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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.apache.flink.runtime.jobmaster;

import org.apache.flink.api.common.JobID;
import org.apache.flink.api.common.JobStatus;
import org.apache.flink.api.common.functions.AggregateFunction;
import org.apache.flink.api.common.time.Time;
import org.apache.flink.api.java.tuple.Tuple2;
import org.apache.flink.queryablestate.KvStateID;
import org.apache.flink.runtime.accumulators.AccumulatorSnapshot;
import org.apache.flink.runtime.blob.BlobWriter;
import org.apache.flink.runtime.checkpoint.CheckpointMetrics;
import org.apache.flink.runtime.checkpoint.TaskStateSnapshot;
import org.apache.flink.runtime.clusterframework.types.AllocationID;
import org.apache.flink.runtime.clusterframework.types.ResourceID;
import org.apache.flink.runtime.concurrent.FutureUtils;
import org.apache.flink.runtime.execution.ExecutionState;
import org.apache.flink.runtime.executiongraph.ArchivedExecutionGraph;
import org.apache.flink.runtime.executiongraph.ExecutionAttemptID;
import org.apache.flink.runtime.executiongraph.JobStatusListener;
import org.apache.flink.runtime.heartbeat.HeartbeatListener;
import org.apache.flink.runtime.heartbeat.HeartbeatManager;
import org.apache.flink.runtime.heartbeat.HeartbeatServices;
import org.apache.flink.runtime.heartbeat.HeartbeatTarget;
import org.apache.flink.runtime.heartbeat.NoOpHeartbeatManager;
import org.apache.flink.runtime.highavailability.HighAvailabilityServices;
import org.apache.flink.runtime.io.network.partition.JobMasterPartitionTracker;
import org.apache.flink.runtime.io.network.partition.PartitionTrackerFactory;
import org.apache.flink.runtime.io.network.partition.ResultPartitionID;
import org.apache.flink.runtime.jobgraph.IntermediateDataSetID;
import org.apache.flink.runtime.jobgraph.JobGraph;
import org.apache.flink.runtime.jobgraph.JobVertexID;
import org.apache.flink.runtime.jobgraph.OperatorID;
import org.apache.flink.runtime.jobmanager.OnCompletionActions;
import org.apache.flink.runtime.jobmanager.PartitionProducerDisposedException;
import org.apache.flink.runtime.jobmaster.factories.JobManagerJobMetricGroupFactory;
import org.apache.flink.runtime.jobmaster.slotpool.Scheduler;
import org.apache.flink.runtime.jobmaster.slotpool.SchedulerFactory;
import org.apache.flink.runtime.jobmaster.slotpool.SlotPool;
import org.apache.flink.runtime.jobmaster.slotpool.SlotPoolFactory;
import org.apache.flink.runtime.leaderretrieval.LeaderRetrievalListener;
import org.apache.flink.runtime.leaderretrieval.LeaderRetrievalService;
import org.apache.flink.runtime.messages.Acknowledge;
import org.apache.flink.runtime.messages.FlinkJobNotFoundException;
import org.apache.flink.runtime.messages.checkpoint.DeclineCheckpoint;
import org.apache.flink.runtime.messages.webmonitor.JobDetails;
import org.apache.flink.runtime.metrics.groups.JobManagerJobMetricGroup;
import org.apache.flink.runtime.operators.coordination.CoordinationRequest;
import org.apache.flink.runtime.operators.coordination.CoordinationResponse;
import org.apache.flink.runtime.operators.coordination.OperatorEvent;
import org.apache.flink.runtime.query.KvStateLocation;
import org.apache.flink.runtime.query.UnknownKvStateLocation;
import org.apache.flink.runtime.registration.RegisteredRpcConnection;
import org.apache.flink.runtime.registration.RegistrationResponse;
import org.apache.flink.runtime.registration.RetryingRegistration;
import org.apache.flink.runtime.resourcemanager.ResourceManagerGateway;
import org.apache.flink.runtime.resourcemanager.ResourceManagerId;
import org.apache.flink.runtime.rest.handler.legacy.backpressure.BackPressureStatsTracker;
import org.apache.flink.runtime.rest.handler.legacy.backpressure.OperatorBackPressureStats;
import org.apache.flink.runtime.rest.handler.legacy.backpressure.OperatorBackPressureStatsResponse;
import org.apache.flink.runtime.rpc.FatalErrorHandler;
import org.apache.flink.runtime.rpc.FencedRpcEndpoint;
import org.apache.flink.runtime.rpc.RpcService;
import org.apache.flink.runtime.rpc.RpcUtils;
import org.apache.flink.runtime.rpc.akka.AkkaRpcServiceUtils;
import org.apache.flink.runtime.scheduler.SchedulerNG;
import org.apache.flink.runtime.scheduler.SchedulerNGFactory;
import org.apache.flink.runtime.shuffle.ShuffleMaster;
import org.apache.flink.runtime.state.KeyGroupRange;
import org.apache.flink.runtime.taskexecutor.AccumulatorReport;
import org.apache.flink.runtime.taskexecutor.TaskExecutorGateway;
import org.apache.flink.runtime.taskexecutor.slot.SlotOffer;
import org.apache.flink.runtime.taskmanager.TaskExecutionState;
import org.apache.flink.runtime.taskmanager.TaskManagerLocation;
import org.apache.flink.runtime.taskmanager.UnresolvedTaskManagerLocation;
import org.apache.flink.util.ExceptionUtils;
import org.apache.flink.util.FlinkException;
import org.apache.flink.util.InstantiationUtil;
import org.apache.flink.util.SerializedValue;

import org.slf4j.Logger;

import javax.annotation.Nullable;

import java.io.IOException;
import java.net.InetSocketAddress;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Objects;
import java.util.Optional;
import java.util.Set;
import java.util.UUID;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.Executor;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeoutException;

import static org.apache.flink.util.Preconditions.checkNotNull;
import static org.apache.flink.util.Preconditions.checkState;

/**
 * JobMaster implementation. The job master is responsible for the execution of a single
 * {@link JobGraph}.
