@Inject
  public SingleServerInventoryView(
      final ZkPathsConfig zkPaths,
      final CuratorFramework curator,
      final ObjectMapper jsonMapper,
      final Predicate<Pair<DruidServerMetadata, DataSegment>> defaultFilter) {
    super(
        log,
        zkPaths.getAnnouncementsPath(),
        zkPaths.getServedSegmentsPath(),
        curator,
        jsonMapper,
        new TypeReference<DataSegment>() {});

    Preconditions.checkNotNull(defaultFilter);
    this.defaultFilter = defaultFilter;
  }
示例#2
0
  private LeaderLatch createNewLeaderLatch() {
    final LeaderLatch newLeaderLatch =
        new LeaderLatch(
            curator,
            ZKPaths.makePath(zkPaths.getCoordinatorPath(), COORDINATOR_OWNER_NODE),
            config.getHost());

    newLeaderLatch.addListener(
        new LeaderLatchListener() {
          @Override
          public void isLeader() {
            DruidCoordinator.this.becomeLeader();
          }

          @Override
          public void notLeader() {
            DruidCoordinator.this.stopBeingLeader();
          }
        },
        Execs.singleThreaded("CoordinatorLeader-%s"));

    return leaderLatch.getAndSet(newLeaderLatch);
  }
  @Test
  public void testRun() throws Exception {
    TestingCluster localCluster = new TestingCluster(1);
    localCluster.start();

    CuratorFramework localCf =
        CuratorFrameworkFactory.builder()
            .connectString(localCluster.getConnectString())
            .retryPolicy(new ExponentialBackoffRetry(1, 10))
            .compressionProvider(new PotentiallyGzippedCompressionProvider(false))
            .build();
    localCf.start();

    TestingCluster remoteCluster = new TestingCluster(1);
    remoteCluster.start();

    CuratorFramework remoteCf =
        CuratorFrameworkFactory.builder()
            .connectString(remoteCluster.getConnectString())
            .retryPolicy(new ExponentialBackoffRetry(1, 10))
            .compressionProvider(new PotentiallyGzippedCompressionProvider(false))
            .build();
    remoteCf.start();

    ObjectMapper jsonMapper = new DefaultObjectMapper();
    DruidClusterBridgeConfig config =
        new DruidClusterBridgeConfig() {
          @Override
          public String getTier() {
            return DruidServer.DEFAULT_TIER;
          }

          @Override
          public Duration getStartDelay() {
            return new Duration(0);
          }

          @Override
          public Duration getPeriod() {
            return new Duration(Long.MAX_VALUE);
          }

          @Override
          public String getBrokerServiceName() {
            return "testz0rz";
          }

          @Override
          public int getPriority() {
            return 0;
          }
        };

    ScheduledExecutorFactory factory = ScheduledExecutors.createFactory(new Lifecycle());

    DruidNode me = new DruidNode("me", "localhost", 8080);

    AtomicReference<LeaderLatch> leaderLatch =
        new AtomicReference<>(new LeaderLatch(localCf, "test"));

    ZkPathsConfig zkPathsConfig =
        new ZkPathsConfig() {
          @Override
          public String getZkBasePath() {
            return "/druid";
          }
        };
    DruidServerMetadata metadata =
        new DruidServerMetadata("test", "localhost", 1000, "bridge", DruidServer.DEFAULT_TIER, 0);
    DbSegmentPublisher dbSegmentPublisher = EasyMock.createMock(DbSegmentPublisher.class);
    EasyMock.replay(dbSegmentPublisher);
    DatabaseSegmentManager databaseSegmentManager =
        EasyMock.createMock(DatabaseSegmentManager.class);
    EasyMock.replay(databaseSegmentManager);
    ServerView serverView = EasyMock.createMock(ServerView.class);
    EasyMock.replay(serverView);

