// ZipCentralDir.cpp: implementation of the CZipCentralDir class. // //////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2000 Tadeusz Dracz. // For conditions of distribution and use, see copyright notice in ZipArchive.h //////////////////////////////////////////////////////////////////////////////// #include "stdafx.h" #include "ZipCentralDir.h" #include "ZipArchive.h" struct CZipAutoHandle { HANDLE m_hFileMap; LPVOID m_pFileMap; CZipAutoHandle() { m_hFileMap = NULL; m_pFileMap = NULL; } bool CreateMapping(HANDLE hFile) { m_hFileMap = CreateFileMapping(hFile, NULL, PAGE_READWRITE, 0, 0, _T("ZipArchive Mapping File")); if (!m_hFileMap) return false; // Get pointer to memory representing file m_pFileMap = MapViewOfFile(m_hFileMap, FILE_MAP_WRITE, 0, 0, 0); return (m_pFileMap != NULL); } void RemoveMapping() { if (m_pFileMap) { UnmapViewOfFile(m_pFileMap); m_pFileMap = NULL; } if (m_hFileMap) { CloseHandle(m_hFileMap); m_hFileMap = NULL; } } ~CZipAutoHandle() { RemoveMapping(); } }; #define ZIPCENTRALDIRSIZE 22 ////////////////////////////////////////////////////////////////////// // Construction/Destruction char CZipCentralDir::m_gszSignature[] = {0x50, 0x4b, 0x05, 0x06}; CZipCentralDir::CZipCentralDir() { m_bConvertAfterOpen = true; m_bFindFastEnabled = false; m_pStorage = NULL; m_pOpenedFile = NULL; m_iBufferSize = 32768; } void CZipCentralDir::Init() { m_bOnDisk = false; m_uBytesBeforeZip = m_uCentrDirPos = 0; m_pOpenedFile = NULL; m_pszComment.Release(); } CZipCentralDir::~CZipCentralDir() { Clear(); } void CZipCentralDir::Read() { ASSERT(m_pStorage); WORD uCommentSize; m_uCentrDirPos = Locate(); m_pStorage->m_pFile->Seek(m_uCentrDirPos, CFile::begin); CZipAutoBuffer buf(ZIPCENTRALDIRSIZE); DWORD uRead = m_pStorage->m_pFile->Read(buf, ZIPCENTRALDIRSIZE ); if (uRead != ZIPCENTRALDIRSIZE) ThrowError(ZIP_BADZIPFILE); memcpy(&m_szSignature, buf, 4); memcpy(&m_uThisDisk, buf + 4, 2); memcpy(&m_uDiskWithCD, buf + 6, 2); memcpy(&m_uDiskEntriesNo, buf + 8, 2); memcpy(&m_uEntriesNumber, buf + 10, 2); memcpy(&m_uSize, buf + 12, 4); memcpy(&m_uOffset, buf + 16, 4); memcpy(&uCommentSize, buf + 20, 2); buf.Release(); m_pStorage->UpdateSpanMode(m_uThisDisk); // if m_uThisDisk is not zero, it is enough to say that it is multi archive ASSERT((!m_uThisDisk && (m_uEntriesNumber == m_uDiskEntriesNo) && !m_uDiskWithCD) || m_uThisDisk); if (!m_pStorage->IsSpanMode() && ((DWORD)m_uCentrDirPos < m_uOffset + m_uSize)) ThrowError(ZIP_BADZIPFILE); if (uCommentSize) { m_pszComment.Allocate(uCommentSize); uRead = m_pStorage->m_pFile->Read(m_pszComment, uCommentSize); if (uRead != uCommentSize) ThrowError(ZIP_BADZIPFILE); } m_uBytesBeforeZip = m_pStorage->IsSpanMode() ? 0 : m_uCentrDirPos - m_uSize - m_uOffset; if ((!m_uSize && m_uEntriesNumber) || (!m_uEntriesNumber && m_uSize)) ThrowError(ZIP_BADZIPFILE); m_bOnDisk = true; m_pStorage->ChangeDisk(m_uDiskWithCD); if (!m_uSize) return; ReadHeaders(); } // return the location of the beginning of the "end" record in the file DWORD CZipCentralDir::Locate() { // maximum size of end of central dir record long uMaxRecordSize = 0xffff + ZIPCENTRALDIRSIZE; DWORD uFileSize = m_pStorage->m_pFile->GetLength(); if ((DWORD)uMaxRecordSize > uFileSize) uMaxRecordSize = uFileSize; CZipAutoBuffer buf(m_iBufferSize); long uPosInFile = 0; int uRead = 