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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.backup;

import java.io.FileNotFoundException;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.List;

import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
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.fs.PathFilter;
import org.apache.hadoop.hbase.HRegionInfo;
import org.apache.hadoop.hbase.classification.InterfaceAudience;
import org.apache.hadoop.hbase.regionserver.StoreFile;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.EnvironmentEdgeManager;
import org.apache.hadoop.hbase.util.FSUtils;
import org.apache.hadoop.hbase.util.HFileArchiveUtil;
import org.apache.hadoop.io.MultipleIOException;

import com.google.common.base.Function;
import com.google.common.base.Preconditions;
import com.google.common.collect.Collections2;
import com.google.common.collect.Lists;

/**
 * Utility class to handle the removal of HFiles (or the respective {@link StoreFile StoreFiles})
 * for a HRegion from the {@link FileSystem}. The hfiles will be archived or deleted, depending on
 * the state of the system. 
 */
@InterfaceAudience.Private
public class HFileArchiver {
  private static final Log LOG = LogFactory.getLog(HFileArchiver.class);
  private static final String SEPARATOR = ".";

  /** Number of retries in case of fs operation failure */
  private static final int DEFAULT_RETRIES_NUMBER = 3;

  private static final Function FUNC_FILE_TO_PATH =
      new Function() {
        @Override
        public Path apply(File file) {
          return file == null ? null : file.getPath();
        }
      };

  private HFileArchiver() {
    // hidden ctor since this is just a util
  }

  /**
   * Cleans up all the files for a HRegion by archiving the HFiles to the
   * archive directory
   * @param conf the configuration to use
   * @param fs the file system object
   * @param info HRegionInfo for region to be deleted
   * @throws IOException
   */
  public static void archiveRegion(Configuration conf, FileSystem fs, HRegionInfo info)
      throws IOException {
    Path rootDir = FSUtils.getRootDir(conf);
    archiveRegion(fs, rootDir, FSUtils.getTableDir(rootDir, info.getTable()),
      FSUtils.getRegionDirFromRootDir(rootDir, info));
  }

  /**
   * Remove an entire region from the table directory via archiving the region's hfiles.
   * @param fs {@link FileSystem} from which to remove the region
   * @param rootdir {@link Path} to the root directory where hbase files are stored (for building
   *          the archive path)
   * @param tableDir {@link Path} to where the table is being stored (for building the archive path)
   * @param regionDir {@link Path} to where a region is being stored (for building the archive path)
   * @return true if the region was sucessfully deleted. false if the filesystem
   *         operations could not complete.
   * @throws IOException if the request cannot be completed
   */
  public static boolean archiveRegion(FileSystem fs, Path rootdir, Path tableDir, Path regionDir)
      throws IOException {
    if (LOG.isDebugEnabled()) {
      LOG.debug("ARCHIVING " + regionDir.toString());
    }

    // otherwise, we archive the files
    // make sure we can archive
    if (tableDir == null || regionDir == null) {
      LOG.error("No archive directory could be found because tabledir (" + tableDir
          + ") or regiondir (" + regionDir + "was null. Deleting files instead.");
      deleteRegionWithoutArchiving(fs, regionDir);
      // we should have archived, but failed to. Doesn't matter if we deleted
      // the archived files correctly or not.
      return false;
    }

    // make sure the regiondir lives under the tabledir
    Preconditions.checkArgument(regionDir.toString().startsWith(tableDir.toString()));
    Path regionArchiveDir = HFileArchiveUtil.getRegionArchiveDir(rootdir,
        FSUtils.getTableName(tableDir),
        regionDir.getName());

    FileStatusConverter getAsFile = new FileStatusConverter(fs);
    // otherwise, we attempt to archive the store files

    // build collection of just the store directories to archive
    Collection toArchive = new ArrayList();
    final PathFilter dirFilter = new FSUtils.DirFilter(fs);
    PathFilter nonHidden = new PathFilter() {
      @Override
      public boolean accept(Path file) {
        return dirFilter.accept(file) && !file.getName().toString().startsWith(".");
      }
    };
    FileStatus[] storeDirs = FSUtils.listStatus(fs, regionDir, nonHidden);
    // if there no files, we can just delete the directory and return;
    if (storeDirs == null) {
      LOG.debug("Region directory (" + regionDir + ") was empty, just deleting and returning!");
      return deleteRegionWithoutArchiving(fs, regionDir);
    }

