// ZipAddCommon.cpp #include "StdAfx.h" #include "../../../../C/7zCrc.h" #include "../../../../C/Alloc.h" #include "../../../Windows/PropVariant.h" #include "../../ICoder.h" #include "../../IPassword.h" #include "../../MyVersion.h" #include "../../Common/CreateCoder.h" #include "../../Common/StreamObjects.h" #include "../../Common/StreamUtils.h" #include "../../Compress/LzmaEncoder.h" #include "../../Compress/PpmdZip.h" #include "../Common/InStreamWithCRC.h" #include "ZipAddCommon.h" #include "ZipHeader.h" namespace NArchive { namespace NZip { static const CMethodId kMethodId_ZipBase = 0x040100; static const CMethodId kMethodId_BZip2 = 0x040202; static const UInt32 kLzmaPropsSize = 5; static const UInt32 kLzmaHeaderSize = 4 + kLzmaPropsSize; class CLzmaEncoder: public ICompressCoder, public ICompressSetCoderProperties, public CMyUnknownImp { NCompress::NLzma::CEncoder *EncoderSpec; CMyComPtr Encoder; Byte Header[kLzmaHeaderSize]; public: STDMETHOD(Code)(ISequentialInStream *inStream, ISequentialOutStream *outStream, const UInt64 *inSize, const UInt64 *outSize, ICompressProgressInfo *progress); STDMETHOD(SetCoderProperties)(const PROPID *propIDs, const PROPVARIANT *props, UInt32 numProps); MY_UNKNOWN_IMP1(ICompressSetCoderProperties) }; STDMETHODIMP CLzmaEncoder::SetCoderProperties(const PROPID *propIDs, const PROPVARIANT *props, UInt32 numProps) { if (!Encoder) { EncoderSpec = new NCompress::NLzma::CEncoder; Encoder = EncoderSpec; } CBufPtrSeqOutStream *outStreamSpec = new CBufPtrSeqOutStream; CMyComPtr outStream(outStreamSpec); outStreamSpec->Init(Header + 4, kLzmaPropsSize); RINOK(EncoderSpec->SetCoderProperties(propIDs, props, numProps)); RINOK(EncoderSpec->WriteCoderProperties(outStream)); if (outStreamSpec->GetPos() != kLzmaPropsSize) return E_FAIL; Header[0] = MY_VER_MAJOR; Header[1] = MY_VER_MINOR; Header[2] = kLzmaPropsSize; Header[3] = 0; return S_OK; } STDMETHODIMP CLzmaEncoder::Code(ISequentialInStream *inStream, ISequentialOutStream *outStream, const UInt64 *inSize, const UInt64 *outSize, ICompressProgressInfo *progress) { RINOK(WriteStream(outStream, Header, kLzmaHeaderSize)); return Encoder->Code(inStream, outStream, inSize, outSize, progress); } CAddCommon::CAddCommon(const CCompressionMethodMode &options): _options(options), _copyCoderSpec(NULL), _cryptoStreamSpec(NULL), _buf(NULL) {} CAddCommon::~CAddCommon() { MidFree(_buf); } static const UInt32 kBufSize = ((UInt32)1 << 16); HRESULT CAddCommon::CalcStreamCRC(ISequentialInStream *inStream, UInt32 &resultCRC) { if (!_buf) { _buf = (Byte *)MidAlloc(kBufSize); if (!_buf) return E_OUTOFMEMORY; } UInt32 crc = CRC_INIT_VAL; for (;;) { UInt32 processed; RINOK(inStream->Read(_buf, kBufSize, &processed)); if (processed == 0) { resultCRC = CRC_GET_DIGEST(crc); return S_OK; } crc = CrcUpdate(crc, _buf, (size_t)processed); } } HRESULT CAddCommon::Compress( DECL_EXTERNAL_CODECS_LOC_VARS ISequentialInStream *inStream, IOutStream *outStream, UInt32 /* fileTime */, ICompressProgressInfo *progress, CCompressingResult &opRes) { if (!inStream) { // We can create empty stream here. But it was already implemented in caller code in 9.33+ return E_INVALIDARG; } // CSequentialInStreamWithCRC *inSecCrcStreamSpec = NULL; CInStreamWithCRC *inCrcStreamSpec = NULL; CMyComPtr inCrcStream; { CMyComPtr inStream2; inStream->QueryInterface(IID_IInStream, (void **)&inStream2); if (inStream2) { inCrcStreamSpec = new CInStreamWithCRC; inCrcStream = inCrcStreamSpec; inCrcStreamSpec->SetStream(inStream2); inCrcStreamSpec->Init(); } else { // we don't support stdin, since stream from stdin can require 64-bit size header return E_NOTIMPL; /* inSecCrcStreamSpec = new CSequentialInStreamWithCRC; inCrcStream = inSecCrcStreamSpec; inSecCrcStreamSpec->SetStream(inStream); inSecCrcStreamSpec->Init(); */ } } unsigned numTestMethods = _options.MethodSequence.Size(); if (numTestMethods > 1 && !inCrcStreamSpec) numTestMethods = 1; UInt32 crc = 0; bool crc_IsCalculated = false; Byte method = 0; CFilterCoder::C_OutStream_Releaser outStreamReleaser; opRes.ExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_Default; opRes.FileTimeWasUsed = false; for (unsigned i = 0; i < numTestMethods; i++) { opRes.ExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_Default; if (inCrcStreamSpec) RINOK(inCrcStreamSpec->Seek(0, STREAM_SEEK_SET, NULL)); RINOK(outStream->SetSize(0)); RINOK(outStream->Seek(0, STREAM_SEEK_SET, NULL)); if (_options.PasswordIsDefined) { opRes.ExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_ZipCrypto; if (!