Examples of org.apache.hadoop.hbase.HBaseTestingUtility

• org.apache.hadoop.hbase.HBaseTestingUtility
  Facility for testing HBase. Replacement for old HBaseTestCase and HBaseClusterTestCase functionality. Create an instance and keep it around testing HBase. This class is meant to be your one-stop shop for anything you might need testing. Manages one cluster at a time only. Managed cluster can be an in-process {@link MiniHBaseCluster}, or a deployed cluster of type {@link DistributedHBaseCluster}. Not all methods work with the real cluster. Depends on log4j being on classpath and hbase-site.xml for logging and test-run configuration. It does not set logging levels nor make changes to configuration parameters.

  @BeforeClass
  public static void setUpClass() throws Exception {
    // We have to use mini mapreduce cluster, because LocalJobRunner allows only a single reducer
    // (we will need it to test bulk load against multiple regions).
    Configuration conf = HBaseConfiguration.create();
    HBASE_TEST_UTILITY = new HBaseTestingUtility(conf);
    HBASE_TEST_UTILITY.startMiniCluster(1);
  }

  }

  @Before
  public void setUp() throws Exception {
    Configuration conf = HBaseConfiguration.create(tmpDir.getDefaultConfiguration());
    hbaseTestUtil = new HBaseTestingUtility(conf);
    hbaseTestUtil.startMiniZKCluster();
    hbaseTestUtil.startMiniHBaseCluster(1, 1);
  }

            e.printStackTrace();
        }
        GenPhyOp.setPc(pc);
        Util.copyFromLocalToCluster(cluster, "test/org/apache/pig/test/data/passwd", "/passwd");
  Configuration conf = cluster.getConfiguration();
  util = new HBaseTestingUtility(conf);
  util.startMiniZKCluster();
  util.startMiniHBaseCluster(1, 1);

    }

        MiniCluster cluster = MiniCluster.buildCluster();

        conf = cluster.getConfiguration();
        conf.setInt("mapred.map.max.attempts", 1);

        util = new HBaseTestingUtility(conf);
        util.startMiniZKCluster();
        util.startMiniHBaseCluster(1, 1);


        pig = new PigServer(ExecType.LOCAL,

    this(WaspConfiguration.create());
  }

  public WaspTestingUtility(Configuration conf) {
    this.conf = conf;
    hbaseTestingUtility = new HBaseTestingUtility(conf);
  }

      for (HTableDescriptor h : htables2) {
        LOG.info("HTable : " + h.getNameAsString() + "  ");
      }
      Assert.assertEquals(htables2.length, 5);

      HBaseTestingUtility hbaseTestingUtility = TEST_UTIL
          .getHBaseTestingUtility();
      HBaseAdmin hbaseAdmin = hbaseTestingUtility.getHBaseAdmin();
      String testTableName = "tr";
      String fami = "test";
      // test delete TransactionTable
      String tHTableName = StorageTableNameBuilder
          .buildTransactionTableName(testTableName);

  };

  @Before
  public void setup() throws Exception {
    TEST_UTIL = new HBaseTestingUtility();
    TEST_UTIL.startMiniZKCluster();
    conf = TEST_UTIL.getConfiguration();
    // Use a different ZK wrapper instance for each tests.
    zkw = new ZooKeeperWatcher(conf, "split-log-manager-tests" + UUID.randomUUID().toString(), null);
    ZKUtil.deleteChildrenRecursively(zkw, zkw.baseZNode);

    // Create config to use for this cluster
    Configuration conf = HBaseConfiguration.create();

    // Start the cluster
    HBaseTestingUtility TEST_UTIL = new HBaseTestingUtility(conf);
    TEST_UTIL.startMiniCluster(NUM_MASTERS, NUM_RS);
    MiniHBaseCluster cluster = TEST_UTIL.getHBaseCluster();
    log("Cluster started");

    // Create a ZKW to use in the test
    ZooKeeperWatcher zkw = HBaseTestingUtility.getZooKeeperWatcher(TEST_UTIL);

    // get all the master threads
    List<MasterThread> masterThreads = cluster.getMasterThreads();
    assertEquals(1, masterThreads.size());

