private int CheckSumRead(Stream inStream, FileResults fileResults, ulong totalSize, bool testcrc, bool testDeep) { if (_buffer0 == null) { _buffer0 = new byte[Buffersize]; _buffer1 = new byte[Buffersize]; } fileResults.MD5 = null; fileResults.SHA1 = null; fileResults.CRC = null; ThreadReadBuffer lbuffer = null; ThreadCRC tcrc32 = null; ThreadMD5 tmd5 = null; ThreadSHA1 tsha1 = null; ThreadCRC altCrc32 = null; ThreadMD5 altMd5 = null; ThreadSHA1 altSha1 = null; try { int maxHeaderSize = 128; long sizetogo = (long)totalSize; int sizenow = maxHeaderSize < sizetogo ? maxHeaderSize : (int)sizetogo; if (sizenow > 0) { inStream.Read(_buffer0, 0, sizenow); } fileResults.HeaderFileType = FileHeaderReader.GetType(_buffer0, sizenow, out int actualHeaderSize); // if the file has no header then just use the main hash checkers. if (fileResults.HeaderFileType == HeaderFileType.Nothing || actualHeaderSize == 0) { // no header found & not reading hashes. if (!(testcrc || testDeep)) { return(0); } // no header found so just push the initial buffer read into the hash checkers. // and then continue with the rest of the file. tcrc32 = new ThreadCRC(); if (testDeep) { tmd5 = new ThreadMD5(); tsha1 = new ThreadSHA1(); } tcrc32.Trigger(_buffer0, sizenow); tmd5?.Trigger(_buffer0, sizenow); tsha1?.Trigger(_buffer0, sizenow); tcrc32.Wait(); tmd5?.Wait(); tsha1?.Wait(); sizetogo -= sizenow; } else { // header found fileResults.AltSize = (ulong)((long)totalSize - actualHeaderSize); //setup main hash checkers if (testcrc || testDeep) { tcrc32 = new ThreadCRC(); } altCrc32 = new ThreadCRC(); if (testDeep) { tmd5 = new ThreadMD5(); tsha1 = new ThreadSHA1(); altMd5 = new ThreadMD5(); altSha1 = new ThreadSHA1(); } if (sizenow > actualHeaderSize) { // Already read more than the header, so we need to split what we read into the 2 hash checkers // first scan the header part from what we have already read. // scan what we read so far with just the main hashers tcrc32?.Trigger(_buffer0, actualHeaderSize); tmd5?.Trigger(_buffer0, actualHeaderSize); tsha1?.Trigger(_buffer0, actualHeaderSize); tcrc32?.Wait(); tmd5?.Wait(); tsha1?.Wait(); // put the rest of what we read into the second buffer, and scan with all hashers int restSize = sizenow - actualHeaderSize; for (int i = 0; i < restSize; i++) { _buffer1[i] = _buffer0[actualHeaderSize + i]; } tcrc32?.Trigger(_buffer1, restSize); tmd5?.Trigger(_buffer1, restSize); tsha1?.Trigger(_buffer1, restSize); altCrc32.Trigger(_buffer1, restSize); altMd5?.Trigger(_buffer1, restSize); altSha1?.Trigger(_buffer1, restSize); tcrc32?.Wait(); tmd5?.Wait(); tsha1?.Wait(); altCrc32.Wait(); altMd5?.Wait(); altSha1?.Wait(); sizetogo -= sizenow; } else { // Read less than the length of the header so read the rest of the header. // then continue to reader the full rest of the file. // scan what we read so far tcrc32?.Trigger(_buffer0, sizenow); tmd5?.Trigger(_buffer0, sizenow); tsha1?.Trigger(_buffer0, sizenow); tcrc32?.Wait(); tmd5?.Wait(); tsha1?.Wait(); sizetogo -= sizenow; // now read the rest of the header. sizenow = actualHeaderSize - sizenow; inStream.Read(_buffer0, 0, sizenow); // scan the rest of the header