001/*
002 * Licensed to the Apache Software Foundation (ASF) under one
003 * or more contributor license agreements.  See the NOTICE file
004 * distributed with this work for additional information
005 * regarding copyright ownership.  The ASF licenses this file
006 * to you under the Apache License, Version 2.0 (the
007 * "License"); you may not use this file except in compliance
008 * with the License.  You may obtain a copy of the License at
009 *
010 *     http://www.apache.org/licenses/LICENSE-2.0
011 *
012 * Unless required by applicable law or agreed to in writing, software
013 * distributed under the License is distributed on an "AS IS" BASIS,
014 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
015 * See the License for the specific language governing permissions and
016 * limitations under the License.
017 */
018package org.apache.hadoop.hbase.master;
019
020import static org.apache.hadoop.hbase.HConstants.DEFAULT_HBASE_SPLIT_COORDINATED_BY_ZK;
021import static org.apache.hadoop.hbase.HConstants.HBASE_MASTER_LOGCLEANER_PLUGINS;
022import static org.apache.hadoop.hbase.HConstants.HBASE_SPLIT_WAL_COORDINATED_BY_ZK;
023import static org.apache.hadoop.hbase.master.cleaner.HFileCleaner.CUSTOM_POOL_SIZE;
024import static org.apache.hadoop.hbase.util.DNS.MASTER_HOSTNAME_KEY;
025
026import com.google.errorprone.annotations.RestrictedApi;
027import io.opentelemetry.api.trace.Span;
028import io.opentelemetry.api.trace.StatusCode;
029import io.opentelemetry.context.Scope;
030import java.io.IOException;
031import java.io.InterruptedIOException;
032import java.lang.reflect.Constructor;
033import java.lang.reflect.InvocationTargetException;
034import java.net.InetAddress;
035import java.net.InetSocketAddress;
036import java.net.UnknownHostException;
037import java.time.Instant;
038import java.time.ZoneId;
039import java.time.format.DateTimeFormatter;
040import java.util.ArrayList;
041import java.util.Arrays;
042import java.util.Collection;
043import java.util.Collections;
044import java.util.Comparator;
045import java.util.EnumSet;
046import java.util.HashMap;
047import java.util.HashSet;
048import java.util.Iterator;
049import java.util.LinkedList;
050import java.util.List;
051import java.util.Map;
052import java.util.Objects;
053import java.util.Optional;
054import java.util.Set;
055import java.util.concurrent.ExecutionException;
056import java.util.concurrent.Future;
057import java.util.concurrent.Semaphore;
058import java.util.concurrent.TimeUnit;
059import java.util.concurrent.TimeoutException;
060import java.util.concurrent.atomic.AtomicInteger;
061import java.util.regex.Pattern;
062import java.util.stream.Collectors;
063import javax.servlet.http.HttpServlet;
064import org.apache.commons.lang3.StringUtils;
065import org.apache.hadoop.conf.Configuration;
066import org.apache.hadoop.fs.FSDataInputStream;
067import org.apache.hadoop.fs.FSDataOutputStream;
068import org.apache.hadoop.fs.Path;
069import org.apache.hadoop.hbase.CatalogFamilyFormat;
070import org.apache.hadoop.hbase.Cell;
071import org.apache.hadoop.hbase.CellBuilderFactory;
072import org.apache.hadoop.hbase.CellBuilderType;
073import org.apache.hadoop.hbase.ClusterId;
074import org.apache.hadoop.hbase.ClusterMetrics;
075import org.apache.hadoop.hbase.ClusterMetrics.Option;
076import org.apache.hadoop.hbase.ClusterMetricsBuilder;
077import org.apache.hadoop.hbase.DoNotRetryIOException;
078import org.apache.hadoop.hbase.HBaseIOException;
079import org.apache.hadoop.hbase.HBaseInterfaceAudience;
080import org.apache.hadoop.hbase.HBaseServerBase;
081import org.apache.hadoop.hbase.HConstants;
082import org.apache.hadoop.hbase.HRegionLocation;
083import org.apache.hadoop.hbase.InvalidFamilyOperationException;
084import org.apache.hadoop.hbase.MasterNotRunningException;
085import org.apache.hadoop.hbase.MetaTableAccessor;
086import org.apache.hadoop.hbase.NamespaceDescriptor;
087import org.apache.hadoop.hbase.NamespaceNotFoundException;
088import org.apache.hadoop.hbase.PleaseHoldException;
089import org.apache.hadoop.hbase.PleaseRestartMasterException;
090import org.apache.hadoop.hbase.RegionMetrics;
091import org.apache.hadoop.hbase.ReplicationPeerNotFoundException;
092import org.apache.hadoop.hbase.ScheduledChore;
093import org.apache.hadoop.hbase.ServerMetrics;
094import org.apache.hadoop.hbase.ServerName;
095import org.apache.hadoop.hbase.ServerTask;
096import org.apache.hadoop.hbase.ServerTaskBuilder;
097import org.apache.hadoop.hbase.TableName;
098import org.apache.hadoop.hbase.TableNotDisabledException;
099import org.apache.hadoop.hbase.TableNotFoundException;
100import org.apache.hadoop.hbase.UnknownRegionException;
101import org.apache.hadoop.hbase.client.BalanceRequest;
