Ejemplo n.º 1
0
  /**
   * Unregisters a finished or aborted task.
   *
   * @param id the ID of the task to be unregistered
   */
  private void unregisterTask(final ExecutionVertexID id) {

    // Task de-registration must be atomic
    synchronized (this) {
      final Task task = this.runningTasks.remove(id);
      if (task == null) {
        LOG.error("Cannot find task with ID " + id + " to unregister");
        return;
      }

      // remove the local tmp file for unregistered tasks.
      for (Entry<String, DistributedCacheEntry> e :
          DistributedCache.readFileInfoFromConfig(task.getEnvironment().getJobConfiguration())) {
        this.fileCache.deleteTmpFile(e.getKey(), e.getValue(), task.getJobID());
      }
      // Unregister task from the byte buffered channel manager
      this.channelManager.unregister(id, task);

      // Unregister task from profiling
      task.unregisterProfiler(this.profiler);

      // Unregister task from memory manager
      task.unregisterMemoryManager(this.memoryManager);

      // Unregister task from library cache manager
      try {
        LibraryCacheManager.unregister(task.getJobID());
      } catch (IOException e) {
        if (LOG.isDebugEnabled()) {
          LOG.debug("Unregistering the job vertex ID " + id + " caused an IOException");
        }
      }
    }
  }
Ejemplo n.º 2
0
  @Override
  public List<TaskSubmissionResult> submitTasks(final List<TaskDeploymentDescriptor> tasks)
      throws IOException {

    final List<TaskSubmissionResult> submissionResultList =
        new SerializableArrayList<TaskSubmissionResult>();
    final List<Task> tasksToStart = new ArrayList<Task>();

    // Make sure all tasks are fully registered before they are started
    for (final TaskDeploymentDescriptor tdd : tasks) {

      final JobID jobID = tdd.getJobID();
      final ExecutionVertexID vertexID = tdd.getVertexID();
      RuntimeEnvironment re;

      // retrieve the registered cache files from job configuration and create the local tmp file.
      Map<String, FutureTask<Path>> cpTasks = new HashMap<String, FutureTask<Path>>();
      for (Entry<String, DistributedCacheEntry> e :
          DistributedCache.readFileInfoFromConfig(tdd.getJobConfiguration())) {
        FutureTask<Path> cp = this.fileCache.createTmpFile(e.getKey(), e.getValue(), jobID);
        cpTasks.put(e.getKey(), cp);
      }

      try {
        re =
            new RuntimeEnvironment(
                tdd,
                this.memoryManager,
                this.ioManager,
                new TaskInputSplitProvider(jobID, vertexID, this.globalInputSplitProvider),
                this.accumulatorProtocolProxy,
                cpTasks);
      } catch (Throwable t) {
        final TaskSubmissionResult result =
            new TaskSubmissionResult(vertexID, AbstractTaskResult.ReturnCode.DEPLOYMENT_ERROR);
        result.setDescription(StringUtils.stringifyException(t));
        LOG.error(result.getDescription(), t);
        submissionResultList.add(result);
        continue;
      }

      final Configuration jobConfiguration = tdd.getJobConfiguration();

      // Register the task
      Task task;
      try {
        task = createAndRegisterTask(vertexID, jobConfiguration, re);
      } catch (InsufficientResourcesException e) {
        final TaskSubmissionResult result =
            new TaskSubmissionResult(
                vertexID, AbstractTaskResult.ReturnCode.INSUFFICIENT_RESOURCES);
        result.setDescription(e.getMessage());
        LOG.error(result.getDescription(), e);
        submissionResultList.add(result);
        continue;
      }

      if (task == null) {
        final TaskSubmissionResult result =
            new TaskSubmissionResult(vertexID, AbstractTaskResult.ReturnCode.TASK_NOT_FOUND);
        result.setDescription(
            "Task " + re.getTaskNameWithIndex() + " (" + vertexID + ") was already running");
        LOG.error(result.getDescription());
        submissionResultList.add(result);
        continue;
      }

      submissionResultList.add(
          new TaskSubmissionResult(vertexID, AbstractTaskResult.ReturnCode.SUCCESS));
      tasksToStart.add(task);
    }

    // Now start the tasks
    for (final Task task : tasksToStart) {
      task.startExecution();
    }

    return submissionResultList;
  }