// This Function returns: // Good : Everything Worked Correctly // RescanNeeded : Something unexpectidly changed in the files, so Stop prompt user to rescan. // LogicError : This Should never happen and is a logic problem in the code // FileSystemError : Something is wrong with the files /// <summary> /// Performs the RomVault File Copy, with the source and destination being files or zipped files /// </summary> /// <param name="fileIn">This is the file being copied, it may be a zipped file or a regular file system file</param> /// <param name="zipFileOut">This is the zip file that is being writen to, if it is null a new zip file will be made if we are coping to a zip</param> /// <param name="zipFilenameOut">This is the name of the .zip file to be made that will be created in zipFileOut</param> /// <param name="fileOut">This is the actual output filename</param> /// <param name="forceRaw">if true then we will do a raw copy, this is so that we can copy corrupt zips</param> /// <param name="error">This is the returned error message if this copy fails</param> /// <param name="foundFile">If we are SHA1/MD5 checking the source file for the first time, and it is different from what we expected the correct values for this file are returned in foundFile</param> /// <returns>ReturnCode.Good is the valid return code otherwire we have an error</returns> public static ReturnCode CopyFile(RvFile fileIn, ref ZipFile zipFileOut, string zipFilenameOut, RvFile fileOut, bool forceRaw, out string error, out RvFile foundFile) { foundFile = null; error = ""; if (_buffer == null) { _buffer = new byte[BufferSize]; } bool rawCopy = RawCopy(fileIn, fileOut, forceRaw); ulong streamSize = 0; ushort compressionMethod = 8; bool sourceTrrntzip = false; ZipFile zipFileIn = null; System.IO.Stream readStream = null; bool isZeroLengthFile = DBHelper.IsZeroLengthFile(fileOut); if (!isZeroLengthFile) { #region check that the in and out file match if (fileOut.FileStatusIs(FileStatus.SizeFromDAT) && fileOut.Size != null && fileIn.Size != fileOut.Size) { error = "Source and destination Size does not match. Logic Error."; return(ReturnCode.LogicError); } if (fileOut.FileStatusIs(FileStatus.CRCFromDAT) && fileOut.CRC != null && !ArrByte.bCompare(fileIn.CRC, fileOut.CRC)) { error = "Source and destination CRC does not match. Logic Error."; return(ReturnCode.LogicError); } if (fileOut.FileStatusIs(FileStatus.SHA1FromDAT) && fileIn.FileStatusIs(FileStatus.SHA1Verified)) { if (fileIn.SHA1 != null && fileOut.SHA1 != null && !ArrByte.bCompare(fileIn.SHA1, fileOut.SHA1)) { error = "Source and destination SHA1 does not match. Logic Error."; return(ReturnCode.LogicError); } } if (fileOut.FileStatusIs(FileStatus.MD5CHDFromDAT) && fileIn.FileStatusIs(FileStatus.MD5Verified)) { if (fileIn.MD5 != null && fileOut.MD5 != null && !ArrByte.bCompare(fileIn.MD5, fileOut.MD5)) { error = "Source and destination SHA1 does not match. Logic Error."; return(ReturnCode.LogicError); } } #endregion #region Find and Check/Open Input Files if (fileIn.FileType == FileType.ZipFile) // Input is a ZipFile { RvDir zZipFileIn = fileIn.Parent; if (zZipFileIn.FileType != FileType.Zip) { error = "Zip File Open but Source File is not a zip, Logic Error."; return(ReturnCode.LogicError); } string fileNameIn = zZipFileIn.FullName; sourceTrrntzip = (zZipFileIn.ZipStatus & ZipStatus.TrrntZip) == ZipStatus.TrrntZip; //if (zZipFileIn.ZipFileType == RvZip.ZipType.Zip) //{ zipFileIn = new ZipFile(); ZipReturn zr1; if (fileIn.ZipFileHeaderPosition != null) { zr1 = zipFileIn.ZipFileOpen(fileNameIn, zZipFileIn.TimeStamp, false); } else { zr1 = zipFileIn.ZipFileOpen(fileNameIn, zZipFileIn.TimeStamp, true); } switch (zr1) { case ZipReturn.ZipGood: break; case