As per Spring Transaction Documentation
All code within a transaction scope runs in that transaction. However,
you can specify the behavior if a transactional method is run when a
transaction context already exists. For example, code can continue
running in the existing transaction (the common case), or the existing
transaction can be suspended and a new transaction created.
@Transactional commonly works with thread-bound transactions managed
PlatformTransactionManager, exposing a transaction to all data
access operations within the current execution thread. Note: This does
not propagate to newly started threads within the method.
@Transactional is powered by Aspect-Oriented Programming. Therefore, processing occurs when a bean is called from another bean. In the example above, the method is called from the same class so that no proxies can be applied.
When a method without
@Transactional is called within a transaction block, the parent transaction will continue to exist for the new method. It will use the same connection from the parent method (method with @Transactional) and any exception caused in the called method (method without @Transactional) will cause the transaction to rollback as configured in the transaction definition.
@Async annotation is being used extra care should be taken with respect to transaction. When a
@Component calls a method annotated with
@Async the call to the asynchronous method is being scheduled and executed at a later time by a task executor and is thus handled as a 'fresh' call, i.e. without a transactional context. If the
@Async method (or the
@Component in which it is declared) is not
@Transactional by itself Spring will not manage any needed transactions.
In order to make Spring manage the transaction of the
@Async method either the
@Component or the method itself should declare the
@Transactional annotation, this way Spring will manage the transaction even if a method is being executed asynchronous.