102import org.apache.hadoop.hbase.client.BalanceResponse;
103import org.apache.hadoop.hbase.client.ColumnFamilyDescriptor;
104import org.apache.hadoop.hbase.client.CompactionState;
105import org.apache.hadoop.hbase.client.MasterSwitchType;
106import org.apache.hadoop.hbase.client.NormalizeTableFilterParams;
107import org.apache.hadoop.hbase.client.Put;
108import org.apache.hadoop.hbase.client.RegionInfo;
109import org.apache.hadoop.hbase.client.RegionInfoBuilder;
110import org.apache.hadoop.hbase.client.RegionStatesCount;
111import org.apache.hadoop.hbase.client.ResultScanner;
112import org.apache.hadoop.hbase.client.Scan;
113import org.apache.hadoop.hbase.client.TableDescriptor;
114import org.apache.hadoop.hbase.client.TableDescriptorBuilder;
115import org.apache.hadoop.hbase.client.TableState;
116import org.apache.hadoop.hbase.coprocessor.CoprocessorHost;
117import org.apache.hadoop.hbase.exceptions.DeserializationException;
118import org.apache.hadoop.hbase.exceptions.MasterStoppedException;
119import org.apache.hadoop.hbase.executor.ExecutorType;
120import org.apache.hadoop.hbase.favored.FavoredNodesManager;
121import org.apache.hadoop.hbase.http.HttpServer;
122import org.apache.hadoop.hbase.http.InfoServer;
123import org.apache.hadoop.hbase.ipc.CoprocessorRpcUtils;
124import org.apache.hadoop.hbase.ipc.RpcServer;
125import org.apache.hadoop.hbase.ipc.ServerNotRunningYetException;
126import org.apache.hadoop.hbase.log.HBaseMarkers;
127import org.apache.hadoop.hbase.master.MasterRpcServices.BalanceSwitchMode;
128import org.apache.hadoop.hbase.master.assignment.AssignmentManager;
129import org.apache.hadoop.hbase.master.assignment.MergeTableRegionsProcedure;
130import org.apache.hadoop.hbase.master.assignment.RegionStateNode;
131import org.apache.hadoop.hbase.master.assignment.RegionStateStore;
132import org.apache.hadoop.hbase.master.assignment.RegionStates;
133import org.apache.hadoop.hbase.master.assignment.TransitRegionStateProcedure;
134import org.apache.hadoop.hbase.master.balancer.BalancerChore;
135import org.apache.hadoop.hbase.master.balancer.BaseLoadBalancer;
136import org.apache.hadoop.hbase.master.balancer.ClusterStatusChore;
137import org.apache.hadoop.hbase.master.balancer.LoadBalancerFactory;
138import org.apache.hadoop.hbase.master.balancer.LoadBalancerStateStore;
139import org.apache.hadoop.hbase.master.balancer.MaintenanceLoadBalancer;
140import org.apache.hadoop.hbase.master.cleaner.DirScanPool;
141import org.apache.hadoop.hbase.master.cleaner.HFileCleaner;
142import org.apache.hadoop.hbase.master.cleaner.LogCleaner;
143import org.apache.hadoop.hbase.master.cleaner.ReplicationBarrierCleaner;
144import org.apache.hadoop.hbase.master.cleaner.SnapshotCleanerChore;
145import org.apache.hadoop.hbase.master.hbck.HbckChore;
146import org.apache.hadoop.hbase.master.http.MasterDumpServlet;
147import org.apache.hadoop.hbase.master.http.MasterRedirectServlet;
148import org.apache.hadoop.hbase.master.http.MasterStatusServlet;
149import org.apache.hadoop.hbase.master.http.api_v1.ResourceConfigFactory;
150import org.apache.hadoop.hbase.master.http.hbck.HbckConfigFactory;
151import org.apache.hadoop.hbase.master.janitor.CatalogJanitor;
152import org.apache.hadoop.hbase.master.locking.LockManager;
153import org.apache.hadoop.hbase.master.migrate.RollingUpgradeChore;
154import org.apache.hadoop.hbase.master.normalizer.RegionNormalizerFactory;
155import org.apache.hadoop.hbase.master.normalizer.RegionNormalizerManager;
156import org.apache.hadoop.hbase.master.normalizer.RegionNormalizerStateStore;
157import org.apache.hadoop.hbase.master.procedure.CreateTableProcedure;
158import org.apache.hadoop.hbase.master.procedure.DeleteNamespaceProcedure;
159import org.apache.hadoop.hbase.master.procedure.DeleteTableProcedure;
160import org.apache.hadoop.hbase.master.procedure.DisableTableProcedure;
161import org.apache.hadoop.hbase.master.procedure.EnableTableProcedure;
162import org.apache.hadoop.hbase.master.procedure.FlushTableProcedure;
163import org.apache.hadoop.hbase.master.procedure.InitMetaProcedure;
164import org.apache.hadoop.hbase.master.procedure.LogRollProcedure;
165import org.apache.hadoop.hbase.master.procedure.MasterProcedureConstants;
166import org.apache.hadoop.hbase.master.procedure.MasterProcedureEnv;
167import org.apache.hadoop.hbase.master.procedure.MasterProcedureScheduler;
168import org.apache.hadoop.hbase.master.procedure.MasterProcedureUtil;
169import org.apache.hadoop.hbase.master.procedure.MasterProcedureUtil.NonceProcedureRunnable;
170import org.apache.hadoop.hbase.master.procedure.ModifyTableProcedure;
171import org.apache.hadoop.hbase.master.procedure.ProcedurePrepareLatch;
