/**
    *
    * Licensed to the Apache Software Foundation (ASF) under one
    * or more contributor license agreements.  See the NOTICE file
    * distributed with this work for additional information
    * regarding copyright ownership.  The ASF licenses this file
    * to you under the Apache License, Version 2.0 (the
    * "License"); you may not use this file except in compliance
    * with the License.  You may obtain a copy of the License at
   *
   *     http://www.apache.org/licenses/LICENSE-2.0
   *
   * Unless required by applicable law or agreed to in writing, software
   * distributed under the License is distributed on an "AS IS" BASIS,
   * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   * See the License for the specific language governing permissions and
   * limitations under the License.
   */
  package org.apache.hadoop.hbase.master;
  
  import java.io.IOException;
  import java.lang.reflect.Constructor;
  import java.lang.reflect.InvocationTargetException;
  import java.net.InetAddress;
  import java.net.InetSocketAddress;
  import java.net.UnknownHostException;
  import java.util.ArrayList;
  import java.util.Collections;
  import java.util.Comparator;
  import java.util.HashSet;
  import java.util.List;
  import java.util.Map;
  import java.util.Set;
  import java.util.concurrent.Callable;
  import java.util.concurrent.ExecutionException;
  import java.util.concurrent.Executors;
  import java.util.concurrent.Future;
  import java.util.concurrent.TimeUnit;
  import java.util.concurrent.atomic.AtomicReference;
  
  import javax.management.ObjectName;
  
  import org.apache.commons.logging.Log;
  import org.apache.commons.logging.LogFactory;
  import org.apache.hadoop.classification.InterfaceAudience;
  import org.apache.hadoop.conf.Configuration;
  import org.apache.hadoop.fs.Path;
  import org.apache.hadoop.hbase.Abortable;
  import org.apache.hadoop.hbase.Chore;
  import org.apache.hadoop.hbase.ClusterId;
  import org.apache.hadoop.hbase.ClusterStatus;
  import org.apache.hadoop.hbase.HBaseIOException;
  import org.apache.hadoop.hbase.HColumnDescriptor;
  import org.apache.hadoop.hbase.HConstants;
  import org.apache.hadoop.hbase.HRegionInfo;
  import org.apache.hadoop.hbase.HTableDescriptor;
  import org.apache.hadoop.hbase.HealthCheckChore;
  import org.apache.hadoop.hbase.Server;
  import org.apache.hadoop.hbase.ServerLoad;
  import org.apache.hadoop.hbase.ServerName;
  import org.apache.hadoop.hbase.TableDescriptors;
  import org.apache.hadoop.hbase.catalog.CatalogTracker;
  import org.apache.hadoop.hbase.catalog.MetaReader;
  import org.apache.hadoop.hbase.client.HConnectionManager;
  import org.apache.hadoop.hbase.client.MetaScanner;
  import org.apache.hadoop.hbase.client.MetaScanner.MetaScannerVisitor;
  import org.apache.hadoop.hbase.client.MetaScanner.MetaScannerVisitorBase;
  import org.apache.hadoop.hbase.client.Result;
  import org.apache.hadoop.hbase.coprocessor.CoprocessorHost;
  import org.apache.hadoop.hbase.exceptions.DeserializationException;
  import org.apache.hadoop.hbase.exceptions.MasterNotRunningException;
  import org.apache.hadoop.hbase.exceptions.NotAllMetaRegionsOnlineException;
  import org.apache.hadoop.hbase.exceptions.PleaseHoldException;
  import org.apache.hadoop.hbase.exceptions.TableNotDisabledException;
  import org.apache.hadoop.hbase.exceptions.TableNotFoundException;
  import org.apache.hadoop.hbase.exceptions.UnknownProtocolException;
  import org.apache.hadoop.hbase.exceptions.UnknownRegionException;
  import org.apache.hadoop.hbase.executor.ExecutorService;
  import org.apache.hadoop.hbase.executor.ExecutorType;
  import org.apache.hadoop.hbase.ipc.RpcServerInterface;
  import org.apache.hadoop.hbase.ipc.RpcServer;
  import org.apache.hadoop.hbase.ipc.RpcServer.BlockingServiceAndInterface;
  import org.apache.hadoop.hbase.ipc.ServerRpcController;
  import org.apache.hadoop.hbase.master.balancer.BalancerChore;
  import org.apache.hadoop.hbase.master.balancer.ClusterStatusChore;
  import org.apache.hadoop.hbase.master.balancer.LoadBalancerFactory;
  import org.apache.hadoop.hbase.master.cleaner.HFileCleaner;
  import org.apache.hadoop.hbase.master.cleaner.LogCleaner;
  import org.apache.hadoop.hbase.master.handler.CreateTableHandler;
  import org.apache.hadoop.hbase.master.handler.DeleteTableHandler;
  import org.apache.hadoop.hbase.master.handler.DisableTableHandler;
  import org.apache.hadoop.hbase.master.handler.DispatchMergingRegionHandler;
  import org.apache.hadoop.hbase.master.handler.EnableTableHandler;
  import org.apache.hadoop.hbase.master.handler.ModifyTableHandler;
  import org.apache.hadoop.hbase.master.handler.TableAddFamilyHandler;
  import org.apache.hadoop.hbase.master.handler.TableDeleteFamilyHandler;
  import org.apache.hadoop.hbase.master.handler.TableModifyFamilyHandler;
  import org.apache.hadoop.hbase.master.snapshot.SnapshotManager;
  import org.apache.hadoop.hbase.monitoring.MemoryBoundedLogMessageBuffer;
 import org.apache.hadoop.hbase.monitoring.MonitoredTask;
 import org.apache.hadoop.hbase.monitoring.TaskMonitor;
 import org.apache.hadoop.hbase.protobuf.ProtobufUtil;
 import org.apache.hadoop.hbase.protobuf.RequestConverter;
 import org.apache.hadoop.hbase.protobuf.ResponseConverter;
 import org.apache.hadoop.hbase.protobuf.generated.ClientProtos;
 import org.apache.hadoop.hbase.protobuf.generated.HBaseProtos;
 import org.apache.hadoop.hbase.protobuf.generated.HBaseProtos.NameStringPair;
 import org.apache.hadoop.hbase.protobuf.generated.HBaseProtos.RegionSpecifier.RegionSpecifierType;
 import org.apache.hadoop.hbase.protobuf.generated.HBaseProtos.SnapshotDescription;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.AddColumnRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.AddColumnResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.AssignRegionRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.AssignRegionResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.BalanceRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.BalanceResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.CatalogScanRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.CatalogScanResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.CreateTableRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.CreateTableResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DeleteColumnRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DeleteColumnResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DeleteSnapshotRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DeleteSnapshotResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DeleteTableRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DeleteTableResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DisableTableRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DisableTableResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DispatchMergingRegionsRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.DispatchMergingRegionsResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.EnableCatalogJanitorRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.EnableCatalogJanitorResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.EnableTableRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.EnableTableResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.IsCatalogJanitorEnabledRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.IsCatalogJanitorEnabledResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.IsRestoreSnapshotDoneRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.IsRestoreSnapshotDoneResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.IsSnapshotDoneRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.IsSnapshotDoneResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ListSnapshotRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ListSnapshotResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ModifyColumnRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ModifyColumnResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ModifyTableRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ModifyTableResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.MoveRegionRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.MoveRegionResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.OfflineRegionRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.OfflineRegionResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.RestoreSnapshotRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.RestoreSnapshotResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.SetBalancerRunningRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.SetBalancerRunningResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ShutdownRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.ShutdownResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.StopMasterRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.StopMasterResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.TakeSnapshotRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.TakeSnapshotResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.UnassignRegionRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterAdminProtos.UnassignRegionResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos.GetClusterStatusRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos.GetClusterStatusResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos.GetSchemaAlterStatusRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos.GetSchemaAlterStatusResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos.GetTableDescriptorsRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterMonitorProtos.GetTableDescriptorsResponse;
 import org.apache.hadoop.hbase.protobuf.generated.MasterProtos.IsMasterRunningRequest;
 import org.apache.hadoop.hbase.protobuf.generated.MasterProtos.IsMasterRunningResponse;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.GetLastFlushedSequenceIdRequest;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.GetLastFlushedSequenceIdResponse;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.RegionServerReportRequest;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.RegionServerReportResponse;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.RegionServerStartupRequest;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.RegionServerStartupResponse;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.ReportRSFatalErrorRequest;
 import org.apache.hadoop.hbase.protobuf.generated.RegionServerStatusProtos.ReportRSFatalErrorResponse;
 import org.apache.hadoop.hbase.replication.regionserver.Replication;
 import org.apache.hadoop.hbase.security.User;
 import org.apache.hadoop.hbase.snapshot.ClientSnapshotDescriptionUtils;
 import org.apache.hadoop.hbase.snapshot.SnapshotDescriptionUtils;
 import org.apache.hadoop.hbase.trace.SpanReceiverHost;
 import org.apache.hadoop.hbase.util.Bytes;
 import org.apache.hadoop.hbase.util.CompressionTest;
 import org.apache.hadoop.hbase.util.FSTableDescriptors;
 import org.apache.hadoop.hbase.util.FSUtils;
 import org.apache.hadoop.hbase.util.HFileArchiveUtil;
 import org.apache.hadoop.hbase.util.HasThread;
 import org.apache.hadoop.hbase.util.InfoServer;
 import org.apache.hadoop.hbase.util.Pair;
 import org.apache.hadoop.hbase.util.Sleeper;
 import org.apache.hadoop.hbase.util.Strings;
 import org.apache.hadoop.hbase.util.Threads;
 import org.apache.hadoop.hbase.util.VersionInfo;
 import org.apache.hadoop.hbase.zookeeper.ClusterStatusTracker;
 import org.apache.hadoop.hbase.zookeeper.DrainingServerTracker;
 import org.apache.hadoop.hbase.zookeeper.LoadBalancerTracker;
 import org.apache.hadoop.hbase.zookeeper.RegionServerTracker;
 import org.apache.hadoop.hbase.zookeeper.ZKClusterId;
 import org.apache.hadoop.hbase.zookeeper.ZKUtil;
 import org.apache.hadoop.hbase.zookeeper.ZooKeeperWatcher;
 import org.apache.hadoop.metrics.util.MBeanUtil;
 import org.apache.hadoop.net.DNS;
 import org.apache.zookeeper.KeeperException;
 import org.apache.zookeeper.Watcher;
 
 import com.google.common.collect.Maps;
 import com.google.protobuf.Descriptors;
 import com.google.protobuf.Message;
 import com.google.protobuf.RpcCallback;
 import com.google.protobuf.RpcController;
 import com.google.protobuf.Service;
 import com.google.protobuf.ServiceException;
 
 /**
  * HMaster is the "master server" for HBase. An HBase cluster has one active
  * master.  If many masters are started, all compete.  Whichever wins goes on to
  * run the cluster.  All others park themselves in their constructor until
  * master or cluster shutdown or until the active master loses its lease in
  * zookeeper.  Thereafter, all running master jostle to take over master role.
  *
  * <p>The Master can be asked shutdown the cluster. See {@link #shutdown()}.  In
  * this case it will tell all regionservers to go down and then wait on them
  * all reporting in that they are down.  This master will then shut itself down.
  *
  * <p>You can also shutdown just this master.  Call {@link #stopMaster()}.
  *
  * @see Watcher
  */
 @InterfaceAudience.Private
 @SuppressWarnings("deprecation")
 public class HMaster extends HasThread
 implements MasterMonitorProtos.MasterMonitorService.BlockingInterface,
 MasterAdminProtos.MasterAdminService.BlockingInterface,
 RegionServerStatusProtos.RegionServerStatusService.BlockingInterface,
 MasterServices, Server {
   private static final Log LOG = LogFactory.getLog(HMaster.class.getName());
 
   // MASTER is name of the webapp and the attribute name used stuffing this
   //instance into web context.
   public static final String MASTER = "master";
 
   // The configuration for the Master
   private final Configuration conf;
   // server for the web ui
   private InfoServer infoServer;
 
   // Our zk client.
   private ZooKeeperWatcher zooKeeper;
   // Manager and zk listener for master election
   private ActiveMasterManager activeMasterManager;
   // Region server tracker
   RegionServerTracker regionServerTracker;
   // Draining region server tracker
   private DrainingServerTracker drainingServerTracker;
   // Tracker for load balancer state
   private LoadBalancerTracker loadBalancerTracker;
 
