今天就跟大家聊聊有关如何进行CoarseGrainedSchedulerBackend和CoarseGrainedExecutorBackend的分析,可能很多人都不太了解,为了让大家更加了解,小编给大家总结了以下内容,希望大家根据这篇文章可以有所收获。
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CoarseGrainedSchedulerBackend是Driver端用到的,CoarseGrainedExecutorBackend是Executor端用到的。他们都是Backend,什么是Backend?Backend其实就是负责端到端通信的,这两个CoarseGrained的Backend是负责Driver和Executor之间的通信的。
什么是Driver呢?
Driver就是我们编写的spark代码,里面的main函数就是Driver跑的代码。
什么是Executor呢?
Executor就是执行spark的Task任务的地方,Backend接收到Driver的LaunchTask消息后,调用Executor类的launchTask方法来执行任务。
Driver会启动CoarseGrainedSchedulerBackend,通过CoarseGrainedSchedulerBackend来向集群申请机器以便启动Executor,会找到一台机器,发送命令让机器启动一个ExecutorRunner,ExecutorRunner里启动CoarseGrainedExecutorBackend向Driver注册,并创建Executor来处理CoarseGrainedExecutorBackend接收到的请求。刚刚说的是Standalone部署下的流程,Yarn下大部分类似,只有向集群申请机器来启动Executor这一步不太一样,这个简单说一下吧。
Yarn环境下,是通过spark-yarn工程里的几个类一级yarn本身的功能来一起完成机器的部署和分区任务的分发。
spark-yarn包含两个文件:client.java和ApplicationMaster.java。
client.java功能是向yarn申请资源来执行ApplicationMaster.java的代码,所以这里主要看下ApplicationMaster.java的代码功能是什么。
ApplicationMaster首先干两件事,启动一个"/bin/mesos-master"和多个"/bin/mesos-slave",这都是向yarn申请资源然后部署上去执行的,都是yarn的功能部分,"/bin/mesos-master"和"/bin/mesos-slave"是yarn环境里自带的两个bin程序,可以看成是类似Standalone环境下的Master和Worker。
launchContainer方法是启动yarn的container,也就是前面说的在container上启动“/bin/mesos-slave",mesos-slave会向mesos-master注册的。等需要的slave节点资源全部申请启动完成后,调用startApplication()方法开始执行Driver。
startApplication()方法:
// Start the user's application private void startApplication() throws IOException { try { String sparkClasspath = getSparkClasspath(); String jobJar = new File("job.jar").getAbsolutePath(); String javaArgs = "-Xms" + (masterMem - 128) + "m -Xmx" + (masterMem - 128) + "m"; javaArgs += " -Djava.library.path=" + mesosHome + "/lib/java"; String substitutedArgs = programArgs.replaceAll("\\[MASTER\\]", masterUrl); if (mainClass.equals("")) { javaArgs += " -cp " + sparkClasspath + " -jar " + jobJar + " " + substitutedArgs; } else { javaArgs += " -cp " + sparkClasspath + ":" + jobJar + " " + mainClass + " " + substitutedArgs; } String java = "java"; if (System.getenv("JAVA_HOME") != null) { java = System.getenv("JAVA_HOME") + "/bin/java"; } String bashCommand = java + " " + javaArgs + " 1>" + logDirectory + "/application.stdout" + " 2>" + logDirectory + "/application.stderr"; LOG.info("Command: " + bashCommand); String[] command = new String[] {"bash", "-c", bashCommand}; String[] env = new String[] {"SPARK_HOME=" + sparkHome, "MASTER=" + masterUrl, "SPARK_MEM=" + (slaveMem - 128) + "m"}; application = Runtime.getRuntime().exec(command, env); new Thread("wait for user application") { public void run() { try { appExitCode = application.waitFor(); appExited = true; LOG.info("User application exited with code " + appExitCode); } catch (InterruptedException e) { e.printStackTrace(); } } }.start(); } catch (SparkClasspathException e) { unregister(false); System.exit(1); return; } }
这就是启动Driver了,masterUrl就是”bin/mesos-master“的地址,设置成了环境变量”MASTER“来用了,yarn下的master的地址格式是”mesos://host:port“,Standalone下是”spark://host:port“。
在SparkContext下会根据master地址格式,做不同的处理,这段代码是这样:
master match { case "local" => checkResourcesPerTask(clusterMode = false, Some(1)) val scheduler = new TaskSchedulerImpl(sc, MAX_LOCAL_TASK_FAILURES, isLocal = true) val backend = new LocalSchedulerBackend(sc.getConf, scheduler, 1) scheduler.initialize(backend) (backend, scheduler) case LOCAL_N_REGEX(threads) => def localCpuCount: Int = Runtime.getRuntime.availableProcessors() // local[*] estimates the number of cores on the machine; local[N] uses exactly N threads. val threadCount = if (threads == "*") localCpuCount else threads.toInt if (threadCount <= 0) { throw new SparkException(s"Asked to run locally with $threadCount threads") } checkResourcesPerTask(clusterMode = false, Some(threadCount)) val scheduler = new