public Main()
{
try
{
InitializeComponent();
ProcessFile();
WriteFile();
MessageBox.Show("Done!");
return;
_mMouseHookManager = new MouseHookListener(new GlobalHooker()) {Enabled = true};
_mMouseHookManager.MouseUp += mMouseHookManager_MouseUp;
ReadKeyFile(Properties.Settings.Default.KeyPath);
IDuplexTypedMessagesFactory aSenderFactory = new DuplexTypedMessagesFactory();
_mySender = aSenderFactory.CreateDuplexTypedMessageSender<AppQA, MyResponse>();
IMessagingSystemFactory aMessaging = new TcpMessagingSystemFactory();
IDuplexOutputChannel anOutputChannel =
aMessaging.CreateDuplexOutputChannel("tcp://" + Properties.Settings.Default.IpAddress + ":8060/");
// Attach the input channel and start to listen to messages.
_mySender.AttachDuplexOutputChannel(anOutputChannel);
}
catch (Exception exception)
{
WriteAnswer(Properties.Settings.Default.AnswerPath, exception.Message);
}
}
private void OpenConnectionBtn_Click(object sender, EventArgs e)
{
if (!mySender.IsDuplexOutputChannelAttached)
{
// The output channel is not attached yet.
// So attach the output channel and be able to send
// request messagas and receive response messages.
IMessagingSystemFactory aMessaging = new TcpMessagingSystemFactory()
{
// Set to receive messages in the main UI thread.
// Note: if this is not set then methods OnResponseReceived and
// OnConnectionClosed would not be called from main UI thread
// but from a listener thread.
OutputChannelThreading = new WinFormsDispatching(this)
};
IDuplexOutputChannel anOutputChannel = aMessaging.CreateDuplexOutputChannel("tcp://127.0.0.1:8033/");
mySender.AttachDuplexOutputChannel(anOutputChannel);
ConnectionStatusLabel.Text = "Client Connected";
}
else if (!mySender.AttachedDuplexOutputChannel.IsConnected)
{
// The output channel is attached but the client got disconnected.
// So jut reopen the connection.
mySender.AttachedDuplexOutputChannel.OpenConnection();
ConnectionStatusLabel.Text = "Client Connected";
}
}
public void Openconnection()
{
// Create message sender sending request messages of type Person and receiving responses of type string.
IDuplexTypedMessagesFactory aTypedMessagesFactory = new DuplexTypedMessagesFactory();
myMessageSender = aTypedMessagesFactory.CreateDuplexTypedMessageSender <string, Person>();
myMessageSender.ResponseReceived += OnResponseReceived;
// Create messaging based on TCP.
IMessagingSystemFactory aMessagingSystemFactory = new TcpMessagingSystemFactory();
IDuplexOutputChannel anOutputChannel = aMessagingSystemFactory.CreateDuplexOutputChannel("tcp://127.0.0.1:8094/");
// Attach output channel and be able to send messages and receive response messages.
myMessageSender.AttachDuplexOutputChannel(anOutputChannel);
}
public MainWindow()
{
InitializeComponent();
IDuplexTypedMessagesFactory aTypedMessagesFactory = new DuplexTypedMessagesFactory();
mySender = aTypedMessagesFactory.CreateDuplexTypedMessageSender <MyResponse, MyRequest>();
mySender.ResponseReceived += OnResponseReceived;
// Create messaging based on TCP.
IMessagingSystemFactory aMessagingSystemFactory = new TcpMessagingSystemFactory();
IDuplexOutputChannel anOutputChannel = aMessagingSystemFactory.CreateDuplexOutputChannel("tcp://192.168.2.9:8060/");
// Attach output channel and be able to send messages and receive response messages.
