#[cfg(feature="std")]
use std::io::{self, Error, ErrorKind, Read};
#[cfg(feature="std")]
pub use alloc_stdlib::StandardAlloc;
#[cfg(all(feature="unsafe",feature="std"))]
pub use alloc_stdlib::HeapAllocUninitialized;
pub use huffman::{HuffmanCode, HuffmanTreeGroup};
pub use state::BrotliState;
pub use io_wrappers::{CustomRead, CustomWrite};
#[cfg(feature="std")]
pub use io_wrappers::{IntoIoReader, IoReaderWrapper, IoWriterWrapper};
pub use super::decode::{BrotliDecompressStream, BrotliResult};
pub use alloc::{AllocatedStackMemory, Allocator, SliceWrapper, SliceWrapperMut, StackAllocator};
#[cfg(feature="std")]
pub struct DecompressorCustomAlloc<R: Read,
BufferType : SliceWrapperMut<u8>,
AllocU8 : Allocator<u8>,
AllocU32 : Allocator<u32>,
AllocHC : Allocator<HuffmanCode> >(DecompressorCustomIo<io::Error,
IntoIoReader<R>,
BufferType,
AllocU8, AllocU32, AllocHC>);
#[cfg(feature="std")]
impl<R: Read,
BufferType : SliceWrapperMut<u8>,
AllocU8,
AllocU32,
AllocHC> DecompressorCustomAlloc<R, BufferType, AllocU8, AllocU32, AllocHC>
where AllocU8 : Allocator<u8>, AllocU32 : Allocator<u32>, AllocHC : Allocator<HuffmanCode>
{
pub fn new(r: R, buffer : BufferType,
alloc_u8 : AllocU8, alloc_u32 : AllocU32, alloc_hc : AllocHC) -> Self {
DecompressorCustomAlloc::<R, BufferType, AllocU8, AllocU32, AllocHC>(
DecompressorCustomIo::<Error,
IntoIoReader<R>,
BufferType,
AllocU8, AllocU32, AllocHC>::new(IntoIoReader::<R>(r),
buffer,
alloc_u8, alloc_u32, alloc_hc,
Error::new(ErrorKind::InvalidData,
"Invalid Data")))
}
pub fn new_with_custom_dictionary(r: R, buffer : BufferType,
alloc_u8 : AllocU8, alloc_u32 : AllocU32, alloc_hc : AllocHC,
dict: AllocU8::AllocatedMemory) -> Self {
DecompressorCustomAlloc::<R, BufferType, AllocU8, AllocU32, AllocHC>(
DecompressorCustomIo::<Error,
IntoIoReader<R>,
BufferType,
AllocU8, AllocU32, AllocHC>::new_with_custom_dictionary(IntoIoReader::<R>(r),
buffer,
alloc_u8, alloc_u32, alloc_hc,
dict,
Error::new(ErrorKind::InvalidData,
"Invalid Data")))
}
pub fn get_ref(&self) -> &R {
&self.0.get_ref().0
}
pub fn get_mut(&mut self) -> &mut R {
&mut self.0.get_mut().0
}
pub fn into_inner(self) -> R {
self.0.into_inner().0
}
}
#[cfg(feature="std")]
impl<R: Read,
BufferType : SliceWrapperMut<u8>,
AllocU8 : Allocator<u8>,
AllocU32 : Allocator<u32>,
AllocHC : Allocator<HuffmanCode> > Read for DecompressorCustomAlloc<R,
BufferType,
AllocU8,
AllocU32,
AllocHC> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, Error> {
self.0.read(buf)
}
}
#[cfg(not(any(feature="unsafe", not(feature="std"))))]
pub struct Decompressor<R: Read>(DecompressorCustomAlloc<R,
<StandardAlloc
as Allocator<u8>>::AllocatedMemory,
StandardAlloc,
StandardAlloc,
StandardAlloc>);
#[cfg(not(any(feature="unsafe", not(feature="std"))))]
impl<R: Read> Decompressor<R> {
pub fn new(r: R, buffer_size: usize) -> Self {
let dict = <StandardAlloc as Allocator<u8>>::AllocatedMemory::default();
Self::new_with_custom_dict(r, buffer_size, dict)
}
pub fn new_with_custom_dict(r: R, buffer_size: usize, dict: <StandardAlloc as Allocator<u8>>::AllocatedMemory) -> Self {
let mut alloc = StandardAlloc::default();