   // RPC server for the HMaster
   private final RpcServerInterface rpcServer;
   // Set after we've called HBaseServer#openServer and ready to receive RPCs.
   // Set back to false after we stop rpcServer.  Used by tests.
   private volatile boolean rpcServerOpen = false;
 
   /**
    * This servers address.
    */
   private final InetSocketAddress isa;
 
   // Metrics for the HMaster
   private final MetricsMaster metricsMaster;
   // file system manager for the master FS operations
   private MasterFileSystem fileSystemManager;
 
   // server manager to deal with region server info
   ServerManager serverManager;
 
   // manager of assignment nodes in zookeeper
   AssignmentManager assignmentManager;
   // manager of catalog regions
   private CatalogTracker catalogTracker;
   // Cluster status zk tracker and local setter
   private ClusterStatusTracker clusterStatusTracker;
 
   // buffer for "fatal error" notices from region servers
   // in the cluster. This is only used for assisting
   // operations/debugging.
   private MemoryBoundedLogMessageBuffer rsFatals;
 
   // This flag is for stopping this Master instance.  Its set when we are
   // stopping or aborting
   private volatile boolean stopped = false;
   // Set on abort -- usually failure of our zk session.
   private volatile boolean abort = false;
   // flag set after we become the active master (used for testing)
   private volatile boolean isActiveMaster = false;
 
   // flag set after we complete initialization once active,
   // it is not private since it's used in unit tests
   volatile boolean initialized = false;
 
   // flag set after we complete assignMeta.
   private volatile boolean serverShutdownHandlerEnabled = false;
 
   // Instance of the hbase executor service.
   ExecutorService executorService;
 
   private LoadBalancer balancer;
   private Thread balancerChore;
   private Thread clusterStatusChore;
   private ClusterStatusPublisher clusterStatusPublisherChore = null;
 
   private CatalogJanitor catalogJanitorChore;
   private LogCleaner logCleaner;
   private HFileCleaner hfileCleaner;
 
   private MasterCoprocessorHost cpHost;
   private final ServerName serverName;
 
   private TableDescriptors tableDescriptors;
 
   // Table level lock manager for schema changes
   private TableLockManager tableLockManager;
 
   // Time stamps for when a hmaster was started and when it became active
   private long masterStartTime;
   private long masterActiveTime;
 
   /** time interval for emitting metrics values */
   private final int msgInterval;
   /**
    * MX Bean for MasterInfo
    */
   private ObjectName mxBean = null;
 
   //should we check the compression codec type at master side, default true, HBASE-6370
   private final boolean masterCheckCompression;
 
   private SpanReceiverHost spanReceiverHost;
 
   private Map<String, Service> coprocessorServiceHandlers = Maps.newHashMap();
 
   // monitor for snapshot of hbase tables
   private SnapshotManager snapshotManager;
 
   /** The health check chore. */
   private HealthCheckChore healthCheckChore;
   
   /**
    * is in distributedLogReplay mode. When true, SplitLogWorker directly replays WAL edits to newly
    * assigned region servers instead of creating recovered.edits files.
    */
   private final boolean distributedLogReplay;
 
   /** flag used in test cases in order to simulate RS failures during master initialization */
   private volatile boolean initializationBeforeMetaAssignment = false;
 
   /**
    * Initializes the HMaster. The steps are as follows:
    * <p>
    * <ol>
    * <li>Initialize HMaster RPC and address
    * <li>Connect to ZooKeeper.
    * </ol>
    * <p>
    * Remaining steps of initialization occur in {@link #run()} so that they
    * run in their own thread rather than within the context of the constructor.
    * @throws InterruptedException
    */
   public HMaster(final Configuration conf)
   throws IOException, KeeperException, InterruptedException {
     this.conf = new Configuration(conf);
     // Disable the block cache on the master
     this.conf.setFloat(HConstants.HFILE_BLOCK_CACHE_SIZE_KEY, 0.0f);
     // Server to handle client requests.
     String hostname = Strings.domainNamePointerToHostName(DNS.getDefaultHost(
       conf.get("hbase.master.dns.interface", "default"),
       conf.get("hbase.master.dns.nameserver", "default")));
     int port = conf.getInt(HConstants.MASTER_PORT, HConstants.DEFAULT_MASTER_PORT);
     // Test that the hostname is reachable
     InetSocketAddress initialIsa = new InetSocketAddress(hostname, port);
     if (initialIsa.getAddress() == null) {
       throw new IllegalArgumentException("Failed resolve of hostname " + initialIsa);
     }
     // Verify that the bind address is reachable if set
     String bindAddress = conf.get("hbase.master.ipc.address");
     if (bindAddress != null) {
       initialIsa = new InetSocketAddress(bindAddress, port);
       if (initialIsa.getAddress() == null) {
         throw new IllegalArgumentException("Failed resolve of bind address " + initialIsa);
       }
     }
     String name = "master/" + initialIsa.toString();
     // Set how many times to retry talking to another server over HConnection.
     HConnectionManager.setServerSideHConnectionRetries(this.conf, name, LOG);
     int numHandlers = conf.getInt("hbase.master.handler.count",
       conf.getInt("hbase.regionserver.handler.count", 25));
     this.rpcServer = new RpcServer(this, name, getServices(),
       initialIsa, // BindAddress is IP we got for this server.
       numHandlers,
       0, // we dont use high priority handlers in master
       conf,
       0); // this is a DNC w/o high priority handlers
     // Set our address.
     this.isa = this.rpcServer.getListenerAddress();
     this.serverName = new ServerName(hostname, this.isa.getPort(), System.currentTimeMillis());
     this.rsFatals = new MemoryBoundedLogMessageBuffer(
       conf.getLong("hbase.master.buffer.for.rs.fatals", 1*1024*1024));
 
     // login the zookeeper client principal (if using security)
     ZKUtil.loginClient(this.conf, "hbase.zookeeper.client.keytab.file",
       "hbase.zookeeper.client.kerberos.principal", this.isa.getHostName());
 
     // initialize server principal (if using secure Hadoop)
     User.login(conf, "hbase.master.keytab.file",
       "hbase.master.kerberos.principal", this.isa.getHostName());
 
     LOG.info("hbase.rootdir=" + FSUtils.getRootDir(this.conf) +
         ", hbase.cluster.distributed=" + this.conf.getBoolean("hbase.cluster.distributed", false));
 
     // set the thread name now we have an address
     setName(MASTER + "-" + this.serverName.toString());
 
     Replication.decorateMasterConfiguration(this.conf);
 
     // Hack! Maps DFSClient => Master for logs.  HDFS made this
     // config param for task trackers, but we can piggyback off of it.
     if (this.conf.get("mapred.task.id") == null) {
       this.conf.set("mapred.task.id", "hb_m_" + this.serverName.toString());
     }
 
     this.zooKeeper = new ZooKeeperWatcher(conf, MASTER + ":" + isa.getPort(), this, true);
     this.rpcServer.startThreads();
 
     // metrics interval: using the same property as region server.
     this.msgInterval = conf.getInt("hbase.regionserver.msginterval", 3 * 1000);
 
     //should we check the compression codec type at master side, default true, HBASE-6370
     this.masterCheckCompression = conf.getBoolean("hbase.master.check.compression", true);
 
     this.metricsMaster = new MetricsMaster( new MetricsMasterWrapperImpl(this));
 
     // Health checker thread.
     int sleepTime = this.conf.getInt(HConstants.HEALTH_CHORE_WAKE_FREQ,
       HConstants.DEFAULT_THREAD_WAKE_FREQUENCY);
     if (isHealthCheckerConfigured()) {
       healthCheckChore = new HealthCheckChore(sleepTime, this, getConfiguration());
     }
 
     // Do we publish the status?
     Class<? extends ClusterStatusPublisher.Publisher> publisherClass =
         conf.getClass(ClusterStatusPublisher.STATUS_PUBLISHER_CLASS,
             ClusterStatusPublisher.DEFAULT_STATUS_PUBLISHER_CLASS,
             ClusterStatusPublisher.Publisher.class);
 
     if (publisherClass != null) {
       clusterStatusPublisherChore = new ClusterStatusPublisher(this, conf, publisherClass);
       Threads.setDaemonThreadRunning(clusterStatusPublisherChore.getThread());
     }
 
     distributedLogReplay = this.conf.getBoolean(HConstants.DISTRIBUTED_LOG_REPLAY_KEY, 
       HConstants.DEFAULT_DISTRIBUTED_LOG_REPLAY_CONFIG);
   }
 
   /**
    * @return list of blocking services and their security info classes that this server supports
    */
   private List<BlockingServiceAndInterface> getServices() {
     List<BlockingServiceAndInterface> bssi = new ArrayList<BlockingServiceAndInterface>(3);
     bssi.add(new BlockingServiceAndInterface(
         MasterMonitorProtos.MasterMonitorService.newReflectiveBlockingService(this),
         MasterMonitorProtos.MasterMonitorService.BlockingInterface.class));
     bssi.add(new BlockingServiceAndInterface(
         MasterAdminProtos.MasterAdminService.newReflectiveBlockingService(this),
         MasterAdminProtos.MasterAdminService.BlockingInterface.class));
     bssi.add(new BlockingServiceAndInterface(
         RegionServerStatusProtos.RegionServerStatusService.newReflectiveBlockingService(this),
         RegionServerStatusProtos.RegionServerStatusService.BlockingInterface.class));
     return bssi;
   }
 
   /**
    * Stall startup if we are designated a backup master; i.e. we want someone
    * else to become the master before proceeding.
    * @param c configuration
    * @param amm
    * @throws InterruptedException
    */
   private static void stallIfBackupMaster(final Configuration c,
       final ActiveMasterManager amm)
   throws InterruptedException {
     // If we're a backup master, stall until a primary to writes his address
     if (!c.getBoolean(HConstants.MASTER_TYPE_BACKUP,
       HConstants.DEFAULT_MASTER_TYPE_BACKUP)) {
       return;
     }
     LOG.debug("HMaster started in backup mode.  " +
       "Stalling until master znode is written.");
     // This will only be a minute or so while the cluster starts up,
     // so don't worry about setting watches on the parent znode
     while (!amm.isActiveMaster()) {
       LOG.debug("Waiting for master address ZNode to be written " +
         "(Also watching cluster state node)");
       Thread.sleep(
         c.getInt(HConstants.ZK_SESSION_TIMEOUT, HConstants.DEFAULT_ZK_SESSION_TIMEOUT));
     }
 
   }
 
   MetricsMaster getMetrics() {
     return metricsMaster;
   }
 
   /**
    * Main processing loop for the HMaster.
    * <ol>
    * <li>Block until becoming active master
    * <li>Finish initialization via finishInitialization(MonitoredTask)
    * <li>Enter loop until we are stopped
    * <li>Stop services and perform cleanup once stopped
    * </ol>
    */
   @Override
   public void run() {
     MonitoredTask startupStatus =
       TaskMonitor.get().createStatus("Master startup");
     startupStatus.setDescription("Master startup");
     masterStartTime = System.currentTimeMillis();
     try {
       /*
        * Block on becoming the active master.
        *
        * We race with other masters to write our address into ZooKeeper.  If we
        * succeed, we are the primary/active master and finish initialization.
        *
        * If we do not succeed, there is another active master and we should
        * now wait until it dies to try and become the next active master.  If we
        * do not succeed on our first attempt, this is no longer a cluster startup.
        */
       becomeActiveMaster(startupStatus);
 
       // We are either the active master or we were asked to shutdown
       if (!this.stopped) {
         finishInitialization(startupStatus, false);
         loop();
       }
     } catch (Throwable t) {
       // HBASE-5680: Likely hadoop23 vs hadoop 20.x/1.x incompatibility
       if (t instanceof NoClassDefFoundError &&
           t.getMessage().contains("org/apache/hadoop/hdfs/protocol/FSConstants$SafeModeAction")) {
           // improved error message for this special case
           abort("HBase is having a problem with its Hadoop jars.  You may need to "
               + "recompile HBase against Hadoop version "
               +  org.apache.hadoop.util.VersionInfo.getVersion()
               + " or change your hadoop jars to start properly", t);
       } else {
         abort("Unhandled exception. Starting shutdown.", t);
       }
     } finally {
       startupStatus.cleanup();
 
       stopChores();
       // Wait for all the remaining region servers to report in IFF we were
       // running a cluster shutdown AND we were NOT aborting.
       if (!this.abort && this.serverManager != null &&
           this.serverManager.isClusterShutdown()) {
         this.serverManager.letRegionServersShutdown();
       }
       stopServiceThreads();
       // Stop services started for both backup and active masters
       if (this.activeMasterManager != null) this.activeMasterManager.stop();
       if (this.catalogTracker != null) this.catalogTracker.stop();
       if (this.serverManager != null) this.serverManager.stop();
       if (this.assignmentManager != null) this.assignmentManager.stop();
       if (this.fileSystemManager != null) this.fileSystemManager.stop();
       if (this.snapshotManager != null) this.snapshotManager.stop("server shutting down.");
       this.zooKeeper.close();
     }
     LOG.info("HMaster main thread exiting");
   }
 
