Ejemplo n.º 1
0
      public void run() {
        try {
          TaskAttemptID mapId = new TaskAttemptID(new TaskID(jobId, true, taskId), 0);
          LOG.info("Starting task: " + mapId);
          mapIds.add(mapId);
          MapTask map =
              new MapTask(systemJobFile.toString(), mapId, taskId, info.getSplitIndex(), 1);
          map.setUser(UserGroupInformation.getCurrentUser().getShortUserName());
          TaskRunner.setupChildMapredLocalDirs(map, localConf);

          MapOutputFile mapOutput = new MapOutputFile();
          mapOutput.setConf(localConf);
          mapOutputFiles.put(mapId, mapOutput);

          map.setJobFile(localJobFile.toString());
          localConf.setUser(map.getUser());
          map.localizeConfiguration(localConf);
          map.setConf(localConf);
          try {
            map_tasks.getAndIncrement();
            myMetrics.launchMap(mapId);
            map.run(localConf, Job.this);
            myMetrics.completeMap(mapId);
          } finally {
            map_tasks.getAndDecrement();
          }

          LOG.info("Finishing task: " + mapId);
        } catch (Throwable e) {
          this.storedException = e;
        }
      }
Ejemplo n.º 2
0
    public Job(JobID jobid, String jobSubmitDir) throws IOException {
      this.systemJobDir = new Path(jobSubmitDir);
      this.systemJobFile = new Path(systemJobDir, "job.xml");
      this.id = jobid;

      this.localFs = FileSystem.getLocal(conf);

      this.localJobDir = localFs.makeQualified(conf.getLocalPath(jobDir));
      this.localJobFile = new Path(this.localJobDir, id + ".xml");

      // Manage the distributed cache.  If there are files to be copied,
      // this will trigger localFile to be re-written again.
      this.trackerDistributedCacheManager =
          new TrackerDistributedCacheManager(conf, taskController);
      this.taskDistributedCacheManager =
          trackerDistributedCacheManager.newTaskDistributedCacheManager(jobid, conf);
      taskDistributedCacheManager.setupCache(conf, "archive", "archive");

      if (DistributedCache.getSymlink(conf)) {
        // This is not supported largely because,
        // for a Child subprocess, the cwd in LocalJobRunner
        // is not a fresh slate, but rather the user's working directory.
        // This is further complicated because the logic in
        // setupWorkDir only creates symlinks if there's a jarfile
        // in the configuration.
        LOG.warn("LocalJobRunner does not support " + "symlinking into current working dir.");
      }
      // Setup the symlinks for the distributed cache.
      TaskRunner.setupWorkDir(conf, new File(localJobDir.toUri()).getAbsoluteFile());

      // Write out configuration file.  Instead of copying it from
      // systemJobFile, we re-write it, since setup(), above, may have
      // updated it.
      OutputStream out = localFs.create(localJobFile);
      try {
        conf.writeXml(out);
      } finally {
        out.close();
      }
      this.job = new JobConf(localJobFile);

      // Job (the current object) is a Thread, so we wrap its class loader.
      if (!taskDistributedCacheManager.getClassPaths().isEmpty()) {
        setContextClassLoader(taskDistributedCacheManager.makeClassLoader(getContextClassLoader()));
      }

      profile =
          new JobProfile(
              job.getUser(),
              id,
              systemJobFile.toString(),
              "http://localhost:8080/",
              job.getJobName());
      status = new JobStatus(id, 0.0f, 0.0f, JobStatus.RUNNING);

      jobs.put(id, this);

      this.start();
    }
Ejemplo n.º 3
0
    @SuppressWarnings("unchecked")
    @Override
    public void run() {
      JobID jobId = profile.getJobID();
      JobContext jContext = new JobContextImpl(conf, jobId);
      org.apache.hadoop.mapreduce.OutputCommitter outputCommitter = null;
      try {
        outputCommitter = createOutputCommitter(conf.getUseNewMapper(), jobId, conf);
      } catch (Exception e) {
        LOG.info("Failed to createOutputCommitter", e);
        return;
      }

      try {
        TaskSplitMetaInfo[] taskSplitMetaInfos =
            SplitMetaInfoReader.readSplitMetaInfo(jobId, localFs, conf, systemJobDir);
        int numReduceTasks = job.getNumReduceTasks();
        if (numReduceTasks > 1 || numReduceTasks < 0) {
          // we only allow 0 or 1 reducer in local mode
          numReduceTasks = 1;
          job.setNumReduceTasks(1);
        }
        outputCommitter.setupJob(jContext);
        status.setSetupProgress(1.0f);

        Map<TaskAttemptID, MapOutputFile> mapOutputFiles =
            Collections.synchronizedMap(new HashMap<TaskAttemptID, MapOutputFile>());

        List<MapTaskRunnable> taskRunnables =
            getMapTaskRunnables(taskSplitMetaInfos, jobId, mapOutputFiles);

        ExecutorService mapService = createMapExecutor(taskRunnables.size());
        // Start populating the executor with work units.
        // They may begin running immediately (in other threads).
        for (Runnable r : taskRunnables) {
          mapService.submit(r);
        }

        try {
          mapService.shutdown(); // Instructs queue to drain.