172import org.apache.hadoop.hbase.master.procedure.ProcedureSyncWait;
173import org.apache.hadoop.hbase.master.procedure.RSProcedureDispatcher;
174import org.apache.hadoop.hbase.master.procedure.RefreshHFilesTableProcedure;
175import org.apache.hadoop.hbase.master.procedure.RefreshMetaProcedure;
176import org.apache.hadoop.hbase.master.procedure.ReloadQuotasProcedure;
177import org.apache.hadoop.hbase.master.procedure.ReopenTableRegionsProcedure;
178import org.apache.hadoop.hbase.master.procedure.ServerCrashProcedure;
179import org.apache.hadoop.hbase.master.procedure.TruncateRegionProcedure;
180import org.apache.hadoop.hbase.master.procedure.TruncateTableProcedure;
181import org.apache.hadoop.hbase.master.region.MasterRegion;
182import org.apache.hadoop.hbase.master.region.MasterRegionFactory;
183import org.apache.hadoop.hbase.master.replication.AbstractPeerProcedure;
184import org.apache.hadoop.hbase.master.replication.AddPeerProcedure;
185import org.apache.hadoop.hbase.master.replication.DisablePeerProcedure;
186import org.apache.hadoop.hbase.master.replication.EnablePeerProcedure;
187import org.apache.hadoop.hbase.master.replication.MigrateReplicationQueueFromZkToTableProcedure;
188import org.apache.hadoop.hbase.master.replication.RemovePeerProcedure;
189import org.apache.hadoop.hbase.master.replication.ReplicationPeerManager;
190import org.apache.hadoop.hbase.master.replication.ReplicationPeerModificationStateStore;
191import org.apache.hadoop.hbase.master.replication.SyncReplicationReplayWALManager;
192import org.apache.hadoop.hbase.master.replication.TransitPeerSyncReplicationStateProcedure;
193import org.apache.hadoop.hbase.master.replication.UpdatePeerConfigProcedure;
194import org.apache.hadoop.hbase.master.slowlog.SlowLogMasterService;
195import org.apache.hadoop.hbase.master.snapshot.SnapshotCleanupStateStore;
196import org.apache.hadoop.hbase.master.snapshot.SnapshotManager;
197import org.apache.hadoop.hbase.master.waleventtracker.WALEventTrackerTableCreator;
198import org.apache.hadoop.hbase.master.zksyncer.MasterAddressSyncer;
199import org.apache.hadoop.hbase.master.zksyncer.MetaLocationSyncer;
200import org.apache.hadoop.hbase.mob.MobFileCleanerChore;
201import org.apache.hadoop.hbase.mob.MobFileCompactionChore;
202import org.apache.hadoop.hbase.monitoring.MemoryBoundedLogMessageBuffer;
203import org.apache.hadoop.hbase.monitoring.MonitoredTask;
204import org.apache.hadoop.hbase.monitoring.TaskGroup;
205import org.apache.hadoop.hbase.monitoring.TaskMonitor;
206import org.apache.hadoop.hbase.namequeues.NamedQueueRecorder;
207import org.apache.hadoop.hbase.procedure.MasterProcedureManagerHost;
208import org.apache.hadoop.hbase.procedure.flush.MasterFlushTableProcedureManager;
209import org.apache.hadoop.hbase.procedure2.LockedResource;
210import org.apache.hadoop.hbase.procedure2.Procedure;
211import org.apache.hadoop.hbase.procedure2.ProcedureEvent;
212import org.apache.hadoop.hbase.procedure2.ProcedureExecutor;
213import org.apache.hadoop.hbase.procedure2.RemoteProcedureDispatcher.RemoteProcedure;
214import org.apache.hadoop.hbase.procedure2.RemoteProcedureException;
215import org.apache.hadoop.hbase.procedure2.store.ProcedureStore;
216import org.apache.hadoop.hbase.procedure2.store.ProcedureStore.ProcedureStoreListener;
217import org.apache.hadoop.hbase.procedure2.store.region.RegionProcedureStore;
218import org.apache.hadoop.hbase.quotas.MasterQuotaManager;
219import org.apache.hadoop.hbase.quotas.MasterQuotasObserver;
220import org.apache.hadoop.hbase.quotas.QuotaObserverChore;
221import org.apache.hadoop.hbase.quotas.QuotaTableUtil;
222import org.apache.hadoop.hbase.quotas.QuotaUtil;
223import org.apache.hadoop.hbase.quotas.SnapshotQuotaObserverChore;
224import org.apache.hadoop.hbase.quotas.SpaceQuotaSnapshot;
225import org.apache.hadoop.hbase.quotas.SpaceQuotaSnapshot.SpaceQuotaStatus;
226import org.apache.hadoop.hbase.quotas.SpaceQuotaSnapshotNotifier;
227import org.apache.hadoop.hbase.quotas.SpaceQuotaSnapshotNotifierFactory;
228import org.apache.hadoop.hbase.quotas.SpaceViolationPolicy;
229import org.apache.hadoop.hbase.regionserver.HRegionServer;
230import org.apache.hadoop.hbase.regionserver.NoSuchColumnFamilyException;
231import org.apache.hadoop.hbase.regionserver.storefiletracker.ModifyColumnFamilyStoreFileTrackerProcedure;
232import org.apache.hadoop.hbase.regionserver.storefiletracker.ModifyTableStoreFileTrackerProcedure;
233import org.apache.hadoop.hbase.replication.ReplicationException;
234import org.apache.hadoop.hbase.replication.ReplicationLoadSource;
235import org.apache.hadoop.hbase.replication.ReplicationPeerConfig;
236import org.apache.hadoop.hbase.replication.ReplicationPeerDescription;
237import org.apache.hadoop.hbase.replication.ReplicationUtils;