_cryptoStream) { _cryptoStreamSpec = new CFilterCoder(true); _cryptoStream = _cryptoStreamSpec; } if (_options.IsAesMode) { opRes.ExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_Aes; if (!_cryptoStreamSpec->Filter) { _cryptoStreamSpec->Filter = _filterAesSpec = new NCrypto::NWzAes::CEncoder; _filterAesSpec->SetKeyMode(_options.AesKeyMode); RINOK(_filterAesSpec->CryptoSetPassword((const Byte *)(const char *)_options.Password, _options.Password.Len())); } RINOK(_filterAesSpec->WriteHeader(outStream)); } else { if (!_cryptoStreamSpec->Filter) { _cryptoStreamSpec->Filter = _filterSpec = new NCrypto::NZip::CEncoder; _filterSpec->CryptoSetPassword((const Byte *)(const char *)_options.Password, _options.Password.Len()); } UInt32 check; // if (inCrcStreamSpec) { if (!crc_IsCalculated) { RINOK(CalcStreamCRC(inStream, crc)); crc_IsCalculated = true; RINOK(inCrcStreamSpec->Seek(0, STREAM_SEEK_SET, NULL)); } check = (crc >> 16); } /* else { opRes.FileTimeWasUsed = true; check = (fileTime & 0xFFFF); } */ RINOK(_filterSpec->WriteHeader_Check16(outStream, (UInt16)check)); } RINOK(_cryptoStreamSpec->SetOutStream(outStream)); RINOK(_cryptoStreamSpec->InitEncoder()); outStreamReleaser.FilterCoder = _cryptoStreamSpec; } method = _options.MethodSequence[i]; switch (method) { case NFileHeader::NCompressionMethod::kStored: { if (_copyCoderSpec == NULL) { _copyCoderSpec = new NCompress::CCopyCoder; _copyCoder = _copyCoderSpec; } CMyComPtr outStreamNew; if (_options.PasswordIsDefined) outStreamNew = _cryptoStream; else outStreamNew = outStream; RINOK(_copyCoder->Code(inCrcStream, outStreamNew, NULL, NULL, progress)); break; } default: { if (!_compressEncoder) { if (method == NFileHeader::NCompressionMethod::kLZMA) { _compressExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_LZMA; CLzmaEncoder *_lzmaEncoder = new CLzmaEncoder(); _compressEncoder = _lzmaEncoder; } else if (method == NFileHeader::NCompressionMethod::kPPMd) { _compressExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_PPMd; NCompress::NPpmdZip::CEncoder *encoder = new NCompress::NPpmdZip::CEncoder(); _compressEncoder = encoder; } else { CMethodId methodId; switch (method) { case NFileHeader::NCompressionMethod::kBZip2: methodId = kMethodId_BZip2; _compressExtractVersion = NFileHeader::NCompressionMethod::kExtractVersion_BZip2; break; default: _compressExtractVersion = ((method == NFileHeader::NCompressionMethod::kDeflated64) ? NFileHeader::NCompressionMethod::kExtractVersion_Deflate64 : NFileHeader::NCompressionMethod::kExtractVersion_Deflate); methodId = kMethodId_ZipBase + method; break; } RINOK(CreateCoder( EXTERNAL_CODECS_LOC_VARS methodId, true, _compressEncoder)); if (!_compressEncoder) return E_NOTIMPL; if (method == NFileHeader::NCompressionMethod::kDeflated || method == NFileHeader::NCompressionMethod::kDeflated64) { } else if (method == NFileHeader::NCompressionMethod::kBZip2) { } } { CMyComPtr setCoderProps; _compressEncoder.QueryInterface(IID_ICompressSetCoderProperties, &setCoderProps); if (setCoderProps) { RINOK(_options.MethodInfo.SetCoderProps(setCoderProps, _options._dataSizeReduceDefined ? &_options._dataSizeReduce : NULL)); } } } CMyComPtr outStreamNew; if (_options.PasswordIsDefined) outStreamNew = _cryptoStream; else outStreamNew = outStream; if (_compressExtractVersion > opRes.ExtractVersion) opRes.ExtractVersion = _compressExtractVersion; RINOK(_compressEncoder->Code(inCrcStream, outStreamNew, NULL, NULL, progress)); break; } } if (_options.PasswordIsDefined) { RINOK(_cryptoStreamSpec->OutStreamFinish()); if (_options.IsAesMode) { RINOK(_filterAesSpec->WriteFooter(outStream)); } } RINOK(outStream->Seek(0, STREAM_SEEK_CUR, &opRes.PackSize)); // if (inCrcStreamSpec) { opRes.CRC = inCrcStreamSpec->GetCRC(); opRes.UnpackSize = inCrcStreamSpec->GetSize(); } /* else { opRes.CRC = inSecCrcStreamSpec->GetCRC(); opRes.UnpackSize = inSecCrcStreamSpec->GetSize(); } */ if (_options.PasswordIsDefined) { if (opRes.PackSize < opRes.UnpackSize + (_options.IsAesMode ? _filterAesSpec->GetAddPackSize() : NCrypto::NZip::kHeaderSize)) break; } else if (opRes.PackSize < opRes.UnpackSize) break; } opRes.Method = method; return S_OK; } }}