TaskSchedulerImpl(sc, MAX_LOCAL_TASK_FAILURES, isLocal = true) val backend = new LocalSchedulerBackend(sc.getConf, scheduler, threadCount) scheduler.initialize(backend) (backend, scheduler) case LOCAL_N_FAILURES_REGEX(threads, maxFailures) => def localCpuCount: Int = Runtime.getRuntime.availableProcessors() // local[*, M] means the number of cores on the computer with M failures // local[N, M] means exactly N threads with M failures val threadCount = if (threads == "*") localCpuCount else threads.toInt checkResourcesPerTask(clusterMode = false, Some(threadCount)) val scheduler = new TaskSchedulerImpl(sc, maxFailures.toInt, isLocal = true) val backend = new LocalSchedulerBackend(sc.getConf, scheduler, threadCount) scheduler.initialize(backend) (backend, scheduler) case SPARK_REGEX(sparkUrl) => checkResourcesPerTask(clusterMode = true, None) val scheduler = new TaskSchedulerImpl(sc) val masterUrls = sparkUrl.split(",").map("spark://" + _) val backend = new StandaloneSchedulerBackend(scheduler, sc, masterUrls) scheduler.initialize(backend) (backend, scheduler) case LOCAL_CLUSTER_REGEX(numSlaves, coresPerSlave, memoryPerSlave) => checkResourcesPerTask(clusterMode = true, Some(coresPerSlave.toInt)) // Check to make sure memory requested <= memoryPerSlave. Otherwise Spark will just hang. val memoryPerSlaveInt = memoryPerSlave.toInt if (sc.executorMemory > memoryPerSlaveInt) { throw new SparkException( "Asked to launch cluster with %d MiB RAM / worker but requested %d MiB/worker".format( memoryPerSlaveInt, sc.executorMemory)) } val scheduler = new TaskSchedulerImpl(sc) val localCluster = new LocalSparkCluster( numSlaves.toInt, coresPerSlave.toInt, memoryPerSlaveInt, sc.conf) val masterUrls = localCluster.start() val backend = new StandaloneSchedulerBackend(scheduler, sc, masterUrls) scheduler.initialize(backend) backend.shutdownCallback = (backend: StandaloneSchedulerBackend) => { localCluster.stop() } (backend, scheduler) case masterUrl => checkResourcesPerTask(clusterMode = true, None) val cm = getClusterManager(masterUrl) match { case Some(clusterMgr) => clusterMgr case None => throw new SparkException("Could not parse Master URL: '" + master + "'") } try { val scheduler = cm.createTaskScheduler(sc, masterUrl) val backend = cm.createSchedulerBackend(sc, masterUrl, scheduler) cm.initialize(scheduler, backend) (backend, scheduler) } catch { case se: SparkException => throw se case NonFatal(e) => throw new SparkException("External scheduler cannot be instantiated", e) } } }
如果是yarn,会落到最后一个case语句:
case masterUrl => checkResourcesPerTask(clusterMode = true, None) val cm = getClusterManager(masterUrl) match { case Some(clusterMgr) => clusterMgr case None => throw new SparkException("Could not parse Master URL: '" + master + "'") } try { val scheduler = cm.createTaskScheduler(sc, masterUrl) val backend = cm.createSchedulerBackend(sc, masterUrl, scheduler) cm.initialize(scheduler, backend) (backend, scheduler) } catch { case se: SparkException => throw se case NonFatal(e) => throw new SparkException("External scheduler cannot be instantiated", e) }
这里会用到ClusterManager的类,这又是什么东东呢?spark难就难在这,涉及的概念太多。
private def getClusterManager(url: String): Option[ExternalClusterManager] = { val loader = Utils.getContextOrSparkClassLoader val serviceLoaders = ServiceLoader.load(classOf[ExternalClusterManager], loader).asScala.filter(_.canCreate(url)) if (serviceLoaders.size > 1) { throw new SparkException( s"Multiple external cluster managers registered for the url $url: $serviceLoaders") } serviceLoaders.headOption }
找到所有的ExternalClusterManager类及子类,看哪个类的canCreate方法对url返回true,我们这里就是找满足"mesos://host:port"的类。
看完上述内容,你们对如何进行CoarseGrainedSchedulerBackend和CoarseGrainedExecutorBackend的分析有进一步的了解吗?如果还想了解更多知识或者相关内容,请关注创新互联行业资讯频道,感谢大家的支持。
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