//////////////////////////////////////////////////////////////////////////////// // This source file is part of the ZipArchive library source distribution and // is Copyrighted 2000 - 2007 by Artpol Software - Tadeusz Dracz // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // as published by the Free Software Foundation; either version 2 // of the License, or (at your option) any later version. // // For the licensing details refer to the License.txt file. // // Web Site: http://www.artpol-software.com //////////////////////////////////////////////////////////////////////////////// #include "stdafx.h" #include "ZipFileHeader.h" #include "ZipAutoBuffer.h" #include "ZipArchive.h" #include "ZipPlatform.h" #include "ZipCompatibility.h" #include #include "ZipCrc32Cryptograph.h" #include "BytesWriter.h" #define FILEHEADERSIZE 46 #define LOCALFILEHEADERSIZE 30 #define ZIP_EXTRA_ZARCH_NAME_VER 1 using namespace ZipArchiveLib; char CZipFileHeader::m_gszSignature[] = {0x50, 0x4b, 0x01, 0x02}; char CZipFileHeader::m_gszLocalSignature[] = {0x50, 0x4b, 0x03, 0x04}; CZipFileHeader::CZipFileHeader() { m_uExternalAttr = 0;//ZipPlatform::GetDefaultAttributes(); m_uModDate = m_uModTime = 0; m_uMethod = CZipCompressor::methodDeflate; m_uVersionMadeBy = 0; m_uCrc32 = 0; // initialize to 0, because on 64 bit platform unsigned long is 8 byte and we are copying only 4 bytes in Read() m_uComprSize = m_uUncomprSize = m_uOffset = 0; m_uLocalFileNameSize = 0; m_uLocalComprSize = m_uLocalUncomprSize = 0; m_uVolumeStart = 0; m_pszFileName = NULL; m_uEncryptionMethod = CZipCryptograph::encNone; m_bIgnoreCrc32 = false; m_uFlag = 0; } CZipFileHeader::~CZipFileHeader() { if (m_pszFileName != NULL) delete m_pszFileName; } bool CZipFileHeader::Read(CZipCentralDir& centralDir, bool bReadSignature) { CZipStorage *pStorage = centralDir.m_pStorage; WORD uFileNameSize, uCommentSize, uExtraFieldSize; CZipAutoBuffer buf(FILEHEADERSIZE); if (bReadSignature) { pStorage->Read(buf, FILEHEADERSIZE, true); if (!VerifySignature(buf)) return false; } else pStorage->Read((char*)buf + 4, FILEHEADERSIZE - 4, true); CBytesWriter::ReadBytes(m_uVersionMadeBy, buf + 4); CBytesWriter::ReadBytes(m_uVersionNeeded, buf + 6); CBytesWriter::ReadBytes(m_uFlag, buf + 8); CBytesWriter::ReadBytes(m_uMethod, buf + 10); CBytesWriter::ReadBytes(m_uModTime, buf + 12); CBytesWriter::ReadBytes(m_uModDate, buf + 14); CBytesWriter::ReadBytes(m_uCrc32, buf + 16); CBytesWriter::ReadBytes(m_uComprSize, buf + 20, 4); CBytesWriter::ReadBytes(m_uUncomprSize, buf + 24, 4); CBytesWriter::ReadBytes(uFileNameSize, buf + 28); CBytesWriter::ReadBytes(uExtraFieldSize, buf + 30); CBytesWriter::ReadBytes(uCommentSize, buf + 32); CBytesWriter::ReadBytes(m_uVolumeStart, buf + 34, 2); CBytesWriter::ReadBytes(m_uInternalAttr, buf + 36); CBytesWriter::ReadBytes(m_uExternalAttr, buf + 38); CBytesWriter::ReadBytes(m_uOffset, buf + 42, 4); buf.Release(); // we may need to modify this later m_uEncryptionMethod = (BYTE)((m_uFlag & (WORD) 1) != 0 ? CZipCryptograph::encStandard : CZipCryptograph::encNone); ZIP_VOLUME_TYPE uCurDsk = pStorage->GetCurrentVolume(); m_pszFileNameBuffer.Allocate(uFileNameSize); // don't add NULL at the end pStorage->Read(m_pszFileNameBuffer, uFileNameSize, true); if (centralDir.m_pStringSettings->IsStandardNameCodePage()) m_stringSettings.SetDefaultNameCodePage(GetSystemCompatibility()); else