LumeWeb
/
blake3
Archived
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
A pure-Go implementation of the BLAKE3 cryptographic hash function
This repository has been archived on 2023-05-01. You can view files and clone it, but cannot push or open issues or pull requests.
41 Commits 1 Branch 0 Tags 115 KiB
Assembly 76.6%
Go 23.4%
Go to file
Luke Champine 7afca5966e
clarify 'size' parameter in New docstring 		2022-03-21 13:09:24 -04:00
avo upgrade to avo@v0.4.0 (AVX-512 support, woo!) 2021-11-12 23:09:50 -05:00
testdata add AVX512 implementations 2020-08-09 18:14:48 -04:00
LICENSE initial commit 2020-01-09 15:10:01 -05:00
README.md fix typo 2020-08-10 18:11:31 -04:00
blake3.go clarify 'size' parameter in New docstring 2022-03-21 13:09:24 -04:00
blake3_amd64.s upgrade to avo@v0.4.0 (AVX-512 support, woo!) 2021-11-12 23:09:50 -05:00
blake3_test.go add AVX512 implementations 2020-08-09 18:14:48 -04:00
compress_amd64.go add AVX512 implementations 2020-08-09 18:14:48 -04:00
compress_generic.go add AVX512 implementations 2020-08-09 18:14:48 -04:00
compress_noasm.go add AVX512 implementations 2020-08-09 18:14:48 -04:00
cpu.go upgrade to cpuid/v2 2021-09-06 12:38:15 -04:00
cpu_darwin.go upgrade to cpuid/v2 2021-09-06 12:38:15 -04:00
go.mod upgrade to cpuid/v2 2021-09-06 12:38:15 -04:00
go.sum upgrade to cpuid/v2 2021-09-06 12:38:15 -04:00

README.md

blake3

GoDoc Go Report Card

go get lukechampine.com/blake3

blake3 implements the BLAKE3 cryptographic hash function. This implementation aims to be performant without sacrificing (too much) readability, in the hopes of eventually landing in x/crypto.

In addition to the pure-Go implementation, this package also contains AVX-512 and AVX2 routines (generated by avo) that greatly increase performance for large inputs and outputs.

Contributions are greatly appreciated. All contributors are eligible to receive an Urbit planet.

Benchmarks

Tested on a 2020 MacBook Air (i5-7600K @ 3.80GHz). Benchmarks will improve as soon as I get access to a beefier AVX-512 machine. 😉

AVX-512

BenchmarkSum256/64           120 ns/op       533.00 MB/s
BenchmarkSum256/1024        2229 ns/op       459.36 MB/s
BenchmarkSum256/65536      16245 ns/op      4034.11 MB/s
BenchmarkWrite               245 ns/op      4177.38 MB/s
BenchmarkXOF                 246 ns/op      4159.30 MB/s

AVX2

BenchmarkSum256/64           120 ns/op       533.00 MB/s
BenchmarkSum256/1024        2229 ns/op       459.36 MB/s
BenchmarkSum256/65536      31137 ns/op      2104.76 MB/s
BenchmarkWrite               487 ns/op      2103.12 MB/s
BenchmarkXOF                 329 ns/op      3111.27 MB/s

Pure Go

BenchmarkSum256/64           120 ns/op       533.00 MB/s
BenchmarkSum256/1024        2229 ns/op       459.36 MB/s
BenchmarkSum256/65536     133505 ns/op       490.89 MB/s
BenchmarkWrite              2022 ns/op       506.36 MB/s
BenchmarkXOF                1914 ns/op       534.98 MB/s

Shortcomings

There is no assembly routine for single-block compressions. This is most noticeable for ~1KB inputs.

Each assembly routine inlines all 7 rounds, causing thousands of lines of duplicated code. Ideally the routines could be merged such that only a single routine is generated for AVX-512 and AVX2, without sacrificing too much performance.