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本篇内容主要讲解“Flink提交任务的方法是什么”,感兴趣的朋友不妨来看看。本文介绍的方法操作简单快捷,实用性强。下面就让小编来带大家学习“Flink提交任务的方法是什么”吧!
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任务提交过程中有三个重要组件:Dispatcher、JobMaster、JobManagerRunnerImpl。通过下面调用路径先找到MiniDispatcher:
YarnJobClusterEntrypoint的main() -> ClusterEntrypoint的runCluster() -> DefaultDispatcherResourceManagerComponentFactory的create() -> DefaultDispatcherRunnerFactory的createDispatcherRunner() -> DefaultDispatcherRunner的grantLeadership() -> JobDispatcherLeaderProcess的onStart() -> DefaultDispatcherGatewayServiceFactory的create() -> JobDispatcherFactory的createDispatcher() -> MiniDispatcher的start()
(1)Dispatcher
负责接收任务提交请求,并分给JobManager执行;
Dispatcher启动时,会运行startRecoveredJobs()来启动需要恢复的任务。当Flink on Yarn模式时,MiniDispatcher将当前任务传入到需要恢复的任务中,这样就实现了任务的提交启动
(2)JobManagerRunner
负责运行JobMaster
(3)JobMaster
负责运行任务,对应旧版的JobManager;
一个任务对应一个JobMaster;
在JobMaster中通过Scheduler、Execution组件来执行一个任务。将任务DAG中每个节点算子分配给TaskManager中的TaskExecutor运行。
Execution的start()方法中通过rpc远程调用TaskExecutor的submitTask()方法:
public void deploy() throws JobException { ...... try { ...... final TaskManagerGateway taskManagerGateway = slot.getTaskManagerGateway(); final ComponentMainThreadExecutor jobMasterMainThreadExecutor = vertex.getExecutionGraph().getJobMasterMainThreadExecutor(); CompletableFuture.supplyAsync(() -> taskManagerGateway.submitTask(deployment, rpcTimeout), executor) .thenCompose(Function.identity()) .whenCompleteAsync( ....., jobMasterMainThreadExecutor); } catch (Throwable t) { ...... } }
TaskExecutor的submitTask()方法中通过创建org.apache.flink.runtime.taskmanager.Task来运行算子任务。Task的doRun()方法中通过算子节点对应的执行类AbstractInvokable来运行算子的处理逻辑,每个算子对应的执行类AbstractInvokable在客户端提交任务时确定,StreamExecutionEnvironment的addOperator():
publicvoid addOperator( Integer vertexID, @Nullable String slotSharingGroup, @Nullable String coLocationGroup, StreamOperatorFactory operatorFactory, TypeInformation inTypeInfo, TypeInformation outTypeInfo, String operatorName) { Class extends AbstractInvokable> invokableClass = operatorFactory.isStreamSource() ? SourceStreamTask.class : OneInputStreamTask.class; addOperator(vertexID, slotSharingGroup, coLocationGroup, operatorFactory, inTypeInfo, outTypeInfo, operatorName, invokableClass); }
当是流式任务时,调用StreamTask的invoke()方法。当是source节点时,通过调用链 StreamTask.invoke() -> StreamTask.runMailboxLoop() -> MailboxProcessor.runMailboxLoop() -> SourceStreamTask.processInput() :
protected void processInput(MailboxDefaultAction.Controller controller) throws Exception { controller.suspendDefaultAction(); // Against the usual contract of this method, this implementation is not step-wise but blocking instead for // compatibility reasons with the current source interface (source functions run as a loop, not in steps). sourceThread.setTaskDescription(getName()); sourceThread.start(); sourceThread.getCompletionFuture().whenComplete((Void ignore, Throwable sourceThreadThrowable) -> { if (isCanceled() && ExceptionUtils.findThrowable(sourceThreadThrowable, InterruptedException.class).isPresent()) { mailboxProcessor.reportThrowable(new CancelTaskException(sourceThreadThrowable)); } else if (!isFinished && sourceThreadThrowable != null) { mailboxProcessor.reportThrowable(sourceThreadThrowable); } else { mailboxProcessor.allActionsCompleted(); } }); }
创建线程LegacySourceFunctionThread实例,来开启单独生产数据的线程。LegacySourceFunctionThread的run()方法中调用StreamSource的run()方法:
public void run(final Object lockingObject, final StreamStatusMaintainer streamStatusMaintainer, final Output> collector, final OperatorChain, ?> operatorChain) throws Exception { final TimeCharacteristic timeCharacteristic = getOperatorConfig().getTimeCharacteristic(); final Configuration configuration = this.getContainingTask().getEnvironment().getTaskManagerInfo().getConfiguration(); final long latencyTrackingInterval = getExecutionConfig().isLatencyTrackingConfigured() ? getExecutionConfig().getLatencyTrackingInterval() : configuration.getLong(MetricOptions.LATENCY_INTERVAL); LatencyMarksEmitter latencyEmitter = null; if (latencyTrackingInterval > 0) { latencyEmitter = new LatencyMarksEmitter<>( getProcessingTimeService(), collector, latencyTrackingInterval, this.getOperatorID(), getRuntimeContext().getIndexOfThisSubtask()); } final long watermarkInterval = getRuntimeContext().getExecutionConfig().getAutoWatermarkInterval(); this.ctx = StreamSourceContexts.getSourceContext( timeCharacteristic, getProcessingTimeService(), lockingObject, streamStatusMaintainer, collector, watermarkInterval, -1); try { userFunction.run(ctx); // if we get here, then the user function either exited after being done (finite source) // or the function was canceled or stopped. For the finite source case, we should emit // a final watermark that indicates that we reached the end of event-time, and end inputs // of the operator chain if (!isCanceledOrStopped()) { // in theory, the subclasses of StreamSource may implement the BoundedOneInput interface, // so we still need the following call to end the input synchronized (lockingObject) { operatorChain.endHeadOperatorInput(1); } } } finally { if (latencyEmitter != null) { latencyEmitter.close(); } } }
StreamSource的run()方法中调用 userFunction.run(ctx); 当数据源是kafka时,userFunction为FlinkKafkaConsumerBase
最后执行run()的headOperator和算子程序userFunction是在添加算子时确定的,比如添加kafka数据源时
environment.addSource(new FlinkKafkaConsumer(......));
最后调用的addSource()方法:
publicDataStreamSource addSource(SourceFunction function, String sourceName, TypeInformation typeInfo) { TypeInformation resolvedTypeInfo = getTypeInfo(function, sourceName, SourceFunction.class, typeInfo); boolean isParallel = function instanceof ParallelSourceFunction; clean(function); final StreamSource sourceOperator = new StreamSource<>(function); return new DataStreamSource<>(this, resolvedTypeInfo, sourceOperator, isParallel, sourceName); }
headOperator为StreamSource,StreamSource中的userFunction为FlinkKafkaConsumer
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