public void BackoffOnRestartSupervisor_must_respect_maxNrOfRetries_property_of_OneForOneStrategy()
{
var probe = CreateTestProbe();
var supervisor = Sys.ActorOf(SupervisorProps(probe.Ref));
probe.ExpectMsg("STARTED");
EventFilter.Exception <TestException>().Expect(5, () =>
{
probe.Watch(supervisor);
for (int i = 1; i <= 5; i++)
{
supervisor.Tell("THROW");
if (i < 5)
{
// Since we should've died on this throw, don't expect to be started.
// We're not testing timing, so set a reasonably high timeout.
probe.ExpectMsg("STARTED", 4.Seconds());
}
}
probe.ExpectTerminated(supervisor);
});
}
public void BackoffSupervisor_must_support_default_stopping_strategy_when_using_Backoff_OnStop()
{
// TODO: use FilterException
EventFilter.Exception <TestException>().Expect(1, () =>
{
var supervisor = Create(OnStopOptions().WithDefaultStoppingStrategy());
supervisor.Tell(BackoffSupervisor.GetCurrentChild.Instance);
var c1 = ExpectMsg <BackoffSupervisor.CurrentChild>().Ref;
Watch(c1);
supervisor.Tell(BackoffSupervisor.GetRestartCount.Instance);
ExpectMsg <BackoffSupervisor.RestartCount>().Count.Should().Be(0);
c1.Tell("boom");
ExpectTerminated(c1);
AwaitAssert(() =>
{
supervisor.Tell(BackoffSupervisor.GetCurrentChild.Instance);
// new instance
ExpectMsg <BackoffSupervisor.CurrentChild>().Ref.Should().NotBeSameAs(c1);
});
supervisor.Tell(BackoffSupervisor.GetRestartCount.Instance);
ExpectMsg <BackoffSupervisor.RestartCount>().Count.Should().Be(1);
});
}
public void DeathWatch_must_fail_a_monitor_which_doesnt_handle_Terminated()
{
EventFilter.Exception <ActorKilledException>().And.Exception <DeathPactException>().Expect(2, () =>
{
var strategy = new FailedSupervisorStrategy(TestActor);
_supervisor = Sys.ActorOf(Props.Create(() => new Supervisor(strategy)).WithDeploy(Deploy.Local));
var failed = _supervisor.Ask(Props.Empty).Result as IActorRef;
var brother = _supervisor.Ask(Props.Create(() => new BrotherActor(failed))).Result as IActorRef;
StartWatching(brother);
failed.Tell(Kill.Instance);
var result = ReceiveWhile(TimeSpan.FromSeconds(5), msg =>
{
var res = 0;
msg.Match()
.With <FF>(ff =>
{
if (ff.Fail.Cause is ActorKilledException && ff.Fail.Child == failed)
{
res = 1;
}
if (ff.Fail.Cause is DeathPactException && ff.Fail.Child == brother)
{
res = 2;
}
})
.With <WrappedTerminated>(x => res = x.Terminated.ActorRef == brother ? 3 : 0);
return(res.ToString());
}, 3);
((IInternalActorRef)TestActor).IsTerminated.ShouldBe(false);
result.ShouldOnlyContainInOrder("1", "2", "3");
});
}
public void A_Flow_based_on_an_iterable_must_produce_OnError_when_iterator_throws()
{
var iterable = Enumerable.Range(1, 3).Select(x =>
{
if (x == 2)
{
throw new IllegalStateException("not two");
}
return(x);
});
var p = Source.From(iterable).RunWith(Sink.AsPublisher <int>(false), Materializer);
var c = this.CreateManualSubscriberProbe <int>();
p.Subscribe(c);
var sub = c.ExpectSubscription();
sub.Request(1);
c.ExpectNext(1);
c.ExpectNoMsg(TimeSpan.FromMilliseconds(100));
EventFilter.Exception <IllegalStateException>("not two").ExpectOne(() => sub.Request(2));
c.ExpectError().Message.Should().Be("not two");
sub.Request(2);
c.ExpectNoMsg(TimeSpan.FromMilliseconds(100));
}
public void DistributedPubSubMediator_can_be_activated_in_child_actor()
{
EventFilter.Exception <NullReferenceException>().Expect(0, () =>
{
var actor = Sys.ActorOf((dsl, context) =>
{
IActorRef mediator = null;
dsl.OnPreStart = actorContext =>
{
mediator = DistributedPubSub.Get(actorContext.System).Mediator;
};
dsl.Receive <string>(s => s.Equals("check"), (s, actorContext) =>
{
actorContext.Sender.Tell(mediator);
});
}, "childActor");
actor.Tell("check");
var a = ExpectMsg <IActorRef>();
a.ShouldNotBe(ActorRefs.NoSender);