238import org.apache.hadoop.hbase.replication.SyncReplicationState;
239import org.apache.hadoop.hbase.replication.ZKReplicationQueueStorageForMigration;
240import org.apache.hadoop.hbase.replication.master.ReplicationHFileCleaner;
241import org.apache.hadoop.hbase.replication.master.ReplicationLogCleaner;
242import org.apache.hadoop.hbase.replication.master.ReplicationLogCleanerBarrier;
243import org.apache.hadoop.hbase.replication.master.ReplicationSinkTrackerTableCreator;
244import org.apache.hadoop.hbase.replication.regionserver.ReplicationSyncUp;
245import org.apache.hadoop.hbase.replication.regionserver.ReplicationSyncUp.ReplicationSyncUpToolInfo;
246import org.apache.hadoop.hbase.rsgroup.RSGroupAdminEndpoint;
247import org.apache.hadoop.hbase.rsgroup.RSGroupBasedLoadBalancer;
248import org.apache.hadoop.hbase.rsgroup.RSGroupInfoManager;
249import org.apache.hadoop.hbase.rsgroup.RSGroupUtil;
250import org.apache.hadoop.hbase.security.AccessDeniedException;
251import org.apache.hadoop.hbase.security.SecurityConstants;
252import org.apache.hadoop.hbase.security.Superusers;
253import org.apache.hadoop.hbase.security.UserProvider;
254import org.apache.hadoop.hbase.security.access.AbstractReadOnlyController;
255import org.apache.hadoop.hbase.trace.TraceUtil;
256import org.apache.hadoop.hbase.util.Addressing;
257import org.apache.hadoop.hbase.util.Bytes;
258import org.apache.hadoop.hbase.util.CommonFSUtils;
259import org.apache.hadoop.hbase.util.ConfigurationUtil;
260import org.apache.hadoop.hbase.util.CoprocessorConfigurationUtil;
261import org.apache.hadoop.hbase.util.DNS;
262import org.apache.hadoop.hbase.util.EnvironmentEdgeManager;
263import org.apache.hadoop.hbase.util.FSTableDescriptors;
264import org.apache.hadoop.hbase.util.FutureUtils;
265import org.apache.hadoop.hbase.util.HBaseFsck;
266import org.apache.hadoop.hbase.util.HFileArchiveUtil;
267import org.apache.hadoop.hbase.util.IdLock;
268import org.apache.hadoop.hbase.util.JVMClusterUtil;
269import org.apache.hadoop.hbase.util.JsonMapper;
270import org.apache.hadoop.hbase.util.ModifyRegionUtils;
271import org.apache.hadoop.hbase.util.Pair;
272import org.apache.hadoop.hbase.util.ReflectionUtils;
273import org.apache.hadoop.hbase.util.RetryCounter;
274import org.apache.hadoop.hbase.util.RetryCounterFactory;
275import org.apache.hadoop.hbase.util.TableDescriptorChecker;
276import org.apache.hadoop.hbase.util.Threads;
277import org.apache.hadoop.hbase.util.VersionInfo;
278import org.apache.hadoop.hbase.zookeeper.MasterAddressTracker;
279import org.apache.hadoop.hbase.zookeeper.MetaTableLocator;
280import org.apache.hadoop.hbase.zookeeper.ZKClusterId;
281import org.apache.hadoop.hbase.zookeeper.ZKUtil;
282import org.apache.hadoop.hbase.zookeeper.ZKWatcher;
283import org.apache.hadoop.hbase.zookeeper.ZNodePaths;
284import org.apache.yetus.audience.InterfaceAudience;
285import org.apache.zookeeper.KeeperException;
286import org.slf4j.Logger;
287import org.slf4j.LoggerFactory;
288
289import org.apache.hbase.thirdparty.com.google.common.collect.Lists;
290import org.apache.hbase.thirdparty.com.google.common.collect.Maps;
291import org.apache.hbase.thirdparty.com.google.common.collect.Sets;
292import org.apache.hbase.thirdparty.com.google.common.io.ByteStreams;
293import org.apache.hbase.thirdparty.com.google.common.io.Closeables;
294import org.apache.hbase.thirdparty.com.google.gson.JsonParseException;
295import org.apache.hbase.thirdparty.com.google.protobuf.Descriptors;
296import org.apache.hbase.thirdparty.com.google.protobuf.Service;
297import org.apache.hbase.thirdparty.org.eclipse.jetty.ee8.servlet.ServletHolder;
298import org.apache.hbase.thirdparty.org.eclipse.jetty.ee8.webapp.WebAppContext;
299import org.apache.hbase.thirdparty.org.eclipse.jetty.server.Server;
300import org.apache.hbase.thirdparty.org.eclipse.jetty.server.ServerConnector;
301import org.apache.hbase.thirdparty.org.glassfish.jersey.server.ResourceConfig;
302import org.apache.hbase.thirdparty.org.glassfish.jersey.servlet.ServletContainer;
303
304import org.apache.hadoop.hbase.shaded.protobuf.RequestConverter;
305import org.apache.hadoop.hbase.shaded.protobuf.generated.AdminProtos.GetRegionInfoResponse;
306import org.apache.hadoop.hbase.shaded.protobuf.generated.SnapshotProtos.SnapshotDescription;
307
308/**
309 * HMaster is the "master server" for HBase. An HBase cluster has one active master. If many masters
310 * are started, all compete. Whichever wins goes on to run the cluster. All others park themselves
311 * in their constructor until master or cluster shutdown or until the active master loses its lease
312 * in zookeeper. Thereafter, all running master jostle to take over master role.
