//methods /// <summary> /// Converts file to base64 encoding. /// </summary> /// <param name="srcFile">File containing data to be encoded.</param> /// <param name="targetFile">Output file that will contain the base64 encoded data.</param> /// <param name="st">A StatusTimer object to use for timing the encode operation.</param> public void EncodeFileToBase64(string srcFile, string targetFile, StatusTimer st) { byte[] bytes = new byte[BufferSize]; FileStream fs = null; StreamWriter sw = null; FileStream fsOut = null; int bytesRead = 0; long totalBytesRead = 0; bool errorOccurred = false; // Open srcFile in read-only mode. try { if (st == null) { throw new ArgumentNullException("StatusTime must be specified for this routine."); } st.NumSecondsInterval = _statusReportIntervalSeconds; fs = new FileStream(srcFile, FileMode.Open, FileAccess.Read, FileShare.Read, BufferSize); long sourceSize = new FileInfo(srcFile).Length; if (sourceSize <= BufferSize) { // Open stream writer sw = new StreamWriter(targetFile, false, Encoding.ASCII); bytesRead = fs.Read(bytes, 0, BufferSize); if (bytesRead > 0) { if (currentStatusReport != null) { if (st.StatusReportDue()) { currentStatusReport("EncodeToBase64", "In Progress", totalBytesRead, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } } string base64String = Convert.ToBase64String(bytes, 0, bytesRead); totalBytesRead += bytesRead; sw.Write(base64String); if (currentStatusReport != null) { if (st.StatusReportDue()) { currentStatusReport("EncodeToBase64", "Completed", totalBytesRead, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } } } } else { // Instantiate a ToBase64Transform object. ToBase64Transform transf = new ToBase64Transform(); // Arrays to hold input and output bytes. byte[] inputBytes = new byte[transf.InputBlockSize]; byte[] outputBytes = new byte[transf.OutputBlockSize]; int bytesWritten; fsOut = new FileStream(targetFile, FileMode.Create, FileAccess.Write); do { if (currentStatusReport != null) { if (st.StatusReportDue()) { currentStatusReport("EncodeToBase64", "In Progress", totalBytesRead, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } } bytesRead = fs.Read(inputBytes, 0, inputBytes.Length); totalBytesRead += bytesRead; bytesWritten = transf.TransformBlock(inputBytes, 0, bytesRead, outputBytes, 0); fsOut.Write(outputBytes, 0, bytesWritten); } while (sourceSize - totalBytesRead > transf.InputBlockSize); // Transform the final block of data. bytesRead = fs.Read(inputBytes, 0, inputBytes.Length); totalBytesRead += bytesRead; byte[] finalOutputBytes = transf.TransformFinalBlock(inputBytes, 0, bytesRead); fsOut.Write(finalOutputBytes, 0, finalOutputBytes.Length); if (currentStatusReport != null) { currentStatusReport("EncodeToBase64", "Completed", totalBytesRead, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } // Clear Base64Transform object. transf.Clear(); } } catch (IOException ex) { errorOccurred = true; _msg.Length = 0; _msg.Append(AppMessages.FormatErrorMessage(ex)); throw new IOException(_msg.ToString()); } catch (SecurityException ex) { errorOccurred = true; _msg.Length = 0; _msg.Append(AppMessages.FormatErrorMessage(ex)); throw new SecurityException(_msg.ToString()); } catch (UnauthorizedAccessException ex) { errorOccurred = true; _msg.Length = 0; _msg.Append(AppMessages.FormatErrorMessage(ex)); throw new UnauthorizedAccessException(_msg.ToString()); } finally { if (errorOccurred) { if (currentStatusReport != null) { currentStatusReport("EncodeToBase64", "ErrorCancel", totalBytesRead, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } } if (sw != null) { sw.Close(); } if (fs != null) { fs.Dispose(); fs.Close(); } if (fsOut != null) { fsOut.Dispose(); fsOut.Close(); } } }
