Esempio n. 1
0
 /**
  * Check if the ideal state adheres to a rule
  *
  * @param idealState the ideal state to check
  * @param rule the rules of a valid ideal state
  * @return true if the ideal state is a superset of the entries of the rule, false otherwise
  */
 private boolean idealStateMatchesRule(IdealState idealState, Map<String, String> rule) {
   Map<String, String> simpleFields = idealState.getRecord().getSimpleFields();
   for (String key : rule.keySet()) {
     String value = rule.get(key);
     if (!simpleFields.containsKey(key) || !value.equals(simpleFields.get(key))) {
       return false;
     }
   }
   return true;
 }
  public void testEspressoStorageClusterIdealState(int partitions, int nodes, int replica)
      throws Exception {
    List<String> storageNodes = new ArrayList<String>();
    for (int i = 0; i < partitions; i++) {
      storageNodes.add("localhost:123" + i);
    }

    List<String> relays = new ArrayList<String>();
    for (int i = 0; i < nodes; i++) {
      relays.add("relay:123" + i);
    }

    IdealState idealstate =
        IdealStateCalculatorForEspressoRelay.calculateRelayIdealState(
            storageNodes, relays, "TEST", replica, "Leader", "Standby", "LeaderStandby");

    Assert.assertEquals(
        idealstate.getRecord().getListFields().size(),
        idealstate.getRecord().getMapFields().size());

    Map<String, Integer> countMap = new TreeMap<String, Integer>();
    for (String key : idealstate.getRecord().getListFields().keySet()) {
      Assert.assertEquals(
          idealstate.getRecord().getListFields().get(key).size(),
          idealstate.getRecord().getMapFields().get(key).size());
      List<String> list = idealstate.getRecord().getListFields().get(key);
      Map<String, String> map = idealstate.getRecord().getMapFields().get(key);
      Assert.assertEquals(list.size(), replica);
      for (String val : list) {
        if (!countMap.containsKey(val)) {
          countMap.put(val, 1);
        } else {
          countMap.put(val, countMap.get(val) + 1);
        }
        Assert.assertTrue(map.containsKey(val));
      }
    }
    for (String nodeName : countMap.keySet()) {
      Assert.assertTrue(countMap.get(nodeName) <= partitions * replica / nodes + 1);
      // System.out.println(nodeName + " " + countMap.get(nodeName));
    }
    System.out.println();
  }
Esempio n. 3
0
  @Test
  public void testSchemataSM() throws Exception {
    String className = TestHelper.getTestClassName();
    String methodName = TestHelper.getTestMethodName();
    String clusterName = className + "_" + methodName;
    int n = 5;

    MockParticipant[] participants = new MockParticipant[n];

    System.out.println("START " + clusterName + " at " + new Date(System.currentTimeMillis()));

    TestHelper.setupCluster(
        clusterName,
        _zkaddr,
        12918, // participant start port
        "localhost", // participant name prefix
        "TestSchemata", // resource name prefix
        1, // resources
        1, // partitions per resource
        n, // number of nodes
        0, // replicas
        "STORAGE_DEFAULT_SM_SCHEMATA",
        false); // don't rebalance

    // rebalance ideal-state to use ANY_LIVEINSTANCE for preference list
    ZKHelixDataAccessor accessor = new ZKHelixDataAccessor(clusterName, _baseAccessor);
    PropertyKey.Builder keyBuilder = accessor.keyBuilder();
    PropertyKey key = keyBuilder.idealStates("TestSchemata0");
    IdealState idealState = accessor.getProperty(key);
    idealState.setReplicas(HelixConstants.StateModelToken.ANY_LIVEINSTANCE.toString());
    idealState
        .getRecord()
        .setListField(
            "TestSchemata0_0",
            Arrays.asList(HelixConstants.StateModelToken.ANY_LIVEINSTANCE.toString()));
    accessor.setProperty(key, idealState);

    MockController controller = new MockController(_zkaddr, clusterName, "controller");
    controller.syncStart();

    // start n-1 participants
    for (int i = 1; i < n; i++) {
      String instanceName = "localhost_" + (12918 + i);

      participants[i] = new MockParticipant(_zkaddr, clusterName, instanceName);
      participants[i].syncStart();
    }

    boolean result =
        ClusterStateVerifier.verifyByZkCallback(
            new BestPossAndExtViewZkVerifier(_zkaddr, clusterName));
    Assert.assertTrue(result);

    // start the remaining 1 participant
    participants[0] = new MockParticipant(_zkaddr, clusterName, "localhost_12918");
    participants[0].syncStart();

    // make sure we have all participants in MASTER state
    result =
        ClusterStateVerifier.verifyByZkCallback(
            new BestPossAndExtViewZkVerifier(_zkaddr, clusterName));
    Assert.assertTrue(result);
    key = keyBuilder.externalView("TestSchemata0");
    ExternalView externalView = accessor.getProperty(key);
    Map<String, String> stateMap = externalView.getStateMap("TestSchemata0_0");
    Assert.assertNotNull(stateMap);
    Assert.assertEquals(stateMap.size(), n, "all " + n + " participants should be in Master state");
    for (int i = 0; i < n; i++) {
      String instanceName = "localhost_" + (12918 + i);
      Assert.assertNotNull(stateMap.get(instanceName));
      Assert.assertEquals(stateMap.get(instanceName), "MASTER");
    }