   /**
    * Try becoming active master.
    * @param startupStatus
    * @return True if we could successfully become the active master.
    * @throws InterruptedException
    */
   private boolean becomeActiveMaster(MonitoredTask startupStatus)
   throws InterruptedException {
     // TODO: This is wrong!!!! Should have new servername if we restart ourselves,
     // if we come back to life.
     this.activeMasterManager = new ActiveMasterManager(zooKeeper, this.serverName,
         this);
     this.zooKeeper.registerListener(activeMasterManager);
     stallIfBackupMaster(this.conf, this.activeMasterManager);
 
     // The ClusterStatusTracker is setup before the other
     // ZKBasedSystemTrackers because it's needed by the activeMasterManager
     // to check if the cluster should be shutdown.
     this.clusterStatusTracker = new ClusterStatusTracker(getZooKeeper(), this);
     this.clusterStatusTracker.start();
     return this.activeMasterManager.blockUntilBecomingActiveMaster(startupStatus);
   }
 
   /**
    * Initialize all ZK based system trackers.
    * @throws IOException
    * @throws InterruptedException
    */
   void initializeZKBasedSystemTrackers() throws IOException,
       InterruptedException, KeeperException {
     this.catalogTracker = createCatalogTracker(this.zooKeeper, this.conf, this);
     this.catalogTracker.start();
 
     this.balancer = LoadBalancerFactory.getLoadBalancer(conf);
     this.loadBalancerTracker = new LoadBalancerTracker(zooKeeper, this);
     this.loadBalancerTracker.start();
     this.assignmentManager = new AssignmentManager(this, serverManager,
       this.catalogTracker, this.balancer, this.executorService, this.metricsMaster,
       this.tableLockManager);
     zooKeeper.registerListenerFirst(assignmentManager);
 
     this.regionServerTracker = new RegionServerTracker(zooKeeper, this,
         this.serverManager);
     this.regionServerTracker.start();
 
     this.drainingServerTracker = new DrainingServerTracker(zooKeeper, this,
       this.serverManager);
     this.drainingServerTracker.start();
 
     // Set the cluster as up.  If new RSs, they'll be waiting on this before
     // going ahead with their startup.
     boolean wasUp = this.clusterStatusTracker.isClusterUp();
     if (!wasUp) this.clusterStatusTracker.setClusterUp();
 
     LOG.info("Server active/primary master=" + this.serverName +
         ", sessionid=0x" +
         Long.toHexString(this.zooKeeper.getRecoverableZooKeeper().getSessionId()) +
         ", setting cluster-up flag (Was=" + wasUp + ")");
 
     // create the snapshot manager
     this.snapshotManager = new SnapshotManager(this, this.metricsMaster);
   }
 
   /**
    * Create CatalogTracker.
    * In its own method so can intercept and mock it over in tests.
    * @param zk If zk is null, we'll create an instance (and shut it down
    * when {@link #stop(String)} is called) else we'll use what is passed.
    * @param conf
    * @param abortable If fatal exception we'll call abort on this.  May be null.
    * If it is we'll use the Connection associated with the passed
    * {@link Configuration} as our {@link Abortable}.
    * ({@link Object#wait(long)} when passed a <code>0</code> waits for ever).
    * @throws IOException
    */
   CatalogTracker createCatalogTracker(final ZooKeeperWatcher zk,
       final Configuration conf, Abortable abortable)
   throws IOException {
     return new CatalogTracker(zk, conf, abortable);
   }
 
   // Check if we should stop every 100ms
   private Sleeper stopSleeper = new Sleeper(100, this);
 
   private void loop() {
     long lastMsgTs = 0l;
     long now = 0l;
     while (!this.stopped) {
       now = System.currentTimeMillis();
       if ((now - lastMsgTs) >= this.msgInterval) {
         doMetrics();
         lastMsgTs = System.currentTimeMillis();
       }
       stopSleeper.sleep();
     }
   }
 
   /**
    * Emit the HMaster metrics, such as region in transition metrics.
    * Surrounding in a try block just to be sure metrics doesn't abort HMaster.
    */
   private void doMetrics() {
     try {
       this.assignmentManager.updateRegionsInTransitionMetrics();
     } catch (Throwable e) {
       LOG.error("Couldn't update metrics: " + e.getMessage());
     }
   }
 
   /**
    * Finish initialization of HMaster after becoming the primary master.
    *
    * <ol>
    * <li>Initialize master components - file system manager, server manager,
    *     assignment manager, region server tracker, catalog tracker, etc</li>
    * <li>Start necessary service threads - rpc server, info server,
    *     executor services, etc</li>
    * <li>Set cluster as UP in ZooKeeper</li>
    * <li>Wait for RegionServers to check-in</li>
    * <li>Split logs and perform data recovery, if necessary</li>
    * <li>Ensure assignment of meta regions<li>
    * <li>Handle either fresh cluster start or master failover</li>
    * </ol>
    *
    * @param masterRecovery
    *
    * @throws IOException
    * @throws InterruptedException
    * @throws KeeperException
    */
   private void finishInitialization(MonitoredTask status, boolean masterRecovery)
   throws IOException, InterruptedException, KeeperException {
 
     isActiveMaster = true;
 
     /*
      * We are active master now... go initialize components we need to run.
      * Note, there may be dross in zk from previous runs; it'll get addressed
      * below after we determine if cluster startup or failover.
      */
 
     status.setStatus("Initializing Master file system");
     this.masterActiveTime = System.currentTimeMillis();
     // TODO: Do this using Dependency Injection, using PicoContainer, Guice or Spring.
     this.fileSystemManager = new MasterFileSystem(this, this, metricsMaster, masterRecovery);
 
     this.tableDescriptors =
       new FSTableDescriptors(this.fileSystemManager.getFileSystem(),
       this.fileSystemManager.getRootDir());
 
     // publish cluster ID
     status.setStatus("Publishing Cluster ID in ZooKeeper");
     ZKClusterId.setClusterId(this.zooKeeper, fileSystemManager.getClusterId());
 
     if (!masterRecovery) {
       this.executorService = new ExecutorService(getServerName().toString());
       this.serverManager = createServerManager(this, this);
     }
 
     //Initialize table lock manager, and ensure that all write locks held previously
     //are invalidated
     this.tableLockManager = TableLockManager.createTableLockManager(conf, zooKeeper, serverName);
     if (!masterRecovery) {
       this.tableLockManager.reapWriteLocks();
     }
 
     status.setStatus("Initializing ZK system trackers");
     initializeZKBasedSystemTrackers();
 
     if (!masterRecovery) {
       // initialize master side coprocessors before we start handling requests
       status.setStatus("Initializing master coprocessors");
       this.cpHost = new MasterCoprocessorHost(this, this.conf);
 
       spanReceiverHost = new SpanReceiverHost(getConfiguration());
       spanReceiverHost.loadSpanReceivers();
 
       // start up all service threads.
       status.setStatus("Initializing master service threads");
       startServiceThreads();
     }
 
     // Wait for region servers to report in.
     this.serverManager.waitForRegionServers(status);
     // Check zk for region servers that are up but didn't register
     for (ServerName sn: this.regionServerTracker.getOnlineServers()) {
       if (!this.serverManager.isServerOnline(sn)
           && serverManager.checkAlreadySameHostPortAndRecordNewServer(
               sn, ServerLoad.EMPTY_SERVERLOAD)) {
         LOG.info("Registered server found up in zk but who has not yet "
           + "reported in: " + sn);
       }
     }
 
     if (!masterRecovery) {
       this.assignmentManager.startTimeOutMonitor();
     }
 
     // get a list for previously failed RS which need log splitting work
     // we recover .META. region servers inside master initialization and
     // handle other failed servers in SSH in order to start up master node ASAP
     Set<ServerName> previouslyFailedServers = this.fileSystemManager
         .getFailedServersFromLogFolders();
 
     // remove stale recovering regions from previous run
     this.fileSystemManager.removeStaleRecoveringRegionsFromZK(previouslyFailedServers);
 
     // log splitting for .META. server
     ServerName oldMetaServerLocation = this.catalogTracker.getMetaLocation();
     if (oldMetaServerLocation != null && previouslyFailedServers.contains(oldMetaServerLocation)) {
       splitMetaLogBeforeAssignment(oldMetaServerLocation);
       // Note: we can't remove oldMetaServerLocation from previousFailedServers list because it
       // may also host user regions
     }
 
     this.initializationBeforeMetaAssignment = true;
     // Make sure meta assigned before proceeding.
     status.setStatus("Assigning Meta Region");
     assignMeta(status);
     // check if master is shutting down because above assignMeta could return even META isn't 
     // assigned when master is shutting down
     if(this.stopped) return;
 
     if (this.distributedLogReplay && oldMetaServerLocation != null
         && previouslyFailedServers.contains(oldMetaServerLocation)) {
       // replay WAL edits mode need new .META. RS is assigned firstly
       status.setStatus("replaying log for Meta Region");
       this.fileSystemManager.splitMetaLog(oldMetaServerLocation);
     }
 
     enableServerShutdownHandler();
 
     status.setStatus("Submitting log splitting work for previously failed region servers");
     // Master has recovered META region server and we put
     // other failed region servers in a queue to be handled later by SSH
     for (ServerName tmpServer : previouslyFailedServers) {
       this.serverManager.processDeadServer(tmpServer, true);
     }
 
     // Update meta with new PB serialization if required. i.e migrate all HRI to PB serialization
     // in meta. This must happen before we assign all user regions or else the assignment will
     // fail.
     org.apache.hadoop.hbase.catalog.MetaMigrationConvertingToPB
       .updateMetaIfNecessary(this);
 
     this.balancer.setMasterServices(this);
     // Fix up assignment manager status
     status.setStatus("Starting assignment manager");
     this.assignmentManager.joinCluster();
 
     this.balancer.setClusterStatus(getClusterStatus());
 
     if (!masterRecovery) {
       // Start balancer and meta catalog janitor after meta and regions have
       // been assigned.
       status.setStatus("Starting balancer and catalog janitor");
       this.clusterStatusChore = getAndStartClusterStatusChore(this);
       this.balancerChore = getAndStartBalancerChore(this);
       this.catalogJanitorChore = new CatalogJanitor(this, this);
       startCatalogJanitorChore();
     }
 
     status.markComplete("Initialization successful");
     LOG.info("Master has completed initialization");
     initialized = true;
     // clear the dead servers with same host name and port of online server because we are not
     // removing dead server with same hostname and port of rs which is trying to check in before
     // master initialization. See HBASE-5916.
     this.serverManager.clearDeadServersWithSameHostNameAndPortOfOnlineServer();
 
     if (!masterRecovery) {
       if (this.cpHost != null) {
         // don't let cp initialization errors kill the master
         try {
           this.cpHost.postStartMaster();
         } catch (IOException ioe) {
           LOG.error("Coprocessor postStartMaster() hook failed", ioe);
         }
       }
     }
   }
 
   /**
    * Useful for testing purpose also where we have
    * master restart scenarios.
    */
   protected void startCatalogJanitorChore() {
     Threads.setDaemonThreadRunning(catalogJanitorChore.getThread());
   }
 
   /**
    * Create a {@link ServerManager} instance.
    * @param master
    * @param services
    * @return An instance of {@link ServerManager}
    * @throws org.apache.hadoop.hbase.exceptions.ZooKeeperConnectionException
    * @throws IOException
    */
   ServerManager createServerManager(final Server master,
       final MasterServices services)
   throws IOException {
     // We put this out here in a method so can do a Mockito.spy and stub it out
     // w/ a mocked up ServerManager.
     return new ServerManager(master, services);
   }
 
   /**
    * If ServerShutdownHandler is disabled, we enable it and expire those dead
    * but not expired servers.
    */
   private void enableServerShutdownHandler() {
     if (!serverShutdownHandlerEnabled) {
       serverShutdownHandlerEnabled = true;
       this.serverManager.processQueuedDeadServers();
     }
   }
 
