/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */ // unzip.cpp : Defines the entry point for the console application. // #include "Engine/StdH.h" #include #include #include #include #include #include #include #include #include #include extern CTCriticalSection zip_csLock; // critical section for access to zlib functions #pragma pack(1) // before each file in the zip #define SIGNATURE_LFH 0x04034b50 struct LocalFileHeader { SWORD lfh_swVersionToExtract; SWORD lfh_swGPBFlag; SWORD lfh_swCompressionMethod; SWORD lfh_swModFileTime; SWORD lfh_swModFileDate; SLONG lfh_slCRC32; SLONG lfh_slCompressedSize; SLONG lfh_slUncompressedSize; SWORD lfh_swFileNameLen; SWORD lfh_swExtraFieldLen; // follows: // filename (variable size) // extra field (variable size) }; // after file data, only if compressed from a non-seekable stream // this exists only if bit 3 in GPB flag is set #define SIGNATURE_DD 0x08074b50 struct DataDescriptor { SLONG dd_slCRC32; SLONG dd_slCompressedSize; SLONG dd_slUncompressedSize; }; // one file in central dir #define SIGNATURE_FH 0x02014b50 struct FileHeader { SWORD fh_swVersionMadeBy; SWORD fh_swVersionToExtract; SWORD fh_swGPBFlag; SWORD fh_swCompressionMethod; SWORD fh_swModFileTime; SWORD fh_swModFileDate; SLONG fh_slCRC32; SLONG fh_slCompressedSize; SLONG fh_slUncompressedSize; SWORD fh_swFileNameLen; SWORD fh_swExtraFieldLen; SWORD fh_swFileCommentLen; SWORD fh_swDiskNoStart; SWORD fh_swInternalFileAttributes; SLONG fh_swExternalFileAttributes; SLONG fh_slLocalHeaderOffset; // follows: // filename (variable size) // extra field (variable size) // file comment (variable size) }; // at the end of entire zip file #define SIGNATURE_EOD 0x06054b50 struct EndOfDir { SWORD eod_swDiskNo; SWORD eod_swDirStartDiskNo; SWORD eod_swEntriesInDirOnThisDisk; SWORD eod_swEntriesInDir; SLONG eod_slSizeOfDir; SLONG eod_slDirOffsetInFile; SWORD eod_swCommentLength; // follows: // zipfile comment (variable size) }; #pragma pack() // one entry (a zipped file) in a zip archive class CZipEntry { public: CTFileName *ze_pfnmArchive; // path of the archive CTFileName ze_fnm; // file name with path inside archive SLONG ze_slCompressedSize; // size of file in the archive SLONG ze_slUncompressedSize; // size when uncompressed SLONG ze_slDataOffset; // position of compressed data inside archive ULONG ze_ulCRC; // checksum of the file BOOL ze_bStored; // set if file is not compressed, but stored BOOL ze_bMod; // set if from a mod's archive void Clear(void) { ze_pfnmArchive = NULL; ze_fnm.Clear(); } }; // an open instance of a file inside a zip class CZipHandle { public: BOOL zh_bOpen; // set if the handle is used CZipEntry zh_zeEntry; // the entry itself z_stream zh_zstream; // zlib filestream for decompression FILE *zh_fFile; // open handle of the archive #define BUF_SIZE 1024 UBYTE *zh_pubBufIn; // input buffer CZipHandle(void); void Clear(void); void ThrowZLIBError_t(int ierr, const CTString &strDescription); }; // get error string for a zlib error CTString GetZlibError(int ierr) { switch(ierr) { case Z_OK : return TRANS("Z_OK "); break; case Z_STREAM_END : return TRANS("Z_STREAM_END "); break; case