ZipReturn.ZipErrorFileNotFound: error = "File not found, Rescan required before fixing " + fileIn.Name; return(ReturnCode.FileSystemError); case ZipReturn.ZipErrorTimeStamp: error = "File has changed, Rescan required before fixing " + fileIn.Name; return(ReturnCode.FileSystemError); default: error = "Error Open Zip" + zr1 + ", with File " + fileIn.DatFullName; return(ReturnCode.FileSystemError); } if (fileIn.ZipFileHeaderPosition != null) { zipFileIn.ZipFileOpenReadStreamQuick((ulong)fileIn.ZipFileHeaderPosition, rawCopy, out readStream, out streamSize, out compressionMethod); } else { zipFileIn.ZipFileOpenReadStream(fileIn.ZipFileIndex, rawCopy, out readStream, out streamSize, out compressionMethod); } } else // Input is a regular file { string fileNameIn = fileIn.FullName; if (!IO.File.Exists(fileNameIn)) { error = "Rescan needed, File Changed :" + fileNameIn; return(ReturnCode.RescanNeeded); } IO.FileInfo fileInInfo = new IO.FileInfo(fileNameIn); if (fileInInfo.LastWriteTime != fileIn.TimeStamp) { error = "Rescan needed, File Changed :" + fileNameIn; return(ReturnCode.RescanNeeded); } int errorCode = IO.FileStream.OpenFileRead(fileNameIn, out readStream); if (errorCode != 0) { error = new Win32Exception(errorCode).Message + ". " + fileNameIn; return(ReturnCode.FileSystemError); } if (fileIn.Size == null) { error = "Null File Size found in Fixing File :" + fileNameIn; return(ReturnCode.LogicError); } streamSize = (ulong)fileIn.Size; if ((ulong)readStream.Length != streamSize) { error = "Rescan needed, File Length Changed :" + fileNameIn; return(ReturnCode.RescanNeeded); } } #endregion } else { sourceTrrntzip = true; } if (!rawCopy && (Program.rvSettings.FixLevel == eFixLevel.TrrntZipLevel1 || Program.rvSettings.FixLevel == eFixLevel.TrrntZipLevel2 || Program.rvSettings.FixLevel == eFixLevel.TrrntZipLevel3)) { compressionMethod = 8; } #region Find and Check/Open Output Files System.IO.Stream writeStream; if (fileOut.FileType == FileType.ZipFile) { // if ZipFileOut == null then we have not open the output zip yet so open it from writing. if (zipFileOut == null) { if (IO.Path.GetFileName(zipFilenameOut) == "__RomVault.tmp") { if (IO.File.Exists(zipFilenameOut)) { IO.File.Delete(zipFilenameOut); } } else if (IO.File.Exists(zipFilenameOut)) { error = "Rescan needed, File Changed :" + zipFilenameOut; return(ReturnCode.RescanNeeded); } zipFileOut = new ZipFile(); ZipReturn zrf = zipFileOut.ZipFileCreate(zipFilenameOut); if (zrf != ZipReturn.ZipGood) { error = "Error Opening Write Stream " + zrf; return(ReturnCode.FileSystemError); } } else { if (zipFileOut.ZipOpen != ZipOpenType.OpenWrite) { error = "Output Zip File is not set to OpenWrite, Logic Error."; return(ReturnCode.LogicError); } if (zipFileOut.ZipFilename != (new IO.FileInfo(zipFilenameOut).FullName)) { error = "Output Zip file has changed name from " + zipFileOut.ZipFilename + " to " + zipFilenameOut + ". Logic Error"; return(ReturnCode.LogicError); } } if (fileIn.Size == null) { error = "Null File Size found in Fixing File :" + fileIn.FullName; return(ReturnCode.LogicError); } ZipReturn zr = zipFileOut.ZipFileOpenWriteStream(rawCopy, sourceTrrntzip, fileOut.Name, (ulong)fileIn.Size, compressionMethod, out writeStream); if (zr != ZipReturn.ZipGood) { error = "Error Opening Write Stream " + zr; return(ReturnCode.FileSystemError); } } else { if (IO.File.Exists(zipFilenameOut) && fileOut.GotStatus != GotStatus.Corrupt) { error = "Rescan needed, File Changed :" + zipFilenameOut; return(ReturnCode.RescanNeeded); } int errorCode = IO.FileStream.OpenFileWrite(zipFilenameOut, out writeStream); if (errorCode != 0) { error = new Win32Exception(errorCode).Message + ". " + zipFilenameOut; return(ReturnCode.FileSystemError); } } #endregion