cosmian_kyber

Crates.iocosmian_kyber
lib.rscosmian_kyber
version0.1.0
sourcesrc
created_at2023-01-17 11:15:28.307352
updated_at2023-01-17 11:15:28.307352
descriptionA rust implementation of the post-quantum Kyber KEM algorithm. This is a fork of the `pqc_kyber` crate
homepage
repositoryhttps://github.com/Argyle-Software/kyber
max_upload_size
id760946
size491,972
Théophile BRÉZOT (tbrezot)

documentation

https://docs.rs/crate/cosmian_kyber/

README

Kyber

Build Status Crates NPM License

A rust implementation of the Kyber algorithm, a KEM standardised by the NIST Post-Quantum Standardization Project.

This library:

  • Is no_std compatible and needs no allocator, suitable for embedded devices.

  • Reference files contain no unsafe code and are written in pure rust.

  • On x86_64 platforms uses an avx2 optimized version by default, which includes some assembly code taken from the C repo.

  • Compiles to WASM using wasm-bindgen and has a ready-to-use binary published on NPM.

See the features section for different options regarding security levels and modes of operation. The default security setting is kyber768.

It is recommended to use Kyber in a hybrid system alongside a traditional key exchange algorithm such as X25519.

Please also read the security considerations before use.

Minimum Supported Rust Version: 1.47.0


Installation

In Cargo.toml:

[dependencies]
cosmian_kyber = "0.1.0"

Usage

use cosmian_kyber::*;

For optimisations on x86 platforms enable the avx2 feature and the following RUSTFLAGS:

export RUSTFLAGS="-C target-feature=+aes,+avx2,+sse2,+sse4.1,+bmi2,+popcnt"

The higher level key exchange structs will be appropriate for most use-cases.


Unilaterally Authenticated Key Exchange

let mut rng = rand::thread_rng();

// Initialize the key exchange structs
let mut alice = Uake::new();
let mut bob = Uake::new();

// Generate Bob's Keypair
let bob_keys = keypair(&mut rng);

// Alice initiates key exchange
let client_init = alice.client_init(&bob_keys.public, &mut rng);

// Bob authenticates and responds
let server_response = bob.server_receive(
  client_init, &bob_keys.secret, &mut rng
)?;

// Alice decapsulates the shared secret
alice.client_confirm(server_response)?;

// Both key exchange structs now have the same shared secret
assert_eq!(alice.shared_secret, bob.shared_secret);

Mutually Authenticated Key Exchange

Mutual authentication follows the same workflow but with additional keys passed to the functions:

let mut alice = Ake::new();
let mut bob = Ake::new();

let alice_keys = keypair(&mut rng);
let bob_keys = keypair(&mut rng);

let client_init = alice.client_init(&bob_keys.public, &mut rng);

let server_response = bob.server_receive(
  client_init, &alice_keys.public, &bob_keys.secret, &mut rng
)?;

alice.client_confirm(server_response, &alice_keys.secret)?;

assert_eq!(alice.shared_secret, bob.shared_secret);

Key Encapsulation

Lower level functions for using the Kyber algorithm directly.

// Generate Keypair
let keys_bob = keypair(&mut rng);

// Alice encapsulates a shared secret using Bob's public key
let (ciphertext, shared_secret_alice) = encapsulate(&keys_bob.public, &mut rng)?;

// Bob decapsulates a shared secret using the ciphertext sent by Alice
let shared_secret_bob = decapsulate(&ciphertext, &keys_bob.secret)?;

assert_eq!(shared_secret_alice, shared_secret_bob);

Errors

The KyberError enum has two variants:

  • InvalidInput - One or more inputs to a function are incorrectly sized. A possible cause of this is two parties using different security levels while trying to negotiate a key exchange.

  • Decapsulation - The ciphertext was unable to be authenticated. The shared secret was not decapsulated.


