上篇我们讨论了Akka-Remoting。我们说Akka-Remoting是一种点对点的通讯方式,能使两个不同JVM上Akka-ActorSystem上的两个Actor之间可以相互沟通。Akka-Remoting还没有实现完全的Actor位置透明(location transparency),因为一个Actor还必须在获得对方Actor确切地址信息后才能启动与之沟通过程。Akka-Remoting支持“远程查找”和“远程构建”两种沟通方式。由于篇幅所限,我们只介绍了“远程查找”。在这一篇里我们将会讨论“远程构建”方式。
同样,我们先通过项目结构来分析:
lazy val local = (project in file("."))
.settings(commonSettings)
.settings(
name := "remoteCreateDemo"
).aggregate(calculator,remote).dependsOn(calculator)
lazy val calculator = (project in file("calculator"))
.settings(commonSettings)
.settings(
name := "calculator"
)
lazy val remote = (project in file("remote"))
.settings(commonSettings)
.settings(
name := "remoteSystem"
).aggregate(calculator).dependsOn(calculator)
远程构建的过程大致是这样的:由local通知remote启动构建Actor;remote从本地库中查找Actor的类定义(class)并把它载入内存。由于驱动、使用远程Actor是在local进行的,所以local,remote项目还必须共享Calculator,包括Calculator的功能消息。这项要求我们在.sbt中用aggregate(calculator)来协同编译。
我们把Calculator的监管supervisor也包括在这个源码文件里。现在这个calculator是个包括监管、功能、消息的完整项目了。Calculator源代码如下:
package remoteCreation.calculator import akka.actor._
import scala.concurrent.duration._ object Calcultor {
sealed trait MathOps
case class Num(dnum: Double) extends MathOps
case class Add(dnum: Double) extends MathOps
case class Sub(dnum: Double) extends MathOps
case class Mul(dnum: Double) extends MathOps
case class Div(dnum: Double) extends MathOps sealed trait CalcOps
case object Clear extends CalcOps
case object GetResult extends CalcOps def props = Props(new Calcultor)
def supervisorProps = Props(new SupervisorActor)
} class Calcultor extends Actor with ActorLogging {
import Calcultor._ var result: Double = 0.0 //internal state override def receive: Receive = {
case Num(d) => result = d
case Add(d) => result += d
case Sub(d) => result -= d
case Mul(d) => result *= d
case Div(d) =>
val _ = result.toInt / d.toInt //yield ArithmeticException
result /= d
case Clear => result = 0.0
case GetResult =>
sender() ! s"Result of calculation is: $result"
} override def preRestart(reason: Throwable, message: Option[Any]): Unit = {
log.info(s"Restarting calculator: ${reason.getMessage}")
super.preRestart(reason, message)
}
} class SupervisorActor extends Actor {
def decider: PartialFunction[Throwable,SupervisorStrategy.Directive] = {
case _: ArithmeticException => SupervisorStrategy.Resume
} override def supervisorStrategy: SupervisorStrategy =
OneForOneStrategy(maxNrOfRetries = , withinTimeRange = seconds){
decider.orElse(SupervisorStrategy.defaultDecider)
} val calcActor = context.actorOf(Calcultor.props,"calculator") override def receive: Receive = {
case msg@ _ => calcActor.forward(msg)
} }
与上一个例子的”远程查找式“相同,remote需要为Remoting公开一个端口。我们可以照搬.conf配置文件内容:remote/src/main/resources/application.conf
akka {
actor {
provider = remote
}
remote {
enabled-transports = ["akka.remote.netty.tcp"]
netty.tcp {
hostname = "127.0.0.1"
port =
}
log-sent-messages = on
log-received-messages = on
}
}
由于远程构建和使用是在local上进行的,在remote上我们只需要启动ActorSystem就行了:
import com.typesafe.config.ConfigFactory
import akka.actor._ object CalculatorRunner extends App {
val remoteSystem = ActorSystem("remoteSystem",ConfigFactory.load("application"))
println("Remote system started.") scala.io.StdIn.readLine()
remoteSystem.terminate() }
Calculator的构建是在localSystem上启动的,我们需要在配置文件中描述远程构建标的(还是未能实现位置透明):local/src/main/resources/application.conf
akka {
actor {
provider = remote,
deployment {
"/calculator" {
remote = "akka.tcp://remoteSystem@127.0.0.1:2552"
}
}
}
remote {
netty.tcp {
hostname = "127.0.0.1",
port=
}
}
}
注意:上面这个/calculator设置实际上指的是SupervisorActor。
现在我们可以在local上开始构建calculator,然后使用它来运算了:
import akka.actor._
import remoteCreation.calculator.Calcultor._
import scala.concurrent.duration._
import akka.pattern._ object RemotingCreate extends App {
val localSystem = ActorSystem("localSystem")
val calcActor = localSystem.actorOf(props,
name = "calculator") //created SupervisorActor import localSystem.dispatcher calcActor ! Clear
calcActor ! Num(13.0)
calcActor ! Mul(1.5) implicit val timeout = akka.util.Timeout( second) ((calcActor ? GetResult).mapTo[String]) foreach println
scala.io.StdIn.readLine() calcActor ! Div(0.0)
calcActor ! Div(1.5)
calcActor ! Add(100.0)
((calcActor ? GetResult).mapTo[String]) foreach println scala.io.StdIn.readLine()
localSystem.terminate() }
从代码上看构建calculator(SupervisorActor)过程与普通的Actor构建没分别,所有细节都放在配置文件里了。但是,要注意actorOf的name必须与配置文档中的设置匹配。
试运行结果与上一个例子相同。值得注意的是实际远程构建的是一个SupervisorActor。Calculator的构建是SupervisorActor构建的其中一部分。从运算结果看:这个SupervisorActor也实现了它的功能。
下面是这次示范的源代码:
local/build.sbt
azy val commonSettings = seq (
name := "RemoteCreateDemo",
version := "1.0",
scalaVersion := "2.11.8",
libraryDependencies := Seq(
"com.typesafe.akka" %% "akka-actor" % "2.5.2",
"com.typesafe.akka" %% "akka-remote" % "2.5.2"
)
) lazy val local = (project in file("."))
