/** Method for logging exceptions thrown during the user function call */
 protected void callUserFunctionAndLogException() {
   try {
     callUserFunction();
   } catch (Exception e) {
     if (LOG.isErrorEnabled()) {
       LOG.error("Calling user function failed due to: {}", StringUtils.stringifyException(e));
     }
     throw new RuntimeException(e);
   }
 }
  @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;
  }
  /**
   * All parameters are obtained from the {@link GlobalConfiguration}, which must be loaded prior to
   * instantiating the task manager.
   */
  public TaskManager(ExecutionMode executionMode) throws Exception {
    if (executionMode == null) {
      throw new NullPointerException("Execution mode must not be null.");
    }

    LOG.info("Execution mode: " + executionMode);

    // IMPORTANT! At this point, the GlobalConfiguration must have been read!

    final InetSocketAddress jobManagerAddress;
    {
      LOG.info("Reading location of job manager from configuration");

      final String address =
          GlobalConfiguration.getString(ConfigConstants.JOB_MANAGER_IPC_ADDRESS_KEY, null);
      final int port =
          GlobalConfiguration.getInteger(
              ConfigConstants.JOB_MANAGER_IPC_PORT_KEY,
              ConfigConstants.DEFAULT_JOB_MANAGER_IPC_PORT);

      if (address == null) {
        throw new Exception("Job manager address not configured in the GlobalConfiguration.");
      }

      // Try to convert configured address to {@link InetAddress}
      try {
        final InetAddress tmpAddress = InetAddress.getByName(address);
        jobManagerAddress = new InetSocketAddress(tmpAddress, port);
      } catch (UnknownHostException e) {
        LOG.fatal("Could not resolve JobManager host name.");
        throw new Exception("Could not resolve JobManager host name: " + e.getMessage(), e);
      }

      LOG.info("Connecting to JobManager at: " + jobManagerAddress);
    }

    // Create RPC connection to the JobManager
    try {
      this.jobManager =
          RPC.getProxy(JobManagerProtocol.class, jobManagerAddress, NetUtils.getSocketFactory());
    } catch (IOException e) {
      LOG.fatal("Could not connect to the JobManager: " + e.getMessage(), e);
      throw new Exception("Failed to initialize connection to JobManager: " + e.getMessage(), e);
    }

    int ipcPort = GlobalConfiguration.getInteger(ConfigConstants.TASK_MANAGER_IPC_PORT_KEY, -1);
    int dataPort = GlobalConfiguration.getInteger(ConfigConstants.TASK_MANAGER_DATA_PORT_KEY, -1);
    if (ipcPort == -1) {
      ipcPort = getAvailablePort();
    }
    if (dataPort == -1) {
      dataPort = getAvailablePort();
    }

    // Determine our own public facing address and start the server
    {
      final InetAddress taskManagerAddress;
      try {
        taskManagerAddress = getTaskManagerAddress(jobManagerAddress);
      } catch (Exception e) {
        throw new RuntimeException(
            "The TaskManager failed to determine its own network address.", e);
      }

      this.localInstanceConnectionInfo =
          new InstanceConnectionInfo(taskManagerAddress, ipcPort, dataPort);
      LOG.info("TaskManager connection information:" + this.localInstanceConnectionInfo);

      // Start local RPC server
      try {
        this.taskManagerServer =
            RPC.getServer(this, taskManagerAddress.getHostAddress(), ipcPort, IPC_HANDLER_COUNT);
        this.taskManagerServer.start();
      } catch (IOException e) {
        LOG.fatal("Failed to start TaskManager server. " + e.getMessage(), e);
        throw new Exception("Failed to start taskmanager server. " + e.getMessage(), e);
      }
    }

    // Try to create local stub of the global input split provider
    try {
      this.globalInputSplitProvider =
          RPC.getProxy(
              InputSplitProviderProtocol.class, jobManagerAddress, NetUtils.getSocketFactory());
    } catch (IOException e) {
      LOG.fatal(e.getMessage(), e);
      throw new Exception(
          "Failed to initialize connection to global input split provider: " + e.getMessage(), e);
    }

    // Try to create local stub for the lookup service
    try {
      this.lookupService =
          RPC.getProxy(ChannelLookupProtocol.class, jobManagerAddress, NetUtils.getSocketFactory());
    } catch (IOException e) {
      LOG.fatal(e.getMessage(), e);
      throw new Exception("Failed to initialize channel lookup protocol. " + e.getMessage(), e);
    }

