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/**
 * 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.hadoop.hbase.master.snapshot;

import java.io.IOException;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.Timer;
import java.util.TimerTask;
import java.util.concurrent.locks.Lock;
import org.apache.commons.lang3.ArrayUtils;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FileStatus;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.hbase.Stoppable;
import org.apache.hadoop.hbase.snapshot.CorruptedSnapshotException;
import org.apache.hadoop.hbase.snapshot.SnapshotDescriptionUtils;
import org.apache.hadoop.hbase.util.CommonFSUtils;
import org.apache.yetus.audience.InterfaceAudience;
import org.apache.yetus.audience.InterfaceStability;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

import org.apache.hbase.thirdparty.com.google.common.collect.Lists;

/**
 * Intelligently keep track of all the files for all the snapshots.
 * 

* A cache of files is kept to avoid querying the {@link FileSystem} frequently. If there is a cache * miss the directory modification time is used to ensure that we don't rescan directories that we * already have in cache. We only check the modification times of the snapshot directories * (/hbase/.snapshot/[snapshot_name]) to determine if the files need to be loaded into the cache. *

* New snapshots will be added to the cache and deleted snapshots will be removed when we refresh * the cache. If the files underneath a snapshot directory are changed, but not the snapshot itself, * we will ignore updates to that snapshot's files. *

* This is sufficient because each snapshot has its own directory and is added via an atomic rename * once, when the snapshot is created. We don't need to worry about the data in the snapshot * being run. *

* Further, the cache is periodically refreshed ensure that files in snapshots that were deleted are * also removed from the cache. *

* A {@link SnapshotFileCache.SnapshotFileInspector} must be passed when creating this to * allow extraction of files under /hbase/.snapshot/[snapshot name] directory, for each snapshot. * This allows you to only cache files under, for instance, all the logs in the .logs directory or * all the files under all the regions. *

* this also considers all running snapshots (those under /hbase/.snapshot/.tmp) as valid * snapshots and will attempt to cache files from those snapshots as well. *

* Queries about a given file are thread-safe with respect to multiple queries and cache refreshes. */ @InterfaceAudience.Private @InterfaceStability.Evolving public class SnapshotFileCache implements Stoppable { interface SnapshotFileInspector { /** * Returns a collection of file names needed by the snapshot. * @param fs {@link FileSystem} where snapshot mainifest files are stored * @param snapshotDir {@link Path} to the snapshot directory to scan. * @return the collection of file names needed by the snapshot. */ Collection filesUnderSnapshot(final FileSystem fs, final Path snapshotDir) throws IOException; } private static final Logger LOG = LoggerFactory.getLogger(SnapshotFileCache.class); private volatile boolean stop = false; private final FileSystem fs, workingFs; private final SnapshotFileInspector fileInspector; private final Path snapshotDir, workingSnapshotDir; private final Set cache = new HashSet<>(); /** * This is a helper map of information about the snapshot directories so we don't need to rescan * them if they haven't changed since the last time we looked. */ private final Map snapshots = new HashMap<>(); private final Timer refreshTimer; /** * Create a snapshot file cache for all snapshots under the specified [root]/.snapshot on the * filesystem. *

