use of com.facebook.presto.sql.planner.OutputPartitioning in project presto by prestodb.
the class PrestoSparkTaskExecutorFactory method doCreate.
public <T extends PrestoSparkTaskOutput> IPrestoSparkTaskExecutor<T> doCreate(int partitionId, int attemptNumber, SerializedPrestoSparkTaskDescriptor serializedTaskDescriptor, Iterator<SerializedPrestoSparkTaskSource> serializedTaskSources, PrestoSparkTaskInputs inputs, CollectionAccumulator<SerializedTaskInfo> taskInfoCollector, CollectionAccumulator<PrestoSparkShuffleStats> shuffleStatsCollector, Class<T> outputType) {
PrestoSparkTaskDescriptor taskDescriptor = taskDescriptorJsonCodec.fromJson(serializedTaskDescriptor.getBytes());
ImmutableMap.Builder<String, TokenAuthenticator> extraAuthenticators = ImmutableMap.builder();
authenticatorProviders.forEach(provider -> extraAuthenticators.putAll(provider.getTokenAuthenticators()));
Session session = taskDescriptor.getSession().toSession(sessionPropertyManager, taskDescriptor.getExtraCredentials(), extraAuthenticators.build());
PlanFragment fragment = taskDescriptor.getFragment();
StageId stageId = new StageId(session.getQueryId(), fragment.getId().getId());
// Clear the cache if the cache does not have broadcast table for current stageId.
// We will only cache 1 HT at any time. If the stageId changes, we will drop the old cached HT
prestoSparkBroadcastTableCacheManager.removeCachedTablesForStagesOtherThan(stageId);
// TODO: include attemptId in taskId
TaskId taskId = new TaskId(new StageExecutionId(stageId, 0), partitionId);
List<TaskSource> taskSources = getTaskSources(serializedTaskSources);
log.info("Task [%s] received %d splits.", taskId, taskSources.stream().mapToInt(taskSource -> taskSource.getSplits().size()).sum());
OptionalLong totalSplitSize = computeAllSplitsSize(taskSources);
if (totalSplitSize.isPresent()) {
log.info("Total split size: %s bytes.", totalSplitSize.getAsLong());
}
// TODO: Remove this once we can display the plan on Spark UI.
log.info(PlanPrinter.textPlanFragment(fragment, functionAndTypeManager, session, true));
DataSize maxUserMemory = new DataSize(min(nodeMemoryConfig.getMaxQueryMemoryPerNode().toBytes(), getQueryMaxMemoryPerNode(session).toBytes()), BYTE);
DataSize maxTotalMemory = new DataSize(min(nodeMemoryConfig.getMaxQueryTotalMemoryPerNode().toBytes(), getQueryMaxTotalMemoryPerNode(session).toBytes()), BYTE);
DataSize maxBroadcastMemory = getSparkBroadcastJoinMaxMemoryOverride(session);
if (maxBroadcastMemory == null) {
maxBroadcastMemory = new DataSize(min(nodeMemoryConfig.getMaxQueryBroadcastMemory().toBytes(), getQueryMaxBroadcastMemory(session).toBytes()), BYTE);
}
MemoryPool memoryPool = new MemoryPool(new MemoryPoolId("spark-executor-memory-pool"), maxTotalMemory);
SpillSpaceTracker spillSpaceTracker = new SpillSpaceTracker(maxQuerySpillPerNode);
QueryContext queryContext = new QueryContext(session.getQueryId(), maxUserMemory, maxTotalMemory, maxBroadcastMemory, maxRevocableMemory, memoryPool, new TestingGcMonitor(), notificationExecutor, yieldExecutor, maxQuerySpillPerNode, spillSpaceTracker, memoryReservationSummaryJsonCodec);
queryContext.setVerboseExceededMemoryLimitErrorsEnabled(isVerboseExceededMemoryLimitErrorsEnabled(session));
queryContext.setHeapDumpOnExceededMemoryLimitEnabled(isHeapDumpOnExceededMemoryLimitEnabled(session));
String heapDumpFilePath = Paths.get(getHeapDumpFileDirectory(session), format("%s_%s.hprof", session.getQueryId().getId(), stageId.getId())).toString();
queryContext.setHeapDumpFilePath(heapDumpFilePath);
TaskStateMachine taskStateMachine = new TaskStateMachine(taskId, notificationExecutor);
TaskContext taskContext = queryContext.addTaskContext(taskStateMachine, session, // Plan has to be retained only if verbose memory exceeded errors are requested