   /**
    * Check <code>.META.</code> is assigned. If not, assign it.
    * @param status MonitoredTask
    * @throws InterruptedException
    * @throws IOException
    * @throws KeeperException
    */
   void assignMeta(MonitoredTask status)
       throws InterruptedException, IOException, KeeperException {
     // Work on meta region
     int assigned = 0;
     long timeout = this.conf.getLong("hbase.catalog.verification.timeout", 1000);
     boolean beingExpired = false;
 
     status.setStatus("Assigning META region");
     
     assignmentManager.getRegionStates().createRegionState(HRegionInfo.FIRST_META_REGIONINFO);
     boolean rit = this.assignmentManager
         .processRegionInTransitionAndBlockUntilAssigned(HRegionInfo.FIRST_META_REGIONINFO);
     boolean metaRegionLocation = this.catalogTracker.verifyMetaRegionLocation(timeout);
     if (!rit && !metaRegionLocation) {
       ServerName currentMetaServer = this.catalogTracker.getMetaLocation();
       if (currentMetaServer != null) {
         beingExpired = expireIfOnline(currentMetaServer);
       }
       if (beingExpired) {
         splitMetaLogBeforeAssignment(currentMetaServer);
       }
       assignmentManager.assignMeta();
       // Make sure a .META. location is set.
       enableSSHandWaitForMeta();
       assigned++;
       if (beingExpired && this.distributedLogReplay) {
         // In Replay WAL Mode, we need the new .META. server online
         this.fileSystemManager.splitMetaLog(currentMetaServer);
       }
     } else if (rit && !metaRegionLocation) {
       // Make sure a .META. location is set.
       enableSSHandWaitForMeta();
       assigned++;
     } else {
       // Region already assigned. We didn't assign it. Add to in-memory state.
       this.assignmentManager.regionOnline(HRegionInfo.FIRST_META_REGIONINFO,
         this.catalogTracker.getMetaLocation());
     }
 
     enableCatalogTables(Bytes.toString(HConstants.META_TABLE_NAME));
     LOG.info(".META. assigned=" + assigned + ", rit=" + rit + ", location="
         + catalogTracker.getMetaLocation());
     status.setStatus("META assigned.");
   }
 
   private void splitMetaLogBeforeAssignment(ServerName currentMetaServer) throws IOException {
     if (this.distributedLogReplay) {
       // In log replay mode, we mark META region as recovering in ZK
       Set<HRegionInfo> regions = new HashSet<HRegionInfo>();
       regions.add(HRegionInfo.FIRST_META_REGIONINFO);
       this.fileSystemManager.prepareMetaLogReplay(currentMetaServer, regions);
     } else {
       // In recovered.edits mode: create recovered edits file for .META. server
       this.fileSystemManager.splitMetaLog(currentMetaServer);
     }
   }
 
   private void enableSSHandWaitForMeta() throws IOException, InterruptedException {
     enableServerShutdownHandler();
     this.catalogTracker.waitForMeta();
     // Above check waits for general meta availability but this does not
     // guarantee that the transition has completed
     this.assignmentManager.waitForAssignment(HRegionInfo.FIRST_META_REGIONINFO);
   }
 
   private void enableCatalogTables(String catalogTableName) {
     if (!this.assignmentManager.getZKTable().isEnabledTable(catalogTableName)) {
       this.assignmentManager.setEnabledTable(catalogTableName);
     }
   }
 
   /**
    * Expire a server if we find it is one of the online servers.
    * @param sn ServerName to check.
    * @return true when server <code>sn<code> is being expired by the function.
    * @throws IOException
    */
   private boolean expireIfOnline(final ServerName sn)
       throws IOException {
     if (sn == null || !serverManager.isServerOnline(sn)) {
       return false;
     }
     LOG.info("Forcing expire of " + sn);
     serverManager.expireServer(sn);
     return true;
   }
 
   @Override
   public TableDescriptors getTableDescriptors() {
     return this.tableDescriptors;
   }
 
   /** @return InfoServer object. Maybe null.*/
   public InfoServer getInfoServer() {
     return this.infoServer;
   }
 
   @Override
   public Configuration getConfiguration() {
     return this.conf;
   }
 
   @Override
   public ServerManager getServerManager() {
     return this.serverManager;
   }
 
   @Override
   public ExecutorService getExecutorService() {
     return this.executorService;
   }
 
   @Override
   public MasterFileSystem getMasterFileSystem() {
     return this.fileSystemManager;
   }
 
   /**
    * Get the ZK wrapper object - needed by master_jsp.java
    * @return the zookeeper wrapper
    */
   public ZooKeeperWatcher getZooKeeperWatcher() {
     return this.zooKeeper;
   }
 
   /*
    * Start up all services. If any of these threads gets an unhandled exception
    * then they just die with a logged message.  This should be fine because
    * in general, we do not expect the master to get such unhandled exceptions
    *  as OOMEs; it should be lightly loaded. See what HRegionServer does if
    *  need to install an unexpected exception handler.
    */
   void startServiceThreads() throws IOException{
    // Start the executor service pools
    this.executorService.startExecutorService(ExecutorType.MASTER_OPEN_REGION,
       conf.getInt("hbase.master.executor.openregion.threads", 5));
    this.executorService.startExecutorService(ExecutorType.MASTER_CLOSE_REGION,
       conf.getInt("hbase.master.executor.closeregion.threads", 5));
    this.executorService.startExecutorService(ExecutorType.MASTER_SERVER_OPERATIONS,
       conf.getInt("hbase.master.executor.serverops.threads", 3));
    this.executorService.startExecutorService(ExecutorType.MASTER_META_SERVER_OPERATIONS,
       conf.getInt("hbase.master.executor.serverops.threads", 5));
 
    // We depend on there being only one instance of this executor running
    // at a time.  To do concurrency, would need fencing of enable/disable of
    // tables.
    this.executorService.startExecutorService(ExecutorType.MASTER_TABLE_OPERATIONS, 1);
 
    // Start log cleaner thread
    String n = Thread.currentThread().getName();
    int cleanerInterval = conf.getInt("hbase.master.cleaner.interval", 60 * 1000);
    this.logCleaner =
       new LogCleaner(cleanerInterval,
          this, conf, getMasterFileSystem().getFileSystem(),
          getMasterFileSystem().getOldLogDir());
          Threads.setDaemonThreadRunning(logCleaner.getThread(), n + ".oldLogCleaner");
 
    //start the hfile archive cleaner thread
     Path archiveDir = HFileArchiveUtil.getArchivePath(conf);
     this.hfileCleaner = new HFileCleaner(cleanerInterval, this, conf, getMasterFileSystem()
         .getFileSystem(), archiveDir);
     Threads.setDaemonThreadRunning(hfileCleaner.getThread(), n + ".archivedHFileCleaner");
 
    // Put up info server.
    int port = this.conf.getInt(HConstants.MASTER_INFO_PORT, 60010);
    if (port >= 0) {
      String a = this.conf.get("hbase.master.info.bindAddress", "0.0.0.0");
      this.infoServer = new InfoServer(MASTER, a, port, false, this.conf);
      this.infoServer.addServlet("status", "/master-status", MasterStatusServlet.class);
      this.infoServer.addServlet("dump", "/dump", MasterDumpServlet.class);
      this.infoServer.setAttribute(MASTER, this);
      this.infoServer.start();
     }
 
     // Start the health checker
     if (this.healthCheckChore != null) {
       Threads.setDaemonThreadRunning(this.healthCheckChore.getThread(), n + ".healthChecker");
     }
 
     // Start allowing requests to happen.
     this.rpcServer.openServer();
     this.rpcServerOpen = true;
     if (LOG.isTraceEnabled()) {
       LOG.trace("Started service threads");
     }
   }
 
   /**
    * Use this when trying to figure when its ok to send in rpcs.  Used by tests.
    * @return True if we have successfully run {@link RpcServer#openServer()}
    */
   boolean isRpcServerOpen() {
     return this.rpcServerOpen;
   }
 
   private void stopServiceThreads() {
     if (LOG.isDebugEnabled()) {
       LOG.debug("Stopping service threads");
     }
     if (this.rpcServer != null) this.rpcServer.stop();
     this.rpcServerOpen = false;
     // Clean up and close up shop
     if (this.logCleaner!= null) this.logCleaner.interrupt();
     if (this.hfileCleaner != null) this.hfileCleaner.interrupt();
 
     if (this.infoServer != null) {
       LOG.info("Stopping infoServer");
       try {
         this.infoServer.stop();
       } catch (Exception ex) {
         ex.printStackTrace();
       }
     }
     if (this.executorService != null) this.executorService.shutdown();
     if (this.healthCheckChore != null) {
       this.healthCheckChore.interrupt();
     }
   }
 
   private static Thread getAndStartClusterStatusChore(HMaster master) {
     if (master == null || master.balancer == null) {
       return null;
     }
     Chore chore = new ClusterStatusChore(master, master.balancer);
     return Threads.setDaemonThreadRunning(chore.getThread());
   }
 
   private static Thread getAndStartBalancerChore(final HMaster master) {
     // Start up the load balancer chore
     Chore chore = new BalancerChore(master);
     return Threads.setDaemonThreadRunning(chore.getThread());
   }
 
   private void stopChores() {
     if (this.balancerChore != null) {
       this.balancerChore.interrupt();
     }
     if (this.clusterStatusChore != null) {
       this.clusterStatusChore.interrupt();
     }
     if (this.catalogJanitorChore != null) {
       this.catalogJanitorChore.interrupt();
     }
     if (this.clusterStatusPublisherChore != null){
       clusterStatusPublisherChore.interrupt();
     }
   }
 
   @Override
   public RegionServerStartupResponse regionServerStartup(
       RpcController controller, RegionServerStartupRequest request) throws ServiceException {
     // Register with server manager
     try {
       InetAddress ia = getRemoteInetAddress(request.getPort(), request.getServerStartCode());
       ServerName rs = this.serverManager.regionServerStartup(ia, request.getPort(),
         request.getServerStartCode(), request.getServerCurrentTime());
 
       // Send back some config info
       RegionServerStartupResponse.Builder resp = createConfigurationSubset();
       NameStringPair.Builder entry = NameStringPair.newBuilder()
         .setName(HConstants.KEY_FOR_HOSTNAME_SEEN_BY_MASTER)
         .setValue(rs.getHostname());
       resp.addMapEntries(entry.build());
 
       return resp.build();
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
   }
 
   /**
    * @return Get remote side's InetAddress
    * @throws UnknownHostException
    */
   InetAddress getRemoteInetAddress(final int port, final long serverStartCode)
   throws UnknownHostException {
     // Do it out here in its own little method so can fake an address when
     // mocking up in tests.
     return RpcServer.getRemoteIp();
   }
 
   /**
    * @return Subset of configuration to pass initializing regionservers: e.g.
    * the filesystem to use and root directory to use.
    */
   protected RegionServerStartupResponse.Builder createConfigurationSubset() {
     RegionServerStartupResponse.Builder resp = addConfig(
       RegionServerStartupResponse.newBuilder(), HConstants.HBASE_DIR);
     return addConfig(resp, "fs.default.name");
   }
 
   private RegionServerStartupResponse.Builder addConfig(
       final RegionServerStartupResponse.Builder resp, final String key) {
     NameStringPair.Builder entry = NameStringPair.newBuilder()
       .setName(key)
       .setValue(this.conf.get(key));
     resp.addMapEntries(entry.build());
     return resp;
   }
 
   @Override
   public GetLastFlushedSequenceIdResponse getLastFlushedSequenceId(RpcController controller,
       GetLastFlushedSequenceIdRequest request) throws ServiceException {
     byte[] regionName = request.getRegionName().toByteArray();
     long seqId = serverManager.getLastFlushedSequenceId(regionName);
     return ResponseConverter.buildGetLastFlushedSequenceIdResponse(seqId);
   }
 
   @Override
   public RegionServerReportResponse regionServerReport(
       RpcController controller, RegionServerReportRequest request) throws ServiceException {
     try {
       HBaseProtos.ServerLoad sl = request.getLoad();
       this.serverManager.regionServerReport(ProtobufUtil.toServerName(request.getServer()), new ServerLoad(sl));
       if (sl != null && this.metricsMaster != null) {
         // Up our metrics.
         this.metricsMaster.incrementRequests(sl.getTotalNumberOfRequests());
       }
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
 
     return RegionServerReportResponse.newBuilder().build();
   }
 
   @Override
   public ReportRSFatalErrorResponse reportRSFatalError(
       RpcController controller, ReportRSFatalErrorRequest request) throws ServiceException {
     String errorText = request.getErrorMessage();
     ServerName sn = ProtobufUtil.toServerName(request.getServer());
     String msg = "Region server " + sn +
       " reported a fatal error:\n" + errorText;
     LOG.error(msg);
     rsFatals.add(msg);
 
     return ReportRSFatalErrorResponse.newBuilder().build();
   }
 
   public boolean isMasterRunning() {
     return !isStopped();
   }
 
   public IsMasterRunningResponse isMasterRunning(RpcController c, IsMasterRunningRequest req)
   throws ServiceException {
     return IsMasterRunningResponse.newBuilder().setIsMasterRunning(isMasterRunning()).build();
   }
 
