Επεξεργασία

Κοινή χρήση μέσω


Duplex Services

A duplex service contract is a message exchange pattern in which both endpoints can send messages to the other independently. A duplex service, therefore, can send messages back to the client endpoint, providing event-like behavior. Duplex communication occurs when a client connects to a service and provides the service with a channel on which the service can send messages back to the client. Note that the event-like behavior of duplex services only works within a session.

To create a duplex contract you create a pair of interfaces. The first is the service contract interface that describes the operations that a client can invoke. That service contract must specify a callback contract in the ServiceContractAttribute.CallbackContract property. The callback contract is the interface that defines the operations that the service can call on the client endpoint. A duplex contract does not require a session, although the system-provided duplex bindings make use of them.

The following is an example of a duplex contract.

[ServiceContract(Namespace = "http://Microsoft.ServiceModel.Samples", SessionMode=SessionMode.Required,
                 CallbackContract=typeof(ICalculatorDuplexCallback))]
public interface ICalculatorDuplex
{
    [OperationContract(IsOneWay = true)]
    void Clear();
    [OperationContract(IsOneWay = true)]
    void AddTo(double n);
    [OperationContract(IsOneWay = true)]
    void SubtractFrom(double n);
    [OperationContract(IsOneWay = true)]
    void MultiplyBy(double n);
    [OperationContract(IsOneWay = true)]
    void DivideBy(double n);
}

public interface ICalculatorDuplexCallback
{
    [OperationContract(IsOneWay = true)]
    void Equals(double result);
    [OperationContract(IsOneWay = true)]
    void Equation(string eqn);
}
<ServiceContract(Namespace:="http://Microsoft.ServiceModel.Samples", SessionMode:=SessionMode.Required, CallbackContract:=GetType(ICalculatorDuplexCallback))> _
Public Interface ICalculatorDuplex
    <OperationContract(IsOneWay:=True)> _
    Sub Clear()
    <OperationContract(IsOneWay:=True)> _
    Sub AddTo(ByVal n As Double)
    <OperationContract(IsOneWay:=True)> _
    Sub SubtractFrom(ByVal n As Double)
    <OperationContract(IsOneWay:=True)> _
    Sub MultiplyBy(ByVal n As Double)
    <OperationContract(IsOneWay:=True)> _
    Sub DivideBy(ByVal n As Double)
End Interface


Public Interface ICalculatorDuplexCallback
    <OperationContract(IsOneWay:=True)> _
    Sub Equals(ByVal result As Double)
    <OperationContract(IsOneWay:=True)> _
    Sub Equation(ByVal eqn As String)
End Interface

The CalculatorService class implements the primary ICalculatorDuplex interface. The service uses the PerSession instance mode to maintain the result for each session. A private property named Callback accesses the callback channel to the client. The service uses the callback for sending messages back to the client through the callback interface, as shown in the following sample code.


[ServiceBehavior(InstanceContextMode = InstanceContextMode.PerSession)]
public class CalculatorService : ICalculatorDuplex
{
    double result = 0.0D;
    string equation;

    public CalculatorService()
    {
        equation = result.ToString();
    }

    public void Clear()
    {
        Callback.Equation(equation + " = " + result.ToString());
        equation = result.ToString();
    }

    public void AddTo(double n)
    {
        result += n;
        equation += " + " + n.ToString();
        Callback.Equals(result);
    }

    public void SubtractFrom(double n)
    {
        result -= n;
        equation += " - " + n.ToString();
        Callback.Equals(result);
    }

    public void MultiplyBy(double n)
    {
        result *= n;
        equation += " * " + n.ToString();
        Callback.Equals(result);
    }

    public void DivideBy(double n)
    {
        result /= n;
        equation += " / " + n.ToString();
        Callback.Equals(result);
    }

    ICalculatorDuplexCallback Callback
    {
        get
        {
            return OperationContext.Current.GetCallbackChannel<ICalculatorDuplexCallback>();
        }
    }
}

<ServiceBehavior(InstanceContextMode:=InstanceContextMode.PerSession)> _
Public Class CalculatorService
    Implements ICalculatorDuplex
    Private result As Double = 0.0R
    Private equation As String

    Public Sub New()
        equation = result.ToString()
    End Sub

    Public Sub Clear() Implements ICalculatorDuplex.Clear
        Callback.Equation(equation & " = " & result.ToString())
        equation = result.ToString()
    End Sub

    Public Sub AddTo(ByVal n As Double) Implements ICalculatorDuplex.AddTo
        result += n
        equation &= " + " & n.ToString()
        CType(Callback, Object).Equals(result)
    End Sub