 *
 * 

It offers the following methods as part of its rpc interface to interact with the JobMaster * remotely: *

    *
  • {@link #updateTaskExecutionState} updates the task execution state for * given task
  • *
*/ public class JobMaster extends FencedRpcEndpoint implements JobMasterGateway, JobMasterService { /** Default names for Flink's distributed components. */ public static final String JOB_MANAGER_NAME = "jobmanager"; // ------------------------------------------------------------------------ private final JobMasterConfiguration jobMasterConfiguration; private final ResourceID resourceId; private final JobGraph jobGraph; private final Time rpcTimeout; private final HighAvailabilityServices highAvailabilityServices; private final BlobWriter blobWriter; private final HeartbeatServices heartbeatServices; private final JobManagerJobMetricGroupFactory jobMetricGroupFactory; private final ScheduledExecutorService scheduledExecutorService; private final OnCompletionActions jobCompletionActions; private final FatalErrorHandler fatalErrorHandler; private final ClassLoader userCodeLoader; private final SlotPool slotPool; private final Scheduler scheduler; private final SchedulerNGFactory schedulerNGFactory; // --------- BackPressure -------- private final BackPressureStatsTracker backPressureStatsTracker; // --------- ResourceManager -------- private final LeaderRetrievalService resourceManagerLeaderRetriever; // --------- TaskManagers -------- private final Map> registeredTaskManagers; private final ShuffleMaster shuffleMaster; // -------- Mutable fields --------- private HeartbeatManager taskManagerHeartbeatManager; private HeartbeatManager resourceManagerHeartbeatManager; private SchedulerNG schedulerNG; @Nullable private JobManagerJobStatusListener jobStatusListener; @Nullable private JobManagerJobMetricGroup jobManagerJobMetricGroup; @Nullable private ResourceManagerAddress resourceManagerAddress; @Nullable private ResourceManagerConnection resourceManagerConnection; @Nullable private EstablishedResourceManagerConnection establishedResourceManagerConnection; private Map accumulators; private final JobMasterPartitionTracker partitionTracker; // ------------------------------------------------------------------------ public JobMaster( RpcService rpcService, JobMasterConfiguration jobMasterConfiguration, ResourceID resourceId, JobGraph jobGraph, HighAvailabilityServices highAvailabilityService, SlotPoolFactory slotPoolFactory, SchedulerFactory schedulerFactory, JobManagerSharedServices jobManagerSharedServices, HeartbeatServices heartbeatServices, JobManagerJobMetricGroupFactory jobMetricGroupFactory, OnCompletionActions jobCompletionActions, FatalErrorHandler fatalErrorHandler, ClassLoader userCodeLoader, SchedulerNGFactory schedulerNGFactory, ShuffleMaster shuffleMaster, PartitionTrackerFactory partitionTrackerFactory) throws Exception { super(rpcService, AkkaRpcServiceUtils.createRandomName(JOB_MANAGER_NAME), null); this.jobMasterConfiguration = checkNotNull(jobMasterConfiguration); this.resourceId = checkNotNull(resourceId); this.jobGraph = checkNotNull(jobGraph); this.rpcTimeout = jobMasterConfiguration.getRpcTimeout(); this.highAvailabilityServices = checkNotNull(highAvailabilityService); this.blobWriter = jobManagerSharedServices.getBlobWriter(); this.scheduledExecutorService = jobManagerSharedServices.getScheduledExecutorService(); this.jobCompletionActions = checkNotNull(jobCompletionActions); this.fatalErrorHandler = checkNotNull(fatalErrorHandler); this.userCodeLoader = checkNotNull(userCodeLoader); this.schedulerNGFactory = checkNotNull(schedulerNGFactory); this.heartbeatServices = checkNotNull(heartbeatServices); this.jobMetricGroupFactory = checkNotNull(jobMetricGroupFactory); final String jobName = jobGraph.getName(); final JobID jid = jobGraph.getJobID(); log.info("Initializing job {} ({}).", jobName, jid); resourceManagerLeaderRetriever = highAvailabilityServices.getResourceManagerLeaderRetriever(); this.slotPool = checkNotNull(slotPoolFactory).createSlotPool(jobGraph.getJobID()); this.scheduler = checkNotNull(schedulerFactory).createScheduler(slotPool); this.registeredTaskManagers = new HashMap<>(4); this.partitionTracker = checkNotNull(partitionTrackerFactory) .create(resourceID -> { Tuple2 taskManagerInfo = registeredTaskManagers.get(resourceID); if (taskManagerInfo == null) { return Optional.empty(); } return Optional.of(taskManagerInfo.f1); }); this.backPressureStatsTracker = checkNotNull(jobManagerSharedServices.getBackPressureStatsTracker()); this.shuffleMaster = checkNotNull(shuffleMaster); this.jobManagerJobMetricGroup = jobMetricGroupFactory.create(jobGraph); this.schedulerNG = createScheduler(jobManagerJobMetricGroup); this.jobStatusListener = null; this.resourceManagerConnection = null; this.establishedResourceManagerConnection = null; this.accumulators = new HashMap<>(); this.taskManagerHeartbeatManager = NoOpHeartbeatManager.getInstance(); this.resourceManagerHeartbeatManager = NoOpHeartbeatManager.getInstance(); } private SchedulerNG