    // convert the files in the region to a File
    toArchive.addAll(Lists.transform(Arrays.asList(storeDirs), getAsFile));
    LOG.debug("Archiving " + toArchive);
    List failedArchive = resolveAndArchive(fs, regionArchiveDir, toArchive,
        EnvironmentEdgeManager.currentTime());
    if (!failedArchive.isEmpty()) {
      throw new FailedArchiveException("Failed to archive/delete all the files for region:"
          + regionDir.getName() + " into " + regionArchiveDir
          + ". Something is probably awry on the filesystem.",
          Collections2.transform(failedArchive, FUNC_FILE_TO_PATH));
    }
    // if that was successful, then we delete the region
    return deleteRegionWithoutArchiving(fs, regionDir);
  }

  /**
   * Remove from the specified region the store files of the specified column family,
   * either by archiving them or outright deletion
   * @param fs the filesystem where the store files live
   * @param conf {@link Configuration} to examine to determine the archive directory
   * @param parent Parent region hosting the store files
   * @param tableDir {@link Path} to where the table is being stored (for building the archive path)
   * @param family the family hosting the store files
   * @throws IOException if the files could not be correctly disposed.
   */
  public static void archiveFamily(FileSystem fs, Configuration conf,
      HRegionInfo parent, Path tableDir, byte[] family) throws IOException {
    Path familyDir = new Path(tableDir, new Path(parent.getEncodedName(), Bytes.toString(family)));
    FileStatus[] storeFiles = FSUtils.listStatus(fs, familyDir);
    if (storeFiles == null) {
      LOG.debug("No store files to dispose for region=" + parent.getRegionNameAsString() +
          ", family=" + Bytes.toString(family));
      return;
    }

    FileStatusConverter getAsFile = new FileStatusConverter(fs);
    Collection toArchive = Lists.transform(Arrays.asList(storeFiles), getAsFile);
    Path storeArchiveDir = HFileArchiveUtil.getStoreArchivePath(conf, parent, tableDir, family);

    // do the actual archive
    List failedArchive = resolveAndArchive(fs, storeArchiveDir, toArchive,
        EnvironmentEdgeManager.currentTime());
    if (!failedArchive.isEmpty()){
      throw new FailedArchiveException("Failed to archive/delete all the files for region:"
          + Bytes.toString(parent.getRegionName()) + ", family:" + Bytes.toString(family)
          + " into " + storeArchiveDir + ". Something is probably awry on the filesystem.",
          Collections2.transform(failedArchive, FUNC_FILE_TO_PATH));
    }
  }

  /**
   * Remove the store files, either by archiving them or outright deletion
   * @param conf {@link Configuration} to examine to determine the archive directory
   * @param fs the filesystem where the store files live
   * @param regionInfo {@link HRegionInfo} of the region hosting the store files
   * @param family the family hosting the store files
   * @param compactedFiles files to be disposed of. No further reading of these files should be
   *          attempted; otherwise likely to cause an {@link IOException}
   * @throws IOException if the files could not be correctly disposed.
   */
  public static void archiveStoreFiles(Configuration conf, FileSystem fs, HRegionInfo regionInfo,
      Path tableDir, byte[] family, Collection compactedFiles)
      throws IOException, FailedArchiveException {

    // sometimes in testing, we don't have rss, so we need to check for that
    if (fs == null) {
      LOG.warn("Passed filesystem is null, so just deleting the files without archiving for region:"
          + Bytes.toString(regionInfo.getRegionName()) + ", family:" + Bytes.toString(family));
      deleteStoreFilesWithoutArchiving(compactedFiles);
      return;
    }

    // short circuit if we don't have any files to delete
    if (compactedFiles.size() == 0) {
      LOG.debug("No store files to dispose, done!");
      return;
    }

    // build the archive path
    if (regionInfo == null || family == null) throw new IOException(
        "Need to have a region and a family to archive from.");

    Path storeArchiveDir = HFileArchiveUtil.getStoreArchivePath(conf, regionInfo, tableDir, family);

    // make sure we don't archive if we can't and that the archive dir exists
    if (!fs.mkdirs(storeArchiveDir)) {
      throw new IOException("Could not make archive directory (" + storeArchiveDir + ") for store:"
          + Bytes.toString(family) + ", deleting compacted files instead.");
    }