    // only one master thread, let's wait for it to be initialized
    assertTrue(cluster.waitForActiveAndReadyMaster());
    HMaster master = masterThreads.get(0).getMaster();
    assertTrue(master.isActiveMaster());
    assertTrue(master.isInitialized());

    // disable load balancing on this master
    master.balanceSwitch(false);

    // create two tables in META, each with 10 regions
    byte [] FAMILY = Bytes.toBytes("family");
    byte [][] SPLIT_KEYS = new byte [][] {
        new byte[0], Bytes.toBytes("aaa"), Bytes.toBytes("bbb"),
        Bytes.toBytes("ccc"), Bytes.toBytes("ddd"), Bytes.toBytes("eee"),
        Bytes.toBytes("fff"), Bytes.toBytes("ggg"), Bytes.toBytes("hhh"),
        Bytes.toBytes("iii"), Bytes.toBytes("jjj")
    };

    byte [] enabledTable = Bytes.toBytes("enabledTable");
    HTableDescriptor htdEnabled = new HTableDescriptor(TableName.valueOf(enabledTable));
    htdEnabled.addFamily(new HColumnDescriptor(FAMILY));

    FileSystem filesystem = FileSystem.get(conf);
    Path rootdir = FSUtils.getRootDir(conf);
    FSTableDescriptors fstd = new FSTableDescriptors(filesystem, rootdir);
    // Write the .tableinfo
    fstd.createTableDescriptor(htdEnabled);

    HRegionInfo hriEnabled = new HRegionInfo(htdEnabled.getTableName(), null, null);
    createRegion(hriEnabled, rootdir, conf, htdEnabled);

    List<HRegionInfo> enabledRegions = TEST_UTIL.createMultiRegionsInMeta(
        TEST_UTIL.getConfiguration(), htdEnabled, SPLIT_KEYS);

    TableName disabledTable = TableName.valueOf("disabledTable");
    HTableDescriptor htdDisabled = new HTableDescriptor(disabledTable);
    htdDisabled.addFamily(new HColumnDescriptor(FAMILY));
    // Write the .tableinfo
    fstd.createTableDescriptor(htdDisabled);
    HRegionInfo hriDisabled = new HRegionInfo(htdDisabled.getTableName(), null, null);
    createRegion(hriDisabled, rootdir, conf, htdDisabled);
    List<HRegionInfo> disabledRegions = TEST_UTIL.createMultiRegionsInMeta(
        TEST_UTIL.getConfiguration(), htdDisabled, SPLIT_KEYS);

    TableName tableWithMergingRegions = TableName.valueOf("tableWithMergingRegions");
    TEST_UTIL.createTable(tableWithMergingRegions, FAMILY, new byte [][] {Bytes.toBytes("m")});

    log("Regions in hbase:meta and namespace have been created");

    // at this point we only expect 4 regions to be assigned out
    // (catalogs and namespace, + 2 merging regions)
    assertEquals(4, cluster.countServedRegions());

    // Move merging regions to the same region server
    AssignmentManager am = master.getAssignmentManager();
    RegionStates regionStates = am.getRegionStates();
    List<HRegionInfo> mergingRegions = regionStates.getRegionsOfTable(tableWithMergingRegions);
    assertEquals(2, mergingRegions.size());
    HRegionInfo a = mergingRegions.get(0);
    HRegionInfo b = mergingRegions.get(1);
    HRegionInfo newRegion = RegionMergeTransaction.getMergedRegionInfo(a, b);
    ServerName mergingServer = regionStates.getRegionServerOfRegion(a);
    ServerName serverB = regionStates.getRegionServerOfRegion(b);
    if (!serverB.equals(mergingServer)) {
      RegionPlan plan = new RegionPlan(b, serverB, mergingServer);
      am.balance(plan);
      assertTrue(am.waitForAssignment(b));
    }

    // Let's just assign everything to first RS
    HRegionServer hrs = cluster.getRegionServer(0);
    ServerName serverName = hrs.getServerName();
    HRegionInfo closingRegion = enabledRegions.remove(0);
    // we'll need some regions to already be assigned out properly on live RS
    List<HRegionInfo> enabledAndAssignedRegions = new ArrayList<HRegionInfo>();
    enabledAndAssignedRegions.add(enabledRegions.remove(0));
    enabledAndAssignedRegions.add(enabledRegions.remove(0));
    enabledAndAssignedRegions.add(closingRegion);

