#include "zlib.h" #include #include #include #include #include namespace { static const int opts[] = { //Auto 15 + 32, //ZLib 15 + 0, //GZip 15 + 16, //Raw -15}; class TZLibCommon { public: inline TZLibCommon() noexcept { memset(Z(), 0, sizeof(*Z())); } inline ~TZLibCommon() = default; inline const char* GetErrMsg() const noexcept { return Z()->msg != nullptr ? Z()->msg : "unknown error"; } inline z_stream* Z() const noexcept { return (z_stream*)(&Z_); } private: z_stream Z_; }; static inline ui32 MaxPortion(size_t s) noexcept { return (ui32)Min(Max(), s); } struct TChunkedZeroCopyInput { inline TChunkedZeroCopyInput(IZeroCopyInput* in) : In(in) , Buf(nullptr) , Len(0) { } template inline bool Next(P** buf, T* len) { if (!Len) { Len = In->Next(&Buf); if (!Len) { return false; } } const T toread = (T)Min((size_t)Max(), Len); *len = toread; *buf = (P*)Buf; Buf += toread; Len -= toread; return true; } IZeroCopyInput* In; const char* Buf; size_t Len; }; } class TZLibDecompress::TImpl: private TZLibCommon, public TChunkedZeroCopyInput { public: inline TImpl(IZeroCopyInput* in, ZLib::StreamType type, TStringBuf dict) : TChunkedZeroCopyInput(in) , Dict(dict) { if (inflateInit2(Z(), opts[type]) != Z_OK) { ythrow TZLibDecompressorError() << "can not init inflate engine"; } if (dict.size() && type == ZLib::Raw) { SetDict(); } } virtual ~TImpl() { inflateEnd(Z()); } void SetAllowMultipleStreams(bool allowMultipleStreams) { AllowMultipleStreams_ = allowMultipleStreams; } inline size_t Read(void* buf, size_t size) { Z()->next_out = (unsigned char*)buf; Z()->avail_out = size; while (true) { if (Z()->avail_in == 0) { if (!FillInputBuffer()) { return 0; } } switch (inflate(Z(), Z_SYNC_FLUSH)) { case Z_NEED_DICT: { SetDict(); continue; } case Z_STREAM_END: { if (AllowMultipleStreams_) { if (inflateReset(Z()) != Z_OK) { ythrow TZLibDecompressorError() << "inflate reset error(" << GetErrMsg() << ")"; } } else { return size - Z()->avail_out; } [[fallthrough]]; } case Z_OK: { const size_t processed = size - Z()->avail_out; if (processed) { return processed; } break; } default: ythrow TZLibDecompressorError() << "inflate error(" << GetErrMsg() << ")"; } } } private: inline bool FillInputBuffer() { return Next(&Z()->next_in, &Z()->avail_in); } void SetDict() { if (inflateSetDictionary(Z(), (const Bytef*)Dict.data(), Dict.size()) != Z_OK) { ythrow TZLibCompressorError() << "can not set inflate dictionary"; } } bool AllowMultipleStreams_ = true; TStringBuf Dict; }; namespace { class TDecompressStream: public IZeroCopyInput, public TZLibDecompress::TImpl, public TAdditionalStorage { public: inline TDecompressStream(IInputStream* input, ZLib::StreamType type, TStringBuf dict) : TZLibDecompress::TImpl(this, type, dict) , Stream_(input) { } ~TDecompressStream() override = default; private: size_t DoNext(const void** ptr, size_t len) override { void* buf = AdditionalData(); *ptr = buf; return Stream_->Read(buf, Min(len, AdditionalDataLength())); } private: IInputStream* Stream_; }; using TZeroCopyDecompress = TZLibDecompress::TImpl; } class TZLibCompress::TImpl: public TAdditionalStorage, private TZLibCommon { static inline ZLib::StreamType Type(ZLib::StreamType type) { if (type == ZLib::Auto) { return ZLib::ZLib; } if (type >= ZLib::Invalid) { ythrow TZLibError() << "invalid compression type: " << static_cast(type); } return type; } public: inline TImpl(const TParams& p) : Stream_(p.Out) { if (deflateInit2(Z(), Min(9, p.CompressionLevel), Z_DEFLATED, opts[Type(p.Type)], 