private void DecodeFileOnSeparateThread(PFFileEncoder encoder, string encryptedInputFile, string tempFileName, StatusTimer st) { TimeSpan ts = new TimeSpan(0, 0, _statusReportIntervalSeconds); PFThread t = new PFThread(new ParameterizedThreadStart(DecodeFileFromBase64), "DecodeFileFromBase64"); List <object> parms = new List <object>(); parms.Add(encoder); parms.Add(encryptedInputFile); parms.Add(tempFileName); parms.Add(st); t.ThreadDescription = "Decode File from Base64 Text."; t.ShowElapsedMilliseconds = false; t.StartTime = DateTime.Now; st.ShowElapsedTimeMilliseconds = false; st.NumSecondsInterval = _statusReportIntervalSeconds; if (st.StatusTimerIsRunning == false) { st.Start(); } t.Start(parms); while (t.ThreadObject.Join(ts) == false) { if (st.StatusReportDue()) { FileInfo fi = new FileInfo(tempFileName); currentStatusReport("DecodeEncryptionFromBase64", "InProgress", fi.Length, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); fi = null; } } t.FinishTime = DateTime.Now; }
/// <summary> /// Decrypts using a byte array. The encrypted input file is loaded into a stream and then decrypted and saved as unencrypted data to the output file. /// Method uses techniques to handle cases where file being decrypted is very large. /// This helps deal with very large files that can cause out of memory exceptions during decryption process. /// </summary> /// <param name="encryptedInputFile">Full path to file containing the encrypted data.</param> /// <param name="outputFile">Full path to file that will contain decrypted data.</param> /// <param name="st">A StatusTimer object to use for timing the decryption.</param> /// <returns>Returns path to output file.</returns> public string DecryptBinary(string encryptedInputFile, string outputFile, StatusTimer st) { if (st == null) { throw new ArgumentNullException("StatusTime must be specified for this routine."); } if (String.IsNullOrEmpty(encryptedInputFile) || String.IsNullOrEmpty(outputFile)) { throw new ArgumentNullException("Paths to both the encrypted input file and the output file need to be specified."); } if (KeyIsValid(GetStringFromByteArray(_key)) == false) { throw new System.Exception("Invalid length for Key."); } if (IVIsValid(GetStringFromByteArray(_iv)) == false) { throw new System.Exception("Invalid length for IV."); } FileStream fsInput = null; FileStream fsEncrypted = null; CryptoStream cryptoStream = null; try { fsInput = new FileStream(encryptedInputFile, FileMode.Open, FileAccess.Read); fsEncrypted = new FileStream(outputFile, FileMode.Create, FileAccess.Write); cryptoStream = new CryptoStream(fsEncrypted, _cryptoProvider.CreateDecryptor(_key, _iv), CryptoStreamMode.Write); int bufferLength = _bufferLength; byte[] buffer = new byte[bufferLength]; int contentLength = 0; long totalBytes = 0; contentLength = fsInput.Read(buffer, 0, bufferLength); while (contentLength != 0) { cryptoStream.Write(buffer, 0, contentLength); cryptoStream.Flush(); contentLength = fsInput.Read(buffer, 0, bufferLength); totalBytes += contentLength; if (currentStatusReport != null) { if (st.StatusReportDue()) { currentStatusReport("Decryption", "In Progress", totalBytes, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } } } if (currentStatusReport != null) { currentStatusReport("Decryption", "Completed", totalBytes, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); } cryptoStream.FlushFinalBlock(); cryptoStream.Close(); } catch (System.Exception ex) { _msg.Length = 0; _msg.Append("Attempt to decrypt file "); _msg.Append(encryptedInputFile); _msg.Append(" failed. Verify you are using same key/iv pair used to encrypt. Error message: "); _msg.Append("\r\n"); _msg.Append(AppMessages.FormatErrorMessage(ex)); throw new System.Exception(_msg.ToString()); } finally { if (fsInput != null) { fsInput.Close(); } if (fsEncrypted != null) { fsEncrypted.Close(); } } return(outputFile); }
/// <summary> /// Decrypts by loading encryptedInputFile to a string and then decrypting the string. Decrypted string is then written out as text to the outputFile. /// </summary> /// <param name="encryptedInputFile">Full path to file containing the encrypted data.</param> /// <param name="outputFile">Full path to file that will contain decrypted data.</param> /// <param name="st">A StatusTimer object to use for timing the encryption.</param> /// <returns>Returns path to output file.</returns> /// <remarks>This routine assumes the encrypted data is in base64 text format.