    List<HRegionInfo> disabledAndAssignedRegions = new ArrayList<HRegionInfo>();
    disabledAndAssignedRegions.add(disabledRegions.remove(0));
    disabledAndAssignedRegions.add(disabledRegions.remove(0));

    // now actually assign them
    for (HRegionInfo hri : enabledAndAssignedRegions) {
      master.assignmentManager.regionPlans.put(hri.getEncodedName(),
          new RegionPlan(hri, null, serverName));
      master.assignRegion(hri);
    }
    for (HRegionInfo hri : disabledAndAssignedRegions) {
      master.assignmentManager.regionPlans.put(hri.getEncodedName(),
          new RegionPlan(hri, null, serverName));
      master.assignRegion(hri);
    }

    // wait for no more RIT
    log("Waiting for assignment to finish");
    ZKAssign.blockUntilNoRIT(zkw);
    log("Assignment completed");

    // Stop the master
    log("Aborting master");
    cluster.abortMaster(0);
    cluster.waitOnMaster(0);
    log("Master has aborted");

    /*
     * Now, let's start mocking up some weird states as described in the method
     * javadoc.
     */

    List<HRegionInfo> regionsThatShouldBeOnline = new ArrayList<HRegionInfo>();
    List<HRegionInfo> regionsThatShouldBeOffline = new ArrayList<HRegionInfo>();

    log("Beginning to mock scenarios");

    // Disable the disabledTable in ZK
    ZKTable zktable = new ZKTable(zkw);
    zktable.setDisabledTable(disabledTable);

    /*
     *  ZK = OFFLINE
     */

    // Region that should be assigned but is not and is in ZK as OFFLINE
    // Cause: This can happen if the master crashed after creating the znode but before sending the
    //  request to the region server
    HRegionInfo region = enabledRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    ZKAssign.createNodeOffline(zkw, region, serverName);

    /*
     * ZK = CLOSING
     */
    // Cause: Same as offline.
    regionsThatShouldBeOnline.add(closingRegion);
    ZKAssign.createNodeClosing(zkw, closingRegion, serverName);

    /*
     * ZK = CLOSED
     */

    // Region of enabled table closed but not ack
    //Cause: Master was down while the region server updated the ZK status.
    region = enabledRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    int version = ZKAssign.createNodeClosing(zkw, region, serverName);
    ZKAssign.transitionNodeClosed(zkw, region, serverName, version);

    // Region of disabled table closed but not ack
    region = disabledRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    version = ZKAssign.createNodeClosing(zkw, region, serverName);
    ZKAssign.transitionNodeClosed(zkw, region, serverName, version);

    /*
     * ZK = OPENED
     */

    // Region of enabled table was opened on RS
    // Cause: as offline
    region = enabledRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    ZKAssign.createNodeOffline(zkw, region, serverName);
    ProtobufUtil.openRegion(hrs, region);
    while (true) {
      byte [] bytes = ZKAssign.getData(zkw, region.getEncodedName());
      RegionTransition rt = RegionTransition.parseFrom(bytes);
      if (rt != null && rt.getEventType().equals(EventType.RS_ZK_REGION_OPENED)) {
        break;
      }
      Thread.sleep(100);
    }

    // Region of disable table was opened on RS
    // Cause: Master failed while updating the status for this region server.
    region = disabledRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    ZKAssign.createNodeOffline(zkw, region, serverName);
    ProtobufUtil.openRegion(hrs, region);
    while (true) {
      byte [] bytes = ZKAssign.getData(zkw, region.getEncodedName());
      RegionTransition rt = RegionTransition.parseFrom(bytes);
      if (rt != null && rt.getEventType().equals(EventType.RS_ZK_REGION_OPENED)) {
        break;
      }
      Thread.sleep(100);
    }

    /*
     * ZK = MERGING
     */

    // Regions of table of merging regions
    // Cause: Master was down while merging was going on
    RegionMergeTransaction.createNodeMerging(
      zkw, newRegion, mergingServer, a, b);