m_stringSettings.m_uNameCodePage = centralDir.m_pStringSettings->m_uNameCodePage; if (!centralDir.m_pStringSettings->IsStandardCommentCodePage()) m_stringSettings.m_uCommentCodePage = centralDir.m_pStringSettings->m_uCommentCodePage; if (!m_aCentralExtraData.Read(pStorage, uExtraFieldSize)) return false; CZipExtraData* pExtra = m_aCentralExtraData.Lookup(ZIP_EXTRA_ZARCH_NAME); if (pExtra != NULL) { WORD uExtraDataSize = (WORD)pExtra->m_data.GetSize(); int offset = 1; if (offset > uExtraDataSize) return false; if (pExtra->m_data[0] <= ZIP_EXTRA_ZARCH_NAME_VER) // else don't parse it { offset++; if (offset > uExtraDataSize) return false; BYTE flag = pExtra->m_data[1]; bool bReadCommentCp = (flag & 4) != 0; if ((flag & 1) != 0) { // code page present if (offset + 4 > uExtraDataSize) return false; // avoid warnings DWORD temp; CBytesWriter::ReadBytes(temp, pExtra->m_data + offset); m_stringSettings.m_uNameCodePage = temp; offset += 4; } if ((flag & 3) == 3) { m_stringSettings.m_bStoreNameInExtraData = true; int iFileNameSize = pExtra->m_data.GetSize() - 2 - 4; if (bReadCommentCp) iFileNameSize -= 4; // code page present if (offset + iFileNameSize > uExtraDataSize || iFileNameSize <= 0) return false; CZipAutoBuffer buffer; buffer.Allocate(iFileNameSize); memcpy(buffer, pExtra->m_data + offset, iFileNameSize); m_pszFileName = new CZipString(_T("")); ZipCompatibility::ConvertBufferToString(*m_pszFileName, buffer, m_stringSettings.m_uNameCodePage); offset += iFileNameSize; m_pszFileNameBuffer.Release(); } else m_stringSettings.m_bStoreNameInExtraData = false; if (bReadCommentCp) { // code page present if (offset + 4 > uExtraDataSize) return false; DWORD temp; CBytesWriter::ReadBytes(temp, pExtra->m_data + offset); m_stringSettings.m_uCommentCodePage = temp; // offset += 4; } } } if (uCommentSize) { m_pszComment.Allocate(uCommentSize); pStorage->Read(m_pszComment, uCommentSize, true); } return pStorage->GetCurrentVolume() == uCurDsk; // check that the whole header is in one volume } time_t CZipFileHeader::GetTime()const { struct tm atm; atm.tm_sec = (m_uModTime & ~0xFFE0) << 1; atm.tm_min = (m_uModTime & ~0xF800) >> 5; atm.tm_hour = m_uModTime >> 11; atm.tm_mday = m_uModDate & ~0xFFE0; atm.tm_mon = ((m_uModDate & ~0xFE00) >> 5) - 1; atm.tm_year = (m_uModDate >> 9) + 80; atm.tm_isdst = -1; return mktime(&atm); } // write the header to the central dir DWORD CZipFileHeader::Write(CZipStorage *pStorage) { m_aCentralExtraData.RemoveInternalHeaders(); WORD uMethod = m_uMethod; if (!CheckLengths(false)) CZipException::Throw(CZipException::tooLongData); PrepareFileName(); if (m_stringSettings.m_bStoreNameInExtraData) { if (m_pszFileName == NULL && m_pszFileNameBuffer.IsAllocated()) GetFileName(false); // don't clear the buffer, it will be needed in a moment ASSERT(m_pszFileName != NULL); if (m_pszFileName->GetLength() == 0) m_stringSettings.m_bStoreNameInExtraData = false; } int iSystemCompatibility = GetSystemCompatibility(); if (!m_stringSettings.IsStandard(iSystemCompatibility)) { CZipExtraData* pExtra = m_aCentralExtraData.CreateNew(ZIP_EXTRA_ZARCH_NAME); bool bWriteCommentCp = !m_stringSettings.IsStandardCommentCodePage(); BYTE flag = 0; int offset = 2; char* data = NULL; if (m_stringSettings.m_bStoreNameInExtraData) { CZipAutoBuffer buffer; // m_pszFileNameBuffer contains CP_ACP page, we don't check if