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Build your transactions in purely functional way.
ZIO-SAGA allows you to compose your requests and compensating actions from Saga pattern in one transaction without any boilerplate.
Backed by ZIO it adds a simple abstraction called Saga that takes the responsibility of proper composition of effects and associated compensating actions.
Add zio-saga dependency to your build.sbt
:
libraryDependencies += "com.vladkopanev" %% "zio-saga-core" % "0.1.0"
Consider the following case, we have built our food delivery system in microservices fashion, so
we have Order
service, Payment
service, LoyaltyProgram
service, etc.
And now we need to implement a closing order method, that collects payment, assigns loyalty points
and closes the order. This method should run transactionally so if e.g. closing order fails we will
rollback the state for user and refund payments, cancel loyalty points.
Applying Saga pattern we need a compensating action for each call to particular microservice, those actions needs to be run for each completed request in case some of the requests fails.
Let's think for a moment about how we could implement this pattern without any specific libraries.
The naive implementation could look like this:
def orderSaga(): IO[SagaError, Unit] = {
for {
_ <- collectPayments(2d, 2) orElse refundPayments(2d, 2)
_ <- assignLoyaltyPoints(1d, 1) orElse cancelLoyaltyPoints(1d, 1)
_ <- closeOrder(1) orElse reopenOrder(1)
} yield ()
}
Looks pretty simple and straightforward, orElse
function tries to recover the original request if it fails.
We have covered every request with a compensating action. But what if last request fails? We know for sure that corresponding
compensation reopenOrder
will be executed, but when other compensations would be run? Right, they would not be triggered,
because the error would not be propagated higher, thus not triggering compensating actions. That is not what we want, we want
full rollback logic to be triggered in Saga, whatever error occurred.
Second try, this time let's somehow trigger all compensating actions.
def orderSaga(): IO[SagaError, Unit] = {
collectPayments(2d, 2).flatMap { _ = >
assignLoyaltyPoints(1d, 1).flatMap { _ =>
closeOrder(1) orElse(reopenOrder(1) *> IO.fail(new SagaError))
} orElse (cancelLoyaltyPoints(1d, 1) *> IO.fail(new SagaError))
} orElse(refundPayments(2d, 2) *> IO.fail(new SagaError))
}
This works, we trigger all rollback actions by failing after each. But the implementation itself looks awful, we lost expressiveness in the call-back hell, imagine 15 saga steps implemented in such manner, and we also lost the original error that we wanted to show to the user.
You can solve this problems in different ways, but you will encounter a number of difficulties, and your code still would look pretty much the same as we did in our last try.
Achieve a generic solution is not that simple, so you will end up repeating the same boilerplate code from service to service.
ZIO-SAGA
tries to address this concerns and provide you with simple syntax to compose your Sagas.
With ZIO-SAGA
we could do it like so:
def orderSaga(): IO[SagaError, Unit] = {
import com.vladkopanev.zio.saga.Saga._
(for {
_ <- collectPayments(2d, 2) compensate refundPayments(2d, 2)
_ <- assignLoyaltyPoints(1d, 1) compensate cancelLoyaltyPoints(1d, 1)
_ <- closeOrder(1) compensate reopenOrder(1)
} yield ()).transact
}
compensate
pairs request IO with compensating action IO and returns a new Saga
object which then you can compose with other
Sagas
.
To materialize Saga
object to ZIO
when it's complete it is required to use transact
method.
As you can see with ZIO-SAGA
the process of building your Sagas is greatly simplified comparably to ad-hoc solutions.
ZIO-Sagas are composable, boilerplate-free and intuitively understandable for people that aware of Saga pattern.
This library let you compose transaction steps both in sequence and in parallel, this feature gives you more powerful control
over transaction execution.
ZIO-SAGA
provides you with functions for retrying your compensating actions, so you could
write:
collectPayments(2d, 2) retryableCompensate (refundPayments(2d, 2), Schedule.exponential(1.second))
In this example your Saga will retry compensating action refundPayments
after exponentially
increasing timeouts (based on ZIO#retry
and ZSchedule
).
Saga pattern does not limit transactional requests to run only in sequence.
Because of that ZIO-SAGA
contains methods for parallel execution of requests.
val flight = bookFlight compensate cancelFlight
val hotel = bookHotel compensate cancelHotel
val bookingSaga = flight zipPar hotel
- Even more powerful control over compensation execution
- Cats interop