private void addLeafTask(TaskAttemptToSchedulerEvent event) { TaskAttempt taskAttempt = event.getTaskAttempt(); List<DataLocation> locations = taskAttempt.getTask().getDataLocations(); for (DataLocation location : locations) { String host = location.getHost(); leafTaskHosts.add(host); HostVolumeMapping hostVolumeMapping = leafTaskHostMapping.get(host); if (hostVolumeMapping == null) { String rack = RackResolver.resolve(host).getNetworkLocation(); hostVolumeMapping = new HostVolumeMapping(host, rack); leafTaskHostMapping.put(host, hostVolumeMapping); } hostVolumeMapping.addTaskAttempt(location.getVolumeId(), taskAttempt); if (LOG.isDebugEnabled()) { LOG.debug("Added attempt req to host " + host); } HashSet<TaskAttemptId> list = leafTasksRackMapping.get(hostVolumeMapping.getRack()); if (list == null) { list = new HashSet<>(); leafTasksRackMapping.put(hostVolumeMapping.getRack(), list); } list.add(taskAttempt.getId()); if (LOG.isDebugEnabled()) { LOG.debug("Added attempt req to rack " + hostVolumeMapping.getRack()); } } leafTasks.add(taskAttempt.getId()); }
private Set<String> resolveRacks(List<String> nodes) { Set<String> racks = new HashSet<String>(); if (nodes != null) { for (String node : nodes) { // Ensure node requests are accompanied by requests for // corresponding rack String rack = RackResolver.resolve(node).getNetworkLocation(); if (rack == null) { LOG.warn("Failed to resolve rack for node " + node + "."); } else { racks.add(rack); } } } return racks; }
@Test public void testHistoryParsingForFailedAttempts() throws Exception { LOG.info("STARTING testHistoryParsingForFailedAttempts"); try { Configuration conf = new Configuration(); conf.setClass( CommonConfigurationKeysPublic.NET_TOPOLOGY_NODE_SWITCH_MAPPING_IMPL_KEY, MyResolver.class, DNSToSwitchMapping.class); RackResolver.init(conf); MRApp app = new MRAppWithHistoryWithFailedAttempt(2, 1, true, this.getClass().getName(), true); app.submit(conf); Job job = app.getContext().getAllJobs().values().iterator().next(); JobId jobId = job.getID(); app.waitForState(job, JobState.SUCCEEDED); // make sure all events are flushed app.waitForState(Service.STATE.STOPPED); String jobhistoryDir = JobHistoryUtils.getHistoryIntermediateDoneDirForUser(conf); JobHistory jobHistory = new JobHistory(); jobHistory.init(conf); JobIndexInfo jobIndexInfo = jobHistory.getJobFileInfo(jobId).getJobIndexInfo(); String jobhistoryFileName = FileNameIndexUtils.getDoneFileName(jobIndexInfo); Path historyFilePath = new Path(jobhistoryDir, jobhistoryFileName); FSDataInputStream in = null; FileContext fc = null; try { fc = FileContext.getFileContext(conf); in = fc.open(fc.makeQualified(historyFilePath)); } catch (IOException ioe) { LOG.info("Can not open history file: " + historyFilePath, ioe); throw (new Exception("Can not open History File")); } JobHistoryParser parser = new JobHistoryParser(in); JobInfo jobInfo = parser.parse(); Exception parseException = parser.getParseException(); Assert.assertNull("Caught an expected exception " + parseException, parseException); int noOffailedAttempts = 0; Map<TaskID, TaskInfo> allTasks = jobInfo.getAllTasks(); for (Task task : job.getTasks().values()) { TaskInfo taskInfo = allTasks.get(TypeConverter.fromYarn(task.getID())); for (TaskAttempt taskAttempt : task.getAttempts().values()) { TaskAttemptInfo taskAttemptInfo = taskInfo.getAllTaskAttempts().get(TypeConverter.fromYarn((taskAttempt.getID()))); // Verify rack-name for all task attempts Assert.assertEquals("rack-name is incorrect", taskAttemptInfo.getRackname(), RACK_NAME); if (taskAttemptInfo.getTaskStatus().equals("FAILED")) { noOffailedAttempts++; } } } Assert.assertEquals("No of Failed tasks doesn't match.", 2, noOffailedAttempts); } finally { LOG.info("FINISHED testHistoryParsingForFailedAttempts"); } }