Z_NEED_DICT : return TRANS("Z_NEED_DICT "); break; case Z_STREAM_ERROR : return TRANS("Z_STREAM_ERROR "); break; case Z_DATA_ERROR : return TRANS("Z_DATA_ERROR "); break; case Z_MEM_ERROR : return TRANS("Z_MEM_ERROR "); break; case Z_BUF_ERROR : return TRANS("Z_BUF_ERROR "); break; case Z_VERSION_ERROR: return TRANS("Z_VERSION_ERROR"); break; case Z_ERRNO : { CTString strError; strError.PrintF(TRANS("Z_ERRNO: %s"), strerror(errno)); return strError; } break; default: { CTString strError; strError.PrintF(TRANS("Unknown ZLIB error: %d"), ierr); return strError; } break; } } CZipHandle::CZipHandle(void) { zh_bOpen = FALSE; zh_fFile = NULL; zh_pubBufIn = NULL; memset(&zh_zstream, 0, sizeof(zh_zstream)); } void CZipHandle::Clear(void) { zh_bOpen = FALSE; zh_zeEntry.Clear(); // clear the zlib stream CTSingleLock slZip(&zip_csLock, TRUE); inflateEnd(&zh_zstream); memset(&zh_zstream, 0, sizeof(zh_zstream)); // free buffers if (zh_pubBufIn!=NULL) { FreeMemory(zh_pubBufIn); zh_pubBufIn = NULL; } // close the zip archive file if (zh_fFile!=NULL) { fclose(zh_fFile); zh_fFile = NULL; } } void CZipHandle::ThrowZLIBError_t(int ierr, const CTString &strDescription) { ThrowF_t(TRANS("(%s/%s) %s - ZLIB error: %s - %s"), (const char *) (const CTString&)*zh_zeEntry.ze_pfnmArchive, (const char *) (const CTString&)zh_zeEntry.ze_fnm, (const char *) strDescription, (const char *) GetZlibError(ierr), (const char *) zh_zstream.msg); } // all files in all active zip archives static CStaticStackArray _azeFiles; // handles for currently open files static CStaticStackArray _azhHandles; // filenames of all archives static CStaticStackArray _afnmArchives; // convert slashes to backslashes in a file path void ConvertSlashes(char *p) { while (*p!=0) { if (*p=='/') { *p = '\\'; } p++; } } #define READ_ZIPFIELD(f, x) { fread(&x, sizeof(x), 1, f); BYTESWAP(x); } // read directory of a zip archive and add all files in it to active set void ReadZIPDirectory_t(CTFileName *pfnmZip) { FILE *f = fopen(*pfnmZip, "rb"); if (f==NULL) { ThrowF_t(TRANS("%s: Cannot open file (%s)"), (const char *) (CTString&)*pfnmZip, strerror(errno)); } // start at the end of file, minus expected minimum overhead fseek(f, 0, SEEK_END); int iPos = ftell(f)-sizeof(long)-sizeof(EndOfDir)+2; // do not search more than 128k (should be around 65k at most) int iMinPos = iPos-128*1024; if (iMinPos<0) { iMinPos = 0; } EndOfDir eod; BOOL bEODFound = FALSE; // while not at beginning for(; iPos>iMinPos; iPos--) { // read signature fseek(f, iPos, SEEK_SET); SLONG slSig; fread(&slSig, sizeof(slSig), 1, f); BYTESWAP(slSig); // if this is the sig if (slSig==SIGNATURE_EOD) { // read directory end READ_ZIPFIELD(f, eod.eod_swDiskNo); READ_ZIPFIELD(f, eod.eod_swDirStartDiskNo); READ_ZIPFIELD(f, eod.eod_swEntriesInDirOnThisDisk); READ_ZIPFIELD(f, eod.eod_swEntriesInDir); READ_ZIPFIELD(f, eod.eod_slSizeOfDir); READ_ZIPFIELD(f, eod.eod_slDirOffsetInFile); READ_ZIPFIELD(f, eod.eod_swCommentLength); // if multi-volume zip if (eod.eod_swDiskNo!=0||eod.eod_swDirStartDiskNo!=0 ||eod.eod_swEntriesInDirOnThisDisk!