tcrc32?.Trigger(_buffer0, sizenow); tmd5?.Trigger(_buffer0, sizenow); tsha1?.Trigger(_buffer0, sizenow); tcrc32?.Wait(); tmd5?.Wait(); tsha1?.Wait(); sizetogo -= sizenow; } } lbuffer = new ThreadReadBuffer(inStream); // Pre load the first buffer0 int sizeNext = sizetogo > Buffersize ? Buffersize : (int)sizetogo; if (sizeNext > 0) { inStream.Read(_buffer0, 0, sizeNext); } int sizebuffer = sizeNext; sizetogo -= sizeNext; bool whichBuffer = true; while (sizebuffer > 0 && !lbuffer.errorState) { sizeNext = sizetogo > Buffersize ? Buffersize : (int)sizetogo; if (sizeNext > 0) { lbuffer.Trigger(whichBuffer ? _buffer1 : _buffer0, sizeNext); } byte[] buffer = whichBuffer ? _buffer0 : _buffer1; tcrc32?.Trigger(buffer, sizebuffer); tmd5?.Trigger(buffer, sizebuffer); tsha1?.Trigger(buffer, sizebuffer); altCrc32?.Trigger(buffer, sizebuffer); altMd5?.Trigger(buffer, sizebuffer); altSha1?.Trigger(buffer, sizebuffer); if (sizeNext > 0) { lbuffer.Wait(); } tcrc32?.Wait(); tmd5?.Wait(); tsha1?.Wait(); altCrc32?.Wait(); altMd5?.Wait(); altSha1?.Wait(); sizebuffer = sizeNext; sizetogo -= sizeNext; whichBuffer = !whichBuffer; } lbuffer.Finish(); tcrc32?.Finish(); tmd5?.Finish(); tsha1?.Finish(); altCrc32?.Finish(); altMd5?.Finish(); altSha1?.Finish(); } catch { lbuffer?.Dispose(); tcrc32?.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); altCrc32?.Dispose(); altMd5?.Dispose(); altSha1?.Dispose(); return(0x17); // need to remember what this number is for } if (lbuffer.errorState) { lbuffer.Dispose(); tcrc32?.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); altCrc32?.Dispose(); altMd5?.Dispose(); altSha1?.Dispose(); return(0x17); // need to remember what this number is for } fileResults.CRC = tcrc32?.Hash; fileResults.SHA1 = tsha1?.Hash; fileResults.MD5 = tmd5?.Hash; fileResults.AltCRC = altCrc32?.Hash; fileResults.AltSHA1 = altSha1?.Hash; fileResults.AltMD5 = altMd5?.Hash; lbuffer.Dispose(); tcrc32?.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); altCrc32?.Dispose(); altMd5?.Dispose(); altSha1?.Dispose(); return(0); }
private ZipReturn ReadBody(bool deepScan) { using (BinaryReader zipBr = new BinaryReader(_zipFs, Encoding.UTF8, true)) { byte ID1 = zipBr.ReadByte(); byte ID2 = zipBr.ReadByte(); if ((ID1 != 0x1f) || (ID2 != 0x8b)) { _zipFs.Close(); return(ZipReturn.ZipSignatureError); } byte CM = zipBr.ReadByte(); if (CM != 8) { _zipFs.Close(); return(ZipReturn.ZipUnsupportedCompression); } byte FLG = zipBr.ReadByte(); uint MTime = zipBr.ReadUInt32(); byte XFL = zipBr.ReadByte(); byte OS = zipBr.ReadByte(); //if FLG.FEXTRA set if ((FLG & 0x4) == 0x4) { int XLen = zipBr.ReadInt16(); byte[] bytes = zipBr.ReadBytes(XLen); if (XLen == 28) { md5Hash = new byte[16]; Array.Copy(bytes, 0, md5Hash, 0, 16); crc = new byte[4]; Array.Copy(bytes, 16, crc, 0, 4); uncompressedSize = BitConverter.ToUInt64(bytes, 20); } if (XLen == 77) { md5Hash = new byte[16]; Array.Copy(bytes, 0, md5Hash, 0, 16); crc = new byte[4]; Array.Copy(bytes, 16, crc, 0, 4); uncompressedSize = BitConverter.ToUInt64(bytes, 20); altType = (HeaderFileType)bytes[28]; altmd5Hash = new byte[16]; Array.Copy(bytes, 29, altmd5Hash, 0, 16); altsha1Hash = new byte[20]; Array.Copy(bytes, 45, altsha1Hash, 