use of io.druid.segment.realtime.SegmentPublisher in project druid by druid-io.
the class RealtimePlumberSchoolTest method setUp.
@Before
public void setUp() throws Exception {
tmpDir = Files.createTempDir();
ObjectMapper jsonMapper = new DefaultObjectMapper();
schema = new DataSchema("test", jsonMapper.convertValue(new StringInputRowParser(new JSONParseSpec(new TimestampSpec("timestamp", "auto", null), new DimensionsSpec(null, null, null), null, null), null), Map.class), new AggregatorFactory[] { new CountAggregatorFactory("rows") }, new UniformGranularitySpec(Granularities.HOUR, Granularities.NONE, null), jsonMapper);
schema2 = new DataSchema("test", jsonMapper.convertValue(new StringInputRowParser(new JSONParseSpec(new TimestampSpec("timestamp", "auto", null), new DimensionsSpec(null, null, null), null, null), null), Map.class), new AggregatorFactory[] { new CountAggregatorFactory("rows") }, new UniformGranularitySpec(Granularities.YEAR, Granularities.NONE, null), jsonMapper);
announcer = EasyMock.createMock(DataSegmentAnnouncer.class);
announcer.announceSegment(EasyMock.<DataSegment>anyObject());
EasyMock.expectLastCall().anyTimes();
segmentPublisher = EasyMock.createNiceMock(SegmentPublisher.class);
dataSegmentPusher = EasyMock.createNiceMock(DataSegmentPusher.class);
handoffNotifierFactory = EasyMock.createNiceMock(SegmentHandoffNotifierFactory.class);
handoffNotifier = EasyMock.createNiceMock(SegmentHandoffNotifier.class);
EasyMock.expect(handoffNotifierFactory.createSegmentHandoffNotifier(EasyMock.anyString())).andReturn(handoffNotifier).anyTimes();
EasyMock.expect(handoffNotifier.registerSegmentHandoffCallback(EasyMock.<SegmentDescriptor>anyObject(), EasyMock.<Executor>anyObject(), EasyMock.<Runnable>anyObject())).andReturn(true).anyTimes();
emitter = EasyMock.createMock(ServiceEmitter.class);
EasyMock.replay(announcer, segmentPublisher, dataSegmentPusher, handoffNotifierFactory, handoffNotifier, emitter);
tuningConfig = new RealtimeTuningConfig(1, null, null, null, new IntervalStartVersioningPolicy(), rejectionPolicy, null, null, null, buildV9Directly, 0, 0, false, null);
realtimePlumberSchool = new RealtimePlumberSchool(emitter, new DefaultQueryRunnerFactoryConglomerate(Maps.<Class<? extends Query>, QueryRunnerFactory>newHashMap()), dataSegmentPusher, announcer, segmentPublisher, handoffNotifierFactory, MoreExecutors.sameThreadExecutor(), TestHelper.getTestIndexMerger(), TestHelper.getTestIndexMergerV9(), TestHelper.getTestIndexIO(), MapCache.create(0), FireDepartmentTest.NO_CACHE_CONFIG, TestHelper.getObjectMapper());
metrics = new FireDepartmentMetrics();
plumber = (RealtimePlumber) realtimePlumberSchool.findPlumber(schema, tuningConfig, metrics);
}
use of io.druid.segment.realtime.SegmentPublisher in project druid by druid-io.
the class RealtimeIndexTask method run.
@Override
public TaskStatus run(final TaskToolbox toolbox) throws Exception {
runThread = Thread.currentThread();
if (this.plumber != null) {
throw new IllegalStateException("WTF?!? run with non-null plumber??!");
}
boolean normalExit = true;
// It would be nice to get the PlumberSchool in the constructor. Although that will need jackson injectables for
// stuff like the ServerView, which seems kind of odd? Perhaps revisit this when Guice has been introduced.
final SegmentPublisher segmentPublisher = new TaskActionSegmentPublisher(this, toolbox);
// NOTE: We talk to the coordinator in various places in the plumber and we could be more robust to issues
// with the coordinator. Right now, we'll block/throw in whatever thread triggered the coordinator behavior,
// which will typically be either the main data processing loop or the persist thread.
// Wrap default DataSegmentAnnouncer such that we unlock intervals as we unannounce segments
final DataSegmentAnnouncer lockingSegmentAnnouncer = new DataSegmentAnnouncer() {
@Override
public void announceSegment(final DataSegment segment) throws IOException {
// Side effect: Calling announceSegment causes a lock to be acquired
toolbox.getTaskActionClient().submit(new LockAcquireAction(segment.getInterval()));
toolbox.getSegmentAnnouncer().announceSegment(segment);
}
@Override
public void unannounceSegment(final DataSegment segment) throws IOException {
try {
toolbox.getSegmentAnnouncer().unannounceSegment(segment);
} finally {
toolbox.getTaskActionClient().submit(new LockReleaseAction(segment.getInterval()));
}
}
@Override
public void announceSegments(Iterable<DataSegment> segments) throws IOException {
// Side effect: Calling announceSegments causes locks to be acquired
for (DataSegment segment : segments) {
toolbox.getTaskActionClient().submit(new LockAcquireAction(segment.getInterval()));
}
toolbox.getSegmentAnnouncer().announceSegments(segments);
}
@Override
public void unannounceSegments(Iterable<DataSegment> segments) throws IOException {
try {
toolbox.getSegmentAnnouncer().unannounceSegments(segments);
} finally {
for (DataSegment segment : segments) {
toolbox.getTaskActionClient().submit(new LockReleaseAction(segment.getInterval()));
}
}
}
@Override
public boolean isAnnounced(DataSegment segment) {
return toolbox.getSegmentAnnouncer().isAnnounced(segment);
}
};
// NOTE: getVersion will block if there is lock contention, which will block plumber.getSink
// NOTE: (and thus the firehose)
// Shouldn't usually happen, since we don't expect people to submit tasks that intersect with the
// realtime window, but if they do it can be problematic. If we decide to care, we can use more threads in
// the plumber such that waiting for the coordinator doesn't block data processing.
