Crates.io | fastcdc |
lib.rs | fastcdc |
version | 3.1.0 |
source | src |
created_at | 2019-02-06 04:49:54.818052 |
updated_at | 2023-07-15 22:26:48.094456 |
description | FastCDC (content defined chunking) in pure Rust. |
homepage | |
repository | https://github.com/nlfiedler/fastcdc-rs |
max_upload_size | |
id | 113024 |
size | 162,604 |
This crate contains multiple implementations of the "FastCDC" content defined chunking algorithm originally described in 2016, and later enhanced in 2020, by Wen Xia, et al. A critical aspect of its behavior is that it returns exactly the same results for the same input. To learn more about content defined chunking and its applications, see the reference material linked below.
$ cargo clean
$ cargo build
$ cargo test
Examples can be found in the examples
directory of the source repository, which demonstrate finding chunk boundaries in a given file. There are both streaming and non-streaming examples, where the non-streaming examples use the memmap2
crate to read large files efficiently.
$ cargo run --example v2020 -- --size 16384 test/fixtures/SekienAkashita.jpg
Finished dev [unoptimized + debuginfo] target(s) in 0.03s
Running `target/debug/examples/v2020 --size 16384 test/fixtures/SekienAkashita.jpg`
hash=17968276318003433923 offset=0 size=21325
hash=4098594969649699419 offset=21325 size=17140
hash=15733367461443853673 offset=38465 size=28084
hash=4509236223063678303 offset=66549 size=18217
hash=2504464741100432583 offset=84766 size=24700
An example using FastCDC
to find chunk boundaries in data loaded into memory:
let contents = std::fs::read("test/fixtures/SekienAkashita.jpg").unwrap();
let chunker = fastcdc::v2020::FastCDC::new(&contents, 16384, 32768, 65536);
for chunk in chunker {
println!("offset={} length={}", chunk.offset, chunk.length);
}
Both the v2016
and v2020
modules have a streaming version of FastCDC named StreamCDC
, which takes a Read
and uses a byte vector with capacity equal to the specified maximum chunk size.
let source = std::fs::File::open("test/fixtures/SekienAkashita.jpg").unwrap();
let chunker = fastcdc::v2020::StreamCDC::new(source, 4096, 16384, 65535);
for result in chunker {
let chunk = result.unwrap();
println!("offset={} length={}", chunk.offset, chunk.length);
}
The v2020
module has an async streaming version of FastCDC named AsyncStreamCDC
, which takes an AsyncRead
(both tokio
and futures
are supported via feature flags) and uses a byte vector with capacity equal to the specified maximum chunk size.
let source = std::fs::File::open("test/fixtures/SekienAkashita.jpg").unwrap();
let chunker = fastcdc::v2020::AsyncStreamCDC::new(&source, 4096, 16384, 65535);
let stream = chunker.as_stream();
let chunks = stream.collect::<Vec<_>>().await;
for result in chunks {
let chunk = result.unwrap();
println!("offset={} length={}", chunk.offset, chunk.length);
}
If you were using a release of this crate from before the 3.0 release, you will need to make a small adjustment to continue using the same implementation as before.
Before the 3.0 release:
let chunker = fastcdc::FastCDC::new(&contents, 8192, 16384, 32768);
After the 3.0 release:
let chunker = fastcdc::ronomon::FastCDC::new(&contents, 8192, 16384, 32768);
The cut points produced will be identical to previous releases as the ronomon
implementation was never changed in that manner. Note, however, that the other implementations will produce different results.
The original algorithm from 2016 is described in FastCDC: a Fast and Efficient Content-Defined Chunking Approach for Data Deduplication, while the improved "rolling two bytes each time" version from 2020 is detailed in The Design of Fast Content-Defined Chunking for Data Deduplication Based Storage Systems.