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I could not find a definitive answer to whether it is safe to spawn threads within session-scoped JSF managed beans. The thread needs to call methods on the stateless EJB instance (that was dependency-injected to the managed bean).

The background is that we have a report that takes a long time to generate. This caused the HTTP request to time-out due to server settings we can't change. So the idea is to start a new thread and let it generate the report and to temporarily store it. In the meantime the JSF page shows a progress bar, polls the managed bean till the generation is complete and then makes a second request to download the stored report. This seems to work, but I would like to be sure what I'm doing is not a hack.

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2 Answers 2

up vote 22 down vote accepted

Spawning threads from within a session scoped managed bean is not necessarily a hack as long as it does the job you want. But spawning threads at its own needs to be done with extreme care. The code should not be written that way that a single user can for example spawn an unlimited amount of threads per session and/or that the threads continue running even after the session get destroyed. It would blow up your application sooner or later.

The code needs to be written that way that you can ensure that an user can for example never spawn more than one background thread per session and that the thread is guaranteed to get interrupted whenever the session get destroyed. For multiple tasks within a session you need to queue the tasks.

Also, all those threads should preferably be served by a common thread pool so that you can put a limit on the total amount of spawned threads at application level. The average Java EE application server offers a container managed thread pool which you can utilize via among others EJB's @Asynchronous and @Schedule. To be container independent, you can also use the Java 1.5's Util Concurrent ExecutorService and ScheduledExecutorService for this.

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Fully agree that spawning threads is ok as long as it's done with extreme care (prefect wording). Note we finally addressed this need at the spec level in EJB 3.1. See my @Asynchronous answer. –  David Blevins May 28 '11 at 0:11
@Asynchronous was truly one of the best additions in EJB 3.1. I hope for EJB 3.2/Java EE 7 the managed variant of fork/join from JDK 7 will be considered. –  Arjan Tijms May 28 '11 at 10:51
@BalusC could you elaborate on some tools/features that one could use to know when the session gets destroyed and end the thread (in an EJB 3.0 setting). If need be I can create a new question –  Adam Oct 10 '11 at 17:53

Check out EJB 3.1 @Asynchronous methods. This is exactly what they are for.

Small example that uses OpenEJB 4.0.0-SNAPSHOTs. Here we have a @Singleton bean with one method marked @Asynchronous. Every time that method is invoked by anyone, in this case your JSF managed bean, it will immediately return regardless of how long the method actually takes.

public class JobProcessor {

    public Future<String> addJob(String jobName) {

        // Pretend this job takes a while

        // Return our result
        return new AsyncResult<String>(jobName);

    private void doSomeHeavyLifting() {
        try {
        } catch (InterruptedException e) {
            throw new IllegalStateException(e);

Here's a little testcase that invokes that @Asynchronous method several times in a row.

Each invocation returns a Future object that essentially starts out empty and will later have its value filled in by the container when the related method call actually completes.

import javax.ejb.embeddable.EJBContainer;
import javax.naming.Context;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;

public class JobProcessorTest extends TestCase {

    public void test() throws Exception {

        final Context context = EJBContainer.createEJBContainer().getContext();

        final JobProcessor processor = (JobProcessor) context.lookup("java:global/async-methods/JobProcessor");

        final long start = System.nanoTime();

        // Queue up a bunch of work
        final Future<String> red = processor.addJob("red");
        final Future<String> orange = processor.addJob("orange");
        final Future<String> yellow = processor.addJob("yellow");
        final Future<String> green = processor.addJob("green");
        final Future<String> blue = processor.addJob("blue");
        final Future<String> violet = processor.addJob("violet");

        // Wait for the result -- 1 minute worth of work
        assertEquals("blue", blue.get());
        assertEquals("orange", orange.get());
        assertEquals("green", green.get());
        assertEquals("red", red.get());
        assertEquals("yellow", yellow.get());
        assertEquals("violet", violet.get());

        // How long did it take?
        final long total = TimeUnit.NANOSECONDS.toSeconds(System.nanoTime() - start);

        // Execution should be around 9 - 21 seconds
        assertTrue("" + total, total > 9);
        assertTrue("" + total, total < 21);

Example source code

Under the covers what makes this work is:

  • The JobProcessor the caller sees is not actually an instance of JobProcessor. Rather it's a subclass or proxy that has all the methods overridden. Methods that are supposed to be asynchronous are handled differently.
  • Calls to an asynchronous method simply result in a Runnable being created that wraps the method and parameters you gave. This runnable is given to an Executor which is simply a work queue attached to a thread pool.
  • After adding the work to the queue, the proxied version of the method returns an implementation of Future that is linked to the Runnable which is now waiting on the queue.
  • When the Runnable finally executes the method on the real JobProcessor instance, it will take the return value and set it into the Future making it available to the caller.

Important to note that the AsyncResult object the JobProcessor returns is not the same Future object the caller is holding. It would have been neat if the real JobProcessor could just return String and the caller's version of JobProcessor could return Future<String>, but we didn't see any way to do that without adding more complexity. So the AsyncResult is a simple wrapper object. The container will pull the String out, throw the AsyncResult away, then put the String in the real Future that the caller is holding.

To get progress along the way, simply pass a thread-safe object like AtomicInteger to the @Asynchronous method and have the bean code periodically update it with the percent complete.

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Nice one, David :) –  BalusC May 28 '11 at 0:36
Nice comment indeed! We recently started calling @Asynchronous annotated methods from JSF backing beans and the results have been great. If the code is able to fire off the async action early, its execution can overlap with part of the life-cycle processing that JSF does. If you use this feature intensively, it does pay off to learn what the size of the thread pool is. In JBoss AS 6.0 this appeared to be 10. –  Arjan Tijms May 28 '11 at 10:47
@mxrider You can drop OpenEJB as a war file into any 5.5 or greater version of Tomcat and get all this. As well check out Apache TomEE openejb.apache.org/3.0/apache-tomee.html –  David Blevins Jun 22 '11 at 22:58
@Damian Typically. OpenEJB/TomEE's implementation is driven by public <T> Future<T> submit(Callable<T> task) on ExecutorService, which uses FutureTask as the implementation. The contract on the Future.cancel() method is slightly different, so containers will also wrap that object with a Future the implements the extra bits and ultimately delegates to a FutureTask –  David Blevins Apr 28 '12 at 1:31
Great answer. Adam Bien posted about this topic a few days ago: adam-bien.com/roller/abien/entry/… –  atamanroman Sep 14 '12 at 13:49

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