/** Initialize SecondaryNameNode. */ private void initialize(Configuration conf) throws IOException { // initiate Java VM metrics JvmMetrics.init("SecondaryNameNode", conf.get("session.id")); // Create connection to the namenode. shouldRun = true; nameNodeAddr = NameNode.getAddress(conf); this.conf = conf; this.namenode = (NamenodeProtocol) RPC.waitForProxy( NamenodeProtocol.class, NamenodeProtocol.versionID, nameNodeAddr, conf); // initialize checkpoint directories fsName = getInfoServer(); checkpointDirs = FSImage.getCheckpointDirs(conf, "/tmp/hadoop/dfs/namesecondary"); checkpointEditsDirs = FSImage.getCheckpointEditsDirs(conf, "/tmp/hadoop/dfs/namesecondary"); checkpointImage = new CheckpointStorage(conf); checkpointImage.recoverCreate(checkpointDirs, checkpointEditsDirs); // Initialize other scheduling parameters from the configuration checkpointPeriod = conf.getLong("fs.checkpoint.period", 3600); checkpointSize = conf.getLong("fs.checkpoint.size", 4194304); // initialize the webserver for uploading files. String infoAddr = NetUtils.getServerAddress( conf, "dfs.secondary.info.bindAddress", "dfs.secondary.info.port", "dfs.secondary.http.address"); InetSocketAddress infoSocAddr = NetUtils.createSocketAddr(infoAddr); infoBindAddress = infoSocAddr.getHostName(); int tmpInfoPort = infoSocAddr.getPort(); infoServer = new HttpServer("secondary", infoBindAddress, tmpInfoPort, tmpInfoPort == 0, conf); infoServer.setAttribute("name.system.image", checkpointImage); this.infoServer.setAttribute("name.conf", conf); infoServer.addInternalServlet("getimage", "/getimage", GetImageServlet.class); infoServer.start(); // The web-server port can be ephemeral... ensure we have the correct info infoPort = infoServer.getPort(); conf.set("dfs.secondary.http.address", infoBindAddress + ":" + infoPort); LOG.info("Secondary Web-server up at: " + infoBindAddress + ":" + infoPort); LOG.warn( "Checkpoint Period :" + checkpointPeriod + " secs " + "(" + checkpointPeriod / 60 + " min)"); LOG.warn( "Log Size Trigger :" + checkpointSize + " bytes " + "(" + checkpointSize / 1024 + " KB)"); }
/** Start the JobTracker process, listen on the indicated port */ JobTracker(Configuration conf) throws IOException { // // Grab some static constants // maxCurrentTasks = conf.getInt("mapred.tasktracker.tasks.maximum", 2); RETIRE_JOB_INTERVAL = conf.getLong("mapred.jobtracker.retirejob.interval", 24 * 60 * 60 * 1000); RETIRE_JOB_CHECK_INTERVAL = conf.getLong("mapred.jobtracker.retirejob.check", 60 * 1000); TASK_ALLOC_EPSILON = conf.getFloat("mapred.jobtracker.taskalloc.loadbalance.epsilon", 0.2f); PAD_FRACTION = conf.getFloat("mapred.jobtracker.taskalloc.capacitypad", 0.1f); MIN_SLOTS_FOR_PADDING = 3 * maxCurrentTasks; // This is a directory of temporary submission files. We delete it // on startup, and can delete any files that we're done with this.conf = conf; JobConf jobConf = new JobConf(conf); this.systemDir = jobConf.getSystemDir(); this.fs = FileSystem.get(conf); FileUtil.fullyDelete(fs, systemDir); fs.mkdirs(systemDir); // Same with 'localDir' except it's always on the local disk. jobConf.deleteLocalFiles(SUBDIR); // Set ports, start RPC servers, etc. InetSocketAddress addr = getAddress(conf); this.localMachine = addr.getHostName(); this.port = addr.getPort(); this.interTrackerServer = RPC.getServer(this, addr.getPort(), 10, false, conf); this.interTrackerServer.start(); Properties p = System.getProperties(); for (Iterator it = p.keySet().iterator(); it.hasNext(); ) { String key = (String) it.next(); String val = (String) p.getProperty(key); LOG.info("Property '" + key + "' is " + val); } this.infoPort = conf.getInt("mapred.job.tracker.info.port", 50030); this.infoServer = new JobTrackerInfoServer(this, infoPort); this.infoServer.start(); this.startTime = System.currentTimeMillis(); new Thread(this.expireTrackers).start(); new Thread(this.retireJobs).start(); new Thread(this.initJobs).start(); }
FSVolume(File currentDir, Configuration conf) throws IOException { this.reserved = conf.getLong("dfs.datanode.du.reserved", 0); boolean supportAppends = conf.getBoolean("dfs.support.append", false); File parent = currentDir.getParentFile(); this.detachDir = new File(parent, "detach"); if (detachDir.exists()) { recoverDetachedBlocks(currentDir, detachDir); } // Files that were being written when the datanode was last shutdown // are now moved back to the data directory. It is possible that // in the future, we might want to do some sort of datanode-local // recovery for these blocks. For example, crc validation. // this.tmpDir = new File(parent, "tmp"); if (tmpDir.exists()) { if (supportAppends) { recoverDetachedBlocks(currentDir, tmpDir); } else { FileUtil.fullyDelete(tmpDir); } } this.dataDir = new FSDir(currentDir); if (!tmpDir.mkdirs()) { if (!tmpDir.isDirectory()) { throw new IOException("Mkdirs failed to create " + tmpDir.toString()); } } if (!detachDir.mkdirs()) { if (!detachDir.isDirectory()) { throw new IOException("Mkdirs failed to create " + detachDir.toString()); } } this.usage = new DF(parent, conf); this.dfsUsage = new DU(parent, conf); this.dfsUsage.start(); }
