// Шифрование тестового файла. static void EncryptTestFile( Gost3410 publicKey, Gost3410CryptoServiceProvider privateKey, string fileId = "2001") { // Создаем симметричный ключ. Gost28147 symmetric = Gost28147.Create(); // Открываем ключ отправителя. Gost3410Parameters srcPublicKeyParameters = privateKey.ExportParameters(false); // Создаем agree ключ GostSharedSecretAlgorithm agree = privateKey.CreateAgree( publicKey.ExportParameters(false)); // Зашифровываем симметричный ключ на agree ключе. byte[] WrappedKey = agree.Wrap(symmetric, GostKeyWrapMethod.CryptoPro12KeyWrap); // Создаем поток шифратора. ICryptoTransform transform = symmetric.CreateEncryptor(); // Создаем зашифрованный файл. using (FileStream ofs = new FileStream(string.Format(EncryptedFileName, fileId), FileMode.Create)) { BinaryWriter bw = new BinaryWriter(ofs); // Записываем зашифрованный симметричный ключ. bw.Write(WrappedKey.Length); bw.Write(WrappedKey); // Записываем синхропосылку bw.Write(symmetric.IV.Length); bw.Write(symmetric.IV); // Передаем открытый ключ. BinaryFormatter formatter = new BinaryFormatter(); formatter.Serialize(ofs, srcPublicKeyParameters); // Создаем поток шифрования для записи в файл. using (CryptoStream cs = new CryptoStream(ofs, transform, CryptoStreamMode.Write)) { byte[] data = new byte[4096]; // Открываем входной файл. using (FileStream ifs = new FileStream(string.Format(SourceFileName, fileId), FileMode.Open, FileAccess.Read)) { // и переписываем содержимое в выходной поток. int length = ifs.Read(data, 0, data.Length); while (length > 0) { cs.Write(data, 0, length); length = ifs.Read(data, 0, data.Length); } } } } }
// Расшифрование тестового файла. static void DecryptTestFile(Gost3410CryptoServiceProvider privateKey, string fileId = "2001") { // Открываем зашифрованный файл. using (FileStream ifs = new FileStream(string.Format(EncryptedFileName, fileId), FileMode.Open, FileAccess.Read)) { // Читаем зашифрованный симметричный ключ. BinaryReader br = new BinaryReader(ifs); byte[] cek; int cekLength = br.ReadInt32(); cek = br.ReadBytes(cekLength); // Читаем синхропосылку byte[] iv; int ivLength = br.ReadInt32(); iv = br.ReadBytes(ivLength); // Читаем открытый ключ. BinaryFormatter formatter = new BinaryFormatter(); Gost3410Parameters srcPublicKeyParameters = (Gost3410Parameters)formatter.Deserialize(ifs); // Создаем agree ключ GostSharedSecretAlgorithm agree = privateKey.CreateAgree( srcPublicKeyParameters); // Расшифровываем симметричный ключ на agree SymmetricAlgorithm symmetric = agree.Unwrap(cek, GostKeyWrapMethod.CryptoPro12KeyWrap); symmetric.IV = iv; // Создаем поток разшифрования. ICryptoTransform transform = symmetric.CreateDecryptor(); // Создаем поток разшифрования из файла. using (CryptoStream cs = new CryptoStream(ifs, transform, CryptoStreamMode.Read)) { // Открываем расшифрованный файл using (FileStream ofs = new FileStream(string.Format(DecryptedFileName, fileId), FileMode.Create)) { byte[] data = new byte[4096]; // и переписываем содержимое в выходной поток. int length = cs.Read(data, 0, data.Length); while (length > 0) { ofs.Write(data, 0, length); length = cs.Read(data, 0, data.Length); } } } } }
