Akka(3): Actor监管 - 细述BackoffSupervisor

在上一篇讨论中我们谈到了监管:在Akka中就是一种直属父子监管树结构,父级Actor负责处理直属子级Actor产生的异常。当时我们把BackoffSupervisor作为父子监管方式的其中一种。实际上BackoffSupervisor与定义了supervisorStrategy的Actor有所不同。我们应该把BackoffSupervisor看作是一个一体化的Actor。当然,它的实现方式还是由一对父子Actor组成。监管策略(SupervisorStrategy)是在BackoffSupervisor的内部实现的。从外表上BackoffSupervisor就像是一个Actor,运算逻辑是在子级Actor中定义的,所谓的父级Actor除监管之外没有任何其它功能,我们甚至没有地方定义父级Actor的功能,它的唯一功能是转发收到的信息给子级,是嵌入BackoffSupervisor里的。所以我们虽然发送消息给BackoffSupervisor,但实际上是在与它的子级交流。我们看看下面这个例子:

package backoffSupervisorDemo
import akka.actor._
import akka.pattern._
import backoffSupervisorDemo.InnerChild.TestMessage import scala.concurrent.duration._ object InnerChild {
case class TestMessage(msg: String)
class ChildException extends Exception def props = Props[InnerChild]
}
class InnerChild extends Actor with ActorLogging {
import InnerChild._
override def receive: Receive = {
case TestMessage(msg) => //模拟子级功能
log.info(s"Child received message: ${msg}")
}
}
object Supervisor {
def props: Props = { //在这里定义了监管策略和child Actor构建
def decider: PartialFunction[Throwable, SupervisorStrategy.Directive] = {
case _: InnerChild.ChildException => SupervisorStrategy.Restart
} val options = Backoff.onFailure(InnerChild.props, "innerChild", second, seconds, 0.0)
.withManualReset
.withSupervisorStrategy(
OneForOneStrategy(maxNrOfRetries = , withinTimeRange = seconds)(
decider.orElse(SupervisorStrategy.defaultDecider)
)
)
BackoffSupervisor.props(options)
}
}
//注意:下面是Supervisor的父级,不是InnerChild的父级
object ParentalActor {
case class SendToSupervisor(msg: InnerChild.TestMessage)
case class SendToInnerChild(msg: InnerChild.TestMessage)
case class SendToChildSelection(msg: InnerChild.TestMessage)
def props = Props[ParentalActor]
}
class ParentalActor extends Actor with ActorLogging {
import ParentalActor._
//在这里构建子级Actor supervisor
val supervisor = context.actorOf(Supervisor.props,"supervisor")
supervisor ! BackoffSupervisor.getCurrentChild //要求supervisor返回当前子级Actor
var innerChild: Option[ActorRef] = None //返回的当前子级ActorRef
val selectedChild = context.actorSelection("/user/parent/supervisor/innerChild")
override def receive: Receive = {
case BackoffSupervisor.CurrentChild(ref) => //收到子级Actor信息
innerChild = ref
case SendToSupervisor(msg) => supervisor ! msg
case SendToChildSelection(msg) => selectedChild ! msg
case SendToInnerChild(msg) => innerChild foreach(child => child ! msg)
} }
object BackoffSupervisorDemo extends App {
import ParentalActor._
val testSystem = ActorSystem("testSystem")
val parent = testSystem.actorOf(ParentalActor.props,"parent") Thread.sleep() //wait for BackoffSupervisor.CurrentChild(ref) received parent ! SendToSupervisor(TestMessage("Hello message 1 to supervisor"))
parent ! SendToInnerChild(TestMessage("Hello message 2 to innerChild"))
parent ! SendToChildSelection(TestMessage("Hello message 3 to selectedChild")) scala.io.StdIn.readLine() testSystem.terminate() }

在上面的例子里我们分别向supervisor,innerChild,selectedChild发送消息。但所有消息都是由InnerChild响应的,如下:

[INFO] [// ::48.167] [testSystem-akka.actor.default-dispatcher-] [akka://testSystem/user/parent/supervisor/innerChild] Child received message: Hello message 1 to supervisor
[INFO] [// ::48.177] [testSystem-akka.actor.default-dispatcher-] [akka://testSystem/user/parent/supervisor/innerChild] Child received message: Hello message 2 to innerChild
[INFO] [// ::48.179] [testSystem-akka.actor.default-dispatcher-] [akka://testSystem/user/parent/supervisor/innerChild] Child received message: Hello message 3 to selectedChild