Features

If no security level is specified then kyber768 is used by default as recommended by the authors. It is roughly equivalent to AES-192. Apart from the two security levels, all other features can be combined as needed. For example:

[dependencies]
cosmian_kyber = {version = "0.2.0", features = ["kyber512", "90s", "avx2"]}
Feature Description
kyber512 Enables kyber512 mode, with a security level roughly equivalent to AES-128.
kyber1024 Enables kyber1024 mode, with a security level roughly equivalent to AES-256. A compile-time error is raised if more than one security level is specified.
90s Uses SHA2 and AES in counter mode as a replacement for SHAKE. This can provide hardware speedups in some cases.
avx2 On x86_64 platforms enable the optimized version. This flag is will cause a compile error on other architectures.
wasm For compiling to WASM targets
nasm Uses Netwide Assembler avx2 code instead of GAS for portability you will need a nasm compiler installed: https://www.nasm.us/
zeroize This will zero out the key exchange structs on drop using the zeroize crate
benchmarking Enables the criterion benchmarking suite
std Enable the standard library

Testing

The run_all_tests script will traverse all possible codepaths by running a matrix of the security levels, variants and crate features.

Known Answer Tests require deterministic rng seeds, enable kyber_kat in RUSTFLAGSto use them. Using this outside of cargo test will result in a compile-time error. The test vector files are quite large, you will need to build them yourself from the C reference code. There's a helper script to do this here.

# This example runs the basic tests for kyber768
cargo test

# This runs the KATs for kyber512 in 90's mode
RUSTFLAGS='--cfg kyber_kat' cargo test --features "kyber512 90s"

See the testing readme for more comprehensive info.


Benchmarking

Uses criterion for benchmarking. If you have GNUPlot installed it will generate statistical graphs in ./target/criterion/.

See the benchmarking readme for information on correct usage.

You will need to use the benchmarking feature


Fuzzing

The fuzzing suite uses honggfuzz, installation and instructions are on the fuzzing page.


WebAssembly

This library has been compiled into web assembly and published as a npm package. Usage instructions are here:

https://www.npmjs.com/package/pqc-kyber

Which is also located here in the wasm readme

To install:

npm i pqc-kyber

To compile the wasm files yourself you need to enable the wasm feature.

For example, using wasm-pack:

wasm-pack build -- --features wasm

Which will export the wasm, javascript and typescript files into ./pkg/.

To compile a different variant into a separate folder:

wasm-pack build --out-dir pkg_kyber512/ -- --features "wasm kyber512"

There is also a basic html demo in the www folder.

From the www folder run:

npm run start

Security Considerations

While much care has been taken porting from the C reference codebase, this library has not undergone any third-party security auditing nor can any guarantees be made about the potential for underlying vulnerabilities in LWE cryptography or potential side-channel attacks arising from this implementation.

Kyber is relatively new, it is advised to use it in a hybrid key exchange system alongside a traditional algorithm like X25519 rather than by itself.

For further reading the IETF have a draft construction for hybrid key exchange in TLS 1.3:

https://www.ietf.org/archive/id/draft-ietf-tls-hybrid-design-04.html

You can also see how such a system is implemented here in C by OpenSSH

Please use at your own risk.


About

Kyber is an IND-CCA2-secure key encapsulation mechanism (KEM), whose security is based on the hardness of solving the learning-with-errors (LWE) problem over module lattices. It is the final standardised algorithm resulting from the NIST post-quantum cryptography project.

The official website: https://pq-crystals.org/kyber/

Authors of the Kyber Algorithm:

  • Roberto Avanzi, ARM Limited (DE)
  • Joppe Bos, NXP Semiconductors (BE)
  • Léo Ducas, CWI Amsterdam (NL)
  • Eike Kiltz, Ruhr University Bochum (DE)
  • Tancrède Lepoint, SRI International (US)
  • Vadim Lyubashevsky, IBM Research Zurich (CH)
  • John M. Schanck, University of Waterloo (CA)
  • Peter Schwabe, Radboud University (NL)
  • Gregor Seiler, IBM Research Zurich (CH)
  • Damien Stehle, ENS Lyon (FR)

Contributing

Contributions welcome. For pull requests create a feature fork and submit it to the development branch. More information is available on the contributing page

Commit count: 491

cargo fmt