313 * <p/>
314 * The Master can be asked shutdown the cluster. See {@link #shutdown()}. In this case it will tell
315 * all regionservers to go down and then wait on them all reporting in that they are down. This
316 * master will then shut itself down.
317 * <p/>
318 * You can also shutdown just this master. Call {@link #stopMaster()}.
319 * @see org.apache.zookeeper.Watcher
320 */
321@InterfaceAudience.LimitedPrivate(HBaseInterfaceAudience.TOOLS)
322public class HMaster extends HBaseServerBase<MasterRpcServices> implements MasterServices {
323
324  private static final Logger LOG = LoggerFactory.getLogger(HMaster.class);
325
326  // MASTER is name of the webapp and the attribute name used stuffing this
327  // instance into a web context !! AND OTHER PLACES !!
328  public static final String MASTER = "master";
329
330  // Manager and zk listener for master election
331  private final ActiveMasterManager activeMasterManager;
332  // Region server tracker
333  private final RegionServerTracker regionServerTracker;
334  // Draining region server tracker
335  private DrainingServerTracker drainingServerTracker;
336  // Tracker for load balancer state
337  LoadBalancerStateStore loadBalancerStateStore;
338  // Tracker for meta location, if any client ZK quorum specified
339  private MetaLocationSyncer metaLocationSyncer;
340  // Tracker for active master location, if any client ZK quorum specified
341  @InterfaceAudience.Private
342  MasterAddressSyncer masterAddressSyncer;
343  // Tracker for auto snapshot cleanup state
344  SnapshotCleanupStateStore snapshotCleanupStateStore;
345
346  // Tracker for split and merge state
347  private SplitOrMergeStateStore splitOrMergeStateStore;
348
349  private ClusterSchemaService clusterSchemaService;
350
351  public static final String HBASE_MASTER_WAIT_ON_SERVICE_IN_SECONDS =
352    "hbase.master.wait.on.service.seconds";
353  public static final int DEFAULT_HBASE_MASTER_WAIT_ON_SERVICE_IN_SECONDS = 5 * 60;
354
355  public static final String HBASE_MASTER_CLEANER_INTERVAL = "hbase.master.cleaner.interval";
356
357  public static final int DEFAULT_HBASE_MASTER_CLEANER_INTERVAL = 600 * 1000;
358
359  private String clusterId;
360
361  // Metrics for the HMaster
362  final MetricsMaster metricsMaster;
363  // file system manager for the master FS operations
364  private MasterFileSystem fileSystemManager;
365  private MasterWalManager walManager;
366
367  // manager to manage procedure-based WAL splitting, can be null if current
368  // is zk-based WAL splitting. SplitWALManager will replace SplitLogManager
369  // and MasterWalManager, which means zk-based WAL splitting code will be
370  // useless after we switch to the procedure-based one. our eventual goal
371  // is to remove all the zk-based WAL splitting code.
372  private SplitWALManager splitWALManager;
373
374  // server manager to deal with region server info
375  private volatile ServerManager serverManager;
376
377  // manager of assignment nodes in zookeeper
378  private AssignmentManager assignmentManager;
379
380  private RSGroupInfoManager rsGroupInfoManager;
381
382  private final ReplicationLogCleanerBarrier replicationLogCleanerBarrier =
383    new ReplicationLogCleanerBarrier();
384
385  // Only allow to add one sync replication peer concurrently
386  private final Semaphore syncReplicationPeerLock = new Semaphore(1);
387
388  // manager of replication
389  private ReplicationPeerManager replicationPeerManager;
390
391  private SyncReplicationReplayWALManager syncReplicationReplayWALManager;
392
393  // buffer for "fatal error" notices from region servers
394  // in the cluster. This is only used for assisting
395  // operations/debugging.
396  MemoryBoundedLogMessageBuffer rsFatals;
397
398  // flag set after we become the active master (used for testing)
399  private volatile boolean activeMaster = false;
400
401  // flag set after we complete initialization once active
402  private final ProcedureEvent<?> initialized = new ProcedureEvent<>("master initialized");
403
404  // flag set after master services are started,
405  // initialization may have not completed yet.