    // Try to create local stub for the accumulators
    try {
      this.accumulatorProtocolProxy =
          RPC.getProxy(AccumulatorProtocol.class, jobManagerAddress, NetUtils.getSocketFactory());
    } catch (IOException e) {
      LOG.fatal("Failed to initialize accumulator protocol: " + e.getMessage(), e);
      throw new Exception("Failed to initialize accumulator protocol: " + e.getMessage(), e);
    }

    // Load profiler if it should be used
    if (GlobalConfiguration.getBoolean(ProfilingUtils.ENABLE_PROFILING_KEY, false)) {

      final String profilerClassName =
          GlobalConfiguration.getString(
              ProfilingUtils.TASKMANAGER_CLASSNAME_KEY,
              "org.apache.flink.runtime.profiling.impl.TaskManagerProfilerImpl");

      this.profiler =
          ProfilingUtils.loadTaskManagerProfiler(
              profilerClassName, jobManagerAddress.getAddress(), this.localInstanceConnectionInfo);

      if (this.profiler == null) {
        LOG.error("Cannot find class name for the profiler.");
      } else {
        LOG.info("Profiling of jobs is enabled.");
      }
    } else {
      this.profiler = null;
      LOG.info("Profiling of jobs is disabled.");
    }

    // Get the directory for storing temporary files
    final String[] tmpDirPaths =
        GlobalConfiguration.getString(
                ConfigConstants.TASK_MANAGER_TMP_DIR_KEY,
                ConfigConstants.DEFAULT_TASK_MANAGER_TMP_PATH)
            .split(",|" + File.pathSeparator);

    checkTempDirs(tmpDirPaths);

    int numBuffers =
        GlobalConfiguration.getInteger(
            ConfigConstants.TASK_MANAGER_NETWORK_NUM_BUFFERS_KEY,
            ConfigConstants.DEFAULT_TASK_MANAGER_NETWORK_NUM_BUFFERS);

    int bufferSize =
        GlobalConfiguration.getInteger(
            ConfigConstants.TASK_MANAGER_NETWORK_BUFFER_SIZE_KEY,
            ConfigConstants.DEFAULT_TASK_MANAGER_NETWORK_BUFFER_SIZE);

    // Initialize the channel manager
    try {
      NetworkConnectionManager networkConnectionManager = null;

      switch (executionMode) {
        case LOCAL:
          networkConnectionManager = new LocalConnectionManager();
          break;
        case CLUSTER:
          int numInThreads =
              GlobalConfiguration.getInteger(
                  ConfigConstants.TASK_MANAGER_NET_NUM_IN_THREADS_KEY,
                  ConfigConstants.DEFAULT_TASK_MANAGER_NET_NUM_IN_THREADS);

          int numOutThreads =
              GlobalConfiguration.getInteger(
                  ConfigConstants.TASK_MANAGER_NET_NUM_OUT_THREADS_KEY,
                  ConfigConstants.DEFAULT_TASK_MANAGER_NET_NUM_OUT_THREADS);

          int lowWaterMark =
              GlobalConfiguration.getInteger(
                  ConfigConstants.TASK_MANAGER_NET_NETTY_LOW_WATER_MARK,
                  ConfigConstants.DEFAULT_TASK_MANAGER_NET_NETTY_LOW_WATER_MARK);

          int highWaterMark =
              GlobalConfiguration.getInteger(
                  ConfigConstants.TASK_MANAGER_NET_NETTY_HIGH_WATER_MARK,
                  ConfigConstants.DEFAULT_TASK_MANAGER_NET_NETTY_HIGH_WATER_MARK);

          networkConnectionManager =
              new NettyConnectionManager(
                  localInstanceConnectionInfo.address(),
                  localInstanceConnectionInfo.dataPort(),
                  bufferSize,
                  numInThreads,
                  numOutThreads,
                  lowWaterMark,
                  highWaterMark);
          break;
      }

      channelManager =
          new ChannelManager(
              lookupService,
              localInstanceConnectionInfo,
              numBuffers,
              bufferSize,
              networkConnectionManager);
    } catch (IOException ioe) {
      LOG.error(StringUtils.stringifyException(ioe));
      throw new Exception("Failed to instantiate ChannelManager.", ioe);
    }

