/** * 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(); } }
/** Shuts the task manager down. */ public void shutdown() { if (!this.shutdownStarted.compareAndSet(false, true)) { return; } LOG.info("Shutting down TaskManager"); // first, stop the heartbeat thread and wait for it to terminate this.heartbeatThread.interrupt(); try { this.heartbeatThread.join(1000); } catch (InterruptedException e) { } // Stop RPC proxy for the task manager RPC.stopProxy(this.jobManager); // Stop RPC proxy for the global input split assigner RPC.stopProxy(this.globalInputSplitProvider); // Stop RPC proxy for the lookup service RPC.stopProxy(this.lookupService); // Stop RPC proxy for accumulator reports RPC.stopProxy(this.accumulatorProtocolProxy); // Shut down the own RPC server this.taskManagerServer.stop(); // Stop profiling if enabled if (this.profiler != null) { this.profiler.shutdown(); } // Shut down the channel manager try { this.channelManager.shutdown(); } catch (IOException e) { LOG.warn("ChannelManager did not shutdown properly: " + e.getMessage(), e); } // Shut down the memory manager if (this.ioManager != null) { this.ioManager.shutdown(); } if (this.memoryManager != null) { this.memoryManager.shutdown(); } this.fileCache.shutdown(); // Shut down the executor service if (this.executorService != null) { this.executorService.shutdown(); try { this.executorService.awaitTermination(5000L, TimeUnit.MILLISECONDS); } catch (InterruptedException e) { if (LOG.isDebugEnabled()) { LOG.debug(e); } } } this.shutdownComplete = true; }