mySender.AttachDuplexOutputChannel(anOutputChannel);
MyRequest test = new MyRequest {
side = "L", strength = 10
};
mySender.SendRequestMessage(test);
MyRequest reset = new MyRequest {
side = "L", strength = 0
};
mySender.SendRequestMessage(reset);
try
{
USBInterface usb = new USBInterface("vid_044f", "pid_b108");
usb.Connect();
usb.enableUsbBufferEvent(new System.EventHandler(myEventCacher));
usb.startRead();
Console.ReadLine();
}
catch (Exception ex)
{
Console.WriteLine(ex);
}
}
public void AttachOutputChannel()
{
try
{
switch (MessagesFactoryType)
{
case YZXMessagesFactoryType.Duplex:
if (DSender == null)
{
ConfigSender();
}
else
{
if (DSender.IsDuplexOutputChannelAttached)
{
}
else
{
try
{
anOutputChannel = UnderlyingMessaging.CreateDuplexOutputChannel(Partner);
DSender.AttachDuplexOutputChannel(anOutputChannel);
}
catch (Exception ex)
{
Console.WriteLine(ex);
}
}
}
break;
}
}
catch (Exception EX)
{
Console.WriteLine(EX);
}
}
public void SendReceive_1Message_PerClientSerializer()
{
string aClient1Id = null;
IDuplexTypedMessagesFactory aSender1Factory = new DuplexTypedMessagesFactory(new XmlStringSerializer());
IDuplexTypedMessagesFactory aSender2Factory = new DuplexTypedMessagesFactory(new BinarySerializer());
IDuplexTypedMessagesFactory aReceiverFactory = new DuplexTypedMessagesFactory()
{
SerializerProvider = x => (x == aClient1Id) ? (ISerializer) new XmlStringSerializer() : (ISerializer) new BinarySerializer()
};
IDuplexTypedMessageSender <int, int> aSender1 = aSender1Factory.CreateDuplexTypedMessageSender <int, int>();
IDuplexTypedMessageSender <int, int> aSender2 = aSender2Factory.CreateDuplexTypedMessageSender <int, int>();
IDuplexTypedMessageReceiver <int, int> aReceiver = aReceiverFactory.CreateDuplexTypedMessageReceiver <int, int>();
aReceiver.ResponseReceiverConnected += (x, y) => aClient1Id = aClient1Id ?? y.ResponseReceiverId;
int aReceivedMessage = 0;
aReceiver.MessageReceived += (x, y) =>
{
aReceivedMessage = y.RequestMessage;
// Send the response
aReceiver.SendResponseMessage(y.ResponseReceiverId, 1000);
};
AutoResetEvent aSender1MessageReceivedEvent = new AutoResetEvent(false);
int aSender1ReceivedResponse = 0;
aSender1.ResponseReceived += (x, y) =>
{
aSender1ReceivedResponse = y.ResponseMessage;
// Signal that the response message was received -> the loop is closed.
aSender1MessageReceivedEvent.Set();
};
AutoResetEvent aSender2MessageReceivedEvent = new AutoResetEvent(false);
int aSender2ReceivedResponse = 0;
aSender2.ResponseReceived += (x, y) =>
{
aSender2ReceivedResponse = y.ResponseMessage;
// Signal that the response message was received -> the loop is closed.
aSender2MessageReceivedEvent.Set();
};
try
{
aReceiver.AttachDuplexInputChannel(DuplexInputChannel);
aSender1.AttachDuplexOutputChannel(MessagingSystemFactory.CreateDuplexOutputChannel(DuplexInputChannel.ChannelId));
aSender2.AttachDuplexOutputChannel(MessagingSystemFactory.CreateDuplexOutputChannel(DuplexInputChannel.ChannelId));
aSender1.SendRequestMessage(2000);
aSender2.SendRequestMessage(2000);
// Wait for the signal that the message is received.
aSender1MessageReceivedEvent.WaitIfNotDebugging(2000);
aSender2MessageReceivedEvent.WaitIfNotDebugging(2000);
//Assert.IsTrue(aMessageReceivedEvent.WaitOne(2000));
}
finally
{
aSender1.DetachDuplexOutputChannel();
aSender2.DetachDuplexOutputChannel();
aReceiver.DetachDuplexInputChannel();
// Give some time to complete tracing.