let buffer = <StandardAlloc as Allocator<u8>>::alloc_cell(&mut alloc, if buffer_size == 0 {4096} else {buffer_size});
Decompressor::<R>(DecompressorCustomAlloc::<R,
<StandardAlloc
as Allocator<u8>>::AllocatedMemory,
StandardAlloc,
StandardAlloc,
StandardAlloc>::new_with_custom_dictionary(r,
buffer,
alloc,
StandardAlloc::default(),
StandardAlloc::default(),
dict))
}
pub fn get_ref(&self) -> &R {
&self.0.get_ref()
}
pub fn get_mut(&mut self) -> &mut R {
&mut ((self.0).0).get_mut().0
}
pub fn into_inner(self) -> R {
self.0.into_inner()
}
}
#[cfg(all(feature="unsafe", feature="std"))]
pub struct Decompressor<R: Read>(DecompressorCustomAlloc<R,
<HeapAllocUninitialized<u8>
as Allocator<u8>>::AllocatedMemory,
HeapAllocUninitialized<u8>,
HeapAllocUninitialized<u32>,
HeapAllocUninitialized<HuffmanCode> >);
#[cfg(all(feature="unsafe", feature="std"))]
impl<R: Read> Decompressor<R> {
pub fn new(r: R, buffer_size: usize) -> Self {
let dict = <HeapAllocUninitialized<u8> as Allocator<u8>>::AllocatedMemory::default();
Self::new_with_custom_dictionary(r, buffer_size, dict)
}
pub fn new_with_custom_dictionary(r: R, buffer_size: usize, dict: <HeapAllocUninitialized<u8>
as Allocator<u8>>::AllocatedMemory) -> Self {
let mut alloc_u8 = unsafe { HeapAllocUninitialized::<u8>::new() };
let buffer = alloc_u8.alloc_cell(if buffer_size == 0 {4096} else {buffer_size});
let alloc_u32 = unsafe { HeapAllocUninitialized::<u32>::new() };
let alloc_hc = unsafe { HeapAllocUninitialized::<HuffmanCode>::new() };
Decompressor::<R>(DecompressorCustomAlloc::<R,
<HeapAllocUninitialized<u8>
as Allocator<u8>>::AllocatedMemory,
HeapAllocUninitialized<u8>,
HeapAllocUninitialized<u32>,
HeapAllocUninitialized<HuffmanCode> >
::new_with_custom_dictionary(r, buffer, alloc_u8, alloc_u32, alloc_hc, dict))
}
pub fn get_ref(&self) -> &R {
self.0.get_ref()
}
pub fn get_mut(&mut self) -> &mut R {
&mut (self.0).0.get_mut().0
}
pub fn into_inner(self) -> R {
self.0.into_inner()
}
}
#[cfg(feature="std")]
impl<R: Read> Read for Decompressor<R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, Error> {
self.0.read(buf)
}
}
pub struct DecompressorCustomIo<ErrType,
R: CustomRead<ErrType>,
BufferType: SliceWrapperMut<u8>,
AllocU8: Allocator<u8>,
AllocU32: Allocator<u32>,
AllocHC: Allocator<HuffmanCode>>
{
input_buffer: BufferType,
total_out: usize,
input_offset: usize,
input_len: usize,
input: R,
error_if_invalid_data: Option<ErrType>,
state: BrotliState<AllocU8, AllocU32, AllocHC>,
}
impl<ErrType,
R: CustomRead<ErrType>,
BufferType : SliceWrapperMut<u8>,
AllocU8,
AllocU32,
AllocHC> DecompressorCustomIo<ErrType, R, BufferType, AllocU8, AllocU32, AllocHC>
where AllocU8 : Allocator<u8>, AllocU32 : Allocator<u32>, AllocHC : Allocator<HuffmanCode>
{
pub fn new(r: R, buffer : BufferType,
alloc_u8 : AllocU8, alloc_u32 : AllocU32, alloc_hc : AllocHC,
invalid_data_error_type : ErrType) -> Self {
let dict = AllocU8::AllocatedMemory::default();
Self::new_with_custom_dictionary(r, buffer, alloc_u8, alloc_u32, alloc_hc, dict, invalid_data_error_type)
}
pub fn new_with_custom_dictionary(r: R, buffer : BufferType,
