In my Spring Boot project I have implemented following service method:

@Transactional
public boolean validateBoard(Board board) {
    boolean result = false;
    if (inProgress(board)) {
        if (!canPlayWithCurrentBoard(board)) {
            update(board, new Date(), Board.AFK);
            throw new InvalidStateException(ErrorMessage.BOARD_TIMEOUT_REACHED);
        }
        if (!canSelectCards(board)) {
            update(board, new Date(), Board.COMPLETED);
            throw new InvalidStateException(ErrorMessage.ALL_BOARD_CARDS_ALREADY_SELECTED);
        }
        result = true;
    }
    return result;
}

inside of this method I use another service method which is called update:

@Transactional(propagation = Propagation.REQUIRES_NEW)
public Board update(Board board, Date finishedDate, Integer status) {
    board.setStatus(status);
    board.setFinishedDate(finishedDate);

    return boardRepository.save(board);
}

I need to commit changes to database in update method independently of the owner transaction which is started in validateBoard method. Right now any changes is rolling back in case of any exception.

Even with @Transactional(propagation = Propagation.REQUIRES_NEW) it doesn't work.

How to correctly do this with Spring and allow nested transactions ?

  • 6
    Apparently you are calling a method within the same class, so Spring can't intercept the call and apply a transactional proxy (the REQUIRES_NEW propagation is ignored). You should migrate the update method to another Spring bean, – Ori Dar May 13 '16 at 19:07
  • Thanks, now everything works as expected – alexanoid May 13 '16 at 19:39
up vote 15 down vote accepted

This documentation covers your problem - https://docs.spring.io/spring-framework/docs/current/spring-framework-reference/data-access.html#transaction-declarative-annotations

In proxy mode (which is the default), only external method calls coming in through the proxy are intercepted. This means that self-invocation, in effect, a method within the target object calling another method of the target object, will not lead to an actual transaction at runtime even if the invoked method is marked with @Transactional. Also, the proxy must be fully initialized to provide the expected behaviour so you should not rely on this feature in your initialization code, i.e. @PostConstruct.

However, there is an option to switch to AspectJ mode

Your transaction annotation in update method will not be regarded by Spring transaction infrastructure if called from some method of same class. For more understanding on how Spring transaction infrastructure works please refer to this.

The basic thumb rule in terms of nested Transactions is that they are completely dependent on the underlying database, i.e. support for Nested Transactions and their handling is database dependent and varies with it. In some databases, changes made by the nested transaction are not seen by the 'host' transaction until the nested transaction is committed. This can be achieved using Transaction isolation in @Transactional (isolation = "")

You need to identify the place in your code from where an exception is thrown, i.e. from the parent method: "validateBoard" or from the child method: "update".

Your code snippet shows that you are explicitly throwing the exceptions.

YOU MUST KNOW::

In its default configuration, Spring Framework’s transaction infrastructure code only marks a transaction for rollback in the case of runtime, unchecked exceptions; that is when the thrown exception is an instance or subclass of RuntimeException.

But @Transactional never rolls back a transaction for any checked exception.

Thus, Spring allows you to define

  • Exception for which transaction should be rollbacked
  • Exception for which transaction shouldn't be rollbacked

Try annotating your child method: update with @Transactional(no-rollback-for="ExceptionName") or your parent method.

Your problem is a method's call from another method inside the same proxy.It's self-invocation. In your case, you can easily fix it without moving a method inside another service (why do you need to create another service just for moving some method from one service to another just for avoid self-invocation?), just to call the second method not directly from current class, but from spring container. In this case you call proxy second method with transaction not with self-invocatio.

This principle is useful for any proxy-object when you need self-invocation, not only a transactional proxy.

@Service
class SomeService ..... {
    -->> @Autorired
    -->> private ApplicationContext context;
    -->> //or with implementing ApplicationContextAware

    @Transactional(any propagation , it's not important in this case)
    public boolean methodOne(SomeObject object) {
      .......
       -->> here you get a proxy from context and call a method from this proxy
       -->>context.getBean(SomeService.class).
            methodTwo(object);
      ......
   }

    @Transactional(any propagation , it's not important in this case)public boolean 
    methodTwo(SomeObject object) {
    .......
   }
}

when you do call context.getBean(SomeService.class).methodTwo(object); container returns proxy object and on this proxy you can call methodTwo(...) with transaction.

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