=eod.eod_swEntriesInDir) { // fail ThrowF_t(TRANS("%s: Multi-volume zips are not supported"), (const char *) (CTString&)*pfnmZip); } // check against empty zips if (eod.eod_swEntriesInDir<=0) { // fail ThrowF_t(TRANS("%s: Empty zip"), (const char *) (CTString&)*pfnmZip); } // all ok bEODFound = TRUE; break; } } // if eod not found if (!bEODFound) { // fail ThrowF_t(TRANS("%s: Cannot find 'end of central directory'"), (const char *) (CTString&)*pfnmZip); } // check if the zip is from a mod BOOL bMod = pfnmZip->HasPrefix(_fnmApplicationPath+"Mods\\") || pfnmZip->HasPrefix(_fnmCDPath+"Mods\\"); // go to the beginning of the central dir fseek(f, eod.eod_slDirOffsetInFile, SEEK_SET); INDEX ctFiles = 0; // for each file for (INDEX iFile=0; iFileslMaxFileName) { ThrowF_t(TRANS("%s: Too long filepath in zip"), (const char *) (CTString&)*pfnmZip); } if (fh.fh_swFileNameLen<=0) { ThrowF_t(TRANS("%s: Invalid filepath length in zip"), (const char *) (CTString&)*pfnmZip); } fread(strBuffer, fh.fh_swFileNameLen, 1, f); // skip eventual comment and extra fields if (fh.fh_swFileCommentLen+fh.fh_swExtraFieldLen>0) { fseek(f, fh.fh_swFileCommentLen+fh.fh_swExtraFieldLen, SEEK_CUR); } // if the file is directory if (strBuffer[strlen(strBuffer)-1]=='/') { // check size if (fh.fh_slUncompressedSize!=0 ||fh.fh_slCompressedSize!=0) { ThrowF_t(TRANS("%s/%s: Invalid directory"), (const char *) (CTString&)*pfnmZip, strBuffer); } // if the file is real file } else { ctFiles++; // convert filename ConvertSlashes(strBuffer); // create a new entry CZipEntry &ze = _azeFiles.Push(); // remember the file's data ze.ze_fnm = CTString(strBuffer); ze.ze_pfnmArchive = pfnmZip; ze.ze_slCompressedSize = fh.fh_slCompressedSize; ze.ze_slUncompressedSize = fh.fh_slUncompressedSize; ze.ze_slDataOffset = fh.fh_slLocalHeaderOffset; ze.ze_ulCRC = fh.fh_slCRC32; ze.ze_bMod = bMod; // check for compressopn if (fh.fh_swCompressionMethod==0) { ze.ze_bStored = TRUE; } else if (fh.fh_swCompressionMethod==8) { ze.ze_bStored = FALSE; } else { ThrowF_t(TRANS("%s/%s: Only 'deflate' compression is supported"), (const char *) (CTString&)*ze.ze_pfnmArchive, (const char *) ze.ze_fnm); } } } // if error reading if (ferror(f)) { // fail ThrowF_t(TRANS("%s: Error reading central directory"), (const char *) (CTString&)*pfnmZip); } // report that file was read CPrintF(TRANS(" %s: %d files\n"), (const char *) (CTString&)*pfnmZip, ctFiles++); } // add one zip archive to current active set void UNZIPAddArchive(const CTFileName &fnm) { // remember its filename CTFileName &fnmNew = _afnmArchives.Push(); fnmNew = fnm; } // read directory of an archive void ReadOneArchiveDir_t(CTFileName &fnm) { // remember current number of files INDEX ctOrgFiles = _azeFiles.Count(); // try to try { // read the directory and add all files ReadZIPDirectory_t(&fnm); // if failed } catch (char *) { // if some files were added if (ctOrgFiles<_azeFiles.Count()) { // remove them if (ctOrgFiles==0) { _azeFiles.PopAll(); } else { _azeFiles.PopUntil(ctOrgFiles-1); } } // cascade the error throw; } } int qsort_ArchiveCTFileName_reverse(const void *elem1, const void *elem2 ) { // get the filenames const CTFileName &fnm1 = *(CTFileName *)elem1; const CTFileName &fnm2 = *(CTFileName *)elem2; // find if any is in a mod or on CD BOOL bMod1 = fnm1.HasPrefix(_fnmApplicationPath+"Mods\\"); BOOL bCD1 = fnm1.HasPrefix(_fnmCDPath); BOOL bModCD1 = fnm1.HasPrefix(_fnmCDPath+"Mods\\"); BOOL bMod2 = fnm2.HasPrefix(_fnmApplicationPath+"Mods\\"); BOOL bCD2 = fnm2.HasPrefix(_fnmCDPath); BOOL bModCD2 = fnm2.HasPrefix(_fnmCDPath+"Mods\\"); // calculate priorities based on location of gro file INDEX iPriority1 = 0; if (bMod1) { iPriority1 = 3; } else if (bModCD1) { iPriority1 = 2; } else if (bCD1) { iPriority1 = 0; } else { iPriority1 = 1; } INDEX iPriority2 = 0; if (bMod2) { iPriority2 = 3; } else if (bModCD2) { iPriority2 = 2; } else if (bCD2) { iPriority2 = 0; } else { iPriority2 = 1; } // find sorting order if (iPriority1iPriority2) { return -1; } else { return -stricmp(fnm1, fnm2); } } // read directories of all currently added archives, in reverse alphabetical order void UNZIPReadDirectoriesReverse_t(void) { // if no archives if (_afnmArchives.Count()==0) { // do nothing return; } // sort the archive filenames reversely qsort(&_afnmArchives[0], _afnmArchives.Count(), sizeof(CTFileName), qsort_ArchiveCTFileName_reverse); CTString strAllErrors = ""; // for each archive for (INDEX iArchive=0; iArchive<_afnmArchives.Count(); iArchive++) { //try to try { // read its directory ReadOneArchiveDir_t(_afnmArchives[iArchive]); // if failed } catch (char *strError) { // remember the error strAllErrors += strError; strAllErrors += "\n"; } } // if there were errors if (strAllErrors!="") { // report them ThrowF_t("%s", (const char *) strAllErrors); } } // check if a zip file entry exists BOOL UNZIPFileExists(const CTFileName &fnm) { // for each file for(INDEX iFile=0; iFile<_azeFiles.Count(); iFile++) { // if it is that one if (_azeFiles[iFile].ze_fnm == fnm) { return TRUE; } } return FALSE; } // enumeration for all files in all zips INDEX UNZIPGetFileCount(void) { return _azeFiles.Count(); } const CTFileName &UNZIPGetFileAtIndex(INDEX i) { return _azeFiles[i].ze_fnm; } BOOL UNZIPIsFileAtIndexMod(INDEX i) { return _azeFiles[i].ze_bMod; } // get index of a file (-1 for no file) INDEX UNZIPGetFileIndex(const CTFileName &fnm) { // for each file for(INDEX iFile=0; iFile<_azeFiles.Count(); iFile++) { // if it is that one if (_azeFiles[iFile].ze_fnm == fnm) { return iFile; } } return -1; } // get info on a zip file entry void UNZIPGetFileInfo(INDEX iHandle, CTFileName &fnmZip, SLONG &slOffset, SLONG &slSizeCompressed, SLONG &slSizeUncompressed, BOOL &bCompressed) { // check handle number if(iHandle<0 || iHandle>=_azhHandles.Count()) { ASSERT(FALSE); return; } // get the handle CZipHandle &zh = _azhHandles[iHandle]; // check the handle if (!zh.zh_bOpen) { ASSERT(FALSE); return; } // get parameters fnmZip = *zh.zh_zeEntry.ze_pfnmArchive; bCompressed = !zh.zh_zeEntry.ze_bStored; slOffset = zh.zh_zeEntry.ze_slDataOffset; slSizeCompressed = zh.zh_zeEntry.ze_slCompressedSize; slSizeUncompressed = zh.zh_zeEntry.ze_slUncompressedSize; } // open a zip file entry for reading INDEX UNZIPOpen_t(const CTFileName &fnm) { CZipEntry *pze = NULL; // for each file for(INDEX iFile=0; iFile<_azeFiles.Count(); iFile++) { // if it is that one if (_azeFiles[iFile].ze_fnm == fnm) { // stop searching pze = &_azeFiles[iFile]; break; } } // if not found if (pze==NULL) { // fail ThrowF_t(TRANS("File not found: %s"), (const char *) (const CTString&)fnm); } // for each existing handle BOOL bHandleFound = FALSE; INDEX iHandle; for (iHandle=1; iHandle<_azhHandles.Count(); iHandle++) { // if unused if (!