createScheduler(final JobManagerJobMetricGroup jobManagerJobMetricGroup) throws Exception { return schedulerNGFactory.createInstance( log, jobGraph, backPressureStatsTracker, scheduledExecutorService, jobMasterConfiguration.getConfiguration(), scheduler, scheduledExecutorService, userCodeLoader, highAvailabilityServices.getCheckpointRecoveryFactory(), rpcTimeout, blobWriter, jobManagerJobMetricGroup, jobMasterConfiguration.getSlotRequestTimeout(), shuffleMaster, partitionTracker); } //---------------------------------------------------------------------------------------------- // Lifecycle management //---------------------------------------------------------------------------------------------- /** * Start the rpc service and begin to run the job. * * @param newJobMasterId The necessary fencing token to run the job * @return Future acknowledge if the job could be started. Otherwise the future contains an exception */ public CompletableFuture start(final JobMasterId newJobMasterId) throws Exception { // make sure we receive RPC and async calls start(); return callAsyncWithoutFencing(() -> startJobExecution(newJobMasterId), RpcUtils.INF_TIMEOUT); } /** * Suspending job, all the running tasks will be cancelled, and communication with other components * will be disposed. * *

Mostly job is suspended because of the leadership has been revoked, one can be restart this job by * calling the {@link #start(JobMasterId)} method once we take the leadership back again. * *

This method is executed asynchronously * * @param cause The reason of why this job been suspended. * @return Future acknowledge indicating that the job has been suspended. Otherwise the future contains an exception */ public CompletableFuture suspend(final Exception cause) { CompletableFuture suspendFuture = callAsyncWithoutFencing( () -> suspendExecution(cause), RpcUtils.INF_TIMEOUT); return suspendFuture.whenComplete((acknowledge, throwable) -> stop()); } /** * Suspend the job and shutdown all other services including rpc. */ @Override public CompletableFuture onStop() { log.info("Stopping the JobMaster for job {}({}).", jobGraph.getName(), jobGraph.getJobID()); // disconnect from all registered TaskExecutors final Set taskManagerResourceIds = new HashSet<>(registeredTaskManagers.keySet()); final FlinkException cause = new FlinkException("Stopping JobMaster for job " + jobGraph.getName() + '(' + jobGraph.getJobID() + ")."); for (ResourceID taskManagerResourceId : taskManagerResourceIds) { disconnectTaskManager(taskManagerResourceId, cause); } // make sure there is a graceful exit suspendExecution(new FlinkException("JobManager is shutting down.")); // shut down will internally release all registered slots slotPool.close(); return CompletableFuture.completedFuture(null); } //---------------------------------------------------------------------------------------------- // RPC methods //---------------------------------------------------------------------------------------------- @Override public CompletableFuture cancel(Time timeout) { schedulerNG.cancel(); return CompletableFuture.completedFuture(Acknowledge.get()); } /** * Updates the task execution state for a given task. * * @param taskExecutionState New task execution state for a given task * @return Acknowledge the task execution state update */ @Override public CompletableFuture updateTaskExecutionState( final TaskExecutionState taskExecutionState) { checkNotNull(taskExecutionState, "taskExecutionState"); if (schedulerNG.updateTaskExecutionState(taskExecutionState)) { return CompletableFuture.completedFuture(Acknowledge.get()); } else { return FutureUtils.completedExceptionally( new ExecutionGraphException("The execution attempt " + taskExecutionState.getID() + " was not found.")); } } @Override public CompletableFuture requestNextInputSplit( final JobVertexID vertexID, final ExecutionAttemptID executionAttempt) { try { return CompletableFuture.completedFuture(schedulerNG.requestNextInputSplit(vertexID, executionAttempt)); } catch (IOException e) { log.warn("Error while requesting next input split", e); return FutureUtils.completedExceptionally(e); } } @Override public CompletableFuture requestPartitionState( final IntermediateDataSetID intermediateResultId, final ResultPartitionID resultPartitionId) { try { return CompletableFuture.completedFuture(schedulerNG.requestPartitionState(intermediateResultId, resultPartitionId)); } catch (PartitionProducerDisposedException e) { log.info("Error while requesting partition state", e); return FutureUtils.completedExceptionally(e); } } @Override public CompletableFuture scheduleOrUpdateConsumers( final ResultPartitionID partitionID, final Time timeout) { schedulerNG.scheduleOrUpdateConsumers(partitionID); return CompletableFuture.completedFuture(Acknowledge.get()); } @Override public CompletableFuture disconnectTaskManager(final ResourceID resourceID, final Exception cause) { log.debug("Disconnect TaskExecutor {} because: {}", resourceID, cause.getMessage()); taskManagerHeartbeatManager.unmonitorTarget(resourceID); slotPool.releaseTaskManager(resourceID, cause); partitionTracker.stopTrackingPartitionsFor(resourceID); Tuple2 