Spark Streaming Backpressure分析

 

1、为什么引入Backpressure

                默认情况下,Spark Streaming通过Receiver以生产者生产数据的速率接收数据,计算过程中会出现batch processing time > batch interval的情况,其中batch processing time 为实际计算一个批次花费时间, batch intervalStreaming应用设置的批处理间隔。这意味着Spark Streaming的数据接收速率高于Spark从队列中移除数据的速率,也就是数据处理能力低,在设置间隔内不能完全处理当前接收速率接收的数据。如果这种情况持续过长的时间,会造成数据在内存中堆积,导致Receiver所在Executor内存溢出等问题(如果设置StorageLevel包含disk, 则内存存放不下的数据会溢写至disk, 加大延迟)。Spark 1.5以前版本,用户如果要限制Receiver的数据接收速率,可以通过设置静态配制参数spark.streaming.receiver.maxRate的值来实现,此举虽然可以通过限制接收速率,来适配当前的处理能力,防止内存溢出,但也会引入其它问题。比如:producer数据生产高于maxRate,当前集群处理能力也高于maxRate,这就会造成资源利用率下降等问题。为了更好的协调数据接收速率与资源处理能力,Spark Streaming v1.5开始引入反压机制(back-pressure,通过动态控制数据接收速率来适配集群数据处理能力。

2Backpressure

                Spark Streaming Backpressure:  根据JobScheduler反馈作业的执行信息来动态调整Receiver数据接收率。通过属性“spark.streaming.backpressure.enabled”来控制是否启用backpressure机制,默认值false,即不启用。

2.1 Streaming架构如下图所示(详见Streaming数据接收过程文档和Streaming 源码解析)

2.2 BackPressure执行过程如下图所示:

  在原架构的基础上加上一个新的组件RateController,这个组件负责监听“OnBatchCompleted”事件,然后从中抽取processingDelay 及schedulingDelay信息.  Estimator依据这些信息估算出最大处理速度(rate),最后由基于Receiver的Input Stream将rate通过ReceiverTracker与ReceiverSupervisorImpl转发给BlockGenerator(继承自RateLimiter).

  

3BackPressure 源码解析

3.1 RateController类体系

                RatenController 继承自StreamingListener. 用于处理BatchCompleted事件。核心代码为:

**
 * A StreamingListener that receives batch completion updates, and maintains
 * an estimate of the speed at which this stream should ingest messages,
 * given an estimate computation from a `RateEstimator`
 */
private[streaming] abstract class RateController(val streamUID: Int, rateEstimator: RateEstimator)
extends StreamingListener with Serializable {
……
……  /**
   * Compute the new rate limit and publish it asynchronously.
   */
  private def computeAndPublish(time: Long, elems: Long, workDelay: Long, waitDelay: Long): Unit =
    Future[Unit] {
      val newRate = rateEstimator.compute(time, elems, workDelay, waitDelay)
      newRate.foreach { s =>
        rateLimit.set(s.toLong)
        publish(getLatestRate())
      }
    }
  def getLatestRate(): Long = rateLimit.get()

  override def onBatchCompleted(batchCompleted: StreamingListenerBatchCompleted) {
    val elements = batchCompleted.batchInfo.streamIdToInputInfo
    for {
      processingEnd <- batchCompleted.batchInfo.processingEndTime
      workDelay <- batchCompleted.batchInfo.processingDelay
      waitDelay <- batchCompleted.batchInfo.schedulingDelay
      elems <- elements.get(streamUID).map(_.numRecords)
    } computeAndPublish(processingEnd, elems, workDelay, waitDelay)
  }
}	

 

3.2 RateController的注册

                JobScheduler启动时会抽取在DStreamGraph中注册的所有InputDstream中的rateController,并向ListenerBus注册监听. 此部分代码如下:

 def start(): Unit = synchronized {
    if (eventLoop != null) return // scheduler has already been started

    logDebug("Starting JobScheduler")
    eventLoop = new EventLoop[JobSchedulerEvent]("JobScheduler") {
      override protected def onReceive(event: JobSchedulerEvent): Unit = processEvent(event)

      override protected def onError(e: Throwable): Unit = reportError("Error in job scheduler", e)
    }
    eventLoop.start()

    // attach rate controllers of input streams to receive batch completion updates
    for {
      inputDStream <- ssc.graph.getInputStreams
      rateController <- inputDStream.rateController
    } ssc.addStreamingListener(rateController)

    listenerBus.start()
    receiverTracker = new ReceiverTracker(ssc)
    inputInfoTracker = new InputInfoTracker(ssc)
    receiverTracker.start()
    jobGenerator.start()
    logInfo("Started JobScheduler")
  }

 

3.3 BackPressure执行过程分析

                BackPressure 执行过程分为BatchCompleted事件触发时机和事件处理两个过程

3.3.1 BatchCompleted触发过程

                对BatchedCompleted的分析,应该从JobGenerator入手,因为BatchedCompleted是批次处理结束的标志,也就是JobGenerator产生的作业执行完成时触发的,因此进行作业执行分析。

                Streaming 应用中JobGenerator每个Batch Interval都会为应用中的每个Output Stream建立一个Job, 该批次中的所有Job组成一个Job Set.使用JobScheduler的submitJobSet进行批量Job提交。此部分代码结构如下所示

  /** Generate jobs and perform checkpoint for the given `time`.  */
  private def generateJobs(time: Time) {
    // Set the SparkEnv in this thread, so that job generation code can access the environment
    // Example: BlockRDDs are created in this thread, and it needs to access BlockManager
    // Update: This is probably redundant after threadlocal stuff in SparkEnv has been removed.
    SparkEnv.set(ssc.env)

    // Checkpoint all RDDs marked for checkpointing to ensure their lineages are
    // truncated periodically. Otherwise, we may run into stack overflows (SPARK-6847).
    ssc.sparkContext.setLocalProperty(RDD.CHECKPOINT_ALL_MARKED_ANCESTORS, "true")
    Try {
      jobScheduler.receiverTracker.allocateBlocksToBatch(time) // allocate received blocks to batch
      graph.generateJobs(time) // generate jobs using allocated block
    } match {
      case Success(jobs) =>
        val streamIdToInputInfos = jobScheduler.inputInfoTracker.getInfo(time)
        jobScheduler.submitJobSet(JobSet(time, jobs, streamIdToInputInfos))
      case Failure(e) =>
        jobScheduler.reportError("Error generating jobs for time " + time, e)
    }
    eventLoop.post(DoCheckpoint(time, clearCheckpointDataLater = false))
  }

 其中,sumitJobSet会创建固定数量的后台线程(具体由“spark.streaming.concurrentJobs”指定),去处理Job Set中的Job. 具体实现逻辑为:

  def submitJobSet(jobSet: JobSet) {
    if (jobSet.jobs.isEmpty) {
      logInfo("No jobs added for time " + jobSet.time)
    } else {
      listenerBus.post(StreamingListenerBatchSubmitted(jobSet.toBatchInfo))
      jobSets.put(jobSet.time, jobSet)
      jobSet.jobs.foreach(job => jobExecutor.execute(new JobHandler(job)))
      logInfo("Added jobs for time " + jobSet.time)
    }
  }

其中JobHandler用于执行Job及处理Job执行结果信息。当Job执行完成时会产生JobCompleted事件. JobHandler的具体逻辑如下面代码所示:

private class JobHandler(job: Job) extends Runnable with Logging {
    import JobScheduler._

    def run() {
      try {
        val formattedTime = UIUtils.formatBatchTime(
          job.time.milliseconds, ssc.graph.batchDuration.milliseconds, showYYYYMMSS = false)
        val batchUrl = s"/streaming/batch/?id=${job.time.milliseconds}"
        val batchLinkText = s"[output operation ${job.outputOpId}, batch time ${formattedTime}]"

        ssc.sc.setJobDescription(
          s"""Streaming job from <a href="$batchUrl">$batchLinkText</a>""")
        ssc.sc.setLocalProperty(BATCH_TIME_PROPERTY_KEY, job.time.milliseconds.toString)
        ssc.sc.setLocalProperty(OUTPUT_OP_ID_PROPERTY_KEY, job.outputOpId.toString)
        // Checkpoint all RDDs marked for checkpointing to ensure their lineages are
        // truncated periodically. Otherwise, we may run into stack overflows (SPARK-6847).
        ssc.sparkContext.setLocalProperty(RDD.CHECKPOINT_ALL_MARKED_ANCESTORS, "true")

        // We need to assign `eventLoop` to a temp variable. Otherwise, because
        // `JobScheduler.stop(false)` may set `eventLoop` to null when this method is running, then
        // it's possible that when `post` is called, `eventLoop` happens to null.
        var _eventLoop = eventLoop
        if (_eventLoop != null) {
          _eventLoop.post(JobStarted(job, clock.getTimeMillis()))
          // Disable checks for existing output directories in jobs launched by the streaming
          // scheduler, since we may need to write output to an existing directory during checkpoint
          // recovery; see SPARK-4835 for more details.
          PairRDDFunctions.disableOutputSpecValidation.withValue(true) {
            job.run()
          }
          _eventLoop = eventLoop
          if (_eventLoop != null) {
            _eventLoop.post(JobCompleted(job, clock.getTimeMillis()))
          }
        } else {
          // JobScheduler has been stopped.
        }
      } finally {
        ssc.sc.setLocalProperty(JobScheduler.BATCH_TIME_PROPERTY_KEY, null)
        ssc.sc.setLocalProperty(JobScheduler.OUTPUT_OP_ID_PROPERTY_KEY, null)
      }
    }
  }
}

  当Job执行完成时,向eventLoop发送JobCompleted事件。EventLoop事件处理器接到JobCompleted事件后将调用handleJobCompletion 来处理Job完成事件。handleJobCompletion使用Job执行信息创建StreamingListenerBatchCompleted事件并通过StreamingListenerBus向监听器发送。实现如下:

 private def handleJobCompletion(job: Job, completedTime: Long) {
    val jobSet = jobSets.get(job.time)
    jobSet.handleJobCompletion(job)
    job.setEndTime(completedTime)
    listenerBus.post(StreamingListenerOutputOperationCompleted(job.toOutputOperationInfo))
    logInfo("Finished job " + job.id + " from job set of time " + jobSet.time)
    if (jobSet.hasCompleted) {
      jobSets.remove(jobSet.time)
      jobGenerator.onBatchCompletion(jobSet.time)
      logInfo("Total delay: %.3f s for time %s (execution: %.3f s)".format(
        jobSet.totalDelay / 1000.0, jobSet.time.toString,
        jobSet.processingDelay / 1000.0
      ))
      listenerBus.post(StreamingListenerBatchCompleted(jobSet.toBatchInfo))
    }
    job.result match {
      case Failure(e) =>
        reportError("Error running job " + job, e)
      case _ =>
    }
  }

 

3.3.2、BatchCompleted事件处理过程

                StreamingListenerBus将事件转交给具体的StreamingListener,因此BatchCompleted将交由RateController进行处理。RateController接到BatchCompleted事件后将调用onBatchCompleted对事件进行处理。

  override def onBatchCompleted(batchCompleted: StreamingListenerBatchCompleted) {
    val elements = batchCompleted.batchInfo.streamIdToInputInfo

    for {
      processingEnd <- batchCompleted.batchInfo.processingEndTime
      workDelay <- batchCompleted.batchInfo.processingDelay
      waitDelay <- batchCompleted.batchInfo.schedulingDelay
      elems <- elements.get(streamUID).map(_.numRecords)
    } computeAndPublish(processingEnd, elems, workDelay, waitDelay)
  }

  onBatchCompleted会从完成的任务中抽取任务的执行延迟和调度延迟,然后用这两个参数用RateEstimator(目前存在唯一实现PIDRateEstimator,proportional-integral-derivative (PID) controller, PID控制器)估算出新的rate并发布。代码如下:

  /**
   * Compute the new rate limit and publish it asynchronously.
   */
  private def computeAndPublish(time: Long, elems: Long, workDelay: Long, waitDelay: Long): Unit =
    Future[Unit] {
      val newRate = rateEstimator.compute(time, elems, workDelay, waitDelay)
      newRate.foreach { s =>
        rateLimit.set(s.toLong)
        publish(getLatestRate())
      }
    }

其中publish()由RateController的子类ReceiverRateController来定义。具体逻辑如下(ReceiverInputDStream中定义):

 

  /**
   * A RateController that sends the new rate to receivers, via the receiver tracker.
   */
  private[streaming] class ReceiverRateController(id: Int, estimator: RateEstimator)
      extends RateController(id, estimator) {
    override def publish(rate: Long): Unit =
      ssc.scheduler.receiverTracker.sendRateUpdate(id, rate)
  }

publish的功能为新生成的rate 借助ReceiverTracker进行转发。ReceiverTracker将rate包装成UpdateReceiverRateLimit事交ReceiverTrackerEndpoint

  /** Update a receiver's maximum ingestion rate */
  def sendRateUpdate(streamUID: Int, newRate: Long): Unit = synchronized {
    if (isTrackerStarted) {
      endpoint.send(UpdateReceiverRateLimit(streamUID, newRate))
    }
  }

ReceiverTrackerEndpoint接到消息后,其将会从receiverTrackingInfos列表中获取Receiver注册时使用的endpoint(实为ReceiverSupervisorImpl),再将rate包装成UpdateLimit发送至endpoint.其接到信息后,使用updateRate更新BlockGenerators(RateLimiter子类),来计算出一个固定的令牌间隔。

  /** RpcEndpointRef for receiving messages from the ReceiverTracker in the driver */
  private val endpoint = env.rpcEnv.setupEndpoint(
    "Receiver-" + streamId + "-" + System.currentTimeMillis(), new ThreadSafeRpcEndpoint {
      override val rpcEnv: RpcEnv = env.rpcEnv

      override def receive: PartialFunction[Any, Unit] = {
        case StopReceiver =>
          logInfo("Received stop signal")
          ReceiverSupervisorImpl.this.stop("Stopped by driver", None)
        case CleanupOldBlocks(threshTime) =>
          logDebug("Received delete old batch signal")
          cleanupOldBlocks(threshTime)
        case UpdateRateLimit(eps) =>
          logInfo(s"Received a new rate limit: $eps.")
          registeredBlockGenerators.asScala.foreach { bg =>
            bg.updateRate(eps)
          }
      }
    })

其中RateLimiter的updateRate实现如下:

 /**
   * Set the rate limit to `newRate`. The new rate will not exceed the maximum rate configured by
   * {{{spark.streaming.receiver.maxRate}}}, even if `newRate` is higher than that.
   *
   * @param newRate A new rate in events per second. It has no effect if it's 0 or negative.
   */
  private[receiver] def updateRate(newRate: Long): Unit =
    if (newRate > 0) {
      if (maxRateLimit > 0) {
        rateLimiter.setRate(newRate.min(maxRateLimit))
      } else {
        rateLimiter.setRate(newRate)
      }
    }

 setRate的实现 如下:

public final void setRate(double permitsPerSecond) {
    Preconditions.checkArgument(permitsPerSecond > 0.0
        && !Double.isNaN(permitsPerSecond), "rate must be positive");
    synchronized (mutex) {
      resync(readSafeMicros());
      double stableIntervalMicros = TimeUnit.SECONDS.toMicros(1L) / permitsPerSecond;  //固定间隔
      this.stableIntervalMicros = stableIntervalMicros;
      doSetRate(permitsPerSecond, stableIntervalMicros);
    }
  }

到此,backpressure反压机制调整rate结束。

 

4.流量控制点

  当Receiver开始接收数据时,会通过supervisor.pushSingle()方法将接收的数据存入currentBuffer等待BlockGenerator定时将数据取走,包装成block. 在将数据存放入currentBuffer之时,要获取许可(令牌)。如果获取到许可就可以将数据存入buffer, 否则将被阻塞,进而阻塞Receiver从数据源拉取数据。

  /**
   * Push a single data item into the buffer.
   */
  def addData(data: Any): Unit = {
    if (state == Active) {
      waitToPush()  //获取令牌
      synchronized {
        if (state == Active) {
          currentBuffer += data
        } else {
          throw new SparkException(
            "Cannot add data as BlockGenerator has not been started or has been stopped")
        }
      }
    } else {
      throw new SparkException(
        "Cannot add data as BlockGenerator has not been started or has been stopped")
    }
  }

 

      其令牌投放采用令牌桶机制进行, 原理如下图所示:

  令牌桶机制: 大小固定的令牌桶可自行以恒定的速率源源不断地产生令牌。如果令牌不被消耗,或者被消耗的速度小于产生的速度,令牌就会不断地增多,直到把桶填满。后面再产生的令牌就会从桶中溢出。最后桶中可以保存的最大令牌数永远不会超过桶的大小。当进行某操作时需要令牌时会从令牌桶中取出相应的令牌数,如果获取到则继续操作,否则阻塞。用完之后不用放回。

  Streaming 数据流被Receiver接收后,按行解析后存入iterator中。然后逐个存入Buffer,在存入buffer时会先获取token,如果没有token存在,则阻塞;如果获取到则将数据存入buffer.  然后等价后续生成block操作。

 

转载请注明:http://www.cnblogs.com/barrenlake/p/5349949.html

 

posted on 2016-04-03 15:39  barrenlake  阅读(6351)  评论(1编辑  收藏  举报