406  volatile boolean serviceStarted = false;
407
408  // Maximum time we should run balancer for
409  private final int maxBalancingTime;
410  // Maximum percent of regions in transition when balancing
411  private final double maxRitPercent;
412
413  private final LockManager lockManager = new LockManager(this);
414
415  private RSGroupBasedLoadBalancer balancer;
416  private BalancerChore balancerChore;
417  private static boolean disableBalancerChoreForTest = false;
418  private RegionNormalizerManager regionNormalizerManager;
419  private ClusterStatusChore clusterStatusChore;
420  private ClusterStatusPublisher clusterStatusPublisherChore = null;
421  private SnapshotCleanerChore snapshotCleanerChore = null;
422
423  private HbckChore hbckChore;
424  CatalogJanitor catalogJanitorChore;
425  // Threadpool for scanning the Old logs directory, used by the LogCleaner
426  private DirScanPool logCleanerPool;
427  private LogCleaner logCleaner;
428  // HFile cleaners for the custom hfile archive paths and the default archive path
429  // The archive path cleaner is the first element
430  private List<HFileCleaner> hfileCleaners = new ArrayList<>();
431  // The hfile cleaner paths, including custom paths and the default archive path
432  private List<Path> hfileCleanerPaths = new ArrayList<>();
433  // The shared hfile cleaner pool for the custom archive paths
434  private DirScanPool sharedHFileCleanerPool;
435  // The exclusive hfile cleaner pool for scanning the archive directory
436  private DirScanPool exclusiveHFileCleanerPool;
437  private ReplicationBarrierCleaner replicationBarrierCleaner;
438  private MobFileCleanerChore mobFileCleanerChore;
439  private MobFileCompactionChore mobFileCompactionChore;
440  private RollingUpgradeChore rollingUpgradeChore;
441  // used to synchronize the mobCompactionStates
442  private final IdLock mobCompactionLock = new IdLock();
443  // save the information of mob compactions in tables.
444  // the key is table name, the value is the number of compactions in that table.
445  private Map<TableName, AtomicInteger> mobCompactionStates = Maps.newConcurrentMap();
446
447  volatile MasterCoprocessorHost cpHost;
448
449  private final boolean preLoadTableDescriptors;
450
451  // Time stamps for when a hmaster became active
452  private long masterActiveTime;
453
454  // Time stamp for when HMaster finishes becoming Active Master
455  private long masterFinishedInitializationTime;
456
457  Map<String, Service> coprocessorServiceHandlers = Maps.newHashMap();
458
459  // monitor for snapshot of hbase tables
460  SnapshotManager snapshotManager;
461  // monitor for distributed procedures
462  private MasterProcedureManagerHost mpmHost;
463
464  private RegionsRecoveryChore regionsRecoveryChore = null;
465
466  private RegionsRecoveryConfigManager regionsRecoveryConfigManager = null;
467  // it is assigned after 'initialized' guard set to true, so should be volatile
468  private volatile MasterQuotaManager quotaManager;
469  private SpaceQuotaSnapshotNotifier spaceQuotaSnapshotNotifier;
470  private QuotaObserverChore quotaObserverChore;
471  private SnapshotQuotaObserverChore snapshotQuotaChore;
472  private OldWALsDirSizeChore oldWALsDirSizeChore;
473
474  private ProcedureExecutor<MasterProcedureEnv> procedureExecutor;
475  private ProcedureStore procedureStore;
476
477  // the master local storage to store procedure data, meta region locations, etc.
478  private MasterRegion masterRegion;
479
480  private RegionServerList rsListStorage;
481
482  // handle table states
483  private TableStateManager tableStateManager;
484
485  /** jetty server for master to redirect requests to regionserver infoServer */
486  private Server masterJettyServer;
487
488  // Determine if we should do normal startup or minimal "single-user" mode with no region
489  // servers and no user tables. Useful for repair and recovery of hbase:meta
490  private final boolean maintenanceMode;
491  static final String MAINTENANCE_MODE = "hbase.master.maintenance_mode";
492
493  // the in process region server for carry system regions in maintenanceMode
494  private JVMClusterUtil.RegionServerThread maintenanceRegionServer;
495
496  // Cached clusterId on stand by masters to serve clusterID requests from clients.
497  private final CachedClusterId cachedClusterId;
498
499  public static final String WARMUP_BEFORE_MOVE = "hbase.master.warmup.before.move";
500  private static final boolean DEFAULT_WARMUP_BEFORE_MOVE = true;
501
502  /**
503   * Use RSProcedureDispatcher instance to initiate master -> rs remote procedure execution. Use
504   * this config to extend RSProcedureDispatcher (mainly for testing purpose).
505   */
506  public static final String HBASE_MASTER_RSPROC_DISPATCHER_CLASS =
507    "hbase.master.rsproc.dispatcher.class";
508  private static final String DEFAULT_HBASE_MASTER_RSPROC_DISPATCHER_CLASS =
509    RSProcedureDispatcher.class.getName();
510
511  private TaskGroup startupTaskGroup;
512
513  /**
514   * Store whether we allow replication peer modification operations.
515   */
516  private ReplicationPeerModificationStateStore replicationPeerModificationStateStore;
517
518  /**
519   * Initializes the HMaster. The steps are as follows:
520   * <p>
521   * <ol>
522   * <li>Initialize the local HRegionServer
523   * <li>Start the ActiveMasterManager.
524   * </ol>
525   * <p>
526   * Remaining steps of initialization occur in {@link #finishActiveMasterInitialization()} after
527   * the master becomes the active one.