0, 20); altcrc = new byte[4]; Array.Copy(bytes, 65, altcrc, 0, 4); uncompressedAltSize = BitConverter.ToUInt64(bytes, 69); } } //if FLG.FNAME set if ((FLG & 0x8) == 0x8) { int XLen = zipBr.ReadInt16(); byte[] bytes = zipBr.ReadBytes(XLen); } //if FLG.FComment set if ((FLG & 0x10) == 0x10) { int XLen = zipBr.ReadInt16(); byte[] bytes = zipBr.ReadBytes(XLen); } //if FLG.FHCRC set if ((FLG & 0x2) == 0x2) { uint crc16 = zipBr.ReadUInt16(); } } compressedSize = (ulong)(_zipFs.Length - _zipFs.Position) - 8; datapos = _zipFs.Position; if (deepScan) { if (Buffer0 == null) { Buffer0 = new byte[Buffersize]; } if (Buffer1 == null) { Buffer1 = new byte[Buffersize]; } Stream ds = new ZlibBaseStream(_zipFs, CompressionMode.Decompress, CompressionLevel.Default, ZlibStreamFlavor.DEFLATE, true); ThreadLoadBuffer lbuffer = new ThreadLoadBuffer(ds); ThreadCRC crc32 = new ThreadCRC(); ThreadMD5 md5 = new ThreadMD5(); ThreadSHA1 sha1 = new ThreadSHA1(); ulong uncompressedRead = 0; int bufferRead = ds.Read(Buffer0, 0, Buffersize); uncompressedRead += (ulong)bufferRead; bool whichBuffer = true; while (bufferRead > 0) { // trigger the buffer loading worker lbuffer.Trigger(whichBuffer ? Buffer1 : Buffer0, Buffersize); byte[] buffer = whichBuffer ? Buffer0 : Buffer1; // trigger the hashing workers crc32.Trigger(buffer, bufferRead); md5.Trigger(buffer, bufferRead); sha1.Trigger(buffer, bufferRead); lbuffer.Wait(); crc32.Wait(); md5.Wait(); sha1.Wait(); // setup next loop around bufferRead = lbuffer.SizeRead; uncompressedRead += (ulong)bufferRead; whichBuffer = !whichBuffer; } // tell all the workers we are finished lbuffer.Finish(); crc32.Finish(); md5.Finish(); sha1.Finish(); // get the results byte[] testcrc = crc32.Hash; byte[] testmd5 = md5.Hash; byte[] testsha1 = sha1.Hash; // cleanup lbuffer.Dispose(); crc32.Dispose(); md5.Dispose(); sha1.Dispose(); ds.Close(); ds.Dispose(); if (uncompressedSize != 0) { if (uncompressedSize != uncompressedRead) { _zipFs.Close(); return(ZipReturn.ZipDecodeError); } } else { uncompressedSize = uncompressedRead; } if (crc != null) { for (int i = 0; i < 4; i++) { if (crc[i] == testcrc[i]) { continue; } _zipFs.Close(); return(ZipReturn.ZipDecodeError); } } else { crc = testcrc; } if (md5Hash != null) { for (int i = 0; i < 16; i++) { if (md5Hash[i] == testmd5[i]) { continue; } _zipFs.Close(); return(ZipReturn.ZipDecodeError); } } else { md5Hash = testmd5; } if (sha1Hash != null) { for (int i = 0; i < 20; i++) { if (sha1Hash[i] == testsha1[i]) { continue; } _zipFs.Close(); return(ZipReturn.ZipDecodeError); } } else { sha1Hash = testsha1; } } _zipFs.Position = _zipFs.Length - 8; byte[] gzcrc; uint gzLength; using (BinaryReader zipBr = new BinaryReader(_zipFs, Encoding.UTF8, true)) { gzcrc = zipBr.ReadBytes(4); gzLength = zipBr.ReadUInt32(); } if (crc != null) { for (int i = 0; i < 4; i++) { if (gzcrc[3 - i] == crc[i]) { continue; } _zipFs.Close(); return(ZipReturn.ZipDecodeError); } } else { crc = new[] { gzcrc[3], gzcrc[2], gzcrc[1], gzcrc[0] }; } if (uncompressedSize != 0) { if (gzLength != (uncompressedSize & 0xffffffff)) { _zipFs.Close(); return(ZipReturn.ZipDecodeError); } } return(ZipReturn.ZipGood); }