_azhHandles[iHandle].zh_bOpen) { // use that one bHandleFound = TRUE; break; } } // if no free handle found if (!bHandleFound) { // create a new one iHandle = _azhHandles.Count(); _azhHandles.Push(1); } // get the handle CZipHandle &zh = _azhHandles[iHandle]; ASSERT(!zh.zh_bOpen); zh.zh_zeEntry = *pze; // open zip archive for reading zh.zh_fFile = fopen(*pze->ze_pfnmArchive, "rb"); // if failed to open it if (zh.zh_fFile==NULL) { // clear the handle zh.Clear(); // fail ThrowF_t(TRANS("Cannot open '%s': %s"), (const char *) (const CTString&)*pze->ze_pfnmArchive, strerror(errno)); } // seek to the local header of the entry fseek(zh.zh_fFile, zh.zh_zeEntry.ze_slDataOffset, SEEK_SET); // read the sig SLONG slSig; fread(&slSig, sizeof(slSig), 1, zh.zh_fFile); BYTESWAP(slSig); // if this is not the expected sig if (slSig!=SIGNATURE_LFH) { // fail ThrowF_t(TRANS("%s/%s: Wrong signature for 'local file header'"), (const char *) (CTString&)*zh.zh_zeEntry.ze_pfnmArchive, (const char *) zh.zh_zeEntry.ze_fnm); } // read the header LocalFileHeader lfh; READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swVersionToExtract); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swGPBFlag); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swCompressionMethod); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swModFileTime); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swModFileDate); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_slCRC32); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_slCompressedSize); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_slUncompressedSize); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swFileNameLen); READ_ZIPFIELD(zh.zh_fFile, lfh.lfh_swExtraFieldLen); // determine exact compressed data position zh.zh_zeEntry.ze_slDataOffset = ftell(zh.zh_fFile)+lfh.lfh_swFileNameLen+lfh.lfh_swExtraFieldLen; // seek there fseek(zh.zh_fFile, zh.zh_zeEntry.ze_slDataOffset, SEEK_SET); // allocate buffers zh.zh_pubBufIn = (UBYTE*)AllocMemory(BUF_SIZE); // initialize zlib stream CTSingleLock slZip(&zip_csLock, TRUE); zh.zh_zstream.next_out = NULL; zh.zh_zstream.avail_out = 0; zh.zh_zstream.next_in = NULL; zh.zh_zstream.avail_in = 0; zh.zh_zstream.zalloc = (alloc_func)Z_NULL; zh.zh_zstream.zfree = (free_func)Z_NULL; int err = inflateInit2(&zh.zh_zstream, -15); // 32k windows // if failed if (err!