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/**
* Copyright (C) 2009-2018 Lightbend Inc.
*/
package akka.testkit
import akka.actor._
import java.util.concurrent.atomic.AtomicLong
import akka.dispatch._
import scala.concurrent.Await
import scala.reflect.ClassTag
import akka.pattern.ask
/**
* This special ActorRef is exclusively for use during unit testing in a single-threaded environment. Therefore, it
* overrides the dispatcher to CallingThreadDispatcher and sets the receiveTimeout to None. Otherwise,
* it acts just like a normal ActorRef. You may retrieve a reference to the underlying actor to test internal logic.
*
* @since 1.1
*/
class TestActorRef[T <: Actor](
_system: ActorSystem,
_props: Props,
_supervisor: ActorRef,
name: String)
extends {
val props =
_props.withDispatcher(
if (_props.deploy.dispatcher == Deploy.NoDispatcherGiven) CallingThreadDispatcher.Id
else _props.dispatcher)
val dispatcher = _system.dispatchers.lookup(props.dispatcher)
private val disregard = _supervisor match {
case l: LocalActorRef ⇒ l.underlying.reserveChild(name)
case r: RepointableActorRef ⇒ r.underlying match {
case u: UnstartedCell ⇒ throw new IllegalStateException("cannot attach a TestActor to an unstarted top-level actor, ensure that it is started by sending a message and observing the reply")
case c: ActorCell ⇒ c.reserveChild(name)
case o ⇒ _system.log.error("trying to attach child {} to unknown type of supervisor cell {}, this is not going to end well", name, o.getClass)
}
case s ⇒ _system.log.error("trying to attach child {} to unknown type of supervisor {}, this is not going to end well", name, s.getClass)
}
} with LocalActorRef(
_system.asInstanceOf[ActorSystemImpl],
props,
dispatcher,
_system.mailboxes.getMailboxType(props, dispatcher.configurator.config),
_supervisor.asInstanceOf[InternalActorRef],
_supervisor.path / name) {
// we need to start ourselves since the creation of an actor has been split into initialization and starting
underlying.start()
import TestActorRef.InternalGetActor
protected override def newActorCell(system: ActorSystemImpl, ref: InternalActorRef, props: Props,
dispatcher: MessageDispatcher, supervisor: InternalActorRef): ActorCell =
new ActorCell(system, ref, props, dispatcher, supervisor) {
override def autoReceiveMessage(msg: Envelope) {
msg.message match {
case InternalGetActor ⇒ sender() ! actor
case _ ⇒ super.autoReceiveMessage(msg)
}
}
}
/**
* Directly inject messages into actor receive behavior. Any exceptions
* thrown will be available to you, while still being able to use
* become/unbecome.
*/
def receive(o: Any): Unit = receive(o, underlying.system.deadLetters)
/**
* Directly inject messages into actor receive behavior. Any exceptions
* thrown will be available to you, while still being able to use
* become/unbecome.
*/
def receive(o: Any, sender: ActorRef): Unit = try {
underlying.currentMessage = Envelope(o, if (sender eq null) underlying.system.deadLetters else sender, underlying.system)
underlying.receiveMessage(o)
} finally underlying.currentMessage = null
/**
* Retrieve reference to the underlying actor, where the static type matches the factory used inside the
* constructor. Beware that this reference is discarded by the ActorRef upon restarting the actor (should this
* reference be linked to a supervisor). The old Actor may of course still be used in post-mortem assertions.
*/
def underlyingActor: T = {
// volatile mailbox read to bring in actor field
if (isTerminated) throw IllegalActorStateException("underlying actor is terminated")
underlying.actor.asInstanceOf[T] match {
case null ⇒
val t = TestKitExtension(_system).DefaultTimeout
Await.result(this.?(InternalGetActor)(t), t.duration).asInstanceOf[T]
case ref ⇒ ref
}
}
/**
* Registers this actor to be a death monitor of the provided ActorRef
* This means that this actor will get a Terminated()-message when the provided actor
* is permanently terminated.
*
* @return the same ActorRef that is provided to it, to allow for cleaner invocations
*/
def watch(subject: ActorRef): ActorRef = underlying.watch(subject)
/**
* Unregisters this actor from being a death monitor of the provided ActorRef
* This means that this actor will not get a Terminated()-message when the provided actor
* is permanently terminated.