private void checkHistoryParsing( final int numMaps, final int numReduces, final int numSuccessfulMaps) throws Exception { Configuration conf = new Configuration(); conf.set(MRJobConfig.USER_NAME, System.getProperty("user.name")); long amStartTimeEst = System.currentTimeMillis(); conf.setClass( CommonConfigurationKeysPublic.NET_TOPOLOGY_NODE_SWITCH_MAPPING_IMPL_KEY, MyResolver.class, DNSToSwitchMapping.class); RackResolver.init(conf); MRApp app = new MRAppWithHistory(numMaps, numReduces, true, this.getClass().getName(), true); app.submit(conf); Job job = app.getContext().getAllJobs().values().iterator().next(); JobId jobId = job.getID(); LOG.info("JOBID is " + TypeConverter.fromYarn(jobId).toString()); app.waitForState(job, JobState.SUCCEEDED); // make sure all events are flushed app.waitForState(Service.STATE.STOPPED); String jobhistoryDir = JobHistoryUtils.getHistoryIntermediateDoneDirForUser(conf); FileContext fc = null; try { fc = FileContext.getFileContext(conf); } catch (IOException ioe) { LOG.info("Can not get FileContext", ioe); throw (new Exception("Can not get File Context")); } if (numMaps == numSuccessfulMaps) { String summaryFileName = JobHistoryUtils.getIntermediateSummaryFileName(jobId); Path summaryFile = new Path(jobhistoryDir, summaryFileName); String jobSummaryString = getJobSummary(fc, summaryFile); Assert.assertNotNull(jobSummaryString); Assert.assertTrue(jobSummaryString.contains("resourcesPerMap=100")); Assert.assertTrue(jobSummaryString.contains("resourcesPerReduce=100")); Map<String, String> jobSummaryElements = new HashMap<String, String>(); StringTokenizer strToken = new StringTokenizer(jobSummaryString, ","); while (strToken.hasMoreTokens()) { String keypair = strToken.nextToken(); jobSummaryElements.put(keypair.split("=")[0], keypair.split("=")[1]); } Assert.assertEquals( "JobId does not match", jobId.toString(), jobSummaryElements.get("jobId")); Assert.assertEquals("JobName does not match", "test", jobSummaryElements.get("jobName")); Assert.assertTrue( "submitTime should not be 0", Long.parseLong(jobSummaryElements.get("submitTime")) != 0); Assert.assertTrue( "launchTime should not be 0", Long.parseLong(jobSummaryElements.get("launchTime")) != 0); Assert.assertTrue( "firstMapTaskLaunchTime should not be 0", Long.parseLong(jobSummaryElements.get("firstMapTaskLaunchTime")) != 0); Assert.assertTrue( "firstReduceTaskLaunchTime should not be 0", Long.parseLong(jobSummaryElements.get("firstReduceTaskLaunchTime")) != 0); Assert.assertTrue( "finishTime should not be 0", Long.parseLong(jobSummaryElements.get("finishTime")) != 0); Assert.assertEquals( "Mismatch in num map slots", numSuccessfulMaps, Integer.parseInt(jobSummaryElements.get("numMaps"))); Assert.assertEquals( "Mismatch in num reduce slots", numReduces, Integer.parseInt(jobSummaryElements.get("numReduces"))); Assert.assertEquals( "User does not match", System.getProperty("user.name"), jobSummaryElements.get("user")); Assert.assertEquals("Queue does not match", "default", jobSummaryElements.get("queue")); Assert.assertEquals("Status does not match", "SUCCEEDED", jobSummaryElements.get("status")); } JobHistory jobHistory = new JobHistory(); jobHistory.init(conf); HistoryFileInfo fileInfo = jobHistory.getJobFileInfo(jobId); JobInfo jobInfo; long numFinishedMaps; synchronized (fileInfo) { Path historyFilePath = fileInfo.getHistoryFile(); FSDataInputStream in = null; LOG.info("JobHistoryFile is: " + historyFilePath); try { in = fc.open(fc.makeQualified(historyFilePath)); } catch (IOException ioe) { LOG.info("Can not open history file: " + historyFilePath, ioe); throw (new Exception("Can not open History File")); } JobHistoryParser parser = new JobHistoryParser(in); final EventReader realReader = new EventReader(in); EventReader reader = Mockito.mock(EventReader.class); if (numMaps == numSuccessfulMaps) { reader = realReader; } else { final AtomicInteger numFinishedEvents = new AtomicInteger(0); // Hack! Mockito.when(reader.getNextEvent()) .thenAnswer( new Answer<HistoryEvent>() { public HistoryEvent answer(InvocationOnMock invocation) throws IOException { HistoryEvent event = realReader.getNextEvent(); if (event instanceof TaskFinishedEvent) { numFinishedEvents.incrementAndGet(); } if (numFinishedEvents.get() <= numSuccessfulMaps) { return event; } else { throw new IOException("test"); } } }); } jobInfo = parser.parse(reader); numFinishedMaps = computeFinishedMaps(jobInfo, numMaps, numSuccessfulMaps); if (numFinishedMaps != numMaps) { Exception parseException = parser.getParseException(); Assert.assertNotNull("Didn't get expected parse exception", parseException); } } Assert.assertEquals( "Incorrect username ", System.getProperty("user.name"), jobInfo.getUsername()); Assert.assertEquals("Incorrect