    BridgeZkCoordinator bridgeZkCoordinator =
        new BridgeZkCoordinator(
            jsonMapper,
            zkPathsConfig,
            new SegmentLoaderConfig(),
            metadata,
            remoteCf,
            dbSegmentPublisher,
            databaseSegmentManager,
            serverView);

    Announcer announcer = new Announcer(remoteCf, Executors.newSingleThreadExecutor());
    announcer.start();
    announcer.announce(
        zkPathsConfig.getAnnouncementsPath() + "/" + me.getHost(),
        jsonMapper.writeValueAsBytes(me));

    BatchDataSegmentAnnouncer batchDataSegmentAnnouncer =
        EasyMock.createMock(BatchDataSegmentAnnouncer.class);
    BatchServerInventoryView batchServerInventoryView =
        EasyMock.createMock(BatchServerInventoryView.class);
    EasyMock.expect(batchServerInventoryView.getInventory())
        .andReturn(
            Arrays.asList(
                new DruidServer("1", "localhost", 117, "historical", DruidServer.DEFAULT_TIER, 0),
                new DruidServer("2", "localhost", 1, "historical", DruidServer.DEFAULT_TIER, 0)));
    batchServerInventoryView.registerSegmentCallback(
        EasyMock.<Executor>anyObject(), EasyMock.<ServerView.SegmentCallback>anyObject());
    batchServerInventoryView.registerServerCallback(
        EasyMock.<Executor>anyObject(), EasyMock.<ServerView.ServerCallback>anyObject());
    EasyMock.expectLastCall();
    batchServerInventoryView.start();
    EasyMock.expectLastCall();
    batchServerInventoryView.stop();
    EasyMock.expectLastCall();
    EasyMock.replay(batchServerInventoryView);

    DruidClusterBridge bridge =
        new DruidClusterBridge(
            jsonMapper,
            config,
            factory,
            me,
            localCf,
            leaderLatch,
            bridgeZkCoordinator,
            announcer,
            batchDataSegmentAnnouncer,
            batchServerInventoryView);

    bridge.start();

    int retry = 0;
    while (!bridge.isLeader()) {
      if (retry > 5) {
        throw new ISE("Unable to become leader");
      }

      Thread.sleep(100);
      retry++;
    }

    String path = "/druid/announcements/localhost:8080";
    retry = 0;
    while (remoteCf.checkExists().forPath(path) == null) {
      if (retry > 5) {
        throw new ISE("Unable to announce");
      }

      Thread.sleep(100);
      retry++;
    }

    boolean verified = verifyUpdate(jsonMapper, path, remoteCf);
    retry = 0;
    while (!verified) {
      if (retry > 5) {
        throw new ISE("No updates to bridge node occurred");
      }

      Thread.sleep(100);
      retry++;

      verified = verifyUpdate(jsonMapper, path, remoteCf);
    }

    announcer.stop();
    bridge.stop();

    remoteCf.close();
    remoteCluster.close();
    localCf.close();
    localCluster.close();

    EasyMock.verify(batchServerInventoryView);
    EasyMock.verify(dbSegmentPublisher);
    EasyMock.verify(databaseSegmentManager);
    EasyMock.verify(serverView);
  }
示例#4
0
  public void moveSegment(
      String from, String to, String segmentName, final LoadPeonCallback callback) {
    try {
      final DruidServer fromServer = serverInventoryView.getInventoryValue(from);
      if (fromServer == null) {
        throw new IAE("Unable to find server [%s]", from);
      }

      final DruidServer toServer = serverInventoryView.getInventoryValue(to);
      if (toServer == null) {
        throw new IAE("Unable to find server [%s]", to);
      }

      if (to.equalsIgnoreCase(from)) {
        throw new IAE(
            "Redundant command to move segment [%s] from [%s] to [%s]", segmentName, from, to);
      }

      final DataSegment segment = fromServer.getSegment(segmentName);
      if (segment == null) {
        throw new IAE("Unable to find segment [%s] on server [%s]", segmentName, from);
      }