    /*
     * ZK = NONE
     */

    /*
     * DONE MOCKING
     */

    log("Done mocking data up in ZK");

    // Start up a new master
    log("Starting up a new master");
    master = cluster.startMaster().getMaster();
    log("Waiting for master to be ready");
    cluster.waitForActiveAndReadyMaster();
    log("Master is ready");

    // Get new region states since master restarted
    regionStates = master.getAssignmentManager().getRegionStates();
    // Merging region should remain merging
    assertTrue(regionStates.isRegionInState(a, State.MERGING));
    assertTrue(regionStates.isRegionInState(b, State.MERGING));
    assertTrue(regionStates.isRegionInState(newRegion, State.MERGING_NEW));
    // Now remove the faked merging znode, merging regions should be
    // offlined automatically, otherwise it is a bug in AM.
    ZKAssign.deleteNodeFailSilent(zkw, newRegion);

    // Failover should be completed, now wait for no RIT
    log("Waiting for no more RIT");
    ZKAssign.blockUntilNoRIT(zkw);
    log("No more RIT in ZK, now doing final test verification");

    // Grab all the regions that are online across RSs
    Set<HRegionInfo> onlineRegions = new TreeSet<HRegionInfo>();
    for (JVMClusterUtil.RegionServerThread rst :
      cluster.getRegionServerThreads()) {
      onlineRegions.addAll(ProtobufUtil.getOnlineRegions(rst.getRegionServer()));
    }

    // Now, everything that should be online should be online
    for (HRegionInfo hri : regionsThatShouldBeOnline) {
      assertTrue(onlineRegions.contains(hri));
    }

    // Everything that should be offline should not be online
    for (HRegionInfo hri : regionsThatShouldBeOffline) {
      if (onlineRegions.contains(hri)) {
       LOG.debug(hri);
      }
      assertFalse(onlineRegions.contains(hri));
    }

    log("Done with verification, all passed, shutting down cluster");

    // Done, shutdown the cluster
    TEST_UTIL.shutdownMiniCluster();
  }

    final int NUM_MASTERS = 1;
    final int NUM_RS = 2;

    // Create and start the cluster
    HBaseTestingUtility TEST_UTIL = new HBaseTestingUtility();
    Configuration conf = TEST_UTIL.getConfiguration();

    conf.setInt(ServerManager.WAIT_ON_REGIONSERVERS_MINTOSTART, 1);
    conf.setInt(ServerManager.WAIT_ON_REGIONSERVERS_MAXTOSTART, 2);
    TEST_UTIL.startMiniCluster(NUM_MASTERS, NUM_RS);
    MiniHBaseCluster cluster = TEST_UTIL.getHBaseCluster();
    log("Cluster started");

    // Create a ZKW to use in the test
    ZooKeeperWatcher zkw = new ZooKeeperWatcher(TEST_UTIL.getConfiguration(),
        "unittest", new Abortable() {

          @Override
          public void abort(String why, Throwable e) {
            LOG.error("Fatal ZK Error: " + why, e);
            org.junit.Assert.assertFalse("Fatal ZK error", true);
          }

          @Override
          public boolean isAborted() {
            return false;
          }

    });

    // get all the master threads
    List<MasterThread> masterThreads = cluster.getMasterThreads();
    assertEquals(1, masterThreads.size());

    // only one master thread, let's wait for it to be initialized
    assertTrue(cluster.waitForActiveAndReadyMaster());
    HMaster master = masterThreads.get(0).getMaster();
    assertTrue(master.isActiveMaster());
    assertTrue(master.isInitialized());

    // disable load balancing on this master
    master.balanceSwitch(false);

    // create two tables in META, each with 30 regions
    byte [] FAMILY = Bytes.toBytes("family");
    byte[][] SPLIT_KEYS =
        TEST_UTIL.getRegionSplitStartKeys(Bytes.toBytes("aaa"), Bytes.toBytes("zzz"), 30);

    byte [] enabledTable = Bytes.toBytes("enabledTable");
    HTableDescriptor htdEnabled = new HTableDescriptor(TableName.valueOf(enabledTable));
    htdEnabled.addFamily(new HColumnDescriptor(FAMILY));
    FileSystem filesystem = FileSystem.get(conf);
    Path rootdir = FSUtils.getRootDir(conf);
    FSTableDescriptors fstd = new FSTableDescriptors(filesystem, rootdir);
    // Write the .tableinfo
    fstd.createTableDescriptor(htdEnabled);
    HRegionInfo hriEnabled = new HRegionInfo(htdEnabled.getTableName(),
        null, null);
    createRegion(hriEnabled, rootdir, conf, htdEnabled);

