public DefaultTopologyAssignContext(TopologyAssignContext context) {
    super(context);

    try {
      sysTopology = Common.system_topology(stormConf, rawTopology);
    } catch (Exception e) {
      throw new FailedAssignTopologyException("Failed to generate system topology");
    }

    sidToHostname = generateSidToHost();
    hostToSid = JStormUtils.reverse_map(sidToHostname);

    if (oldAssignment != null && oldAssignment.getWorkers() != null) {
      oldWorkers = oldAssignment.getWorkers();
    } else {
      oldWorkers = new HashSet<ResourceWorkerSlot>();
    }

    refineDeadTasks();

    componentTasks = JStormUtils.reverse_map(context.getTaskToComponent());

    for (Entry<String, List<Integer>> entry : componentTasks.entrySet()) {
      List<Integer> componentTaskList = entry.getValue();

      Collections.sort(componentTaskList);
    }

    totalWorkerNum = computeWorkerNum();

    unstoppedWorkerNum = computeUnstoppedAssignments();
  }
示例#2
0
  /**
   * get StormTopology throw deserialize local files
   *
   * @param id String: topology id
   * @return StormTopology
   */
  @Override
  public StormTopology getTopology(String id) throws NotAliveException, TException {
    StormTopology topology = null;
    try {
      StormTopology stormtopology = StormConfig.read_nimbus_topology_code(conf, id);
      if (stormtopology == null) {
        throw new TException("topology:" + id + "is null");
      }

      Map<Object, Object> topologyConf =
          (Map<Object, Object>) StormConfig.read_nimbus_topology_conf(conf, id);

      topology = Common.system_topology(topologyConf, stormtopology);
    } catch (Exception e) {
      LOG.error("Failed to get topology " + id + ",", e);
      throw new TException("Failed to get system_topology");
    }
    return topology;
  }
示例#3
0
  /**
   * generate a taskid(Integer) for every task
   *
   * @param conf
   * @param topologyid
   * @return Map<Integer, String>: from taskid to componentid
   * @throws IOException
   * @throws InvalidTopologyException
   */
  public Map<Integer, String> mkTaskComponentAssignments(
      Map<Object, Object> conf, String topologyid) throws IOException, InvalidTopologyException {

    // @@@ here exist a little problem,
    // we can directly pass stormConf from Submit method
    Map<Object, Object> stormConf = StormConfig.read_nimbus_topology_conf(conf, topologyid);

    StormTopology stopology = StormConfig.read_nimbus_topology_code(conf, topologyid);

    // use TreeMap to make task as sequence
    Map<Integer, String> rtn = new TreeMap<Integer, String>();

    StormTopology topology = Common.system_topology(stormConf, stopology);

    Integer count = 0;
    count = mkTaskMaker(stormConf, topology.get_bolts(), rtn, count);
    count = mkTaskMaker(stormConf, topology.get_spouts(), rtn, count);
    count = mkTaskMaker(stormConf, topology.get_state_spouts(), rtn, count);

    return rtn;
  }
  @Override
  public <T> Object execute(T... args) {
    boolean isSetTaskInfo = false;
    try {
      Boolean reassign = (Boolean) args[1];
      Map<Object, Object> conf = (Map<Object, Object>) args[2]; // args[0]:
      // delay,
      // args[1]:
      // reassign_flag,
      // args[2]:
      // conf
      if (conf != null) {
        boolean isConfUpdate = false;
        Map stormConf = data.getConf();

        // Update topology code
        Map topoConf = StormConfig.read_nimbus_topology_conf(stormConf, topologyid);
        StormTopology rawOldTopology = StormConfig.read_nimbus_topology_code(stormConf, topologyid);
        StormTopology rawNewTopology = NimbusUtils.normalizeTopology(conf, rawOldTopology, true);
        StormTopology sysOldTopology = rawOldTopology.deepCopy();
        StormTopology sysNewTopology = rawNewTopology.deepCopy();
        if (conf.get(Config.TOPOLOGY_ACKER_EXECUTORS) != null) {
          Common.add_acker(topoConf, sysOldTopology);
          Common.add_acker(conf, sysNewTopology);
          int ackerNum = JStormUtils.parseInt(conf.get(Config.TOPOLOGY_ACKER_EXECUTORS));
          int oldAckerNum = JStormUtils.parseInt(topoConf.get(Config.TOPOLOGY_ACKER_EXECUTORS));
          LOG.info("Update acker from oldAckerNum=" + oldAckerNum + " to ackerNum=" + ackerNum);
          topoConf.put(Config.TOPOLOGY_ACKER_EXECUTORS, ackerNum);
          isConfUpdate = true;
        }

