ladybird/Libraries/LibCompress/Lzma2.cpp

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/*
* Copyright (c) 2023, Tim Schumacher <timschumi@gmx.de>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ConstrainedStream.h>
#include <AK/Endian.h>
#include <LibCompress/Lzma2.h>
namespace Compress {
ErrorOr<NonnullOwnPtr<Lzma2Decompressor>> Lzma2Decompressor::create_from_raw_stream(MaybeOwned<Stream> stream, u32 dictionary_size)
{
auto dictionary = TRY(CircularBuffer::create_empty(dictionary_size));
auto decompressor = TRY(adopt_nonnull_own_or_enomem(new (nothrow) Lzma2Decompressor(move(stream), move(dictionary))));
return decompressor;
}
Lzma2Decompressor::Lzma2Decompressor(MaybeOwned<Stream> stream, CircularBuffer dictionary)
: m_stream(move(stream))
, m_dictionary(move(dictionary))
{
}
ErrorOr<Bytes> Lzma2Decompressor::read_some(Bytes bytes)
{
if (!m_current_chunk_stream.has_value() || (*m_current_chunk_stream)->is_eof()) {
// "LZMA2 data consists of packets starting with a control byte, with the following values:"
auto const control_byte = TRY(m_stream->read_value<u8>());
if (control_byte == 0) {
// " - 0 denotes the end of the file"
m_found_end_of_stream = true;
return bytes.trim(0);
}
if (control_byte == 1) {
// " - 1 denotes a dictionary reset followed by an uncompressed chunk"
m_dictionary.clear();
m_dictionary_initialized = true;
// The XZ utils test files (bad-1-lzma2-8.xz) check that the decompressor
// requires a new set of properties after a dictionary reset.
m_last_lzma_options = {};
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}
if (control_byte == 1 || control_byte == 2) {
// " - 2 denotes an uncompressed chunk without a dictionary reset"
if (!m_dictionary_initialized)
return Error::from_string_literal("LZMA2 stream uses dictionary without ever resetting it");
// "Uncompressed chunks consist of:
// - A 16-bit big-endian value encoding the data size minus one
// - The data to be copied verbatim into the dictionary and the output"
u32 data_size = TRY(m_stream->read_value<BigEndian<u16>>()) + 1;
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m_in_uncompressed_chunk = true;
m_current_chunk_stream = TRY(try_make<ConstrainedStream>(MaybeOwned { *m_stream }, data_size));
}
if (3 <= control_byte && control_byte <= 0x7f) {
// " - 3-0x7f are invalid values"
return Error::from_string_literal("Invalid control byte in LZMA2 stream");
}
if (0x80 <= control_byte) {
// " - 0x80-0xff denotes an LZMA chunk, where the lowest 5 bits are used as bit 16-20
// of the uncompressed size minus one, and bit 5-6 indicates what should be reset."
auto encoded_uncompressed_size_high = control_byte & 0b11111;
auto reset_indicator = (control_byte & 0b1100000) >> 5;
// "LZMA chunks consist of:
// - A 16-bit big-endian value encoding the low 16-bits of the uncompressed size minus one
// - A 16-bit big-endian value encoding the compressed size minus one
// - A properties/lclppb byte if bit 6 in the control byte is set
// - The LZMA compressed data, starting with the 5 bytes (of which the first is ignored)
// used to initialize the range coder (which are included in the compressed size)"
u16 encoded_uncompressed_size_low = TRY(m_stream->read_value<BigEndian<u16>>());
u16 encoded_compressed_size = TRY(m_stream->read_value<BigEndian<u16>>());
u64 uncompressed_size = ((encoded_uncompressed_size_high << 16) | encoded_uncompressed_size_low) + 1;
u32 compressed_size = encoded_compressed_size + 1;
m_current_chunk_stream = TRY(try_make<ConstrainedStream>(MaybeOwned { *m_stream }, compressed_size));
// "Bits 5-6 for LZMA chunks can be:"
switch (reset_indicator) {
case 3: {
// " - 3: state reset, properties reset using properties byte, dictionary reset"
m_dictionary.clear();
m_dictionary_initialized = true;
[[fallthrough]];
}
case 2: {
// " - 2: state reset, properties reset using properties byte"
// Update the stored LZMA options with the new settings, the stream will be recreated later.
auto encoded_properties = TRY(m_stream->read_value<u8>());
auto properties = TRY(LzmaHeader::decode_model_properties(encoded_properties));
auto dictionary_size = m_dictionary.capacity();
VERIFY(dictionary_size <= NumericLimits<u32>::max());
m_last_lzma_options = LzmaDecompressorOptions {
.literal_context_bits = properties.literal_context_bits,
.literal_position_bits = properties.literal_position_bits,
.position_bits = properties.position_bits,
.dictionary_size = static_cast<u32>(dictionary_size),
.uncompressed_size = uncompressed_size,
// Note: This is not specified anywhere. However, it is apparently tested by bad-1-lzma2-7.xz from the XZ utils test files.
.reject_end_of_stream_marker = true,
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};
[[fallthrough]];
}
case 1: {
// " - 1: state reset"
if (!m_last_lzma_options.has_value())
return Error::from_string_literal("LZMA2 stream contains LZMA chunk without settings");
if (!m_dictionary_initialized)
return Error::from_string_literal("LZMA2 stream uses dictionary without ever resetting it");
m_last_lzma_options->uncompressed_size = uncompressed_size;
m_last_lzma_stream = TRY(LzmaDecompressor::create_from_raw_stream(m_current_chunk_stream.release_value(), *m_last_lzma_options, MaybeOwned<CircularBuffer> { m_dictionary }));
break;
}
case 0: {
// " - 0: nothing reset"
if (!m_last_lzma_stream.has_value())
return Error::from_string_literal("LZMA2 stream contains no-reset LZMA chunk without previous state");
if (!m_dictionary_initialized)
return Error::from_string_literal("LZMA2 stream uses dictionary without ever resetting it");
TRY((*m_last_lzma_stream)->append_input_stream(m_current_chunk_stream.release_value(), uncompressed_size));
break;
}
}
m_in_uncompressed_chunk = false;
m_current_chunk_stream = MaybeOwned<Stream> { **m_last_lzma_stream };
}
}
auto result = TRY((*m_current_chunk_stream)->read_some(bytes));
// For an uncompressed block we are reading directly from the input stream,
// so we need to capture the 'uncompressed' data into the dictionary manually.
// Since we only care about having the correct value in the seekback buffer,
// we can also immediately discard the written data and only ever have to write
// the last <dictionary size> bytes into it.
if (m_in_uncompressed_chunk) {
VERIFY(m_dictionary.used_space() == 0);
auto relevant_data = result;
if (relevant_data.size() > m_dictionary.capacity())
relevant_data = relevant_data.slice(relevant_data.size() - m_dictionary.capacity(), relevant_data.size());
auto written_bytes = m_dictionary.write(relevant_data);
VERIFY(written_bytes == relevant_data.size());
MUST(m_dictionary.discard(written_bytes));
}
return result;
}
ErrorOr<size_t> Lzma2Decompressor::write_some(ReadonlyBytes)
{
return Error::from_errno(EBADF);
}
bool Lzma2Decompressor::is_eof() const
{
return m_found_end_of_stream;
}
bool Lzma2Decompressor::is_open() const
{
return true;
}
void Lzma2Decompressor::close()
{
}
}