public static int CheckSumRead(string filename, bool testDeep, out byte[] crc, out byte[] bMD5, out byte[] bSHA1) { bMD5 = null; bSHA1 = null; crc = null; Stream ds = null; ThreadLoadBuffer lbuffer = null; ThreadCRC tcrc32 = null; ThreadMD5 tmd5 = null; ThreadSHA1 tsha1 = null; try { int errorCode = FileStream.OpenFileRead(filename, out ds); if (errorCode != 0) { return(errorCode); } lbuffer = new ThreadLoadBuffer(ds); tcrc32 = new ThreadCRC(); if (testDeep) { tmd5 = new ThreadMD5(); tsha1 = new ThreadSHA1(); } long sizetogo = ds.Length; // Pre load the first buffer0 int sizeNext = sizetogo > Buffersize ? Buffersize : (int)sizetogo; ds.Read(Buffer0, 0, sizeNext); int sizebuffer = sizeNext; sizetogo -= sizeNext; bool whichBuffer = true; while ((sizebuffer > 0) && !lbuffer.errorState) { sizeNext = sizetogo > Buffersize ? Buffersize : (int)sizetogo; if (sizeNext > 0) { lbuffer.Trigger(whichBuffer ? Buffer1 : Buffer0, sizeNext); } byte[] buffer = whichBuffer ? Buffer0 : Buffer1; tcrc32.Trigger(buffer, sizebuffer); tmd5?.Trigger(buffer, sizebuffer); tsha1?.Trigger(buffer, sizebuffer); if (sizeNext > 0) { lbuffer.Wait(); } tcrc32.Wait(); tmd5?.Wait(); tsha1?.Wait(); sizebuffer = sizeNext; sizetogo -= sizeNext; whichBuffer = !whichBuffer; } lbuffer.Finish(); tcrc32.Finish(); tmd5?.Finish(); tsha1?.Finish(); ds.Close(); } catch { ds?.Close(); lbuffer?.Dispose(); tcrc32?.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); return(0x17); // need to remember what this number is for } if (lbuffer.errorState) { ds?.Close(); lbuffer?.Dispose(); tcrc32?.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); return(0x17); // need to remember what this number is for } crc = tcrc32.Hash; if (testDeep) { bMD5 = tmd5.Hash; bSHA1 = tsha1.Hash; } lbuffer.Dispose(); tcrc32.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); return(0); }
public static ReturnCode DecompressSource7ZipFile(RvFile zZipFileIn, bool includeGood, out string error) { byte[] buffer = new byte[BufferSize]; RvFile cacheDir = DB.RvFileCache(); string fileNameIn = zZipFileIn.FullName; SevenZ zipFileIn = new SevenZ(); ZipReturn zr1 = zipFileIn.ZipFileOpen(fileNameIn, zZipFileIn.TimeStamp, true); if (zr1 != ZipReturn.ZipGood) { error = "Error opening 7zip file for caching"; return(ReturnCode.RescanNeeded); } RvFile outDir = new RvFile(FileType.Dir) { Name = zZipFileIn.Name + ".cache", Parent = cacheDir, DatStatus = DatStatus.InToSort, GotStatus = GotStatus.Got }; int nameDirIndex = 0; while (cacheDir.ChildNameSearch(outDir, out int index) == 0) { nameDirIndex++; outDir.Name = zZipFileIn.Name + ".cache (" + nameDirIndex + ")"; } cacheDir.ChildAdd(outDir); Directory.CreateDirectory(outDir.FullName); for (int i = 0; i < zipFileIn.LocalFilesCount(); i++) { if (zZipFileIn.Child(i).IsDir) { continue; } RvFile thisFile = null; for (int j = 0; j < zZipFileIn.ChildCount; j++) { if (zZipFileIn.Child(j).ZipFileIndex != i) { continue; } thisFile = zZipFileIn.Child(j); break; } if (thisFile == null) { error = "Error opening 7zip file for caching"; return(ReturnCode.RescanNeeded); } bool extract = true; // first check to see if we have a file version of this compressed file somewhere else. foreach (RvFile f in thisFile.FileGroup.Files) { if (f.FileType == FileType.File && f.GotStatus == GotStatus.Got) { extract = false; } } if (!extract) { continue; } extract = false; if (includeGood) { // if this is the file we are fixing then pull out the correct files. if (thisFile.RepStatus == RepStatus.Correct) { extract = true; } } // next check to see if we need this extracted to fix another file foreach (RvFile f in thisFile.FileGroup.Files) { if (f.RepStatus == RepStatus.CanBeFixed) { extract = true; break; } } if (!extract) { continue; } string cleanedName = thisFile.Name; cleanedName = cleanedName.Replace("/", "-"); cleanedName = cleanedName.Replace("\\", "-"); RvFile outFile = new RvFile(FileType.File) { Name = cleanedName, Size = thisFile.Size, CRC = thisFile.CRC, SHA1 = thisFile.SHA1, MD5 = thisFile.MD5, HeaderFileType = thisFile.HeaderFileType, AltSize = thisFile.AltSize, AltCRC = thisFile.AltCRC, AltSHA1 = thisFile.AltSHA1, AltMD5 = thisFile.AltMD5, FileGroup = thisFile.FileGroup }; outFile.SetStatus(DatStatus.InToSort, GotStatus.Got); outFile.FileStatusSet( FileStatus.HeaderFileTypeFromHeader | FileStatus.SizeFromHeader | FileStatus.SizeVerified | FileStatus.CRCFromHeader | FileStatus.CRCVerified | FileStatus.SHA1FromHeader | FileStatus.SHA1Verified | FileStatus.MD5FromHeader | FileStatus.MD5Verified | FileStatus.AltSizeFromHeader | FileStatus.AltSizeVerified | FileStatus.AltCRCFromHeader | FileStatus.AltCRCVerified | FileStatus.AltSHA1FromHeader | FileStatus.AltSHA1Verified | FileStatus.AltMD5FromHeader | FileStatus.AltMD5Verified , thisFile); outFile.RepStatus = RepStatus.NeededForFix; zipFileIn.ZipFileOpenReadStream(i, out Stream readStream, out ulong unCompressedSize); string filenameOut = Path.Combine(outDir.FullName, outFile.Name); ThreadMD5 tmd5 = null; ThreadSHA1 tsha1 = null; ThreadCRC tcrc32 = new ThreadCRC(); if (Settings.rvSettings.FixLevel != EFixLevel.Level1 && Settings.rvSettings.FixLevel != EFixLevel.TrrntZipLevel1) { tmd5 = new ThreadMD5(); tsha1 = new ThreadSHA1(); } int errorCode = FileStream.OpenFileWrite(filenameOut, out Stream writeStream); ulong sizetogo = unCompressedSize; while (sizetogo > 0) { int sizenow = sizetogo > BufferSize ? BufferSize : (int)sizetogo; try { readStream.Read(buffer, 0, sizenow); } catch (Exception ex) { if (ex is ZlibException || ex is DataErrorException) { ZipReturn zr = zipFileIn.ZipFileCloseReadStream(); if (zr != ZipReturn.ZipGood) { error = "Error Closing " + zr + " Stream :" + zipFileIn.ZipFilename; return(ReturnCode.FileSystemError); } zipFileIn.ZipFileClose(); writeStream.Flush(); writeStream.Close(); if (filenameOut != null) { File.Delete(filenameOut); } thisFile.GotStatus = GotStatus.Corrupt; error = "Unexpected corrupt archive file found:\n" + zZipFileIn.FullName + "\nRun Find Fixes, and Fix to continue fixing correctly."; return(ReturnCode.SourceDataStreamCorrupt); } error = "Error reading Source File " + ex.Message; return(ReturnCode.FileSystemError); } tcrc32.Trigger(buffer, sizenow); tmd5?.Trigger(buffer, sizenow); tsha1?.Trigger(buffer, sizenow); tcrc32.Wait(); tmd5?.Wait(); tsha1?.Wait(); try { writeStream.Write(buffer, 0, sizenow); } catch (Exception