jobName ", "test", jobInfo.getJobname()); Assert.assertEquals("Incorrect queuename ", "default", jobInfo.getJobQueueName()); Assert.assertEquals("incorrect conf path", "test", jobInfo.getJobConfPath()); Assert.assertEquals("incorrect finishedMap ", numSuccessfulMaps, numFinishedMaps); Assert.assertEquals("incorrect finishedReduces ", numReduces, jobInfo.getFinishedReduces()); Assert.assertEquals("incorrect uberized ", job.isUber(), jobInfo.getUberized()); Map<TaskID, TaskInfo> allTasks = jobInfo.getAllTasks(); int totalTasks = allTasks.size(); Assert.assertEquals("total number of tasks is incorrect ", (numMaps + numReduces), totalTasks); // Verify aminfo Assert.assertEquals(1, jobInfo.getAMInfos().size()); Assert.assertEquals(MRApp.NM_HOST, jobInfo.getAMInfos().get(0).getNodeManagerHost()); AMInfo amInfo = jobInfo.getAMInfos().get(0); Assert.assertEquals(MRApp.NM_PORT, amInfo.getNodeManagerPort()); Assert.assertEquals(MRApp.NM_HTTP_PORT, amInfo.getNodeManagerHttpPort()); Assert.assertEquals(1, amInfo.getAppAttemptId().getAttemptId()); Assert.assertEquals( amInfo.getAppAttemptId(), amInfo.getContainerId().getApplicationAttemptId()); Assert.assertTrue( amInfo.getStartTime() <= System.currentTimeMillis() && amInfo.getStartTime() >= amStartTimeEst); ContainerId fakeCid = BuilderUtils.newContainerId(-1, -1, -1, -1); // Assert at taskAttempt level for (TaskInfo taskInfo : allTasks.values()) { int taskAttemptCount = taskInfo.getAllTaskAttempts().size(); Assert.assertEquals("total number of task attempts ", 1, taskAttemptCount); TaskAttemptInfo taInfo = taskInfo.getAllTaskAttempts().values().iterator().next(); Assert.assertNotNull(taInfo.getContainerId()); // Verify the wrong ctor is not being used. Remove after mrv1 is removed. Assert.assertFalse(taInfo.getContainerId().equals(fakeCid)); } // Deep compare Job and JobInfo for (Task task : job.getTasks().values()) { TaskInfo taskInfo = allTasks.get(TypeConverter.fromYarn(task.getID())); Assert.assertNotNull("TaskInfo not found", taskInfo); for (TaskAttempt taskAttempt : task.getAttempts().values()) { TaskAttemptInfo taskAttemptInfo = taskInfo.getAllTaskAttempts().get(TypeConverter.fromYarn((taskAttempt.getID()))); Assert.assertNotNull("TaskAttemptInfo not found", taskAttemptInfo); Assert.assertEquals( "Incorrect shuffle port for task attempt", taskAttempt.getShufflePort(), taskAttemptInfo.getShufflePort()); if (numMaps == numSuccessfulMaps) { Assert.assertEquals(MRApp.NM_HOST, taskAttemptInfo.getHostname()); Assert.assertEquals(MRApp.NM_PORT, taskAttemptInfo.getPort()); // Verify rack-name Assert.assertEquals("rack-name is incorrect", taskAttemptInfo.getRackname(), RACK_NAME); } } } }
@Override protected void serviceInit(Configuration conf) throws Exception { RackResolver.init(conf); super.serviceInit(conf); }
private TaskAttemptId allocateRackTask(String host) { List<HostVolumeMapping> remainingTasks = Lists.newArrayList(leafTaskHostMapping.values()); String rack = RackResolver.resolve(host).getNetworkLocation(); TaskAttemptId attemptId = null; if (remainingTasks.size() > 0) { synchronized (scheduledRequests) { // find largest remaining task of other host in rack Collections.sort( remainingTasks, new Comparator<HostVolumeMapping>() { @Override public int compare(HostVolumeMapping v1, HostVolumeMapping v2) { // descending remaining tasks if (v2.remainTasksNum.get() > v1.remainTasksNum.get()) { return 1; } else if (v2.remainTasksNum.get() == v1.remainTasksNum.get()) { return 0; } else { return -1; } } }); } for (HostVolumeMapping tasks : remainingTasks) { for (int i = 0; i < tasks.getRemainingLocalTaskSize(); i++) { TaskAttemptId tId = tasks.getTaskAttemptIdByRack(rack); if (tId == null) break; if (leafTasks.contains(tId)) { leafTasks.remove(tId); attemptId = tId; break; } } if (attemptId != null) break; } } // find task in rack if (attemptId == null) { HashSet<TaskAttemptId> list = leafTasksRackMapping.get(rack); if (list != null) { synchronized (list) { Iterator<TaskAttemptId> iterator = list.iterator(); while (iterator.hasNext()) { TaskAttemptId tId = iterator.next(); iterator.remove(); if (leafTasks.contains(tId)) { leafTasks.remove(tId); attemptId = tId; break; } } } } } return attemptId; }