byte[] bCRC; byte[] bMD5 = null; byte[] bSHA1 = null; if (!isZeroLengthFile) { #region Do Data Tranfer ThreadCRC tcrc32 = null; ThreadMD5 tmd5 = null; ThreadSHA1 tsha1 = null; if (!rawCopy) { tcrc32 = new ThreadCRC(); tmd5 = new ThreadMD5(); tsha1 = new ThreadSHA1(); } ulong sizetogo = streamSize; while (sizetogo > 0) { int sizenow = sizetogo > BufferSize ? BufferSize : (int)sizetogo; try { readStream.Read(_buffer, 0, sizenow); } catch (ZlibException) { if (fileIn.FileType == FileType.ZipFile && zipFileIn != null) { ZipReturn zr = zipFileIn.ZipFileCloseReadStream(); if (zr != ZipReturn.ZipGood) { error = "Error Closing " + zr + " Stream :" + zipFileIn.Filename(fileIn.ReportIndex); return(ReturnCode.FileSystemError); } zipFileIn.ZipFileClose(); } else { readStream.Close(); } if (fileOut.FileType == FileType.ZipFile) { ZipReturn zr = zipFileOut.ZipFileCloseWriteStream(new byte[] { 0, 0, 0, 0 }); if (zr != ZipReturn.ZipGood) { error = "Error Closing Stream " + zr; return(ReturnCode.FileSystemError); } zipFileOut.ZipFileRollBack(); } else { writeStream.Flush(); writeStream.Close(); IO.File.Delete(zipFilenameOut); } error = "Error in Data Stream"; return(ReturnCode.SourceCRCCheckSumError); } catch (Exception e) { error = "Error reading Source File " + e.Message; return(ReturnCode.FileSystemError); } if (!rawCopy) { 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) { Debug.WriteLine(e.Message); error = "Error writing out file. " + Environment.NewLine + e.Message; return(ReturnCode.FileSystemError); } sizetogo = sizetogo - (ulong)sizenow; } writeStream.Flush(); #endregion #region Collect Checksums // if we did a full copy then we just calculated all the checksums while doing the copy if (!rawCopy) { tcrc32.Finish(); tmd5.Finish(); tsha1.Finish(); bCRC = tcrc32.Hash; bMD5 = tmd5.Hash; bSHA1 = tsha1.Hash; tcrc32.Dispose(); tmd5.Dispose(); tsha1.Dispose(); } // if we raw copied and the source file has been FileChecked then we can trust the checksums in the source file else { bCRC = ArrByte.Copy(fileIn.CRC); if (fileIn.FileStatusIs(FileStatus.MD5Verified)) { bMD5 = ArrByte.Copy(fileIn.MD5); } if (fileIn.FileStatusIs(FileStatus.SHA1Verified)) { bSHA1 = ArrByte.Copy(fileIn.SHA1); } } #endregion #region close the ReadStream if (fileIn.FileType == FileType.ZipFile && zipFileIn != null) { ZipReturn zr = zipFileIn.ZipFileCloseReadStream(); if (zr != ZipReturn.ZipGood) { error = "Error Closing " + zr + " Stream :" + zipFileIn.Filename(fileIn.ReportIndex); return(ReturnCode.FileSystemError); } zipFileIn.ZipFileClose(); } else { readStream.Close(); //if (IO.File.Exists(tmpFilename)) // IO.File.Delete(tmpFilename); } #endregion } else { // Zero Length File (Directory in a Zip) if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileAddDirectory(); } bCRC = VarFix.CleanMD5SHA1("00000000", 8); bMD5 = VarFix.CleanMD5SHA1("d41d8cd98f00b204e9800998ecf8427e", 32); bSHA1 = VarFix.CleanMD5SHA1("da39a3ee5e6b4b0d3255bfef95601890afd80709", 40); } #region close the WriteStream if (fileOut.FileType == FileType.ZipFile) { ZipReturn zr = zipFileOut.ZipFileCloseWriteStream(bCRC); if (zr != ZipReturn.ZipGood) { error = "Error Closing Stream " + zr; return(ReturnCode.FileSystemError); } fileOut.ZipFileIndex = zipFileOut.LocalFilesCount() - 1; fileOut.ZipFileHeaderPosition = zipFileOut.LocalHeader(fileOut.ZipFileIndex); } else { writeStream.Flush(); writeStream.Close(); IO.FileInfo fi = new IO.FileInfo(zipFilenameOut); fileOut.TimeStamp = fi.LastWriteTime; } #endregion if (!isZeroLengthFile) { if (!rawCopy) { if (!ArrByte.bCompare(bCRC, fileIn.CRC)) { fileIn.GotStatus = GotStatus.Corrupt; error = "Source CRC does not match Source Data stream, corrupt