taskManagerConnection = registeredTaskManagers.remove(resourceID); if (taskManagerConnection != null) { taskManagerConnection.f1.disconnectJobManager(jobGraph.getJobID(), cause); } return CompletableFuture.completedFuture(Acknowledge.get()); } // TODO: This method needs a leader session ID @Override public void acknowledgeCheckpoint( final JobID jobID, final ExecutionAttemptID executionAttemptID, final long checkpointId, final CheckpointMetrics checkpointMetrics, final TaskStateSnapshot checkpointState) { schedulerNG.acknowledgeCheckpoint(jobID, executionAttemptID, checkpointId, checkpointMetrics, checkpointState); } // TODO: This method needs a leader session ID @Override public void declineCheckpoint(DeclineCheckpoint decline) { schedulerNG.declineCheckpoint(decline); } @Override public CompletableFuture sendOperatorEventToCoordinator( final ExecutionAttemptID task, final OperatorID operatorID, final SerializedValue serializedEvent) { try { final OperatorEvent evt = serializedEvent.deserializeValue(userCodeLoader); schedulerNG.deliverOperatorEventToCoordinator(task, operatorID, evt); return CompletableFuture.completedFuture(Acknowledge.get()); } catch (Exception e) { return FutureUtils.completedExceptionally(e); } } @Override public CompletableFuture requestKvStateLocation(final JobID jobId, final String registrationName) { try { return CompletableFuture.completedFuture(schedulerNG.requestKvStateLocation(jobId, registrationName)); } catch (UnknownKvStateLocation | FlinkJobNotFoundException e) { log.info("Error while request key-value state location", e); return FutureUtils.completedExceptionally(e); } } @Override public CompletableFuture notifyKvStateRegistered( final JobID jobId, final JobVertexID jobVertexId, final KeyGroupRange keyGroupRange, final String registrationName, final KvStateID kvStateId, final InetSocketAddress kvStateServerAddress) { try { schedulerNG.notifyKvStateRegistered(jobId, jobVertexId, keyGroupRange, registrationName, kvStateId, kvStateServerAddress); return CompletableFuture.completedFuture(Acknowledge.get()); } catch (FlinkJobNotFoundException e) { log.info("Error while receiving notification about key-value state registration", e); return FutureUtils.completedExceptionally(e); } } @Override public CompletableFuture notifyKvStateUnregistered( JobID jobId, JobVertexID jobVertexId, KeyGroupRange keyGroupRange, String registrationName) { try { schedulerNG.notifyKvStateUnregistered(jobId, jobVertexId, keyGroupRange, registrationName); return CompletableFuture.completedFuture(Acknowledge.get()); } catch (FlinkJobNotFoundException e) { log.info("Error while receiving notification about key-value state de-registration", e); return FutureUtils.completedExceptionally(e); } } @Override public CompletableFuture> offerSlots( final ResourceID taskManagerId, final Collection slots, final Time timeout) { Tuple2 taskManager = registeredTaskManagers.get(taskManagerId); if (taskManager == null) { return FutureUtils.completedExceptionally(new Exception("Unknown TaskManager " + taskManagerId)); } final TaskManagerLocation taskManagerLocation = taskManager.f0; final TaskExecutorGateway taskExecutorGateway = taskManager.f1; final RpcTaskManagerGateway rpcTaskManagerGateway = new RpcTaskManagerGateway(taskExecutorGateway, getFencingToken()); return CompletableFuture.completedFuture( slotPool.offerSlots( taskManagerLocation, rpcTaskManagerGateway, slots)); } @Override public void failSlot( final ResourceID taskManagerId, final AllocationID allocationId, final Exception cause) { if (registeredTaskManagers.containsKey(taskManagerId)) { internalFailAllocation(allocationId, cause); } else { log.warn("Cannot fail slot " + allocationId + " because the TaskManager " + taskManagerId + " is unknown."); } } private void internalFailAllocation(AllocationID allocationId, Exception cause) { final Optional resourceIdOptional = slotPool.failAllocation(allocationId, cause); resourceIdOptional.ifPresent(taskManagerId -> { if (!partitionTracker.isTrackingPartitionsFor(taskManagerId)) { releaseEmptyTaskManager(taskManagerId); } }); } private void releaseEmptyTaskManager(ResourceID resourceId) { disconnectTaskManager(resourceId, new FlinkException(String.format("No more slots registered at JobMaster %s.", resourceId))); } @Override public CompletableFuture registerTaskManager( final String taskManagerRpcAddress, final UnresolvedTaskManagerLocation unresolvedTaskManagerLocation, final Time timeout) { final TaskManagerLocation taskManagerLocation; try { taskManagerLocation = TaskManagerLocation.fromUnresolvedLocation(unresolvedTaskManagerLocation); } catch (Throwable throwable) { final String errMsg = String.format( "Could not accept TaskManager registration. TaskManager address %s cannot be resolved. %s", unresolvedTaskManagerLocation.getExternalAddress(), throwable.getMessage()); log.error(errMsg); return CompletableFuture.completedFuture(new RegistrationResponse.Decline(errMsg)); } final ResourceID