    // clean up
    controller.syncStop();
    for (int i = 0; i < n; i++) {
      participants[i].syncStop();
    }

    System.out.println("END " + clusterName + " at " + new Date(System.currentTimeMillis()));
  }
  @Override
  public void onCallback(NotificationContext context) {
    LOG.info(
        "START: MasterSlaveRebalancer.onCallback running at "
            + _context.getHelixManager().getInstanceName());

    if (context.getType().equals(NotificationContext.Type.FINALIZE)) {
      LOG.info(
          "END: MasterSlaveRebalancer.onCallback FINALIZE callback invoked. Likely lost connection to Helix");
      return;
    }

    HelixManager manager = context.getManager();
    String clusterName = manager.getClusterName();
    HelixAdmin helixAdmin = manager.getClusterManagmentTool();
    IdealState idealState =
        helixAdmin.getResourceIdealState(clusterName, MySQLConstants.MASTER_SLAVE_RESOURCE_NAME);

    if (idealState == null) {
      LOG.info(
          "END: MasterSlaveRebalancer.onCallback. "
              + MySQLConstants.MASTER_SLAVE_RESOURCE_NAME
              + " is not yet created");
    }

    PropertyKey.Builder builder = new PropertyKey.Builder(clusterName);
    Map<String, LiveInstance> liveInstancesMap =
        manager.getHelixDataAccessor().getChildValuesMap(builder.liveInstances());

    Map<String, InstanceConfig> instanceConfigs =
        manager.getHelixDataAccessor().getChildValuesMap(builder.instanceConfigs());

    IdealState newIdealState = new IdealState(idealState.getId());
    newIdealState.getRecord().setSimpleFields(idealState.getRecord().getSimpleFields());
    newIdealState.getRecord().setListFields(idealState.getRecord().getListFields());
    for (String partition : idealState.getPartitionSet()) {
      Map<String, String> instanceStateMap = idealState.getInstanceStateMap(partition);
      String currMaster = null;
      Set<String> slaveSet = new TreeSet<String>();
      for (String instance : instanceStateMap.keySet()) {
        if ("MASTER".equalsIgnoreCase(instanceStateMap.get(instance))) {
          currMaster = instance;
        }
        if ("SLAVE".equalsIgnoreCase(instanceStateMap.get(instance))) {
          slaveSet.add(instance);
        }
      }
      String newMaster = currMaster;
      if (!liveInstancesMap.containsKey(currMaster)
          || !instanceConfigs.get(currMaster).getInstanceEnabled()) {
        // need to find a new master.
        newMaster = findNewMaster(liveInstancesMap, instanceConfigs, currMaster, slaveSet);
      }
      for (String instance : instanceStateMap.keySet()) {
        if (instance.equalsIgnoreCase(newMaster)) {
          newIdealState.setPartitionState(partition, instance, "MASTER");
        } else {
          newIdealState.setPartitionState(partition, instance, "SLAVE");
        }
      }
    }
    if (!idealState.equals(newIdealState)) {
      LOG.info("New idealstate computed.");
      LOG.info(newIdealState.toString());
      manager
          .getClusterManagmentTool()
          .setResourceIdealState(
              clusterName, MySQLConstants.MASTER_SLAVE_RESOURCE_NAME, newIdealState);
    } else {
      LOG.info("No change in IdealState");
    }
    LOG.info("END: MasterSlaveRebalancer.onCallback");
  }
Esempio n. 5
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  @Test
  public void testExpandCluster() throws Exception {
    String DB2 = "TestDB2";
    int partitions = 100;
    int replica = 3;
    _setupTool.addResourceToCluster(CLUSTER_NAME, DB2, partitions, STATE_MODEL);
    _setupTool.rebalanceStorageCluster(CLUSTER_NAME, DB2, replica, "keyX");

    String DB3 = "TestDB3";

    _setupTool.addResourceToCluster(CLUSTER_NAME, DB3, partitions, STATE_MODEL);

    IdealState testDB0 =
        _setupTool.getClusterManagementTool().getResourceIdealState(CLUSTER_NAME, TEST_DB);
    IdealState testDB2 =
        _setupTool.getClusterManagementTool().getResourceIdealState(CLUSTER_NAME, DB2);
    IdealState testDB3 =
        _setupTool.getClusterManagementTool().getResourceIdealState(CLUSTER_NAME, DB3);

    for (int i = 0; i < 5; i++) {
      String storageNodeName = "localhost_" + (27960 + i);
      _setupTool.addInstanceToCluster(CLUSTER_NAME, storageNodeName);
    }
    String command = "-zkSvr localhost:2183 -expandCluster " + CLUSTER_NAME;
    ClusterSetup.processCommandLineArgs(command.split(" "));