0; // backward reading while (uPosInFile < uMaxRecordSize) { uPosInFile = uRead + m_iBufferSize; if (uPosInFile > uMaxRecordSize) uPosInFile = uMaxRecordSize; int iToRead = uPosInFile - uRead; m_pStorage->m_pFile->Seek(-uPosInFile, CFile::end); int iActuallyRead = m_pStorage->m_pFile->Read(buf, iToRead); if (iActuallyRead != iToRead) ThrowError(ZIP_BADZIPFILE); // search from the very last bytes to prevent an error if inside archive // there are packed other arhives for (int i = iToRead - 4; i >=0 ; i--) if (!memcmp((char*)buf + i, m_gszSignature, 4)) return uFileSize - (uPosInFile - i); uRead += iToRead - 3; } ThrowError(ZIP_CDIR_NOTFOUND); return 0; } void CZipCentralDir::ThrowError(int err) { AfxThrowZipException(err, m_pStorage->m_pFile->GetFilePath()); } void CZipCentralDir::ReadHeaders() { m_pStorage->m_pFile->Seek(m_uOffset + m_uBytesBeforeZip, CFile::begin); RemoveHeaders(); for (int i = 0; i < m_uEntriesNumber; i++) { CZipFileHeader* pHeader = new CZipFileHeader; m_headers.Add(pHeader); // bezpośrednio następuje w razie wyjątku if (!pHeader->Read(m_pStorage)) ThrowError(ZIP_BADZIPFILE); ConvertFileName(true, true, pHeader); } if (m_bFindFastEnabled) BuildFindFastArray(); } // remove all headers from the central dir void CZipCentralDir::Clear(bool bEverything) { m_pOpenedFile = NULL; m_pLocalExtraField.Release(); if (bEverything) { RemoveHeaders(); m_findarray.RemoveAll(); m_pszComment.Release(); } } bool CZipCentralDir::IsValidIndex(WORD uIndex) { bool ret = uIndex < m_headers.GetSize(); #ifdef _DEBUG if (!ret) TRACE(_T("Not a valid index.\n")); #endif return ret; } // open the file for extracting void CZipCentralDir::OpenFile(WORD uIndex) { WORD uLocalExtraFieldSize; m_pOpenedFile = m_headers[uIndex]; m_pStorage->ChangeDisk(m_pOpenedFile->m_uDiskStart); m_pStorage->m_pFile->Seek(m_pOpenedFile->m_uOffset + m_uBytesBeforeZip, CFile::begin); if (!m_pOpenedFile->ReadLocal(m_pStorage, uLocalExtraFieldSize)) ThrowError(ZIP_BADZIPFILE); m_pLocalExtraField.Release(); // just in case if (uLocalExtraFieldSize) { int iCurrDsk = m_pStorage->GetCurrentDisk(); m_pLocalExtraField.Allocate(uLocalExtraFieldSize); m_pStorage->Read(m_pLocalExtraField, uLocalExtraFieldSize, true); if (m_pStorage->GetCurrentDisk() != iCurrDsk) ThrowError(ZIP_BADZIPFILE); } } void CZipCentralDir::CloseFile() { if (!m_pOpenedFile) return; m_pLocalExtraField.Release(); if (m_pOpenedFile->IsDataDescr()) { CZipAutoBuffer buf(12); m_pStorage->Read(buf, 4, false); // in span mode, files that are divided between disks have bit 3 of flag set // which tell about the presence of the data descriptor after the compressed data // This signature may be in the disk spanning archive that is one volume only // (it is detected as a non disk spanning archive) if (memcmp(buf, CZipStorage::m_gszExtHeaderSignat, 4) != 0) // there is no signature m_pStorage->m_pFile->Seek(-4, CFile::current); m_pStorage->Read(buf, 12, false); if (!m_pOpenedFile->CheckCrcAndSizes(buf)) ThrowError(ZIP_BADZIPFILE); } m_pOpenedFile = NULL; } // add new header using the argument as a template void CZipCentralDir::AddNewFile(CZipFileHeader & header) { CZipFileHeader* pHeader = new CZipFileHeader(header); m_pOpenedFile = pHeader; m_headers.Add(pHeader); if (m_bFindFastEnabled) InsertFindFastElement(pHeader, WORD(m_headers.GetSize() - 1)); // GetSize