* Immediately loads the file cache. * @param conf to extract the configured {@link FileSystem} where the snapshots are stored and * hbase root directory * @param cacheRefreshPeriod frequency (ms) with which the cache should be refreshed * @param cacheRefreshDelay amount of time to wait for the cache to be refreshed * @param refreshThreadName name of the cache refresh thread * @param inspectSnapshotFiles Filter to apply to each snapshot to extract the files. * @throws IOException if the {@link FileSystem} or root directory cannot be loaded */ public SnapshotFileCache(Configuration conf, long cacheRefreshPeriod, long cacheRefreshDelay, String refreshThreadName, SnapshotFileInspector inspectSnapshotFiles) throws IOException { this(CommonFSUtils.getCurrentFileSystem(conf), CommonFSUtils.getRootDir(conf), SnapshotDescriptionUtils.getWorkingSnapshotDir(CommonFSUtils.getRootDir(conf), conf). getFileSystem(conf), SnapshotDescriptionUtils.getWorkingSnapshotDir(CommonFSUtils.getRootDir(conf), conf), cacheRefreshPeriod, cacheRefreshDelay, refreshThreadName, inspectSnapshotFiles); } /** * Create a snapshot file cache for all snapshots under the specified [root]/.snapshot on the * filesystem * @param fs {@link FileSystem} where the snapshots are stored * @param rootDir hbase root directory * @param workingFs {@link FileSystem} where ongoing snapshot mainifest files are stored * @param workingDir Location to store ongoing snapshot manifest files * @param cacheRefreshPeriod period (ms) with which the cache should be refreshed * @param cacheRefreshDelay amount of time to wait for the cache to be refreshed * @param refreshThreadName name of the cache refresh thread * @param inspectSnapshotFiles Filter to apply to each snapshot to extract the files. */ public SnapshotFileCache(FileSystem fs, Path rootDir, FileSystem workingFs, Path workingDir, long cacheRefreshPeriod, long cacheRefreshDelay, String refreshThreadName, SnapshotFileInspector inspectSnapshotFiles) { this.fs = fs; this.workingFs = workingFs; this.workingSnapshotDir = workingDir; this.fileInspector = inspectSnapshotFiles; this.snapshotDir = SnapshotDescriptionUtils.getSnapshotsDir(rootDir); // periodically refresh the file cache to make sure we aren't superfluously saving files. this.refreshTimer = new Timer(refreshThreadName, true); this.refreshTimer.scheduleAtFixedRate(new RefreshCacheTask(), cacheRefreshDelay, cacheRefreshPeriod); } /** * Trigger a cache refresh, even if its before the next cache refresh. Does not affect pending * cache refreshes. *

* Blocks until the cache is refreshed. *

* Exposed for TESTING. */ public synchronized void triggerCacheRefreshForTesting() { try { refreshCache(); } catch (IOException e) { LOG.warn("Failed to refresh snapshot hfile cache!", e); } LOG.debug("Current cache:" + cache); } /** * Check to see if any of the passed file names is contained in any of the snapshots. First checks * an in-memory cache of the files to keep. If its not in the cache, then the cache is refreshed * and the cache checked again for that file. This ensures that we never return files that exist. *