private void button1_Click(object sender, EventArgs e) { Gost28147 gost = Gost28147.Create(); Gost3410Parameters public_key = csp.ExportParameters(false); GostSharedSecretAlgorithm agree_key = csp.CreateAgree(sign.ExportParameters(false)); byte[] wrapped_key = agree_key.Wrap(gost, GostKeyWrapMethod.CryptoProKeyWrap); BinaryFormatter bf = new BinaryFormatter(); MemoryStream ms = new MemoryStream(); bf.Serialize(ms, public_key); byte[] public_key_bytes = ms.ToArray(); ms.Close(); MemoryStream memory_stream = new MemoryStream(); CryptoStream cs = new CryptoStream(memory_stream, gost.CreateEncryptor(), CryptoStreamMode.Write); string plain_text = richTextBox1.Text; byte[] plain_text_bytes = Encoding.ASCII.GetBytes(plain_text); cs.Write(plain_text_bytes, 0, plain_text_bytes.Length); cs.FlushFinalBlock(); byte[] cipher_text_bytes = memory_stream.ToArray(); memory_stream.Close(); cs.Close(); BERelement main_seq = new BERelement(0x30); BERelement sign_seq = new BERelement(0x30); sign_seq.AddItem(new BERelement(0x02, wrapped_key)); sign_seq.AddItem(new BERelement(0x02, gost.IV)); sign_seq.AddItem(new BERelement(0x02, public_key_bytes)); sign_seq.AddItem(new BERelement(0x02, cipher_text_bytes)); main_seq.AddItem(sign_seq); byte[] test = main_seq.GetEncodedPacket().ToArray(); //File.WriteAllBytes("asn1", test); /* * sign_seq.AddItem(new BERelement(0x02, signature)); * sign_seq.AddItem(new BERelement(0x02, plain_text_bytes)); * * main_seq.AddItem(sign_seq); * byte[] test = main_seq.GetEncodedPacket().ToArray(); */ //send data try { Int32 port = 9595; TcpClient client = new TcpClient("127.0.0.1", port); NetworkStream stream = client.GetStream(); stream.Write(mode, 0, 1); stream.Write(test, 0, test.Length); //stream.Write(wrapped_key, 0, wrapped_key.Length); //stream.Write(gost.IV, 0, gost.IV.Length); //stream.Write(public_key_bytes, 0, public_key_bytes.Length); //stream.Write(cipher_text_bytes, 0, cipher_text_bytes.Length); stream.Close(); client.Close(); } catch (ArgumentNullException exception) { MessageBox.Show("ArgumentNullException: " + exception); } catch (SocketException exception) { MessageBox.Show("SocketException: " + exception); } }
private void check_response() { TcpClient client = null; try { TcpListener listener = new TcpListener(IPAddress.Parse("127.0.0.1"), 9595); listener.Start(); Byte[] bytes = new Byte[256]; String data = null; while (true) { client = listener.AcceptTcpClient(); NetworkStream ns = client.GetStream(); Byte[] mode_bytes = new Byte[1]; int mode = ns.Read(mode_bytes, 0, mode_bytes.Length); if (mode_bytes[0] == 0x01) { richTextBox1.Text += "Received encrypted msg. Try to decrypt: \n"; int bytes_read = ns.Read(buffer, 0, buffer.Length); byte[] message = new byte[bytes_read]; Array.Copy(buffer, message, bytes_read); BERelement mSeq = BERelement.DecodePacket(message); BERelement sSeq = null; sSeq = mSeq.Items[0]; var cert_name = sSeq.Items[0].Value; var wrapped_key2 = sSeq.Items[1].Value; var iv2 = sSeq.Items[2].Value; var public_key_bytes = sSeq.Items[3].Value; var cipher_text_bytes = sSeq.Items[4].Value; MemoryStream ms = new MemoryStream(public_key_bytes); BinaryFormatter bf = new BinaryFormatter(); Gost3410Parameters key_params = (Gost3410Parameters)bf.Deserialize(ms); GostSharedSecretAlgorithm agree_key = csp.CreateAgree(key_params); SymmetricAlgorithm gost = agree_key.Unwrap(wrapped_key2, GostKeyWrapMethod.CryptoProKeyWrap); gost.IV = iv2; MemoryStream memoryStream = new MemoryStream(); CryptoStream cryptoStream = new