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/*
* Copyright (c) 2020, the SerenityOS developers.
* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteBuffer.h>
#include <AK/Endian.h>
#include <AK/Forward.h>
#include <AK/MaybeOwned.h>
#include <AK/Vector.h>
#include <LibCompress/DeflateTables.h>
#include <LibCore/Stream.h>
namespace Compress {
class CanonicalCode {
public:
CanonicalCode() = default;
ErrorOr<u32> read_symbol(LittleEndianInputBitStream&) const;
ErrorOr<void> write_symbol(LittleEndianOutputBitStream&, u32) const;
static CanonicalCode const& fixed_literal_codes();
static CanonicalCode const& fixed_distance_codes();
static Optional<CanonicalCode> from_bytes(ReadonlyBytes);
private:
// Decompression - indexed by code
Vector<u16> m_symbol_codes;
Vector<u16> m_symbol_values;
// Compression - indexed by symbol
Array<u16, 288> m_bit_codes {}; // deflate uses a maximum of 288 symbols (maximum of 32 for distances)
Array<u16, 288> m_bit_code_lengths {};
};
class DeflateDecompressor final : public AK::Stream {
private:
class CompressedBlock {
public:
CompressedBlock(DeflateDecompressor&, CanonicalCode literal_codes, Optional<CanonicalCode> distance_codes);
ErrorOr<bool> try_read_more();
private:
bool m_eof { false };
DeflateDecompressor& m_decompressor;
CanonicalCode m_literal_codes;
Optional<CanonicalCode> m_distance_codes;
};
class UncompressedBlock {
public:
UncompressedBlock(DeflateDecompressor&, size_t);
ErrorOr<bool> try_read_more();
private:
DeflateDecompressor& m_decompressor;
size_t m_bytes_remaining;
};
enum class State {
Idle,
ReadingCompressedBlock,
ReadingUncompressedBlock
};
public:
friend CompressedBlock;
friend UncompressedBlock;
static ErrorOr<NonnullOwnPtr<DeflateDecompressor>> construct(MaybeOwned<AK::Stream> stream);
~DeflateDecompressor();
virtual ErrorOr<Bytes> read(Bytes) override;
virtual ErrorOr<size_t> write(ReadonlyBytes) override;
virtual bool is_eof() const override;
virtual bool is_open() const override;
virtual void close() override;
static ErrorOr<ByteBuffer> decompress_all(ReadonlyBytes);
private:
DeflateDecompressor(MaybeOwned<AK::Stream> stream, CircularBuffer buffer);
ErrorOr<u32> decode_length(u32);
ErrorOr<u32> decode_distance(u32);
ErrorOr<void> decode_codes(CanonicalCode& literal_code, Optional<CanonicalCode>& distance_code);
bool m_read_final_bock { false };
State m_state { State::Idle };
union {
CompressedBlock m_compressed_block;
UncompressedBlock m_uncompressed_block;
};
MaybeOwned<LittleEndianInputBitStream> m_input_stream;
CircularBuffer m_output_buffer;
};
class DeflateCompressor final : public AK::Stream {
public:
static constexpr size_t block_size = 32 * KiB - 1; // TODO: this can theoretically be increased to 64 KiB - 2
static constexpr size_t window_size = block_size * 2;
static constexpr size_t hash_bits = 15;
static constexpr size_t max_huffman_literals = 288;
static constexpr size_t max_huffman_distances = 32;
static constexpr size_t min_match_length = 4; // matches smaller than these are not worth the size of the back reference
static constexpr size_t max_match_length = 258; // matches longer than these cannot be encoded using huffman codes
static constexpr u16 empty_slot = UINT16_MAX;
struct CompressionConstants {
size_t good_match_length; // Once we find a match of at least this length (a good enough match) we reduce max_chain to lower processing time
size_t max_lazy_length; // If the match is at least this long we dont defer matching to the next byte (which takes time) as its good enough
size_t great_match_length; // Once we find a match of at least this length (a great match) we can just stop searching for longer ones
size_t max_chain; // We only check the actual length of the max_chain closest matches
};
// These constants were shamelessly "borrowed" from zlib
static constexpr CompressionConstants compression_constants[] = {
{ 0, 0, 0, 0 },
{ 4, 4, 8, 4 },
{ 8, 16, 128, 128 },
{ 32, 258, 258, 4096 },
{ max_match_length, max_match_length, max_match_length, 1 << hash_bits } // disable all limits
};
enum class CompressionLevel : int {
STORE = 0,
FAST,
GOOD,
GREAT,
BEST // WARNING: this one can take an unreasonable amount of time!
