public async Task Check_SimpleUdpConnection() { var testingPort1 = TestUtility.GetFreeTcpPort(); var testingPort2 = TestUtility.GetFreeTcpPort(); var receiveTaskOnPassiveChannel = new TaskCompletionSource <string>(); var receiveTaskOnActiveChannel = new TaskCompletionSource <string>(); // Define channels var passiveChannel = new MessageChannel( new UdpByteStreamHandlerSettings(testingPort1, IPAddress.Loopback, testingPort2), new DefaultMessageRecognizerSettings(Encoding.UTF8), (msg) => { receiveTaskOnPassiveChannel.SetResult(msg.ToString()); msg.ReturnToPool(); }); var activeChannel = new MessageChannel( new UdpByteStreamHandlerSettings(testingPort2, IPAddress.Loopback, testingPort1), new DefaultMessageRecognizerSettings(Encoding.UTF8), (msg) => { receiveTaskOnActiveChannel.SetResult(msg.ToString()); msg.ReturnToPool(); }); try { // Start both channels await Task.WhenAll( passiveChannel.StartAsync(), activeChannel.StartAsync()); // Wait for connection var timeoutTokenSource = new CancellationTokenSource(TimeSpan.FromSeconds(5.0)); await Task.WhenAll( passiveChannel.WaitForConnectionAsync(timeoutTokenSource.Token), activeChannel.WaitForConnectionAsync(timeoutTokenSource.Token)); Assert.AreEqual(ConnectionState.Connected, passiveChannel.State, $"Unable to connect on port {testingPort2}"); Assert.AreEqual(ConnectionState.Connected, activeChannel.State, $"Unable to connect on port {testingPort1}"); // Send/Receive some messages in both directions await passiveChannel.SendAsync("Message from passive endpoint"); await activeChannel.SendAsync("Message from active endpoint"); // Check for received messages var receivedOnPassiveChannel = await receiveTaskOnPassiveChannel.Task; var receivedOnActiveChannel = await receiveTaskOnActiveChannel.Task; Assert.IsTrue(receivedOnPassiveChannel == "Message from active endpoint"); Assert.IsTrue(receivedOnActiveChannel == "Message from passive endpoint"); } finally { await Task.WhenAll( passiveChannel.StopAsync(), activeChannel.StopAsync()); } }
public async Task Check_SerialConnection_Send() { var encoding = Encoding.UTF8; // Fake serial port api and listen for Write calls var receivedString = string.Empty; SerialPortByteStreamHandler.SerialPortFactory = () => { var isOpened = false; var fakedSerialPort = A.Fake <ISerialPort>(); A.CallTo(() => fakedSerialPort.IsOpen).ReturnsLazily(call => isOpened); A.CallTo(() => fakedSerialPort.Open()).Invokes(call => isOpened = true); A.CallTo(() => fakedSerialPort.Close()).Invokes(call => isOpened = false); A.CallTo(fakedSerialPort) .Where(call => call.Method.Name == nameof(ISerialPort.Write)) .Invokes(call => { var buffer = (byte[])call.Arguments[0] !; var offset = (int)call.Arguments[1] !; var count = (int)call.Arguments[2] !; receivedString = encoding.GetString(buffer, offset, count); }); return(fakedSerialPort); }; // Define channels var serialChannel = new MessageChannel( new SerialPortByteStreamHandlerSettings("COM1"), new StartAndEndSymbolsRecognizerSettings(encoding, "<", ">")); try { // Start both channels await serialChannel.StartAsync(); // Wait for connection var timeoutTokenSource = new CancellationTokenSource(TimeSpan.FromSeconds(5.0)); await serialChannel.WaitForConnectionAsync(timeoutTokenSource.Token); Assert.AreEqual(serialChannel.State, ConnectionState.Connected); // Send/Receive some messages in both directions await serialChannel.SendAsync("Message sent through serial channel"); // Check for written message Assert.AreEqual(receivedString, "<Message sent through serial channel>"); } finally { await serialChannel.StopAsync(); } }