Zip"; if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { IO.File.Delete(zipFilenameOut); } return(ReturnCode.SourceCRCCheckSumError); } fileIn.FileStatusSet(FileStatus.CRCVerified | FileStatus.SizeVerified); bool sourceFailed = false; // check to see if we have a MD5 from the DAT file if (fileIn.FileStatusIs(FileStatus.MD5FromDAT)) { if (fileIn.MD5 == null) { error = "Should have an filein MD5 from Dat but not found. Logic Error."; return(ReturnCode.LogicError); } if (!ArrByte.bCompare(fileIn.MD5, bMD5)) { sourceFailed = true; } else { fileIn.FileStatusSet(FileStatus.MD5Verified); } } // check to see if we have an MD5 (not from the DAT) so must be from previously scanning this file. else if (fileIn.MD5 != null) { if (!ArrByte.bCompare(fileIn.MD5, bMD5)) { // if we had an MD5 from a preview scan and it now does not match, something has gone really bad. error = "The MD5 found does not match a previously scanned MD5, this should not happen, unless something got corrupt."; return(ReturnCode.LogicError); } } else // (FileIn.MD5 == null) { fileIn.MD5 = bMD5; fileIn.FileStatusSet(FileStatus.MD5Verified); } // check to see if we have a SHA1 from the DAT file if (fileIn.FileStatusIs(FileStatus.SHA1FromDAT)) { if (fileIn.SHA1 == null) { error = "Should have an filein SHA1 from Dat but not found. Logic Error."; return(ReturnCode.LogicError); } if (!ArrByte.bCompare(fileIn.SHA1, bSHA1)) { sourceFailed = true; } else { fileIn.FileStatusSet(FileStatus.SHA1Verified); } } // check to see if we have an SHA1 (not from the DAT) so must be from previously scanning this file. else if (fileIn.SHA1 != null) { if (!ArrByte.bCompare(fileIn.SHA1, bSHA1)) { // if we had an SHA1 from a preview scan and it now does not match, something has gone really bad. error = "The SHA1 found does not match a previously scanned SHA1, this should not happen, unless something got corrupt."; return(ReturnCode.LogicError); } } else // (FileIn.SHA1 == null) { fileIn.SHA1 = bSHA1; fileIn.FileStatusSet(FileStatus.SHA1Verified); } if (sourceFailed) { if (fileIn.FileType == FileType.ZipFile) { RvFile tZFile = new RvFile(FileType.ZipFile); foundFile = tZFile; tZFile.ZipFileIndex = fileIn.ZipFileIndex; tZFile.ZipFileHeaderPosition = fileIn.ZipFileHeaderPosition; } else { foundFile = new RvFile(fileIn.FileType); } foundFile.Name = fileIn.Name; foundFile.Size = fileIn.Size; foundFile.CRC = bCRC; foundFile.MD5 = bMD5; foundFile.SHA1 = bSHA1; foundFile.TimeStamp = fileIn.TimeStamp; foundFile.SetStatus(DatStatus.NotInDat, GotStatus.Got); foundFile.FileStatusSet(FileStatus.SizeVerified | FileStatus.CRCVerified | FileStatus.MD5Verified | FileStatus.SHA1Verified); if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { IO.File.Delete(zipFilenameOut); } return(ReturnCode.SourceCheckSumError); } } } if (fileOut.FileType == FileType.ZipFile) { fileOut.FileStatusSet(FileStatus.SizeFromHeader | FileStatus.CRCFromHeader); } if (fileOut.FileStatusIs(FileStatus.CRCFromDAT) && fileOut.CRC != null && !ArrByte.bCompare(fileOut.CRC, bCRC)) { //Rollback the file if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { IO.File.Delete(zipFilenameOut); } return(ReturnCode.DestinationCheckSumError); } fileOut.CRC = bCRC; if (!rawCopy || fileIn.FileStatusIs(FileStatus.CRCVerified)) { fileOut.FileStatusSet(FileStatus.CRCVerified); } if (bSHA1 != null) { if (fileOut.FileStatusIs(FileStatus.SHA1FromDAT) && fileOut.SHA1 != null && !ArrByte.bCompare(fileOut.SHA1, bSHA1)) { //Rollback the file if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { IO.File.Delete(zipFilenameOut); } return(ReturnCode.DestinationCheckSumError); } fileOut.SHA1 = bSHA1; fileOut.FileStatusSet(FileStatus.SHA1Verified); } if (bMD5 != null) { if (fileOut.FileStatusIs(FileStatus.MD5FromDAT) && fileOut.MD5 != null && !ArrByte.bCompare(fileOut.MD5, bMD5)) { //Rollback the file if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { IO.File.Delete(zipFilenameOut); } return(ReturnCode.DestinationCheckSumError); } fileOut.MD5 = bMD5; fileOut.FileStatusSet(FileStatus.MD5Verified); } if (fileIn.Size != null) { fileOut.Size = fileIn.Size; fileOut.FileStatusSet(FileStatus.SizeVerified); } if (fileIn.GotStatus == GotStatus.Corrupt) { fileOut.GotStatus = GotStatus.Corrupt; } else { fileOut.GotStatus = GotStatus.Got; // Changes RepStatus to Correct } fileOut.FileStatusSet(FileStatus.SizeVerified); if (fileOut.SHA1CHD == null && fileIn.SHA1CHD != null) { fileOut.SHA1CHD = fileIn.SHA1CHD; } if (fileOut.MD5CHD == null && fileIn.MD5CHD != null) { fileOut.MD5CHD = fileIn.MD5CHD; } fileOut.CHDVersion = fileIn.CHDVersion; fileOut.FileStatusSet(FileStatus.SHA1CHDFromHeader | FileStatus.MD5CHDFromHeader | FileStatus.SHA1CHDVerified | FileStatus.MD5CHDVerified, fileIn); return(ReturnCode.Good); }
private static void DatSetCheckParentSets(RvDat tDat) { if (tDat.Games == null) { return; } // First we are going to try and fix any missing CRC information by checking for roms with the same names // in Parent and Child sets, and if the same named rom is found and one has a CRC and the other does not // then we will set the missing CRC by using the CRC in the other set. // we keep trying to find fixes until no more fixes are found. // this is need as the first time round a fix could be found in a parent set from one child set. // then the second time around that fixed parent set could fix another of its childs sets. bool fix = true; while (fix) { fix = false; // loop around every ROM Set looking for fixes. for (int g = 0; g < tDat.Games.Count; g++) { // get a list of that ROM Sets parents. RvGame mGame = tDat.Games[g]; List <RvGame> lstParentGames = new List <RvGame>(); FindParentSet(mGame, tDat, ref lstParentGames); // if this set have parents if (lstParentGames.Count == 0) { continue; } if (mGame.Roms == null) { continue; } // now loop every ROM in the current set. for (int r = 0; r < mGame.Roms.Count; r++) { // and loop every ROM of every parent set of this current set. // and see if anything can be fixed. bool found = false; // loop the parent sets foreach (RvGame romofGame in lstParentGames) { if (romofGame.Roms == null) { continue; } // loop the ROMs in the parent sets for (int r1 = 0; r1 < romofGame.Roms.Count; r1++) { // don't search fixes for files marked as nodump if ((mGame.Roms[r].Status == "nodump") || (romofGame.Roms[r1].Status == "nodump")) { continue; } // only find fixes if the Name and the Size of the ROMs are the same if ((mGame.Roms[r].Name != romofGame.Roms[r1].Name) || (mGame.Roms[r].Size != romofGame.Roms[r1].Size)) { continue; } // now check if one of the matching roms has missing or incorrect CRC information bool b1 = mGame.Roms[r].CRC == null; bool b2 = romofGame.Roms[r1].CRC == null; // if one has correct information and the other does not, fix the missing one if (b1 == b2) { continue; } if (b1) { mGame.Roms[r].CRC = ArrByte.Copy(romofGame.Roms[r1].CRC); mGame.Roms[r].Status = "(CRCFound)"; } else { romofGame.Roms[r1].CRC = ArrByte.Copy(mGame.Roms[r].CRC); romofGame.Roms[r1].Status = "(CRCFound)"; } // flag that a fix was found so that we will go all the way around again. fix = true; found = true; break; } if (found) { break; } } } } } }
