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Asynchronous Scenarios using HTTP, TCP, or Named-Pipe

This topic describes the activities and transfers for different asynchronous request/reply scenarios, with multithreaded requests using HTTP, TCP, or named pipe.

Asynchronous Request/Reply without Errors

This section describes the activities and transfers for an asynchronous request/reply scenario, with multithreaded clients.

The caller activity terminates when beginCall returns, and endCall returns. If a callback is called, the callback returns.

The called activity terminates when beginCall returns, endCall returns, or when the callback returns if it was called from that activity.

Asynchronous Client without Callback

Propagation is Enabled on Both Sides, using HTTP

Asynchronous scenarios

Figure 1. Asynchronous client, no callback, propagateActivity=true on both sides, HTTP

If propagateActivity=true, ProcessMessage indicates which ProcessAction activity to transfer to.

For HTTP-based scenarios, ReceiveBytes is invoked on the first message to send, and exists for the lifetime of the request.

Propagation is Disabled on Either Sides, using HTTP

If propagateActivity=false on either side, ProcessMessage does not indicate which ProcessAction activity to transfer to. Therefore, a new temporary ProcessAction activity with a new ID is invoked. When the asynchronous response is matched to the request in ServiceModel code, the Activity ID can be retrieved from the local context. The actual ProcessAction activity can be transferred to with that ID.

Asynchronous scenarios using HTTP/TCP/Named Pipe

Figure 2. Asynchronous client, no callback, propagateActivity=false on either side, HTTP

For HTTP-based scenarios, ReceiveBytes is invoked on the first message to send, and exists for the lifetime of the request.

A Process Action activity is created on an asynchronous client when propagateActivity=false at the caller or callee, and when the response message does not include an Action header.

Propagation is Enabled on Both Sides, using TCP or Named Pipe

Asynchronous scenarios using HTTP/TCP/Named Pipe

Figure 3. Asynchronous client, no callback, propagateActivity=true on both sides, Named-Pipe/TCP

For a Named-Pipe or TCP-based scenario, ReceiveBytes is invoked when the client is opened, and exists for the lifetime of the connection.

Similar to Figure 1, if propagateActivity=true, ProcessMessage indicates which ProcessAction activity to transfer to.

Propagation is Disabled on Either Sides, using TCP or Named Pipe

For a Named-Pipe or TCP-based scenario, ReceiveBytes is invoked when the client is opened, and exists for the lifetime of the connection.

Similar to Fig.2, If propagateActivity=false on either side, ProcessMessage does not indicate which ProcessAction activity to transfer to. Therefore, a new temporary ProcessAction activity with a new ID is invoked. When the asynchronous response is matched to the request in ServiceModel code, the Activity ID can be retrieved from the local context. The actual ProcessAction activity can be transferred to with that ID.

Asynchronous scenarios using HTTP/TCP/ Named Pipes

Figure 4. Asynchronous client, no callback, propagateActivity=false on either side, Named-Pipe/TCP

Asynchronous client with Callback

This scenario adds activities G and A’, for the callback and endCall, and their transfers in/out.

This section only demonstrates using HTTP with propragateActivity=true. However, the additional activities and transfers also apply to the other cases (that is, propagateActivity=false, using TCP or Named-Pipe).

The callback creates a new activity (G) when the client calls user code to notify that results are ready. User code then calls endCall within the callback (as shown in Figure 5) or outside the callback (Figure 6). Because it is not known which user activity endCall is being called from, this activity is labeled A’. It is possible that A’ can be identical to or different from A.

Asynchronous scenarios

Figure 5. Asynchronous client with callback, endCall in Callback

Asynchronous Scenarios

Figure 6. Asynchronous client with callback, endCall outside of Callback

Asynchronous Server with Callback

Asynchronous scenarios using HTTP/TCP/ Named-Pipe

Figure 7. Asynchronous server, with callback

The channel stack calls back the client on Message Receive: traces for this processing are emitted in the ProcessRequest activity itself.

Asynchronous Request/Reply with Errors

Fault message errors are received during endCall. Otherwise, activities and transfers are similar to previous scenarios.

Asynchronous One-Way with or without Errors

No response or fault is returned to the client.