    // otherwise we attempt to archive the store files
    if (LOG.isDebugEnabled()) LOG.debug("Archiving compacted store files.");

    // Wrap the storefile into a File
    StoreToFile getStorePath = new StoreToFile(fs);
    Collection storeFiles = Collections2.transform(compactedFiles, getStorePath);

    // do the actual archive
    List failedArchive = resolveAndArchive(fs, storeArchiveDir, storeFiles,
        EnvironmentEdgeManager.currentTime());

    if (!failedArchive.isEmpty()){
      throw new FailedArchiveException("Failed to archive/delete all the files for region:"
          + Bytes.toString(regionInfo.getRegionName()) + ", family:" + Bytes.toString(family)
          + " into " + storeArchiveDir + ". Something is probably awry on the filesystem.",
          Collections2.transform(failedArchive, FUNC_FILE_TO_PATH));
    }
  }

  /**
   * Archive the store file
   * @param fs the filesystem where the store files live
   * @param regionInfo region hosting the store files
   * @param conf {@link Configuration} to examine to determine the archive directory
   * @param tableDir {@link Path} to where the table is being stored (for building the archive path)
   * @param family the family hosting the store files
   * @param storeFile file to be archived
   * @throws IOException if the files could not be correctly disposed.
   */
  public static void archiveStoreFile(Configuration conf, FileSystem fs, HRegionInfo regionInfo,
      Path tableDir, byte[] family, Path storeFile) throws IOException {
    Path storeArchiveDir = HFileArchiveUtil.getStoreArchivePath(conf, regionInfo, tableDir, family);
    // make sure we don't archive if we can't and that the archive dir exists
    if (!fs.mkdirs(storeArchiveDir)) {
      throw new IOException("Could not make archive directory (" + storeArchiveDir + ") for store:"
          + Bytes.toString(family) + ", deleting compacted files instead.");
    }

    // do the actual archive
    long start = EnvironmentEdgeManager.currentTime();
    File file = new FileablePath(fs, storeFile);
    if (!resolveAndArchiveFile(storeArchiveDir, file, Long.toString(start))) {
      throw new IOException("Failed to archive/delete the file for region:"
          + regionInfo.getRegionNameAsString() + ", family:" + Bytes.toString(family)
          + " into " + storeArchiveDir + ". Something is probably awry on the filesystem.");
    }
  }

  /**
   * Resolve any conflict with an existing archive file via timestamp-append
   * renaming of the existing file and then archive the passed in files.
   * @param fs {@link FileSystem} on which to archive the files
   * @param baseArchiveDir base archive directory to store the files. If any of
   *          the files to archive are directories, will append the name of the
   *          directory to the base archive directory name, creating a parallel
   *          structure.
   * @param toArchive files/directories that need to be archvied
   * @param start time the archiving started - used for resolving archive
   *          conflicts.
   * @return the list of failed to archive files.
   * @throws IOException if an unexpected file operation exception occured
   */
  private static List resolveAndArchive(FileSystem fs, Path baseArchiveDir,
      Collection toArchive, long start) throws IOException {
    // short circuit if no files to move
    if (toArchive.size() == 0) return Collections.emptyList();

    if (LOG.isTraceEnabled()) LOG.trace("moving files to the archive directory: " + baseArchiveDir);

    // make sure the archive directory exists
    if (!fs.exists(baseArchiveDir)) {
      if (!fs.mkdirs(baseArchiveDir)) {
        throw new IOException("Failed to create the archive directory:" + baseArchiveDir
            + ", quitting archive attempt.");
      }
      if (LOG.isTraceEnabled()) LOG.trace("Created archive directory:" + baseArchiveDir);
    }