上面我们向supervisor发送了一个BackoffSupervisor.GetCurrentChild消息用来获取子级Actor。BackoffSupervisor是这样处理下面几个特殊消息的:

private[akka] trait HandleBackoff { this: Actor ⇒
def childProps: Props
def childName: String
def reset: BackoffReset var child: Option[ActorRef] = None
var restartCount = import BackoffSupervisor._
import context.dispatcher override def preStart(): Unit = startChild() def startChild(): Unit = {
if (child.isEmpty) {
child = Some(context.watch(context.actorOf(childProps, childName)))
}
} def handleBackoff: Receive = {
case StartChild ⇒
startChild()
reset match {
case AutoReset(resetBackoff) ⇒
val _ = context.system.scheduler.scheduleOnce(resetBackoff, self, ResetRestartCount(restartCount))
case _ ⇒ // ignore
} case Reset ⇒
reset match {
case ManualReset ⇒ restartCount =
case msg ⇒ unhandled(msg)
} case ResetRestartCount(current) ⇒
if (current == restartCount) {
restartCount =
} case GetRestartCount ⇒
sender() ! RestartCount(restartCount) case GetCurrentChild ⇒
sender() ! CurrentChild(child) case msg if child.contains(sender()) ⇒
// use the BackoffSupervisor as sender
context.parent ! msg case msg ⇒ child match {
case Some(c) ⇒ c.forward(msg)
case None ⇒ context.system.deadLetters.forward(msg)
}
}
}

在handleBackoff函数里可以找到这些消息的处理方式。

在构建上面例子里的Supervisor的Props时定义了监管策略(SupervisorStrategy)对InnerChild产生的异常ChildException进行Restart处理。我们调整一下InnerChild代码来随机产生一些异常:

object InnerChild {
case class TestMessage(msg: String)
class ChildException(val errmsg: TestMessage) extends Exception
object CException { //for pattern match of class with parameter
def apply(msg: TestMessage) = new ChildException(msg)
def unapply(cex: ChildException) = Some(cex.errmsg)
}
def props = Props[InnerChild]
}
class InnerChild extends Actor with ActorLogging {
import InnerChild._
context.parent ! BackoffSupervisor.Reset //reset backoff counts
override def receive: Receive = {
case TestMessage(msg) => //模拟子级功能
if (Random.nextBoolean()) //任意产生异常
throw new ChildException(TestMessage(msg))
else
log.info(s"Child received message: ${msg}")
}
}

我们用Random.nextBoolean来任意产生一些异常。注意:我们同时把ChildException改成了一个带参数的class,因为我们可能需要在重启之前获取造成异常的消息,如下:

    def decider: PartialFunction[Throwable, SupervisorStrategy.Directive] = {
case InnerChild.CException(tmsg) =>
println(s"Message causing exception: ${tmsg.msg}") //we can extract message here
SupervisorStrategy.Restart
}

所有信息发给supervisor就行了:

class ParentalActor extends Actor with ActorLogging {
import ParentalActor._
//在这里构建子级Actor supervisor
val supervisor = context.actorOf(Supervisor.props,"supervisor")
override def receive: Receive = {
case msg@ _ => supervisor ! msg
} }
object BackoffSupervisorDemo extends App {
import ParentalActor._
import InnerChild._
val testSystem = ActorSystem("testSystem")
val parent = testSystem.actorOf(ParentalActor.props,"parent") parent ! TestMessage("Hello message 1 to supervisor")
parent ! TestMessage("Hello message 2 to supervisor")
parent ! TestMessage("Hello message 3 to supervisor")
parent ! TestMessage("Hello message 4 to supervisor")
parent ! TestMessage("Hello message 5 to supervisor")
parent ! TestMessage("Hello message 6 to supervisor") scala.io.StdIn.readLine() testSystem.terminate() }

运行后发现在出现异常后所有消息都变成了DeadLetter:

[INFO] [// ::11.689] [testSystem-akka.actor.default-dispatcher-] [akka://testSystem/user/parent/supervisor/innerChild] Message [backoffSupervisorDemo.InnerChild$TestMessage] from Actor[akka://testSystem/user/parent#2140150413] to Actor[akka://testSystem/user/parent/supervisor/innerChild#-1047097634] was not delivered. [1] dead letters encountered. This logging can be turned off or adjusted with configuration settings 'akka.log-dead-letters' and 'akka.log-dead-letters-during-shutdown'.
....

这也证明了BackoffSupervisor具有不同的Restart处理方式,好像是直接终止InnerChild而非正常的挂起,销毁了ActorRef和邮箱,所以在完成启动之前发给InnerChild的消息都被导入DeadLetter队列了。也就是说不但错过造成异常的消息,而是跳过了下面启动时间段内所有的消息。

下面我们来解决失踪消息的问题:首先是如何重新发送造成异常的消息,我们可以在监管策略中重启前发送:

    def decider: PartialFunction[Throwable, SupervisorStrategy.Directive] = {
case InnerChild.CException(tmsg) =>
println(s"Message causing exception: ${tmsg.msg}") //we can extract message here
BackoffSupervisorDemo.sendToParent(tmsg) //resend message
SupervisorStrategy.Restart
}

