// Copyright (C) 2002-2011 Nikolaus Gebhardt // This file is part of the "Irrlicht Engine". // For conditions of distribution and use, see copyright notice in irrlicht.h #include "CZipReader.h" #include "os.h" // This method is used for error output from bzip2. extern "C" void bz_internal_error(int errorCode) { irr::os::Printer::log("Error in bzip2 handling", irr::core::stringc(errorCode), irr::ELL_ERROR); } #ifdef __IRR_COMPILE_WITH_ZIP_ARCHIVE_LOADER_ #include "CFileList.h" #include "CReadFile.h" #include "coreutil.h" #include "IrrCompileConfig.h" #ifdef _IRR_COMPILE_WITH_ZLIB_ #ifndef _IRR_USE_NON_SYSTEM_ZLIB_ #include <zlib.h> // use system lib #else #include "zlib/zlib.h" #endif #ifdef _IRR_COMPILE_WITH_ZIP_ENCRYPTION_ #include "aesGladman/fileenc.h" #endif #ifdef _IRR_COMPILE_WITH_BZIP2_ #ifndef _IRR_USE_NON_SYSTEM_BZLIB_ #include <bzlib.h> #else #include "bzip2/bzlib.h" #endif #endif #ifdef _IRR_COMPILE_WITH_LZMA_ #include "lzma/LzmaDec.h" #endif #endif namespace irr { namespace io { // ----------------------------------------------------------------------------- // zip loader // ----------------------------------------------------------------------------- //! Constructor CArchiveLoaderZIP::CArchiveLoaderZIP(io::IFileSystem* fs) : FileSystem(fs) { #ifdef _DEBUG setDebugName("CArchiveLoaderZIP"); #endif } //! returns true if the file maybe is able to be loaded by this class bool CArchiveLoaderZIP::isALoadableFileFormat(const io::path& filename) const { return core::hasFileExtension(filename, "zip", "pk3") || core::hasFileExtension(filename, "gz", "tgz"); } //! Check to see if the loader can create archives of this type. bool CArchiveLoaderZIP::isALoadableFileFormat(E_FILE_ARCHIVE_TYPE fileType) const { return (fileType == EFAT_ZIP || fileType == EFAT_GZIP); } //! Creates an archive from the filename /** \param file File handle to check. \return Pointer to newly created archive, or 0 upon error. */ IFileArchive* CArchiveLoaderZIP::createArchive(const io::path& filename, bool ignoreCase, bool ignorePaths) const { IFileArchive *archive = 0; io::IReadFile* file = FileSystem->createAndOpenFile(filename); if (file) { archive = createArchive(file, ignoreCase, ignorePaths); file->drop(); } return archive; } //! creates/loads an archive from the file. //! \return Pointer to the created archive. Returns 0 if loading failed. IFileArchive* CArchiveLoaderZIP::createArchive(io::IReadFile* file, bool ignoreCase, bool ignorePaths) const { IFileArchive *archive = 0; if (file) { file->seek(0); u16 sig; file->read(&sig, 2); #ifdef __BIG_ENDIAN__ os::Byteswap::byteswap(sig); #endif file->seek(0); bool isGZip = (sig == 0x8b1f); archive = new CZipReader(file, ignoreCase, ignorePaths, isGZip); } return archive; } //! Check if the file might be loaded by this class /** Check might look into the file. \param file File handle to check. \return True if file seems to be loadable. */ bool CArchiveLoaderZIP::isALoadableFileFormat(io::IReadFile* file) const { SZIPFileHeader header; file->read( &header.Sig, 4 ); #ifdef __BIG_ENDIAN__ os::Byteswap::byteswap(header.Sig); #endif return header.Sig == 0x04034b50 || // ZIP (header.Sig&0xffff) == 0x8b1f; // gzip } // ----------------------------------------------------------------------------- // zip archive // ----------------------------------------------------------------------------- CZipReader::CZipReader(IReadFile* file, bool ignoreCase, bool ignorePaths, bool isGZip) : CFileList((file ? file->getFileName() : io::path("")), ignoreCase, ignorePaths), File(file), IsGZip(isGZip) { #ifdef _DEBUG setDebugName("CZipReader"); #endif