Wednesday, May 9, 2012

Writing a 'Singleton' BPEL Process

A typical use case in BPEL is connecting to an external resource / system which only support a single connection at a time. In such a case we need to protect against parallel BPEL instances submitting concurrent requests to that resource. This implies that we need some way to serialize requests for that resource (probably on a first in first out basis). A common design pattern for achieving this is the Singleton, first documented in the Gang of Four's patterns book (where they use a print spooler as an example). Now BPEL doesn’t explicitly support the notion of a Singleton, however it does allow you to simulate one, which for the purpose of what we are trying to achieve is good enough. The basic idea is to have an explicit initiateSingleton operation which is used to instantiate a single process instance, and then have a separate invokeSingleton operation which is used to submit each actual request. The invoke operation is then placed in a loop, so as soon as it’s processed one request it loops back round for the next one. For this example, I’ve just created a simple process which keeps track of the number of times it’s been called. It takes a single parameter, name and returns a string of the following format: Hello . You are caller number of this singleton. Pretty simple, but it illustrates the point. The basic process is shown in the screenshot below: The first activity in the process is a receive activity, InitiateSingleton, which is used to instantiate the process. We then have a simple assign which just sets the count to zero. The remainder of the process, which handles the invokeSingleton operation is contained within the ProcessRequest scope, which itself is placed inside a while loop, that loops for ever. This contains the following activities: InvokeSingleton – This receives the next request to be processed by the singleton. Wait – This waits for a period of 5 seconds. It is just to simulate going out to an external system. It also enables us to see how multiple requests for the singleton are queued up by the Oracle BPEL PM Server. SetResult – Here we just set the result and increment the count by one. CallbackClient – Finally we just send back the result to the client; before looping back round to process the next request. Message Correlation At first glance this all looks deceptively simple, however the complexity comes when you try and call the invokeSingleton operation. The reason is that when we invoke an operation on a BPEL Process, the message is received by the Oracle BPEL PM Message Handler, depending on the operation it will either invoke a new process to handle it (as with the initiateSingleton operation) or route it through to the appropriate instance of an already running process. This is where it gets a bit convoluted, when we receive the message for the invokeSingleton operation, even though we only have a single instance of the BPEL process running how does BPEL PM know that it is the correct instance to route the message to? The answer is it doesn’t. Now under “normal” circumstances, where we have an asynchronous interaction between two processes, Oracle BPEL PM defaults to using WS-Addressing to ensure that messages are successfully routed between two process instances. However in these cases, it’s typical that the interaction between the two processes (say A and B) began by process A initiating process B and passing it details (using WS-Addressing) about itself so that when process B sends back a response it contains sufficient information for it to be routed to the appropriate instance of process A. However with our Singleton process, any process calling the invokeSingleton operation will have no prior knowledge of that process, so for our purposes we can’t use WS-Addressing to correlate the message. Fortunately for situations where WS-Addressing isn’t appropriate or available BPEL provides the concept of correlation sets. Essentially correlation sets allow you to use a unique value present in the message body of all exchanged messages (e.g. orderId) to link that exchange of related messages together. You do this in BPEL by first defining a property which corresponds to the unique value, and then defining a property alias for each message in the exchange, that defines where that property is located within the message. Next you define a correlation set which can consist of one or more properties (see the product documentation or the Oracle SOA Suite Developer's Guide for more details on how to create Correlation Sets). For our purpose, I’ve defined a simple element called singletonId which is contained in both the initiateSingleton and invokeSingleton operations. Next we have defined a correlation set SingletonCS which is used in the InitiateSingleton and InvokeSingelton operations. On the initiateSingleton operation I’ve defined this to initiate the correlation set (see screenshot below), this means whatever value is contained with the singletonId in the start operation must be present in the invokeSingleton operation for it to be routed through to this process instance. The next part of the problem is to return the response back to the appropriate caller of the process. This at first may seem strange, but recall we may have several processes calling the singleton at the same time, and thus all waiting for a response. We need to ensure that each response is returned to the appropriate instance. Now you’ve probably already guessed that we need to use correlation sets again (as we have disabled WS-Addressing for this Partner Link). This time the calling process will need to generate a unique key that it passes in the request (requestId) to the singleton. The singleton will then return this in the response to the requester. If we look at the SingeltonAccessor process, we use the XPath operator generateGUID to generate this value. Specifying the Reply to Address So now everything looks fine, so we can go ahead and run the process; well not quite! If you do you will notice that request from the SingeltonAccessor successfully reaches our Singleton process. But for some reason the response from the Singleton never reaches the SingeltonAccessor, in fact if you take a closer examination of the Singleton Audit trail for the callback activity you will see that it actually skipped the callback! Now it turns out that this is quite a rational behaviour for the simple reason that the Singleton doesn’t actually know where to send its callback to. This is because at design time the caller of an asynchronous process typically isn’t known, and thus the callback address needs to be specified at runt time. In fact if you log into the BPEL Console and examine the WSDL for the call back operation, you will see that the soap:address location for the endpoint is defined as: http://set.by.caller Now by default Oracle BPEL PM uses WS-Addressing to handle this, thus when I invoke an asynchronous process, part of the SOAP payload contains a return address for the asynchronous process, however we’ve just disabled WS-Addressing for this message exchange as we are using correlation sets. So how do we provide the reply to address? Well one way would be to pass this in as part of the request message and then use dynamic partner links to set the replyToAddress. However a simpler way is to define the replyToAddress property on the partnerlink to point to the reply address. This takes the format: /partnerLinkTypeName/[rollName] So in our case: http://server:port/orabpel/default/SingletonAccessor/1.0/Singleton/SingletonRequester Now if we deploy this it should finally work. To run the example, first go into the BPEL Console and initiate the Singleton process (set Singleton Id to "Singleton/1.0"). From the console initiate the SingletonAccessor entering whatever value you like for the name. You could kick off a number of these to see what happens. Loose Ends So that all works, however there are two basic problems with this approach: Firstly to invoke the Singleton you need to know the value of the SingletonId. This in our case is fixed within the SingltonAccessor process. Secondly, the Singleton process will only ever return a result to the SingletonAccessor process (as this is fixed by specifying the replyToAddress). What if we want to call it from another process or web service client? Actually the solution to this is very straight forward; you use the SingletonAccessor as the entry point for accessing the Singleton. Thus the real client will always call the SingletonAccessor. Thus the client never needs to know the SingletonId, and secondly as WS-Addressing remains turned on between the “real” client and the SingletonAccesor the client doesn’t need to worry about correlation sets or specifying a replyToAddress. One final question you may have is how do I prevent multiple instances of the Singleton process being kicked-off by mistake? Well why not try it? You will see that as long as you specify the same value for the SingletonId, BPEL PM will throw a “Conflicting Receive” fault as an equivalent receive activity has already been enabled by the original Singleton. Conclusion As we can see, implementing a Singleton within BPEL is relatively straight forward. Whilst this is not a totally clean solution, it does achieve the desired effect.

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