otterc commented on a change in pull request #30062: URL: https://github.com/apache/spark/pull/30062#discussion_r510532892
########## File path: common/network-shuffle/src/main/java/org/apache/spark/network/shuffle/RemoteBlockPushResolver.java ########## @@ -0,0 +1,915 @@ +/* + * 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.spark.network.shuffle; + +import java.io.BufferedOutputStream; +import java.io.DataOutputStream; +import java.io.File; +import java.io.FileOutputStream; +import java.io.IOException; +import java.nio.ByteBuffer; +import java.nio.channels.FileChannel; +import java.nio.file.Files; +import java.nio.file.Path; +import java.nio.file.Paths; +import java.util.Arrays; +import java.util.Iterator; +import java.util.LinkedList; +import java.util.List; +import java.util.Map; +import java.util.concurrent.ConcurrentMap; +import java.util.concurrent.ExecutionException; +import java.util.concurrent.Executor; +import java.util.concurrent.Executors; + +import com.google.common.base.Objects; +import com.google.common.base.Preconditions; +import com.google.common.cache.CacheBuilder; +import com.google.common.cache.CacheLoader; +import com.google.common.cache.LoadingCache; +import com.google.common.cache.Weigher; +import com.google.common.collect.Maps; +import com.google.common.primitives.Ints; +import com.google.common.primitives.Longs; +import io.netty.buffer.ByteBuf; +import io.netty.buffer.Unpooled; +import org.roaringbitmap.RoaringBitmap; +import org.slf4j.Logger; +import org.slf4j.LoggerFactory; + +import org.apache.spark.network.buffer.FileSegmentManagedBuffer; +import org.apache.spark.network.buffer.ManagedBuffer; +import org.apache.spark.network.client.StreamCallbackWithID; +import org.apache.spark.network.protocol.Encoders; +import org.apache.spark.network.shuffle.protocol.FinalizeShuffleMerge; +import org.apache.spark.network.shuffle.protocol.MergeStatuses; +import org.apache.spark.network.shuffle.protocol.PushBlockStream; +import org.apache.spark.network.util.JavaUtils; +import org.apache.spark.network.util.NettyUtils; +import org.apache.spark.network.util.TransportConf; + +/** + * An implementation of {@link MergedShuffleFileManager} that provides the most essential shuffle + * service processing logic to support push based shuffle. + */ +public class RemoteBlockPushResolver implements MergedShuffleFileManager { + + private static final Logger logger = LoggerFactory.getLogger(RemoteBlockPushResolver.class); + private static final String MERGE_MANAGER_DIR = "merge_manager"; + + private final ConcurrentMap<String, AppPathsInfo> appsPathInfo; + private final ConcurrentMap<AppShufflePartitionId, AppShufflePartitionInfo> partitions; + + private final Executor directoryCleaner; + private final TransportConf conf; + private final int minChunkSize; + private final String relativeMergeDirPathPattern; + private final ErrorHandler.BlockPushErrorHandler errorHandler; + + @SuppressWarnings("UnstableApiUsage") + private final LoadingCache<File, ShuffleIndexInformation> indexCache; + + @SuppressWarnings("UnstableApiUsage") + public RemoteBlockPushResolver(TransportConf conf, String relativeMergeDirPathPattern) { + this.conf = conf; + this.partitions = Maps.newConcurrentMap(); + this.appsPathInfo = Maps.newConcurrentMap(); + this.directoryCleaner = Executors.newSingleThreadExecutor( + // Add `spark` prefix because it will run in NM in Yarn mode. + NettyUtils.createThreadFactory("spark-shuffle-merged-shuffle-directory-cleaner")); + this.minChunkSize = conf.minChunkSizeInMergedShuffleFile(); + CacheLoader<File, ShuffleIndexInformation> indexCacheLoader = + new CacheLoader<File, ShuffleIndexInformation>() { + public ShuffleIndexInformation load(File file) throws IOException { + return new ShuffleIndexInformation(file); + } + }; + indexCache = CacheBuilder.newBuilder() + .maximumWeight(conf.mergedIndexCacheSize()) + .weigher((Weigher<File, ShuffleIndexInformation>) (file, indexInfo) -> indexInfo.getSize()) + .build(indexCacheLoader); + this.relativeMergeDirPathPattern = relativeMergeDirPathPattern; + this.errorHandler = new ErrorHandler.BlockPushErrorHandler(); + } + + /** + * Given an ID that uniquely identifies a given shuffle partition of an application, retrieves + * the associated metadata. If not present and the corresponding merged shuffle does not exist, + * initializes the metadata. + */ + private AppShufflePartitionInfo getOrCreateAppShufflePartitionInfo( + AppShufflePartitionId id) { + return partitions.computeIfAbsent(id, key -> { + // It only gets here when the key is not present in the map. This could either + // be the first time the merge manager receives a pushed block for a given application + // shuffle partition, or