// This Function returns: // Good : Everything Worked Correctly // RescanNeeded : Something unexpectidly changed in the files, so Stop prompt user to rescan. // LogicError : This Should never happen and is a logic problem in the code // FileSystemError : Something is wrong with the files /// <summary> /// Performs the RomVault File Copy, with the source and destination being files or zipped files /// </summary> /// <param name="fileIn">This is the file being copied, it may be a zipped file or a regular file system file</param> /// <param name="zipFileOut"> /// This is the zip file that is being writen to, if it is null a new zip file will be made if we /// are coping to a zip /// </param> /// <param name="zipFilenameOut">This is the name of the .zip file to be made that will be created in zipFileOut</param> /// <param name="fileOut">This is the actual output filename</param> /// <param name="forceRaw">if true then we will do a raw copy, this is so that we can copy corrupt zips</param> /// <param name="error">This is the returned error message if this copy fails</param> /// <param name="foundFile"> /// If we are SHA1/MD5 checking the source file for the first time, and it is different from what /// we expected the correct values for this file are returned in foundFile /// </param> /// <returns>ReturnCode.Good is the valid return code otherwire we have an error</returns> public static ReturnCode CopyFile(RvFile fileIn, ref ICompress zipFileOut, string zipFilenameOut, RvFile fileOut, bool forceRaw, out string error, out RvFile foundFile) { foundFile = null; error = ""; if (_buffer == null) { _buffer = new byte[BufferSize]; } bool rawCopy = RawCopy(fileIn, fileOut, forceRaw); ulong streamSize = 0; ushort compressionMethod = 8; bool sourceTrrntzip = false; ICompress zipFileIn = null; Stream readStream = null; ReturnCode retC; bool isZeroLengthFile = DBHelper.IsZeroLengthFile(fileOut); if (!isZeroLengthFile) { //check that the in and out file match retC = CheckInputAndOutputFile(fileIn, fileOut, out error); if (retC != ReturnCode.Good) { return(retC); } //Find and Check/Open Input Files retC = OpenInputStream(fileIn, rawCopy, out zipFileIn, out sourceTrrntzip, out readStream, out streamSize, out compressionMethod, out error); if (retC != ReturnCode.Good) { return(retC); } } else { sourceTrrntzip = true; } if (!rawCopy && ((Program.rvSettings.FixLevel == eFixLevel.TrrntZipLevel1) || (Program.rvSettings.FixLevel == eFixLevel.TrrntZipLevel2) || (Program.rvSettings.FixLevel == eFixLevel.TrrntZipLevel3))) { compressionMethod = 8; } //Find and Check/Open Output Files Stream writeStream; retC = OpenOutputStream(fileOut, fileIn, ref zipFileOut, zipFilenameOut, compressionMethod, rawCopy, sourceTrrntzip, out writeStream, out error); if (retC != ReturnCode.Good) { return(retC); } byte[] bCRC; byte[] bMD5 = null; byte[] bSHA1 = null; if (!isZeroLengthFile) { #region Do Data Tranfer ThreadCRC tcrc32 = null; ThreadMD5 tmd5 = null; ThreadSHA1 tsha1 = null; if (!rawCopy) { tcrc32 = new ThreadCRC(); tmd5 = new ThreadMD5(); tsha1 = new ThreadSHA1(); } ulong sizetogo = streamSize; while (sizetogo > 0) { int sizenow = sizetogo > BufferSize ? BufferSize : (int)sizetogo; try { readStream.Read(_buffer, 0, sizenow); } catch (ZlibException) { if ((fileIn.FileType == FileType.ZipFile) && (zipFileIn != null)) { ZipReturn zr = zipFileIn.ZipFileCloseReadStream(); if (zr != ZipReturn.ZipGood) { error = "Error Closing " + zr + " Stream :" + zipFileIn.Filename(fileIn.ReportIndex); return(ReturnCode.FileSystemError); } zipFileIn.ZipFileClose(); } else { readStream.Close(); } if (fileOut.FileType == FileType.ZipFile) { ZipReturn zr = zipFileOut.ZipFileCloseWriteStream(new byte[] { 0, 0, 0, 0 }); if (zr != ZipReturn.ZipGood) { error = "Error Closing Stream " + zr; return(ReturnCode.FileSystemError); } zipFileOut.ZipFileRollBack(); } else { writeStream.Flush(); writeStream.Close(); File.Delete(zipFilenameOut); } error = "Error in Data Stream"; return(ReturnCode.SourceCRCCheckSumError); } catch (Exception e) { error = "Error reading Source File " + e.Message; return(ReturnCode.FileSystemError); } if (!rawCopy) { 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) { Debug.WriteLine(e.Message); error = "Error writing out file. " + Environment.NewLine + e.Message; return(ReturnCode.FileSystemError); } sizetogo = sizetogo - (ulong)sizenow; } writeStream.Flush(); #endregion #region Collect Checksums // if we did a full copy then we just calculated all the checksums while doing the copy if (!rawCopy) { tcrc32.Finish(); tmd5.Finish(); tsha1.Finish(); bCRC = tcrc32.Hash; bMD5 = tmd5.Hash; bSHA1 = tsha1.Hash; tcrc32.Dispose(); tmd5.Dispose(); tsha1.Dispose(); } // if we raw copied and the source file has been FileChecked then we can trust the checksums in the source file else { bCRC = ArrByte.Copy(fileIn.CRC); if (fileIn.FileStatusIs(FileStatus.MD5Verified)) { bMD5 = ArrByte.Copy(fileIn.MD5); } if (fileIn.FileStatusIs(FileStatus.SHA1Verified)) { bSHA1 = ArrByte.Copy(fileIn.SHA1); } } #endregion #region close the ReadStream if (((fileIn.FileType == FileType.ZipFile) || (fileIn.FileType == FileType.SevenZipFile)) && (zipFileIn != null)) { ZipReturn zr = zipFileIn.ZipFileCloseReadStream(); if (zr != ZipReturn.ZipGood) { error = "Error Closing " + zr + " Stream :" + zipFileIn.Filename(fileIn.ReportIndex); return(ReturnCode.FileSystemError); } zipFileIn.ZipFileClose(); } else { readStream.Close(); //if (RVIO.File.Exists(tmpFilename)) // RVIO.File.Delete(tmpFilename); } #endregion } else { // Zero Length File (Directory in a Zip) if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileAddDirectory(); } bCRC = VarFix.CleanMD5SHA1("00000000", 8); bMD5 = VarFix.CleanMD5SHA1("d41d8cd98f00b204e9800998ecf8427e", 32); bSHA1 = VarFix.CleanMD5SHA1("da39a3ee5e6b4b0d3255bfef95601890afd80709", 40); } #region close the WriteStream if ((fileOut.FileType == FileType.ZipFile) || (fileOut.FileType == FileType.SevenZipFile)) { ZipReturn zr = zipFileOut.ZipFileCloseWriteStream(bCRC); if (zr != ZipReturn.ZipGood) { error = "Error Closing Stream " + zr; return(ReturnCode.FileSystemError); } fileOut.ZipFileIndex = zipFileOut.LocalFilesCount() - 1; fileOut.ZipFileHeaderPosition = zipFileOut.LocalHeader(fileOut.ZipFileIndex); } else { writeStream.Flush(); writeStream.Close(); FileInfo fi = new FileInfo(zipFilenameOut); fileOut.TimeStamp = fi.LastWriteTime; } #endregion if (!isZeroLengthFile) { if (!rawCopy) { if (!ArrByte.bCompare(bCRC, fileIn.CRC)) { fileIn.GotStatus = GotStatus.Corrupt; error = "Source CRC does not match Source Data stream, corrupt Zip"; if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { File.Delete(zipFilenameOut); } return(ReturnCode.SourceCRCCheckSumError); } fileIn.FileStatusSet(FileStatus.CRCVerified | FileStatus.SizeVerified); bool sourceFailed = false; // check to see if we have a MD5 from the DAT file if (fileIn.FileStatusIs(FileStatus.MD5FromDAT)) { if (fileIn.MD5 == null) { error = "Should have an filein MD5 from Dat but not found. Logic Error."; return(ReturnCode.LogicError); } if (!ArrByte.bCompare(fileIn.MD5, bMD5)) { sourceFailed = true; } else { fileIn.FileStatusSet(FileStatus.MD5Verified); } } // check to see if we have an MD5 (not from the DAT) so must be from previously scanning this file. else if (fileIn.MD5 != null) { if (!ArrByte.bCompare(fileIn.MD5, bMD5)) { // if we had an MD5 from a preview scan and it now does not match, something has gone really bad. error = "The MD5 found does not match a previously scanned MD5, this should not happen, unless something got corrupt."; return(ReturnCode.LogicError); } } else // (FileIn.MD5 == null) { fileIn.MD5 = bMD5; fileIn.FileStatusSet(FileStatus.MD5Verified); } // check to see if we have a SHA1 