if (File) { File->grab(); // load file entries if (IsGZip) while (scanGZipHeader()) { } else while (scanZipHeader()) { } sort(); } } CZipReader::~CZipReader() { if (File) File->drop(); } //! get the archive type E_FILE_ARCHIVE_TYPE CZipReader::getType() const { return IsGZip ? EFAT_GZIP : EFAT_ZIP; } const IFileList* CZipReader::getFileList() const { return this; } //! scans for a local header, returns false if there is no more local file header. //! The gzip file format seems to think that there can be multiple files in a gzip file //! but none bool CZipReader::scanGZipHeader() { SZipFileEntry entry; entry.Offset = 0; memset(&entry.header, 0, sizeof(SZIPFileHeader)); // read header SGZIPMemberHeader header; if (File->read(&header, sizeof(SGZIPMemberHeader)) == sizeof(SGZIPMemberHeader)) { #ifdef __BIG_ENDIAN__ os::Byteswap::byteswap(header.sig); os::Byteswap::byteswap(header.time); #endif // check header value if (header.sig != 0x8b1f) return false; // now get the file info if (header.flags & EGZF_EXTRA_FIELDS) { // read lenth of extra data u16 dataLen; File->read(&dataLen, 2); #ifdef __BIG_ENDIAN__ os::Byteswap::byteswap(dataLen); #endif // skip it File->seek(dataLen, true); } io::path ZipFileName = ""; if (header.flags & EGZF_FILE_NAME) { c8 c; File->read(&c, 1); while (c) { ZipFileName.append(c); File->read(&c, 1); } } else { // no file name? ZipFileName = Path; core::deletePathFromFilename(ZipFileName); // rename tgz to tar or remove gz extension if (core::hasFileExtension(ZipFileName, "tgz")) { ZipFileName[ ZipFileName.size() - 2] = 'a'; ZipFileName[ ZipFileName.size() - 1] = 'r'; } else if (core::hasFileExtension(ZipFileName, "gz")) { ZipFileName[ ZipFileName.size() - 3] = 0; ZipFileName.validate(); } } if (header.flags & EGZF_COMMENT) { c8 c='a'; while (c) File->read(&c, 1); } if (header.flags & EGZF_CRC16) File->seek(2, true); // we are now at the start of the data blocks entry.Offset = File->getPos(); entry.header.FilenameLength = ZipFileName.size(); entry.header.CompressionMethod = header.compressionMethod; entry.header.DataDescriptor.CompressedSize = (File->getSize() - 8) - File->getPos(); // seek to file end File->seek(entry.header.DataDescriptor.CompressedSize, true); // read CRC File->read(&entry.header.DataDescriptor.CRC32, 4); // read uncompressed size File->read(&entry.header.DataDescriptor.UncompressedSize, 4); #ifdef __BIG_ENDIAN__ os::Byteswap::byteswap(entry.header.DataDescriptor.CRC32); os::Byteswap::byteswap(entry.header.DataDescriptor.UncompressedSize); #endif // now we've filled all the fields, this is just a standard deflate block addItem(ZipFileName, entry.Offset, entry.header.DataDescriptor.UncompressedSize, false, 0); FileInfo.push_back(entry); } // there's only one block of data in a gzip file return false; } //! scans for a local header, returns false if there is no more local file header. bool CZipReader::scanZipHeader(bool ignoreGPBits) { io::path ZipFileName = ""; SZipFileEntry entry; entry.Offset = 0; memset(&entry.header, 0, sizeof(SZIPFileHeader)); File->read(&entry.header, sizeof(SZIPFileHeader)); #ifdef __BIG_ENDIAN__ entry.header.Sig = os::Byteswap::byteswap(entry.header.Sig); entry.header.VersionToExtract = os::Byteswap::byteswap(entry.header.VersionToExtract); entry.header.GeneralBitFlag = os::Byteswap::byteswap(entry.header.GeneralBitFlag); entry.header.CompressionMethod = os::Byteswap::byteswap(entry.header.CompressionMethod); entry.header.LastModFileTime = os::Byteswap::byteswap(entry.header.LastModFileTime); entry.header.LastModFileDate = os::Byteswap::byteswap(entry.header.LastModFileDate); entry.header.DataDescriptor.CRC32 = os::Byteswap::byteswap(entry.header.DataDescriptor.CRC32); entry.header.DataDescriptor.CompressedSize = os::Byteswap::byteswap(entry.header.DataDescriptor.CompressedSize); entry.header.DataDescriptor.UncompressedSize = os::Byteswap::byteswap(entry.header.DataDescriptor.UncompressedSize); entry.header.FilenameLength = os::Byteswap::byteswap(entry.header.FilenameLength); entry.header.ExtraFieldLength = os::Byteswap::byteswap(entry.header.ExtraFieldLength); #endif if (entry.header.Sig != 0x04034b50) return false; // local file headers end here. // read filename { c8 *tmp = new c8 [ entry.header.FilenameLength + 2 ]; File->read(tmp, entry.header.FilenameLength); tmp[entry.header.FilenameLength] = 0; ZipFileName = tmp; delete [] tmp; } #ifdef _IRR_COMPILE_WITH_ZIP_ENCRYPTION_ // AES encryption if ((entry.header.GeneralBitFlag & ZIP_FILE_ENCRYPTED) && (entry.header.CompressionMethod == 99)) { s16 restSize = entry.header.ExtraFieldLength; SZipFileExtraHeader extraHeader; while (restSize) { File->read(&extraHeader, sizeof(extraHeader)); #ifdef __BIG_ENDIAN__ extraHeader.ID = os::Byteswap::byteswap(extraHeader.ID); extraHeader.Size = os::Byteswap::byteswap(extraHeader.Size); #endif restSize -= sizeof(extraHeader); if (extraHeader.ID==(s16)0x9901) { SZipFileAESExtraData data; File->read(&data, sizeof(data)); #ifdef __BIG_ENDIAN__ data.Version = os::Byteswap::byteswap(data.Version); data.CompressionMode = os::Byteswap::byteswap(data.CompressionMode); #endif restSize -= sizeof(data); if (data.Vendor[0]=='A' && data.Vendor[1]=='E') { // encode values into Sig // AE-Version | Strength | ActualMode entry.header.Sig = ((data.Version & 0xff) << 24) | (data.EncryptionStrength << 16) | (data.CompressionMode); File->seek(restSize, true); break; } } } } // move forward length of extra field. else #endif if (entry.header.ExtraFieldLength) File->seek(entry.header.ExtraFieldLength, true); // if bit 3 was set, use CentralDirectory for setup if (!ignoreGPBits && entry.header.GeneralBitFlag & ZIP_INFO_IN_DATA_DESCRIPTOR) { SZIPFileCentralDirEnd dirEnd; FileInfo.clear(); Files.clear(); // First place where the end record could be stored File->seek(File->getSize()-22); const char endID[] = {0x50, 0x4b, 0x05, 0x06, 0x0}; char tmp[5]={'\0'}; bool found=false; // search for the end record ID while (!found && File->getPos()>0) { int seek=8; File->read(tmp, 4); switch (tmp[0]) { case 0x50: if (!strcmp(endID, tmp)) { seek=4; found=true; } break; case 0x4b: seek=5; break; case 0x05: seek=6; break; case 0x06: seek=7; break; } File->seek(-seek, true); } File->read(&dirEnd, sizeof(dirEnd)); #ifdef __BIG_ENDIAN__ dirEnd.NumberDisk = os::Byteswap::byteswap(dirEnd.NumberDisk); dirEnd.NumberStart = os::Byteswap::byteswap(dirEnd.NumberStart); dirEnd.TotalDisk = os::Byteswap::byteswap(dirEnd.TotalDisk); dirEnd.TotalEntries = os::Byteswap::byteswap(dirEnd.TotalEntries); dirEnd.Size = os::Byteswap::byteswap(dirEnd.Size); dirEnd.Offset = os::Byteswap::byteswap(dirEnd.Offset); dirEnd.CommentLength = os::Byteswap::byteswap(dirEnd.CommentLength); #endif FileInfo.reallocate(dirEnd.TotalEntries); File->seek(dirEnd.Offset); while (scanCentralDirectoryHeader()) { } return false; } // store position in file entry.Offset = File->getPos(); // move forward length of data File->seek(entry.header.DataDescriptor.CompressedSize, true); #ifdef _DEBUG //os::Debuginfo::print("added file from archive", ZipFileName.c_str()); #endif addItem(ZipFileName, entry.Offset, entry.header.DataDescriptor.UncompressedSize, ZipFileName.lastChar()=='/', FileInfo.size()); FileInfo.push_back(entry); return