    Public Sub SubtractFrom(ByVal n As Double) Implements ICalculatorDuplex.SubtractFrom
        result -= n
        equation &= " - " & n.ToString()
        CType(Callback, Object).Equals(result)
    End Sub

    Public Sub MultiplyBy(ByVal n As Double) Implements ICalculatorDuplex.MultiplyBy
        result *= n
        equation &= " * " & n.ToString()
        CType(Callback, Object).Equals(result)
    End Sub

    Public Sub DivideBy(ByVal n As Double) Implements ICalculatorDuplex.DivideBy
        result /= n
        equation &= " / " & n.ToString()
        CType(Callback, Object).Equals(result)
    End Sub

    Private ReadOnly Property Callback() As ICalculatorDuplexCallback
        Get
            Return OperationContext.Current.GetCallbackChannel(Of ICalculatorDuplexCallback)()
        End Get
    End Property
End Class

The client must provide a class that implements the callback interface of the duplex contract, for receiving messages from the service. The following sample code shows a CallbackHandler class that implements the ICalculatorDuplexCallback interface.

public class CallbackHandler : ICalculatorDuplexCallback
{
    public void Equals(double result)
    {
        Console.WriteLine("Equals({0})", result);
    }

    public void Equation(string eqn)
    {
        Console.WriteLine("Equation({0})", eqn);
    }
}
Public Class CallbackHandler
    Implements ICalculatorDuplexCallback
    Public Overridable Shadows Sub Equals(ByVal result As Double) Implements ICalculatorDuplexCallback.Equals
        Console.WriteLine("Equals({0})", result)
    End Sub

    Public Sub Equation(ByVal eqn As String) Implements ICalculatorDuplexCallback.Equation
        Console.WriteLine("Equation({0})", eqn)
    End Sub
End Class

The WCF client that is generated for a duplex contract requires a InstanceContext class to be provided upon construction. This InstanceContext class is used as the site for an object that implements the callback interface and handles messages that are sent back from the service. An InstanceContext class is constructed with an instance of the CallbackHandler class. This object handles messages sent from the service to the client on the callback interface.

// Construct InstanceContext to handle messages on callback interface
InstanceContext instanceContext = new InstanceContext(new CallbackHandler());

// Create a client
CalculatorDuplexClient client = new CalculatorDuplexClient(instanceContext);
' Construct InstanceContext to handle messages on callback interface
Dim instanceContext As New InstanceContext(New CallbackHandler())

' Create a client
Dim client As New CalculatorDuplexClient(instanceContext)

The configuration for the service must be set up to provide a binding that supports both session communication and duplex communication. The wsDualHttpBinding element supports session communication and allows duplex communication by providing dual HTTP connections, one for each direction.

On the client, you must configure an address that the server can use to connect to the client, as shown in the following sample configuration.

Note

Non-duplex clients that fail to authenticate using a secure conversation typically throw a MessageSecurityException. However, if a duplex client that uses a secure conversation fails to authenticate, the client receives a TimeoutException instead.

If you create a client/service using the WSHttpBinding element and you do not include the client callback endpoint, you will receive the following error.

HTTP could not register URL
htp://+:80/Temporary_Listen_Addresses/<guid> because TCP port 80 is being used by another application.

The following sample code shows how to specify the client endpoint address programmatically.

WSDualHttpBinding binding = new WSDualHttpBinding();
EndpointAddress endptadr = new EndpointAddress("http://localhost:12000/DuplexTestUsingCode/Server");
binding.ClientBaseAddress = new Uri("http://localhost:8000/DuplexTestUsingCode/Client/");
Dim binding As New WSDualHttpBinding()
Dim endptadr As New EndpointAddress("http://localhost:12000/DuplexTestUsingCode/Server")
binding.ClientBaseAddress = New Uri("http://localhost:8000/DuplexTestUsingCode/Client/")

The following sample code shows how to specify the client endpoint address in configuration.

<client>
    <endpoint name ="ServerEndpoint"
          address="http://localhost:12000/DuplexTestUsingConfig/Server"
          bindingConfiguration="WSDualHttpBinding_IDuplexTest"
            binding="wsDualHttpBinding"
           contract="IDuplexTest" />
</client>
<bindings>
    <wsDualHttpBinding>
        <binding name="WSDualHttpBinding_IDuplexTest"
          clientBaseAddress="http://localhost:8000/myClient/" >
            <security mode="None"/>
         </binding>
    </wsDualHttpBinding>
</bindings>

Warning

The duplex model doesn't automatically detect when a service or client closes its channel. So if a client unexpectedly terminates, by default the service will not be notified, or if a service unexpectedly terminates, the client will not be notified. If you use a service that is disconnected, the CommunicationException exception is raised. Clients and services can implement their own protocol to notify each other if they so choose. For more information on error handling, see WCF Error Handling.

See also