@SuppressWarnings("unchecked") protected void internalRemoveFromClusterNodeLabels(Collection<String> labelsToRemove) { // remove labels from nodes for (Map.Entry<String, Host> nodeEntry : nodeCollections.entrySet()) { Host host = nodeEntry.getValue(); if (null != host) { host.labels.removeAll(labelsToRemove); for (Node nm : host.nms.values()) { if (nm.labels != null) { nm.labels.removeAll(labelsToRemove); } } } } // remove labels from node labels collection for (String label : labelsToRemove) { labelCollections.remove(label); } // create event to remove labels if (null != dispatcher) { dispatcher.getEventHandler().handle(new RemoveClusterNodeLabels(labelsToRemove)); } LOG.info("Remove labels: [" + StringUtils.join(labelsToRemove.iterator(), ",") + "]"); }
/** Create and initialize (but don't start) a single dag. */ protected DAG createDAG(DAGPlan dagPB) { TezDAGID dagId = new TezDAGID(appAttemptID.getApplicationId(), dagCounter.incrementAndGet()); Iterator<PlanKeyValuePair> iter = dagPB.getDagKeyValues().getConfKeyValuesList().iterator(); Configuration dagConf = new Configuration(amConf); while (iter.hasNext()) { PlanKeyValuePair keyValPair = iter.next(); dagConf.set(keyValPair.getKey(), keyValPair.getValue()); } // create single dag DAG newDag = new DAGImpl( dagId, dagConf, dagPB, dispatcher.getEventHandler(), taskAttemptListener, jobTokenSecretManager, fsTokens, clock, currentUser.getShortUserName(), taskHeartbeatHandler, context); return newDag; } // end createDag()
@SuppressWarnings("unchecked") public void addToCluserNodeLabels(Collection<NodeLabel> labels) throws IOException { if (!nodeLabelsEnabled) { LOG.error(NODE_LABELS_NOT_ENABLED_ERR); throw new IOException(NODE_LABELS_NOT_ENABLED_ERR); } if (null == labels || labels.isEmpty()) { return; } List<NodeLabel> newLabels = new ArrayList<NodeLabel>(); normalizeNodeLabels(labels); // do a check before actual adding them, will throw exception if any of them // doesn't meet label name requirement for (NodeLabel label : labels) { checkAndThrowLabelName(label.getName()); } for (NodeLabel label : labels) { // shouldn't overwrite it to avoid changing the Label.resource if (this.labelCollections.get(label.getName()) == null) { this.labelCollections.put(label.getName(), new RMNodeLabel(label)); newLabels.add(label); } } if (null != dispatcher && !newLabels.isEmpty()) { dispatcher.getEventHandler().handle(new StoreNewClusterNodeLabels(newLabels)); } LOG.info("Add labels: [" + StringUtils.join(labels.iterator(), ",") + "]"); }
private static StubbedJob createStubbedJob( Configuration conf, Dispatcher dispatcher, int numSplits, AppContext appContext) { JobID jobID = JobID.forName("job_1234567890000_0001"); JobId jobId = TypeConverter.toYarn(jobID); if (appContext == null) { appContext = mock(AppContext.class); when(appContext.hasSuccessfullyUnregistered()).thenReturn(true); } StubbedJob job = new StubbedJob( jobId, ApplicationAttemptId.newInstance(ApplicationId.newInstance(0, 0), 0), conf, dispatcher.getEventHandler(), true, "somebody", numSplits, appContext); dispatcher.register(JobEventType.class, job); EventHandler mockHandler = mock(EventHandler.class); dispatcher.register(TaskEventType.class, mockHandler); dispatcher.register(org.apache.hadoop.mapreduce.jobhistory.EventType.class, mockHandler); dispatcher.register(JobFinishEvent.Type.class, mockHandler); return job; }
private static CommitterEventHandler createCommitterEventHandler( Dispatcher dispatcher, OutputCommitter committer) { final SystemClock clock = new SystemClock(); AppContext appContext = mock(AppContext.class); when(appContext.getEventHandler()).thenReturn(dispatcher.getEventHandler()); when(appContext.getClock()).thenReturn(clock); RMHeartbeatHandler heartbeatHandler = new RMHeartbeatHandler() { @Override public long getLastHeartbeatTime() { return clock.getTime(); } @Override public void runOnNextHeartbeat(Runnable callback) { callback.run(); } }; ApplicationAttemptId id = ConverterUtils.toApplicationAttemptId("appattempt_1234567890000_0001_0"); when(appContext.getApplicationID()).thenReturn(id.getApplicationId()); when(appContext.getApplicationAttemptId()).thenReturn(id); CommitterEventHandler handler = new CommitterEventHandler(appContext, committer, heartbeatHandler); dispatcher.register(CommitterEventType.class, handler); return handler; }