the current page is CP_ACP - too large dependency on PrepareFileName ZipCompatibility::ConvertStringToBuffer(*m_pszFileName, buffer, m_stringSettings.m_uNameCodePage); int size = 2 + 4 + buffer.GetSize(); if (bWriteCommentCp) size += 4; pExtra->m_data.Allocate(size); data = (char*)pExtra->m_data; CBytesWriter::WriteBytes(data + offset, (DWORD)m_stringSettings.m_uNameCodePage); offset += 4; memcpy(data + offset, buffer, buffer.GetSize()); offset += buffer.GetSize(); flag = 3; } else if (!m_stringSettings.IsStandardNameCodePage(iSystemCompatibility)) { int size = 2 + 4; if (bWriteCommentCp) size += 4; pExtra->m_data.Allocate(size); data = (char*)pExtra->m_data; CBytesWriter::WriteBytes(data + offset, (DWORD)m_stringSettings.m_uNameCodePage); offset += 4; flag = 1; } if (bWriteCommentCp) { if (!pExtra->m_data.IsAllocated()) { pExtra->m_data.Allocate(2 + 4); data = (char*)pExtra->m_data; } ASSERT(data); CBytesWriter::WriteBytes(data + offset, (DWORD)m_stringSettings.m_uCommentCodePage); flag |= 4; } data[0] = ZIP_EXTRA_ZARCH_NAME_VER; data[1] = flag; } WORD uFileNameSize = (WORD)m_pszFileNameBuffer.GetSize(), uCommentSize = (WORD)GetCommentSize(), uExtraFieldSize = (WORD)m_aCentralExtraData.GetTotalSize(); DWORD uSize = FILEHEADERSIZE + uFileNameSize + uCommentSize + uExtraFieldSize; CZipAutoBuffer buf(uSize); char* dest = (char*)buf; memcpy(dest, m_gszSignature, 4); CBytesWriter::WriteBytes(dest + 4, m_uVersionMadeBy); CBytesWriter::WriteBytes(dest + 6, m_uVersionNeeded); CBytesWriter::WriteBytes(dest + 8, m_uFlag); CBytesWriter::WriteBytes(dest + 10, uMethod); CBytesWriter::WriteBytes(dest + 12, m_uModTime); CBytesWriter::WriteBytes(dest + 14, m_uModDate); WriteCrc32(dest + 16); CBytesWriter::WriteBytes(dest + 20, CBytesWriter::WriteSafeU32(m_uComprSize)); CBytesWriter::WriteBytes(dest + 24, CBytesWriter::WriteSafeU32(m_uUncomprSize)); CBytesWriter::WriteBytes(dest + 28, uFileNameSize); CBytesWriter::WriteBytes(dest + 30, uExtraFieldSize); CBytesWriter::WriteBytes(dest + 32, uCommentSize); CBytesWriter::WriteBytes(dest + 34, CBytesWriter::WriteSafeU16(m_uVolumeStart)); CBytesWriter::WriteBytes(dest + 36, m_uInternalAttr); CBytesWriter::WriteBytes(dest + 38, m_uExternalAttr); CBytesWriter::WriteBytes(dest + 42, CBytesWriter::WriteSafeU32(m_uOffset)); memcpy(dest + 46, m_pszFileNameBuffer, uFileNameSize); if (uExtraFieldSize) m_aCentralExtraData.Write(dest + 46 + uFileNameSize); if (uCommentSize) memcpy(dest + 46 + uFileNameSize + uExtraFieldSize, m_pszComment, uCommentSize); pStorage->Write(dest, uSize, true); // remove to avoid miscalculations in GetSize() m_aCentralExtraData.RemoveInternalHeaders(); ClearFileName(); return uSize; } bool CZipFileHeader::ReadLocal(CZipCentralDir& centralDir) { char buf[LOCALFILEHEADERSIZE]; CZipStorage* pStorage = centralDir.m_pStorage; pStorage->Read(buf, LOCALFILEHEADERSIZE, true); if (memcmp(buf, m_gszLocalSignature, 4) != 0) return false; bool bIsDataDescr = (((WORD)*(buf + 6)) & 8) != 0; WORD uTemp; CBytesWriter::ReadBytes(uTemp, buf + 6); // do not compare the whole flag - the bits reserved by PKWARE may differ // in local and central headers if (centralDir.IsConsistencyCheckOn( CZipArchive::checkLocalFlag) && (uTemp & 0xf) != (m_uFlag & 0xf)) return false; // method WORD uMethod; CBytesWriter::ReadBytes(uMethod, buf + 8); // this may be different in the local header (it