Building Distributed
Applications
Using the Progress AppServer
Examples
The following examples show simple implementations of various client and remote procedures. The first two examples (Figure 5–1 and Figure 5–2) compare two similar implementations, one synchronous and the other asynchronous. These are non-executing examples, shortened for illustration. The third example (
client.p
andserver.p
) shows a fully executing, asynchronous implementation of client and remote procedures.Synchronous Request Execution Model
Figure 5–1 shows a remote procedure executed synchronously. The application sets a simple status flag (Done) to indicate that the remote request has completed.
As an event-driven GUI application, the client first executes a WAIT-FOR statement after having set up code for handing events (1). When the client executes
sync.p
as a synchronous remote procedure (2), the client blocks while the AppServer completes the request (3) and only continues execution after the remote procedure completes (4). Results from a synchronous remote procedure call are returned to the client immediately after the point of invocation (4), exactly as they are returned from a local procedure call.Note that in this example all of the remote processing and handling of the result occurs in the trigger for bStatus. While straight forward to implement, the client can block for an indeterminate period of time at the synchronous RUN statement waiting for
sync.p
to complete, depending on the application. Asynchronous requests allow a client to avoid this bottleneck.Figure 5–1: Synchronous Requests
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Asynchronous Request Execution Model
Figure 5–2 shows a remote procedure executed asynchronously. As in Figure 5–1, the client is an event-driven GUI and the application sets a simple status flag (Done) to indicate that the remote request has completed.
In this implementation, the client first executes
async.p
as an asynchronous remote procedure (1, specified by the ASYNCHRONOUS keyword on the RUN statement). The client immediately continues execution, until it reaches the WAIT-FOR statement to get events (2) at the same time that the AppServer executes the remote request. Thus, at this point (1 and 2), the client and remote request are running in parallel. The client can continue to execute, calling additional asynchronous remote procedures on the same or different AppServer connections.As each asynchronous request completes (like
async.p
at 3), the client handles the results in a specified event procedure (4). This event procedure, specified in the asynchronous RUN statement, is essentially a “trigger” that executes on the client in response to a PROCEDURE-COMPLETE event posted to the client when the associated asynchronous request completes.As with user-interface events, the client can handle PROCEDURE-COMPLETE events in the context of a blocking I/O statement, such as the WAIT-FOR statement (4), or by executing the PROCESS EVENTS statement. Progress maps the PROCEDURE-COMPLETE event for each asynchronous request to the appropriate event procedure using a unique asynchronous request handle that is generated for each request (not shown). This handle provides the mechanism that you can use to monitor the status of each request.
Note that the example in Figure 5–2 provides the same functionality as Figure 5–1. In fact,
sync.p
andasync.p
are identical, except for their names, which are changed for readability. The AppServer has no idea whether its procedures are being called synchronously or asynchronously. The type of request is entirely a function of the client and its implementation.The main difference, is that the bStatus trigger in Figure 5–2 tests the status of the remote request and performs actions based on whether the request finished, rather than invoking the request itself, as in Figure 5–1. Thus, the synchronous bottleneck is removed. In all such cases, the synchronous bottleneck is avoided by handling the results asynchronously.
Figure 5–2: Asynchronous Requests
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A Complete Asynchronous Request Example
In the following example, the 4GL client procedure,
client.p
, callsserver.p
(following) asynchronously on an AppServer. Theserver.p
procedure returns the customer number corresponding to a customer name provided byclient.p
.The
client.p
procedure blocks and waits for the PROCEDURE-COMPLETE event that triggers execution of the GetCustNum event procedure. The GetCustNum procedure displays the result and deletes the corresponding asynchronous request handle (referenced by the SELF system handle).In a more typical example, additional event handlers (triggers) would be active for user-interface events, allowing the user of
client.p
to perform other tasks with the procedure while completion of the request is pending. In this case, the client application blocks immediately after submitting the request to wait for the result and terminate on the PROCEDURE-COMPLETE event:
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