    List failures = new ArrayList();
    String startTime = Long.toString(start);
    for (File file : toArchive) {
      // if its a file archive it
      try {
        if (LOG.isTraceEnabled()) LOG.trace("Archiving: " + file);
        if (file.isFile()) {
          // attempt to archive the file
          if (!resolveAndArchiveFile(baseArchiveDir, file, startTime)) {
            LOG.warn("Couldn't archive " + file + " into backup directory: " + baseArchiveDir);
            failures.add(file);
          }
        } else {
          // otherwise its a directory and we need to archive all files
          if (LOG.isTraceEnabled()) LOG.trace(file + " is a directory, archiving children files");
          // so we add the directory name to the one base archive
          Path parentArchiveDir = new Path(baseArchiveDir, file.getName());
          // and then get all the files from that directory and attempt to
          // archive those too
          Collection children = file.getChildren();
          failures.addAll(resolveAndArchive(fs, parentArchiveDir, children, start));
        }
      } catch (IOException e) {
        LOG.warn("Failed to archive " + file, e);
        failures.add(file);
      }
    }
    return failures;
  }

  /**
   * Attempt to archive the passed in file to the archive directory.
   * 

* If the same file already exists in the archive, it is moved to a timestamped directory under * the archive directory and the new file is put in its place. * @param archiveDir {@link Path} to the directory that stores the archives of the hfiles * @param currentFile {@link Path} to the original HFile that will be archived * @param archiveStartTime time the archiving started, to resolve naming conflicts * @return true if the file is successfully archived. false if there was a * problem, but the operation still completed. * @throws IOException on failure to complete {@link FileSystem} operations. */ private static boolean resolveAndArchiveFile(Path archiveDir, File currentFile, String archiveStartTime) throws IOException { // build path as it should be in the archive String filename = currentFile.getName(); Path archiveFile = new Path(archiveDir, filename); FileSystem fs = currentFile.getFileSystem(); // if the file already exists in the archive, move that one to a timestamped backup. This is a // really, really unlikely situtation, where we get the same name for the existing file, but // is included just for that 1 in trillion chance. if (fs.exists(archiveFile)) { if (LOG.isDebugEnabled()) { LOG.debug("File:" + archiveFile + " already exists in archive, moving to " + "timestamped backup and overwriting current."); } // move the archive file to the stamped backup Path backedupArchiveFile = new Path(archiveDir, filename + SEPARATOR + archiveStartTime); if (!fs.rename(archiveFile, backedupArchiveFile)) { LOG.error("Could not rename archive file to backup: " + backedupArchiveFile + ", deleting existing file in favor of newer."); // try to delete the exisiting file, if we can't rename it if (!fs.delete(archiveFile, false)) { throw new IOException("Couldn't delete existing archive file (" + archiveFile + ") or rename it to the backup file (" + backedupArchiveFile + ") to make room for similarly named file."); } } LOG.debug("Backed up archive file from " + archiveFile); } if (LOG.isTraceEnabled()) { LOG.trace("No existing file in archive for: " + archiveFile + ", free to archive original file."); } // at this point, we should have a free spot for the archive file boolean success = false; for (int i = 0; !success && i < DEFAULT_RETRIES_NUMBER; ++i) { if (i > 0) { // Ensure that the archive directory exists. // The previous "move to archive" operation has failed probably because // the cleaner has removed our archive directory (HBASE-7643). // (we're in a retry loop, so don't worry too much about the exception) try { if (!fs.exists(archiveDir)) { if (fs.mkdirs(archiveDir)) { LOG.debug("Created archive directory:" + archiveDir); } } } catch (IOException e) { LOG.warn("Failed to create directory: " + archiveDir, e); } } try { success = currentFile.moveAndClose(archiveFile); } catch (FileNotFoundException fnfe) { LOG.warn("Failed to archive " + currentFile + " because it does not exist! Skipping and continuing on.", fnfe); success = true; } catch (IOException e) { LOG.warn("Failed to archive " + currentFile + " on try #" + i, e); success = false; } } if (!success) { LOG.error("Failed to archive " + currentFile); return false; } if (LOG.isDebugEnabled()) { LOG.debug("Finished archiving from " + currentFile + ", to " + archiveFile); } return true; } /** * Without regard for backup, delete a region. Should be used with caution. * @param regionDir {@link Path} to the region to be deleted. * @param fs FileSystem from which to delete the region * @return true on successful deletion, false otherwise * @throws IOException on filesystem operation failure */ private static boolean deleteRegionWithoutArchiving(FileSystem fs, Path regionDir) throws IOException { if (fs.delete(regionDir, true)) { LOG.debug("Deleted all region files in: " + regionDir); return true; } LOG.debug("Failed to delete region directory:" + regionDir); return false; } /** * Just do a simple delete of the given store files *