    List<HRegionInfo> enabledRegions = TEST_UTIL.createMultiRegionsInMeta(
        TEST_UTIL.getConfiguration(), htdEnabled, SPLIT_KEYS);

    TableName disabledTable =
        TableName.valueOf("disabledTable");
    HTableDescriptor htdDisabled = new HTableDescriptor(disabledTable);
    htdDisabled.addFamily(new HColumnDescriptor(FAMILY));
    // Write the .tableinfo
    fstd.createTableDescriptor(htdDisabled);
    HRegionInfo hriDisabled = new HRegionInfo(htdDisabled.getTableName(), null, null);
    createRegion(hriDisabled, rootdir, conf, htdDisabled);

    List<HRegionInfo> disabledRegions = TEST_UTIL.createMultiRegionsInMeta(
        TEST_UTIL.getConfiguration(), htdDisabled, SPLIT_KEYS);

    log("Regions in hbase:meta and Namespace have been created");

    // at this point we only expect 2 regions to be assigned out (catalogs and namespace  )
    assertEquals(2, cluster.countServedRegions());

    // The first RS will stay online
    List<RegionServerThread> regionservers =
      cluster.getRegionServerThreads();
    HRegionServer hrs = regionservers.get(0).getRegionServer();

    // The second RS is going to be hard-killed
    RegionServerThread hrsDeadThread = regionservers.get(1);
    HRegionServer hrsDead = hrsDeadThread.getRegionServer();
    ServerName deadServerName = hrsDead.getServerName();

    // we'll need some regions to already be assigned out properly on live RS
    List<HRegionInfo> enabledAndAssignedRegions = new ArrayList<HRegionInfo>();
    enabledAndAssignedRegions.addAll(enabledRegions.subList(0, 6));
    enabledRegions.removeAll(enabledAndAssignedRegions);
    List<HRegionInfo> disabledAndAssignedRegions = new ArrayList<HRegionInfo>();
    disabledAndAssignedRegions.addAll(disabledRegions.subList(0, 6));
    disabledRegions.removeAll(disabledAndAssignedRegions);

    // now actually assign them
    for (HRegionInfo hri : enabledAndAssignedRegions) {
      master.assignmentManager.regionPlans.put(hri.getEncodedName(),
          new RegionPlan(hri, null, hrs.getServerName()));
      master.assignRegion(hri);
    }
    for (HRegionInfo hri : disabledAndAssignedRegions) {
      master.assignmentManager.regionPlans.put(hri.getEncodedName(),
          new RegionPlan(hri, null, hrs.getServerName()));
      master.assignRegion(hri);
    }

    log("Waiting for assignment to finish");
    ZKAssign.blockUntilNoRIT(zkw);
    master.assignmentManager.waitUntilNoRegionsInTransition(60000);
    log("Assignment completed");

    assertTrue(" Table must be enabled.", master.getAssignmentManager()
        .getZKTable().isEnabledTable(TableName.valueOf("enabledTable")));
    // we also need regions assigned out on the dead server
    List<HRegionInfo> enabledAndOnDeadRegions = new ArrayList<HRegionInfo>();
    enabledAndOnDeadRegions.addAll(enabledRegions.subList(0, 6));
    enabledRegions.removeAll(enabledAndOnDeadRegions);
    List<HRegionInfo> disabledAndOnDeadRegions = new ArrayList<HRegionInfo>();
    disabledAndOnDeadRegions.addAll(disabledRegions.subList(0, 6));
    disabledRegions.removeAll(disabledAndOnDeadRegions);

    // set region plan to server to be killed and trigger assign
    for (HRegionInfo hri : enabledAndOnDeadRegions) {
      master.assignmentManager.regionPlans.put(hri.getEncodedName(),
          new RegionPlan(hri, null, deadServerName));
      master.assignRegion(hri);
    }
    for (HRegionInfo hri : disabledAndOnDeadRegions) {
      master.assignmentManager.regionPlans.put(hri.getEncodedName(),
          new RegionPlan(hri, null, deadServerName));
      master.assignRegion(hri);
    }

