brotli 2.2.1

A brotli compressor and decompressor that with an interface avoiding the rust stdlib. This makes it suitable for embedded devices and kernels. It is designed with a pluggable allocator so that the standard lib's allocator may be employed. The default build also includes a stdlib allocator and stream interface. Disable this with --features=no-stdlib. All included code is safe.
Documentation

rust-brotli

crates.io Build Status

Project Requirements

Direct no-stdlib port of the C brotli compressor to Rust

no dependency on the Rust stdlib: this library would be ideal for decompressing within a rust kernel among other things.

This is useful to see how C and Rust compare in an apples-to-apples comparison where the same algorithms and data structures and optimizations are employed.

Compression Usage

Rust brotli currently supports compression levels 0 - 11 They should be bitwise identical to the brotli C compression engine at compression levels 0-9 Recommended lg_window_size is between 20 and 22

With the io::Read abstraction

let mut input = brotli::CompressorReader::new(&mut io::stdin(), 4096 /* buffer size */,
                                              quality as u32, lg_window_size as u32);

then you can simply read input as you would any other io::Read class

With the io::Write abstraction

let mut writer = brotli::Compressor::new(&mut io::stdout(), 4096 /* buffer size */,
                                         quality as u32, lg_window_size as u32);

With the Stream Copy abstraction

match brotli::BrotliCompress(&mut io::stdin(), &mut io::stdout(), quality as u32, lg_window_size as u32) {
    Ok(_) => {},
    Err(e) => panic!("Error {:?}", e),
}

Decompression Usage

With the io::Read abstraction

let mut input = brotli::Decompressor::new(&mut io::stdin(), 4096 /* buffer size */);

then you can simply read input as you would any other io::Read class

With the io::Write abstraction

let mut writer = brotli::DecompressorWriter::new(&mut io::stdout(), 4096 /* buffer size */);

With the Stream Copy abstraction

match brotli::BrotliDecompress(&mut io::stdin(), &mut io::stdout()) {
    Ok(_) => {},
    Err(e) => panic!("Error {:?}", e),
}

With manual memory management

There are 3 steps to using brotli without stdlib

  1. setup the memory manager
  2. setup the BrotliState
  3. in a loop, call BrotliDecompressStream

in Detail

// at global scope declare a MemPool type -- in this case we'll choose the heap to
// avoid unsafe code, and avoid restrictions of the stack size

declare_stack_allocator_struct!(MemPool, heap);

// at local scope, make a heap allocated buffers to hold uint8's uint32's and huffman codes
let mut u8_buffer = define_allocator_memory_pool!(4096, u8, [0; 32 * 1024 * 1024], heap);
let mut u32_buffer = define_allocator_memory_pool!(4096, u32, [0; 1024 * 1024], heap);
let mut hc_buffer = define_allocator_memory_pool!(4096, HuffmanCode, [0; 4 * 1024 * 1024], heap);
let heap_u8_allocator = HeapPrealloc::<u8>::new_allocator(4096, &mut u8_buffer, bzero);
let heap_u32_allocator = HeapPrealloc::<u32>::new_allocator(4096, &mut u32_buffer, bzero);
let heap_hc_allocator = HeapPrealloc::<HuffmanCode>::new_allocator(4096, &mut hc_buffer, bzero);

// At this point no more syscalls are going to be needed since everything can come from the allocators.

// Feel free to activate SECCOMP jailing or other mechanisms to secure your application if you wish.

// Now it's possible to setup the decompressor state
let mut brotli_state = BrotliState::new(heap_u8_allocator, heap_u32_allocator, heap_hc_allocator);

// at this point the decompressor simply needs an input and output buffer and the ability to track
// the available data left in each buffer
loop {
    result = BrotliDecompressStream(&mut available_in, &mut input_offset, &input.slice(),
                                    &mut available_out, &mut output_offset, &mut output.slice_mut(),
                                    &mut written, &mut brotli_state);

    // just end the decompression if result is BrotliResult::ResultSuccess or BrotliResult::ResultFailure
}

This interface is the same interface that the C brotli decompressor uses

Also feel free to use custom allocators that invoke Box directly. This example illustrates a mechanism to avoid subsequent syscalls after the initial allocation