alloc_u8 : AllocU8, alloc_u32 : AllocU32, alloc_hc : AllocHC,
dict: AllocU8::AllocatedMemory,
invalid_data_error_type : ErrType) -> Self {
DecompressorCustomIo::<ErrType, R, BufferType, AllocU8, AllocU32, AllocHC>{
input_buffer : buffer,
total_out : 0,
input_offset : 0,
input_len : 0,
input: r,
state : BrotliState::new_with_custom_dictionary(alloc_u8,
alloc_u32,
alloc_hc,
dict),
error_if_invalid_data : Some(invalid_data_error_type),
}
}
pub fn get_ref(&self) -> &R {
&self.input
}
pub fn get_mut(&mut self) -> &mut R {
&mut self.input
}
pub fn into_inner(self) -> R {
match self {
DecompressorCustomIo {
input_buffer: _ib,
total_out: _to,
state: _state,
input_offset: _io,
input_len: _il,
error_if_invalid_data:_eiid,
input,
} =>{
input
}
}
}
pub fn copy_to_front(&mut self) {
let avail_in = self.input_len - self.input_offset;
if self.input_offset == self.input_buffer.slice_mut().len() {
self.input_offset = 0;
self.input_len = 0;
} else if self.input_offset + 256 > self.input_buffer.slice_mut().len() && avail_in < self.input_offset {
let (first, second) = self.input_buffer.slice_mut().split_at_mut(self.input_offset);
self.input_len -= self.input_offset;
first[0..avail_in].clone_from_slice(&second[0..avail_in]);
self.input_offset = 0;
}
}
}
impl<ErrType,
R: CustomRead<ErrType>,
BufferType : SliceWrapperMut<u8>,
AllocU8 : Allocator<u8>,
AllocU32 : Allocator<u32>,
AllocHC : Allocator<HuffmanCode> > CustomRead<ErrType> for DecompressorCustomIo<ErrType,
R,
BufferType,
AllocU8,
AllocU32,
AllocHC> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, ErrType > {
let mut output_offset : usize = 0;
let mut avail_out = buf.len() - output_offset;
let mut avail_in = self.input_len - self.input_offset;
while avail_out == buf.len() {
match BrotliDecompressStream(&mut avail_in,
&mut self.input_offset,
&self.input_buffer.slice_mut()[..],
&mut avail_out,
&mut output_offset,
buf,
&mut self.total_out,
&mut self.state) {
BrotliResult::NeedsMoreInput => {
self.copy_to_front();
if output_offset != 0 {
return Ok(output_offset);
}
match self.input.read(&mut self.input_buffer.slice_mut()[self.input_len..]) {
Err(e) => {
return Err(e);
},
Ok(size) => if size == 0 {
return self.error_if_invalid_data.take().map(|e| Err(e)).unwrap_or(Ok(0));
}else {
self.input_len += size;
avail_in = self.input_len - self.input_offset;
},
}
},
BrotliResult::NeedsMoreOutput => {
break;
},
BrotliResult::ResultSuccess => {
if self.input_len != self.input_offset {
return self.error_if_invalid_data.take().map(|e| Err(e)).unwrap_or(Ok(output_offset));
}
return Ok(output_offset);
}
BrotliResult::ResultFailure => return self.error_if_invalid_data.take().map(|e| Err(e)).unwrap_or(Ok(0)),
}
}
Ok(output_offset)
}
}
#[cfg(feature="std")]
#[test]
fn test_no_vanishing_bytes() {
use std::string::ToString;
let compressed_with_extra = b"\x8f\x02\x80\x68\x65\x6c\x6c\x6f\x0a\x03\x67\x6f\x6f\x64\x62\x79\x65\x0a";
let cursor = std::io::Cursor::new(compressed_with_extra);
let mut reader = super::Decompressor::new(cursor, 8000);
assert_eq!(std::io::read_to_string(&mut reader).unwrap_err().kind(), io::ErrorKind::InvalidData);
}