        // If scale-out, setup task info for new added tasks
        setTaskInfo(sysOldTopology, sysNewTopology);
        isSetTaskInfo = true;

        // If everything is OK, write topology code into disk
        StormConfig.write_nimbus_topology_code(
            stormConf, topologyid, Utils.serialize(rawNewTopology));

        // Update topology conf if worker num has been updated
        Set<Object> keys = conf.keySet();
        Integer workerNum = JStormUtils.parseInt(conf.get(Config.TOPOLOGY_WORKERS));
        if (workerNum != null) {
          Integer oldWorkerNum = JStormUtils.parseInt(topoConf.get(Config.TOPOLOGY_WORKERS));
          topoConf.put(Config.TOPOLOGY_WORKERS, workerNum);
          isConfUpdate = true;

          LOG.info("Update worker num from " + oldWorkerNum + " to " + workerNum);
        }

        if (keys.contains(Config.ISOLATION_SCHEDULER_MACHINES)) {
          topoConf.put(
              Config.ISOLATION_SCHEDULER_MACHINES, conf.get(Config.ISOLATION_SCHEDULER_MACHINES));
        }

        if (isConfUpdate) {
          StormConfig.write_nimbus_topology_conf(stormConf, topologyid, topoConf);
        }
      }

      TopologyAssignEvent event = new TopologyAssignEvent();

      event.setTopologyId(topologyid);
      event.setScratch(true);
      event.setOldStatus(oldStatus);
      event.setReassign(reassign);
      if (conf != null) event.setScaleTopology(true);
      TopologyAssign.push(event);
      event.waitFinish();
    } catch (Exception e) {
      LOG.error("do-rebalance error!", e);
      // Rollback the changes on ZK
      if (isSetTaskInfo) {
        try {
          StormClusterState clusterState = data.getStormClusterState();
          clusterState.remove_task(topologyid, newTasks);
        } catch (Exception e1) {
          LOG.error("Failed to rollback the changes on ZK for task-" + newTasks, e);
        }
      }
    }

    DelayStatusTransitionCallback delayCallback =
        new DelayStatusTransitionCallback(
            data, topologyid, oldStatus, StatusType.rebalancing, StatusType.done_rebalance);
    return delayCallback.execute();
  }
示例#5
0
  @SuppressWarnings({"rawtypes", "unchecked"})
  public WorkerData(
      Map conf,
      IContext context,
      String topology_id,
      String supervisor_id,
      int port,
      String worker_id,
      String jar_path)
      throws Exception {

    this.conf = conf;
    this.context = context;
    this.topologyId = topology_id;
    this.supervisorId = supervisor_id;
    this.port = port;
    this.workerId = worker_id;

    this.active = new AtomicBoolean(true);
    this.topologyStatus = StatusType.active;

    if (StormConfig.cluster_mode(conf).equals("distributed")) {
      String pidDir = StormConfig.worker_pids_root(conf, worker_id);
      JStormServerUtils.createPid(pidDir);
    }

    // create zk interface
    this.zkClusterstate = ZkTool.mk_distributed_cluster_state(conf);
    this.zkCluster = Cluster.mk_storm_cluster_state(zkClusterstate);

    Map rawConf = StormConfig.read_supervisor_topology_conf(conf, topology_id);
    this.stormConf = new HashMap<Object, Object>();
    this.stormConf.putAll(conf);
    this.stormConf.putAll(rawConf);

    LOG.info("Worker Configuration " + stormConf);

    try {

      boolean enableClassloader = ConfigExtension.isEnableTopologyClassLoader(stormConf);
      boolean enableDebugClassloader = ConfigExtension.isEnableClassloaderDebug(stormConf);

      if (jar_path == null && enableClassloader == true) {
        LOG.error("enable classloader, but not app jar");
        throw new InvalidParameterException();
      }