after the merged shuffle file is finalized. We handle these + // two cases accordingly by checking if the file already exists. + File mergedShuffleFile = getMergedShuffleFile(key); + File mergedIndexFile = getMergedIndexFile(id); + File mergedMetaFile = getMergedMetaFile(id); + try { + if (mergedShuffleFile.exists()) { + return null; + } else { + return new AppShufflePartitionInfo(id, mergedShuffleFile, mergedIndexFile, + mergedMetaFile); + } + } catch (IOException e) { + logger.error( + "Cannot create merged shuffle partition {} with shuffle file {}, index file {}, and " + + "meta file {}", key, mergedIndexFile.getAbsolutePath(), + mergedIndexFile.getAbsolutePath(), mergedMetaFile.getAbsolutePath()); + throw new RuntimeException(String.format( + "Cannot initialize merged shuffle partition %s", key.toString()), e); + } + }); + } + + @Override + public MergedBlockMeta getMergedBlockMeta( + String appId, + int shuffleId, + int reduceId) { + AppShufflePartitionId id = new AppShufflePartitionId(appId, shuffleId, reduceId); + File indexFile = getMergedIndexFile(id); + if (!indexFile.exists()) { + throw new RuntimeException( + String.format("Application merged shuffle index file is not found (id=%s)", + id.toString())); + } + int size = (int) indexFile.length(); + // First entry is the zero offset + int numChunks = (size / Long.BYTES) - 1; + File metaFile = getMergedMetaFile(id); + if (!metaFile.exists()) { + throw new RuntimeException( + String.format("Application merged shuffle meta file is not found (id=%s)", + id.toString())); + } + FileSegmentManagedBuffer chunkBitMaps = + new FileSegmentManagedBuffer(conf, metaFile, 0L, metaFile.length()); + logger.trace( + "{} shuffleId {} reduceId {} num chunks {}", appId, shuffleId, reduceId, numChunks); + return new MergedBlockMeta(numChunks, chunkBitMaps); + } + + @SuppressWarnings("UnstableApiUsage") + @Override + public ManagedBuffer getMergedBlockData(String appId, int shuffleId, int reduceId, int chunkId) { + AppShufflePartitionId id = new AppShufflePartitionId(appId, shuffleId, reduceId); + File mergedShuffleFile = getMergedShuffleFile(id); + if (!mergedShuffleFile.exists()) { + throw new RuntimeException( + String.format("Merged shuffle file %s of %s not found", mergedShuffleFile.getPath(), + id.toString())); + } + File indexFile = getMergedIndexFile(id); + try { + // If we get here, the merged shuffle file should have been properly finalized. Thus we can + // use the file length to determine the size of the merged shuffle block. + ShuffleIndexInformation shuffleIndexInformation = indexCache.get(indexFile); + ShuffleIndexRecord shuffleIndexRecord = shuffleIndexInformation.getIndex(chunkId); + return new FileSegmentManagedBuffer( + conf, + mergedShuffleFile, + shuffleIndexRecord.getOffset(), + shuffleIndexRecord.getLength()); + } catch (ExecutionException e) { + throw new RuntimeException("Failed to open file: " + indexFile, e); + } + } + + /** + * The logic here is consistent with + * org.apache.spark.storage.DiskBlockManager#getMergedShuffleFile + */ + // TODO should we use subDirsPerLocalDir to potentially reduce inode size? + private File getFile(String appId, String filename) { + int hash = JavaUtils.nonNegativeHash(filename); + // TODO: Change the message when this service is able to handle NM restart + AppPathsInfo appPathsInfo = Preconditions.checkNotNull( + appsPathInfo.get(appId), + "application " + appId + " is not registered or NM was restarted."); + Path[] activeLocalDirs = getActiveLocalDirs(appPathsInfo.activeLocalDirs); + Path localDir = activeLocalDirs[hash % activeLocalDirs.length]; + String relativePath = getRelativePath(appPathsInfo.user, appId); + Path filePath = localDir.resolve(relativePath); + File targetFile = new File(filePath.toFile(), filename); + logger.debug("Get merged file {}", targetFile.getAbsolutePath()); + return targetFile; + } + + private Path[] getActiveLocalDirs(String[] activeLocalDirs) { + Preconditions.checkNotNull(activeLocalDirs, + "Active local dirs list has not been updated by any executor registration"); + return + Arrays.stream(activeLocalDirs).map(localDir -> Paths.get(localDir)).toArray(Path[]::new); + } + + private String getRelativePath(String user, String appId) { + return String.format(relativeMergeDirPathPattern + MERGE_MANAGER_DIR, user, appId); + } + + private File getMergedShuffleFile(AppShufflePartitionId id) { + String fileName = id.generateFileName(); + return getFile(id.appId, fileName); + } + + private File getMergedIndexFile(AppShufflePartitionId id) { + String indexName = id.generateIndexFileName(); + return getFile(id.appId, indexName); + } + + private File getMergedMetaFile(AppShufflePartitionId id) { + String metaName = id.generateMetaFileName(); + return getFile(id.appId, metaName); + } + + @Override + public String[] getMergedBlockDirs(String appId) { + AppPathsInfo appPathsInfo = Preconditions.checkNotNull( + appsPathInfo.get(appId), + "application " + appId + " is not registered or NM was restarted."); + String[] activeLocalDirs = Preconditions.checkNotNull( + appsPathInfo.get(appId).activeLocalDirs, + "application " + appId + + " active local dirs list has not been updated by any executor registration"); + return Arrays.stream(activeLocalDirs) + .map(dir -> dir + getRelativePath(appPathsInfo.user, appId)) + .toArray(String[]::new); + } + + @Override + public void applicationRemoved(String appId, boolean cleanupLocalDirs) { + logger.info("Application {} removed, cleanupLocalDirs = {}", appId, cleanupLocalDirs); + // TODO: Change the message when this service is able to handle NM restart + AppPathsInfo appPathsInfo = Preconditions.checkNotNull( + appsPathInfo.remove(appId), + "application " + appId + " is not registered or NM was restarted."); + Iterator<Map.Entry<AppShufflePartitionId, AppShufflePartitionInfo>> iterator = + partitions.entrySet().iterator(); + while (iterator.hasNext()) { + Map.Entry<AppShufflePartitionId, AppShufflePartitionInfo> entry = iterator.next(); + AppShufflePartitionId partitionId = entry.getKey(); + AppShufflePartitionInfo partition = entry.getValue(); + if (appId.equals(partitionId.appId)) { + iterator.remove(); + try { + partition.channel.close(); + } catch (IOException e) { + logger.error("Error closing merged shuffle file for {}", partitionId); + } + } + } + + if (cleanupLocalDirs) { + Path[] dirs = Arrays.stream(getActiveLocalDirs(appPathsInfo.activeLocalDirs)) + .map(dir -> dir.resolve(getRelativePath(appPathsInfo.user, appId))) + .toArray(Path[]::new); + directoryCleaner.execute(() -> deleteExecutorDirs(dirs)); + } + } + + /** + * Synchronously delete local dirs, executed in a separate thread. + */ + private void deleteExecutorDirs(Path[] dirs) { + for (Path localDir : dirs) { + try { + if (Files.exists(localDir)) { + JavaUtils.deleteRecursively(localDir.toFile()); + logger.debug("Successfully cleaned up directory: {}", localDir); + } + } catch (Exception e) { + logger.error("Failed to delete directory: {}", localDir, e); + } + } + } + + @Override + public StreamCallbackWithID receiveBlockDataAsStream(PushBlockStream msg) { + // Retrieve merged shuffle file metadata + String[] blockIdParts = msg.blockId.split("_"); + if (blockIdParts.length != 4 || !blockIdParts[0].equals("shuffle")) { + throw new IllegalArgumentException("Unexpected shuffle block id format: " + msg.blockId); + } + AppShufflePartitionId partitionId = new AppShufflePartitionId(msg.appId, + Integer.parseInt(blockIdParts[1]), Integer.parseInt(blockIdParts[3])); + int mapId = Integer.parseInt(blockIdParts[2]); + AppShufflePartitionInfo partitionInfoBeforeCheck = + getOrCreateAppShufflePartitionInfo(partitionId); + + // Here partitionInfo will be null in 2 cases: + // 1) The request is received for a block that has already been merged, this is possible due + // to the retry logic. + // 2) The request is received after the merged shuffle is finalized, thus is too late. + // + // For case 1, we will drain the data in the channel and just respond success + // to the client. This is required because the response of the previously merged + // block will be ignored by the client, per the logic in RetryingBlockFetcher. + // Note that the netty server should receive data for a given block id only from 1 channel + // at any time. The block should be pushed only from successful maps, thus there should be + // only 1 source for a given block at any time. Although the netty client might retry sending + // this block to the server multiple times, the data of the same block always arrives from the + // same channel thus the server should have already processed the previous request of this + // block before seeing it again in the channel. This guarantees that we can simply just + // check the bitmap to determine if a block is a duplicate or not. + // + // For case 2, we will also drain the data in the channel, but throw an exception in + // {@link org.apache.spark.network.client.StreamCallback#onComplete(String)}. This way, + // the client will be notified of the failure but the channel will remain active. Keeping + // the channel alive is important because the same channel could be reused by multiple map + // tasks in the executor JVM, which belongs to different stages. While one of the shuffles + // in these stages is finalized, the others might still be active. Tearing down the channel + // on the server side will disrupt these other on-going shuffle merges. It's also important + // to notify the client of the failure, so that it can properly halt pushing the remaining + // blocks upon receiving such failures to preserve resources on the server/client side. + // + // Speculative execution would also raise a possible scenario with duplicate blocks. Although + // speculative execution would kill the slower task attempt, leading to only 1 task attempt + // succeeding in the end, there is no guarantee that only one copy of the block will be + // pushed. This is due to our handling of block push process outside of the map task, thus + // it is possible for the speculative task attempt to initiate the block push process before + // getting killed. When this happens, we need to distinguish the duplicate blocks as they + // arrive. More details on this is explained in later comments. + + // Track if the block is received after shuffle merge finalize + final boolean isTooLate = partitionInfoBeforeCheck == null; + // Check if the given block is already merged by checking the bitmap against the given mapId + final AppShufflePartitionInfo partitionInfo = partitionInfoBeforeCheck != null + && partitionInfoBeforeCheck.mapTracker.contains(mapId) ? null : partitionInfoBeforeCheck; + + return new StreamCallbackWithID() { + private int length = 0; + // This indicates that this stream got the opportunity to write the blocks to the merged file. + // Once this is set to true and the stream encounters a failure then it will take necessary + // action to overwrite any partial written data. This is reset to false when the stream + // completes without any failures. + private boolean startBlockWrite = false; + // Use on-heap instead of direct ByteBuffer since these buffers will be GC'ed very quickly + private List<ByteBuffer> deferredBufs; + + @Override + public String getID() { + return msg.blockId; + } + + /** + * Write a ByteBuffer to the merged shuffle file. Here we keep track of the length of + * the block data written to file. In case of failure during writing block to file, + * we use the information tracked in partitionInfo to overwrite the corrupt block + * when writing the new block. + */ + private void writeBuf(ByteBuffer buf) throws IOException { + while (buf.hasRemaining()) { + if (partitionInfo.isEncounteredFailure()) { + long updatedPos = partitionInfo.getPosition() + length; + logger.debug( + "{} shuffleId {} reduceId {} encountered failure current pos {} updated pos {}", + partitionId.appId, partitionId.shuffleId, partitionId.reduceId, + partitionInfo.getPosition(), updatedPos); + length += partitionInfo.channel.write(buf, updatedPos); + } else { + length += partitionInfo.channel.write(buf); + } + } + } + + /** + * There will be multiple streams of map blocks belonging to the same reduce partition. + * At any given point of time, only a single map stream can write it's data to the merged + * file. Until this stream is completed, the other streams defer writing. This prevents + * corruption of merged data. + * This returns whether this stream is the active stream that can write to the merged file. + */ + private boolean allowedToWrite() { + assert partitionInfo != null; + return partitionInfo.getCurrentMapId() < 0 || partitionInfo.getCurrentMapId() == mapId; + } + + /** + * Returns if this is a duplicate block generated by speculative tasks. With speculative + * tasks, we could receive the same block from 2 different sources at the same time. + * One of them is going to be the first to set the currentMapId. When that block does + * so, it's going to see the currentMapId initially as -1. After it sets the + * currentMapId, it's going to write some data to disk, thus increasing the length + * counter. The other duplicate block is going to see the currentMapId already set to + * its mapId. However, it hasn't written any data yet. If the first block gets written + * completely and resets the currentMapId to -1 before the processing for the second + * block finishes, we can just check the bitmap to identify the second as a duplicate. + */ + private boolean isDuplicateBlock() { + assert partitionInfo != null; + return (partitionInfo.getCurrentMapId() == mapId && length == 0) + || partitionInfo.mapTracker.contains(mapId); + } + + /** + * This is only invoked when the stream is able to write. + * The stream first writes any deferred block parts buffered in memory. + */ + private void writeAnyDeferredBlocks() throws IOException { Review comment: Done ---------------------------------------------------------------- This is an automated message from the Apache Git Service. To respond to the message, please log on to GitHub and use the URL above to go to the specific comment. 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