      final LoadQueuePeon loadPeon = loadManagementPeons.get(to);
      if (loadPeon == null) {
        throw new IAE("LoadQueuePeon hasn't been created yet for path [%s]", to);
      }

      final LoadQueuePeon dropPeon = loadManagementPeons.get(from);
      if (dropPeon == null) {
        throw new IAE("LoadQueuePeon hasn't been created yet for path [%s]", from);
      }

      final ServerHolder toHolder = new ServerHolder(toServer, loadPeon);
      if (toHolder.getAvailableSize() < segment.getSize()) {
        throw new IAE(
            "Not enough capacity on server [%s] for segment [%s]. Required: %,d, available: %,d.",
            to, segment, segment.getSize(), toHolder.getAvailableSize());
      }

      final String toLoadQueueSegPath =
          ZKPaths.makePath(ZKPaths.makePath(zkPaths.getLoadQueuePath(), to), segmentName);
      final String toServedSegPath =
          ZKPaths.makePath(
              ZKPaths.makePath(
                  serverInventoryView.getInventoryManagerConfig().getInventoryPath(), to),
              segmentName);

      loadPeon.loadSegment(
          segment,
          new LoadPeonCallback() {
            @Override
            protected void execute() {
              try {
                if (curator.checkExists().forPath(toServedSegPath) != null
                    && curator.checkExists().forPath(toLoadQueueSegPath) == null
                    && !dropPeon.getSegmentsToDrop().contains(segment)) {
                  dropPeon.dropSegment(segment, callback);
                } else if (callback != null) {
                  callback.execute();
                }
              } catch (Exception e) {
                throw Throwables.propagate(e);
              }
            }
          });
    } catch (Exception e) {
      log.makeAlert(e, "Exception moving segment %s", segmentName).emit();
      callback.execute();
    }
  }
  @LifecycleStart
  public void start() throws IOException {
    synchronized (lock) {
      if (started) {
        return;
      }

      log.info("Starting zkCoordinator for server[%s]", me.getName());

      final String loadQueueLocation = ZKPaths.makePath(zkPaths.getLoadQueuePath(), me.getName());
      final String servedSegmentsLocation =
          ZKPaths.makePath(zkPaths.getServedSegmentsPath(), me.getName());
      final String liveSegmentsLocation =
          ZKPaths.makePath(zkPaths.getLiveSegmentsPath(), me.getName());

      loadQueueCache = new PathChildrenCache(curator, loadQueueLocation, true, true, loadingExec);

      try {
        curator.newNamespaceAwareEnsurePath(loadQueueLocation).ensure(curator.getZookeeperClient());
        curator
            .newNamespaceAwareEnsurePath(servedSegmentsLocation)
            .ensure(curator.getZookeeperClient());
        curator
            .newNamespaceAwareEnsurePath(liveSegmentsLocation)
            .ensure(curator.getZookeeperClient());

        loadLocalCache();

        loadQueueCache
            .getListenable()
            .addListener(
                new PathChildrenCacheListener() {
                  @Override
                  public void childEvent(CuratorFramework client, PathChildrenCacheEvent event)
                      throws Exception {
                    final ChildData child = event.getData();
                    switch (event.getType()) {
                      case CHILD_ADDED:
                        final String path = child.getPath();
                        final DataSegmentChangeRequest request =
                            jsonMapper.readValue(child.getData(), DataSegmentChangeRequest.class);

                        log.info("New request[%s] with zNode[%s].", request.asString(), path);

                        try {
                          request.go(
                              getDataSegmentChangeHandler(),
                              new DataSegmentChangeCallback() {
                                boolean hasRun = false;

