/** * Copyright (C) 2009-2011 Scalable Solutions AB */ package akka.dispatch import akka.actor.{ActorRef, IllegalActorStateException, EventHandler} import akka.util.{ReflectiveAccess, Switch} import java.util.Queue import java.util.concurrent.atomic.AtomicReference import java.util.concurrent.{ TimeUnit, ExecutorService, RejectedExecutionException, ConcurrentLinkedQueue, LinkedBlockingQueue} /** * Default settings are: * 
 *   - withNewThreadPoolWithLinkedBlockingQueueWithUnboundedCapacity
 *   - NR_START_THREADS = 16
 *   - NR_MAX_THREADS = 128
 *   - KEEP_ALIVE_TIME = 60000L // one minute
 *
*

* * The dispatcher has a fluent builder interface to build up a thread pool to suite your use-case. * There is a default thread pool defined but make use of the builder if you need it. Here are some examples. *

* * Scala API. *

* Example usage: * 

 *   val dispatcher = new ExecutorBasedEventDrivenDispatcher("name")
 *   dispatcher
 *     .withNewThreadPoolWithBoundedBlockingQueue(100)
 *     .setCorePoolSize(16)
 *     .setMaxPoolSize(128)
 *     .setKeepAliveTimeInMillis(60000)
 *     .setRejectionPolicy(new CallerRunsPolicy)
 *     .buildThreadPool
 *
*

* * Java API. *

* Example usage: * 

 *   ExecutorBasedEventDrivenDispatcher dispatcher = new ExecutorBasedEventDrivenDispatcher("name");
 *   dispatcher
 *     .withNewThreadPoolWithBoundedBlockingQueue(100)
 *     .setCorePoolSize(16)
 *     .setMaxPoolSize(128)
 *     .setKeepAliveTimeInMillis(60000)
 *     .setRejectionPolicy(new CallerRunsPolicy())
 *     .buildThreadPool();
 *
*