   @Override
   public CatalogScanResponse runCatalogScan(RpcController c,
       CatalogScanRequest req) throws ServiceException {
     try {
       return ResponseConverter.buildCatalogScanResponse(catalogJanitorChore.scan());
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
   }
 
   @Override
   public EnableCatalogJanitorResponse enableCatalogJanitor(RpcController c,
       EnableCatalogJanitorRequest req) throws ServiceException {
     return EnableCatalogJanitorResponse.newBuilder().
         setPrevValue(catalogJanitorChore.setEnabled(req.getEnable())).build();
   }
 
   @Override
   public IsCatalogJanitorEnabledResponse isCatalogJanitorEnabled(RpcController c,
       IsCatalogJanitorEnabledRequest req) throws ServiceException {
     boolean isEnabled = catalogJanitorChore != null ? catalogJanitorChore.getEnabled() : false;
     return IsCatalogJanitorEnabledResponse.newBuilder().setValue(isEnabled).build();
   }
 
   /**
    * @return Maximum time we should run balancer for
    */
   private int getBalancerCutoffTime() {
     int balancerCutoffTime =
       getConfiguration().getInt("hbase.balancer.max.balancing", -1);
     if (balancerCutoffTime == -1) {
       // No time period set so create one
       int balancerPeriod =
         getConfiguration().getInt("hbase.balancer.period", 300000);
       balancerCutoffTime = balancerPeriod;
       // If nonsense period, set it to balancerPeriod
       if (balancerCutoffTime <= 0) balancerCutoffTime = balancerPeriod;
     }
     return balancerCutoffTime;
   }
 
   public boolean balance() {
     // if master not initialized, don't run balancer.
     if (!this.initialized) {
       LOG.debug("Master has not been initialized, don't run balancer.");
       return false;
     }
     // If balance not true, don't run balancer.
     if (!this.loadBalancerTracker.isBalancerOn()) return false;
     // Do this call outside of synchronized block.
     int maximumBalanceTime = getBalancerCutoffTime();
     boolean balancerRan;
     synchronized (this.balancer) {
       // Only allow one balance run at at time.
       if (this.assignmentManager.getRegionStates().isRegionsInTransition()) {
         Map<String, RegionState> regionsInTransition =
           this.assignmentManager.getRegionStates().getRegionsInTransition();
         LOG.debug("Not running balancer because " + regionsInTransition.size() +
           " region(s) in transition: " + org.apache.commons.lang.StringUtils.
             abbreviate(regionsInTransition.toString(), 256));
         return false;
       }
       if (this.serverManager.areDeadServersInProgress()) {
         LOG.debug("Not running balancer because processing dead regionserver(s): " +
           this.serverManager.getDeadServers());
         return false;
       }
 
       if (this.cpHost != null) {
         try {
           if (this.cpHost.preBalance()) {
             LOG.debug("Coprocessor bypassing balancer request");
             return false;
           }
         } catch (IOException ioe) {
           LOG.error("Error invoking master coprocessor preBalance()", ioe);
           return false;
         }
       }
 
       Map<String, Map<ServerName, List<HRegionInfo>>> assignmentsByTable =
         this.assignmentManager.getRegionStates().getAssignmentsByTable();
 
       List<RegionPlan> plans = new ArrayList<RegionPlan>();
       //Give the balancer the current cluster state.
       this.balancer.setClusterStatus(getClusterStatus());
       for (Map<ServerName, List<HRegionInfo>> assignments : assignmentsByTable.values()) {
         List<RegionPlan> partialPlans = this.balancer.balanceCluster(assignments);
         if (partialPlans != null) plans.addAll(partialPlans);
       }
       long cutoffTime = System.currentTimeMillis() + maximumBalanceTime;
       int rpCount = 0;  // number of RegionPlans balanced so far
       long totalRegPlanExecTime = 0;
       balancerRan = plans != null;
       if (plans != null && !plans.isEmpty()) {
         for (RegionPlan plan: plans) {
           LOG.info("balance " + plan);
           long balStartTime = System.currentTimeMillis();
           //TODO: bulk assign
           this.assignmentManager.balance(plan);
           totalRegPlanExecTime += System.currentTimeMillis()-balStartTime;
           rpCount++;
           if (rpCount < plans.size() &&
               // if performing next balance exceeds cutoff time, exit the loop
               (System.currentTimeMillis() + (totalRegPlanExecTime / rpCount)) > cutoffTime) {
             //TODO: After balance, there should not be a cutoff time (keeping it as a security net for now)
             LOG.debug("No more balancing till next balance run; maximumBalanceTime=" +
               maximumBalanceTime);
             break;
           }
         }
       }
       if (this.cpHost != null) {
         try {
           this.cpHost.postBalance(rpCount < plans.size() ? plans.subList(0, rpCount) : plans);
         } catch (IOException ioe) {
           // balancing already succeeded so don't change the result
           LOG.error("Error invoking master coprocessor postBalance()", ioe);
         }
       }
     }
     return balancerRan;
   }
 
   @Override
   public BalanceResponse balance(RpcController c, BalanceRequest request) throws ServiceException {
     return BalanceResponse.newBuilder().setBalancerRan(balance()).build();
   }
 
   enum BalanceSwitchMode {
     SYNC,
     ASYNC
   }
   /**
    * Assigns balancer switch according to BalanceSwitchMode
    * @param b new balancer switch
    * @param mode BalanceSwitchMode
    * @return old balancer switch
    */
   public boolean switchBalancer(final boolean b, BalanceSwitchMode mode) throws IOException {
     boolean oldValue = this.loadBalancerTracker.isBalancerOn();
     boolean newValue = b;
     try {
       if (this.cpHost != null) {
         newValue = this.cpHost.preBalanceSwitch(newValue);
       }
       try {
         if (mode == BalanceSwitchMode.SYNC) {
           synchronized (this.balancer) {
             this.loadBalancerTracker.setBalancerOn(newValue);
           }
         } else {
           this.loadBalancerTracker.setBalancerOn(newValue);
         }
       } catch (KeeperException ke) {
         throw new IOException(ke);
       }
       LOG.info("BalanceSwitch=" + newValue);
       if (this.cpHost != null) {
         this.cpHost.postBalanceSwitch(oldValue, newValue);
       }
     } catch (IOException ioe) {
       LOG.warn("Error flipping balance switch", ioe);
     }
     return oldValue;
   }
 
   public boolean synchronousBalanceSwitch(final boolean b) throws IOException {
     return switchBalancer(b, BalanceSwitchMode.SYNC);
   }
 
   public boolean balanceSwitch(final boolean b) throws IOException {
     return switchBalancer(b, BalanceSwitchMode.ASYNC);
   }
 
   @Override
   public SetBalancerRunningResponse setBalancerRunning(
       RpcController controller, SetBalancerRunningRequest req) throws ServiceException {
     try {
       boolean prevValue = (req.getSynchronous())?
         synchronousBalanceSwitch(req.getOn()):balanceSwitch(req.getOn());
       return SetBalancerRunningResponse.newBuilder().setPrevBalanceValue(prevValue).build();
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
   }
 
   /**
    * Switch for the background CatalogJanitor thread.
    * Used for testing.  The thread will continue to run.  It will just be a noop
    * if disabled.
    * @param b If false, the catalog janitor won't do anything.
    */
   public void setCatalogJanitorEnabled(final boolean b) {
     this.catalogJanitorChore.setEnabled(b);
   }
 
   @Override
   public DispatchMergingRegionsResponse dispatchMergingRegions(
       RpcController controller, DispatchMergingRegionsRequest request)
       throws ServiceException {
     final byte[] encodedNameOfRegionA = request.getRegionA().getValue()
         .toByteArray();
     final byte[] encodedNameOfRegionB = request.getRegionB().getValue()
         .toByteArray();
     final boolean forcible = request.getForcible();
     if (request.getRegionA().getType() != RegionSpecifierType.ENCODED_REGION_NAME
         || request.getRegionB().getType() != RegionSpecifierType.ENCODED_REGION_NAME) {
       LOG.warn("mergeRegions specifier type: expected: "
           + RegionSpecifierType.ENCODED_REGION_NAME + " actual: region_a="
           + request.getRegionA().getType() + ", region_b="
           + request.getRegionB().getType());
     }
     RegionState regionStateA = assignmentManager.getRegionStates()
         .getRegionState(Bytes.toString(encodedNameOfRegionA));
     RegionState regionStateB = assignmentManager.getRegionStates()
         .getRegionState(Bytes.toString(encodedNameOfRegionB));
     if (regionStateA == null || regionStateB == null) {
       throw new ServiceException(new UnknownRegionException(
           Bytes.toStringBinary(regionStateA == null ? encodedNameOfRegionA
               : encodedNameOfRegionB)));
     }
 
     if (!forcible && !HRegionInfo.areAdjacent(regionStateA.getRegion(),
             regionStateB.getRegion())) {
       throw new ServiceException("Unable to merge not adjacent regions "
           + regionStateA.getRegion().getRegionNameAsString() + ", "
           + regionStateB.getRegion().getRegionNameAsString()
           + " where forcible = " + forcible);
     }
 
     try {
       dispatchMergingRegions(regionStateA.getRegion(), regionStateB.getRegion(), forcible);
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
 
     return DispatchMergingRegionsResponse.newBuilder().build();
   }
 
   @Override
   public void dispatchMergingRegions(final HRegionInfo region_a,
       final HRegionInfo region_b, final boolean forcible) throws IOException {
     checkInitialized();
     this.executorService.submit(new DispatchMergingRegionHandler(this,
         this.catalogJanitorChore, region_a, region_b, forcible));
   }
 
   @Override
   public MoveRegionResponse moveRegion(RpcController controller, MoveRegionRequest req)
   throws ServiceException {
     final byte [] encodedRegionName = req.getRegion().getValue().toByteArray();
     RegionSpecifierType type = req.getRegion().getType();
     final byte [] destServerName = (req.hasDestServerName())?
       Bytes.toBytes(ProtobufUtil.toServerName(req.getDestServerName()).getServerName()):null;
     MoveRegionResponse mrr = MoveRegionResponse.newBuilder().build();
 
     if (type != RegionSpecifierType.ENCODED_REGION_NAME) {
       LOG.warn("moveRegion specifier type: expected: " + RegionSpecifierType.ENCODED_REGION_NAME
         + " actual: " + type);
     }
 
     try {
       move(encodedRegionName, destServerName);
     } catch (HBaseIOException ioe) {
       throw new ServiceException(ioe);
     }
     return mrr;
   }
 
   void move(final byte[] encodedRegionName,
       final byte[] destServerName) throws HBaseIOException {
     RegionState regionState = assignmentManager.getRegionStates().
       getRegionState(Bytes.toString(encodedRegionName));
     if (regionState == null) {
       throw new UnknownRegionException(Bytes.toStringBinary(encodedRegionName));
     }
 
     HRegionInfo hri = regionState.getRegion();
     ServerName dest;
     if (destServerName == null || destServerName.length == 0) {
       LOG.info("Passed destination servername is null/empty so " +
         "choosing a server at random");
       final List<ServerName> destServers = this.serverManager.createDestinationServersList(
         regionState.getServerName());
       dest = balancer.randomAssignment(hri, destServers);
     } else {
       dest = new ServerName(Bytes.toString(destServerName));
       if (dest.equals(regionState.getServerName())) {
         LOG.debug("Skipping move of region " + hri.getRegionNameAsString()
           + " because region already assigned to the same server " + dest + ".");
         return;
       }
     }
 
     // Now we can do the move
     RegionPlan rp = new RegionPlan(hri, regionState.getServerName(), dest);
 
     try {
       checkInitialized();
       if (this.cpHost != null) {
         if (this.cpHost.preMove(hri, rp.getSource(), rp.getDestination())) {
           return;
         }
       }
       LOG.info("Added move plan " + rp + ", running balancer");
       this.assignmentManager.balance(rp);
       if (this.cpHost != null) {
         this.cpHost.postMove(hri, rp.getSource(), rp.getDestination());
       }
     } catch (IOException ioe) {
       if (ioe instanceof HBaseIOException) {
         throw (HBaseIOException)ioe;
       }
       throw new HBaseIOException(ioe);
     }
   }
 