final VersioningPolicy versioningPolicy = new VersioningPolicy() {
@Override
public String getVersion(final Interval interval) {
try {
// Side effect: Calling getVersion causes a lock to be acquired
final TaskLock myLock = toolbox.getTaskActionClient().submit(new LockAcquireAction(interval));
return myLock.getVersion();
} catch (IOException e) {
throw Throwables.propagate(e);
}
}
};
DataSchema dataSchema = spec.getDataSchema();
RealtimeIOConfig realtimeIOConfig = spec.getIOConfig();
RealtimeTuningConfig tuningConfig = spec.getTuningConfig().withBasePersistDirectory(new File(toolbox.getTaskWorkDir(), "persist")).withVersioningPolicy(versioningPolicy);
final FireDepartment fireDepartment = new FireDepartment(dataSchema, realtimeIOConfig, tuningConfig);
this.metrics = fireDepartment.getMetrics();
final RealtimeMetricsMonitor metricsMonitor = new RealtimeMetricsMonitor(ImmutableList.of(fireDepartment), ImmutableMap.of(DruidMetrics.TASK_ID, new String[] { getId() }));
this.queryRunnerFactoryConglomerate = toolbox.getQueryRunnerFactoryConglomerate();
// NOTE: This pusher selects path based purely on global configuration and the DataSegment, which means
// NOTE: that redundant realtime tasks will upload to the same location. This can cause index.zip
// NOTE: (partitionNum_index.zip for HDFS data storage) and descriptor.json (partitionNum_descriptor.json for
// NOTE: HDFS data storage) to mismatch, or it can cause historical nodes to load different instances of
// NOTE: the "same" segment.
final PlumberSchool plumberSchool = new RealtimePlumberSchool(toolbox.getEmitter(), toolbox.getQueryRunnerFactoryConglomerate(), toolbox.getSegmentPusher(), lockingSegmentAnnouncer, segmentPublisher, toolbox.getSegmentHandoffNotifierFactory(), toolbox.getQueryExecutorService(), toolbox.getIndexMerger(), toolbox.getIndexMergerV9(), toolbox.getIndexIO(), toolbox.getCache(), toolbox.getCacheConfig(), toolbox.getObjectMapper());
this.plumber = plumberSchool.findPlumber(dataSchema, tuningConfig, metrics);
Supplier<Committer> committerSupplier = null;
try {
plumber.startJob();
// Set up metrics emission
toolbox.getMonitorScheduler().addMonitor(metricsMonitor);
// Delay firehose connection to avoid claiming input resources while the plumber is starting up.
final FirehoseFactory firehoseFactory = spec.getIOConfig().getFirehoseFactory();
final boolean firehoseDrainableByClosing = isFirehoseDrainableByClosing(firehoseFactory);
// Skip connecting firehose if we've been stopped before we got started.
synchronized (this) {
if (!gracefullyStopped) {
firehose = firehoseFactory.connect(spec.getDataSchema().getParser());
committerSupplier = Committers.supplierFromFirehose(firehose);
}
}
// Time to read data!
while (firehose != null && (!gracefullyStopped || firehoseDrainableByClosing) && firehose.hasMore()) {
Plumbers.addNextRow(committerSupplier, firehose, plumber, tuningConfig.isReportParseExceptions(), metrics);
}
} catch (Throwable e) {
normalExit = false;
log.makeAlert(e, "Exception aborted realtime processing[%s]", dataSchema.getDataSource()).emit();
throw e;
} finally {
if (normalExit) {
try {
// Persist if we had actually started.
if (firehose != null) {
log.info("Persisting remaining data.");
final Committer committer = committerSupplier.get();
final CountDownLatch persistLatch = new CountDownLatch(1);
plumber.persist(new Committer() {
@Override
public Object getMetadata() {
return committer.getMetadata();
}
@Override
public void run() {
try {
committer.run();
} finally {
persistLatch.countDown();
}
}
});
persistLatch.await();
}
if (gracefullyStopped) {
log.info("Gracefully stopping.");
} else {
log.info("Finishing the job.");
synchronized (this) {
if (gracefullyStopped) {
// Someone called stopGracefully after we checked the flag. That's okay, just stop now.
log.info("Gracefully stopping.");
} else {
finishingJob = true;
}
}
if (finishingJob) {
plumber.finishJob();
}
}
} catch (InterruptedException e) {
log.debug(e, "Interrupted while finishing the job");
} catch (Exception e) {
log.makeAlert(e, "Failed to finish realtime task").emit();
throw e;
} finally {
if (firehose != null) {
CloseQuietly.close(firehose);
}
toolbox.getMonitorScheduler().removeMonitor(metricsMonitor);
}
}
}
log.info("Job done!");
return TaskStatus.success(getId());
}
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