在BackoffSupervisorDemo里先声明sendToParent函数:

  def sendToParent(msg: TestMessage) = parent ! msg

然后再想办法把DeadLetter捞出来。我们可以用Akka的eventStream来订阅DeadLetter类型消息:

object DeadLetterMonitor {
def props(parentRef: ActorRef) = Props(new DeadLetterMonitor(parentRef))
}
class DeadLetterMonitor(receiver: ActorRef) extends Actor with ActorLogging {
import InnerChild._
import context.dispatcher
override def receive: Receive = {
case DeadLetter(msg,sender,_) =>
//wait till InnerChild finishes restart then resend
context.system.scheduler.scheduleOnce( second,receiver,msg.asInstanceOf[TestMessage])
}
}
object BackoffSupervisorDemo extends App {
import ParentalActor._
import InnerChild._ def sendToParent(msg: TestMessage) = parent ! msg val testSystem = ActorSystem("testSystem")
val parent = testSystem.actorOf(ParentalActor.props,"parent") val deadLetterMonitor = testSystem.actorOf(DeadLetterMonitor.props(parent),"dlmonitor")
testSystem.eventStream.subscribe(deadLetterMonitor,classOf[DeadLetter]) //listen to DeadLetter parent ! TestMessage("Hello message 1 to supervisor")
parent ! TestMessage("Hello message 2 to supervisor")
parent ! TestMessage("Hello message 3 to supervisor")
parent ! TestMessage("Hello message 4 to supervisor")
parent ! TestMessage("Hello message 5 to supervisor")
parent ! TestMessage("Hello message 6 to supervisor") scala.io.StdIn.readLine() testSystem.terminate() }

试运算后显示InnerChild成功处理了所有6条消息。

下面是本次讨论的完整示范代码:

package backoffSupervisorDemo
import akka.actor._
import akka.pattern._
import scala.util.Random import scala.concurrent.duration._ object InnerChild {
case class TestMessage(msg: String)
class ChildException(val errmsg: TestMessage) extends Exception
object CException { //for pattern match of class with parameter
def apply(msg: TestMessage) = new ChildException(msg)
def unapply(cex: ChildException) = Some(cex.errmsg)
}
def props = Props[InnerChild]
}
class InnerChild extends Actor with ActorLogging {
import InnerChild._
context.parent ! BackoffSupervisor.Reset //reset backoff counts
override def receive: Receive = {
case TestMessage(msg) => //模拟子级功能
if (Random.nextBoolean()) //任意产生异常
throw new ChildException(TestMessage(msg))
else
log.info(s"Child received message: ${msg}")
}
}
object Supervisor {
def props: Props = { //在这里定义了监管策略和child Actor构建
def decider: PartialFunction[Throwable, SupervisorStrategy.Directive] = {
case InnerChild.CException(tmsg) =>
println(s"Message causing exception: ${tmsg.msg}") //we can extract message here
BackoffSupervisorDemo.sendToParent(tmsg) //resend message
SupervisorStrategy.Restart
} val options = Backoff.onFailure(InnerChild.props, "innerChild", second, seconds, 0.0)
.withManualReset
.withSupervisorStrategy(
OneForOneStrategy(maxNrOfRetries = , withinTimeRange = seconds)(
decider.orElse(SupervisorStrategy.defaultDecider)
)
)
BackoffSupervisor.props(options)
}
}
//注意:下面是Supervisor的父级,不是InnerChild的父级
object ParentalActor {
case class SendToSupervisor(msg: InnerChild.TestMessage)
case class SendToInnerChild(msg: InnerChild.TestMessage)
case class SendToChildSelection(msg: InnerChild.TestMessage)
def props = Props[ParentalActor]
}
class ParentalActor extends Actor with ActorLogging {
import ParentalActor._
//在这里构建子级Actor supervisor
val supervisor = context.actorOf(Supervisor.props,"supervisor")
override def receive: Receive = {
case msg@ _ => supervisor ! msg
} }
object DeadLetterMonitor {
def props(parentRef: ActorRef) = Props(new DeadLetterMonitor(parentRef))
}
class DeadLetterMonitor(receiver: ActorRef) extends Actor with ActorLogging {
import InnerChild._
import context.dispatcher
override def receive: Receive = {
case DeadLetter(msg,sender,_) =>
//wait till InnerChild finishes restart then resend
context.system.scheduler.scheduleOnce( second,receiver,msg.asInstanceOf[TestMessage])
}
}
object BackoffSupervisorDemo extends App {
import ParentalActor._
import InnerChild._ def sendToParent(msg: TestMessage) = parent ! msg val testSystem = ActorSystem("testSystem")
val parent = testSystem.actorOf(ParentalActor.props,"parent") val deadLetterMonitor = testSystem.actorOf(DeadLetterMonitor.props(parent),"dlmonitor")
testSystem.eventStream.subscribe(deadLetterMonitor,classOf[DeadLetter]) //listen to DeadLetter parent ! TestMessage("Hello message 1 to supervisor")
parent ! TestMessage("Hello message 2 to supervisor")
parent ! TestMessage("Hello message 3 to supervisor")
parent ! TestMessage("Hello message 4 to supervisor")
parent ! TestMessage("Hello message 5 to supervisor")
parent ! TestMessage("Hello message 6 to supervisor") scala.io.StdIn.readLine() testSystem.terminate() }
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