Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Under Service Oriented Architecture (SOA), I am interested in the question of whether a service should own its own data or not.

One of the constraints is that if anything fails at any point, we need to be able to roll the state of the entire system back to a prior state so we can retry or resume an operation.

If each service owns its own data, then does this imply that the system deals with change better from the programmers point of view?

However, if each service owns its own data, are there any mechanisms to roll the entire system back to a prior state so a failed operation can be resumed or retried?

share|improve this question
I would have a deterministic system. In this case, it doesn't make sense to try it again. Instead of rolling back, I would have to system compensate and continue. –  Peter Lawrey Sep 6 '13 at 16:11
@Peter Lawrey. Good point. Unfortunately, if something fails, it may require human intervention to fix something else, so the entire process can be resumed or retried. –  Contango Sep 6 '13 at 16:14
Or you could start a new task after manual intervention. You wouldn't want to stop everything just because one task requires intervention. –  Peter Lawrey Sep 6 '13 at 16:16
@Peter Lawrey. Yes, I agree. Each task is independent of the others, so if one fails it won't hold up anything else. However, as one of the tasks might have altered something else in the real world before it failed half way through and required human intervention to fix it, if the task is resumed it must be aware of what's being done already (i.e. its prior state must be restored so its aware of the world). –  Contango Sep 6 '13 at 16:28
add comment

3 Answers

It sounds like the granularity of what you call services might be wrong. A single service can have multiple endpoints (using same or different protocols) and if a message received on one endpoint requires rolling back state that was received on another it is still an internal transaction within the boundary of the service.

If we consider the simplistic example of order and customer services. The order services may have contracts with messages relating to the whole order or to an order line and cancelling the order will undo state that was affected by both. Usually the address change in the customer service would not be rolled back with that.

Sometimes service actions are tied together in a longer business process, to continue on the example above let's also add an invoicing service. so when we cancel an order we also want to cancel the invoice. However it is important to note that business rules within the realm of the invoicing service can behave differently, for instance and not "roll back" e.g. canceling an order late may require cancelation fees. This sort of long running interaction is what I call a saga (you can see a draft of that pattern here)

Also note that distributed transactions between services is usually not a good idea for several reasons (like holding locks for an external party you don't necessarily trust) you can read more about that here

share|improve this answer
add comment

The problem you raised here is (partially) solved by the two-phase commit protocol (see wikipedia article)

To avoid implementing this complex algorithm, you can dedicate one of the service of the architecture to data management. If you need data synchronization between different databases, try to do it on the lowest layer (ie system or DBMS).

share|improve this answer
Really like your answer, I'll look into that now. And welcome to Stack Overflow! –  Contango Sep 6 '13 at 16:26
add comment

SOA system defines more services within one system. This can provide more autonomous services in order to every service can be hosted on different machine.

But it does not mean that you can not provide unified persistent layer for all (domain) models which can point into one storage => simple business transaction when the whole system is spread into more computers or transaction for one system.

Autonomous domain model is useful besides other things during refactoring to avoid situation where a change in one model causes a change in another service => global changes in the whole application.

share|improve this answer
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.