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How will the transaction started in callSessionBean2() behave in the following scenario? Is it suspended? What happens if an exception is thrown in SessionBean2? SessionBean2 was setup with BEAN transaction management type because it does not communicate with any database, only with AD server via LDAP.

I'm asking because I've been having issues in a production server some week after deployment that calls to SessionBean2 starts to hang, with transaction timeouts as the only error. I figured this setup might be a bad thing, can anyone shed light on this?

@Stateless
@TransactionManagement(TransactionManagementType.CONTAINER)
public class SessionBean1 {
    @Inject private SessionBean2 sessionBean2;

    @TransactionAttribute(TransactionAttributeType.REQUIRED)
    public void callSessionBean2(){
        sessionBean2.doThingsThatMightCauseException();
    }
}

@Singleton
@TransactionManagement(TransactionManagementType.BEAN)
public class SessionBean2 {
    public void doThingsThatMightCauseException(){...}
}
share|improve this question
up vote 2 down vote accepted

As declared in EJB 3.1 spec (§13.6.1), the caller's transaction will be suspended:

If the client request is associated with a transaction T1, and the instance is not associated with a transaction, the container suspends the client’s transaction association and invokes the method with an unspecified transaction context. The container resumes the client’s transaction association (T1) when the method (together with any associated interceptor methods) completes.

So the transaction associated with SessionBean1 gets suspended, and the exceptions thrown by SessionBean2 in either case will be handled by the calling bean, with the appropriate semantics (i.e. treated by the CMT session)

Your code is correct, though I'd rather use:

@TransactionManagement(TransactionManagementType.CONTAINER)
@TransactionAttribute(TransactionAttributeType.NOT_SUPPORTED)
public class SessionBean2 {
    public void doThingsThatMightCauseException(){...}
}

to the same effect.

The problem you are experiencing may be related to the @Singleton annotation, which according to §4.8.5.3 and §4.8.5.3 defaults the bean to be:

@ConcurrencyManagement(ConcurrencyManagementType.CONTAINER)
@Lock(LockType.WRITE)

This serializes the invocations of doThingsThatMightCauseException, causing random ConcurrentAccessTimeoutException. Although the concurrent access timeout is configurable through @AccessTimeout, it will lead to a transaction timeout if the (serialized) doThingsThatMightCauseException access delay exceeds the timeout defined for CMT transactions (remember, the CMT transaction associated with SessionBean1 gets suspended, but the clock is still counting...).

Wrapping it up:

You need (with proper care to shared state) to change the access lock on doThingsThatMightCauseException with:

@Lock(LockType.READ)
public void doThingsThatMightCauseException(){...}

This will remove the access serialization, hopefully solving your timeout problems.

If you still experience timeouts, it will be related to the slowness of the operations included in doThingsThatMightCauseException. In this case you'll need to either:

  • call the method outside of any transaction,
  • or change the CMT transaction timeout (in the AS specific configuration/deployment)
  • or convert SessionBean1 to BMT, thus leveraging UserTransaction.setTransactionTimeout
share|improve this answer
    
Thanks for the info, I'm using a Singleton because i have a LDAP connection pool inside it, but I might try switching to a Stateless bean and make each of them have their own connection. I think the real issue is that the LDAP connection seem to hang a for a loooong time, causing transaction timeouts, and also keeping other processes from using the service, breaking the whole application. – Rasmus Franke Jan 4 '13 at 11:52
    
The LDAP pool will never be useful with @Lock(LockType.WRITE), it will use always a single connection... @Lock(LockType.READ) should solve it – Carlo Pellegrini Jan 4 '13 at 12:08

My advise is to manage all transaction manually. According to Java 6 EE specification:

Enterprise beans that use container-managed transaction demarcation must not use any transaction-management methods that interfere with the container’s transaction demarcation boundaries. Examples of such methods are the commit, setAutoCommit, and rollback methods of java.sql.Connection or the commit and rollback methods of javax.jms.Session. If you require control over the transaction demarcation, you must use application-managed transaction demarcation.

Enterprise beans that use container-managed transaction demarcation also must not use the javax.transaction.UserTransaction interface.

share|improve this answer
    
I do not break the recommendations in that quote, I do not use any transaction related methods in SessionBean2. Rather than manage all manually, I'd probably prefer to take the slight performance hit of setting SesisonBean2 to container managed – Rasmus Franke Jan 4 '13 at 10:19
    
I missed it, I thought you did some transaction related processing inside the second bean. In this case the behavior of the calling method depends on the type of exception you throw in the called method. See Rolling Back a Container-Managed Transaction. If you want to rollback transaction on every type of exception you can catch them in the callSessionBean2 method and call setRollbackOnly. – remigio Jan 4 '13 at 10:27

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