    // wait for no more RIT
    log("Waiting for assignment to finish");
    ZKAssign.blockUntilNoRIT(zkw);
    master.assignmentManager.waitUntilNoRegionsInTransition(60000);
    log("Assignment completed");

    // Due to master.assignRegion(hri) could fail to assign a region to a specified RS
    // therefore, we need make sure that regions are in the expected RS
    verifyRegionLocation(hrs, enabledAndAssignedRegions);
    verifyRegionLocation(hrs, disabledAndAssignedRegions);
    verifyRegionLocation(hrsDead, enabledAndOnDeadRegions);
    verifyRegionLocation(hrsDead, disabledAndOnDeadRegions);

    assertTrue(" Didn't get enough regions of enabledTalbe on live rs.",
      enabledAndAssignedRegions.size() >= 2);
    assertTrue(" Didn't get enough regions of disalbedTable on live rs.",
      disabledAndAssignedRegions.size() >= 2);
    assertTrue(" Didn't get enough regions of enabledTalbe on dead rs.",
      enabledAndOnDeadRegions.size() >= 2);
    assertTrue(" Didn't get enough regions of disalbedTable on dead rs.",
      disabledAndOnDeadRegions.size() >= 2);

    // Stop the master
    log("Aborting master");
    cluster.abortMaster(0);
    cluster.waitOnMaster(0);
    log("Master has aborted");

    /*
     * Now, let's start mocking up some weird states as described in the method
     * javadoc.
     */

    List<HRegionInfo> regionsThatShouldBeOnline = new ArrayList<HRegionInfo>();
    List<HRegionInfo> regionsThatShouldBeOffline = new ArrayList<HRegionInfo>();

    log("Beginning to mock scenarios");

    // Disable the disabledTable in ZK
    ZKTable zktable = new ZKTable(zkw);
    zktable.setDisabledTable(disabledTable);

    assertTrue(" The enabled table should be identified on master fail over.",
        zktable.isEnabledTable(TableName.valueOf("enabledTable")));

    /*
     * ZK = CLOSING
     */

    // Region of enabled table being closed on dead RS but not finished
    HRegionInfo region = enabledAndOnDeadRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    ZKAssign.createNodeClosing(zkw, region, deadServerName);
    LOG.debug("\n\nRegion of enabled table was CLOSING on dead RS\n" +
        region + "\n\n");

    // Region of disabled table being closed on dead RS but not finished
    region = disabledAndOnDeadRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    ZKAssign.createNodeClosing(zkw, region, deadServerName);
    LOG.debug("\n\nRegion of disabled table was CLOSING on dead RS\n" +
        region + "\n\n");

    /*
     * ZK = CLOSED
     */

    // Region of enabled on dead server gets closed but not ack'd by master
    region = enabledAndOnDeadRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    int version = ZKAssign.createNodeClosing(zkw, region, deadServerName);
    ZKAssign.transitionNodeClosed(zkw, region, deadServerName, version);
    LOG.debug("\n\nRegion of enabled table was CLOSED on dead RS\n" +
        region + "\n\n");

    // Region of disabled on dead server gets closed but not ack'd by master
    region = disabledAndOnDeadRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    version = ZKAssign.createNodeClosing(zkw, region, deadServerName);
    ZKAssign.transitionNodeClosed(zkw, region, deadServerName, version);
    LOG.debug("\n\nRegion of disabled table was CLOSED on dead RS\n" +
        region + "\n\n");

    /*
     * ZK = OPENING
     */

    // RS was opening a region of enabled table then died
    region = enabledRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    ZKAssign.createNodeOffline(zkw, region, deadServerName);
    ZKAssign.transitionNodeOpening(zkw, region, deadServerName);
    LOG.debug("\n\nRegion of enabled table was OPENING on dead RS\n" +
        region + "\n\n");