@SuppressWarnings({"fallthrough", "unchecked"}) private void finished() { ApplicationId applicationId = containerId.getApplicationAttemptId().getApplicationId(); switch (getContainerState()) { case EXITED_WITH_SUCCESS: metrics.endRunningContainer(); metrics.completedContainer(); NMAuditLogger.logSuccess( user, AuditConstants.FINISH_SUCCESS_CONTAINER, "ContainerImpl", applicationId, containerId); break; case EXITED_WITH_FAILURE: if (wasLaunched) { metrics.endRunningContainer(); } // fall through case LOCALIZATION_FAILED: metrics.failedContainer(); NMAuditLogger.logFailure( user, AuditConstants.FINISH_FAILED_CONTAINER, "ContainerImpl", "Container failed with state: " + getContainerState(), applicationId, containerId); break; case CONTAINER_CLEANEDUP_AFTER_KILL: if (wasLaunched) { metrics.endRunningContainer(); } // fall through case NEW: metrics.killedContainer(); NMAuditLogger.logSuccess( user, AuditConstants.FINISH_KILLED_CONTAINER, "ContainerImpl", applicationId, containerId); } metrics.releaseContainer(this.resource); // Inform the application @SuppressWarnings("rawtypes") EventHandler eventHandler = dispatcher.getEventHandler(); eventHandler.handle(new ApplicationContainerFinishedEvent(containerId)); // Remove the container from the resource-monitor eventHandler.handle(new ContainerStopMonitoringEvent(containerId)); // Tell the logService too eventHandler.handle(new LogHandlerContainerFinishedEvent(containerId, exitCode)); }
@SuppressWarnings("unchecked") // dispatcher not typed public void cleanup() { Map<LocalResourceVisibility, Collection<LocalResourceRequest>> rsrc = new HashMap<LocalResourceVisibility, Collection<LocalResourceRequest>>(); if (!publicRsrcs.isEmpty()) { rsrc.put(LocalResourceVisibility.PUBLIC, publicRsrcs); } if (!privateRsrcs.isEmpty()) { rsrc.put(LocalResourceVisibility.PRIVATE, privateRsrcs); } if (!appRsrcs.isEmpty()) { rsrc.put(LocalResourceVisibility.APPLICATION, appRsrcs); } dispatcher.getEventHandler().handle(new ContainerLocalizationCleanupEvent(this, rsrc)); }
@SuppressWarnings("unchecked") @Override public void serviceStart() throws Exception { // start all the components startServices(); super.serviceStart(); this.state = DAGAppMasterState.IDLE; // metrics system init is really init & start. // It's more test friendly to put it here. DefaultMetricsSystem.initialize("DAGAppMaster"); this.appsStartTime = clock.getTime(); AMStartedEvent startEvent = new AMStartedEvent(appAttemptID, startTime, appsStartTime, appSubmitTime); dispatcher.getEventHandler().handle(new DAGHistoryEvent(startEvent)); this.lastDAGCompletionTime = clock.getTime(); if (!isSession) { startDAG(); } else { LOG.info("In Session mode. Waiting for DAG over RPC"); this.dagSubmissionTimer = new Timer(true); this.dagSubmissionTimer.scheduleAtFixedRate( new TimerTask() { @Override public void run() { checkAndHandleSessionTimeout(); } }, sessionTimeoutInterval, sessionTimeoutInterval / 10); } }
@SuppressWarnings("unchecked") protected void internalUpdateLabelsOnNodes( Map<NodeId, Set<String>> nodeToLabels, NodeLabelUpdateOperation op) throws IOException { // do update labels from nodes Map<NodeId, Set<String>> newNMToLabels = new HashMap<NodeId, Set<String>>(); Set<String> oldLabels; for (Entry<NodeId, Set<String>> entry : nodeToLabels.entrySet()) { NodeId nodeId = entry.getKey(); Set<String> labels = entry.getValue(); createHostIfNonExisted(nodeId.getHost()); if (nodeId.getPort() == WILDCARD_PORT) { Host host = nodeCollections.get(nodeId.getHost()); switch (op) { case REMOVE: removeNodeFromLabels(nodeId, labels); host.labels.removeAll(labels); for (Node node : host.nms.values()) { if (node.labels != null) { node.labels.removeAll(labels); } removeNodeFromLabels(node.nodeId, labels); } break; case ADD: addNodeToLabels(nodeId, labels); host.labels.addAll(labels); for (Node node : host.nms.values()) { if (node.labels != null) { node.labels.addAll(labels); } addNodeToLabels(node.nodeId, labels); } break; case REPLACE: replaceNodeForLabels(nodeId, host.labels, labels); host.labels.clear(); host.labels.addAll(labels); for (Node node : host.nms.values()) { replaceNodeForLabels(node.nodeId, node.labels, labels); node.labels = null; } break; default: break; } newNMToLabels.put(nodeId, host.labels); } else { if (EnumSet.of(NodeLabelUpdateOperation.ADD, NodeLabelUpdateOperation.REPLACE) .contains(op)) { // Add and replace createNodeIfNonExisted(nodeId); Node nm = getNMInNodeSet(nodeId); switch (op) { case ADD: addNodeToLabels(nodeId, labels); if (nm.labels == null) { nm.labels = new HashSet<String>(); } nm.labels.addAll(labels); break; case REPLACE: oldLabels = getLabelsByNode(nodeId); replaceNodeForLabels(nodeId, oldLabels, labels); if (nm.labels == null) { nm.labels = new HashSet<String>(); } nm.labels.clear(); nm.labels.addAll(labels); break; default: break; } newNMToLabels.put(nodeId, nm.labels); } else { // remove removeNodeFromLabels(nodeId, labels); Node nm = getNMInNodeSet(nodeId); if (nm.labels != null) { nm.labels.removeAll(labels); newNMToLabels.put(nodeId, nm.labels); } } } } if (null != dispatcher && !isDistributedNodeLabelConfiguration) { // In case of DistributedNodeLabelConfiguration, no need to save the the // NodeLabels Mapping to the back-end store, as on RM restart/failover // NodeLabels are collected from NM through Register/Heartbeat again dispatcher.getEventHandler().handle(new UpdateNodeToLabelsMappingsEvent(newNMToLabels)); } // shows node->labels we added LOG.info(op.name() + " labels on nodes:"); for (Entry<NodeId, Set<String>> entry : newNMToLabels.entrySet()) { LOG.info( " NM=" + entry.getKey() + ", labels=[" + StringUtils.join(entry.getValue().iterator(), ",") + "]"); } }
@Override public void serviceInit(final Configuration conf) throws Exception { this.state = DAGAppMasterState.INITED; this.amConf = conf; conf.setBoolean(Dispatcher.DISPATCHER_EXIT_ON_ERROR_KEY, true); downloadTokensAndSetupUGI(conf); context = new RunningAppContext(conf); clientHandler = new DAGClientHandler(); dispatcher = createDispatcher(); addIfService(dispatcher, false); clientRpcServer = new DAGClientServer(clientHandler); addIfService(clientRpcServer, true); taskHeartbeatHandler = createTaskHeartbeatHandler(context, conf); addIfService(taskHeartbeatHandler, true); containerHeartbeatHandler = createContainerHeartbeatHandler(context, conf); addIfService(containerHeartbeatHandler, true); // service to handle requests to TaskUmbilicalProtocol taskAttemptListener = createTaskAttemptListener(context, taskHeartbeatHandler, containerHeartbeatHandler); addIfService(taskAttemptListener, true); containers = new AMContainerMap(containerHeartbeatHandler, taskAttemptListener, context); addIfService(containers, true); dispatcher.register(AMContainerEventType.class, containers); nodes = new AMNodeMap(dispatcher.getEventHandler(), context); addIfService(nodes, true); dispatcher.register(AMNodeEventType.class, nodes); // service to do the task cleanup taskCleaner = createTaskCleaner(context); addIfService(taskCleaner, true); this.dagEventDispatcher = new DagEventDispatcher(); this.vertexEventDispatcher = new VertexEventDispatcher(); // register the event dispatchers dispatcher.register(DAGAppMasterEventType.class, new DAGAppMasterEventHandler()); dispatcher.register(DAGEventType.class, dagEventDispatcher); dispatcher.register(VertexEventType.class, vertexEventDispatcher); dispatcher.register(TaskEventType.class, new TaskEventDispatcher()); dispatcher.register(TaskAttemptEventType.class, new TaskAttemptEventDispatcher()); dispatcher.register(TaskCleaner.EventType.class, taskCleaner); taskSchedulerEventHandler = new TaskSchedulerEventHandler(context, clientRpcServer, dispatcher.getEventHandler()); addIfService(taskSchedulerEventHandler, true); dispatcher.register(AMSchedulerEventType.class, taskSchedulerEventHandler); addIfServiceDependency(taskSchedulerEventHandler, clientRpcServer); containerLauncher = createContainerLauncher(context); addIfService(containerLauncher, true); dispatcher.register(NMCommunicatorEventType.class, containerLauncher); historyEventHandler = new HistoryEventHandler(context); addIfService(historyEventHandler, true); dispatcher.register(HistoryEventType.class, historyEventHandler); this.sessionTimeoutInterval = 1000 * amConf.getInt( TezConfiguration.TEZ_SESSION_AM_DAG_SUBMIT_TIMEOUT_SECS, TezConfiguration.TEZ_SESSION_AM_DAG_SUBMIT_TIMEOUT_SECS_DEFAULT); initServices(conf); super.serviceInit(conf); }
@SuppressWarnings("unchecked") private void sendEvent(Event<?> event) { dispatcher.getEventHandler().handle(event); }