taskManagerId = taskManagerLocation.getResourceID(); if (registeredTaskManagers.containsKey(taskManagerId)) { final RegistrationResponse response = new JMTMRegistrationSuccess(resourceId); return CompletableFuture.completedFuture(response); } else { return getRpcService() .connect(taskManagerRpcAddress, TaskExecutorGateway.class) .handleAsync( (TaskExecutorGateway taskExecutorGateway, Throwable throwable) -> { if (throwable != null) { return new RegistrationResponse.Decline(throwable.getMessage()); } slotPool.registerTaskManager(taskManagerId); registeredTaskManagers.put(taskManagerId, Tuple2.of(taskManagerLocation, taskExecutorGateway)); // monitor the task manager as heartbeat target taskManagerHeartbeatManager.monitorTarget(taskManagerId, new HeartbeatTarget() { @Override public void receiveHeartbeat(ResourceID resourceID, AllocatedSlotReport payload) { // the task manager will not request heartbeat, so this method will never be called currently } @Override public void requestHeartbeat(ResourceID resourceID, AllocatedSlotReport allocatedSlotReport) { taskExecutorGateway.heartbeatFromJobManager(resourceID, allocatedSlotReport); } }); return new JMTMRegistrationSuccess(resourceId); }, getMainThreadExecutor()); } } @Override public void disconnectResourceManager( final ResourceManagerId resourceManagerId, final Exception cause) { if (isConnectingToResourceManager(resourceManagerId)) { reconnectToResourceManager(cause); } } private boolean isConnectingToResourceManager(ResourceManagerId resourceManagerId) { return resourceManagerAddress != null && resourceManagerAddress.getResourceManagerId().equals(resourceManagerId); } @Override public void heartbeatFromTaskManager(final ResourceID resourceID, AccumulatorReport accumulatorReport) { taskManagerHeartbeatManager.receiveHeartbeat(resourceID, accumulatorReport); } @Override public void heartbeatFromResourceManager(final ResourceID resourceID) { resourceManagerHeartbeatManager.requestHeartbeat(resourceID, null); } @Override public CompletableFuture requestJobDetails(Time timeout) { return CompletableFuture.completedFuture(schedulerNG.requestJobDetails()); } @Override public CompletableFuture requestJobStatus(Time timeout) { return CompletableFuture.completedFuture(schedulerNG.requestJobStatus()); } @Override public CompletableFuture requestJob(Time timeout) { return CompletableFuture.completedFuture(schedulerNG.requestJob()); } @Override public CompletableFuture triggerSavepoint( @Nullable final String targetDirectory, final boolean cancelJob, final Time timeout) { return schedulerNG.triggerSavepoint(targetDirectory, cancelJob); } @Override public CompletableFuture stopWithSavepoint( @Nullable final String targetDirectory, final boolean advanceToEndOfEventTime, final Time timeout) { return schedulerNG.stopWithSavepoint(targetDirectory, advanceToEndOfEventTime); } @Override public CompletableFuture requestOperatorBackPressureStats(final JobVertexID jobVertexId) { try { final Optional operatorBackPressureStats = schedulerNG.requestOperatorBackPressureStats(jobVertexId); return CompletableFuture.completedFuture(OperatorBackPressureStatsResponse.of( operatorBackPressureStats.orElse(null))); } catch (FlinkException e) { log.info("Error while requesting operator back pressure stats", e); return FutureUtils.completedExceptionally(e); } } @Override public void notifyAllocationFailure(AllocationID allocationID, Exception cause) { internalFailAllocation(allocationID, cause); } @Override public CompletableFuture updateGlobalAggregate(String aggregateName, Object aggregand, byte[] serializedAggregateFunction) { AggregateFunction aggregateFunction = null; try { aggregateFunction = InstantiationUtil.deserializeObject(serializedAggregateFunction, userCodeLoader); } catch (Exception e) { log.error("Error while attempting to deserialize user AggregateFunction."); return FutureUtils.completedExceptionally(e); } Object accumulator = accumulators.get(aggregateName); if (null == accumulator) { accumulator = aggregateFunction.createAccumulator(); } accumulator = aggregateFunction.add(aggregand, accumulator); accumulators.put(aggregateName, accumulator); return CompletableFuture.completedFuture(aggregateFunction.getResult(accumulator)); } @Override public CompletableFuture deliverCoordinationRequestToCoordinator( OperatorID operatorId, SerializedValue serializedRequest, Time timeout) { try { CoordinationRequest request = serializedRequest.deserializeValue(userCodeLoader); return schedulerNG.deliverCoordinationRequestToCoordinator(operatorId, request); } catch (Exception e) { return FutureUtils.completedExceptionally(e); } } //---------------------------------------------------------------------------------------------- // Internal methods //---------------------------------------------------------------------------------------------- //-- job starting and stopping ----------------------------------------------------------------- private Acknowledge startJobExecution(JobMasterId newJobMasterId) throws Exception { validateRunsInMainThread(); checkNotNull(newJobMasterId, "The