/* * Copyright (c) 2020, the SerenityOS developers. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include namespace Compress { constexpr static size_t Adler32Size = sizeof(u32); Optional ZlibDecompressor::try_create(ReadonlyBytes data) { if (data.size() < (sizeof(ZlibHeader) + Adler32Size)) return {}; ZlibHeader header { .as_u16 = data.at(0) << 8 | data.at(1) }; if (header.compression_method != ZlibCompressionMethod::Deflate || header.compression_info > 7) return {}; // non-deflate compression if (header.present_dictionary) return {}; // we dont support pre-defined dictionaries if (header.as_u16 % 31 != 0) return {}; // error correction code doesn't match ZlibDecompressor zlib { header, data }; zlib.m_data_bytes = data.slice(2, data.size() - sizeof(ZlibHeader) - Adler32Size); return zlib; } ZlibDecompressor::ZlibDecompressor(ZlibHeader header, ReadonlyBytes data) : m_header(header) , m_input_data(data) { } Optional ZlibDecompressor::decompress() { auto buffer_or_error = DeflateDecompressor::decompress_all(m_data_bytes); if (buffer_or_error.is_error()) return {}; return buffer_or_error.release_value(); } Optional ZlibDecompressor::decompress_all(ReadonlyBytes bytes) { auto zlib = try_create(bytes); if (!zlib.has_value()) return {}; return zlib->decompress(); } u32 ZlibDecompressor::checksum() { if (!m_checksum) { auto bytes = m_input_data.slice_from_end(Adler32Size); m_checksum = bytes.at(0) << 24 | bytes.at(1) << 16 | bytes.at(2) << 8 || bytes.at(3); } return m_checksum; } ErrorOr> ZlibCompressor::construct(MaybeOwned stream, ZlibCompressionLevel compression_level) { // Zlib only defines Deflate as a compression method. auto compression_method = ZlibCompressionMethod::Deflate; // FIXME: Find a way to compress with Deflate's "Best" compression level. auto compressor_stream = TRY(DeflateCompressor::construct(MaybeOwned(*stream), static_cast(compression_level))); auto zlib_compressor = TRY(adopt_nonnull_own_or_enomem(new (nothrow) ZlibCompressor(move(stream), move(compressor_stream)))); TRY(zlib_compressor->write_header(compression_method, compression_level)); return zlib_compressor; } ZlibCompressor::ZlibCompressor(MaybeOwned stream, NonnullOwnPtr compressor_stream) : m_output_stream(move(stream)) , m_compressor(move(compressor_stream)) { } ZlibCompressor::~ZlibCompressor() { VERIFY(m_finished); } ErrorOr ZlibCompressor::write_header(ZlibCompressionMethod compression_method, ZlibCompressionLevel compression_level) { u8 compression_info = 0; if (compression_method == ZlibCompressionMethod::Deflate) { compression_info = AK::log2(DeflateCompressor::window_size) - 8; VERIFY(compression_info <= 7); } ZlibHeader header { .compression_method = compression_method, .compression_info = compression_info, .check_bits = 0, .present_dictionary = false, .compression_level = compression_level, }; header.check_bits = 0b11111 - header.as_u16 % 31; // FIXME: Support pre-defined dictionaries. TRY(m_output_stream->write_until_depleted(header.as_u16.bytes())); return {}; } ErrorOr ZlibCompressor::read_some(Bytes) { return Error::from_errno(EBADF); } ErrorOr ZlibCompressor::write_some(ReadonlyBytes bytes) { VERIFY(!m_finished); size_t n_written = TRY(m_compressor->write_some(bytes)); m_adler32_checksum.update(bytes.trim(n_written)); return n_written; } bool ZlibCompressor::is_eof() const { return false; } bool ZlibCompressor::is_open() const { return m_output_stream->is_open(); } void ZlibCompressor::close() { } ErrorOr ZlibCompressor::finish() { VERIFY(!m_finished); if (is(m_compressor.ptr())) TRY(static_cast(m_compressor.ptr())->final_flush()); NetworkOrdered adler_sum = m_adler32_checksum.digest(); TRY(m_output_stream->write_value(adler_sum)); m_finished = true; return {}; } ErrorOr ZlibCompressor::compress_all(ReadonlyBytes bytes, ZlibCompressionLevel compression_level) { auto output_stream = TRY(try_make()); auto zlib_stream = TRY(ZlibCompressor::construct(MaybeOwned(*output_stream), compression_level)); TRY(zlib_stream->write_until_depleted(bytes)); TRY(zlib_stream->finish()); auto buffer = TRY(ByteBuffer::create_uninitialized(output_stream->used_buffer_size())); TRY(output_stream->read_until_filled(buffer.bytes())); return buffer; } }