true; } //! scans for a local header, returns false if there is no more local file header. bool CZipReader::scanCentralDirectoryHeader() { io::path ZipFileName = ""; SZIPFileCentralDirFileHeader entry; File->read(&entry, sizeof(SZIPFileCentralDirFileHeader)); #ifdef __BIG_ENDIAN__ entry.Sig = os::Byteswap::byteswap(entry.Sig); entry.VersionMadeBy = os::Byteswap::byteswap(entry.VersionMadeBy); entry.VersionToExtract = os::Byteswap::byteswap(entry.VersionToExtract); entry.GeneralBitFlag = os::Byteswap::byteswap(entry.GeneralBitFlag); entry.CompressionMethod = os::Byteswap::byteswap(entry.CompressionMethod); entry.LastModFileTime = os::Byteswap::byteswap(entry.LastModFileTime); entry.LastModFileDate = os::Byteswap::byteswap(entry.LastModFileDate); entry.CRC32 = os::Byteswap::byteswap(entry.CRC32); entry.CompressedSize = os::Byteswap::byteswap(entry.CompressedSize); entry.UncompressedSize = os::Byteswap::byteswap(entry.UncompressedSize); entry.FilenameLength = os::Byteswap::byteswap(entry.FilenameLength); entry.ExtraFieldLength = os::Byteswap::byteswap(entry.ExtraFieldLength); entry.FileCommentLength = os::Byteswap::byteswap(entry.FileCommentLength); entry.DiskNumberStart = os::Byteswap::byteswap(entry.DiskNumberStart); entry.InternalFileAttributes = os::Byteswap::byteswap(entry.InternalFileAttributes); entry.ExternalFileAttributes = os::Byteswap::byteswap(entry.ExternalFileAttributes); entry.RelativeOffsetOfLocalHeader = os::Byteswap::byteswap(entry.RelativeOffsetOfLocalHeader); #endif if (entry.Sig != 0x02014b50) return false; // central dir headers end here. const long pos = File->getPos(); File->seek(entry.RelativeOffsetOfLocalHeader); scanZipHeader(true); File->seek(pos+entry.FilenameLength+entry.ExtraFieldLength+entry.FileCommentLength); FileInfo.getLast().header.DataDescriptor.CompressedSize=entry.CompressedSize; FileInfo.getLast().header.DataDescriptor.UncompressedSize=entry.UncompressedSize; FileInfo.getLast().header.DataDescriptor.CRC32=entry.CRC32; Files.getLast().Size=entry.UncompressedSize; return true; } //! opens a file by file name IReadFile* CZipReader::createAndOpenFile(const io::path& filename) { s32 index = findFile(filename, false); if (index != -1) return createAndOpenFile(index); return 0; } #ifdef _IRR_COMPILE_WITH_LZMA_ //! Used for LZMA decompression. The lib has no default memory management namespace { void *SzAlloc(void *p, size_t size) { p = p; return malloc(size); } void SzFree(void *p, void *address) { p = p; free(address); } ISzAlloc lzmaAlloc = { SzAlloc, SzFree }; } #endif //! opens a file by index IReadFile* CZipReader::createAndOpenFile(u32 index) { // Irrlicht supports 0, 8, 12, 14, 99 //0 - The file is stored (no compression) //1 - The file is Shrunk //2 - The file is Reduced with compression factor 1 //3 - The file is Reduced with compression factor 2 //4 - The file is Reduced with compression factor 3 //5 - The file is Reduced with compression factor 4 //6 - The file is Imploded //7 - Reserved for Tokenizing compression algorithm //8 - The file is Deflated //9 - Reserved for enhanced Deflating //10 - PKWARE Date Compression Library Imploding //12 - bzip2 - Compression Method from libbz2, WinZip 10 //14 - LZMA - Compression Method, WinZip 12 //96 - Jpeg compression - Compression Method, WinZip 12 //97 - WavPack - Compression Method, WinZip 11 //98 - PPMd - Compression Method, WinZip 10 //99 - AES encryption, WinZip 9 const SZipFileEntry &e = FileInfo[Files[index].ID]; wchar_t buf[64]; s16 actualCompressionMethod=e.header.CompressionMethod; IReadFile* decrypted=0; u8* decryptedBuf=0; u32 