a.ShouldNotBe(ActorRefs.Nobody);
});
}
public void A_supervisor_hierarchy_must_Restart_Manager_And_Workers_In_AllForOne()
{
var countDown = new CountdownEvent(4);
SupervisorStrategy strategy = new OneForOneStrategy(_ => Directive.Restart);
var boss = ActorOf(Props.Create(() => new Supervisor(strategy)), "boss");
Func <Exception, Directive> decider = _ => { return(Directive.Escalate); };
var managerProps = new PropsWithName(Props.Create(() => new CountDownActor(countDown, new AllForOneStrategy(decider))), "manager");
var manager = boss.Ask <IActorRef>(managerProps, TestKitSettings.DefaultTimeout).Result;
var workerProps = Props.Create(() => new CountDownActor(countDown, SupervisorStrategy.DefaultStrategy));
var worker1 = manager.Ask <IActorRef>(new PropsWithName(workerProps, "worker1"), TestKitSettings.DefaultTimeout).Result;
var worker2 = manager.Ask <IActorRef>(new PropsWithName(workerProps, "worker2"), TestKitSettings.DefaultTimeout).Result;
var worker3 = manager.Ask <IActorRef>(new PropsWithName(workerProps, "worker3"), TestKitSettings.DefaultTimeout).Result;
EventFilter.Exception <ActorKilledException>().ExpectOne(() =>
{
worker1.Tell(Kill.Instance);
// manager + all workers should be restarted by only killing a worker
// manager doesn't trap exits, so boss will restart manager
countDown.Wait(TimeSpan.FromSeconds(5)).ShouldBe(true);
});
}
public void When_child_revives_monitor_should_be_created_even_on_collision()
{
var ChildId = "testChild";
var create = new MessageMetadataEnvelop <ICommand>(new InflateNewBallonCommand(42, ChildId),
MessageMetadata.New(ChildId, null, null));
_hubRef.Tell(create);
Task.Run(async() =>
{
while (true)
{
var activate = new MessageMetadataEnvelop <ICommand>(new WriteTitleCommand(100, ChildId),
MessageMetadata.New(ChildId, null, null));
_hubRef.Tell(activate);
await Task.Delay(150);
}
});
EventFilter.Exception <InvalidActorNameException>()
.Expect(0, TimeSpan.FromSeconds(10), () => { });
}
public void Unfold_Source_must_terminate_with_a_failure_if_there_is_an_exception_thrown()
{
EventFilter.Exception <Exception>(message: "expected").ExpectOne(() =>
{
var task = Source.Unfold((0, 1), tuple =>
{
var a = tuple.Item1;
var b = tuple.Item2;
if (a > 10000000)
{
throw new Exception("expected");
}
return(((b, a + b), a).AsOption());
}).RunAggregate(new LinkedList <int>(), (ints, i) =>
{
ints.AddFirst(i);
return(ints);
}, Materializer);
task.Invoking(t => t.Wait(TimeSpan.FromSeconds(3)))
.Should().Throw <Exception>()
.WithMessage("expected");
});
}
public void BackoffSupervisor_must_support_manual_reset()
{
Action <IActorRef> assertManualReset = supervisor =>
{
supervisor.Tell(BackoffSupervisor.GetCurrentChild.Instance);
var c1 = ExpectMsg <BackoffSupervisor.CurrentChild>().Ref;
Watch(c1);
c1.Tell("boom");
ExpectTerminated(c1);
AwaitAssert(() =>
{
supervisor.Tell(BackoffSupervisor.GetRestartCount.Instance);
ExpectMsg <BackoffSupervisor.RestartCount>().Count.Should().Be(1);
});
AwaitAssert(() =>
{
supervisor.Tell(BackoffSupervisor.GetCurrentChild.Instance);
// new instance
ExpectMsg <BackoffSupervisor.CurrentChild>().Ref.Should().NotBeSameAs(c1);
});
// TODO: this Thread.Sleep should be removed
Thread.Sleep(500);
supervisor.Tell("hello");
ExpectMsg("hello");
// making sure the Reset is handled by supervisor
supervisor.Tell("hello");
ExpectMsg("hello");
supervisor.Tell(BackoffSupervisor.GetRestartCount.Instance);
ExpectMsg <BackoffSupervisor.RestartCount>().Count.Should().Be(0);
};
// TODO: use FilterException
EventFilter.Exception <TestException>().Expect(2, () =>
{
var stoppingStrategy = new OneForOneStrategy(ex =>
{
if (ex is TestException)
{
return(Directive.Stop);
}
// TODO: should restart be there?
