All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.apache.beam.fn.harness.debug.OutputSampler Maven / Gradle / Ivy

There is a newer version: 2.60.0
Show newest version
/*
 * 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.beam.fn.harness.debug;

import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.concurrent.ThreadLocalRandom;
import java.util.concurrent.atomic.AtomicLong;
import javax.annotation.Nullable;
import org.apache.beam.model.fnexecution.v1.BeamFnApi;
import org.apache.beam.sdk.coders.Coder;
import org.apache.beam.sdk.util.ByteStringOutputStream;
import org.apache.beam.sdk.util.WindowedValue;

/**
 * This class holds samples for a single PCollection until queried by the parent DataSampler. This
 * class is meant to hold only a limited number of elements in memory. So old values are constantly
 * being overridden in a circular buffer.
 *
 * @param  the element type of the PCollection.
 */
public class OutputSampler {

  // Temporarily holds elements until the SDK receives a sample data request.
  private List> buffer;

  // Temporarily holds exceptional elements. These elements can also be duplicated in the main
  // buffer. This is in order to always track exceptional elements even if the number of samples in
  // the main buffer drops it.
  private Map> exceptions = new HashMap<>();

  // Maximum number of elements in buffer.
  private final int maxElements;

  // Sampling rate.
  private final int sampleEveryN;

  // Total number of samples taken.
  private final AtomicLong numSamples = new AtomicLong();

  // Index into the buffer of where to overwrite samples.
  private int resampleIndex = 0;

  // If true, only takes samples when exceptions in UDFs occur.
  private final Boolean onlySampleExceptions;

  @Nullable private final Coder valueCoder;

  @Nullable private final Coder> windowedValueCoder;

  public OutputSampler(
      Coder coder, int maxElements, int sampleEveryN, boolean onlySampleExceptions) {
    this.maxElements = maxElements;
    this.sampleEveryN = sampleEveryN;
    this.buffer = new ArrayList<>(this.maxElements);
    this.onlySampleExceptions = onlySampleExceptions;

    // The samples taken and encoded should match exactly to the specification from the
    // ProcessBundleDescriptor. The coder given can either be a WindowedValueCoder, in which the
    // element itself is sampled. Or, it's non a WindowedValueCoder and the value inside the
    // windowed value must be sampled. This is because WindowedValue is the element type used in
    // all receivers, which doesn't necessarily match the PBD encoding.
    if (coder instanceof WindowedValue.WindowedValueCoder) {
      this.valueCoder = null;
      this.windowedValueCoder = (Coder>) coder;
    } else {
      this.valueCoder = (Coder) coder;
      this.windowedValueCoder = null;
    }
  }

  /**
   * Samples every {@code sampleEveryN}th element or if it is part of the first 10 in the (local)
   * PCollection.
   *
   * 

This method is invoked in parallel by multiple bundle processing threads and in parallel to * any {@link #samples} being returned to a thread handling a sample request. * * @param element the element to sample. */ public ElementSample sample(WindowedValue element) { // Only sample the first 10 elements then after every `sampleEveryN`th element. long samples = numSamples.get() + 1; // This has eventual consistency. If there are many threads lazy setting, this will be set to // the slowest thread accessing the atomic. But over time, it will still increase. This is ok // because this is a debugging feature and doesn't need strict atomics. numSamples.lazySet(samples); ElementSample elementSample = new ElementSample<>(ThreadLocalRandom.current().nextInt(), element); if (onlySampleExceptions || (samples > 10 && samples % sampleEveryN != 0)) { return elementSample; } synchronized (this) { // Fill buffer until maxElements. if (buffer.size() < maxElements) { buffer.add(elementSample); } else { // Then rewrite sampled elements as a circular buffer. buffer.set(resampleIndex, elementSample); resampleIndex = (resampleIndex + 1) % maxElements; } } return elementSample; } /** * Samples an exceptional element to be later queried. The enforces that only one exception occurs * per bundle. * * @param elementSample the sampled element to add an exception to. * @param e the exception. * @param ptransformId the source of the exception. * @param processBundleId the failing bundle. */ public void exception( ElementSample elementSample, Exception e, String ptransformId, String processBundleId) { if (elementSample == null || processBundleId == null) { return; } synchronized (this) { exceptions.computeIfAbsent( processBundleId, pbId -> { elementSample.exception = new ElementSample.ExceptionMetadata(e.toString(), ptransformId); return elementSample; }); } } /** * Fills and returns the BeamFnApi proto. * * @param sample the sampled element. * @param stream the stream to use to serialize the element. * @param processBundleId the bundle the element belongs to. Currently only set when there is an * exception. */ private BeamFnApi.SampledElement sampleToProto( ElementSample sample, ByteStringOutputStream stream, @Nullable String processBundleId) throws IOException { if (valueCoder != null) { this.valueCoder.encode(sample.sample.getValue(), stream, Coder.Context.NESTED); } else if (windowedValueCoder != null) { this.windowedValueCoder.encode(sample.sample, stream, Coder.Context.NESTED); } BeamFnApi.SampledElement.Builder elementBuilder = BeamFnApi.SampledElement.newBuilder().setElement(stream.toByteStringAndReset()); ElementSample.ExceptionMetadata exception = sample.exception; if (exception != null) { BeamFnApi.SampledElement.Exception.Builder exceptionBuilder = BeamFnApi.SampledElement.Exception.newBuilder() .setTransformId(exception.ptransformId) .setError(exception.message); if (processBundleId != null) { exceptionBuilder.setInstructionId(processBundleId); } elementBuilder.setException(exceptionBuilder); } return elementBuilder.build(); } /** * Clears samples at end of call. This is to help mitigate memory use. * *

This method is invoked by a thread handling a data sampling request in parallel to any calls * to {@link #sample}. * * @return samples taken since last call. */ public List samples() throws IOException { List ret = new ArrayList<>(); // Serializing can take a lot of CPU time for larger or complex elements. Copy the array here // so as to not slow down the main processing hot path. List> bufferToSend; Map> exceptionsToSend; int sampleIndex = 0; synchronized (this) { bufferToSend = buffer; buffer = new ArrayList<>(maxElements); exceptionsToSend = exceptions; exceptions = new HashMap<>(exceptions.size()); sampleIndex = resampleIndex; resampleIndex = 0; } // An element can live in both the main samples and exception buffer. Use a small look up table // to deduplicate samples. HashSet seen = new HashSet<>(); ByteStringOutputStream stream = new ByteStringOutputStream(); for (Map.Entry> pair : exceptionsToSend.entrySet()) { String processBundleId = pair.getKey(); ElementSample sample = pair.getValue(); seen.add(sample.id); ret.add(sampleToProto(sample, stream, processBundleId)); } for (int i = 0; i < bufferToSend.size(); i++) { int index = (sampleIndex + i) % bufferToSend.size(); ElementSample sample = bufferToSend.get(index); if (seen.contains(sample.id)) { continue; } ret.add(sampleToProto(sample, stream, null)); } return ret; } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy