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Apache Camel Developer's Cookbook

You're reading from   Apache Camel Developer's Cookbook For Apache Camel developers, this is the book you'll always want to have handy. It's stuffed full of great recipes that are designed for quick practical application. Expands your Apache Camel abilities immediately.

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Product type Paperback
Published in Dec 2013
Publisher Packt
ISBN-13 9781782170303
Length 424 pages
Edition 1st Edition
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Toc

Table of Contents (14) Chapters Close

Preface 1. Structuring Routes FREE CHAPTER 2. Message Routing 3. Routing to Your Code 4. Transformation 5. Splitting and Aggregating 6. Parallel Processing 7. Error Handling and Compensation 8. Transactions and Idempotency 9. Testing 10. Monitoring and Debugging 11. Security 12. Web Services Index

Asynchronously connecting routes

It is not uncommon to have a portion of route take a long time to process. Rather than tying up a thread that might otherwise be servicing requests from a consumer endpoint, it may be preferable to split out the time consuming step into a separate route, and let that stage of processing be handled by a dedicated pool of threads.

This recipe will show you how to call a route from another, such that the calling route does not block waiting for the response from the called route.

Getting ready

Split out the long running steps into their own shared routes, and assign them with a seda: endpoint with a name that is unique to the Camel context.

The Java code for this recipe is located in the org.camelcookbook.structuringroutes.seda package. The Spring XML files are located under src/main/resources/META-INF/spring and prefixed with seda.

How to do it...

Create a shared route using the seda: endpoint, and then call it from other routes using the same named seda: endpoint.

  1. Create a route consuming (from) using a seda: endpoint. Optionally, define the number of threads that will consume from this endpoint using the concurrentConsumers attribute.

    In the XML DSL, this is written as:

    <route>
      <from
        uri="seda:longRunningPhase?concurrentConsumers=15"/>
      <process ref="longRunningProcessor"/>
      <to uri="..."/>
    </route>

    In the Java DSL, the same thing appears as:

    from("seda:longRunningPhase?concurrentConsumers=15")
      .process(new LongRunningProcessor())
      .to(...); // remainder of route
  2. In the calling route, pass the current exchange to the shared route by invoking the seda: endpoint by name.

    In the XML DSL, this is done as follows:

    <route>
      <from uri="timer:ping?period=200"/>
      <to uri="seda:longRunningPhase"/>
    </route>

    In the Java DSL, this same thing is written as:

    from("timer:ping?period=200")
      .to("seda:longRunningPhase");

How it works...

In the preceding example, a timer: endpoint is used to trigger messages on a regular basis, every 200 ms. The Timer Component uses one thread per timer name (ping). An event can only be raised 200 ms later if the thread is not processing the previous exchange.

As part of our integration, we want to trigger events regularly, and yet have a long-running processor as part of the route. Camel allows us to deal with this scenario by splitting the long-running part into a shared route, and linking the two routes with a seda: endpoint.

Note

SEDA is an acronym that stands for Staged Event-Driven Architecture. It is designed as a mechanism to regulate the flow between different phases of message processing. The idea is to smooth out the frequency of message output from an overall process so that it matches the input.

In practical terms, it allows an endpoint's consumer threads to offload the work of long-running operations into the background, thereby freeing them up to consume messages from the transport.

When an exchange is passed to a seda: endpoint, it is placed into a BlockingQueue. The list exists within the Camel context, which means that only those routes that are within the same context can be joined by this type of endpoint. The queue is unbounded by default, although that can be changed by setting the size attribute on the URI of the consumer.

By default, a single thread assigned to the endpoint reads exchanges off the list and processes them through the route. As seen in the preceding example, it is possible to increase the number of concurrentConsumers to ensure that exchanges are getting processed from that list in a timely fashion.

Assuming our slow processor takes 3,000 ms to complete, we would need to use a number of threads equal to the processing time/the timer frequency to ensure that the triggered events are processed in a timely fashion. Therefore, plugging in the numbers, 3,000 ms / 200 ms, we arrive at 15 threads.

There's more...

It is possible to define multiple routes that consume from the same logical name, unlike a direct: endpoint. To enable this, both routes should set multipleConsumers=true on the seda: URI:

from("seda:timerEvents?multipleConsumers=true")
  // define one set of routing logic here

from("seda:timerEvents?multipleConsumers=true")
  // another here

The effect will be that each route gets its own copy of the exchange, making it a sort of simple in-memory publish-subscribe system. It is often much cleaner to handle this type of requirement using the Multicast pattern. See the Multicast – routing the same message to many endpoints recipe in Chapter 2, Message Routing, for more details.

The SEDA pattern is best suited to processing the InOnly messages, where one route finishes processing and hands off to another to deal with the next phase. It is possible to ask for a response from a seda: endpoint by calling it when the message exchange pattern is InOut.

In this instance, the endpoint will act much like a synchronous direct: endpoint, only with a timeout if the task runs for longer than expected. The default timeout is 30 seconds, but this can be overridden in the producer URI using the timeout attribute.

Note

It is important to note that when using seda:, the shared route does not take part in any transactions started by the top-level route, as transactions are bound to a thread and the seda: route is using its own thread. If the system unexpectedly halts for whatever reason (for example, a power outage), any messages that are being processed within that route will be lost.

If you would like to get the benefits of a SEDA, but have the messages persisted to disk instead of in-memory, and be processed within a transaction, use the JMS or ActiveMQ endpoints with a message broker instead. This also gives you the ability to share the work across Camel contexts and JVMs.

See also

To trigger a background job to run based on the current exchange while your main route continues processing, refer to the Wire Tap EIP. See Wire Tap sending a copy of the message elsewhere recipe in Chapter 2, Message Routing, for more details.

You have been reading a chapter from
Apache Camel Developer's Cookbook
Published in: Dec 2013
Publisher: Packt
ISBN-13: 9781782170303
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