/** * Get the locally cached file or archive; it could either be previously cached (and valid) or * copy it from the {@link FileSystem} now. * * @param cache the cache to be localized, this should be specified as new * URI(hdfs://hostname:port/absolute_path_to_file#LINKNAME). If no schema or hostname:port is * provided the file is assumed to be in the filesystem being used in the Configuration * @param conf The Confguration file which contains the filesystem * @param subDir The sub cache Dir where you want to localize the files/archives * @param fileStatus The file status on the dfs. * @param isArchive if the cache is an archive or a file. In case it is an archive with a .zip or * .jar or .tar or .tgz or .tar.gz extension it will be unzipped/unjarred/untarred * automatically and the directory where the archive is unzipped/unjarred/untarred is returned * as the Path. In case of a file, the path to the file is returned * @param confFileStamp this is the hdfs file modification timestamp to verify that the file to be * cached hasn't changed since the job started * @param fileLength this is the length of the cache file * @param currentWorkDir this is the directory where you would want to create symlinks for the * locally cached files/archives * @param honorSymLinkConf if this is false, then the symlinks are not created even if conf says * so (this is required for an optimization in task launches * @param lDirAllocator LocalDirAllocator of the tracker * @return the path to directory where the archives are unjarred in case of archives, the path to * the file where the file is copied locally * @throws IOException */ private static Path getLocalCache( URI cache, Configuration conf, Path subDir, FileStatus fileStatus, boolean isArchive, long confFileStamp, long fileLength, Path currentWorkDir, boolean honorSymLinkConf, MRAsyncDiskService asyncDiskService, LocalDirAllocator lDirAllocator) throws IOException { String key = getKey(cache, conf, confFileStamp); CacheStatus lcacheStatus; Path localizedPath; synchronized (cachedArchives) { lcacheStatus = cachedArchives.get(key); if (lcacheStatus == null) { // was never localized Path uniqueParentDir = new Path(subDir, String.valueOf(random.nextLong())); String cachePath = new Path(uniqueParentDir, makeRelative(cache, conf)).toString(); Path localPath = lDirAllocator.getLocalPathForWrite(cachePath, fileLength, conf); lcacheStatus = new CacheStatus( new Path(localPath.toString().replace(cachePath, "")), localPath, uniqueParentDir); cachedArchives.put(key, lcacheStatus); } lcacheStatus.refcount++; } boolean initSuccessful = false; try { synchronized (lcacheStatus) { if (!lcacheStatus.isInited()) { localizedPath = localizeCache(conf, cache, confFileStamp, lcacheStatus, isArchive); lcacheStatus.initComplete(); } else { if (fileStatus != null) { localizedPath = checkCacheStatusValidity( conf, cache, confFileStamp, lcacheStatus, fileStatus, isArchive); } else { // if fileStatus is null, then the md5 must be correct // so there is no need to check for cache validity localizedPath = lcacheStatus.localizedLoadPath; } } createSymlink(conf, cache, lcacheStatus, isArchive, currentWorkDir, honorSymLinkConf); } // try deleting stuff if you can long size = 0; int numberSubDir = 0; synchronized (lcacheStatus) { synchronized (baseDirSize) { Long get = baseDirSize.get(lcacheStatus.getBaseDir()); if (get != null) { size = get.longValue(); } else { LOG.warn("Cannot find size of baseDir: " + lcacheStatus.getBaseDir()); } } synchronized (baseDirNumberSubDir) { Integer get = baseDirNumberSubDir.get(lcacheStatus.getBaseDir()); if (get != null) { numberSubDir = get.intValue(); } else { LOG.warn("Cannot find subdirectories limit of baseDir: " + lcacheStatus.getBaseDir()); } } } // setting the cache size to a default of 10GB long allowedSize = conf.getLong("local.cache.size", DEFAULT_CACHE_SIZE); long allowedNumberSubDir = conf.getLong("local.cache.numbersubdir", DEFAULT_CACHE_SUBDIR_LIMIT); if (allowedSize < size || allowedNumberSubDir < numberSubDir) { // try some cache deletions LOG.debug( "Start deleting released cache because" + " [size, allowedSize, numberSubDir, allowedNumberSubDir] =" + " [" + size + ", " + allowedSize + ", " + numberSubDir + ", " + allowedNumberSubDir + "]"); deleteCache(conf, asyncDiskService); } initSuccessful = true; return localizedPath; } finally { if (!initSuccessful) { synchronized (cachedArchives) { lcacheStatus.refcount--; } } } }