IS > 0, 'cos we've just added a header RemoveFromDisk(); m_pStorage->m_pFile->SeekToEnd(); } // called during adding or deleting files; remove the central dir from the disk void CZipCentralDir::RemoveFromDisk() { if (m_bOnDisk) { ASSERT(!m_pStorage->IsSpanMode()); // you can't add files to the existing disk span archive or to delete them from it m_pStorage->m_pFile->SetLength(m_uBytesBeforeZip + m_uOffset); m_bOnDisk = false; } } void CZipCentralDir::CloseNewFile() { CZipAutoBuffer buf(12 + 4); short iToWrite = 0; bool bIsSpan = m_pStorage->IsSpanMode() != 0; bool bEncrypted = m_pOpenedFile->IsEncrypted(); if (m_pOpenedFile->IsDataDescr()) { if (bIsSpan || bEncrypted) { memcpy(buf, m_pStorage->m_gszExtHeaderSignat, 4); iToWrite += 4; } } else /*if (!IsSpan)*/ { ASSERT(!bIsSpan && !bEncrypted); m_pStorage->Flush(); m_pStorage->m_pFile->Seek(m_pOpenedFile->m_uOffset + 14, CFile::begin); // we don't have to restore the pointer, because before adding a new file, // the pointer is moved to the end } m_pOpenedFile->GetCrcAndSizes(buf + iToWrite); iToWrite += 12; // offset set during writting the local header m_pOpenedFile->m_uOffset -= m_uBytesBeforeZip; // write the data descriptor and a disk spanning signature at once m_pStorage->Write(buf, iToWrite, true); if (!bIsSpan && bEncrypted) { // write the information to the local header too m_pStorage->Flush(); m_pStorage->m_pFile->Seek(m_pOpenedFile->m_uOffset + 14, CFile::begin); m_pStorage->Write(buf + 4, 12, true); } if (!bIsSpan) m_pStorage->Flush(); m_pOpenedFile = NULL; } void CZipCentralDir::Write() { if (m_bOnDisk) return; if (!m_pStorage->IsSpanMode()) { m_pStorage->Flush(); m_pStorage->m_pFile->SeekToEnd(); } m_uEntriesNumber = (WORD)m_headers.GetSize(); m_uSize = 0; bool bDontAllowDiskChange = false; // if there is a disk spanning archive in creation and it is only one-volume, // (current disk is 0 so far, no bytes has been written so we know they are // all in the buffer) make sure that it will be after writting central dir // and make it a non disk spanning archive if (m_pStorage->IsSpanMode() && m_pStorage->GetCurrentDisk() == 0) { DWORD uVolumeFree = m_pStorage->VolumeLeft(); // calculate the size of data descriptors already in the buffer or on the disk // (they will be removed in the non disk spanning archive): // multi span signature at the beginnig (4 bytes) + the size of the data // descr. for each file (multi span signature + 12 bytes data) // the count of bytes to add: central dir size - total to remove; DWORD uToGrow = GetSize(true) - (4 + m_uEntriesNumber * (4 + 12)); if (uVolumeFree >= uToGrow) // lets make sure it will be one-disk archive { // can the operation be done only in the buffer? if (!m_pStorage->m_iBytesWritten && // no bytes on the disk yet (m_pStorage->GetFreeInBuffer() >= uToGrow)) // is the buffer big enough? { RemoveDataDescr(true); bDontAllowDiskChange = true; // if the disk change occurs somehow, we'll throw an error later } else { m_pStorage->Flush(); m_pStorage->m_pFile->Flush(); if (RemoveDataDescr(false)) bDontAllowDiskChange = true; // if the disk change occurs somehow, we'll throw an error later } } } WriteHeaders(); m_uThisDisk = (WORD)m_pStorage->GetCurrentDisk(); DWORD uSize = WriteCentralEnd(); if (bDontAllowDiskChange && (m_pStorage->GetCurrentDisk() != 