=Z_OK) { // clean up what is possible FreeMemory(zh.zh_pubBufIn ); zh.zh_pubBufIn = NULL; fclose(zh.zh_fFile); zh.zh_fFile = NULL; // throw error zh.ThrowZLIBError_t(err, TRANS("Cannot init inflation")); } // return the handle successfully zh.zh_bOpen = TRUE; return iHandle; } // get uncompressed size of a file SLONG UNZIPGetSize(INDEX iHandle) { // check handle number if(iHandle<0 || iHandle>=_azhHandles.Count()) { ASSERT(FALSE); return 0; } // get the handle CZipHandle &zh = _azhHandles[iHandle]; // check the handle if (!zh.zh_bOpen) { ASSERT(FALSE); return 0; } return zh.zh_zeEntry.ze_slUncompressedSize; } // get CRC of a file ULONG UNZIPGetCRC(INDEX iHandle) { // check handle number if(iHandle<0 || iHandle>=_azhHandles.Count()) { ASSERT(FALSE); return 0; } // get the handle CZipHandle &zh = _azhHandles[iHandle]; // check the handle if (!zh.zh_bOpen) { ASSERT(FALSE); return 0; } return zh.zh_zeEntry.ze_ulCRC; } // read a block from zip file void UNZIPReadBlock_t(INDEX iHandle, UBYTE *pub, SLONG slStart, SLONG slLen) { // check handle number if(iHandle<0 || iHandle>=_azhHandles.Count()) { ASSERT(FALSE); return; } // get the handle CZipHandle &zh = _azhHandles[iHandle]; // check the handle if (!zh.zh_bOpen) { ASSERT(FALSE); return; } // if behind the end of file if (slStart>=zh.zh_zeEntry.ze_slUncompressedSize) { // do nothing return; } // clamp length to end of the entry data slLen = Min(slLen, zh.zh_zeEntry.ze_slUncompressedSize-slStart); // if not compressed if (zh.zh_zeEntry.ze_bStored) { // just read from file fseek(zh.zh_fFile, zh.zh_zeEntry.ze_slDataOffset+slStart, SEEK_SET); fread(pub, 1, slLen, zh.zh_fFile); return; } CTSingleLock slZip(&zip_csLock, TRUE); // if behind the current pointer if (slStartzh.zh_zstream.total_out) { // if zlib has no more input while(zh.zh_zstream.avail_in==0) { // read more to it SLONG slRead = fread(zh.zh_pubBufIn, 1, BUF_SIZE, zh.zh_fFile); if (slRead<=0) { return; // !!!! } // tell zlib that there is more to read zh.zh_zstream.next_in = zh.zh_pubBufIn; zh.zh_zstream.avail_in = slRead; } // read dummy data from the output #define DUMMY_SIZE 256 UBYTE aubDummy[DUMMY_SIZE]; // decode to output zh.zh_zstream.avail_out = Min(SLONG(slStart-zh.zh_zstream.total_out), SLONG(DUMMY_SIZE)); zh.zh_zstream.next_out = aubDummy; int ierr = inflate(&zh.zh_zstream, Z_SYNC_FLUSH); if (ierr!=Z_OK && ierr!=Z_STREAM_END) { zh.ThrowZLIBError_t(ierr, TRANS("Error seeking in zip")); } } // if not streaming continuously if (slStart!=zh.zh_zstream.total_out) { // this should not happen ASSERT(FALSE); // read empty memset(pub, 0, slLen); return; } // set zlib for writing to the block zh.zh_zstream.avail_out = slLen; zh.zh_zstream.next_out = pub; // while there is something to write to given block while (zh.zh_zstream.avail_out>0) { // if zlib has no more input while(zh.zh_zstream.avail_in==0) { // read more to it SLONG slRead = fread(zh.zh_pubBufIn, 1, BUF_SIZE, zh.zh_fFile); if (slRead<=0) { return; // !!!! } // tell zlib that there is more to read zh.zh_zstream.next_in = zh.zh_pubBufIn; zh.zh_zstream.avail_in = slRead; } // decode to output int ierr = inflate(&zh.zh_zstream, Z_SYNC_FLUSH); if (ierr!=Z_OK && ierr!=Z_STREAM_END) { zh.ThrowZLIBError_t(ierr, TRANS("Error reading from zip")); } } } // close a zip file entry void UNZIPClose(INDEX iHandle) { // check handle number if(iHandle<0 || iHandle>=_azhHandles.Count()) { ASSERT(FALSE); return; } // get the handle CZipHandle &zh = _azhHandles[iHandle]; // check the handle if (!zh.zh_bOpen) { ASSERT(FALSE); return; } // clear it zh.Clear(); }