may contain disk name for example) CBytesWriter::ReadBytes(m_uLocalFileNameSize, buf + 26); WORD uExtraFieldSize; CBytesWriter::ReadBytes(uExtraFieldSize, buf + 28); ZIP_VOLUME_TYPE uCurDsk = pStorage->GetCurrentVolume(); // skip reading the local file name pStorage->m_pFile->Seek(m_uLocalFileNameSize, CZipAbstractFile::current); if (!m_aLocalExtraData.Read(pStorage, uExtraFieldSize)) return false; CBytesWriter::ReadBytes(m_uLocalComprSize, buf + 18, 4); CBytesWriter::ReadBytes(m_uLocalUncomprSize, buf + 22, 4); if (uMethod == CZipCompressor::methodWinZipAes && IsEncrypted()) CZipException::Throw(CZipException::noAES); if (centralDir.IsConsistencyCheckOn( CZipArchive::checkLocalMethod) && uMethod != m_uMethod ) return false; if (!bIsDataDescr && centralDir.IsConsistencyCheckOn( CZipArchive::checkLocalCRC | CZipArchive::checkLocalSizes)) { // read all at once - probably overally faster than checking and reading separately DWORD uCrc32; CBytesWriter::ReadBytes(uCrc32, buf + 14); if (centralDir.IsConsistencyCheckOn( CZipArchive::checkLocalCRC) && uCrc32 != m_uCrc32) return false; if (centralDir.IsConsistencyCheckOn( CZipArchive::checkLocalSizes) // do not check, if local compressed size is 0 - this usually means, that some archiver // could not update the compressed size after compression && ( m_uLocalComprSize != 0 && m_uLocalComprSize != m_uComprSize || m_uLocalUncomprSize != m_uUncomprSize)) return false; } return pStorage->GetCurrentVolume() == uCurDsk; // check that the whole header is in one volume } void CZipFileHeader::SetTime(const time_t & ttime) { #if _MSC_VER >= 1400 tm gts; tm* gt = >s; localtime_s(gt, &ttime); #else tm* gt = localtime(&ttime); #endif WORD year, month, day, hour, min, sec; if (gt == NULL) { year = 0; month = day = 1; hour = min = sec = 0; } else { year = (WORD)(gt->tm_year + 1900); if (year <= 1980) year = 0; else year -= 1980; month = (WORD)gt->tm_mon + 1; day = (WORD)gt->tm_mday; hour = (WORD)gt->tm_hour; min = (WORD)gt->tm_min; sec = (WORD)gt->tm_sec; } m_uModDate = (WORD) (day + ( month << 5) + (year << 9)); m_uModTime = (WORD) ((sec >> 1) + (min << 5) + (hour << 11)); } void CZipFileHeader::ConvertFileName(CZipAutoBuffer& buffer) const { if (m_pszFileName == NULL) return; CZipString temp = *m_pszFileName; ZipCompatibility::SlashBackslashChg(temp, false); if (m_stringSettings.m_bStoreNameInExtraData) ZipCompatibility::ConvertStringToBuffer(temp, buffer, m_stringSettings.GetDefaultNameCodePage(GetSystemCompatibility())); else ZipCompatibility::ConvertStringToBuffer(temp, buffer, m_stringSettings.m_uNameCodePage); } void CZipFileHeader::ConvertFileName(CZipString& szFileName) const { if (!m_pszFileNameBuffer.IsAllocated() || m_pszFileNameBuffer.GetSize() == 0) return; ZipCompatibility::ConvertBufferToString(szFileName, m_pszFileNameBuffer, m_stringSettings.m_uNameCodePage); int sc = ZipPlatform::GetSystemID(); if (sc == ZipCompatibility::zcDosFat || sc == ZipCompatibility::zcNtfs) ZipCompatibility::SlashBackslashChg(szFileName, true); else // some archives may have an invalid path separator stored ZipCompatibility::SlashBackslashChg(szFileName, false); } // write the local header void CZipFileHeader::WriteLocal(CZipStorage *pStorage) { if (IsDataDescriptor()) { m_uLocalComprSize = 0; // write, if we know it - WinZip 9.0 in segmented mode with AES encryption will // complain otherwise (this seems like a bug, because the data descriptor is present and // local descriptor should be discarded) if (!IsWinZipAesEncryption()) m_uLocalUncomprSize = 0; } else { m_uLocalComprSize = GetDataSize(true, false); } WORD uMethod = m_uMethod; PrepareFileName(); m_uLocalFileNameSize = (WORD)m_pszFileNameBuffer.GetSize(); DWORD uExtraFieldSize = m_aLocalExtraData.GetTotalSize(); DWORD iLocalSize = LOCALFILEHEADERSIZE + uExtraFieldSize + m_uLocalFileNameSize; CZipAutoBuffer buf(iLocalSize); char* dest = (char*) buf; memcpy(dest, m_gszLocalSignature, 4); CBytesWriter::WriteBytes(dest + 4, m_uVersionNeeded); CBytesWriter::WriteBytes(dest + 6, m_uFlag); CBytesWriter::WriteBytes(dest + 8, uMethod); CBytesWriter::WriteBytes(dest + 10, m_uModTime); CBytesWriter::WriteBytes(dest + 12, m_uModDate); WriteSmallDataDescriptor(dest + 14); CBytesWriter::WriteBytes(dest + 26, m_uLocalFileNameSize); CBytesWriter::WriteBytes(dest + 28, (WORD)uExtraFieldSize); memcpy(dest + 30, m_pszFileNameBuffer, m_uLocalFileNameSize); if (uExtraFieldSize) m_aLocalExtraData.Write(dest + 30 + m_uLocalFileNameSize); // possible volume change before writing to the file in the segmented archive // so write the local header first pStorage->Write(dest, iLocalSize, true); m_uVolumeStart = pStorage->GetCurrentVolume(); m_uOffset = pStorage->GetPosition() - iLocalSize; ClearFileName(); } WORD CZipFileHeader::GetDataDescriptorSize(bool bConsiderSignature) const { if (IsDataDescriptor()) { WORD size = 12; return (WORD)(bConsiderSignature ? size + 4 : size); } else return 0; } bool CZipFileHeader::NeedsDataDescriptor() const { return m_uEncryptionMethod == CZipCryptograph::encStandard; } void CZipFileHeader::PrepareData(int iLevel, bool bSegm) { // could be == 1, but the way below it works for PredictMaximumFileSizeInArchive when used on an existing segmented archive - for whatever reason m_uInternalAttr = 0; // version made by SetVersion((WORD)(0x14)); m_uCrc32 = 0; m_uComprSize = 0; m_uUncomprSize = 0; ASSERT(CZipCompressor::IsCompressionSupported(m_uMethod) && ((iLevel == 0) == (m_uMethod == CZipCompressor::methodStore))); m_uFlag = 0; if (m_uMethod == CZipCompressor::methodDeflate) switch (iLevel) { case 1: m_uFlag |= 6; break; case 2: m_uFlag |= 4; break; case 8: case 9: m_uFlag |= 2; break; } UpdateFlag(bSegm); m_uVersionNeeded = 0; if (m_uVersionNeeded == 0) m_uVersionNeeded = IsDirectory() ? 0xa : 0x14; // 1.0 or 2.0 } void CZipFileHeader::GetCrcAndSizes(char * pBuffer)const { WriteCrc32(pBuffer); CBytesWriter::WriteBytes(pBuffer + 4, m_uComprSize, 4); CBytesWriter::WriteBytes(pBuffer + 8, m_uUncomprSize, 4); } bool CZipFileHeader::CheckDataDescriptor(CZipStorage* pStorage) const { if (!IsDataDescriptor()) return true; const int sizeOfSize = 4; const int size = 4 + 2 * sizeOfSize; // crc and two sizes CZipAutoBuffer buf(size + 4); pStorage->Read(buf, size, false); char* pBuf; // when an archive is segmented, files that are divided between volume have bit 3 of flag set // which tell about the presence of the data descriptor after the compressed data // This signature may be in a segmented archive that is one volume only // (it is detected as a not segmented archive) if (memcmp(buf, CZipStorage::m_gszExtHeaderSignat, 4) == 0) // there is a signature { pStorage->Read((char*)buf + size, 4, false); pBuf = (char*)buf + 4; } else pBuf = buf; DWORD