    // RS was opening a region of disabled table then died
    region = disabledRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    ZKAssign.createNodeOffline(zkw, region, deadServerName);
    ZKAssign.transitionNodeOpening(zkw, region, deadServerName);
    LOG.debug("\n\nRegion of disabled table was OPENING on dead RS\n" +
        region + "\n\n");

    /*
     * ZK = OPENED
     */

    // Region of enabled table was opened on dead RS
    region = enabledRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    ZKAssign.createNodeOffline(zkw, region, deadServerName);
    ProtobufUtil.openRegion(hrsDead, region);
    while (true) {
      byte [] bytes = ZKAssign.getData(zkw, region.getEncodedName());
      RegionTransition rt = RegionTransition.parseFrom(bytes);
      if (rt != null && rt.getEventType().equals(EventType.RS_ZK_REGION_OPENED)) {
        break;
      }
      Thread.sleep(100);
    }
    LOG.debug("\n\nRegion of enabled table was OPENED on dead RS\n" +
        region + "\n\n");

    // Region of disabled table was opened on dead RS
    region = disabledRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    ZKAssign.createNodeOffline(zkw, region, deadServerName);
    ProtobufUtil.openRegion(hrsDead, region);
    while (true) {
      byte [] bytes = ZKAssign.getData(zkw, region.getEncodedName());
      RegionTransition rt = RegionTransition.parseFrom(bytes);
      if (rt != null && rt.getEventType().equals(EventType.RS_ZK_REGION_OPENED)) {
        break;
      }
      Thread.sleep(100);
    }
    LOG.debug("\n\nRegion of disabled table was OPENED on dead RS\n" +
        region + "\n\n");

    /*
     * ZK = NONE
     */

    // Region of enabled table was open at steady-state on dead RS
    region = enabledRegions.remove(0);
    regionsThatShouldBeOnline.add(region);
    ZKAssign.createNodeOffline(zkw, region, deadServerName);
    ProtobufUtil.openRegion(hrsDead, region);
    while (true) {
      byte [] bytes = ZKAssign.getData(zkw, region.getEncodedName());
      RegionTransition rt = RegionTransition.parseFrom(bytes);
      if (rt != null && rt.getEventType().equals(EventType.RS_ZK_REGION_OPENED)) {
        ZKAssign.deleteOpenedNode(zkw, region.getEncodedName(), rt.getServerName());
        LOG.debug("DELETED " + rt);
        break;
      }
      Thread.sleep(100);
    }
    LOG.debug("\n\nRegion of enabled table was open at steady-state on dead RS"
        + "\n" + region + "\n\n");

    // Region of disabled table was open at steady-state on dead RS
    region = disabledRegions.remove(0);
    regionsThatShouldBeOffline.add(region);
    ZKAssign.createNodeOffline(zkw, region, deadServerName);
    ProtobufUtil.openRegion(hrsDead, region);
    while (true) {
      byte [] bytes = ZKAssign.getData(zkw, region.getEncodedName());
      RegionTransition rt = RegionTransition.parseFrom(bytes);
      if (rt != null && rt.getEventType().equals(EventType.RS_ZK_REGION_OPENED)) {
        ZKAssign.deleteOpenedNode(zkw, region.getEncodedName(), rt.getServerName());
        break;
      }
      Thread.sleep(100);
    }
    LOG.debug("\n\nRegion of disabled table was open at steady-state on dead RS"
      + "\n" + region + "\n\n");

    /*
     * DONE MOCKING
     */

    log("Done mocking data up in ZK");

    // Kill the RS that had a hard death
    log("Killing RS " + deadServerName);
    hrsDead.abort("Killing for unit test");
    log("RS " + deadServerName + " killed");

    // Start up a new master.  Wait until regionserver is completely down
    // before starting new master because of hbase-4511.
    while (hrsDeadThread.isAlive()) {
      Threads.sleep(10);
    }
    log("Starting up a new master");
    master = cluster.startMaster().getMaster();
    log("Waiting for master to be ready");
    assertTrue(cluster.waitForActiveAndReadyMaster());
    log("Master is ready");

    // Wait until SSH processing completed for dead server.
    while (master.getServerManager().areDeadServersInProgress()) {
      Thread.sleep(10);
    }

