// Copyright 2020 Dolphin Emulator Project // Licensed under GPLv2+ // Refer to the license.txt file included. #pragma once #include #include #include #include #include #include #include #include #include "Common/CommonTypes.h" #include "DiscIO/LaggedFibonacciGenerator.h" namespace DiscIO { struct DecompressionBuffer { std::vector data; size_t bytes_written = 0; }; using SHA1 = std::array; struct PurgeSegment { u32 offset; u32 size; }; static_assert(sizeof(PurgeSegment) == 0x08, "Wrong size for WIA purge segment"); class Decompressor { public: virtual ~Decompressor(); virtual bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) = 0; virtual bool Done() const { return m_done; }; protected: bool m_done = false; }; class NoneDecompressor final : public Decompressor { public: bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) override; }; // This class assumes that more bytes won't be added to in once in.bytes_written == in.data.size() // and that *in_bytes_read initially will be equal to the size of the exception lists class PurgeDecompressor final : public Decompressor { public: PurgeDecompressor(u64 decompressed_size); bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) override; private: const u64 m_decompressed_size; PurgeSegment m_segment = {}; size_t m_bytes_read = 0; size_t m_segment_bytes_written = 0; size_t m_out_bytes_written = 0; bool m_started = false; mbedtls_sha1_context m_sha1_context; }; class Bzip2Decompressor final : public Decompressor { public: ~Bzip2Decompressor(); bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) override; private: bz_stream m_stream = {}; bool m_started = false; }; class LZMADecompressor final : public Decompressor { public: LZMADecompressor(bool lzma2, const u8* filter_options, size_t filter_options_size); ~LZMADecompressor(); bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) override; private: lzma_stream m_stream = LZMA_STREAM_INIT; lzma_options_lzma m_options = {}; lzma_filter m_filters[2]; bool m_started = false; bool m_error_occurred = false; }; class ZstdDecompressor final : public Decompressor { public: ZstdDecompressor(); ~ZstdDecompressor(); bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) override; private: ZSTD_DStream* m_stream; }; class RVZPackDecompressor final : public Decompressor { public: RVZPackDecompressor(std::unique_ptr decompressor, DecompressionBuffer decompressed, u64 data_offset); bool Decompress(const DecompressionBuffer& in, DecompressionBuffer* out, size_t* in_bytes_read) override; bool Done() const override; private: std::optional ReadToDecompressed(const DecompressionBuffer& in, size_t* in_bytes_read, size_t decompressed_bytes_read, size_t bytes_to_read); std::unique_ptr m_decompressor; DecompressionBuffer m_decompressed; size_t m_decompressed_bytes_read = 0; u64 m_data_offset; u32 m_size = 0; bool m_junk; LaggedFibonacciGenerator m_lfg; }; class Compressor { public: virtual ~Compressor(); // First call Start, then AddDataOnlyForPurgeHashing/Compress any number of times, // then End, then GetData/GetSize any number of times. virtual bool Start() = 0; virtual bool AddPrecedingDataOnlyForPurgeHashing(const u8* data, size_t size) { return true; } virtual bool Compress(const u8* data, size_t size) = 0; virtual bool End() = 0; virtual const u8* GetData() const = 0; virtual size_t GetSize() const = 0; }; class PurgeCompressor final : public Compressor { public: PurgeCompressor(); ~PurgeCompressor(); bool Start() override; bool AddPrecedingDataOnlyForPurgeHashing(const u8* data, size_t size) override; bool Compress(const u8* data, size_t size) override; bool End() override; const u8* GetData() const override; size_t GetSize() const override; private: std::vector m_buffer; size_t m_bytes_written; mbedtls_sha1_context m_sha1_context; }; class Bzip2Compressor final : public Compressor { public: Bzip2Compressor(int compression_level); ~Bzip2Compressor(); bool Start() override; bool Compress(const u8* data, size_t size) override; bool End() override; const u8* GetData() const override; size_t GetSize() const override; private: void ExpandBuffer(size_t bytes_to_add); bz_stream m_stream = {}; std::vector m_buffer; int m_compression_level; }; class LZMACompressor final : public Compressor { public: LZMACompressor(bool lzma2, int compression_level, u8 compressor_data_out[7], u8* compressor_data_size_out); ~LZMACompressor(); bool Start() override; bool Compress(const u8* data, size_t size) override; bool End() override; const u8* GetData() const override; size_t GetSize() const override; private: void ExpandBuffer(size_t bytes_to_add); lzma_stream m_stream = LZMA_STREAM_INIT; lzma_options_lzma m_options = {}; lzma_filter m_filters[2]; std::vector m_buffer; bool m_initialization_failed = false; }; class ZstdCompressor final : public Compressor { public: ZstdCompressor(int compression_level); ~ZstdCompressor(); bool Start() override; bool Compress(const u8* data, size_t size) override; bool End() override; const u8* GetData() const override { return m_buffer.data(); } size_t GetSize() const override { return m_out_buffer.pos; } private: void ExpandBuffer(size_t bytes_to_add); ZSTD_CStream* m_stream; ZSTD_outBuffer m_out_buffer; std::vector m_buffer; }; } // namespace DiscIO