAGS='--cfg curve25519_dalek_bits="SIZE"'
SIZE
is 32
or 64
. As in the above section, this can also be placed
in ~/.cargo/config
.
Note: The SIMD backend requires a word size of 64 bits. Attempting to set bits=32 and backend=simd
will yield a compile error.
Cross-compilation
Because backend selection is done by target, cross-compiling will select the correct word size automatically. For example, if a x86-64 Linux machine runs the following commands, curve25519-dalek
will be compiled with the 32-bit serial
backend.
$ sudo apt install gcc-multilib # (or whatever package manager you use)
$ rustup target add i686-unknown-linux-gnu
$ cargo build --target i686-unknown-linux-gnu
SIMD backend
The specific SIMD backend (AVX512 / AVX2 / serial
default) is selected automatically at runtime, depending on the currently available CPU features, and whether Rust nightly is being used for compilation. The precise conditions are specified below.
For a given CPU feature, you can also specify an appropriate -C target_feature
to build a binary which assumes the required SIMD instructions are always available. Don't do this if you don't have a good reason.
Backend | RUSTFLAGS |
Requires nightly? |
---|---|---|
avx2 | -C target_feature=+avx2 |
no |
avx512 | -C target_feature=+avx512ifma,+avx512vl |
yes |
If compiled on a non-nightly compiler, curve25519-dalek
will not include AVX512 code, and therefore will never select it at runtime.
Documentation
The semver-stable, public-facing curve25519-dalek
API is documented here.
Building Docs Locally
The curve25519-dalek
documentation requires a custom HTML header to include
KaTeX for math support. Unfortunately cargo doc
does not currently support
this, but docs can be built using
make doc
for regular docs, and
make doc-internal
for docs that include private items.
Maintenance Policies
All on-by-default features of this library are covered by semantic versioning (SemVer). SemVer exemptions are outlined below for MSRV and public API.
Minimum Supported Rust Version
Releases | MSRV |
---|---|
4.x | 1.60.0 |
3.x | 1.41.0 |
From 4.x and on, MSRV changes will be accompanied by a minor version bump.
Public API SemVer Exemptions
Breaking changes to SemVer-exempted components affecting the public API will be accompanied by some version bump. Below are the specific policies:
Releases | Public API Component(s) | Policy |
---|---|---|
4.x | Dependencies group , digest and rand_core |
Minor SemVer bump |
Safety
The curve25519-dalek
types are designed to make illegal states
unrepresentable. For example, any instance of an EdwardsPoint
is
guaranteed to hold a point on the Edwards curve, and any instance of a
RistrettoPoint
is guaranteed to hold a valid point in the Ristretto
group.
All operations are implemented using constant-time logic (no
secret-dependent branches, no secret-dependent memory accesses),
unless specifically marked as being variable-time code.
We believe that our constant-time logic is lowered to constant-time
assembly, at least on x86_64
targets.
As an additional guard against possible future compiler optimizations,
the subtle
crate places an optimization barrier before every
conditional move or assignment. More details can be found in the
documentation for the subtle
crate.
Some functionality (e.g., multiscalar multiplication or batch inversion) requires heap allocation for temporary buffers. All heap-allocated buffers of potentially secret data are explicitly zeroed before release.
However, we do not attempt to zero stack data, for two reasons.
First, it's not possible to do so correctly: we don't have control
over stack allocations, so there's no way to know how much data to
wipe. Second, because curve25519-dalek
provides a mid-level API,
the correct place to start zeroing stack data is likely not at the
entrypoints of curve25519-dalek
functions, but at the entrypoints of
functions in other crates.
The implementation is memory-safe, and contains no significant
unsafe
code. The SIMD backend uses unsafe
internally to call SIMD
intrinsics. These are marked unsafe
only because invoking them on an
inappropriate CPU would cause SIGILL
, but the entire backend is only
invoked when the appropriate CPU features are detected at runtime, or
when the whole program is compiled with the appropriate target_feature
s.
Performance
Benchmarks are run using criterion.rs
:
cargo bench --features "rand_core"
export RUSTFLAGS='-C target_cpu=native'
cargo +nightly bench --features "rand_core"
Performance is a secondary goal behind correctness, safety, and clarity, but we aim to be competitive with other implementations.
FFI
Unfortunately, we have no plans to add FFI to curve25519-dalek
directly. The
reason is that we use Rust features to provide an API that maintains safety
invariants, which are not possible to maintain across an FFI boundary. For
instance, as described in the Safety section above, invalid points are
impossible to construct, and this would not be the case if we exposed point
operations over FFI.
However, curve25519-dalek
is designed as a mid-level API, aimed at
implementing other, higher-level primitives. Instead of providing FFI at the
mid-level, our suggestion is to implement the higher-level primitive (a
signature, PAKE, ZKP, etc) in Rust, using curve25519-dalek
as a dependency,
and have that crate provide a minimal, byte-buffer-oriented FFI specific to
that primitive.
Contributing
Please see CONTRIBUTING.md.
About
SPOILER ALERT: The Twelfth Doctor's first encounter with the Daleks is in his second full episode, "Into the Dalek". A beleaguered ship of the "Combined Galactic Resistance" has discovered a broken Dalek that has turned "good", desiring to kill all other Daleks. The Doctor, Clara and a team of soldiers are miniaturized and enter the Dalek, which the Doctor names Rusty. They repair the damage, but accidentally restore it to its original nature, causing it to go on the rampage and alert the Dalek fleet to the whereabouts of the rebel ship. However, the Doctor manages to return Rusty to its previous state by linking his mind with the Dalek's: Rusty shares the Doctor's view of the universe's beauty, but also his deep hatred of the Daleks. Rusty destroys the other Daleks and departs the ship, determined to track down and bring an end to the Dalek race.
curve25519-dalek
is authored by Isis Agora Lovecruft and Henry de Valence.
Portions of this library were originally a port of Adam Langley's
Golang ed25519 library, which was in
turn a port of the reference ref10
implementation. Most of this code,
including the 32-bit field arithmetic, has since been rewritten.
The fast u32
and u64
scalar arithmetic was implemented by Andrew Moon, and
the addition chain for scalar inversion was provided by Brian Smith. The
optimised batch inversion was contributed by Sean Bowe and Daira Hopwood.
The no_std
and zeroize
support was contributed by Tony Arcieri.
The formally verified fiat_backend
integrates Rust code generated by the
Fiat Crypto project and was
contributed by François Garillot.
Thanks also to Ashley Hauck, Lucas Salibian, Manish Goregaokar, Jack Grigg, Pratyush Mishra, Michael Rosenberg, @pinkforest, and countless others for their contributions.
Dependencies
~0.2–1.7MB
~35K SLoC