This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Framework 6.2.0!

Transaction-bound Events

As of Spring 4.2, the listener of an event can be bound to a phase of the transaction. The typical example is to handle the event when the transaction has completed successfully. Doing so lets events be used with more flexibility when the outcome of the current transaction actually matters to the listener.

You can register a regular event listener by using the @EventListener annotation. If you need to bind it to the transaction, use @TransactionalEventListener. When you do so, the listener is bound to the commit phase of the transaction by default.

The next example shows this concept. Assume that a component publishes an order-created event and that we want to define a listener that should only handle that event once the transaction in which it has been published has committed successfully. The following example sets up such an event listener:

  • Java

  • Kotlin

@Component
public class MyComponent {

	@TransactionalEventListener
	public void handleOrderCreatedEvent(CreationEvent<Order> creationEvent) {
		// ...
	}
}
@Component
class MyComponent {

	@TransactionalEventListener
	fun handleOrderCreatedEvent(creationEvent: CreationEvent<Order>) {
		// ...
	}
}

The @TransactionalEventListener annotation exposes a phase attribute that lets you customize the phase of the transaction to which the listener should be bound. The valid phases are BEFORE_COMMIT, AFTER_COMMIT (default), AFTER_ROLLBACK, as well as AFTER_COMPLETION which aggregates the transaction completion (be it a commit or a rollback).

If no transaction is running, the listener is not invoked at all, since we cannot honor the required semantics. You can, however, override that behavior by setting the fallbackExecution attribute of the annotation to true.

As of 6.1, @TransactionalEventListener can work with thread-bound transactions managed by PlatformTransactionManager as well as reactive transactions managed by ReactiveTransactionManager. For the former, listeners are guaranteed to see the current thread-bound transaction. Since the latter uses the Reactor context instead of thread-local variables, the transaction context needs to be included in the published event instance as the event source. See the TransactionalEventPublisher javadoc for details.