public static async Task Main(string[] args) { // Create and start receive channel var passiveTcpChannel = new MessageChannel( new TcpPassiveByteStreamHandlerSettings(IPAddress.Loopback, 12000), new EndSymbolsMessageRecognizerSettings(Encoding.UTF8, "##"), (message) => { Console.WriteLine($"Received message on passive channel: {message}"); }); await passiveTcpChannel.StartAsync(); // Create and start send channel var activeTcpChannel = new MessageChannel( new TcpActiveByteStreamHandlerSettings(IPAddress.Loopback, 12000), new EndSymbolsMessageRecognizerSettings(Encoding.UTF8, "##"), (message) => { Console.WriteLine($"Received message on active channel: {message}"); }); await activeTcpChannel.StartAsync(); // Wait until both channels are connected while (passiveTcpChannel.State != ConnectionState.Connected) { await Task.Delay(500); } // Send some messages (active -> passive) await activeTcpChannel.SendAsync("Message 1 from active to passive..."); await activeTcpChannel.SendAsync("Message 2 from active to passive..."); await activeTcpChannel.SendAsync("Message 3 from active to passive..."); // Send some messages (passive -> active) await passiveTcpChannel.SendAsync("Message 1 from active to passive..."); await passiveTcpChannel.SendAsync("Message 2 from active to passive..."); await passiveTcpChannel.SendAsync("Message 3 from active to passive..."); // Wait Console.ReadLine(); // Stop both channels await activeTcpChannel.StopAsync(); await passiveTcpChannel.StopAsync(); }
public async Task ChangeParametersAsync(ConnectionParameters newConnParameters) { var prefWasRunning = false; if (_messageChannel.IsRunning) { await _messageChannel.StopAsync(); prefWasRunning = true; } this.Parameters = newConnParameters; _messageChannel = SetupMessageChannel(newConnParameters, this, this); if (prefWasRunning) { await _messageChannel.StartAsync(); } }
public Task StartAsync() { return(_messageChannel.StartAsync()); }
public async Task Check_SerialConnection_Receive() { var encoding = Encoding.UTF8; // Fake serial port api and listen for Write calls byte[]? fakeReceive = null; ISerialPort?fakedSerialPort = null; SerialPortByteStreamHandler.SerialPortFactory = () => { var isOpened = false; fakedSerialPort = A.Fake <ISerialPort>(); A.CallTo(() => fakedSerialPort.IsOpen).ReturnsLazily(call => isOpened); A.CallTo(() => fakedSerialPort.Open()).Invokes(call => isOpened = true); A.CallTo(() => fakedSerialPort.Close()).Invokes(call => isOpened = false); A.CallTo(() => fakedSerialPort.BytesToRead).ReturnsLazily(call => fakeReceive?.Length ?? 0); A.CallTo(fakedSerialPort) .Where(call => call.Method.Name == nameof(ISerialPort.Read)) .WithReturnType <int>() .Invokes(call => { var fakeReceiveInner = fakeReceive; if (fakeReceiveInner == null) { return; } var buffer = (byte[])call.Arguments[0] !; Array.Copy(fakeReceiveInner, buffer, fakeReceiveInner.Length); }) .ReturnsLazily(call => { var result = fakeReceive !.Length; fakeReceive = null; return(result); }); return(fakedSerialPort); }; // Define channels var receiveMessageTask = new TaskCompletionSource <string>(); var serialChannel = new MessageChannel( new SerialPortByteStreamHandlerSettings("COM1"), new StartAndEndSymbolsRecognizerSettings(encoding, "<", ">"), (msg) => { receiveMessageTask.SetResult(msg.ToString()); msg.ReturnToPool(); }); try { // Start both channels await serialChannel.StartAsync(); // Wait for connection var timeoutTokenSource = new CancellationTokenSource(TimeSpan.FromSeconds(5.0)); await serialChannel.WaitForConnectionAsync(timeoutTokenSource.Token); Assert.AreEqual(serialChannel.State, ConnectionState.Connected); var constructor = typeof(SerialDataReceivedEventArgs) .GetConstructor( BindingFlags.NonPublic | BindingFlags.CreateInstance | BindingFlags.Instance, null, CallingConventions.Any, new[] { typeof(SerialData) }, null); Assert.IsNotNull(constructor, $"Constructor for {nameof(SerialDataReceivedEventArgs)} not found!"); // Trigger receive data and event fakeReceive = encoding.GetBytes("<Message received through serial channel>"); fakedSerialPort !.DataReceived += Raise.FreeForm <SerialDataReceivedEventHandler> .With( fakedSerialPort, constructor !.Invoke(new object[] { SerialData.Chars })); // Process received data await Task.WhenAny( receiveMessageTask.Task, Task.Delay(4000)); Assert.IsTrue(receiveMessageTask.Task.IsCompleted); Assert.AreEqual(receiveMessageTask.Task.Result, "Message received through serial channel"); } finally { await serialChannel.StopAsync(); } Assert.IsFalse(fakedSerialPort.IsOpen); }