528   */
529  public HMaster(final Configuration conf) throws IOException {
530    super(conf, "Master");
531    final Span span = TraceUtil.createSpan("HMaster.cxtor");
532    try (Scope ignored = span.makeCurrent()) {
533      if (conf.getBoolean(MAINTENANCE_MODE, false)) {
534        LOG.info("Detected {}=true via configuration.", MAINTENANCE_MODE);
535        maintenanceMode = true;
536      } else if (Boolean.getBoolean(MAINTENANCE_MODE)) {
537        LOG.info("Detected {}=true via environment variables.", MAINTENANCE_MODE);
538        maintenanceMode = true;
539      } else {
540        maintenanceMode = false;
541      }
542      this.rsFatals = new MemoryBoundedLogMessageBuffer(
543        conf.getLong("hbase.master.buffer.for.rs.fatals", 1 * 1024 * 1024));
544      LOG.info("hbase.rootdir={}, hbase.cluster.distributed={}",
545        CommonFSUtils.getRootDir(this.conf),
546        this.conf.getBoolean(HConstants.CLUSTER_DISTRIBUTED, false));
547
548      // Disable usage of meta replicas in the master
549      this.conf.setBoolean(HConstants.USE_META_REPLICAS, false);
550
551      decorateMasterConfiguration(this.conf);
552
553      // Hack! Maps DFSClient => Master for logs. HDFS made this
554      // config param for task trackers, but we can piggyback off of it.
555      if (this.conf.get("mapreduce.task.attempt.id") == null) {
556        this.conf.set("mapreduce.task.attempt.id", "hb_m_" + this.serverName.toString());
557      }
558
559      this.metricsMaster = new MetricsMaster(new MetricsMasterWrapperImpl(this));
560
561      // preload table descriptor at startup
562      this.preLoadTableDescriptors = conf.getBoolean("hbase.master.preload.tabledescriptors", true);
563
564      this.maxBalancingTime = getMaxBalancingTime();
565      this.maxRitPercent = conf.getDouble(HConstants.HBASE_MASTER_BALANCER_MAX_RIT_PERCENT,
566        HConstants.DEFAULT_HBASE_MASTER_BALANCER_MAX_RIT_PERCENT);
567
568      // Do we publish the status?
569      boolean shouldPublish =
570        conf.getBoolean(HConstants.STATUS_PUBLISHED, HConstants.STATUS_PUBLISHED_DEFAULT);
571      Class<? extends ClusterStatusPublisher.Publisher> publisherClass =
572        conf.getClass(ClusterStatusPublisher.STATUS_PUBLISHER_CLASS,
573          ClusterStatusPublisher.DEFAULT_STATUS_PUBLISHER_CLASS,
574          ClusterStatusPublisher.Publisher.class);
575
576      if (shouldPublish) {
577        if (publisherClass == null) {
578          LOG.warn(HConstants.STATUS_PUBLISHED + " is true, but "
579            + ClusterStatusPublisher.DEFAULT_STATUS_PUBLISHER_CLASS
580            + " is not set - not publishing status");
581        } else {
582          clusterStatusPublisherChore = new ClusterStatusPublisher(this, conf, publisherClass);
583          LOG.debug("Created {}", this.clusterStatusPublisherChore);
584          getChoreService().scheduleChore(clusterStatusPublisherChore);
585        }
586      }
587      this.activeMasterManager = createActiveMasterManager(zooKeeper, serverName, this);
588      cachedClusterId = new CachedClusterId(this, conf);
589      this.regionServerTracker = new RegionServerTracker(zooKeeper, this);
590      this.rpcServices.start(zooKeeper);
591      span.setStatus(StatusCode.OK);
592    } catch (Throwable t) {
593      // Make sure we log the exception. HMaster is often started via reflection and the
594      // cause of failed startup is lost.
595      TraceUtil.setError(span, t);
596      LOG.error("Failed construction of Master", t);
597      throw t;
598    } finally {
599      span.end();
600    }
601  }
602
603  /**
604   * Protected to have custom implementations in tests override the default ActiveMaster
605   * implementation.
606   */
607  protected ActiveMasterManager createActiveMasterManager(ZKWatcher zk, ServerName sn,
608    org.apache.hadoop.hbase.Server server) throws InterruptedIOException {
609    return new ActiveMasterManager(zk, sn, server);
610  }
611
612  @Override
613  protected String getUseThisHostnameInstead(Configuration conf) {
614    return conf.get(MASTER_HOSTNAME_KEY);
615  }
616
617  @Override
618  protected DNS.ServerType getDNSServerType() {
619    return DNS.ServerType.MASTER;
620  }
621
622  private void registerConfigurationObservers() {
623    configurationManager.registerObserver(this.rpcServices);
624    configurationManager.registerObserver(this);
625  }
626
627  // Main run loop. Calls through to the regionserver run loop AFTER becoming active Master; will
628  // block in here until then.
629  @Override
630  public void run() {
631    try {
632      installShutdownHook();
633      registerConfigurationObservers();
634      Threads.setDaemonThreadRunning(new Thread(TraceUtil.tracedRunnable(() -> {
635        try {
636          int infoPort = putUpJettyServer();
637          startActiveMasterManager(infoPort);
638        } catch (Throwable t) {
639          // Make sure we log the exception.
640          String error = "Failed to become Active Master";
641          LOG.error(error, t);
642          // Abort should have been called already.