   @Override
   public void createTable(HTableDescriptor hTableDescriptor,
     byte [][] splitKeys)
   throws IOException {
     if (!isMasterRunning()) {
       throw new MasterNotRunningException();
     }
 
     HRegionInfo [] newRegions = getHRegionInfos(hTableDescriptor, splitKeys);
     checkInitialized();
     checkCompression(hTableDescriptor);
     if (cpHost != null) {
       cpHost.preCreateTable(hTableDescriptor, newRegions);
     }
 
     this.executorService.submit(new CreateTableHandler(this,
       this.fileSystemManager, hTableDescriptor, conf,
       newRegions, this).prepare());
     if (cpHost != null) {
       cpHost.postCreateTable(hTableDescriptor, newRegions);
     }
 
   }
 
   private void checkCompression(final HTableDescriptor htd)
   throws IOException {
     if (!this.masterCheckCompression) return;
     for (HColumnDescriptor hcd : htd.getColumnFamilies()) {
       checkCompression(hcd);
     }
   }
 
   private void checkCompression(final HColumnDescriptor hcd)
   throws IOException {
     if (!this.masterCheckCompression) return;
     CompressionTest.testCompression(hcd.getCompression());
     CompressionTest.testCompression(hcd.getCompactionCompression());
   }
 
   @Override
   public CreateTableResponse createTable(RpcController controller, CreateTableRequest req)
   throws ServiceException {
     HTableDescriptor hTableDescriptor = HTableDescriptor.convert(req.getTableSchema());
     byte [][] splitKeys = ProtobufUtil.getSplitKeysArray(req);
     try {
       createTable(hTableDescriptor,splitKeys);
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return CreateTableResponse.newBuilder().build();
   }
 
   private HRegionInfo[] getHRegionInfos(HTableDescriptor hTableDescriptor,
     byte[][] splitKeys) {
     HRegionInfo[] hRegionInfos = null;
     if (splitKeys == null || splitKeys.length == 0) {
       hRegionInfos = new HRegionInfo[]{
           new HRegionInfo(hTableDescriptor.getName(), null, null)};
     } else {
       int numRegions = splitKeys.length + 1;
       hRegionInfos = new HRegionInfo[numRegions];
       byte[] startKey = null;
       byte[] endKey = null;
       for (int i = 0; i < numRegions; i++) {
         endKey = (i == splitKeys.length) ? null : splitKeys[i];
         hRegionInfos[i] =
             new HRegionInfo(hTableDescriptor.getName(), startKey, endKey);
         startKey = endKey;
       }
     }
     return hRegionInfos;
   }
 
   private static boolean isCatalogTable(final byte [] tableName) {
     return Bytes.equals(tableName, HConstants.META_TABLE_NAME);
   }
 
   @Override
   public void deleteTable(final byte[] tableName) throws IOException {
     checkInitialized();
     if (cpHost != null) {
       cpHost.preDeleteTable(tableName);
     }
     this.executorService.submit(new DeleteTableHandler(tableName, this, this).prepare());
     if (cpHost != null) {
       cpHost.postDeleteTable(tableName);
     }
   }
 
   @Override
   public DeleteTableResponse deleteTable(RpcController controller, DeleteTableRequest request)
   throws ServiceException {
     try {
       deleteTable(request.getTableName().toByteArray());
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return DeleteTableResponse.newBuilder().build();
   }
 
   /**
    * Get the number of regions of the table that have been updated by the alter.
    *
    * @return Pair indicating the number of regions updated Pair.getFirst is the
    *         regions that are yet to be updated Pair.getSecond is the total number
    *         of regions of the table
    * @throws IOException
    */
   @Override
   public GetSchemaAlterStatusResponse getSchemaAlterStatus(
       RpcController controller, GetSchemaAlterStatusRequest req) throws ServiceException {
     // TODO: currently, we query using the table name on the client side. this
     // may overlap with other table operations or the table operation may
     // have completed before querying this API. We need to refactor to a
     // transaction system in the future to avoid these ambiguities.
     byte [] tableName = req.getTableName().toByteArray();
 
     try {
       Pair<Integer,Integer> pair = this.assignmentManager.getReopenStatus(tableName);
       GetSchemaAlterStatusResponse.Builder ret = GetSchemaAlterStatusResponse.newBuilder();
       ret.setYetToUpdateRegions(pair.getFirst());
       ret.setTotalRegions(pair.getSecond());
       return ret.build();
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
   }
 
   @Override
   public void addColumn(final byte[] tableName, final HColumnDescriptor column)
       throws IOException {
     checkInitialized();
     if (cpHost != null) {
       if (cpHost.preAddColumn(tableName, column)) {
         return;
       }
     }
     //TODO: we should process this (and some others) in an executor
     new TableAddFamilyHandler(tableName, column, this, this)
       .prepare().process();
     if (cpHost != null) {
       cpHost.postAddColumn(tableName, column);
     }
   }
 
   @Override
   public AddColumnResponse addColumn(RpcController controller, AddColumnRequest req)
   throws ServiceException {
     try {
       addColumn(req.getTableName().toByteArray(),
         HColumnDescriptor.convert(req.getColumnFamilies()));
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return AddColumnResponse.newBuilder().build();
   }
 
   @Override
   public void modifyColumn(byte[] tableName, HColumnDescriptor descriptor)
       throws IOException {
     checkInitialized();
     checkCompression(descriptor);
     if (cpHost != null) {
       if (cpHost.preModifyColumn(tableName, descriptor)) {
         return;
       }
     }
     new TableModifyFamilyHandler(tableName, descriptor, this, this)
       .prepare().process();
     if (cpHost != null) {
       cpHost.postModifyColumn(tableName, descriptor);
     }
   }
 
   @Override
   public ModifyColumnResponse modifyColumn(RpcController controller, ModifyColumnRequest req)
   throws ServiceException {
     try {
       modifyColumn(req.getTableName().toByteArray(),
         HColumnDescriptor.convert(req.getColumnFamilies()));
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return ModifyColumnResponse.newBuilder().build();
   }
 
   @Override
   public void deleteColumn(final byte[] tableName, final byte[] columnName)
       throws IOException {
     checkInitialized();
     if (cpHost != null) {
       if (cpHost.preDeleteColumn(tableName, columnName)) {
         return;
       }
     }
     new TableDeleteFamilyHandler(tableName, columnName, this, this).prepare().process();
     if (cpHost != null) {
       cpHost.postDeleteColumn(tableName, columnName);
     }
   }
 
   @Override
   public DeleteColumnResponse deleteColumn(RpcController controller, DeleteColumnRequest req)
   throws ServiceException {
     try {
       deleteColumn(req.getTableName().toByteArray(), req.getColumnName().toByteArray());
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return DeleteColumnResponse.newBuilder().build();
   }
 
   @Override
   public void enableTable(final byte[] tableName) throws IOException {
     checkInitialized();
     if (cpHost != null) {
       cpHost.preEnableTable(tableName);
     }
     this.executorService.submit(new EnableTableHandler(this, tableName,
       catalogTracker, assignmentManager, tableLockManager, false).prepare());
     if (cpHost != null) {
       cpHost.postEnableTable(tableName);
    }
   }
 
   @Override
   public EnableTableResponse enableTable(RpcController controller, EnableTableRequest request)
   throws ServiceException {
     try {
       enableTable(request.getTableName().toByteArray());
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return EnableTableResponse.newBuilder().build();
   }
 
   @Override
   public void disableTable(final byte[] tableName) throws IOException {
     checkInitialized();
     if (cpHost != null) {
       cpHost.preDisableTable(tableName);
     }
     this.executorService.submit(new DisableTableHandler(this, tableName,
       catalogTracker, assignmentManager, tableLockManager, false).prepare());
     if (cpHost != null) {
       cpHost.postDisableTable(tableName);
     }
   }
 
   @Override
   public DisableTableResponse disableTable(RpcController controller, DisableTableRequest request)
   throws ServiceException {
     try {
       disableTable(request.getTableName().toByteArray());
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return DisableTableResponse.newBuilder().build();
   }
 
   /**
    * Return the region and current deployment for the region containing
    * the given row. If the region cannot be found, returns null. If it
    * is found, but not currently deployed, the second element of the pair
    * may be null.
    */
   Pair<HRegionInfo, ServerName> getTableRegionForRow(
       final byte [] tableName, final byte [] rowKey)
   throws IOException {
     final AtomicReference<Pair<HRegionInfo, ServerName>> result =
       new AtomicReference<Pair<HRegionInfo, ServerName>>(null);
 
     MetaScannerVisitor visitor =
       new MetaScannerVisitorBase() {
         @Override
         public boolean processRow(Result data) throws IOException {
           if (data == null || data.size() <= 0) {
             return true;
           }
           Pair<HRegionInfo, ServerName> pair = HRegionInfo.getHRegionInfoAndServerName(data);
           if (pair == null) {
             return false;
           }
           if (!Bytes.equals(pair.getFirst().getTableName(), tableName)) {
             return false;
           }
           result.set(pair);
           return true;
         }
     };
 
     MetaScanner.metaScan(conf, visitor, tableName, rowKey, 1);
     return result.get();
   }
 
   @Override
   public void modifyTable(final byte[] tableName, final HTableDescriptor descriptor)
       throws IOException {
     checkInitialized();
     checkCompression(descriptor);
     if (cpHost != null) {
       cpHost.preModifyTable(tableName, descriptor);
     }
     new ModifyTableHandler(tableName, descriptor, this, this).prepare().process();
     if (cpHost != null) {
       cpHost.postModifyTable(tableName, descriptor);
     }
   }
 
   @Override
   public ModifyTableResponse modifyTable(RpcController controller, ModifyTableRequest req)
   throws ServiceException {
     try {
       modifyTable(req.getTableName().toByteArray(),
         HTableDescriptor.convert(req.getTableSchema()));
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return ModifyTableResponse.newBuilder().build();
   }
 
   @Override
   public void checkTableModifiable(final byte [] tableName)
       throws IOException, TableNotFoundException, TableNotDisabledException {
     String tableNameStr = Bytes.toString(tableName);
     if (isCatalogTable(tableName)) {
       throw new IOException("Can't modify catalog tables");
     }
     if (!MetaReader.tableExists(getCatalogTracker(), tableNameStr)) {
       throw new TableNotFoundException(tableNameStr);
     }
     if (!getAssignmentManager().getZKTable().
         isDisabledTable(Bytes.toString(tableName))) {
       throw new TableNotDisabledException(tableName);
     }
   }
 
   @Override
   public GetClusterStatusResponse getClusterStatus(RpcController controller,
       GetClusterStatusRequest req)
   throws ServiceException {
     GetClusterStatusResponse.Builder response = GetClusterStatusResponse.newBuilder();
     response.setClusterStatus(getClusterStatus().convert());
     return response.build();
   }
 
   /**
    * @return cluster status
    */
   public ClusterStatus getClusterStatus() {
     // Build Set of backup masters from ZK nodes
     List<String> backupMasterStrings;
     try {
       backupMasterStrings = ZKUtil.listChildrenNoWatch(this.zooKeeper,
         this.zooKeeper.backupMasterAddressesZNode);
     } catch (KeeperException e) {
       LOG.warn(this.zooKeeper.prefix("Unable to list backup servers"), e);
       backupMasterStrings = new ArrayList<String>(0);
     }
     List<ServerName> backupMasters = new ArrayList<ServerName>(
                                           backupMasterStrings.size());
     for (String s: backupMasterStrings) {
       try {
         byte [] bytes =
             ZKUtil.getData(this.zooKeeper, ZKUtil.joinZNode(
                 this.zooKeeper.backupMasterAddressesZNode, s));
         if (bytes != null) {
           ServerName sn;
           try {
             sn = ServerName.parseFrom(bytes);
           } catch (DeserializationException e) {
             LOG.warn("Failed parse, skipping registering backup server", e);
             continue;
           }
           backupMasters.add(sn);
         }
       } catch (KeeperException e) {
         LOG.warn(this.zooKeeper.prefix("Unable to get information about " +
                  "backup servers"), e);
       }
     }
     Collections.sort(backupMasters, new Comparator<ServerName>() {
       public int compare(ServerName s1, ServerName s2) {
         return s1.getServerName().compareTo(s2.getServerName());
       }});
 
     return new ClusterStatus(VersionInfo.getVersion(),
       this.fileSystemManager.getClusterId().toString(),
       this.serverManager.getOnlineServers(),
       this.serverManager.getDeadServers().copyServerNames(),
       this.serverName,
       backupMasters,
       this.assignmentManager.getRegionStates().getRegionsInTransition(),
       this.getCoprocessors(), this.loadBalancerTracker.isBalancerOn());
   }
 
   public String getClusterId() {
     if (fileSystemManager == null) {
       return "";
     }
     ClusterId id = fileSystemManager.getClusterId();
     if (id == null) {
       return "";
     }
     return id.toString();
   }
 