isVerboseExceededMemoryLimitErrorsEnabled(session) ? Optional.of(fragment.getRoot()) : Optional.empty(), perOperatorCpuTimerEnabled, cpuTimerEnabled, perOperatorAllocationTrackingEnabled, allocationTrackingEnabled, false);
final double memoryRevokingThreshold = getMemoryRevokingThreshold(session);
final double memoryRevokingTarget = getMemoryRevokingTarget(session);
checkArgument(memoryRevokingTarget <= memoryRevokingThreshold, "memoryRevokingTarget should be less than or equal memoryRevokingThreshold, but got %s and %s respectively", memoryRevokingTarget, memoryRevokingThreshold);
if (isSpillEnabled(session)) {
memoryPool.addListener((pool, queryId, totalMemoryReservationBytes) -> {
if (totalMemoryReservationBytes > queryContext.getPeakNodeTotalMemory()) {
queryContext.setPeakNodeTotalMemory(totalMemoryReservationBytes);
}
if (totalMemoryReservationBytes > pool.getMaxBytes() * memoryRevokingThreshold && memoryRevokeRequestInProgress.compareAndSet(false, true)) {
memoryRevocationExecutor.execute(() -> {
try {
AtomicLong remainingBytesToRevoke = new AtomicLong(totalMemoryReservationBytes - (long) (memoryRevokingTarget * pool.getMaxBytes()));
remainingBytesToRevoke.addAndGet(-MemoryRevokingSchedulerUtils.getMemoryAlreadyBeingRevoked(ImmutableList.of(taskContext), remainingBytesToRevoke.get()));
taskContext.accept(new VoidTraversingQueryContextVisitor<AtomicLong>() {
@Override
public Void visitOperatorContext(OperatorContext operatorContext, AtomicLong remainingBytesToRevoke) {
if (remainingBytesToRevoke.get() > 0) {
long revokedBytes = operatorContext.requestMemoryRevoking();
if (revokedBytes > 0) {
memoryRevokePending.set(true);
remainingBytesToRevoke.addAndGet(-revokedBytes);
}
}
return null;
}
}, remainingBytesToRevoke);
memoryRevokeRequestInProgress.set(false);
} catch (Exception e) {
log.error(e, "Error requesting memory revoking");
}
});
}
// Get the latest memory reservation info since it might have changed due to revoke
long totalReservedMemory = pool.getQueryMemoryReservation(queryId) + pool.getQueryRevocableMemoryReservation(queryId);
// If total memory usage is over maxTotalMemory and memory revoke request is not pending, fail the query with EXCEEDED_MEMORY_LIMIT error
if (totalReservedMemory > maxTotalMemory.toBytes() && !memoryRevokeRequestInProgress.get() && !isMemoryRevokePending(taskContext)) {
throw exceededLocalTotalMemoryLimit(maxTotalMemory, queryContext.getAdditionalFailureInfo(totalReservedMemory, 0) + format("Total reserved memory: %s, Total revocable memory: %s", succinctBytes(pool.getQueryMemoryReservation(queryId)), succinctBytes(pool.getQueryRevocableMemoryReservation(queryId))), isHeapDumpOnExceededMemoryLimitEnabled(session), Optional.ofNullable(heapDumpFilePath));
}
});
}
ImmutableMap.Builder<PlanNodeId, List<PrestoSparkShuffleInput>> shuffleInputs = ImmutableMap.builder();
ImmutableMap.Builder<PlanNodeId, List<java.util.Iterator<PrestoSparkSerializedPage>>> pageInputs = ImmutableMap.builder();
ImmutableMap.Builder<PlanNodeId, List<?>> broadcastInputs = ImmutableMap.builder();
for (RemoteSourceNode remoteSource : fragment.getRemoteSourceNodes()) {
List<PrestoSparkShuffleInput> remoteSourceRowInputs = new ArrayList<>();
List<java.util.Iterator<PrestoSparkSerializedPage>> remoteSourcePageInputs = new ArrayList<>();
List<List<?>> broadcastInputsList = new ArrayList<>();
for (PlanFragmentId sourceFragmentId : remoteSource.getSourceFragmentIds()) {
Iterator<Tuple2<MutablePartitionId, PrestoSparkMutableRow>> shuffleInput = inputs.getShuffleInputs().get(sourceFragmentId.toString());
Broadcast<?> broadcastInput = inputs.getBroadcastInputs().get(sourceFragmentId.toString());
List<PrestoSparkSerializedPage> inMemoryInput = inputs.getInMemoryInputs().get(sourceFragmentId.toString());
if (shuffleInput != null) {
checkArgument(broadcastInput == null, "single remote source is not expected to accept different kind of inputs");