*
* @return the same ActorRef that is provided to it, to allow for cleaner invocations
*/
def unwatch(subject: ActorRef): ActorRef = underlying.unwatch(subject)
override def toString = "TestActor[" + path + "]"
}
object TestActorRef {
private case object InternalGetActor extends AutoReceivedMessage with PossiblyHarmful
private val number = new AtomicLong
private[testkit] def randomName: String = {
val l = number.getAndIncrement()
"$" + akka.util.Helpers.base64(l)
}
def apply[T <: Actor: ClassTag](factory: ⇒ T)(implicit system: ActorSystem): TestActorRef[T] = apply[T](Props(factory), randomName)
def apply[T <: Actor: ClassTag](factory: ⇒ T, name: String)(implicit system: ActorSystem): TestActorRef[T] = apply[T](Props(factory), name)
def apply[T <: Actor](props: Props)(implicit system: ActorSystem): TestActorRef[T] = apply[T](props, randomName)
def apply[T <: Actor](props: Props, name: String)(implicit system: ActorSystem): TestActorRef[T] =
apply[T](props, system.asInstanceOf[ActorSystemImpl].guardian, name)
def apply[T <: Actor](props: Props, supervisor: ActorRef)(implicit system: ActorSystem): TestActorRef[T] = {
val sysImpl = system.asInstanceOf[ActorSystemImpl]
new TestActorRef(sysImpl, props, supervisor.asInstanceOf[InternalActorRef], randomName)
}
def apply[T <: Actor](props: Props, supervisor: ActorRef, name: String)(implicit system: ActorSystem): TestActorRef[T] = {
val sysImpl = system.asInstanceOf[ActorSystemImpl]
new TestActorRef(sysImpl, props, supervisor.asInstanceOf[InternalActorRef], name)
}
def apply[T <: Actor](implicit t: ClassTag[T], system: ActorSystem): TestActorRef[T] = apply[T](randomName)
private def dynamicCreateRecover[U]: PartialFunction[Throwable, U] = {
case exception ⇒ throw ActorInitializationException(
null,
"Could not instantiate Actor" +
"\nMake sure Actor is NOT defined inside a class/trait," +
"\nif so put it outside the class/trait, f.e. in a companion object," +
"\nOR try to change: 'actorOf(Props[MyActor]' to 'actorOf(Props(new MyActor)'.", exception)
}
def apply[T <: Actor](name: String)(implicit t: ClassTag[T], system: ActorSystem): TestActorRef[T] = apply[T](Props({
system.asInstanceOf[ExtendedActorSystem].dynamicAccess
.createInstanceFor[T](t.runtimeClass, Nil).recover(dynamicCreateRecover).get
}), name)
def apply[T <: Actor](supervisor: ActorRef)(implicit t: ClassTag[T], system: ActorSystem): TestActorRef[T] = apply[T](Props({
system.asInstanceOf[ExtendedActorSystem].dynamicAccess
.createInstanceFor[T](t.runtimeClass, Nil).recover(dynamicCreateRecover).get
}), supervisor)
def apply[T <: Actor](supervisor: ActorRef, name: String)(implicit t: ClassTag[T], system: ActorSystem): TestActorRef[T] = apply[T](Props({
system.asInstanceOf[ExtendedActorSystem]
.dynamicAccess.createInstanceFor[T](t.runtimeClass, Nil).recover(dynamicCreateRecover).get
}), supervisor, name)
/**
* Java API: create a TestActorRef in the given system for the given props,
* with the given supervisor and name.
*/
def create[T <: Actor](system: ActorSystem, props: Props, supervisor: ActorRef, name: String): TestActorRef[T] = apply(props, supervisor, name)(system)
/**
* Java API: create a TestActorRef in the given system for the given props,
* with the given supervisor and a random name.
*/
def create[T <: Actor](system: ActorSystem, props: Props, supervisor: ActorRef): TestActorRef[T] = apply(props, supervisor)(system)
/**
* Java API: create a TestActorRef in the given system for the given props,
* with the given name.
*/
def create[T <: Actor](system: ActorSystem, props: Props, name: String): TestActorRef[T] = apply(props, name)(system)
/**
* Java API: create a TestActorRef in the given system for the given props,
* with a random name.
*/
def create[T <: Actor](system: ActorSystem, props: Props): TestActorRef[T] = apply(props)(system)
}