new JobMasterId must not be null."); if (Objects.equals(getFencingToken(), newJobMasterId)) { log.info("Already started the job execution with JobMasterId {}.", newJobMasterId); return Acknowledge.get(); } setNewFencingToken(newJobMasterId); startJobMasterServices(); log.info("Starting execution of job {} ({}) under job master id {}.", jobGraph.getName(), jobGraph.getJobID(), newJobMasterId); resetAndStartScheduler(); return Acknowledge.get(); } private void startJobMasterServices() throws Exception { startHeartbeatServices(); // start the slot pool make sure the slot pool now accepts messages for this leader slotPool.start(getFencingToken(), getAddress(), getMainThreadExecutor()); scheduler.start(getMainThreadExecutor()); //TODO: Remove once the ZooKeeperLeaderRetrieval returns the stored address upon start // try to reconnect to previously known leader reconnectToResourceManager(new FlinkException("Starting JobMaster component.")); // job is ready to go, try to establish connection with resource manager // - activate leader retrieval for the resource manager // - on notification of the leader, the connection will be established and // the slot pool will start requesting slots resourceManagerLeaderRetriever.start(new ResourceManagerLeaderListener()); } private void setNewFencingToken(JobMasterId newJobMasterId) { if (getFencingToken() != null) { log.info("Restarting old job with JobMasterId {}. The new JobMasterId is {}.", getFencingToken(), newJobMasterId); // first we have to suspend the current execution suspendExecution(new FlinkException("Old job with JobMasterId " + getFencingToken() + " is restarted with a new JobMasterId " + newJobMasterId + '.')); } // set new leader id setFencingToken(newJobMasterId); } /** * Suspending job, all the running tasks will be cancelled, and communication with other components * will be disposed. * *

Mostly job is suspended because of the leadership has been revoked, one can be restart this job by * calling the {@link #start(JobMasterId)} method once we take the leadership back again. * * @param cause The reason of why this job been suspended. */ private Acknowledge suspendExecution(final Exception cause) { validateRunsInMainThread(); if (getFencingToken() == null) { log.debug("Job has already been suspended or shutdown."); return Acknowledge.get(); } // not leader anymore --> set the JobMasterId to null setFencingToken(null); try { resourceManagerLeaderRetriever.stop(); resourceManagerAddress = null; } catch (Throwable t) { log.warn("Failed to stop resource manager leader retriever when suspending.", t); } suspendAndClearSchedulerFields(cause); // the slot pool stops receiving messages and clears its pooled slots slotPool.suspend(); // disconnect from resource manager: closeResourceManagerConnection(cause); stopHeartbeatServices(); return Acknowledge.get(); } private void stopHeartbeatServices() { taskManagerHeartbeatManager.stop(); resourceManagerHeartbeatManager.stop(); } private void startHeartbeatServices() { taskManagerHeartbeatManager = heartbeatServices.createHeartbeatManagerSender( resourceId, new TaskManagerHeartbeatListener(), getMainThreadExecutor(), log); resourceManagerHeartbeatManager = heartbeatServices.createHeartbeatManager( resourceId, new ResourceManagerHeartbeatListener(), getMainThreadExecutor(), log); } private void assignScheduler( SchedulerNG newScheduler, JobManagerJobMetricGroup newJobManagerJobMetricGroup) { validateRunsInMainThread(); checkState(schedulerNG.requestJobStatus().isTerminalState()); checkState(jobManagerJobMetricGroup == null); schedulerNG = newScheduler; jobManagerJobMetricGroup = newJobManagerJobMetricGroup; } private void resetAndStartScheduler() throws Exception { validateRunsInMainThread(); final CompletableFuture schedulerAssignedFuture; if (schedulerNG.requestJobStatus() == JobStatus.CREATED) { schedulerAssignedFuture = CompletableFuture.completedFuture(null); schedulerNG.setMainThreadExecutor(getMainThreadExecutor()); } else { suspendAndClearSchedulerFields(new FlinkException("ExecutionGraph is being reset in order to be rescheduled.")); final JobManagerJobMetricGroup newJobManagerJobMetricGroup = jobMetricGroupFactory.create(jobGraph); final SchedulerNG newScheduler = createScheduler(newJobManagerJobMetricGroup); schedulerAssignedFuture = schedulerNG.getTerminationFuture().handle( (ignored, throwable) -> { newScheduler.setMainThreadExecutor(getMainThreadExecutor()); assignScheduler(newScheduler, newJobManagerJobMetricGroup); return null; } ); } schedulerAssignedFuture.thenRun(this::startScheduling); } private void startScheduling() { checkState(jobStatusListener == null); // register self as job status change listener jobStatusListener = new JobManagerJobStatusListener(); schedulerNG.registerJobStatusListener(jobStatusListener); schedulerNG.startScheduling(); } private void suspendAndClearSchedulerFields(Exception cause) { suspendScheduler(cause); clearSchedulerFields(); } private void suspendScheduler(Exception cause) { schedulerNG.suspend(cause); if (jobManagerJobMetricGroup != null) { jobManagerJobMetricGroup.close(); } if (jobStatusListener != null) { jobStatusListener.stop(); } } private void clearSchedulerFields() { jobManagerJobMetricGroup = null; jobStatusListener = null; } //---------------------------------------------------------------------------------------------- private void handleJobMasterError(final Throwable cause) { if (ExceptionUtils.isJvmFatalError(cause)) { log.error("Fatal error occurred on JobManager.", cause); // The fatal error handler implementation should make sure that this call is non-blocking fatalErrorHandler.onFatalError(cause); } else { jobCompletionActions.jobMasterFailed(cause); } } private void jobStatusChanged( final JobStatus newJobStatus, long timestamp, @Nullable final Throwable error) { validateRunsInMainThread(); if (newJobStatus.isGloballyTerminalState()) { runAsync(() -> registeredTaskManagers.keySet() .forEach(newJobStatus == JobStatus.FINISHED ? partitionTracker::stopTrackingAndReleaseOrPromotePartitionsFor : partitionTracker::stopTrackingAndReleasePartitionsFor)); final ArchivedExecutionGraph archivedExecutionGraph = schedulerNG.requestJob(); scheduledExecutorService.execute(() -> jobCompletionActions.jobReachedGloballyTerminalState(archivedExecutionGraph)); } } private void notifyOfNewResourceManagerLeader(final String newResourceManagerAddress, final ResourceManagerId resourceManagerId) { resourceManagerAddress = createResourceManagerAddress(newResourceManagerAddress, resourceManagerId); reconnectToResourceManager(new FlinkException(String.format("ResourceManager leader changed to new address %s", resourceManagerAddress))); } @Nullable private ResourceManagerAddress createResourceManagerAddress(@Nullable String newResourceManagerAddress, @Nullable ResourceManagerId resourceManagerId) { if (newResourceManagerAddress != null) { // the contract is: address == null <=> id == null checkNotNull(resourceManagerId); return new ResourceManagerAddress(newResourceManagerAddress, resourceManagerId); } else { return null; } } private void reconnectToResourceManager(Exception cause) { closeResourceManagerConnection(cause); tryConnectToResourceManager(); } private void tryConnectToResourceManager() { if (resourceManagerAddress != null) { connectToResourceManager(); } } private void connectToResourceManager() { assert(resourceManagerAddress != null); assert(resourceManagerConnection == null); assert(establishedResourceManagerConnection == null); log.info("Connecting to ResourceManager {}", resourceManagerAddress); resourceManagerConnection = new ResourceManagerConnection( log, jobGraph.getJobID(), resourceId, getAddress(), getFencingToken(), resourceManagerAddress.getAddress(), resourceManagerAddress.getResourceManagerId(), scheduledExecutorService); resourceManagerConnection.start(); } private void establishResourceManagerConnection(final JobMasterRegistrationSuccess success) { final ResourceManagerId resourceManagerId = success.getResourceManagerId(); // verify the response with current connection if (resourceManagerConnection != null && Objects.equals(resourceManagerConnection.getTargetLeaderId(), resourceManagerId)) { log.info("JobManager successfully registered at ResourceManager, leader id: {}.", resourceManagerId); final ResourceManagerGateway resourceManagerGateway = resourceManagerConnection.getTargetGateway(); final ResourceID resourceManagerResourceId = success.getResourceManagerResourceId(); establishedResourceManagerConnection = new EstablishedResourceManagerConnection( resourceManagerGateway, resourceManagerResourceId); slotPool.connectToResourceManager(resourceManagerGateway); resourceManagerHeartbeatManager.monitorTarget(resourceManagerResourceId, new HeartbeatTarget() { @Override public void receiveHeartbeat(ResourceID resourceID, Void payload) { resourceManagerGateway.heartbeatFromJobManager(resourceID); } @Override public void requestHeartbeat(ResourceID resourceID, Void payload) { // request heartbeat will never be called on the job manager side } }); } else { log.debug("Ignoring resource manager connection to {} because it's duplicated or outdated.", resourceManagerId); } } private void closeResourceManagerConnection(Exception cause) { if (establishedResourceManagerConnection != null) { dissolveResourceManagerConnection(establishedResourceManagerConnection, cause); establishedResourceManagerConnection = null; } if (resourceManagerConnection != null) { // stop a potentially ongoing registration process resourceManagerConnection.close(); resourceManagerConnection = null; } } private void dissolveResourceManagerConnection(EstablishedResourceManagerConnection establishedResourceManagerConnection, Exception cause) { final ResourceID resourceManagerResourceID = establishedResourceManagerConnection.getResourceManagerResourceID(); if (log.isDebugEnabled()) { log.debug("Close ResourceManager connection {}.", resourceManagerResourceID, cause); } else { log.info("Close ResourceManager connection {}: {}.", resourceManagerResourceID, cause.getMessage()); } resourceManagerHeartbeatManager.unmonitorTarget(resourceManagerResourceID); ResourceManagerGateway