|author||Palmer Cox <email@example.com>||Wed Apr 01 22:23:28 2015 -0400|
|committer||Palmer Cox <firstname.lastname@example.org>||Wed Apr 01 22:23:41 2015 -0400|
Bump version to 0.2.29
NOTE: The crate name used by rust-crypto has recently changed from
rust-crypto to just
crypto. Please see the Usage section if you are running into issues due to this change.
A (mostly) pure-Rust implementation of various common cryptographic algorithms.
Rust-Crypto seeks to create practical, auditable, pure-Rust implementations of common cryptographic algorithms with a minimum amount of assembly code where appropriate. Rust-Crypto supports both x86 and ARM architectures, although the x86 architecture receives considerably more testing. Rust-Crypto has not been thoroughly audited for correctness, so any use where security is important is not recommended at this time.
To use Rust-Crypto, add the following to your Cargo.toml:
[dependencies] rust-crypto = "*"
and the following to your crate root:
extern crate crypto;
Contributions are extremely welcome. The most significant needs are help keeping up with breaking Rust changes, adding documentation, implementing new algorithms, and general cleanup and improvement of the code. Rust-Crypto is not a great place for experimenting with new algorithms, however. I generally will not merge pull requests for at least a day after they are submitted to make sure that everyone who contributes to Rust-Crypto has a chance to comment, voice concerns, or suggest improvements. Pull requests that make trivial improvements (such as updates to documentation) or fix compiling against the latest Rust nightly release will be merged as soon as possible, however.
By submitting a pull request you are agreeing to make you work available under the license terms of the Rust-Crypto project.
Rust-Crypto is dual licensed under the MIT and Apache 2.0 licenses, the same licenses as the Rust compiler.
Rust-Crypto already supports a significant number of algorithms and with your help it will support even more in the future. Currently supported algorithms include: