16.Spark Streaming源码解读之数据清理机制解析 -

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16.Spark Streaming源码解读之数据清理机制解析

spark Spark Streaming 源码解析 RDD 数据清理

原创文章，转载请注明:转载自听风居士博客(http://zhou-yuefei.iteye.com/)

本期内容：

一、Spark Streaming 数据清理总览

二、Spark Streaming 数据清理过程详解

三、Spark Streaming 数据清理的触发机制

Spark Streaming不像普通Spark 的应用程序，普通Spark程序运行完成后,中间数据会随着SparkContext的关闭而被销毁,而Spark Streaming一直在运行，不断计算，每一秒中在不断运行都会产生大量的中间数据，所以需要对对象及元数据需要定期清理。每个batch duration运行时不断触发job后需要清理rdd和元数据。下面我们就结合源码详细解析一下Spark Streaming程序的数据清理机制。

一、数据清理总览

Spark Streaming 运行过程中,随着时间不断产生Job,当job运行结束后,需要清理相应的数据(RDD,元数据信息,Checkpoint数据),Job由JobGenerator定时产生,数据的清理也是有JobGenerator负责。

JobGenerator负责数据清理控制的代码位于一个消息循环体eventLoop中：

    eventLoop =newEventLoop[JobGeneratorEvent]("JobGenerator"){
      override protected def onReceive(event:JobGeneratorEvent):Unit= processEvent(event)
 
      override protected def onError(e:Throwable):Unit={
        jobScheduler.reportError("Error in job generator", e)
}
}
    eventLoop.start()

其中的核心逻辑位于processEvent(event)函数中:

/** Processes all events */
private def processEvent(event:JobGeneratorEvent){
    logDebug("Got event "+ event)
    event match {
caseGenerateJobs(time)=> generateJobs(time)
caseClearMetadata(time)=> clearMetadata(time)
caseDoCheckpoint(time, clearCheckpointDataLater)=>
        doCheckpoint(time, clearCheckpointDataLater)
caseClearCheckpointData(time)=> clearCheckpointData(time)
}
}

可以看到当JobGenerator收到ClearMetadata(time) 和 ClearCheckpointData(time)是会进行相应的数据清理,其中 clearMetadata(time)会清理RDD数据和一些元数据信息, ClearCheckpointData(time)会清理Checkpoint数据。

二、数据清理过程详解

2.1 ClearMetaData 过程详解

首先看一下clearMetaData函数的处理逻辑：

/** Clear DStream metadata for the given `time`. */
private def clearMetadata(time:Time){
    ssc.graph.clearMetadata(time)
 
// If checkpointing is enabled, then checkpoint,
// else mark batch to be fully processed
if(shouldCheckpoint){
      eventLoop.post(DoCheckpoint(time, clearCheckpointDataLater =true))
}else{
// If checkpointing is not enabled, then delete metadata information about
// received blocks (block data not saved in any case). Otherwise, wait for
// checkpointing of this batch to complete.
      val maxRememberDuration = graph.getMaxInputStreamRememberDuration()
      jobScheduler.receiverTracker.cleanupOldBlocksAndBatches(time - maxRememberDuration)
      jobScheduler.inputInfoTracker.cleanup(time - maxRememberDuration)
      markBatchFullyProcessed(time)
}
}

首先调用了DStreamGraph的clearMetadata方法:

  def clearMetadata(time:Time){
    logDebug("Clearing metadata for time "+ time)
this.synchronized{
      outputStreams.foreach(_.clearMetadata(time))
}
    logDebug("Cleared old metadata for time "+ time)
}

这里调用了所有OutputDStream (关于DStream 的分类请参考http://blog.csdn.net/zhouzx2010/article/details/51460790)的clearMetadata方法

private[streaming] def clearMetadata(time:Time){
    val unpersistData = ssc.conf.getBoolean("spark.streaming.unpersist",true)
     //获取需要清理的RDD
    val oldRDDs = generatedRDDs.filter(_._1 <=(time - rememberDuration))
    logDebug("Clearing references to old RDDs: ["+
      oldRDDs.map(x => s"${x._1} -> ${x._2.id}").mkString(", ")+"]")
 
    //将要清除的RDD从generatedRDDs 中清除 
    generatedRDDs --= oldRDDs.keys
if(unpersistData){
      logDebug(s"Unpersisting old RDDs: ${oldRDDs.values.map(_.id).mkString(",")}")
      oldRDDs.values.foreach { rdd =>
      //将RDD 从persistence列表中移除
        rdd.unpersist(false)
// Explicitly remove blocks of BlockRDD
        rdd match {
case b:BlockRDD[_]=>
            logInfo(s"Removing blocks of RDD $b of time $time")
            //移除RDD的block 数据
            b.removeBlocks()
case _ =>
}
}
}
    logDebug(s"Cleared ${oldRDDs.size} RDDs that were older than "+
      s"${time - rememberDuration}: ${oldRDDs.keys.mkString(",")}")
    //清除依赖的DStream
    dependencies.foreach(_.clearMetadata(time))
}

