Philipp Krüger d24f960c53 feat: implement `PublicDirectory` conflict reconciliation (#426) пре 7 месеци
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proptest-regressions 93eedd4363 feat: Implement `wnfs-unixfs-file` crate for encoding big byte arrays in IPLD (#375) пре 5 месеци
src d24f960c53 feat: implement `PublicDirectory` conflict reconciliation (#426) пре 5 месеци
CHANGELOG.md 15fb4c6846 chore: Release version 0.2.0 (#403) пре 5 месеци
Cargo.toml 15fb4c6846 chore: Release version 0.2.0 (#403) пре 5 месеци
README.md 93eedd4363 feat: Implement `wnfs-unixfs-file` crate for encoding big byte arrays in IPLD (#375) пре 5 месеци

README.md

WNFS Logo

wnfs-unixfs-file

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:warning: Work in progress :warning:

##

This Rust crate provides an implementation of UnixFs files. WNFS uses the UnixFs file encoding purely to chunk big byte arrays into multiple blocks and produce a single CID for them to link to from WNFS structures.

This crate is a fork from beetle (previously "iroh")'s iroh-unixfs crate.

Major changes relative to that implementation include:

  • Removed prost code generation, instead it's some hard-coded structs with prost annotations
  • Removed support for any UnixFs structures other than files (no directories, directory shards or symlinks)
  • Removed parallelization for hashing to make the crate async runtime-independent (so it can be used in wasm with wasm-bindgen-futures!)
  • Doesn't hard-code use of SHA-256 anymore
  • Integrated with the wnfs-common BlockStore trait

Usage

use wnfs_unixfs_file::builder::FileBuilder;
use wnfs_common::MemoryBlockStore;
use tokio::io::AsyncReadExt;

// Where data is stored
let store = &MemoryBlockStore::new();

// Encoding byte arrays, getting a CID
let data = vec![1u8; 1_000_000]; // 1MiB of ones
let root_cid = FileBuilder::new()
    .content_bytes(data)
    .build()?
    .store(store)
    .await?;

// Taking a CID, reading back a byte array:
let file = UnixFsFile::load(&root_cid, store).await?;
println!("filesize: {}", file.filesize());
let mut buffer = Vec::new();
let mut reader = file.into_content_reader(store, None)?;
reader.read_to_end(&mut buffer).await?;
// buffer now has 1 million ones

// You can also seek
use tokio::io::AsyncSeekExt;
use std::io::SeekFrom;
let mut reader = file.into_content_reader(store, None)?;
reader.seek(SeekFrom::Start(10_000)).await?;
let mut slice = [0u8; 10_000];
reader.read_exact(&mut slice).await?;
// slice now has 10_000 ones