    IdealState testDB0_1 =
        _setupTool.getClusterManagementTool().getResourceIdealState(CLUSTER_NAME, TEST_DB);
    IdealState testDB2_1 =
        _setupTool.getClusterManagementTool().getResourceIdealState(CLUSTER_NAME, DB2);
    IdealState testDB3_1 =
        _setupTool.getClusterManagementTool().getResourceIdealState(CLUSTER_NAME, DB3);

    Map<String, Object> resultOld2 = RebalanceUtil.buildInternalIdealState(testDB2);
    Map<String, Object> result2 = RebalanceUtil.buildInternalIdealState(testDB2_1);

    TestEspressoStorageClusterIdealState.Verify(result2, partitions, replica - 1);

    Double masterKeepRatio = 0.0, slaveKeepRatio = 0.0;
    double[] result = TestEspressoStorageClusterIdealState.compareResult(resultOld2, result2);
    masterKeepRatio = result[0];
    slaveKeepRatio = result[1];
    Assert.assertTrue(masterKeepRatio > 0.49 && masterKeepRatio < 0.51);

    Assert.assertTrue(testDB3_1.getRecord().getListFields().size() == 0);

    // partitions should stay as same
    Assert.assertTrue(
        testDB0_1
            .getRecord()
            .getListFields()
            .keySet()
            .containsAll(testDB0.getRecord().getListFields().keySet()));
    Assert.assertTrue(
        testDB0_1.getRecord().getListFields().size() == testDB0.getRecord().getListFields().size());
    Assert.assertTrue(
        testDB2_1
            .getRecord()
            .getMapFields()
            .keySet()
            .containsAll(testDB2.getRecord().getMapFields().keySet()));
    Assert.assertTrue(
        testDB2_1.getRecord().getMapFields().size() == testDB2.getRecord().getMapFields().size());
    Assert.assertTrue(
        testDB3_1
            .getRecord()
            .getMapFields()
            .keySet()
            .containsAll(testDB3.getRecord().getMapFields().keySet()));
    Assert.assertTrue(
        testDB3_1.getRecord().getMapFields().size() == testDB3.getRecord().getMapFields().size());

    Map<String, Object> resultOld = RebalanceUtil.buildInternalIdealState(testDB0);
    Map<String, Object> resultNew = RebalanceUtil.buildInternalIdealState(testDB0_1);

    result = TestEspressoStorageClusterIdealState.compareResult(resultOld, resultNew);
    masterKeepRatio = result[0];
    slaveKeepRatio = result[1];
    Assert.assertTrue(masterKeepRatio > 0.49 && masterKeepRatio < 0.51);
  }
Esempio n. 6
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  public static IdealState calculateRelayIdealState(
      List<String> partitions,
      List<String> instances,
      String resultRecordName,
      int replica,
      String firstValue,
      String restValue,
      String stateModelName) {
    Collections.sort(partitions);
    Collections.sort(instances);
    if (instances.size() % replica != 0) {
      throw new HelixException("Instances must be divided by replica");
    }

    IdealState result = new IdealState(resultRecordName);
    result.setNumPartitions(partitions.size());
    result.setReplicas("" + replica);
    result.setStateModelDefId(StateModelDefinitionId.from(stateModelName));

    int groups = instances.size() / replica;
    int remainder = instances.size() % replica;

    int remainder2 = partitions.size() % groups;
    int storageNodeGroupSize = partitions.size() / groups;

    for (int i = 0; i < groups; i++) {
      int relayStart = 0, relayEnd = 0, storageNodeStart = 0, storageNodeEnd = 0;
      if (i < remainder) {
        relayStart = (replica + 1) * i;
        relayEnd = (replica + 1) * (i + 1);
      } else {
        relayStart = (replica + 1) * remainder + replica * (i - remainder);
        relayEnd = relayStart + replica;
      }
      // System.out.println("relay start :" + relayStart + " relayEnd:" + relayEnd);
      if (i < remainder2) {
        storageNodeStart = (storageNodeGroupSize + 1) * i;
        storageNodeEnd = (storageNodeGroupSize + 1) * (i + 1);
      } else {
        storageNodeStart =
            (storageNodeGroupSize + 1) * remainder2 + storageNodeGroupSize * (i - remainder2);
        storageNodeEnd = storageNodeStart + storageNodeGroupSize;
      }

      // System.out.println("storageNodeStart :" + storageNodeStart + " storageNodeEnd:" +
      // storageNodeEnd);
      List<String> snBatch = partitions.subList(storageNodeStart, storageNodeEnd);
      List<String> relayBatch = instances.subList(relayStart, relayEnd);

      Map<String, List<String>> sublistFields =
          calculateSubIdealState(snBatch, relayBatch, replica);

      result.getRecord().getListFields().putAll(sublistFields);
    }

    for (String snName : result.getRecord().getListFields().keySet()) {
      Map<String, String> mapField = new TreeMap<String, String>();
      List<String> relayCandidates = result.getRecord().getListField(snName);
      mapField.put(relayCandidates.get(0), firstValue);
      for (int i = 1; i < relayCandidates.size(); i++) {
        mapField.put(relayCandidates.get(i), restValue);
      }
      result.getRecord().getMapFields().put(snName, mapField);
    }
    System.out.println();
    return result;
  }