};
static ErrorOr<NonnullOwnPtr<DeflateCompressor>> construct(MaybeOwned<AK::Stream>, CompressionLevel = CompressionLevel::GOOD);
~DeflateCompressor();
virtual ErrorOr<Bytes> read(Bytes) override;
virtual ErrorOr<size_t> write(ReadonlyBytes) override;
virtual bool is_eof() const override;
virtual bool is_open() const override;
virtual void close() override;
ErrorOr<void> final_flush();
static ErrorOr<ByteBuffer> compress_all(ReadonlyBytes bytes, CompressionLevel = CompressionLevel::GOOD);
private:
DeflateCompressor(NonnullOwnPtr<LittleEndianOutputBitStream>, CompressionLevel = CompressionLevel::GOOD);
Bytes pending_block() { return { m_rolling_window + block_size, block_size }; }
// LZ77 Compression
static u16 hash_sequence(u8 const* bytes);
size_t compare_match_candidate(size_t start, size_t candidate, size_t prev_match_length, size_t max_match_length);
size_t find_back_match(size_t start, u16 hash, size_t previous_match_length, size_t max_match_length, size_t& match_position);
void lz77_compress_block();
// Huffman Coding
struct code_length_symbol {
u8 symbol;
u8 count; // used for special symbols 16-18
};
static u8 distance_to_base(u16 distance);
template<size_t Size>
static void generate_huffman_lengths(Array<u8, Size>& lengths, Array<u16, Size> const& frequencies, size_t max_bit_length, u16 frequency_cap = UINT16_MAX);
size_t huffman_block_length(Array<u8, max_huffman_literals> const& literal_bit_lengths, Array<u8, max_huffman_distances> const& distance_bit_lengths);
ErrorOr<void> write_huffman(CanonicalCode const& literal_code, Optional<CanonicalCode> const& distance_code);
static size_t encode_huffman_lengths(Array<u8, max_huffman_literals + max_huffman_distances> const& lengths, size_t lengths_count, Array<code_length_symbol, max_huffman_literals + max_huffman_distances>& encoded_lengths);
size_t encode_block_lengths(Array<u8, max_huffman_literals> const& literal_bit_lengths, Array<u8, max_huffman_distances> const& distance_bit_lengths, Array<code_length_symbol, max_huffman_literals + max_huffman_distances>& encoded_lengths, size_t& literal_code_count, size_t& distance_code_count);
ErrorOr<void> write_dynamic_huffman(CanonicalCode const& literal_code, size_t literal_code_count, Optional<CanonicalCode> const& distance_code, size_t distance_code_count, Array<u8, 19> const& code_lengths_bit_lengths, size_t code_length_count, Array<code_length_symbol, max_huffman_literals + max_huffman_distances> const& encoded_lengths, size_t encoded_lengths_count);
size_t uncompressed_block_length();
size_t fixed_block_length();
size_t dynamic_block_length(Array<u8, max_huffman_literals> const& literal_bit_lengths, Array<u8, max_huffman_distances> const& distance_bit_lengths, Array<u8, 19> const& code_lengths_bit_lengths, Array<u16, 19> const& code_lengths_frequencies, size_t code_lengths_count);
ErrorOr<void> flush();
bool m_finished { false };
CompressionLevel m_compression_level;
CompressionConstants m_compression_constants;
NonnullOwnPtr<LittleEndianOutputBitStream> m_output_stream;
u8 m_rolling_window[window_size];
size_t m_pending_block_size { 0 };
struct [[gnu::packed]] {
u16 distance; // back reference length
union {
u16 literal; // literal byte or on of block symbol
u16 length; // back reference length (if distance != 0)
};
} m_symbol_buffer[block_size + 1];
size_t m_pending_symbol_size { 0 };
Array<u16, max_huffman_literals> m_symbol_frequencies; // there are 286 valid symbol values (symbols 286-287 never occur)
Array<u16, max_huffman_distances> m_distance_frequencies; // there are 30 valid distance values (distances 30-31 never occur)
// LZ77 Chained hash table
u16 m_hash_head[1 << hash_bits];
u16 m_hash_prev[window_size];
};
}
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