decryptedSize=e.header.DataDescriptor.CompressedSize; #ifdef _IRR_COMPILE_WITH_ZIP_ENCRYPTION_ if ((e.header.GeneralBitFlag & ZIP_FILE_ENCRYPTED) && (e.header.CompressionMethod == 99)) { os::Printer::log("Reading encrypted file."); u8 salt[16]={0}; const u16 saltSize = (((e.header.Sig & 0x00ff0000) >>16)+1)*4; File->seek(e.Offset); File->read(salt, saltSize); char pwVerification[2]; char pwVerificationFile[2]; File->read(pwVerification, 2); fcrypt_ctx zctx; // the encryption context int rc = fcrypt_init( (e.header.Sig & 0x00ff0000) >>16, (const unsigned char*)Password.c_str(), // the password Password.size(), // number of bytes in password salt, // the salt (unsigned char*)pwVerificationFile, // on return contains password verifier &zctx); // encryption context if (strncmp(pwVerificationFile, pwVerification, 2)) { os::Printer::log("Wrong password"); return 0; } decryptedSize= e.header.DataDescriptor.CompressedSize-saltSize-12; decryptedBuf= new u8[decryptedSize]; u32 c = 0; while ((c+32768)<=decryptedSize) { File->read(decryptedBuf+c, 32768); fcrypt_decrypt( decryptedBuf+c, // pointer to the data to decrypt 32768, // how many bytes to decrypt &zctx); // decryption context c+=32768; } File->read(decryptedBuf+c, decryptedSize-c); fcrypt_decrypt( decryptedBuf+c, // pointer to the data to decrypt decryptedSize-c, // how many bytes to decrypt &zctx); // decryption context char fileMAC[10]; char resMAC[10]; rc = fcrypt_end( (unsigned char*)resMAC, // on return contains the authentication code &zctx); // encryption context if (rc != 10) { os::Printer::log("Error on encryption closing"); delete [] decryptedBuf; return 0; } File->read(fileMAC, 10); if (strncmp(fileMAC, resMAC, 10)) { os::Printer::log("Error on encryption check"); delete [] decryptedBuf; return 0; } decrypted = io::createMemoryReadFile(decryptedBuf, decryptedSize, Files[index].FullName, true); actualCompressionMethod = (e.header.Sig & 0xffff); #if 0 if ((e.header.Sig & 0xff000000)==0x01000000) { } else if ((e.header.Sig & 0xff000000)==0x02000000) { } else { os::Printer::log("Unknown encryption method"); return 0; } #endif } #endif switch(actualCompressionMethod) { case 0: // no compression { if (decrypted) return decrypted; else return createLimitReadFile(Files[index].FullName, File, e.Offset, decryptedSize); } case 8: { #ifdef _IRR_COMPILE_WITH_ZLIB_ const u32 uncompressedSize = e.header.DataDescriptor.UncompressedSize; c8* pBuf = new c8[ uncompressedSize ]; if (!pBuf) { swprintf ( buf, 64, L"Not enough memory for decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); if (decrypted) decrypted->drop(); return 0; } u8 *pcData = decryptedBuf; if (!pcData) { pcData = new u8[decryptedSize]; if (!pcData) { swprintf ( buf, 64, L"Not enough memory for decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); delete [] pBuf; return 0; } //memset(pcData, 0, decryptedSize); File->seek(e.Offset); File->read(pcData, decryptedSize); } // Setup the inflate stream. z_stream stream; s32 err; stream.next_in = (Bytef*)pcData; stream.avail_in = (uInt)decryptedSize; stream.next_out = (Bytef*)pBuf; stream.avail_out = uncompressedSize; stream.zalloc = (alloc_func)0; stream.zfree = (free_func)0; // Perform inflation. wbits < 0 indicates no zlib header inside the data. err = inflateInit2(&stream, -MAX_WBITS); if (err == Z_OK) { err = inflate(&stream, Z_FINISH); inflateEnd(&stream); if (err == Z_STREAM_END) err = Z_OK; err = Z_OK; inflateEnd(&stream); } if (decrypted) decrypted->drop(); else delete[] pcData; if (err != Z_OK) { swprintf ( buf, 64, L"Error decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); delete [] pBuf; return 0; } else return io::createMemoryReadFile(pBuf, uncompressedSize, Files[index].FullName, true); #else return 0; // zlib not compiled, we cannot decompress the data. #endif } case 12: { #ifdef _IRR_COMPILE_WITH_BZIP2_ const u32 uncompressedSize = e.header.DataDescriptor.UncompressedSize; c8* pBuf = new c8[ uncompressedSize ]; if (!pBuf) { swprintf ( buf, 64, L"Not enough memory for decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); if (decrypted) decrypted->drop(); return 0; } u8 *pcData = decryptedBuf; if (!pcData) { pcData = new u8[decryptedSize]; if (!pcData) { swprintf ( buf, 64, L"Not enough memory for decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); delete [] pBuf; return 0; } //memset(pcData, 0, decryptedSize); File->seek(e.Offset); File->read(pcData, decryptedSize); } bz_stream bz_ctx={0}; /* use BZIP2's default memory allocation bz_ctx->bzalloc = NULL; bz_ctx->bzfree = NULL; bz_ctx->opaque = NULL; */ int err = BZ2_bzDecompressInit(&bz_ctx, 0, 0); /* decompression */ if(err != BZ_OK) { os::Printer::log("bzip2 decompression failed. File cannot be read.", ELL_ERROR); return 0; } bz_ctx.next_in = (char*)pcData; bz_ctx.avail_in = decryptedSize; /* pass all input to decompressor */ bz_ctx.next_out = pBuf; bz_ctx.avail_out = uncompressedSize; err = BZ2_bzDecompress(&bz_ctx); err = BZ2_bzDecompressEnd(&bz_ctx); if (decrypted) decrypted->drop(); else delete[] pcData; if (err != BZ_OK) { swprintf ( buf, 64, L"Error decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); delete [] pBuf; return 0; } else return io::createMemoryReadFile(pBuf, uncompressedSize, Files[index].FullName, true); #else os::Printer::log("bzip2 decompression not supported. File cannot be read.", ELL_ERROR); return 0; #endif } case 14: { #ifdef _IRR_COMPILE_WITH_LZMA_ u32 uncompressedSize = e.header.DataDescriptor.UncompressedSize; c8* pBuf = new c8[ uncompressedSize ]; if (!pBuf) { swprintf ( buf, 64, L"Not enough memory for decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); if (decrypted) decrypted->drop(); return 0; } u8 *pcData = decryptedBuf; if (!pcData) { pcData = new u8[decryptedSize]; if (!pcData) { swprintf ( buf, 64, L"Not enough memory for decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); delete [] pBuf; return 0; } //memset(pcData, 0, decryptedSize); File->seek(e.Offset); File->read(pcData, decryptedSize); } ELzmaStatus status; SizeT tmpDstSize = uncompressedSize; SizeT tmpSrcSize = decryptedSize; int err = LzmaDecode((Byte*)pBuf, &tmpDstSize, pcData, &tmpSrcSize, 0, 0, LZMA_FINISH_END, &status, &lzmaAlloc); uncompressedSize = tmpDstSize; // may be different to expected value if (decrypted) decrypted->drop(); else delete[] pcData; if (err != SZ_OK) { swprintf ( buf, 64, L"Error decompressing %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); delete [] pBuf; return 0; } else return io::createMemoryReadFile(pBuf, uncompressedSize, Files[index].FullName, true); #else os::Printer::log("lzma decompression not supported. File cannot be read.", ELL_ERROR); return 0; #endif } case 99: // If we come here with an encrypted file, decryption support is missing os::Printer::log("Decryption support not enabled. File cannot be read.", ELL_ERROR); return 0; default: swprintf ( buf, 64, L"file has unsupported compression method. %s", Files[index].FullName.c_str() ); os::Printer::log( buf, ELL_ERROR); return 0; }; } } // end namespace io } // end namespace irr #endif // __IRR_COMPILE_WITH_ZIP_ARCHIVE_LOADER_
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