关键的清理逻辑在代码中做了详细注释,首先清理DStream对应的RDD的元数据信息,然后清理RDD的数据,最后对DStream所依赖的DStream进行清理。

回到JobGenerator的clearMetadata函数：

if(shouldCheckpoint){
      eventLoop.post(DoCheckpoint(time, clearCheckpointDataLater =true))
}else{
// If checkpointing is not enabled, then delete metadata information about
// received blocks (block data not saved in any case). Otherwise, wait for
// checkpointing of this batch to complete.
      val maxRememberDuration = graph.getMaxInputStreamRememberDuration()
      jobScheduler.receiverTracker.cleanupOldBlocksAndBatches(time - maxRememberDuration)
      jobScheduler.inputInfoTracker.cleanup(time - maxRememberDuration)
      markBatchFullyProcessed(time)
}

调用了ReceiverTracker的 cleanupOldBlocksAndBatches方法，最后调用了clearupOldBatches方法：

  def cleanupOldBatches(cleanupThreshTime:Time, waitForCompletion:Boolean):Unit=synchronized{
    require(cleanupThreshTime.milliseconds < clock.getTimeMillis())
    val timesToCleanup = timeToAllocatedBlocks.keys.filter { _ < cleanupThreshTime }.toSeq
    logInfo(s"Deleting batches: ${timesToCleanup.mkString("")}")
if(writeToLog(BatchCleanupEvent(timesToCleanup))){
      //将要删除的Batch数据清除
      timeToAllocatedBlocks --= timesToCleanup
      //清理WAL日志
      writeAheadLogOption.foreach(_.clean(cleanupThreshTime.milliseconds, waitForCompletion))
}else{
      logWarning("Failed to acknowledge batch clean up in the Write Ahead Log.")
}
}

可以看到ReceiverTracker的clearupOldBatches方法清理了Receiver数据,也就是Batch数据和WAL日志数据。

最后对InputInfoTracker信息进行清理：

  def cleanup(batchThreshTime:Time):Unit=synchronized{
    val timesToCleanup = batchTimeToInputInfos.keys.filter(_ < batchThreshTime)
    logInfo(s"remove old batch metadata: ${timesToCleanup.mkString("")}")
    batchTimeToInputInfos --= timesToCleanup
}

这简单的清除了batchTimeToInputInfos 的输入信息。

2.2 ClearCheckPoint 过程详解

看一下clearCheckpointData的处理逻辑:

/** Clear DStream checkpoint data for the given `time`. */
private def clearCheckpointData(time:Time){
    ssc.graph.clearCheckpointData(time)
 
// All the checkpoint information about which batches have been processed, etc have
// been saved to checkpoints, so its safe to delete block metadata and data WAL files
    val maxRememberDuration = graph.getMaxInputStreamRememberDuration()
    jobScheduler.receiverTracker.cleanupOldBlocksAndBatches(time - maxRememberDuration)
    jobScheduler.inputInfoTracker.cleanup(time - maxRememberDuration)
    markBatchFullyProcessed(time)
}

后面的ReceiverTraker和InputInforTracker的清理逻辑和ClearMetaData的相同,这分析DStreamGraph的clearCheckpointData方法:

  def clearCheckpointData(time:Time){
    logInfo("Clearing checkpoint data for time "+ time)
this.synchronized{
      outputStreams.foreach(_.clearCheckpointData(time))
}
    logInfo("Cleared checkpoint data for time "+ time)
}

同样的调用了DStreamGraph中所有OutputDStream的clearCheckPiontData 方法:

private[streaming] def clearCheckpointData(time:Time){
    logDebug("Clearing checkpoint data")
    checkpointData.cleanup(time)
    dependencies.foreach(_.clearCheckpointData(time))
    logDebug("Cleared checkpoint data")
}

这里的核心逻辑在checkpointData.cleanup(time)方法,这里的CheckpointData 是 DStreamCheckpointData对象, DStreamCheckpointData的clearup方法如下:

def cleanup(time:Time){
// 获取需要清理的Checkpoint 文件 时间
    timeToOldestCheckpointFileTime.remove(time) match {
caseSome(lastCheckpointFileTime)=>
        //获取需要删除的文件
        val filesToDelete = timeToCheckpointFile.filter(_._1 < lastCheckpointFileTime)
        logDebug("Files to delete:\n"+ filesToDelete.mkString(","))
        filesToDelete.foreach {
case(time, file)=>
try{
              val path =newPath(file)
if(fileSystem ==null){
                fileSystem = path.getFileSystem(dstream.ssc.sparkContext.hadoopConfiguration)
}