CryptoStream(memoryStream, gost.CreateDecryptor(), CryptoStreamMode.Write); int bytesRead = cipher_text_bytes.Length; cryptoStream.Write(cipher_text_bytes, 0, bytesRead); cryptoStream.FlushFinalBlock(); byte[] plain_text_bytes = memoryStream.ToArray(); richTextBox1.Text += Encoding.ASCII.GetString(plain_text_bytes, 0, plain_text_bytes.Length) + "\n"; } if (mode_bytes[0] == 0x02) { richTextBox1.Text += "Received sign. Try to check it: \n"; Gost3411CryptoServiceProvider hash = new Gost3411CryptoServiceProvider(); int bytes_read = ns.Read(buffer, 0, buffer.Length); byte[] message = new byte[bytes_read]; Array.Copy(buffer, message, bytes_read); BERelement mSeq = BERelement.DecodePacket(message); BERelement sSeq = null; sSeq = mSeq.Items[0]; var cert_name = sSeq.Items[0].Value; var signed2 = sSeq.Items[1].Value; var msg = sSeq.Items[2].Value; int len = signed2.Length; bool test = csp.VerifyData(msg, hash, signed2); if (test) { richTextBox1.Text += "Подпись корректна.\r\n"; } else { richTextBox1.Text += "Подпись некорректна.\r\n"; } /* * bool test = csp.VerifyData(message, hash, signed); * if (test) richTextBox1.Text += "Подпись корректна.\r\n"; * else richTextBox1.Text += "Подпись некорректна.\r\n"; * */ } if (mode_bytes[0] == 0x03) { richTextBox1.Text += "Received sign and encryption. Making magic: \n"; int bytes_read = ns.Read(buffer, 0, buffer.Length); byte[] message = new byte[bytes_read]; Array.Copy(buffer, message, bytes_read); BERelement mSeq = BERelement.DecodePacket(message); BERelement sSeq = null; sSeq = mSeq.Items[0]; var cert_name = sSeq.Items[0].Value; var wrapped_key2 = sSeq.Items[1].Value; var iv2 = sSeq.Items[2].Value; var public_key_bytes = sSeq.Items[3].Value; var cipher_text_bytes = sSeq.Items[4].Value; MemoryStream ms = new MemoryStream(public_key_bytes); BinaryFormatter bf = new BinaryFormatter(); Gost3410Parameters key_params = (Gost3410Parameters)bf.Deserialize(ms); GostSharedSecretAlgorithm agree_key = csp.CreateAgree(key_params); SymmetricAlgorithm gost = agree_key.Unwrap(wrapped_key2, GostKeyWrapMethod.CryptoProKeyWrap); gost.IV = iv2; MemoryStream memoryStream = new MemoryStream(); CryptoStream cryptoStream = new CryptoStream(memoryStream, gost.CreateDecryptor(), CryptoStreamMode.Write); int bytesRead = cipher_text_bytes.Length; cryptoStream.Write(cipher_text_bytes, 0, bytesRead); cryptoStream.FlushFinalBlock(); byte[] plain_text_bytes = memoryStream.ToArray(); //check signature Gost3411CryptoServiceProvider hash = new Gost3411CryptoServiceProvider(); //Array.Copy(buffer, message, bytes_read); BERelement mSeq2 = BERelement.DecodePacket(plain_text_bytes); BERelement sSeq2 = null; sSeq2 = mSeq2.Items[0]; var cert_name2 = sSeq2.Items[0].Value; var signed3 = sSeq2.Items[1].Value; var msg2 = sSeq2.Items[2].Value; int len2 = signed3.Length; bool test = csp.VerifyData(msg2, hash, signed3); richTextBox1.Text += "Полученное сообщение: " + Encoding.ASCII.GetString(msg2, 0, msg2.Length) + "\r\n"; if (test) { richTextBox1.Text += "Подпись корректна.\r\n"; } else { richTextBox1.Text += "Подпись некорректна.\r\n"; } } int i; while ((i = ns.Read(bytes, 0, bytes.Length)) != 0) { data = System.Text.Encoding.ASCII.GetString(bytes, 0, i); richTextBox1.Text = DateTime.Now.ToString() + "\n"; richTextBox1.Text += data; } client.Close(); } } catch (SocketException exception) { MessageBox.Show("SocketException: " + exception); } }