   /**
    * The set of loaded coprocessors is stored in a static set. Since it's
    * statically allocated, it does not require that HMaster's cpHost be
    * initialized prior to accessing it.
    * @return a String representation of the set of names of the loaded
    * coprocessors.
    */
   public static String getLoadedCoprocessors() {
     return CoprocessorHost.getLoadedCoprocessors().toString();
   }
 
   /**
    * @return timestamp in millis when HMaster was started.
    */
   public long getMasterStartTime() {
     return masterStartTime;
   }
 
   /**
    * @return timestamp in millis when HMaster became the active master.
    */
   public long getMasterActiveTime() {
     return masterActiveTime;
   }
 
   /**
    * @return array of coprocessor SimpleNames.
    */
   public String[] getCoprocessors() {
     Set<String> masterCoprocessors =
         getCoprocessorHost().getCoprocessors();
     return masterCoprocessors.toArray(new String[masterCoprocessors.size()]);
   }
 
   @Override
   public void abort(final String msg, final Throwable t) {
     if (cpHost != null) {
       // HBASE-4014: dump a list of loaded coprocessors.
       LOG.fatal("Master server abort: loaded coprocessors are: " +
           getLoadedCoprocessors());
     }
 
     if (abortNow(msg, t)) {
       if (t != null) LOG.fatal(msg, t);
       else LOG.fatal(msg);
       this.abort = true;
       stop("Aborting");
     }
   }
 
   /**
    * We do the following in a different thread.  If it is not completed
    * in time, we will time it out and assume it is not easy to recover.
    *
    * 1. Create a new ZK session. (since our current one is expired)
    * 2. Try to become a primary master again
    * 3. Initialize all ZK based system trackers.
    * 4. Assign meta. (they are already assigned, but we need to update our
    * internal memory state to reflect it)
    * 5. Process any RIT if any during the process of our recovery.
    *
    * @return True if we could successfully recover from ZK session expiry.
    * @throws InterruptedException
    * @throws IOException
    * @throws KeeperException
    * @throws ExecutionException
    */
   private boolean tryRecoveringExpiredZKSession() throws InterruptedException,
       IOException, KeeperException, ExecutionException {
 
     this.zooKeeper.unregisterAllListeners();
     this.zooKeeper.reconnectAfterExpiration();
 
     Callable<Boolean> callable = new Callable<Boolean> () {
       public Boolean call() throws InterruptedException,
           IOException, KeeperException {
         MonitoredTask status =
           TaskMonitor.get().createStatus("Recovering expired ZK session");
         try {
           if (!becomeActiveMaster(status)) {
             return Boolean.FALSE;
           }
           serverShutdownHandlerEnabled = false;
           initialized = false;
           finishInitialization(status, true);
           return !stopped;
         } finally {
           status.cleanup();
         }
       }
     };
 
     long timeout =
       conf.getLong("hbase.master.zksession.recover.timeout", 300000);
     java.util.concurrent.ExecutorService executor =
       Executors.newSingleThreadExecutor();
     Future<Boolean> result = executor.submit(callable);
     executor.shutdown();
     if (executor.awaitTermination(timeout, TimeUnit.MILLISECONDS)
         && result.isDone()) {
       Boolean recovered = result.get();
       if (recovered != null) {
         return recovered.booleanValue();
       }
     }
     executor.shutdownNow();
     return false;
   }
 
   /**
    * Check to see if the current trigger for abort is due to ZooKeeper session
    * expiry, and If yes, whether we can recover from ZK session expiry.
    *
    * @param msg Original abort message
    * @param t   The cause for current abort request
    * @return true if we should proceed with abort operation, false other wise.
    */
   private boolean abortNow(final String msg, final Throwable t) {
     if (!this.isActiveMaster) {
       return true;
     }
     if (t != null && t instanceof KeeperException.SessionExpiredException) {
       try {
         LOG.info("Primary Master trying to recover from ZooKeeper session " +
             "expiry.");
         return !tryRecoveringExpiredZKSession();
       } catch (Throwable newT) {
         LOG.error("Primary master encountered unexpected exception while " +
             "trying to recover from ZooKeeper session" +
             " expiry. Proceeding with server abort.", newT);
       }
     }
     return true;
   }
 
   @Override
   public ZooKeeperWatcher getZooKeeper() {
     return zooKeeper;
   }
 
   @Override
   public MasterCoprocessorHost getCoprocessorHost() {
     return cpHost;
   }
 
   @Override
   public ServerName getServerName() {
     return this.serverName;
   }
 
   @Override
   public CatalogTracker getCatalogTracker() {
     return catalogTracker;
   }
 
   @Override
   public AssignmentManager getAssignmentManager() {
     return this.assignmentManager;
   }
 
   @Override
   public TableLockManager getTableLockManager() {
     return this.tableLockManager;
   }
 
   public MemoryBoundedLogMessageBuffer getRegionServerFatalLogBuffer() {
     return rsFatals;
   }
 
   public void shutdown() {
     if (spanReceiverHost != null) {
       spanReceiverHost.closeReceivers();
     }
     if (cpHost != null) {
       try {
         cpHost.preShutdown();
       } catch (IOException ioe) {
         LOG.error("Error call master coprocessor preShutdown()", ioe);
       }
     }
     if (mxBean != null) {
       MBeanUtil.unregisterMBean(mxBean);
       mxBean = null;
     }
     if (this.assignmentManager != null) this.assignmentManager.shutdown();
     if (this.serverManager != null) this.serverManager.shutdownCluster();
     try {
       if (this.clusterStatusTracker != null){
         this.clusterStatusTracker.setClusterDown();
       }
     } catch (KeeperException e) {
       LOG.error("ZooKeeper exception trying to set cluster as down in ZK", e);
     }
   }
 
   @Override
   public ShutdownResponse shutdown(RpcController controller, ShutdownRequest request)
   throws ServiceException {
     shutdown();
     return ShutdownResponse.newBuilder().build();
   }
 
   public void stopMaster() {
     if (cpHost != null) {
       try {
         cpHost.preStopMaster();
       } catch (IOException ioe) {
         LOG.error("Error call master coprocessor preStopMaster()", ioe);
       }
     }
     stop("Stopped by " + Thread.currentThread().getName());
   }
 
   @Override
   public StopMasterResponse stopMaster(RpcController controller, StopMasterRequest request)
   throws ServiceException {
     stopMaster();
     return StopMasterResponse.newBuilder().build();
   }
 
   @Override
   public void stop(final String why) {
     LOG.info(why);
     this.stopped = true;
     // We wake up the stopSleeper to stop immediately
     stopSleeper.skipSleepCycle();
     // If we are a backup master, we need to interrupt wait
     if (this.activeMasterManager != null) {
       synchronized (this.activeMasterManager.clusterHasActiveMaster) {
         this.activeMasterManager.clusterHasActiveMaster.notifyAll();
       }
     }
     // If no region server is online then master may stuck waiting on .META. to come on line.
     // See HBASE-8422.
     if (this.catalogTracker != null && this.serverManager.getOnlineServers().isEmpty()) {
       this.catalogTracker.stop();
     }
   }
 
   @Override
   public boolean isStopped() {
     return this.stopped;
   }
 
   public boolean isAborted() {
     return this.abort;
   }
 
   void checkInitialized() throws PleaseHoldException {
     if (!this.initialized) {
       throw new PleaseHoldException("Master is initializing");
     }
   }
 
   /**
    * Report whether this master is currently the active master or not.
    * If not active master, we are parked on ZK waiting to become active.
    *
    * This method is used for testing.
    *
    * @return true if active master, false if not.
    */
   public boolean isActiveMaster() {
     return isActiveMaster;
   }
 
   /**
    * Report whether this master has completed with its initialization and is
    * ready.  If ready, the master is also the active master.  A standby master
    * is never ready.
    *
    * This method is used for testing.
    *
    * @return true if master is ready to go, false if not.
    */
   public boolean isInitialized() {
     return initialized;
   }
 
   /**
    * ServerShutdownHandlerEnabled is set false before completing
    * assignMeta to prevent processing of ServerShutdownHandler.
    * @return true if assignMeta has completed;
    */
   public boolean isServerShutdownHandlerEnabled() {
     return this.serverShutdownHandlerEnabled;
   }
 
   /**
    * Report whether this master has started initialization and is about to do meta region assignment
    * @return true if master is in initialization & about to assign META regions
    */
   public boolean isInitializationStartsMetaRegionAssignment() {
     return this.initializationBeforeMetaAssignment;
   }
 
   @Override
   public AssignRegionResponse assignRegion(RpcController controller, AssignRegionRequest req)
   throws ServiceException {
     try {
       final byte [] regionName = req.getRegion().getValue().toByteArray();
       RegionSpecifierType type = req.getRegion().getType();
       AssignRegionResponse arr = AssignRegionResponse.newBuilder().build();
 
       checkInitialized();
       if (type != RegionSpecifierType.REGION_NAME) {
         LOG.warn("assignRegion specifier type: expected: " + RegionSpecifierType.REGION_NAME
           + " actual: " + type);
       }
       HRegionInfo regionInfo = assignmentManager.getRegionStates().getRegionInfo(regionName);
       if (regionInfo == null) throw new UnknownRegionException(Bytes.toString(regionName));
       if (cpHost != null) {
         if (cpHost.preAssign(regionInfo)) {
           return arr;
         }
       }
       assignmentManager.assign(regionInfo, true, true);
       if (cpHost != null) {
         cpHost.postAssign(regionInfo);
       }
 
       return arr;
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
   }
 
   public void assignRegion(HRegionInfo hri) {
     assignmentManager.assign(hri, true);
   }
 
   @Override
   public UnassignRegionResponse unassignRegion(RpcController controller, UnassignRegionRequest req)
   throws ServiceException {
     try {
       final byte [] regionName = req.getRegion().getValue().toByteArray();
       RegionSpecifierType type = req.getRegion().getType();
       final boolean force = req.getForce();
       UnassignRegionResponse urr = UnassignRegionResponse.newBuilder().build();
 
       checkInitialized();
       if (type != RegionSpecifierType.REGION_NAME) {
         LOG.warn("unassignRegion specifier type: expected: " + RegionSpecifierType.REGION_NAME
           + " actual: " + type);
       }
       Pair<HRegionInfo, ServerName> pair =
         MetaReader.getRegion(this.catalogTracker, regionName);
       if (pair == null) throw new UnknownRegionException(Bytes.toString(regionName));
       HRegionInfo hri = pair.getFirst();
       if (cpHost != null) {
         if (cpHost.preUnassign(hri, force)) {
           return urr;
         }
       }
       LOG.debug("Close region " + hri.getRegionNameAsString()
           + " on current location if it is online and reassign.force=" + force);
       this.assignmentManager.unassign(hri, force);
       if (!this.assignmentManager.getRegionStates().isRegionInTransition(hri)
           && !this.assignmentManager.getRegionStates().isRegionAssigned(hri)) {
         LOG.debug("Region " + hri.getRegionNameAsString()
             + " is not online on any region server, reassigning it.");
         assignRegion(hri);
       }
       if (cpHost != null) {
         cpHost.postUnassign(hri, force);
       }
 
       return urr;
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
   }
 
   /**
    * Get list of TableDescriptors for requested tables.
    * @param controller Unused (set to null).
    * @param req GetTableDescriptorsRequest that contains:
    * - tableNames: requested tables, or if empty, all are requested
    * @return GetTableDescriptorsResponse
    * @throws ServiceException
    */
   public GetTableDescriptorsResponse getTableDescriptors(
 	      RpcController controller, GetTableDescriptorsRequest req) throws ServiceException {
     GetTableDescriptorsResponse.Builder builder = GetTableDescriptorsResponse.newBuilder();
     if (req.getTableNamesCount() == 0) {
       // request for all TableDescriptors
       Map<String, HTableDescriptor> descriptors = null;
       try {
         descriptors = this.tableDescriptors.getAll();
       } catch (IOException e) {
           LOG.warn("Failed getting all descriptors", e);
       }
       if (descriptors != null) {
         for (HTableDescriptor htd : descriptors.values()) {
           builder.addTableSchema(htd.convert());
         }
       }
     }
     else {
       for (String s: req.getTableNamesList()) {
         HTableDescriptor htd = null;
         try {
           htd = this.tableDescriptors.get(s);
         } catch (IOException e) {
           LOG.warn("Failed getting descriptor for " + s, e);
         }
         if (htd == null) continue;
         builder.addTableSchema(htd.convert());
       }
     }
     return builder.build();
   }
 