Thread.Sleep(300);
}
// Check received values
Assert.AreEqual(2000, aReceivedMessage);
Assert.AreEqual(1000, aSender1ReceivedResponse);
Assert.AreEqual(1000, aSender2ReceivedResponse);
}
// The method is called when the button to send message is clicked.
private void SendMessage_Click(object sender, RoutedEventArgs e)
{
// Create message sender sending request messages of type Person and receiving responses of type string.
IDuplexTypedMessagesFactory aTypedMessagesFactory = new DuplexTypedMessagesFactory();
myMessageSender = aTypedMessagesFactory.CreateDuplexTypedMessageSender<byte[], byte[]>();
myMessageSender.ResponseReceived += ResponseReceived;
// Create messaging based on TCP.
IMessagingSystemFactory aMessagingSystemFactory = new TcpMessagingSystemFactory();
IDuplexOutputChannel aDuplexOutputChannel = aMessagingSystemFactory.CreateDuplexOutputChannel("tcp://127.0.0.1:4502/");
// Attach output channel and be able to send messages and receive response messages.
myMessageSender.AttachDuplexOutputChannel(aDuplexOutputChannel);
myMessageSender.SendRequestMessage(GetBytes(textBox1.Text));
}
public void CalculatePi()
{
//EneterTrace.DetailLevel = EneterTrace.EDetailLevel.Debug;
//EneterTrace.TraceLog = new StreamWriter("d:/tracefile.txt");
IMessagingSystemFactory aThreadMessaging = new ThreadMessagingSystemFactory();
List <CalculatorService> aServices = new List <CalculatorService>();
ILoadBalancer aDistributor = null;
IDuplexTypedMessageSender <double, Interval> aSender = null;
// Create 50 calculating services.
try
{
for (int i = 0; i < 50; ++i)
{
aServices.Add(new CalculatorService("a" + i.ToString(), aThreadMessaging));
}
// Create Distributor
ILoadBalancerFactory aDistributorFactory = new RoundRobinBalancerFactory(aThreadMessaging);
aDistributor = aDistributorFactory.CreateLoadBalancer();
// Attach available services to the distributor.
for (int i = 0; i < aServices.Count; ++i)
{
aDistributor.AddDuplexOutputChannel("a" + i.ToString());
}
// Attach input channel to the distributor.
IDuplexInputChannel anInputChannel = aThreadMessaging.CreateDuplexInputChannel("DistributorAddress");
aDistributor.AttachDuplexInputChannel(anInputChannel);
// Create client that needs to calculate PI.
IDuplexTypedMessagesFactory aTypedMessagesFactory = new DuplexTypedMessagesFactory();
aSender = aTypedMessagesFactory.CreateDuplexTypedMessageSender <double, Interval>();
AutoResetEvent aCalculationCompletedEvent = new AutoResetEvent(false);
int aCount = 0;
double aPi = 0.0;
aSender.ResponseReceived += (x, y) =>
{
++aCount;
EneterTrace.Debug("Completed interval: " + aCount.ToString());
aPi += y.ResponseMessage;
if (aCount == 400)
{
aCalculationCompletedEvent.Set();
}
};
IDuplexOutputChannel anOutputChannel = aThreadMessaging.CreateDuplexOutputChannel("DistributorAddress");
aSender.AttachDuplexOutputChannel(anOutputChannel);
// Sender sends several parallel requests to calculate specified intervals.
// 2 / 0.005 = 400 intervals.
for (double i = -1.0; i <= 1.0; i += 0.005)
{
Interval anInterval = new Interval(i, i + 0.005);
aSender.SendRequestMessage(anInterval);
}
// Wait until all requests are calculated.
EneterTrace.Debug("Test waits until completion.");
aCalculationCompletedEvent.WaitOne();
EneterTrace.Info("Calculated PI = " + aPi.ToString());
}
catch (Exception err)
{
EneterTrace.Error("Test failed", err);
throw;
}
finally
{
aSender.DetachDuplexOutputChannel();
aDistributor.DetachDuplexInputChannel();
aServices.ForEach(x => x.Dispose());
}
}