checkArgument(inMemoryInput == null, "single remote source is not expected to accept different kind of inputs");
remoteSourceRowInputs.add(new PrestoSparkShuffleInput(sourceFragmentId.getId(), shuffleInput));
continue;
}
if (broadcastInput != null) {
checkArgument(inMemoryInput == null, "single remote source is not expected to accept different kind of inputs");
// TODO: Enable NullifyingIterator once migrated to one task per JVM model
// NullifyingIterator removes element from the list upon return
// This allows GC to gradually reclaim memory
// remoteSourcePageInputs.add(getNullifyingIterator(broadcastInput.value()));
broadcastInputsList.add((List<?>) broadcastInput.value());
continue;
}
if (inMemoryInput != null) {
// for inmemory inputs pages can be released incrementally to save memory
remoteSourcePageInputs.add(getNullifyingIterator(inMemoryInput));
continue;
}
throw new IllegalArgumentException("Input not found for sourceFragmentId: " + sourceFragmentId);
}
if (!remoteSourceRowInputs.isEmpty()) {
shuffleInputs.put(remoteSource.getId(), remoteSourceRowInputs);
}
if (!remoteSourcePageInputs.isEmpty()) {
pageInputs.put(remoteSource.getId(), remoteSourcePageInputs);
}
if (!broadcastInputsList.isEmpty()) {
broadcastInputs.put(remoteSource.getId(), broadcastInputsList);
}
}
OutputBufferMemoryManager memoryManager = new OutputBufferMemoryManager(sinkMaxBufferSize.toBytes(), () -> queryContext.getTaskContextByTaskId(taskId).localSystemMemoryContext(), notificationExecutor);
Optional<OutputPartitioning> preDeterminedPartition = Optional.empty();
if (fragment.getPartitioningScheme().getPartitioning().getHandle().equals(FIXED_ARBITRARY_DISTRIBUTION)) {
int partitionCount = getHashPartitionCount(session);
preDeterminedPartition = Optional.of(new OutputPartitioning(new PreDeterminedPartitionFunction(partitionId % partitionCount, partitionCount), ImmutableList.of(), ImmutableList.of(), false, OptionalInt.empty()));
}
TempDataOperationContext tempDataOperationContext = new TempDataOperationContext(session.getSource(), session.getQueryId().getId(), session.getClientInfo(), Optional.of(session.getClientTags()), session.getIdentity());
TempStorage tempStorage = tempStorageManager.getTempStorage(storageBasedBroadcastJoinStorage);
Output<T> output = configureOutput(outputType, blockEncodingManager, memoryManager, getShuffleOutputTargetAverageRowSize(session), preDeterminedPartition, tempStorage, tempDataOperationContext, getStorageBasedBroadcastJoinWriteBufferSize(session));
PrestoSparkOutputBuffer<?> outputBuffer = output.getOutputBuffer();
LocalExecutionPlan localExecutionPlan = localExecutionPlanner.plan(taskContext, fragment.getRoot(), fragment.getPartitioningScheme(), fragment.getStageExecutionDescriptor(), fragment.getTableScanSchedulingOrder(), output.getOutputFactory(), new PrestoSparkRemoteSourceFactory(blockEncodingManager, shuffleInputs.build(), pageInputs.build(), broadcastInputs.build(), partitionId, shuffleStatsCollector, tempStorage, tempDataOperationContext, prestoSparkBroadcastTableCacheManager, stageId), taskDescriptor.getTableWriteInfo(), true);
taskStateMachine.addStateChangeListener(state -> {
if (state.isDone()) {
outputBuffer.setNoMoreRows();
}
});
PrestoSparkTaskExecution taskExecution = new PrestoSparkTaskExecution(taskStateMachine, taskContext, localExecutionPlan, taskExecutor, splitMonitor, notificationExecutor, memoryUpdateExecutor);
taskExecution.start(taskSources);
return new PrestoSparkTaskExecutor<>(taskContext, taskStateMachine, output.getOutputSupplier(), taskInfoCodec, taskInfoCollector, shuffleStatsCollector, executionExceptionFactory, output.getOutputBufferType(), outputBuffer, tempStorage, tempDataOperationContext);
}
use of com.facebook.presto.sql.planner.OutputPartitioning in project presto by prestodb.