* Note this may lead to periodic false positives for the file being referenced. Periodically, the * cache is refreshed even if there are no requests to ensure that the false negatives get removed * eventually. For instance, suppose you have a file in the snapshot and it gets loaded into the * cache. Then at some point later that snapshot is deleted. If the cache has not been refreshed * at that point, cache will still think the file system contains that file and return * true, even if it is no longer present (false positive). However, if the file never was * on the filesystem, we will never find it and always return false. * @param files file to check, NOTE: Relies that files are loaded from hdfs before method is * called (NOT LAZY) * @return unReferencedFiles the collection of files that do not have snapshot references * @throws IOException if there is an unexpected error reaching the filesystem. */ // XXX this is inefficient to synchronize on the method, when what we really need to guard against // is an illegal access to the cache. Really we could do a mutex-guarded pointer swap on the // cache, but that seems overkill at the moment and isn't necessarily a bottleneck. public synchronized Iterable getUnreferencedFiles(Iterable files, final SnapshotManager snapshotManager) throws IOException { List unReferencedFiles = Lists.newArrayList(); List snapshotsInProgress = null; boolean refreshed = false; Lock lock = null; if (snapshotManager != null) { lock = snapshotManager.getTakingSnapshotLock().writeLock(); } if (lock == null || lock.tryLock()) { try { if (snapshotManager != null && snapshotManager.isTakingAnySnapshot()) { LOG.warn("Not checking unreferenced files since snapshot is running, it will " + "skip to clean the HFiles this time"); return unReferencedFiles; } for (FileStatus file : files) { String fileName = file.getPath().getName(); if (!refreshed && !cache.contains(fileName)) { refreshCache(); refreshed = true; } if (cache.contains(fileName)) { continue; } if (snapshotsInProgress == null) { snapshotsInProgress = getSnapshotsInProgress(); } if (snapshotsInProgress.contains(fileName)) { continue; } unReferencedFiles.add(file); } } finally { if (lock != null) { lock.unlock(); } } } return unReferencedFiles; } private void refreshCache() throws IOException { // just list the snapshot directory directly, do not check the modification time for the root // snapshot directory, as some file system implementations do not modify the parent directory's // modTime when there are new sub items, for example, S3. FileStatus[] snapshotDirs = CommonFSUtils.listStatus(fs, snapshotDir, p -> !p.getName().equals(SnapshotDescriptionUtils.SNAPSHOT_TMP_DIR_NAME)); // clear the cache, as in the below code, either we will also clear the snapshots, or we will // refill the file name cache again. this.cache.clear(); if (ArrayUtils.isEmpty(snapshotDirs)) { // remove all the remembered snapshots because we don't have any left if (LOG.isDebugEnabled() && this.snapshots.size() > 0) { LOG.debug("No snapshots on-disk, clear cache"); } this.snapshots.clear(); return; } // iterate over all the cached snapshots and see if we need to update some, it is not an // expensive operation if we do not reload the manifest of snapshots. Map newSnapshots = new HashMap<>(); for (FileStatus snapshotDir : snapshotDirs) { String name = snapshotDir.getPath().getName(); SnapshotDirectoryInfo files = this.snapshots.remove(name); // if we don't know about the snapshot or its been modified, we need to update the // files the latter could occur where I create a snapshot, then delete it, and then make a // new snapshot with the same name. We will need to update the cache the information from // that new snapshot, even though it has the same name as the files referenced have // probably changed. if (files == null || files.hasBeenModified(snapshotDir.getModificationTime())) { Collection storedFiles = fileInspector.filesUnderSnapshot(fs, snapshotDir.getPath()); files = new SnapshotDirectoryInfo(snapshotDir.getModificationTime(), storedFiles); } // add all the files to cache this.cache.addAll(files.getFiles()); newSnapshots.put(name, files); } // set the snapshots we are tracking this.snapshots.clear(); this.snapshots.putAll(newSnapshots); } List getSnapshotsInProgress() throws IOException { List snapshotInProgress = Lists.newArrayList(); // only add those files to the cache, but not to the known snapshots FileStatus[] snapshotsInProgress = CommonFSUtils.listStatus(this.workingFs, this.workingSnapshotDir); if (!ArrayUtils.isEmpty(snapshotsInProgress)) { for (FileStatus snapshot : snapshotsInProgress) { try { snapshotInProgress.addAll(fileInspector.filesUnderSnapshot(workingFs, snapshot.getPath())); } catch (CorruptedSnapshotException cse) { LOG.info("Corrupted in-progress snapshot file exception, ignored.", cse); } } } return snapshotInProgress; } /** * Simple helper task that just periodically attempts to refresh the cache */ public class RefreshCacheTask extends TimerTask { @Override public void run() { synchronized (SnapshotFileCache.this) { try { SnapshotFileCache.this.refreshCache(); } catch (IOException e) { LOG.warn("Failed to refresh snapshot hfile cache!", e); // clear all the cached entries if we meet an error cache.clear(); snapshots.clear(); } } } } @Override public void stop(String why) { if (!this.stop) { this.stop = true; this.refreshTimer.cancel(); } } @Override public boolean isStopped() { return this.stop; } /** * Information about a snapshot directory */ private static class SnapshotDirectoryInfo { long lastModified; Collection files; public SnapshotDirectoryInfo(long mtime, Collection files) { this.lastModified = mtime; this.files = files; } /** * @return the hfiles in the snapshot when this was made. */ public Collection getFiles() { return this.files; } /** * Check if the snapshot directory has been modified * @param mtime current modification time of the directory * @return true if it the modification time of the directory is newer time when we * created this */ public boolean hasBeenModified(long mtime) { return this.lastModified < mtime; } } }





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