</remarks> public string Decrypt(string encryptedInputFile, string outputFile, StatusTimer st) { //IStringEncryptor encryptor = new StringEncryptorAES(); //PFStringEncryptor encryptor = new PFStringEncryptor(_encryptionAlgorithm); if (st == null) { throw new ArgumentNullException("StatusTime must be specified for this routine."); } if (String.IsNullOrEmpty(encryptedInputFile) || String.IsNullOrEmpty(outputFile)) { throw new ArgumentNullException("Paths to both the encrypted input file and the output file need to be specified."); } if (KeyIsValid(GetStringFromByteArray(_key)) == false) { throw new System.Exception("Invalid length for Key."); } if (IVIsValid(GetStringFromByteArray(_iv)) == false) { throw new System.Exception("Invalid length for IV."); } try { //string encryptedData = File.ReadAllText(encryptedInputFile); //encryptor.Key = this.Key; //encryptor.IV = this.IV; //string decryptedData = encryptor.Decrypt(encryptedData); //File.WriteAllText(outputFile, decryptedData); PFFileEncoder encoder = new PFFileEncoder(); PFTempFile tempFile = new PFTempFile(); FileInfo fi = new FileInfo(encryptedInputFile); //************************************************************************************************** //dont't setup the timer callback: EncodeFileToBase64 routine slows down by a factor of 3x slower. //encoder.currentStatusReport += FileEncoderStatusReport; //st.NumSecondsInterval = 60; //************************************************************************************************** currentStatusReport("DecodeFromBase64", "In Progress", fi.Length, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); //encoder.DecodeFileFromBase64(encryptedInputFile, tempFile.TempFileName); DecodeFileOnSeparateThread(encoder, encryptedInputFile, tempFile.TempFileName, st); fi = new FileInfo(tempFile.TempFileName); currentStatusReport("DecodeFromBase64", "Completed", fi.Length, (int)st.GetElapsedTime().TotalSeconds, st.GetFormattedElapsedTime()); DecryptBinary(tempFile.TempFileName, outputFile, st); } catch (System.Exception ex) { _msg.Length = 0; _msg.Append("Attempt to decrypt file "); _msg.Append(encryptedInputFile); _msg.Append(" failed. Verify you are using same key/iv pair used to encrypt. Error message: "); _msg.Append("\r\n"); _msg.Append(AppMessages.FormatErrorMessage(ex)); throw new System.Exception(_msg.ToString()); } finally { ; } return(outputFile); }
//WARNING: Status timer can slow down processing significantly if processing is in a tight loop. public void StatusTimerTest(MainForm frm) { StatusTimer timer = new StatusTimer(); long loopMax = 100000000; int statusInterval = 5; try { _msg.Length = 0; _msg.Append("StatusTimerTest started ...\r\n"); WriteMessageToLog(_msg.ToString()); timer.NumSecondsInterval = statusInterval; timer.Start(); //report status every two seconds _msg.Length = 0; _msg.Append("\r\nLooping "); _msg.Append(loopMax.ToString("#,##0")); _msg.Append(" times... \r\n"); WriteMessageToLog(_msg.ToString()); for (long num = 1; num <= loopMax; num++) { if (timer.StatusReportDue()) { _msg.Length = 0; _msg.Append("Loop count = "); _msg.Append(num.ToString("#,##0")); _msg.Append(" Elapsed time to this point: "); _msg.Append(timer.GetFormattedElapsedTime()); WriteMessageToLog(_msg.ToString()); } } _msg.Length = 0; _msg.Append("Loop count = "); _msg.Append(loopMax.ToString("#,##0")); _msg.Append(" Elapsed time to this point: "); _msg.Append(timer.GetFormattedElapsedTime()); WriteMessageToLog(_msg.ToString()); _msg.Length = 0; _msg.Append(Environment.NewLine); _msg.Append(Environment.NewLine); _msg.Append("Total Elapsed Time: "); _msg.Append(timer.GetFormattedElapsedTime()); _msg.Append(Environment.NewLine); _msg.Append("Elapsed milliseconds: "); _msg.Append(timer.GetElapsedTime().TotalMilliseconds.ToString("#,##0")); _msg.Append(Environment.NewLine); WriteMessageToLog(_msg.ToString()); timer.Stop(); } catch (System.Exception ex) { _msg.Length = 0; _msg.Append(AppGlobals.AppMessages.FormatErrorMessage(ex)); WriteMessageToLog(_msg.ToString()); AppMessages.DisplayErrorMessage(_msg.ToString(), _saveErrorMessagesToAppLog); } finally { _msg.Length = 0; _msg.Append("\r\n... StatusTimerTest finished."); WriteMessageToLog(_msg.ToString()); } }