return(Directive.Restart);
});
var restartingStrategy = new OneForOneStrategy(ex =>
{
if (ex is TestException)
{
return(Directive.Restart);
}
// TODO: should restart be there?
return(Directive.Restart);
});
assertManualReset(
Create(OnStopOptions(ManualChild.Props(TestActor))
.WithManualReset()
.WithSupervisorStrategy(stoppingStrategy)));
assertManualReset(
Create(OnFailureOptions(ManualChild.Props(TestActor))
.WithManualReset()
.WithSupervisorStrategy(restartingStrategy)));
});
}
public void Remoting_must_not_leak_actors()
{
var actorRef = Sys.ActorOf(EchoActor.Props(this, true), "echo");
var echoPath = new RootActorPath(RARP.For(Sys).Provider.DefaultAddress) / "user" / "echo";
var targets = new[] { "/system/endpointManager", "/system/transports" }.Select(x =>
{
Sys.ActorSelection(x).Tell(new Identify(0));
return(ExpectMsg <ActorIdentity>().Subject);
}).ToList();
var initialActors = targets.SelectMany(CollectLiveActors).ToImmutableHashSet();
// Clean shutdown case
for (var i = 1; i <= 3; i++)
{
var remoteSystem = ActorSystem.Create("remote",
ConfigurationFactory.ParseString("akka.remote.dot-netty.tcp.port = 0")
.WithFallback(Sys.Settings.Config));
try
{
var probe = CreateTestProbe(remoteSystem);
remoteSystem.ActorSelection(echoPath).Tell(new Identify(1), probe.Ref);
probe.ExpectMsg <ActorIdentity>().Subject.ShouldNotBe(null);
}
finally
{
remoteSystem.Terminate();
}
remoteSystem.WhenTerminated.Wait(TimeSpan.FromSeconds(10)).ShouldBeTrue();
}
// Quarantine an old incarnation case
for (var i = 1; i <= 3; i++)
{
// always use the same address
var remoteSystem = ActorSystem.Create("remote",
ConfigurationFactory.ParseString("akka.remote.dot-netty.tcp.port = 2553")
.WithFallback(Sys.Settings.Config));
try
{
var remoteAddress = RARP.For(remoteSystem).Provider.DefaultAddress;
remoteSystem.ActorOf(Props.Create(() => new StoppableActor()), "stoppable");
// the message from remote to local will cause inbound connection established
var probe = CreateTestProbe(remoteSystem);
remoteSystem.ActorSelection(echoPath).Tell(new Identify(1), probe.Ref);
probe.ExpectMsg <ActorIdentity>().Subject.ShouldNotBe(null);
var beforeQuarantineActors = targets.SelectMany(CollectLiveActors).ToImmutableHashSet();
// it must not quarantine the current connection
RARP.For(Sys)
.Provider.Transport.Quarantine(remoteAddress, AddressUidExtension.Uid(remoteSystem) + 1);
// the message from local to remote should reuse passive inbound connection
Sys.ActorSelection(new RootActorPath(remoteAddress) / "user" / "stoppable").Tell(new Identify(1));
ExpectMsg <ActorIdentity>().Subject.ShouldNotBe(null);
var afterQuarantineActors = targets.SelectMany(CollectLiveActors).ToImmutableHashSet();
AssertActors(beforeQuarantineActors, afterQuarantineActors);
}
finally
{
remoteSystem.Terminate();
}
remoteSystem.WhenTerminated.Wait(TimeSpan.FromSeconds(10)).ShouldBeTrue();
}
// Missing SHUTDOWN case
for (var i = 1; i <= 3; i++)
{
var remoteSystem = ActorSystem.Create("remote",
ConfigurationFactory.ParseString("akka.remote.dot-netty.tcp.port = 0")
.WithFallback(Sys.Settings.Config));
