Crates.io | brotli-decompressor |
lib.rs | brotli-decompressor |
version | 4.0.1 |
source | src |
created_at | 2017-04-25 08:09:43.737166 |
updated_at | 2024-05-27 07:22:00.458275 |
description | A brotli 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. Alternatively, --features=unsafe turns off array bounds checks and memory initialization but provides a safe interface for the caller. Without adding the --features=unsafe argument, all included code is safe. For compression in addition to this library, download https://github.com/dropbox/rust-brotli |
homepage | https://github.com/dropbox/rust-brotli-decompressor |
repository | https://github.com/dropbox/rust-brotli-decompressor |
max_upload_size | |
id | 11930 |
size | 2,020,669 |
Direct no-stdlib port of the C brotli decompressor to Rust if --no-default-features is passed into the build
no dependency on the Rust stdlib: this library would be ideal for decompressing within a rust kernel among other things.
This will be 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.
The current expected performance losses come from
the system also enables all syscalls to be "frontloaded" in the initial generation of a memory pool for the allocator. Afterwards, SECCOMP can be activated or other mechanisms can be used to secure the application, if desired
This library has FFI exports which comply with the original C interfaces. To build them, enter the c directory and just type make there. That will build a small example program and the cdylib with the appropriate ffi in place to link against
the example, called c/main.c shows how to decompress a program using the streaming interface and the nonstreaming interface.
If a nostdlib version is desired, then an unstable rust must be used (to enable the custom panic handler) and then the BrotliDecoderDecompress function is deactivated since that has no facilities for specifying a custom malloc
a customized malloc must be used if a nostdlib build is chosen and additionally the no-stdlib-ffi-binding cargo feature must be set eg
cargo build --features='no-stdlib no-stdlib-ffi-binding' --release
let mut input = brotli_decompressor::Decompressor::new(&mut io::stdin(), 4096 /* buffer size */);
then you can simply read input as you would any other io::Read class
match brotli_decompressor::BrotliDecompress(&mut io::stdin(), &mut io::stdout(), 65536 /* buffer size */) {
Ok(_) => {},
Err(e) => panic!("Error {:?}", e),
}
There are 3 steps to using brotli without stdlib
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