      URL[] urlArray = new URL[0];
      if (jar_path != null) {
        String[] paths = jar_path.split(":");
        Set<URL> urls = new HashSet<URL>();
        for (String path : paths) {
          if (StringUtils.isBlank(path)) continue;
          URL url = new URL("File:" + path);
          urls.add(url);
        }
        urlArray = urls.toArray(new URL[0]);
      }

      WorkerClassLoader.mkInstance(
          urlArray,
          ClassLoader.getSystemClassLoader(),
          ClassLoader.getSystemClassLoader().getParent(),
          enableClassloader,
          enableDebugClassloader);
    } catch (Exception e) {
      // TODO Auto-generated catch block
      LOG.error("init jarClassLoader error!", e);
      throw new InvalidParameterException();
    }

    if (this.context == null) {
      this.context = TransportFactory.makeContext(stormConf);
    }

    boolean disruptorUseSleep = ConfigExtension.isDisruptorUseSleep(stormConf);
    DisruptorQueue.setUseSleep(disruptorUseSleep);
    boolean isLimited = ConfigExtension.getTopologyBufferSizeLimited(stormConf);
    DisruptorQueue.setLimited(isLimited);
    LOG.info("Disruptor use sleep:" + disruptorUseSleep + ", limited size:" + isLimited);

    // this.transferQueue = new LinkedBlockingQueue<TransferData>();
    int buffer_size = Utils.getInt(conf.get(Config.TOPOLOGY_TRANSFER_BUFFER_SIZE));
    WaitStrategy waitStrategy =
        (WaitStrategy)
            Utils.newInstance((String) conf.get(Config.TOPOLOGY_DISRUPTOR_WAIT_STRATEGY));
    this.transferQueue =
        DisruptorQueue.mkInstance("TotalTransfer", ProducerType.MULTI, buffer_size, waitStrategy);
    this.transferQueue.consumerStarted();
    this.sendingQueue =
        DisruptorQueue.mkInstance("TotalSending", ProducerType.MULTI, buffer_size, waitStrategy);
    this.sendingQueue.consumerStarted();

    this.nodeportSocket = new ConcurrentHashMap<WorkerSlot, IConnection>();
    this.taskNodeport = new ConcurrentHashMap<Integer, WorkerSlot>();
    this.workerToResource = new ConcurrentSkipListSet<ResourceWorkerSlot>();
    this.innerTaskTransfer = new ConcurrentHashMap<Integer, DisruptorQueue>();
    this.deserializeQueues = new ConcurrentHashMap<Integer, DisruptorQueue>();

    Assignment assignment = zkCluster.assignment_info(topologyId, null);
    if (assignment == null) {
      String errMsg = "Failed to get Assignment of " + topologyId;
      LOG.error(errMsg);
      throw new RuntimeException(errMsg);
    }
    workerToResource.addAll(assignment.getWorkers());

    // get current worker's task list

    this.taskids = assignment.getCurrentWorkerTasks(supervisorId, port);
    if (taskids.size() == 0) {
      throw new RuntimeException("No tasks running current workers");
    }
    LOG.info("Current worker taskList:" + taskids);

    // deserialize topology code from local dir
    rawTopology = StormConfig.read_supervisor_topology_code(conf, topology_id);
    sysTopology = Common.system_topology(stormConf, rawTopology);

    generateMaps();

    contextMaker = new ContextMaker(this);

    metricReporter = new MetricReporter(this);

    outTaskStatus = new HashMap<Integer, Boolean>();

    threadPool = Executors.newScheduledThreadPool(THREAD_POOL_NUM);
    TimerTrigger.setScheduledExecutorService(threadPool);

    LOG.info("Successfully create WorkerData");
  }
示例#6
0
  /**
   * Submit one Topology
   *
   * @param topologyname String: topology name
   * @param uploadedJarLocation String: already uploaded jar path
   * @param jsonConf String: jsonConf serialize all toplogy configuration to Json
   * @param topology StormTopology: topology Object
   */
  @SuppressWarnings("unchecked")
  @Override
  public void submitTopologyWithOpts(
      String topologyname,
      String uploadedJarLocation,
      String jsonConf,
      StormTopology topology,
      SubmitOptions options)
      throws AlreadyAliveException, InvalidTopologyException, TopologyAssignException, TException {
    LOG.info("Receive " + topologyname + ", uploadedJarLocation:" + uploadedJarLocation);
    // @@@ Move validate topologyname in client code
    try {
      checkTopologyActive(data, topologyname, false);
    } catch (AlreadyAliveException e) {
      LOG.info(topologyname + " is already exist ");
      throw e;
    } catch (Exception e) {
      LOG.info("Failed to check whether topology is alive or not", e);
      throw new TException(e);
    }

    int counter = data.getSubmittedCount().incrementAndGet();
    String topologyId = topologyname + "-" + counter + "-" + TimeUtils.current_time_secs();