    // initialize the number of slots
    {
      int slots = GlobalConfiguration.getInteger(ConfigConstants.TASK_MANAGER_NUM_TASK_SLOTS, -1);
      if (slots == -1) {
        slots = 1;
        LOG.info("Number of task slots not configured. Creating one task slot.");
      } else if (slots <= 0) {
        throw new Exception("Illegal value for the number of task slots: " + slots);
      } else {
        LOG.info("Creating " + slots + " task slot(s).");
      }
      this.numberOfSlots = slots;
    }

    this.hardwareDescription = HardwareDescriptionFactory.extractFromSystem();

    // initialize the memory manager
    {
      // Check whether the memory size has been explicitly configured.
      final long configuredMemorySize =
          GlobalConfiguration.getInteger(ConfigConstants.TASK_MANAGER_MEMORY_SIZE_KEY, -1);
      final long memorySize;

      if (configuredMemorySize == -1) {
        // no manually configured memory. take a relative fraction of the free heap space
        float fraction =
            GlobalConfiguration.getFloat(
                ConfigConstants.TASK_MANAGER_MEMORY_FRACTION_KEY,
                ConfigConstants.DEFAULT_MEMORY_MANAGER_MEMORY_FRACTION);
        memorySize = (long) (this.hardwareDescription.getSizeOfFreeMemory() * fraction);
        LOG.info("Using " + fraction + " of the free heap space for managed memory.");
      } else if (configuredMemorySize <= 0) {
        throw new Exception(
            "Invalid value for Memory Manager memory size: " + configuredMemorySize);
      } else {
        memorySize = configuredMemorySize << 20;
      }

      final int pageSize =
          GlobalConfiguration.getInteger(
              ConfigConstants.TASK_MANAGER_NETWORK_BUFFER_SIZE_KEY,
              ConfigConstants.DEFAULT_TASK_MANAGER_NETWORK_BUFFER_SIZE);

      // Initialize the memory manager
      LOG.info(
          "Initializing memory manager with "
              + (memorySize >>> 20)
              + " megabytes of memory. "
              + "Page size is "
              + pageSize
              + " bytes.");

      try {
        @SuppressWarnings("unused")
        final boolean lazyAllocation =
            GlobalConfiguration.getBoolean(
                ConfigConstants.TASK_MANAGER_MEMORY_LAZY_ALLOCATION_KEY,
                ConfigConstants.DEFAULT_TASK_MANAGER_MEMORY_LAZY_ALLOCATION);

        this.memoryManager = new DefaultMemoryManager(memorySize, this.numberOfSlots, pageSize);
      } catch (Throwable t) {
        LOG.fatal(
            "Unable to initialize memory manager with "
                + (memorySize >>> 20)
                + " megabytes of memory.",
            t);
        throw new Exception("Unable to initialize memory manager.", t);
      }
    }

    this.ioManager = new IOManager(tmpDirPaths);

    this.heartbeatThread =
        new Thread() {
          @Override
          public void run() {
            runHeartbeatLoop();
          }
        };

    this.heartbeatThread.setName("Heartbeat Thread");
    this.heartbeatThread.start();

    // --------------------------------------------------------------------
    // Memory Usage
    // --------------------------------------------------------------------

    final MemoryMXBean memoryMXBean = ManagementFactory.getMemoryMXBean();
    final List<GarbageCollectorMXBean> gcMXBeans = ManagementFactory.getGarbageCollectorMXBeans();

    LOG.info(getMemoryUsageStatsAsString(memoryMXBean));

    boolean startMemoryUsageLogThread =
        GlobalConfiguration.getBoolean(
            ConfigConstants.TASK_MANAGER_DEBUG_MEMORY_USAGE_START_LOG_THREAD,
            ConfigConstants.DEFAULT_TASK_MANAGER_DEBUG_MEMORY_USAGE_START_LOG_THREAD);

    if (startMemoryUsageLogThread && LOG.isDebugEnabled()) {
      final int logIntervalMs =
          GlobalConfiguration.getInteger(
              ConfigConstants.TASK_MANAGER_DEBUG_MEMORY_USAGE_LOG_INTERVAL_MS,
              ConfigConstants.DEFAULT_TASK_MANAGER_DEBUG_MEMORY_USAGE_LOG_INTERVAL_MS);

      new Thread(
              new Runnable() {
                @Override
                public void run() {
                  try {
                    while (!isShutDown()) {
                      Thread.sleep(logIntervalMs);

                      LOG.debug(getMemoryUsageStatsAsString(memoryMXBean));

                      LOG.debug(getGarbageCollectorStatsAsString(gcMXBeans));
                    }
                  } catch (InterruptedException e) {
                    LOG.warn("Unexpected interruption of memory usage logger thread.");
                  }
                }
              })
          .start();
    }
  }