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(Mono C#) Streaming EncryptionEncrypt and decrypt using a stream.
// This example assumes the Chilkat API to have been previously unlocked. // See Global Unlock Sample for sample code. Chilkat.Crypt2 crypt = new Chilkat.Crypt2(); // Setup encryption using the chacha20 algorithm... crypt.CryptAlgorithm = "chacha20"; crypt.KeyLength = 256; crypt.EncodingMode = "hex"; string ivHex = "000000000000000000000002"; crypt.SetEncodedIV(ivHex,"hex"); crypt.InitialCount = 42; string keyHex = "1c9240a5eb55d38af333888604f6b5f0473917c1402b80099dca5cbc207075c0"; crypt.SetEncodedKey(keyHex,"hex"); string plainText = "The quick brown fox jumped over the lazy dog.\r\n"; Chilkat.Stream stream = new Chilkat.Stream(); // We'll save the encrypted output in eStrings to demonstrate streaming decryption next. Chilkat.StringArray eStrings = new Chilkat.StringArray(); // Start a background task that will encrypt a stream. Chilkat.Task task = crypt.EncryptStreamAsync(stream); bool success = task.Run(); // Write plainText to the stream, and read chacha20 encrypted text.. string cipherText; int i; for (i = 1; i <= 10; i++) { // Note: An encryption algorithm's block size will cause buffering, // and therefore not every loop iteration will produce output. success = stream.WriteString(plainText); if (stream.DataAvailable == true) { cipherText = stream.ReadBytesENC("hex"); Debug.WriteLine(cipherText); success = eStrings.Append(cipherText); } } // Tell the background task that the stream has ended. success = stream.WriteClose(); // Let's make sure the background task finished. // It should already be the case that the task is finished. while ((task.Finished != true)) { task.SleepMs(20); } // Get any remaining data available from the stream. if (stream.DataAvailable == true) { cipherText = stream.ReadBytesENC("hex"); Debug.WriteLine(cipherText); success = eStrings.Append(cipherText); } if (task.TaskSuccess != true) { Debug.WriteLine("async encryption failed:"); Debug.WriteLine(task.ResultErrorText); success = false; } Debug.WriteLine("-- encrypt finished --"); // Now decrypt to return the original. // Reset the stream object so it can be used again. stream.Reset(); // Start a background task that will decrypt a stream. task = crypt.DecryptStreamAsync(stream); success = task.Run(); int n = eStrings.Count; for (i = 0; i <= n - 1; i++) { success = stream.WriteBytesENC(eStrings.GetString(i),"hex"); if (stream.DataAvailable == true) { plainText = stream.ReadString(); Debug.WriteLine(plainText); } } // Tell the background task that the stream has ended. success = stream.WriteClose(); // Let's make sure the background task finished. // It should already be the case that the task is finished. while ((task.Finished != true)) { task.SleepMs(20); } // Get any remaining data available from the stream. if (stream.DataAvailable == true) { plainText = stream.ReadString(); Debug.WriteLine(plainText); } if (task.TaskSuccess != true) { Debug.WriteLine("async decryption failed:"); Debug.WriteLine(task.ResultErrorText); success = false; } Debug.WriteLine("-- decrypt finished --"); |
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