* * But the preferred way of creating dispatchers is to use * the {@link akka.dispatch.Dispatchers} factory object. * * @author Jonas Bonér * @param throughput positive integer indicates the dispatcher will only process so much messages at a time from the * mailbox, without checking the mailboxes of other actors. Zero or negative means the dispatcher * always continues until the mailbox is empty. * Larger values (or zero or negative) increase througput, smaller values increase fairness */ class ExecutorBasedEventDrivenDispatcher( _name: String, val throughput: Int = Dispatchers.THROUGHPUT, val throughputDeadlineTime: Int = Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, val mailboxType: MailboxType = Dispatchers.MAILBOX_TYPE, val config: ThreadPoolConfig = ThreadPoolConfig()) extends MessageDispatcher { def this(_name: String, throughput: Int, throughputDeadlineTime: Int, mailboxType: MailboxType) = this(_name, throughput, throughputDeadlineTime, mailboxType,ThreadPoolConfig()) // Needed for Java API usage def this(_name: String, throughput: Int, mailboxType: MailboxType) = this(_name, throughput, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, mailboxType) // Needed for Java API usage def this(_name: String, throughput: Int) = this(_name, throughput, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, Dispatchers.MAILBOX_TYPE) // Needed for Java API usage def this(_name: String, _config: ThreadPoolConfig) = this(_name, Dispatchers.THROUGHPUT, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, Dispatchers.MAILBOX_TYPE, _config) def this(_name: String) = this(_name, Dispatchers.THROUGHPUT, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, Dispatchers.MAILBOX_TYPE) // Needed for Java API usage val name = "akka:event-driven:dispatcher:" + _name private[akka] val threadFactory = new MonitorableThreadFactory(name) private[akka] val executorService = new AtomicReference[ExecutorService](config.createLazyExecutorService(threadFactory)) private[akka] def dispatch(invocation: MessageInvocation) = { val mbox = getMailbox(invocation.receiver) mbox enqueue invocation registerForExecution(mbox) } private[akka] def executeFuture(invocation: FutureInvocation): Unit = if (active.isOn) { try executorService.get() execute invocation catch { case e: RejectedExecutionException => EventHandler notifyListeners EventHandler.Warning(this, e.toString) throw e } } /** * @return the mailbox associated with the actor */ protected def getMailbox(receiver: ActorRef) = receiver.mailbox.asInstanceOf[MessageQueue with ExecutableMailbox] override def mailboxSize(actorRef: ActorRef) = getMailbox(actorRef).size def createMailbox(actorRef: ActorRef): AnyRef = mailboxType match { case UnboundedMailbox(blocking) => new DefaultUnboundedMessageQueue(blocking) with ExecutableMailbox { def dispatcher = ExecutorBasedEventDrivenDispatcher.this } case BoundedMailbox(blocking, capacity, pushTimeOut) => new DefaultBoundedMessageQueue(capacity, pushTimeOut, blocking) with ExecutableMailbox { def dispatcher = ExecutorBasedEventDrivenDispatcher.this } } private[akka] def start {} private[akka] def shutdown { val old = executorService.getAndSet(config.createLazyExecutorService(threadFactory)) if (old ne null) { old.shutdownNow() } } private[akka] def registerForExecution(mbox: MessageQueue with ExecutableMailbox): Unit = { if (mbox.dispatcherLock.tryLock()) { if (active.isOn && !mbox.suspended.locked) { //If the dispatcher is active and the actor not suspended try { executorService.get() execute mbox } catch { case e: RejectedExecutionException => EventHandler notifyListeners EventHandler.Warning(this, e.toString) mbox.dispatcherLock.unlock() throw e } } else { mbox.dispatcherLock.unlock() //If the dispatcher isn't active or if the actor is suspended, unlock the dispatcher lock } } } private[akka] def reRegisterForExecution(mbox: MessageQueue with ExecutableMailbox): Unit = registerForExecution(mbox) override val toString = getClass.getSimpleName + "[" + name + "]" def suspend(actorRef: ActorRef) { getMailbox(actorRef).suspended.tryLock } def resume(actorRef: ActorRef) { val mbox = getMailbox(actorRef) mbox.suspended.tryUnlock reRegisterForExecution(mbox) } } /** * This is the behavior of an ExecutorBasedEventDrivenDispatchers mailbox. */ trait ExecutableMailbox extends Runnable { self: MessageQueue => def dispatcher: ExecutorBasedEventDrivenDispatcher final def run = { try { processMailbox() } catch { case ie: InterruptedException => } finally { dispatcherLock.unlock() } if (!self.isEmpty) dispatcher.reRegisterForExecution(this) } /** * Process the messages in the mailbox * * @return true if the processing finished before the mailbox was empty, due to the throughput constraint */ final def processMailbox() { if (!self.suspended.locked) { var nextMessage = self.dequeue if (nextMessage ne null) { //If we have a message if (dispatcher.throughput <= 1) //If we only run one message per process nextMessage.invoke //Just run it else { //But otherwise, if we are throttled, we need to do some book-keeping var processedMessages = 0 val isDeadlineEnabled = dispatcher.throughputDeadlineTime > 0 val deadlineNs = if (isDeadlineEnabled) System.nanoTime + TimeUnit.MILLISECONDS.toNanos(dispatcher.throughputDeadlineTime) else 0 do { nextMessage.invoke nextMessage = if (self.suspended.locked) { null //If we are suspended, abort } else { //If we aren't suspended, we need to make sure we're not overstepping our boundaries processedMessages += 1 if ((processedMessages >= dispatcher.throughput) || (isDeadlineEnabled && System.nanoTime >= deadlineNs)) // If we're throttled, break out null //We reached our boundaries, abort else self.dequeue //Dequeue the next message } } while (nextMessage ne null) } } } } } /** * A version of ExecutorBasedEventDrivenDispatcher that gives all actors registered to it a priority mailbox, * prioritized according to the supplied comparator. */ class PriorityExecutorBasedEventDrivenDispatcher( name: String, val comparator: java.util.Comparator[MessageInvocation], throughput: Int = Dispatchers.THROUGHPUT, throughputDeadlineTime: Int = Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, mailboxType: MailboxType = Dispatchers.MAILBOX_TYPE, config: ThreadPoolConfig = ThreadPoolConfig() ) extends ExecutorBasedEventDrivenDispatcher(name, throughput, throughputDeadlineTime, mailboxType, config) with PriorityMailbox { def this(name: String, comparator: java.util.Comparator[MessageInvocation], throughput: Int, throughputDeadlineTime: Int, mailboxType: UnboundedMailbox) = this(name, comparator, throughput, throughputDeadlineTime, mailboxType,ThreadPoolConfig()) // Needed for Java API usage def this(name: String, comparator: java.util.Comparator[MessageInvocation], throughput: Int, mailboxType: UnboundedMailbox) = this(name, comparator, throughput, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, mailboxType) // Needed for Java API usage def this(name: String, comparator: java.util.Comparator[MessageInvocation], throughput: Int) = this(name, comparator, throughput, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, Dispatchers.MAILBOX_TYPE) // Needed for Java API usage def this(name: String, comparator: java.util.Comparator[MessageInvocation], config: ThreadPoolConfig) = this(name, comparator, Dispatchers.THROUGHPUT, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, Dispatchers.MAILBOX_TYPE, config) def this(name: String, comparator: java.util.Comparator[MessageInvocation]) = this(name, comparator, Dispatchers.THROUGHPUT, Dispatchers.THROUGHPUT_DEADLINE_TIME_MILLIS, Dispatchers.MAILBOX_TYPE) // Needed for Java API usage } trait PriorityMailbox { self: ExecutorBasedEventDrivenDispatcher => def comparator: java.util.Comparator[MessageInvocation] override def createMailbox(actorRef: ActorRef): AnyRef = self.mailboxType match { case UnboundedMailbox(blocking) => new UnboundedPriorityMessageQueue(blocking, comparator) with ExecutableMailbox { def dispatcher = self } case BoundedMailbox(blocking, capacity, pushTimeOut) => new BoundedPriorityMessageQueue(capacity, pushTimeOut, blocking, comparator) with ExecutableMailbox { def dispatcher = self } } }