    // Failover should be completed, now wait for no RIT
    log("Waiting for no more RIT");
    ZKAssign.blockUntilNoRIT(zkw);
    log("No more RIT in ZK");
    long now = System.currentTimeMillis();
    long maxTime = 120000;
    boolean done = master.assignmentManager.waitUntilNoRegionsInTransition(maxTime);
    if (!done) {
      RegionStates regionStates = master.getAssignmentManager().getRegionStates();
      LOG.info("rit=" + regionStates.getRegionsInTransition());
    }
    long elapsed = System.currentTimeMillis() - now;
    assertTrue("Elapsed=" + elapsed + ", maxTime=" + maxTime + ", done=" + done,
      elapsed < maxTime);
    log("No more RIT in RIT map, doing final test verification");

    // Grab all the regions that are online across RSs
    Set<HRegionInfo> onlineRegions = new TreeSet<HRegionInfo>();
    now = System.currentTimeMillis();
    maxTime = 30000;
    for (JVMClusterUtil.RegionServerThread rst :
        cluster.getRegionServerThreads()) {
      try {
        HRegionServer rs = rst.getRegionServer();
        while (!rs.getRegionsInTransitionInRS().isEmpty()) {
          elapsed = System.currentTimeMillis() - now;
          assertTrue("Test timed out in getting online regions", elapsed < maxTime);
          if (rs.isAborted() || rs.isStopped()) {
            // This region server is stopped, skip it.
            break;
          }
          Thread.sleep(100);
        }
        onlineRegions.addAll(ProtobufUtil.getOnlineRegions(rs));
      } catch (RegionServerStoppedException e) {
        LOG.info("Got RegionServerStoppedException", e);
      }
    }

    // Now, everything that should be online should be online
    for (HRegionInfo hri : regionsThatShouldBeOnline) {
      assertTrue("region=" + hri.getRegionNameAsString() + ", " + onlineRegions.toString(),
        onlineRegions.contains(hri));
    }

    // Everything that should be offline should not be online
    for (HRegionInfo hri : regionsThatShouldBeOffline) {
      assertFalse(onlineRegions.contains(hri));
    }

    log("Done with verification, all passed, shutting down cluster");

    // Done, shutdown the cluster
    TEST_UTIL.shutdownMiniCluster();
  }

    LOG.info("Starting testShouldCheckMasterFailOverWhenMETAIsInOpenedState");
    final int NUM_MASTERS = 1;
    final int NUM_RS = 2;

    // Start the cluster
    HBaseTestingUtility TEST_UTIL = new HBaseTestingUtility();
    Configuration conf = TEST_UTIL.getConfiguration();
    conf.setInt("hbase.master.info.port", -1);

    TEST_UTIL.startMiniCluster(NUM_MASTERS, NUM_RS);
    MiniHBaseCluster cluster = TEST_UTIL.getHBaseCluster();

    // Find regionserver carrying meta.
    List<RegionServerThread> regionServerThreads =
      cluster.getRegionServerThreads();
    int count = -1;
    HRegion metaRegion = null;
    for (RegionServerThread regionServerThread : regionServerThreads) {
      HRegionServer regionServer = regionServerThread.getRegionServer();
      metaRegion = regionServer.getOnlineRegion(HRegionInfo.FIRST_META_REGIONINFO.getRegionName());
      count++;
      regionServer.abort("");
      if (null != metaRegion) break;
    }
    HRegionServer regionServer = cluster.getRegionServer(count);

    TEST_UTIL.shutdownMiniHBaseCluster();

    // Create a ZKW to use in the test
    ZooKeeperWatcher zkw =
      HBaseTestingUtility.createAndForceNodeToOpenedState(TEST_UTIL,
          metaRegion, regionServer.getServerName());

    LOG.info("Staring cluster for second time");
    TEST_UTIL.startMiniHBaseCluster(NUM_MASTERS, NUM_RS);

    HMaster master = TEST_UTIL.getHBaseCluster().getMaster();
    while (!master.isInitialized()) {
      Thread.sleep(100);
    }
    // Failover should be completed, now wait for no RIT
    log("Waiting for no more RIT");
    ZKAssign.blockUntilNoRIT(zkw);

    zkw.close();
    // Stop the cluster
    TEST_UTIL.shutdownMiniCluster();
  }