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Rust implementation of Reed-Solomon erasure coding

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erase - reed-solomon-erasure

Build Status Crates Documentation dependency status

Rust implementation of Reed-Solomon erasure coding

This is a port of BackBlaze's Java implementation, Klaus Post's Go implementation, and Nicolas Trangez's Haskell implementation.

Version 1.X.X copies BackBlaze's implementation, and is less performant as there were fewer places where parallelism could be added.

Version >= 2.0.0 copies Klaus Post's implementation. The SIMD C code is copied from Nicolas Trangez's implementation with minor modifications.

See Notes and License section for details.

Usage

Add the following to your Cargo.toml for the normal version(tries to compile with SIMD operations when applicable)

[dependencies]
reed-solomon-erasure = "3.1"

or the following for the pure rust version

[dependencies]
reed-solomon-erasure = { version = "3.1", default-features = false }

and the following to your crate root

extern crate erase;

Example

#[macro_use(shards)]
extern crate erase;

use erase::*;

fn main () {
    let r = ReedSolomon::new(3, 2).unwrap(); // 3 data shards, 2 parity shards

    let mut master_copy = shards!(
      [0, 1,  2,  3],
      [4, 5,  6,  7],
      [8, 9, 10, 11],
      [0, 0,  0,  0], // last 2 rows are parity hards
      [0, 0,  0,  0]
    );

    // Construct the parity shards
    r.encode(&mut master_copy).unwrap();

    // Make a copy and transform it into option shards arrangement
    // for feeding into reconstruct_shards
    let mut shards: Vec<_> = master_copy.into_iter().map(Some).collect();

    // We can remove up to 2 shards, which may be data or parity shards
    shards[0] = None;
    shards[4] = None;

    // Try to reconstruct missing shards
    r.reconstruct(&mut shards).unwrap();

    // Convert back to normal shard arrangement
    let result: Vec<_> = shards.into_iter().filter_map(|x| x).collect();

    assert!(r.verify(&result).unwrap());
    assert_eq!(master_copy, result);
}

Benchmark it yourself

You can test performance under different configurations quickly(e.g. data parity shards ratio, parallel parameters) by cloning this repo: https://github.com/darrenldl/rse-benchmark

rse-benchmark contains a copy of this library(usually a fully functional dev version), so you only need to adjust main.rs then do cargo run --release to start the benchmark.

Performance

Version 1.X.X, 2.0.0 do not utilise SIMD.

Version 2.1.0 onward uses Nicolas's C files for SIMD operations.

Machine: laptop with Intel(R) Core(TM) i5-3337U CPU @ 1.80GHz (max 2.70GHz) 2 Cores 4 Threads

Below shows the result of one of the test configurations, other configurations show similar results in terms of ratio.

Configuration Klaus Post's >= 2.1.0 2.0.X 1.X.X
10x2x1M ~7800MB/s ~4500MB/s ~1000MB/s ~240MB/s

Changelog

Changelog

Contributions

Contributions are welcome. Note that by submitting contributions, you agree to license your work under the same license used by this project (MIT).

Credits

Many thanks to the following people for testing and benchmarking on various platforms

Polished version of the results will be published later.

Notes

Code quality review

If you'd like to evaluate the quality of this library, you may find audit comments helpful.

Simply search for "AUDIT" to see the dev notes that are aimed at facilitating code reviews.

Implementation notes

The 1.X.X implementation mostly copies BackBlaze's Java implementation.

2.0.0 onward mostly copies Klaus Post's Go implementation, and copies C files from Nicolas Trangez's Haskell implementation.

The test suite for all versions copies Klaus Post's Go implementation as basis.

License

BackBlaze's Java Reed-Solomon implementation

The tables and main functions of build.rs are translated from BackBlaze Java Implementation, and are under the same MIT License as used by the BackBlaze project

The source code copied directly from BackBlaze's project repo are under the MIT License as used by the project, the files are in BackBlaze_JavaReedSolomon

Klaus Post's Go Reed-Solomon implementation

The tables and main functions of src/* are translated from Klaus Post's Go Implementation, and are under the same MIT License as used by Klaus Post's project

The source code copied directly from Klaus Post's project repo are under the MIT License as used by the project, the files are in KlausPost_reedsolomon

Nicolas Trangez's Haskell Reed-Solomon implementation

The C files for SIMD operations are copied (with no/minor modifications) from Nicolas Trangez's Haskell implementation, and are under the same MIT License as used by NicolasT's project

The source code copied directly from Nicolas Trangez's project repo are under the MIT License as used by the project, the files are in NicolasT_reedsolomon

TL;DR

All files are released under the MIT License