    Map<Object, Object> serializedConf = (Map<Object, Object>) JStormUtils.from_json(jsonConf);
    if (serializedConf == null) {
      LOG.warn("Failed to serialized Configuration");
      throw new InvalidTopologyException("Failed to serilaze topology configuration");
    }

    serializedConf.put(Config.TOPOLOGY_ID, topologyId);
    serializedConf.put(Config.TOPOLOGY_NAME, topologyname);

    try {
      Map<Object, Object> stormConf;

      stormConf = NimbusUtils.normalizeConf(conf, serializedConf, topology);

      Map<Object, Object> totalStormConf = new HashMap<Object, Object>(conf);
      totalStormConf.putAll(stormConf);

      StormTopology normalizedTopology = NimbusUtils.normalizeTopology(stormConf, topology);

      // this validates the structure of the topology
      Common.validate_basic(normalizedTopology, totalStormConf, topologyId);
      // don't need generate real topology, so skip Common.system_topology
      // Common.system_topology(totalStormConf, topology);

      StormClusterState stormClusterState = data.getStormClusterState();

      // create /local-dir/nimbus/topologyId/xxxx files
      setupStormCode(conf, topologyId, uploadedJarLocation, stormConf, normalizedTopology);

      // generate TaskInfo for every bolt or spout in ZK
      // /ZK/tasks/topoologyId/xxx
      setupZkTaskInfo(conf, topologyId, stormClusterState);

      // make assignments for a topology
      TopologyAssignEvent assignEvent = new TopologyAssignEvent();
      assignEvent.setTopologyId(topologyId);
      assignEvent.setScratch(false);
      assignEvent.setTopologyName(topologyname);
      assignEvent.setOldStatus(
          Thrift.topologyInitialStatusToStormStatus(options.get_initial_status()));

      TopologyAssign.push(assignEvent);
      LOG.info("Submit for " + topologyname + " with conf " + serializedConf);

      boolean isSuccess = assignEvent.waitFinish();
      if (isSuccess == true) {
        LOG.info("Finish submit for " + topologyname);
      } else {
        throw new FailedAssignTopologyException(assignEvent.getErrorMsg());
      }

    } catch (FailedAssignTopologyException e) {
      StringBuilder sb = new StringBuilder();
      sb.append("Fail to sumbit topology, Root cause:");
      if (e.getMessage() == null) {
        sb.append("submit timeout");
      } else {
        sb.append(e.getMessage());
      }

      sb.append("\n\n");
      sb.append("topologyId:" + topologyId);
      sb.append(", uploadedJarLocation:" + uploadedJarLocation + "\n");
      LOG.error(sb.toString(), e);
      throw new TopologyAssignException(sb.toString());
    } catch (InvalidParameterException e) {
      StringBuilder sb = new StringBuilder();
      sb.append("Fail to sumbit topology ");
      sb.append(e.getMessage());
      sb.append(", cause:" + e.getCause());
      sb.append("\n\n");
      sb.append("topologyId:" + topologyId);
      sb.append(", uploadedJarLocation:" + uploadedJarLocation + "\n");
      LOG.error(sb.toString(), e);
      throw new InvalidParameterException(sb.toString());
    } catch (Throwable e) {
      StringBuilder sb = new StringBuilder();
      sb.append("Fail to sumbit topology ");
      sb.append(e.getMessage());
      sb.append(", cause:" + e.getCause());
      sb.append("\n\n");
      sb.append("topologyId:" + topologyId);
      sb.append(", uploadedJarLocation:" + uploadedJarLocation + "\n");
      LOG.error(sb.toString(), e);
      throw new TopologyAssignException(sb.toString());
    }
  }