resourceManagerGateway = establishedResourceManagerConnection.getResourceManagerGateway(); resourceManagerGateway.disconnectJobManager(jobGraph.getJobID(), cause); slotPool.disconnectResourceManager(); } //---------------------------------------------------------------------------------------------- // Service methods //---------------------------------------------------------------------------------------------- @Override public JobMasterGateway getGateway() { return getSelfGateway(JobMasterGateway.class); } //---------------------------------------------------------------------------------------------- // Utility classes //---------------------------------------------------------------------------------------------- private class ResourceManagerLeaderListener implements LeaderRetrievalListener { @Override public void notifyLeaderAddress(final String leaderAddress, final UUID leaderSessionID) { runAsync( () -> notifyOfNewResourceManagerLeader( leaderAddress, ResourceManagerId.fromUuidOrNull(leaderSessionID))); } @Override public void handleError(final Exception exception) { handleJobMasterError(new Exception("Fatal error in the ResourceManager leader service", exception)); } } //---------------------------------------------------------------------------------------------- private class ResourceManagerConnection extends RegisteredRpcConnection { private final JobID jobID; private final ResourceID jobManagerResourceID; private final String jobManagerRpcAddress; private final JobMasterId jobMasterId; ResourceManagerConnection( final Logger log, final JobID jobID, final ResourceID jobManagerResourceID, final String jobManagerRpcAddress, final JobMasterId jobMasterId, final String resourceManagerAddress, final ResourceManagerId resourceManagerId, final Executor executor) { super(log, resourceManagerAddress, resourceManagerId, executor); this.jobID = checkNotNull(jobID); this.jobManagerResourceID = checkNotNull(jobManagerResourceID); this.jobManagerRpcAddress = checkNotNull(jobManagerRpcAddress); this.jobMasterId = checkNotNull(jobMasterId); } @Override protected RetryingRegistration generateRegistration() { return new RetryingRegistration( log, getRpcService(), "ResourceManager", ResourceManagerGateway.class, getTargetAddress(), getTargetLeaderId(), jobMasterConfiguration.getRetryingRegistrationConfiguration()) { @Override protected CompletableFuture invokeRegistration( ResourceManagerGateway gateway, ResourceManagerId fencingToken, long timeoutMillis) { Time timeout = Time.milliseconds(timeoutMillis); return gateway.registerJobManager( jobMasterId, jobManagerResourceID, jobManagerRpcAddress, jobID, timeout); } }; } @Override protected void onRegistrationSuccess(final JobMasterRegistrationSuccess success) { runAsync(() -> { // filter out outdated connections //noinspection ObjectEquality if (this == resourceManagerConnection) { establishResourceManagerConnection(success); } }); } @Override protected void onRegistrationFailure(final Throwable failure) { handleJobMasterError(failure); } } //---------------------------------------------------------------------------------------------- private class JobManagerJobStatusListener implements JobStatusListener { private volatile boolean running = true; @Override public void jobStatusChanges( final JobID jobId, final JobStatus newJobStatus, final long timestamp, final Throwable error) { if (running) { // run in rpc thread to avoid concurrency runAsync(() -> jobStatusChanged(newJobStatus, timestamp, error)); } } private void stop() { running = false; } } private class TaskManagerHeartbeatListener implements HeartbeatListener { @Override public void notifyHeartbeatTimeout(ResourceID resourceID) { validateRunsInMainThread(); disconnectTaskManager( resourceID, new TimeoutException("Heartbeat of TaskManager with id " + resourceID + " timed out.")); } @Override public void reportPayload(ResourceID resourceID, AccumulatorReport payload) { validateRunsInMainThread(); for (AccumulatorSnapshot snapshot : payload.getAccumulatorSnapshots()) { schedulerNG.updateAccumulators(snapshot); } } @Override public AllocatedSlotReport retrievePayload(ResourceID resourceID) { validateRunsInMainThread(); return slotPool.createAllocatedSlotReport(resourceID); } } private class ResourceManagerHeartbeatListener implements HeartbeatListener { @Override public void notifyHeartbeatTimeout(final ResourceID resourceId) { validateRunsInMainThread(); log.info("The heartbeat of ResourceManager with id {} timed out.", resourceId); if (establishedResourceManagerConnection != null && establishedResourceManagerConnection.getResourceManagerResourceID().equals(resourceId)) { reconnectToResourceManager( new JobMasterException( String.format("The heartbeat of ResourceManager with id %s timed out.", resourceId))); } } @Override public void reportPayload(ResourceID resourceID, Void payload) { // nothing to do since the payload is of type Void } @Override public Void retrievePayload(ResourceID resourceID) { return null; } } }