Crates.io | checksum-tapestry |
lib.rs | checksum-tapestry |
version | 0.4.1 |
source | src |
created_at | 2022-10-24 22:32:46.926421 |
updated_at | 2024-11-06 17:23:02.763025 |
description | Collection of checksum algorithms and examples |
homepage | https://github.com/jgerrish/checksum-tapestry |
repository | https://github.com/jgerrish/checksum-tapestry |
max_upload_size | |
id | 696332 |
size | 75,580 |
This is a crate containing a selection of checksum algorithms. It includes CRC, Fletcher16, and Adler32,
It includes tests for all algorithms. The tests come from various sources.
For the CRC code, the crc-catalog crate provides a catalog of common CRC parameters. The parameter model this crate uses is described in:
Williams, Ross N. "A Painless Guide to CRC Error Detection Algorithms", Rocksoft Pty Ltd., 1993, crc_ross.pdf, http://ross.net/crc/download/crc_v3.txt
The crc crate by Rui Hu and Akhil Velagapudi also provided code patterns that were helpful in building this library.
This document also provides a good description of what the parameters mean.
For the Adler32 code, the Go hash package provided test cases.
Several Wikipedia pages on Computation of cyclic redundancy checks and Adler and Fletcher checksums were also helpful.
Test cases include various values from common CRC polynomials. This includes the default crc32 used in zlib.
The crate provides documentation and examples showing how to use the different checksum algorithms. All the checksum implementations use a common trait called Checksum that provides two functions: compute and update. compute takes a u8 slice and computes a checksum over the entire slice. update allows rolling updates based on single u8 values.
These algorithms are not safe against side-channel attacks.
These checksum implementations have not been audited by a third-party for use in safety critical applications. While they provide some test coverage, the test sources have not been checked themselves.
This crate can provide a good basis to build a test-driven checksum library, but it should not be considered authoritative.
This crate also provides some examples showing how to use the checksums and different parameters of each.
A visualization of the weaknesses of Adler-32 on short messages:
$ cargo run --example adler32_output_space_use
crc_v3.txt Ross Williams CRC Guide is the authoritative source for a lot of current CRC library APIs. It describes which parameters are included and the historical reasons they are needed.
komrad36 The README.md file in this repository provides an easy to understand overview of Cyclic Redundancy Checks. It provides smaller, easier to work through examples than some of the other tutorials and references online.
sarwate Dilip Sarwate was one of the first papers to describe methods for using table to pre-compute Cyclic Redundancy codes.
https://datatracker.ietf.org/doc/rfc3385/ Provides discussion of CRC selection in the context of error models. Outlines reasons to select CRC32C for iSCSI.