e) { error = "Error writing out file. " + Environment.NewLine + e.Message; return(ReturnCode.FileSystemError); } sizetogo = sizetogo - (ulong)sizenow; } writeStream.Flush(); writeStream.Close(); writeStream.Dispose(); tcrc32.Finish(); tmd5?.Finish(); tsha1?.Finish(); byte[] bCRC = tcrc32.Hash; byte[] bMD5 = tmd5?.Hash; byte[] bSHA1 = tsha1?.Hash; tcrc32.Dispose(); tmd5?.Dispose(); tsha1?.Dispose(); FileInfo fi = new FileInfo(filenameOut); outFile.TimeStamp = fi.LastWriteTime; if (bCRC != null && thisFile.CRC != null && !ArrByte.BCompare(bCRC, thisFile.CRC)) { // error in file. } if (bMD5 != null && thisFile.MD5 != null && !ArrByte.BCompare(bMD5, thisFile.MD5)) { // error in file. } if (bSHA1 != null && thisFile.SHA1 != null && !ArrByte.BCompare(bSHA1, thisFile.SHA1)) { // error in file. } thisFile.FileGroup.Files.Add(outFile); outDir.ChildAdd(outFile); } zipFileIn.ZipFileClose(); error = ""; return(ReturnCode.Good); }
public void DeepScan() { if (_buffer0 == null) { _buffer0 = new byte[Buffersize]; _buffer1 = new byte[Buffersize]; } for (int index = 0; index < _localFiles.Count; index++) { if (_localFiles[index].isDirectory || (_localFiles[index].UncompressedSize == 0)) { _localFiles[index].md5 = new byte[] { 0xd4, 0x1d, 0x8c, 0xd9, 0x8f, 0x00, 0xb2, 0x04, 0xe9, 0x80, 0x09, 0x98, 0xec, 0xf8, 0x42, 0x7e }; _localFiles[index].sha1 = new byte[] { 0xda, 0x39, 0xa3, 0xee, 0x5e, 0x6b, 0x4b, 0x0d, 0x32, 0x55, 0xbf, 0xef, 0x95, 0x60, 0x18, 0x90, 0xaf, 0xd8, 0x07, 0x09 }; _localFiles[index].FileStatus = ZipReturn.ZipGood; continue; } ulong sizetogo; Stream inStream; ZipReturn zr = ZipFileOpenReadStream(index, out inStream, out sizetogo); if (zr != ZipReturn.ZipGood) { continue; } if (inStream == null) { continue; } ThreadLoadBuffer lbuffer = new ThreadLoadBuffer(inStream); ThreadCRC tcrc32 = new ThreadCRC(); ThreadMD5 tmd5 = new ThreadMD5(); ThreadSHA1 tsha1 = new ThreadSHA1(); // Pre load the first buffer0 int sizeNext = sizetogo > Buffersize ? Buffersize : (int)sizetogo; inStream.Read(_buffer0, 0, sizeNext); int sizebuffer = sizeNext; sizetogo -= (ulong)sizeNext; bool whichBuffer = true; while ((sizebuffer > 0) && !lbuffer.errorState) { sizeNext = sizetogo > Buffersize ? Buffersize : (int)sizetogo; if (sizeNext > 0) { lbuffer.Trigger(whichBuffer ? _buffer1 : _buffer0, sizeNext); } byte[] buffer = whichBuffer ? _buffer0 : _buffer1; tcrc32.Trigger(buffer, sizebuffer); tmd5.Trigger(buffer, sizebuffer); tsha1.Trigger(buffer, sizebuffer); if (sizeNext > 0) { lbuffer.Wait(); } tcrc32.Wait(); tmd5.Wait(); tsha1.Wait(); sizebuffer = sizeNext; sizetogo -= (ulong)sizeNext; whichBuffer = !whichBuffer; } if (lbuffer.errorState) { lbuffer.Dispose(); tcrc32.Dispose(); tmd5.Dispose(); tsha1.Dispose(); _localFiles[index].FileStatus = ZipReturn.ZipDecodeError; continue; } lbuffer.Finish(); tcrc32.Finish(); tmd5.Finish(); tsha1.Finish(); byte[] testcrc = tcrc32.Hash; _localFiles[index].md5 = tmd5.Hash; _localFiles[index].sha1 = tsha1.Hash; lbuffer.Dispose(); tcrc32.Dispose(); tmd5.Dispose(); tsha1.Dispose(); _localFiles[index].FileStatus = Util.ByteArrCompare(_localFiles[index].crc, testcrc) ? ZipReturn.ZipGood : ZipReturn.ZipCRCDecodeError; } }