the class TestOptimizedPartitionedOutputOperator method createOptimizedPartitionedOutputOperator.
private OptimizedPartitionedOutputOperator createOptimizedPartitionedOutputOperator(List<Type> types, List<Integer> partitionChannel, PartitionFunction partitionFunction, PartitionedOutputBuffer buffer, OptionalInt nullChannel, DataSize maxMemory) {
PagesSerdeFactory serdeFactory = new PagesSerdeFactory(new BlockEncodingManager(), false);
OutputPartitioning outputPartitioning = new OutputPartitioning(partitionFunction, partitionChannel, ImmutableList.of(Optional.empty()), false, nullChannel);
OptimizedPartitionedOutputFactory operatorFactory = new OptimizedPartitionedOutputFactory(buffer, maxMemory);
return (OptimizedPartitionedOutputOperator) operatorFactory.createOutputOperator(0, new PlanNodeId("plan-node-0"), types, Function.identity(), Optional.of(outputPartitioning), serdeFactory).createOperator(createDriverContext());
}
use of com.facebook.presto.sql.planner.OutputPartitioning in project presto by prestodb.
the class TestPartitionedOutputOperator method createPartitionedOutputOperator.
private static PartitionedOutputOperator createPartitionedOutputOperator(boolean shouldReplicate) {
PartitionFunction partitionFunction = new LocalPartitionGenerator(new InterpretedHashGenerator(ImmutableList.of(BIGINT), new int[] { 0 }), PARTITION_COUNT);
OutputPartitioning outputPartitioning;
if (shouldReplicate) {
outputPartitioning = new OutputPartitioning(partitionFunction, ImmutableList.of(0), ImmutableList.of(Optional.empty()), true, OptionalInt.of(0));
} else {
outputPartitioning = new OutputPartitioning(partitionFunction, ImmutableList.of(0), ImmutableList.of(Optional.empty(), Optional.empty()), false, OptionalInt.empty());
}
PagesSerdeFactory serdeFactory = new PagesSerdeFactory(new BlockEncodingManager(), false);
DriverContext driverContext = TestingTaskContext.builder(EXECUTOR, SCHEDULER, TEST_SESSION).setMemoryPoolSize(MAX_MEMORY).setQueryMaxTotalMemory(MAX_MEMORY).build().addPipelineContext(0, true, true, false).addDriverContext();
OutputBuffers buffers = createInitialEmptyOutputBuffers(PARTITIONED);
for (int partition = 0; partition < PARTITION_COUNT; partition++) {
buffers = buffers.withBuffer(new OutputBuffers.OutputBufferId(partition), partition);
}
PartitionedOutputBuffer buffer = new PartitionedOutputBuffer("task-instance-id", new StateMachine<>("bufferState", SCHEDULER, OPEN, TERMINAL_BUFFER_STATES), buffers.withNoMoreBufferIds(), new DataSize(Long.MAX_VALUE, BYTE), () -> new SimpleLocalMemoryContext(newSimpleAggregatedMemoryContext(), "test"), SCHEDULER);
buffer.registerLifespanCompletionCallback(ignore -> {
});
PartitionedOutputOperator.PartitionedOutputFactory operatorFactory;
if (shouldReplicate) {
operatorFactory = new PartitionedOutputOperator.PartitionedOutputFactory(buffer, PARTITION_MAX_MEMORY);
return (PartitionedOutputOperator) operatorFactory.createOutputOperator(0, new PlanNodeId("plan-node-0"), REPLICATION_TYPES, Function.identity(), Optional.of(outputPartitioning), serdeFactory).createOperator(driverContext);
} else {
operatorFactory = new PartitionedOutputOperator.PartitionedOutputFactory(buffer, PARTITION_MAX_MEMORY);
return (PartitionedOutputOperator) operatorFactory.createOutputOperator(0, new PlanNodeId("plan-node-0"), TYPES, Function.identity(), Optional.of(outputPartitioning), serdeFactory).createOperator(driverContext);
}
}
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