   /**
    * Compute the average load across all region servers.
    * Currently, this uses a very naive computation - just uses the number of
    * regions being served, ignoring stats about number of requests.
    * @return the average load
    */
   public double getAverageLoad() {
     if (this.assignmentManager == null) {
       return 0;
     }
 
     RegionStates regionStates = this.assignmentManager.getRegionStates();
     if (regionStates == null) {
       return 0;
     }
     return regionStates.getAverageLoad();
   }
 
   /**
    * Offline specified region from master's in-memory state. It will not attempt to
    * reassign the region as in unassign.
    *
    * This is a special method that should be used by experts or hbck.
    *
    */
   @Override
   public OfflineRegionResponse offlineRegion(RpcController controller, OfflineRegionRequest request)
   throws ServiceException {
     final byte [] regionName = request.getRegion().getValue().toByteArray();
     RegionSpecifierType type = request.getRegion().getType();
     if (type != RegionSpecifierType.REGION_NAME) {
       LOG.warn("moveRegion specifier type: expected: " + RegionSpecifierType.REGION_NAME
         + " actual: " + type);
     }
 
     try {
       Pair<HRegionInfo, ServerName> pair =
         MetaReader.getRegion(this.catalogTracker, regionName);
       if (pair == null) throw new UnknownRegionException(Bytes.toStringBinary(regionName));
       HRegionInfo hri = pair.getFirst();
       if (cpHost != null) {
         cpHost.preRegionOffline(hri);
       }
       this.assignmentManager.regionOffline(hri);
       if (cpHost != null) {
         cpHost.postRegionOffline(hri);
       }
     } catch (IOException ioe) {
       throw new ServiceException(ioe);
     }
     return OfflineRegionResponse.newBuilder().build();
   }
 
   @Override
   public boolean registerService(Service instance) {
     /*
      * No stacking of instances is allowed for a single service name
      */
     Descriptors.ServiceDescriptor serviceDesc = instance.getDescriptorForType();
     if (coprocessorServiceHandlers.containsKey(serviceDesc.getFullName())) {
       LOG.error("Coprocessor service "+serviceDesc.getFullName()+
           " already registered, rejecting request from "+instance
       );
       return false;
     }
 
     coprocessorServiceHandlers.put(serviceDesc.getFullName(), instance);
     if (LOG.isDebugEnabled()) {
       LOG.debug("Registered master coprocessor service: service="+serviceDesc.getFullName());
     }
     return true;
   }
 
   @Override
   public ClientProtos.CoprocessorServiceResponse execMasterService(final RpcController controller,
       final ClientProtos.CoprocessorServiceRequest request) throws ServiceException {
     try {
       ServerRpcController execController = new ServerRpcController();
 
       ClientProtos.CoprocessorServiceCall call = request.getCall();
       String serviceName = call.getServiceName();
       String methodName = call.getMethodName();
       if (!coprocessorServiceHandlers.containsKey(serviceName)) {
         throw new UnknownProtocolException(null,
             "No registered master coprocessor service found for name "+serviceName);
       }
 
       Service service = coprocessorServiceHandlers.get(serviceName);
       Descriptors.ServiceDescriptor serviceDesc = service.getDescriptorForType();
       Descriptors.MethodDescriptor methodDesc = serviceDesc.findMethodByName(methodName);
       if (methodDesc == null) {
         throw new UnknownProtocolException(service.getClass(),
             "Unknown method "+methodName+" called on master service "+serviceName);
       }
 
       //invoke the method
       Message execRequest = service.getRequestPrototype(methodDesc).newBuilderForType()
           .mergeFrom(call.getRequest()).build();
       final Message.Builder responseBuilder =
           service.getResponsePrototype(methodDesc).newBuilderForType();
       service.callMethod(methodDesc, execController, execRequest, new RpcCallback<Message>() {
         @Override
         public void run(Message message) {
           if (message != null) {
             responseBuilder.mergeFrom(message);
           }
         }
       });
       Message execResult = responseBuilder.build();
 
       if (execController.getFailedOn() != null) {
         throw execController.getFailedOn();
       }
       ClientProtos.CoprocessorServiceResponse.Builder builder =
           ClientProtos.CoprocessorServiceResponse.newBuilder();
       builder.setRegion(RequestConverter.buildRegionSpecifier(
           RegionSpecifierType.REGION_NAME, HConstants.EMPTY_BYTE_ARRAY));
       builder.setValue(
           builder.getValueBuilder().setName(execResult.getClass().getName())
               .setValue(execResult.toByteString()));
       return builder.build();
     } catch (IOException ie) {
       throw new ServiceException(ie);
     }
   }
 
   /**
    * Utility for constructing an instance of the passed HMaster class.
    * @param masterClass
    * @param conf
    * @return HMaster instance.
    */
   public static HMaster constructMaster(Class<? extends HMaster> masterClass,
       final Configuration conf)  {
     try {
       Constructor<? extends HMaster> c =
         masterClass.getConstructor(Configuration.class);
       return c.newInstance(conf);
     } catch (InvocationTargetException ite) {
       Throwable target = ite.getTargetException() != null?
         ite.getTargetException(): ite;
       if (target.getCause() != null) target = target.getCause();
       throw new RuntimeException("Failed construction of Master: " +
         masterClass.toString(), target);
     } catch (Exception e) {
       throw new RuntimeException("Failed construction of Master: " +
         masterClass.toString() + ((e.getCause() != null)?
           e.getCause().getMessage(): ""), e);
     }
   }
 
   /**
    * @see org.apache.hadoop.hbase.master.HMasterCommandLine
    */
   public static void main(String [] args) {
     VersionInfo.logVersion();
     new HMasterCommandLine(HMaster.class).doMain(args);
   }
 
   public HFileCleaner getHFileCleaner() {
     return this.hfileCleaner;
   }
 
   /**
    * Exposed for TESTING!
    * @return the underlying snapshot manager
    */
   public SnapshotManager getSnapshotManagerForTesting() {
     return this.snapshotManager;
   }
 
   /**
    * Triggers an asynchronous attempt to take a snapshot.
    * {@inheritDoc}
    */
   @Override
   public TakeSnapshotResponse snapshot(RpcController controller, TakeSnapshotRequest request)
       throws ServiceException {
     try {
       this.snapshotManager.checkSnapshotSupport();
     } catch (UnsupportedOperationException e) {
       throw new ServiceException(e);
     }
 
     LOG.debug("Submitting snapshot request for:" +
         ClientSnapshotDescriptionUtils.toString(request.getSnapshot()));
     // get the snapshot information
     SnapshotDescription snapshot = SnapshotDescriptionUtils.validate(request.getSnapshot(),
       this.conf);
     try {
       snapshotManager.takeSnapshot(snapshot);
     } catch (IOException e) {
       throw new ServiceException(e);
     }
 
     // send back the max amount of time the client should wait for the snapshot to complete
     long waitTime = SnapshotDescriptionUtils.getMaxMasterTimeout(conf, snapshot.getType(),
       SnapshotDescriptionUtils.DEFAULT_MAX_WAIT_TIME);
     return TakeSnapshotResponse.newBuilder().setExpectedTimeout(waitTime).build();
   }
 
   /**
    * List the currently available/stored snapshots. Any in-progress snapshots are ignored
    */
   @Override
   public ListSnapshotResponse getCompletedSnapshots(RpcController controller,
       ListSnapshotRequest request) throws ServiceException {
     try {
       ListSnapshotResponse.Builder builder = ListSnapshotResponse.newBuilder();
       List<SnapshotDescription> snapshots = snapshotManager.getCompletedSnapshots();
 
       // convert to protobuf
       for (SnapshotDescription snapshot : snapshots) {
         builder.addSnapshots(snapshot);
       }
       return builder.build();
     } catch (IOException e) {
       throw new ServiceException(e);
     }
   }
 
   /**
    * Execute Delete Snapshot operation.
    * @return DeleteSnapshotResponse (a protobuf wrapped void) if the snapshot existed and was
    *    deleted properly.
    * @throws ServiceException wrapping SnapshotDoesNotExistException if specified snapshot did not
    *    exist.
    */
   @Override
   public DeleteSnapshotResponse deleteSnapshot(RpcController controller,
       DeleteSnapshotRequest request) throws ServiceException {
     try {
       this.snapshotManager.checkSnapshotSupport();
     } catch (UnsupportedOperationException e) {
       throw new ServiceException(e);
     }
 
     try {
       snapshotManager.deleteSnapshot(request.getSnapshot());
       return DeleteSnapshotResponse.newBuilder().build();
     } catch (IOException e) {
       throw new ServiceException(e);
     }
   }
 
   /**
    * Checks if the specified snapshot is done.
    * @return true if the snapshot is in file system ready to use,
    *   false if the snapshot is in the process of completing
    * @throws ServiceException wrapping UnknownSnapshotException if invalid snapshot, or
    *  a wrapped HBaseSnapshotException with progress failure reason.
    */
   @Override
   public IsSnapshotDoneResponse isSnapshotDone(RpcController controller,
       IsSnapshotDoneRequest request) throws ServiceException {
     LOG.debug("Checking to see if snapshot from request:" +
         ClientSnapshotDescriptionUtils.toString(request.getSnapshot()) + " is done");
     try {
       IsSnapshotDoneResponse.Builder builder = IsSnapshotDoneResponse.newBuilder();
       boolean done = snapshotManager.isSnapshotDone(request.getSnapshot());
       builder.setDone(done);
       return builder.build();
     } catch (IOException e) {
       throw new ServiceException(e);
     }
   }
 
   /**
    * Execute Restore/Clone snapshot operation.
    *
    * <p>If the specified table exists a "Restore" is executed, replacing the table
    * schema and directory data with the content of the snapshot.
    * The table must be disabled, or a UnsupportedOperationException will be thrown.
    *
    * <p>If the table doesn't exist a "Clone" is executed, a new table is created
    * using the schema at the time of the snapshot, and the content of the snapshot.
    *
    * <p>The restore/clone operation does not require copying HFiles. Since HFiles
    * are immutable the table can point to and use the same files as the original one.
    */
   @Override
   public RestoreSnapshotResponse restoreSnapshot(RpcController controller,
       RestoreSnapshotRequest request) throws ServiceException {
     try {
       this.snapshotManager.checkSnapshotSupport();
     } catch (UnsupportedOperationException e) {
       throw new ServiceException(e);
     }
 
     try {
       SnapshotDescription reqSnapshot = request.getSnapshot();
       snapshotManager.restoreSnapshot(reqSnapshot);
       return RestoreSnapshotResponse.newBuilder().build();
     } catch (IOException e) {
       throw new ServiceException(e);
     }
   }
 
   /**
    * Returns the status of the requested snapshot restore/clone operation.
    * This method is not exposed to the user, it is just used internally by HBaseAdmin
    * to verify if the restore is completed.
    *
    * No exceptions are thrown if the restore is not running, the result will be "done".
    *
    * @return done <tt>true</tt> if the restore/clone operation is completed.
    * @throws ServiceException if the operation failed.
    */
   @Override
   public IsRestoreSnapshotDoneResponse isRestoreSnapshotDone(RpcController controller,
       IsRestoreSnapshotDoneRequest request) throws ServiceException {
     try {
       SnapshotDescription snapshot = request.getSnapshot();
       IsRestoreSnapshotDoneResponse.Builder builder = IsRestoreSnapshotDoneResponse.newBuilder();
       boolean done = snapshotManager.isRestoreDone(snapshot);
       builder.setDone(done);
       return builder.build();
     } catch (IOException e) {
       throw new ServiceException(e);
     }
   }
 
   private boolean isHealthCheckerConfigured() {
     String healthScriptLocation = this.conf.get(HConstants.HEALTH_SCRIPT_LOC);
     return org.apache.commons.lang.StringUtils.isNotBlank(healthScriptLocation);
   }
 
 }