          // Wait for tasks to finish; do not use a time-based timeout.
          // (See http://bugs.sun.com/bugdatabase/view_bug.do?bug_id=6179024)
          LOG.info("Waiting for map tasks");
          mapService.awaitTermination(Long.MAX_VALUE, TimeUnit.NANOSECONDS);
        } catch (InterruptedException ie) {
          // Cancel all threads.
          mapService.shutdownNow();
          throw ie;
        }

        LOG.info("Map task executor complete.");

        // After waiting for the map tasks to complete, if any of these
        // have thrown an exception, rethrow it now in the main thread context.
        for (MapTaskRunnable r : taskRunnables) {
          if (r.storedException != null) {
            throw new Exception(r.storedException);
          }
        }

        TaskAttemptID reduceId = new TaskAttemptID(new TaskID(jobId, false, 0), 0);
        try {
          if (numReduceTasks > 0) {
            ReduceTask reduce =
                new ReduceTask(systemJobFile.toString(), reduceId, 0, mapIds.size(), 1);
            reduce.setUser(UserGroupInformation.getCurrentUser().getShortUserName());
            JobConf localConf = new JobConf(job);
            localConf.set("mapreduce.jobtracker.address", "local");
            TaskRunner.setupChildMapredLocalDirs(reduce, localConf);
            // move map output to reduce input
            for (int i = 0; i < mapIds.size(); i++) {
              if (!this.isInterrupted()) {
                TaskAttemptID mapId = mapIds.get(i);
                Path mapOut = mapOutputFiles.get(mapId).getOutputFile();
                MapOutputFile localOutputFile = new MapOutputFile();
                localOutputFile.setConf(localConf);
                Path reduceIn =
                    localOutputFile.getInputFileForWrite(
                        mapId.getTaskID(), localFs.getFileStatus(mapOut).getLen());
                if (!localFs.mkdirs(reduceIn.getParent())) {
                  throw new IOException(
                      "Mkdirs failed to create " + reduceIn.getParent().toString());
                }
                if (!localFs.rename(mapOut, reduceIn))
                  throw new IOException("Couldn't rename " + mapOut);
              } else {
                throw new InterruptedException();
              }
            }
            if (!this.isInterrupted()) {
              reduce.setJobFile(localJobFile.toString());
              localConf.setUser(reduce.getUser());
              reduce.localizeConfiguration(localConf);
              reduce.setConf(localConf);
              reduce_tasks += 1;
              myMetrics.launchReduce(reduce.getTaskID());
              reduce.run(localConf, this);
              myMetrics.completeReduce(reduce.getTaskID());
              reduce_tasks -= 1;
            } else {
              throw new InterruptedException();
            }
          }
        } finally {
          for (MapOutputFile output : mapOutputFiles.values()) {
            output.removeAll();
          }
        }
        // delete the temporary directory in output directory
        outputCommitter.commitJob(jContext);
        status.setCleanupProgress(1.0f);

        if (killed) {
          this.status.setRunState(JobStatus.KILLED);
        } else {
          this.status.setRunState(JobStatus.SUCCEEDED);
        }

        JobEndNotifier.localRunnerNotification(job, status);

      } catch (Throwable t) {
        try {
          outputCommitter.abortJob(jContext, org.apache.hadoop.mapreduce.JobStatus.State.FAILED);
        } catch (IOException ioe) {
          LOG.info("Error cleaning up job:" + id);
        }
        status.setCleanupProgress(1.0f);
        if (killed) {
          this.status.setRunState(JobStatus.KILLED);
        } else {
          this.status.setRunState(JobStatus.FAILED);
        }
        LOG.warn(id, t);

        JobEndNotifier.localRunnerNotification(job, status);

      } finally {
        try {
          fs.delete(systemJobFile.getParent(), true); // delete submit dir
          localFs.delete(localJobFile, true); // delete local copy
          // Cleanup distributed cache
          taskDistributedCacheManager.release();
          trackerDistributedCacheManager.purgeCache();
        } catch (IOException e) {
          LOG.warn("Error cleaning up " + id + ": " + e);
        }
      }
    }