                                @Override
                                public void execute() {
                                  try {
                                    if (!hasRun) {
                                      curator.delete().guaranteed().forPath(path);
                                      log.info("Completed request [%s]", request.asString());
                                      hasRun = true;
                                    }
                                  } catch (Exception e) {
                                    try {
                                      curator.delete().guaranteed().forPath(path);
                                    } catch (Exception e1) {
                                      log.error(
                                          e1,
                                          "Failed to delete zNode[%s], but ignoring exception.",
                                          path);
                                    }
                                    log.error(e, "Exception while removing zNode[%s]", path);
                                    throw Throwables.propagate(e);
                                  }
                                }
                              });
                        } catch (Exception e) {
                          try {
                            curator.delete().guaranteed().forPath(path);
                          } catch (Exception e1) {
                            log.error(
                                e1, "Failed to delete zNode[%s], but ignoring exception.", path);
                          }

                          log.makeAlert(e, "Segment load/unload: uncaught exception.")
                              .addData("node", path)
                              .addData("nodeProperties", request)
                              .emit();
                        }

                        break;
                      case CHILD_REMOVED:
                        log.info("zNode[%s] was removed", event.getData().getPath());
                        break;
                      default:
                        log.info("Ignoring event[%s]", event);
                    }
                  }
                });
        loadQueueCache.start();
      } catch (Exception e) {
        Throwables.propagateIfPossible(e, IOException.class);
        throw Throwables.propagate(e);
      }

      started = true;
    }
  }
示例#6
0
  @LifecycleStart
  public void start() throws IOException {
    log.info("Starting zkCoordinator for server[%s]", me);
    synchronized (lock) {
      if (started) {
        return;
      }

      final String loadQueueLocation = ZKPaths.makePath(zkPaths.getLoadQueuePath(), me.getName());
      final String servedSegmentsLocation =
          ZKPaths.makePath(zkPaths.getServedSegmentsPath(), me.getName());
      final String liveSegmentsLocation =
          ZKPaths.makePath(zkPaths.getLiveSegmentsPath(), me.getName());

      loadQueueCache =
          new PathChildrenCache(
              curator,
              loadQueueLocation,
              true,
              true,
              new ThreadFactoryBuilder().setDaemon(true).setNameFormat("ZkCoordinator-%s").build());

      try {
        config.getInfoDir().mkdirs();

        curator.newNamespaceAwareEnsurePath(loadQueueLocation).ensure(curator.getZookeeperClient());
        curator
            .newNamespaceAwareEnsurePath(servedSegmentsLocation)
            .ensure(curator.getZookeeperClient());
        curator
            .newNamespaceAwareEnsurePath(liveSegmentsLocation)
            .ensure(curator.getZookeeperClient());

        loadCache();

        loadQueueCache
            .getListenable()
            .addListener(
                new PathChildrenCacheListener() {
                  @Override
                  public void childEvent(CuratorFramework client, PathChildrenCacheEvent event)
                      throws Exception {
                    final ChildData child = event.getData();
                    switch (event.getType()) {
                      case CHILD_ADDED:
                        final String path = child.getPath();
                        final DataSegmentChangeRequest segment =
                            jsonMapper.readValue(child.getData(), DataSegmentChangeRequest.class);

                        log.info("New node[%s] with segmentClass[%s]", path, segment.getClass());

                        try {
                          segment.go(ZkCoordinator.this);
                          curator.delete().guaranteed().forPath(path);

                          log.info("Completed processing for node[%s]", path);
                        } catch (Exception e) {
                          try {
                            curator.delete().guaranteed().forPath(path);
                          } catch (Exception e1) {
                            log.info(
                                e1, "Failed to delete node[%s], but ignoring exception.", path);
                          }

                          log.makeAlert(e, "Segment load/unload: uncaught exception.")
                              .addData("node", path)
                              .addData("nodeProperties", segment)
                              .emit();
                        }

                        break;
                      case CHILD_REMOVED:
                        log.info("%s was removed", event.getData().getPath());
                        break;
                      default:
                        log.info("Ignoring event[%s]", event);
                    }
                  }
                });
        loadQueueCache.start();
      } catch (Exception e) {
        Throwables.propagateIfPossible(e, IOException.class);
        throw Throwables.propagate(e);
      }

      started = true;
    }
  }