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We have a Spring based application with a service layer which is annotated with @Transactional. We need to have code run before and after some transactional methods for the following reasons:

  1. We need to synchronize access to the method based on a key. The thread needs to block before the start of the transaction.
  2. We need to post a message on a queue if the transaction succeeds.

The options seem to be:

  1. Create a class with similar methods to the service that can run the @Transactional method in a synchronized block and check for the return then post the message (would need a separate class due to AOP proxy problem). Services calling services, not nice, feels like a work-around.
  2. Write an aspect to wrap around the @Transactional AOP which can do the synchronization and message posting. Might work but would rather avoid AOP.
  3. Move the transaction down to the domain layer. Not desirable or possibly even feasible with the current implementation due to the way domain methods are reused in different workflows.
  4. Code the transaction by hand in the service method and scrap @Transactional.

I would imagine this is a fairly common requirement. Probably I am missing an option 5, which is the obvious one!

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4 Answers 4

I would use a TransactionTemplate (your option 4) and programatically control the scope of the transaction in situations like this.

Otherwise, you could move the logic in your method out into a separate service, make that new service @Transactional, remove the @Transactional from the current method, and then surround the call to the new service with your pre- and post-transaction logic. I've taken this approach as well, but I prefer programmatic transaction management for requirements like this, as I think it's cleaner and, as you mentioned, services calling services (that are only ever needed by the first service) just feels like a hackish workaround.

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I think I'd go with 2 unless you have some specific reasons to avoid AOP. Your problem is a classic example of where AOP can be used and it looks pretty good in the result. Here is a nice example of how to implement that (if you didn't read that already): Advising transactional operations

If AOP is really not an option, I'd go the 'Otherwise' option proposed by @Lawrence McAlpin.

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agree with this, I don't understand why one would want to avoid AOP in this scenario. It is the cleanest approach. –  matt b Jul 12 '11 at 13:57
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This is the way to go, after all @Transactional also uses AOP. So hooking up another aspect will be the best and easiest thing to do. –  Sean Patrick Floyd Jul 12 '11 at 14:05
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Definitely use AOP. As @Sean pointed out, you're already using Spring AOP with @Transactional, and Spring specifically supports pointcut expressions that target annotations, so you can tell it to run around every @Transactional method with no extra work. –  Ryan Stewart Jul 12 '11 at 14:35
    
Thanks for that. No fundamental reason to avoid AOP, just personal preference and some bad experiences in the past! I am leaning towards writing an aspect though for the synchronization requirement as it seems to fit with what AOP does best, i.e. truly cross-cutting. For the "do something on transaction commit" requirement, I like the callback solution mentioned by Tomasz. –  Dan Saunders Jul 12 '11 at 16:19

Check out TransactionSynchronization callback interface. Spring can natively inform you what is happening with your transaction.

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That's really useful Tomasz for the message posting requirement, thanks. Actually it's probably the solution to a couple of other long running issues we have too, which is great. –  Dan Saunders Jul 12 '11 at 16:24

if the key is being passed as part of the method call, then you can use java ReentrantLock to do the job.. its much simpler & cleaner.

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