from the DAT file if (fileIn.FileStatusIs(FileStatus.SHA1FromDAT)) { if (fileIn.SHA1 == null) { error = "Should have an filein SHA1 from Dat but not found. Logic Error."; return(ReturnCode.LogicError); } if (!ArrByte.bCompare(fileIn.SHA1, bSHA1)) { sourceFailed = true; } else { fileIn.FileStatusSet(FileStatus.SHA1Verified); } } // check to see if we have an SHA1 (not from the DAT) so must be from previously scanning this file. else if (fileIn.SHA1 != null) { if (!ArrByte.bCompare(fileIn.SHA1, bSHA1)) { // if we had an SHA1 from a preview scan and it now does not match, something has gone really bad. error = "The SHA1 found does not match a previously scanned SHA1, this should not happen, unless something got corrupt."; return(ReturnCode.LogicError); } } else // (FileIn.SHA1 == null) { fileIn.SHA1 = bSHA1; fileIn.FileStatusSet(FileStatus.SHA1Verified); } if (sourceFailed) { if ((fileIn.FileType == FileType.ZipFile) || (fileIn.FileType == FileType.SevenZipFile)) { RvFile tZFile = new RvFile(FileType.ZipFile); foundFile = tZFile; tZFile.ZipFileIndex = fileIn.ZipFileIndex; tZFile.ZipFileHeaderPosition = fileIn.ZipFileHeaderPosition; } else { foundFile = new RvFile(fileIn.FileType); } foundFile.Name = fileIn.Name; foundFile.Size = fileIn.Size; foundFile.CRC = bCRC; foundFile.MD5 = bMD5; foundFile.SHA1 = bSHA1; foundFile.TimeStamp = fileIn.TimeStamp; foundFile.SetStatus(DatStatus.NotInDat, GotStatus.Got); foundFile.FileStatusSet(FileStatus.SizeVerified | FileStatus.CRCVerified | FileStatus.MD5Verified | FileStatus.SHA1Verified); if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { File.Delete(zipFilenameOut); } return(ReturnCode.SourceCheckSumError); } } } if ((fileOut.FileType == FileType.ZipFile) || (fileOut.FileType == FileType.SevenZipFile)) { fileOut.FileStatusSet(FileStatus.SizeFromHeader | FileStatus.CRCFromHeader); } if (fileOut.FileStatusIs(FileStatus.CRCFromDAT) && (fileOut.CRC != null) && !ArrByte.bCompare(fileOut.CRC, bCRC)) { //Rollback the file if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { File.Delete(zipFilenameOut); } return(ReturnCode.DestinationCheckSumError); } fileOut.CRC = bCRC; if (!rawCopy || fileIn.FileStatusIs(FileStatus.CRCVerified)) { fileOut.FileStatusSet(FileStatus.CRCVerified); } if (bSHA1 != null) { if (fileOut.FileStatusIs(FileStatus.SHA1FromDAT) && (fileOut.SHA1 != null) && !ArrByte.bCompare(fileOut.SHA1, bSHA1)) { //Rollback the file if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { File.Delete(zipFilenameOut); } return(ReturnCode.DestinationCheckSumError); } fileOut.SHA1 = bSHA1; fileOut.FileStatusSet(FileStatus.SHA1Verified); } if (bMD5 != null) { if (fileOut.FileStatusIs(FileStatus.MD5FromDAT) && (fileOut.MD5 != null) && !ArrByte.bCompare(fileOut.MD5, bMD5)) { //Rollback the file if (fileOut.FileType == FileType.ZipFile) { zipFileOut.ZipFileRollBack(); } else { File.Delete(zipFilenameOut); } return(ReturnCode.DestinationCheckSumError); } fileOut.MD5 = bMD5; fileOut.FileStatusSet(FileStatus.MD5Verified); } if (fileIn.Size != null) { fileOut.Size = fileIn.Size; fileOut.FileStatusSet(FileStatus.SizeVerified); } if (fileIn.GotStatus == GotStatus.Corrupt) { fileOut.GotStatus = GotStatus.Corrupt; } else { fileOut.GotStatus = GotStatus.Got; // Changes RepStatus to Correct } fileOut.FileStatusSet(FileStatus.SizeVerified); if ((fileOut.SHA1CHD == null) && (fileIn.SHA1CHD != null)) { fileOut.SHA1CHD = fileIn.SHA1CHD; } if ((fileOut.MD5CHD == null) && (fileIn.MD5CHD != null)) { fileOut.MD5CHD = fileIn.MD5CHD; } fileOut.CHDVersion = fileIn.CHDVersion; fileOut.FileStatusSet(FileStatus.SHA1CHDFromHeader | FileStatus.MD5CHDFromHeader | FileStatus.SHA1CHDVerified | FileStatus.MD5CHDVerified, fileIn); return(ReturnCode.Good); }