          //  删除文件     
              fileSystem.delete(path,true)
              timeToCheckpointFile -= time
              logInfo("Deleted checkpoint file '"+ file +"' for time "+ time)
}catch{
case e:Exception=>
                logWarning("Error deleting old checkpoint file '"+ file +"' for time "+ time, e)
                fileSystem =null
}
}
caseNone=>
        logDebug("Nothing to delete")
}
}

可以看到checkpoint的清理,就是删除了指定时间以前的checkpoint文件。

三、数据清理的触发

3.1 ClearMetaData 过程的触发

JobGenerator 生成job后,交给JobHandler执行, JobHandler的run方法中,会在job执行完后给JobScheduler 发送JobCompleted消息:

          _eventLoop = eventLoop
if(_eventLoop !=null){
            _eventLoop.post(JobCompleted(job, clock.getTimeMillis()))
 
}

JobScheduler 收到JobCompleted 消息调用 handleJobCompletion 方法,源码如下:

private def processEvent(event:JobSchedulerEvent){
try{
      event match {
caseJobStarted(job, startTime)=> handleJobStart(job, startTime)
caseJobCompleted(job, completedTime)=> handleJobCompletion(job, completedTime)
caseErrorReported(m, e)=> handleError(m, e)
}
}catch{
case e:Throwable=>
        reportError("Error in job scheduler", e)
}
}

在 JobScheduler 的handleJobCompletion方法中会调用JobGenerator的onBatchCompletion方法,我们看一下JobGenerator的 onBatchCompletion 方法的源码:

  def onBatchCompletion(time:Time){
    eventLoop.post(ClearMetadata(time))
}

可以看到JobGenerator的onBatchCompletion方法给自己发送了ClearMetadata消息从而触发了ClearMetaData操作。

3.2 ClearCheckPoint 过程的触发

清理CheckPoint数据发生在CheckPoint完成之后,我们先看一下CheckPointHandler的run方法:

// All done, print success
          val finishTime =System.currentTimeMillis()
          logInfo("Checkpoint for time "+ checkpointTime +" saved to file '"+ checkpointFile +
"', took "+ bytes.length +" bytes and "+(finishTime - startTime)+" ms")
          //调用JobGenerator的方法进行checkpoint数据清理
          jobGenerator.onCheckpointCompletion(checkpointTime, clearCheckpointDataLater)
return

可以看到在checkpoint完成后,会调用JobGenerator的onCheckpointCompletion方法进行checkpoint数据清理,我查看JobGenerator的onCheckpointCompletion方法源码:

  def onCheckpointCompletion(time:Time, clearCheckpointDataLater:Boolean){
if(clearCheckpointDataLater){
      eventLoop.post(ClearCheckpointData(time))
}
}

可以看到JobGenerator的onCheckpointCompletion方法中首先对传进来的 clearCheckpointDataLater 参数进行判断,如果该参数为true,就会给JobGenerator的eventLoop循环体发送ClearCheckpointData消息,从而触发clearCheckpointData 方法的调用,进行Checkpoint数据的清理。

什么时候该参数会true呢？

我们回到JobGenerator的 ClearMetadata 方法：

private def clearMetadata(time:Time){
    ssc.graph.clearMetadata(time)
 
 
if(shouldCheckpoint){
      //发送DoCheckpoint消息,并进行相应的Checkpoint数据清理
      eventLoop.post(DoCheckpoint(time, clearCheckpointDataLater =true))
}else{
 
      val maxRememberDuration = graph.getMaxInputStreamRememberDuration()
      jobScheduler.receiverTracker.cleanupOldBlocksAndBatches(time - maxRememberDuration)
      jobScheduler.inputInfoTracker.cleanup(time - maxRememberDuration)
      markBatchFullyProcessed(time)
}
}

可以看到在clearMetadata方法中,发送了DoCheckpoint消息,其中参数 clearCheckpointDataLater 为ture。Generator的eventLoop收到该消息后调用 doCheckpoint 方法：

private def doCheckpoint(time:Time, clearCheckpointDataLater:Boolean){
if(shouldCheckpoint &&(time - graph.zeroTime).isMultipleOf(ssc.checkpointDuration)){
      logInfo("Checkpointing graph for time "+ time)
      ssc.graph.updateCheckpointData(time)
      checkpointWriter.write(newCheckpoint(ssc, time), clearCheckpointDataLater)
}
}

这里关键一步：调用了CheckpointWriter的write方法,注意此时参数 clearCheckpointDataLater 为true。我们进入该方法：

  def write(checkpoint:Checkpoint, clearCheckpointDataLater:Boolean){
try{
      val bytes =Checkpoint.serialize(checkpoint, conf)
     //将参数clearCheckpointDataLater传入CheckpoitWriteHandler
      executor.execute(newCheckpointWriteHandler(
        checkpoint.checkpointTime, bytes, clearCheckpointDataLater))
      logInfo("Submitted checkpoint of time "+ checkpoint.checkpointTime +" writer queue")
}catch{
case rej:RejectedExecutionException=>
        logError("Could not submit checkpoint task to the thread pool executor", rej)
}
}