* A best effort is made to delete each of the files, rather than bailing on the first failure. *

* This method is preferable to {@link #deleteFilesWithoutArchiving(Collection)} since it consumes * less resources, but is limited in terms of usefulness * @param compactedFiles store files to delete from the file system. * @throws IOException if a file cannot be deleted. All files will be attempted to deleted before * throwing the exception, rather than failing at the first file. */ private static void deleteStoreFilesWithoutArchiving(Collection compactedFiles) throws IOException { LOG.debug("Deleting store files without archiving."); List errors = new ArrayList(0); for (StoreFile hsf : compactedFiles) { try { hsf.deleteReader(); } catch (IOException e) { LOG.error("Failed to delete store file:" + hsf.getPath()); errors.add(e); } } if (errors.size() > 0) { throw MultipleIOException.createIOException(errors); } } /** * Adapt a type to match the {@link File} interface, which is used internally for handling * archival/removal of files * @param type to adapt to the {@link File} interface */ private static abstract class FileConverter implements Function { protected final FileSystem fs; public FileConverter(FileSystem fs) { this.fs = fs; } } /** * Convert a FileStatus to something we can manage in the archiving */ private static class FileStatusConverter extends FileConverter { public FileStatusConverter(FileSystem fs) { super(fs); } @Override public File apply(FileStatus input) { return new FileablePath(fs, input.getPath()); } } /** * Convert the {@link StoreFile} into something we can manage in the archive * methods */ private static class StoreToFile extends FileConverter { public StoreToFile(FileSystem fs) { super(fs); } @Override public File apply(StoreFile input) { return new FileableStoreFile(fs, input); } } /** * Wrapper to handle file operations uniformly */ private static abstract class File { protected final FileSystem fs; public File(FileSystem fs) { this.fs = fs; } /** * Delete the file * @throws IOException on failure */ abstract void delete() throws IOException; /** * Check to see if this is a file or a directory * @return true if it is a file, false otherwise * @throws IOException on {@link FileSystem} connection error */ abstract boolean isFile() throws IOException; /** * @return if this is a directory, returns all the children in the * directory, otherwise returns an empty list * @throws IOException */ abstract Collection getChildren() throws IOException; /** * close any outside readers of the file * @throws IOException */ abstract void close() throws IOException; /** * @return the name of the file (not the full fs path, just the individual * file name) */ abstract String getName(); /** * @return the path to this file */ abstract Path getPath(); /** * Move the file to the given destination * @param dest * @return true on success * @throws IOException */ public boolean moveAndClose(Path dest) throws IOException { this.close(); Path p = this.getPath(); return FSUtils.renameAndSetModifyTime(fs, p, dest); } /** * @return the {@link FileSystem} on which this file resides */ public FileSystem getFileSystem() { return this.fs; } @Override public String toString() { return this.getClass() + ", file:" + getPath().toString(); } } /** * A {@link File} that wraps a simple {@link Path} on a {@link FileSystem}. */ private static class FileablePath extends File { private final Path file; private final FileStatusConverter getAsFile; public FileablePath(FileSystem fs, Path file) { super(fs); this.file = file; this.getAsFile = new FileStatusConverter(fs); } @Override public void delete() throws IOException { if (!fs.delete(file, true)) throw new IOException("Failed to delete:" + this.file); } @Override public String getName() { return file.getName(); } @Override public Collection getChildren() throws IOException { if (fs.isFile(file)) return Collections.emptyList(); return Collections2.transform(Arrays.asList(fs.listStatus(file)), getAsFile); } @Override public boolean isFile() throws IOException { return fs.isFile(file); } @Override public void close() throws IOException { // NOOP - files are implicitly closed on removal } @Override Path getPath() { return file; } } /** * {@link File} adapter for a {@link StoreFile} living on a {@link FileSystem} * . */ private static class FileableStoreFile extends File { StoreFile file; public FileableStoreFile(FileSystem fs, StoreFile store) { super(fs); this.file = store; } @Override public void delete() throws IOException { file.deleteReader(); } @Override public String getName() { return file.getPath().getName(); } @Override public boolean isFile() { return true; } @Override public Collection getChildren() throws IOException { // storefiles don't have children return Collections.emptyList(); } @Override public void close() throws IOException { file.closeReader(true); } @Override Path getPath() { return file.getPath(); } } }





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