0)) ThrowError(ZIP_BADZIPFILE); // if after adding a central directory there is a disk change, // update the information and write it again if (m_uThisDisk != m_pStorage->GetCurrentDisk()) { m_uThisDisk = (WORD)m_pStorage->GetCurrentDisk(); if (m_uEntriesNumber) { m_uDiskEntriesNo = 0; } else { m_uDiskWithCD = m_uThisDisk; m_uOffset = 0; } if (m_pStorage->m_uBytesInWriteBuffer >= uSize) // if the data is still in the buffer, simply remove it m_pStorage->m_uBytesInWriteBuffer -= uSize; else { m_pStorage->Flush(); m_pStorage->m_iBytesWritten -= uSize; m_pStorage->m_pFile->SeekToBegin(); } WriteCentralEnd(); } } void CZipCentralDir::WriteHeaders() { m_uDiskEntriesNo = 0; m_uDiskWithCD = (WORD)m_pStorage->GetCurrentDisk(); m_uOffset = m_pStorage->GetPosition() - m_uBytesBeforeZip; if (!m_uEntriesNumber) return; WORD iDisk = m_uDiskWithCD; for (int i = 0; i < m_uEntriesNumber; i++) { CZipFileHeader* pHeader = m_headers[i]; ConvertFileName(false, true, pHeader); m_uSize += pHeader->Write(m_pStorage); if (m_pStorage->GetCurrentDisk() != iDisk) { m_uDiskEntriesNo = 1; iDisk = (WORD)m_pStorage->GetCurrentDisk(); // update the information about the offset and starting disk if the // first header was written on the new disk if (i == 0) { m_uOffset = 0; m_uDiskWithCD = iDisk; } } else m_uDiskEntriesNo++; } } DWORD CZipCentralDir::WriteCentralEnd() { DWORD uSize = GetSize(); CZipAutoBuffer buf(uSize); WORD uCommentSize = (WORD)m_pszComment.GetSize(); memcpy(buf, m_gszSignature, 4); memcpy(buf + 4, &m_uThisDisk, 2); memcpy(buf + 6, &m_uDiskWithCD, 2); memcpy(buf + 8, &m_uDiskEntriesNo, 2); memcpy(buf + 10, &m_uEntriesNumber, 2); memcpy(buf + 12, &m_uSize, 4); memcpy(buf + 16, &m_uOffset, 4); memcpy(buf + 20, &uCommentSize, 2); memcpy(buf + 22, m_pszComment, uCommentSize); m_pStorage->Write(buf, uSize, true); return uSize; } void CZipCentralDir::RemoveFile(WORD uIndex) { CZipFileHeader* pHeader = m_headers[uIndex]; if (m_bFindFastEnabled) { int i = FindFileNameIndex(pHeader->GetFileName(), true); ASSERT(i != -1); int uIndex = m_findarray[i].m_uIndex; m_findarray.RemoveAt(i); // shift down the indexes for (int j = 0; j < m_findarray.GetSize(); j++) { if (m_findarray[j].m_uIndex > uIndex) m_findarray[j].m_uIndex--; } } delete pHeader; m_headers.RemoveAt(uIndex); } DWORD CZipCentralDir::GetSize(bool bWhole) { DWORD uHeaders = 0; if (bWhole) { for (int i = 0; i < m_headers.GetSize(); i++) uHeaders += m_headers[i]->GetSize(); } return ZIPCENTRALDIRSIZE + m_pszComment.GetSize() + uHeaders; } // remove data descriptors from the write buffer in the disk spanning volume // that is one-disk only (do not remove from password encrypted files) bool CZipCentralDir::RemoveDataDescr(bool bFromBuffer) { CZipAutoHandle ah; char* pFile = NULL; DWORD uSize; if (bFromBuffer) { uSize = m_pStorage->m_uBytesInWriteBuffer; pFile = m_pStorage->m_pWriteBuffer; } else { uSize = m_pStorage->m_pFile->GetLength(); if (!ah.CreateMapping((HANDLE)m_pStorage->m_pFile->m_hFile)) return false; pFile = (char*)ah.m_pFileMap; } DWORD uOffsetToChange = 4; DWORD uToCopy = 0; DWORD uPosInBuffer = 0; DWORD uExtraHeaderLen; // this will work providing the order in the m_headers is the same as // in the archive for (int i = 0; i < m_headers.GetSize(); i++) { // update the flag value in the local and central header // int uDataDescr = (m_headers[i]->m_uFlag & 8) ? (4 + 12) : 0; CZipFileHeader* pHeader = m_headers[i]; char* pSour = pFile + pHeader->m_uOffset; if (!pHeader->IsEncrypted()) { // removing data descriptor pHeader->m_uFlag &= ~8; // update local header: // write modified flag in the local header memcpy(pSour + 6, &pHeader->m_uFlag, 2); uExtraHeaderLen = 4/*ext. header signature*/ + 12/*data descriptor*/; } else // do not remove data descriptors from encrypted files uExtraHeaderLen = 0; // update crc32 and sizes' values pHeader->GetCrcAndSizes(pSour+ 14); uToCopy = (i == (m_headers.GetSize() - 1) ? uSize : m_headers[i + 1]->m_uOffset) - pHeader->m_uOffset - uExtraHeaderLen; memmove(pFile + uPosInBuffer, pSour, uToCopy); uPosInBuffer += uToCopy; pHeader->m_uOffset -= uOffsetToChange; uOffsetToChange += uExtraHeaderLen; } if (bFromBuffer) m_pStorage->m_uBytesInWriteBuffer = uPosInBuffer; else { m_pStorage->m_iBytesWritten = uPosInBuffer; ah.RemoveMapping(); m_pStorage->m_pFile->SetLength(uPosInBuffer); } return true; } void CZipCentralDir::RemoveHeaders() { for (int i = 0; i < m_headers.GetSize(); i++) delete m_headers[i]; m_headers.RemoveAll(); } void CZipCentralDir::ConvertAll() { ASSERT(!m_bConvertAfterOpen); for (int i = 0; i < m_headers.GetSize(); i++) ConvertFileName(true, false, m_headers[i]); m_bConvertAfterOpen = true; } void CZipCentralDir::BuildFindFastArray() { m_findarray.RemoveAll();// just in case for (int i = 0; i < m_headers.GetSize(); i++) InsertFindFastElement(m_headers[i], (WORD)i); } void CZipCentralDir::InsertFindFastElement(CZipFileHeader* pHeader, WORD uIndex) { CString fileName = pHeader->GetFileName(); int iSize = m_findarray.GetSize(); // Our initial binary search range encompasses the entire array of filenames: int start = 0; int end = iSize; // Keep halving our search range until we find the right place // to insert the new element: while ( start < end ) { // Find the midpoint of the search range: int midpoint = ( start + end ) / 2; // Compare the filename with the filename at the midpoint of the current search range: int result = CompareElement(fileName, (WORD)midpoint, true); // If our filename is larger, it must fall in the first half of the search range: if ( result > 0 ) { end = midpoint; } // If it's smaller, it must fall in the last half: else if ( result < 0 ) { start = midpoint + 1; } // If they're equal, we can go ahead and insert here: else { start = midpoint; break; } } m_findarray.InsertAt(start, CZipFindFast(pHeader, WORD(uIndex == -1 ? iSize : uIndex /* just in case */))); } int CZipCentralDir::FindFileNameIndex(LPCTSTR lpszFileName, bool bCaseSensitive) { int start = 0; int end = m_findarray.GetUpperBound(); // Keep halving our search range until we find the given element: while ( start <= end ) { // Find the midpoint of the search range: int midpoint = ( start + end ) / 2; // Compare the given filename with the filename at the midpoint of the search range: int result = CompareElement(lpszFileName, (WORD)midpoint, bCaseSensitive); // If our filename is smaller, it must fall in the first half of the search range: if ( result > 0 ) { end = midpoint - 1; } // If it's larger, it must fall in the last half: else if ( result < 0 ) { start = midpoint + 1; } // If they're equal, return the result: else { return midpoint; } } // Signal failure: return -1; }