uCrc32 = 0; ZIP_SIZE_TYPE uCompressed = 0, uUncompressed = 0; CBytesWriter::ReadBytes(uCrc32, pBuf); CBytesWriter::ReadBytes(uCompressed, pBuf + 4, sizeOfSize); CBytesWriter::ReadBytes(uUncompressed, pBuf + 4 + sizeOfSize, sizeOfSize); return uCrc32 == m_uCrc32 && uCompressed == m_uComprSize && uUncompressed == m_uUncomprSize; } DWORD CZipFileHeader::GetSize()const { DWORD uSize = FILEHEADERSIZE + PredictFileNameSize() + GetCommentSize(); uSize += m_aCentralExtraData.GetTotalSize(); if (m_stringSettings.m_bStoreNameInExtraData) { CZipString temp; if (m_pszFileName != NULL) temp = *m_pszFileName; else ConvertFileName(temp); if (temp.GetLength() > 0) { uSize += 4 + 2 + 4; // headerID, size + version, flag + filename code page CZipAutoBuffer buffer; ZipCompatibility::ConvertStringToBuffer(temp, buffer, m_stringSettings.m_uNameCodePage); uSize += buffer.GetSize(); if (!m_stringSettings.IsStandardCommentCodePage()) uSize += 4; } } return uSize; } DWORD CZipFileHeader::GetLocalSize(bool bReal)const { DWORD uSize = LOCALFILEHEADERSIZE + m_aLocalExtraData.GetTotalSize(); if (bReal) uSize += m_uLocalFileNameSize; else uSize += PredictFileNameSize(); return uSize; } void CZipFileHeader::SetComment(LPCTSTR lpszComment) { ZipCompatibility::ConvertStringToBuffer(lpszComment, m_pszComment, m_stringSettings.m_uCommentCodePage); } CZipString CZipFileHeader::GetComment() const { CZipString temp; ZipCompatibility::ConvertBufferToString(temp, m_pszComment, m_stringSettings.m_uCommentCodePage); return temp; } int CZipFileHeader::GetCompressionLevel() const { if (m_uMethod == CZipCompressor::methodStore) return CZipCompressor::levelStore; else if ((m_uFlag & (WORD) 6) != 0) return 1; else if ((m_uFlag & (WORD) 4) != 0) return 2; else if ((m_uFlag & (WORD) 2) != 0) return CZipCompressor::levelBest; else return CZipCompressor::levelDefault; } void CZipFileHeader::SetFileName(LPCTSTR lpszFileName) { if (m_pszFileName == NULL) m_pszFileName = new CZipString(lpszFileName); else *m_pszFileName = lpszFileName; m_pszFileNameBuffer.Release(); } CZipString& CZipFileHeader::GetFileName(bool bClearBuffer) { if (m_pszFileName != NULL) return *m_pszFileName; m_pszFileName = new CZipString(_T("")); ConvertFileName(*m_pszFileName); // don't keep it in memory if (bClearBuffer) m_pszFileNameBuffer.Release(); return *m_pszFileName; } bool CZipFileHeader::IsDirectory() { return ZipPlatform::IsDirectory(GetSystemAttr()); } DWORD CZipFileHeader::GetSystemAttr() { int iSystemComp = GetSystemCompatibility(); if (ZipCompatibility::IsPlatformSupported(iSystemComp)) { DWORD uAttr = iSystemComp == ZipCompatibility::zcUnix ? (m_uExternalAttr >> 16) : (m_uExternalAttr & 0xFFFF); if (!uAttr && CZipPathComponent::HasEndingSeparator(GetFileName())) return ZipPlatform::GetDefaultDirAttributes(); // can happen else { uAttr = ZipCompatibility::ConvertToSystem(uAttr, iSystemComp, ZipPlatform::GetSystemID()); #ifdef ZIP_ARCHIVE_LNX // converting from Windows attributes may create a not readable linux directory if (iSystemComp != ZipCompatibility::zcUnix && ZipPlatform::IsDirectory(uAttr)) return ZipPlatform::GetDefaultDirAttributes(); #endif return uAttr; } } else return CZipPathComponent::HasEndingSeparator(GetFileName()) ? ZipPlatform::GetDefaultDirAttributes() : ZipPlatform::GetDefaultAttributes(); } void CZipFileHeader::SetSystemAttr(DWORD uAttr) { // make it