.settings(commonSettings)
.settings(
name := "remoteCreateDemo"
).aggregate(calculator).dependsOn(calculator) lazy val calculator = (project in file("calculator"))
.settings(commonSettings)
.settings(
name := "calculator"
) lazy val remote = (project in file("remote"))
.settings(commonSettings)
.settings(
name := "remoteSystem"
).aggregate(calculator).dependsOn(calculator)
calculator/calculator.scala
package remoteCreation.calculator import akka.actor._
import scala.concurrent.duration._ object Calcultor {
sealed trait MathOps
case class Num(dnum: Double) extends MathOps
case class Add(dnum: Double) extends MathOps
case class Sub(dnum: Double) extends MathOps
case class Mul(dnum: Double) extends MathOps
case class Div(dnum: Double) extends MathOps sealed trait CalcOps
case object Clear extends CalcOps
case object GetResult extends CalcOps def props = Props(new Calcultor)
def supervisorProps = Props(new SupervisorActor)
} class Calcultor extends Actor with ActorLogging {
import Calcultor._ var result: Double = 0.0 //internal state override def receive: Receive = {
case Num(d) => result = d
case Add(d) => result += d
case Sub(d) => result -= d
case Mul(d) => result *= d
case Div(d) =>
val _ = result.toInt / d.toInt //yield ArithmeticException
result /= d
case Clear => result = 0.0
case GetResult =>
sender() ! s"Result of calculation is: $result"
} override def preRestart(reason: Throwable, message: Option[Any]): Unit = {
log.info(s"Restarting calculator: ${reason.getMessage}")
super.preRestart(reason, message)
}
} class SupervisorActor extends Actor {
def decider: PartialFunction[Throwable,SupervisorStrategy.Directive] = {
case _: ArithmeticException => SupervisorStrategy.Resume
} override def supervisorStrategy: SupervisorStrategy =
OneForOneStrategy(maxNrOfRetries = , withinTimeRange = seconds){
decider.orElse(SupervisorStrategy.defaultDecider)
} val calcActor = context.actorOf(Calcultor.props,"calculator") override def receive: Receive = {
case msg@ _ => calcActor.forward(msg)
} }
remote/src/main/resources/application.conf
akka {
actor {
provider = remote
}
remote {
enabled-transports = ["akka.remote.netty.tcp"]
netty.tcp {
hostname = "127.0.0.1"
port =
}
log-sent-messages = on
log-received-messages = on
}
}
remote/CalculatorRunner.scala
package remoteCreation.remote
import com.typesafe.config.ConfigFactory
import akka.actor._ object CalculatorRunner extends App {
val remoteSystem = ActorSystem("remoteSystem",ConfigFactory.load("application"))
println("Remote system started.") scala.io.StdIn.readLine()
remoteSystem.terminate() }
local/src/main/resources/application.conf
akka {
actor {
provider = remote,
deployment {
"/calculator" {
remote = "akka.tcp://remoteSystem@127.0.0.1:2552"
}
}
}
remote {
netty.tcp {
hostname = "127.0.0.1",
port=
}
}
}
local/RemotingCreation.scala
import akka.actor._
import remoteCreation.calculator.Calcultor._
import scala.concurrent.duration._
import akka.pattern._ object RemotingCreate extends App {
val localSystem = ActorSystem("localSystem")
val calcActor = localSystem.actorOf(props,
name = "calculator") //created SupervisorActor import localSystem.dispatcher calcActor ! Clear
calcActor ! Num(13.0)
calcActor ! Mul(1.5) implicit val timeout = akka.util.Timeout( second) ((calcActor ? GetResult).mapTo[String]) foreach println
scala.io.StdIn.readLine() calcActor ! Div(0.0)
calcActor ! Div(1.5)
calcActor ! Add(100.0)
((calcActor ? GetResult).mapTo[String]) foreach println scala.io.StdIn.readLine()
localSystem.terminate() }