Пример #1
0
  /**
   * Breadth first traversal of the topology DAG
   *
   * @param topologies
   * @param td
   * @param spouts
   * @return A partial ordering of components
   */
  private Queue<Component> bfs(Topologies topologies, TopologyDetails td, List<Component> spouts) {
    // Since queue is a interface
    Queue<Component> ordered__Component_list = new LinkedList<Component>();
    HashMap<String, Component> visited = new HashMap<String, Component>();

    /* start from each spout that is not visited, each does a breadth-first traverse */
    for (Component spout : spouts) {
      if (!visited.containsKey(spout.id)) {
        Queue<Component> queue = new LinkedList<Component>();
        queue.offer(spout);
        while (!queue.isEmpty()) {
          Component comp = queue.poll();
          visited.put(comp.id, comp);
          ordered__Component_list.add(comp);
          List<String> neighbors = new ArrayList<String>();
          neighbors.addAll(comp.children);
          neighbors.addAll(comp.parents);
          for (String nbID : neighbors) {
            if (!visited.containsKey(nbID)) {
              Component child = topologies.getAllComponents().get(td.getId()).get(nbID);
              queue.offer(child);
            }
          }
        }
      }
    }
    return ordered__Component_list;
  }
Пример #2
0
 private List<Component> getSpouts(Topologies topologies, TopologyDetails td) {
   List<Component> spouts = new ArrayList<Component>();
   for (Component c : topologies.getAllComponents().get(td.getId()).values()) {
     if (c.type == Component.ComponentType.SPOUT) {
       spouts.add(c);
     }
   }
   return spouts;
 }
Пример #3
0
  /**
   * print scheduling for debug purposes
   *
   * @param cluster
   * @param topologies
   */
  public static String printScheduling(Cluster cluster, Topologies topologies) {
    StringBuilder str = new StringBuilder();
    Map<String, Map<String, Map<WorkerSlot, Collection<ExecutorDetails>>>> schedulingMap =
        new HashMap<String, Map<String, Map<WorkerSlot, Collection<ExecutorDetails>>>>();
    for (TopologyDetails topo : topologies.getTopologies()) {
      if (cluster.getAssignmentById(topo.getId()) != null) {
        for (Map.Entry<ExecutorDetails, WorkerSlot> entry :
            cluster.getAssignmentById(topo.getId()).getExecutorToSlot().entrySet()) {
          WorkerSlot slot = entry.getValue();
          String nodeId = slot.getNodeId();
          ExecutorDetails exec = entry.getKey();
          if (!schedulingMap.containsKey(nodeId)) {
            schedulingMap.put(
                nodeId, new HashMap<String, Map<WorkerSlot, Collection<ExecutorDetails>>>());
          }
          if (schedulingMap.get(nodeId).containsKey(topo.getId()) == false) {
            schedulingMap
                .get(nodeId)
                .put(topo.getId(), new HashMap<WorkerSlot, Collection<ExecutorDetails>>());
          }
          if (schedulingMap.get(nodeId).get(topo.getId()).containsKey(slot) == false) {
            schedulingMap
                .get(nodeId)
                .get(topo.getId())
                .put(slot, new LinkedList<ExecutorDetails>());
          }
          schedulingMap.get(nodeId).get(topo.getId()).get(slot).add(exec);
        }
      }
    }

    for (Map.Entry<String, Map<String, Map<WorkerSlot, Collection<ExecutorDetails>>>> entry :
        schedulingMap.entrySet()) {
      if (cluster.getSupervisorById(entry.getKey()) != null) {
        str.append(
            "/** Node: "
                + cluster.getSupervisorById(entry.getKey()).getHost()
                + "-"
                + entry.getKey()
                + " **/\n");
      } else {
        str.append("/** Node: Unknown may be dead -" + entry.getKey() + " **/\n");
      }
      for (Map.Entry<String, Map<WorkerSlot, Collection<ExecutorDetails>>> topo_sched :
          schedulingMap.get(entry.getKey()).entrySet()) {
        str.append("\t-->Topology: " + topo_sched.getKey() + "\n");
        for (Map.Entry<WorkerSlot, Collection<ExecutorDetails>> ws :
            topo_sched.getValue().entrySet()) {
          str.append("\t\t->Slot [" + ws.getKey().getPort() + "] -> " + ws.getValue() + "\n");
        }
      }
    }
    return str.toString();
  }
  public void linkBasedScheduling(
      Topologies topos, Cluster cluster, GlobalState globalState, GlobalResources globalResources) {
    for (TopologyDetails td : topos.getTopologies()) {
      String topId = td.getId();
      Map<Node, Collection<ExecutorDetails>> taskToNodesMap;
      if (cluster.needsScheduling(td) && cluster.getUnassignedExecutors(td).size() > 0) {
        LOG.info("/********Scheduling topology {} ************/", topId);
        int totalTasks = td.getExecutors().size();
        int executorsNotRunning = cluster.getUnassignedExecutors(td).size();
        LOG.info(
            "Total number of executors: {} " + "Total number of Unassigned Executors: {}",
            totalTasks,
            executorsNotRunning);
        LOG.info("executors that need scheduling: {}", cluster.getUnassignedExecutors(td));

        LinkBasedStrategy rs =
            new LinkBasedStrategy(globalState, globalResources, null, td, cluster, topos);
        taskToNodesMap = rs.schedule(td, cluster.getUnassignedExecutors(td));

        if (taskToNodesMap != null) {
          try {
            for (Map.Entry<Node, Collection<ExecutorDetails>> entry : taskToNodesMap.entrySet()) {
              entry.getKey().assign(td.getId(), entry.getValue(), cluster);
              LOG.info(
                  "ASSIGNMENT    TOPOLOGY: {}  TASKS: {} To Node: "
                      + entry.getKey().getId()
                      + " Slots left: "
                      + entry.getKey().totalSlotsFree(),
                  td.getId(),
                  entry.getValue());
            }
            LOG.info(
                "Toplogy: {} assigned to {} nodes", td.getId(), taskToNodesMap.keySet().size());

            HelperFuncs.setTopoStatus(td.getId(), "Fully Scheduled");
          } catch (IllegalStateException ex) {
            LOG.error(ex.toString());
            LOG.error("Unsuccessfull in scheduling topology {}", td.getId());
            HelperFuncs.setTopoStatus(td.getId(), "Unsuccessfull in scheduling topology");
          }
        } else {
          LOG.error("Unsuccessfull in scheduling topology {}", td.getId());
          HelperFuncs.setTopoStatus(td.getId(), "Unsuccessfull in scheduling topology");
        }
      } else {
        HelperFuncs.setTopoStatus(td.getId(), "Fully Scheduled");
      }
    }
  }