readable under Unix as well, since it stores its attributes in HIWORD(uAttr) int iSystemComp = GetSystemCompatibility(); m_uExternalAttr = ZipCompatibility::ConvertToSystem(uAttr, ZipPlatform::GetSystemID(), iSystemComp); if (iSystemComp == ZipCompatibility::zcUnix) { m_uExternalAttr <<= 16; if (ZipPlatform::IsDirectory(uAttr)) m_uExternalAttr |= 0x10; // make it recognizable under other systems (all use 0x10 for directory) } else // make it readable under linux m_uExternalAttr |= (ZipCompatibility::ConvertToSystem(uAttr, ZipPlatform::GetSystemID(), ZipCompatibility::zcUnix) << 16); } CZipFileHeader& CZipFileHeader::operator=(const CZipFileHeader& header) { m_uVersionMadeBy = header.m_uVersionMadeBy; m_uVersionNeeded = header.m_uVersionNeeded; m_uFlag = header.m_uFlag; m_uMethod = header.m_uMethod; m_uModTime = header.m_uModTime; m_uModDate = header.m_uModDate; m_uCrc32 = header.m_uCrc32; m_uComprSize = header.m_uComprSize; m_uUncomprSize = header.m_uUncomprSize; m_uVolumeStart = header.m_uVolumeStart; m_uInternalAttr = header.m_uInternalAttr; m_uLocalComprSize = header.m_uLocalComprSize; m_uLocalUncomprSize = header.m_uUncomprSize; m_uExternalAttr = header.m_uExternalAttr; m_uLocalFileNameSize = header.m_uLocalFileNameSize;; m_uOffset = header.m_uOffset; m_aLocalExtraData = header.m_aLocalExtraData; m_aCentralExtraData = header.m_aCentralExtraData; m_uEncryptionMethod = header.m_uEncryptionMethod; if (m_pszFileName) delete m_pszFileName; if (header.m_pszFileName) m_pszFileName = new CZipString(*header.m_pszFileName); else m_pszFileName = NULL; m_pszFileNameBuffer = header.m_pszFileNameBuffer; m_pszComment = header.m_pszComment; m_stringSettings = header.m_stringSettings; return *this; } void CZipFileHeader::WriteSmallDataDescriptor(char* pDest, bool bLocal) { WriteCrc32(pDest); if (bLocal) { CBytesWriter::WriteBytes(pDest + 4, m_uLocalComprSize, 4); CBytesWriter::WriteBytes(pDest + 8, m_uLocalUncomprSize, 4); } else { CBytesWriter::WriteBytes(pDest + 4, m_uComprSize, 4); CBytesWriter::WriteBytes(pDest + 8, m_uUncomprSize, 4); } } void CZipFileHeader::WriteDataDescriptor(CZipStorage* pStorage) { if (!IsDataDescriptor()) return; bool signature = NeedsSignatureInDataDescriptor(pStorage); CZipAutoBuffer buf; buf.Allocate(GetDataDescriptorSize(signature)); char* pBuf; if (signature) { memcpy(buf, CZipStorage::m_gszExtHeaderSignat, 4); pBuf = (char*)buf + 4; } else pBuf = buf; WriteCrc32(pBuf); CBytesWriter::WriteBytes(pBuf + 4, m_uComprSize, 4); CBytesWriter::WriteBytes(pBuf + 8, m_uUncomprSize, 4); pStorage->Write(buf, buf.GetSize(), true); } void CZipFileHeader::UpdateLocalHeader(CZipStorage* pStorage) { if (pStorage->IsSegmented() != 0 || IsDataDescriptor()) // there is nothing to fix return; pStorage->Flush(); ZIP_FILE_USIZE uPos = pStorage->m_pFile->GetPosition(); // update crc and sizes, the sizes may already be all right, // but 8 more bytes won't make a difference, we need to update crc32 anyway CZipAutoBuffer buf(12); m_uLocalComprSize = CBytesWriter::WriteSafeU32(m_uComprSize); m_uLocalUncomprSize = CBytesWriter::WriteSafeU32(m_uUncomprSize); WriteSmallDataDescriptor(buf); pStorage->Seek(m_uOffset + 14); pStorage->m_pFile->Write(buf, 12); pStorage->m_pFile->Seek(uPos); } void CZipFileHeader::WriteCrc32(char* pBuf) const { DWORD uCrc = m_bIgnoreCrc32 ? 0 : m_uCrc32; CBytesWriter::WriteBytes(pBuf, uCrc); }