var remoteAddress = RARP.For(remoteSystem).Provider.DefaultAddress;
try
{
var probe = CreateTestProbe(remoteSystem);
remoteSystem.ActorSelection(echoPath).Tell(new Identify(1), probe.Ref);
probe.ExpectMsg <ActorIdentity>().Subject.ShouldNotBe(null);
// This will make sure that no SHUTDOWN message gets through
RARP.For(Sys).Provider.Transport.ManagementCommand(new ForceDisassociate(remoteAddress))
.Wait(TimeSpan.FromSeconds(3)).ShouldBeTrue();
}
finally
{
remoteSystem.Terminate();
}
EventFilter.Warning(contains: "Association with remote system").ExpectOne(() =>
{
remoteSystem.WhenTerminated.Wait(TimeSpan.FromSeconds(10)).ShouldBeTrue();
});
}
// Remote idle for too long case
var idleRemoteSystem = ActorSystem.Create("remote",
ConfigurationFactory.ParseString("akka.remote.dot-netty.tcp.port = 0")
.WithFallback(Sys.Settings.Config));
var idleRemoteAddress = RARP.For(idleRemoteSystem).Provider.DefaultAddress;
idleRemoteSystem.ActorOf(Props.Create <StoppableActor>(), "stoppable");
try
{
var probe = CreateTestProbe(idleRemoteSystem);
idleRemoteSystem.ActorSelection(echoPath).Tell(new Identify(1), probe.Ref);
probe.ExpectMsg <ActorIdentity>().Subject.ShouldNotBe(null);
// Watch a remote actor - this results in system message traffic
Sys.ActorSelection(new RootActorPath(idleRemoteAddress) / "user" / "stoppable").Tell(new Identify(1));
var remoteActor = ExpectMsg <ActorIdentity>().Subject;
Watch(remoteActor);
remoteActor.Tell("stop");
ExpectTerminated(remoteActor);
// All system messages have been acked now on this side
// This will make sure that no SHUTDOWN message gets through
RARP.For(Sys).Provider.Transport.ManagementCommand(new ForceDisassociate(idleRemoteAddress))
.Wait(TimeSpan.FromSeconds(3)).ShouldBeTrue();
}
finally
{
idleRemoteSystem.Terminate();
}
EventFilter.Warning(contains: "Association with remote system").ExpectOne(() =>
{
idleRemoteSystem.WhenTerminated.Wait(TimeSpan.FromSeconds(10)).ShouldBeTrue();
});
/*
* Wait for the ReliableDeliverySupervisor to receive its "TooLongIdle" message,
* which will throw a HopelessAssociation wrapped around a TimeoutException.
*/
EventFilter.Exception <TimeoutException>().ExpectOne(() => { });
AwaitAssert(() =>
{
AssertActors(initialActors, targets.SelectMany(CollectLiveActors).ToImmutableHashSet());
}, 5.Seconds());
}
public ActorPublisherSpec(ITestOutputHelper output = null) : base(Config, output)
{
EventFilter.Exception <IllegalStateException>().Mute();
}
public void DoNotInterceptMessagesWhenSourceDoesNotMatch()
{
EventFilter.Exception <SomeException>(source: "this is clearly not the source");
Log.Error(new SomeException(), "whatever");
ExpectMsg <Error>(err => (string)err.Message == "whatever");
}
public void CanInterceptMessagesWhenContainsIsSpecified()
{
EventFilter.Exception <SomeException>(contains: "ate")
.ExpectOne(() => Log.Error(new SomeException(), "whatever"));
ExpectNoMsg(TimeSpan.FromMilliseconds(100));
}
public void SingleExceptionIsIntercepted()
{
EventFilter.Exception <SomeException>()
.ExpectOne(() => Log.Error(new SomeException(), "whatever"));
ExpectNoMsg(TimeSpan.FromMilliseconds(100));
}