8, Z_DEFAULT_STRATEGY)) { ythrow TZLibCompressorError() << "can not init inflate engine"; } // Create exactly the same files on all platforms by fixing OS field in the header. if (p.Type == ZLib::GZip) { GZHeader_ = MakeHolder(); GZHeader_->os = 3; // UNIX deflateSetHeader(Z(), GZHeader_.Get()); } if (p.Dict.size()) { if (deflateSetDictionary(Z(), (const Bytef*)p.Dict.data(), p.Dict.size())) { ythrow TZLibCompressorError() << "can not set deflate dictionary"; } } Z()->next_out = TmpBuf(); Z()->avail_out = TmpBufLen(); } inline ~TImpl() { deflateEnd(Z()); } inline void Write(const void* buf, size_t size) { const Bytef* b = (const Bytef*)buf; const Bytef* e = b + size; Y_DEFER { Z()->next_in = nullptr; Z()->avail_in = 0; }; do { b = WritePart(b, e); } while (b < e); } inline const Bytef* WritePart(const Bytef* b, const Bytef* e) { Z()->next_in = const_cast(b); Z()->avail_in = MaxPortion(e - b); while (Z()->avail_in) { const int ret = deflate(Z(), Z_NO_FLUSH); switch (ret) { case Z_OK: continue; case Z_BUF_ERROR: FlushBuffer(); break; default: ythrow TZLibCompressorError() << "deflate error(" << GetErrMsg() << ")"; } } return Z()->next_in; } inline void Flush() { int ret = deflate(Z(), Z_SYNC_FLUSH); while ((ret == Z_OK || ret == Z_BUF_ERROR) && !Z()->avail_out) { FlushBuffer(); ret = deflate(Z(), Z_SYNC_FLUSH); } if (ret != Z_OK && ret != Z_BUF_ERROR) { ythrow TZLibCompressorError() << "deflate flush error(" << GetErrMsg() << ")"; } if (Z()->avail_out < TmpBufLen()) { FlushBuffer(); } } inline void FlushBuffer() { Stream_->Write(TmpBuf(), TmpBufLen() - Z()->avail_out); Z()->next_out = TmpBuf(); Z()->avail_out = TmpBufLen(); } inline void Finish() { int ret = deflate(Z(), Z_FINISH); while (ret == Z_OK || ret == Z_BUF_ERROR) { FlushBuffer(); ret = deflate(Z(), Z_FINISH); } if (ret == Z_STREAM_END) { Stream_->Write(TmpBuf(), TmpBufLen() - Z()->avail_out); } else { ythrow TZLibCompressorError() << "deflate finish error(" << GetErrMsg() << ")"; } } private: inline unsigned char* TmpBuf() noexcept { return (unsigned char*)AdditionalData(); } inline size_t TmpBufLen() const noexcept { return AdditionalDataLength(); } private: IOutputStream* Stream_; THolder GZHeader_; }; TZLibDecompress::TZLibDecompress(IZeroCopyInput* input, ZLib::StreamType type, TStringBuf dict) : Impl_(new TZeroCopyDecompress(input, type, dict)) { } TZLibDecompress::TZLibDecompress(IInputStream* input, ZLib::StreamType type, size_t buflen, TStringBuf dict) : Impl_(new (buflen) TDecompressStream(input, type, dict)) { } void TZLibDecompress::SetAllowMultipleStreams(bool allowMultipleStreams) { Impl_->SetAllowMultipleStreams(allowMultipleStreams); } TZLibDecompress::~TZLibDecompress() = default; size_t TZLibDecompress::DoRead(void* buf, size_t size) { return Impl_->Read(buf, MaxPortion(size)); } void TZLibCompress::Init(const TParams& params) { Y_ENSURE(params.BufLen >= 16, "ZLib buffer too small"); Impl_.Reset(new (params.BufLen) TImpl(params)); } void TZLibCompress::TDestruct::Destroy(TImpl* impl) { delete impl; } TZLibCompress::~TZLibCompress() { try { Finish(); } catch (...) { // ¯\_(ツ)_/¯ } } void TZLibCompress::DoWrite(const void* buf, size_t size) { if (!Impl_) { ythrow TZLibCompressorError() << "can not write to finished zlib stream"; } Impl_->Write(buf, size); } void TZLibCompress::DoFlush() { if (Impl_) { Impl_->Flush(); } } void TZLibCompress::DoFinish() { THolder impl(Impl_.Release()); if (impl) { impl->Finish(); } } TBufferedZLibDecompress::~TBufferedZLibDecompress() = default;