643          if (!isAborted()) {
644            abort(error, t);
645          }
646        }
647      }, "HMaster.becomeActiveMaster")), getName() + ":becomeActiveMaster");
648      while (!isStopped() && !isAborted()) {
649        sleeper.sleep();
650      }
651      final Span span = TraceUtil.createSpan("HMaster exiting main loop");
652      try (Scope ignored = span.makeCurrent()) {
653        stopInfoServer();
654        closeClusterConnection();
655        stopServiceThreads();
656        if (this.rpcServices != null) {
657          this.rpcServices.stop();
658        }
659        closeZooKeeper();
660        closeTableDescriptors();
661        span.setStatus(StatusCode.OK);
662      } finally {
663        span.end();
664      }
665    } finally {
666      if (this.clusterSchemaService != null) {
667        // If on way out, then we are no longer active master.
668        this.clusterSchemaService.stopAsync();
669        try {
670          this.clusterSchemaService
671            .awaitTerminated(getConfiguration().getInt(HBASE_MASTER_WAIT_ON_SERVICE_IN_SECONDS,
672              DEFAULT_HBASE_MASTER_WAIT_ON_SERVICE_IN_SECONDS), TimeUnit.SECONDS);
673        } catch (TimeoutException te) {
674          LOG.warn("Failed shutdown of clusterSchemaService", te);
675        }
676      }
677      this.activeMaster = false;
678    }
679  }
680
681  // return the actual infoPort, -1 means disable info server.
682  private int putUpJettyServer() throws IOException {
683    if (!conf.getBoolean("hbase.master.infoserver.redirect", true)) {
684      return -1;
685    }
686    final int infoPort =
687      conf.getInt("hbase.master.info.port.orig", HConstants.DEFAULT_MASTER_INFOPORT);
688    // -1 is for disabling info server, so no redirecting
689    if (infoPort < 0 || infoServer == null) {
690      return -1;
691    }
692    if (infoPort == infoServer.getPort()) {
693      // server is already running
694      return infoPort;
695    }
696    final String addr = conf.get("hbase.master.info.bindAddress", "0.0.0.0");
697    if (!Addressing.isLocalAddress(InetAddress.getByName(addr))) {
698      String msg = "Failed to start redirecting jetty server. Address " + addr
699        + " does not belong to this host. Correct configuration parameter: "
700        + "hbase.master.info.bindAddress";
701      LOG.error(msg);
702      throw new IOException(msg);
703    }
704
705    // TODO I'm pretty sure we could just add another binding to the InfoServer run by
706    // the RegionServer and have it run the RedirectServlet instead of standing up
707    // a second entire stack here.
708    masterJettyServer = new Server();
709    final ServerConnector connector = new ServerConnector(masterJettyServer);
710    connector.setHost(addr);
711    connector.setPort(infoPort);
712    masterJettyServer.addConnector(connector);
713    masterJettyServer.setStopAtShutdown(true);
714    masterJettyServer.setHandler(HttpServer.buildGzipHandler(masterJettyServer.getHandler()));
715
716    final String redirectHostname =
717      StringUtils.isBlank(useThisHostnameInstead) ? null : useThisHostnameInstead;
718
719    final MasterRedirectServlet redirect = new MasterRedirectServlet(infoServer, redirectHostname);
720    final WebAppContext context =
721      new WebAppContext(null, "/", null, null, null, null, WebAppContext.NO_SESSIONS);
722    context.addServlet(new ServletHolder(redirect), "/*");
723    context.setServer(masterJettyServer);
724
725    try {
726      masterJettyServer.start();
727    } catch (Exception e) {
728      throw new IOException("Failed to start redirecting jetty server", e);
729    }
730    return connector.getLocalPort();
731  }
732
733  /**
734   * For compatibility, if failed with regionserver credentials, try the master one
735   */
736  @Override
737  protected void login(UserProvider user, String host) throws IOException {
738    try {
739      user.login(SecurityConstants.REGIONSERVER_KRB_KEYTAB_FILE,
740        SecurityConstants.REGIONSERVER_KRB_PRINCIPAL, host);
741    } catch (IOException ie) {
742      user.login(SecurityConstants.MASTER_KRB_KEYTAB_FILE, SecurityConstants.MASTER_KRB_PRINCIPAL,
743        host);
744    }
745  }
746
747  public MasterRpcServices getMasterRpcServices() {
748    return rpcServices;
749  }
750
751  @Override
752  protected MasterCoprocessorHost getCoprocessorHost() {
753    return getMasterCoprocessorHost();
754  }
755
756  public boolean balanceSwitch(final boolean b) throws IOException {
757    return getMasterRpcServices().switchBalancer(b, BalanceSwitchMode.ASYNC);
758  }
759
760  @Override
761  protected String getProcessName() {
762    return MASTER;
763  }
764
765  @Override
766  protected boolean canCreateBaseZNode() {
767    return true;
768  }
769
770  @Override
771  protected boolean canUpdateTableDescriptor() {
772    return true;
773  }
774
775  @Override
776  protected boolean cacheTableDescriptor() {
777    return true;
778  }
779
780  protected MasterRpcServices createRpcServices() throws IOException {
781    return new MasterRpcServices(this);
782  }
783
784  @Override
785  protected void configureInfoServer(InfoServer infoServer) {
786    infoServer.addUnprivilegedServlet("master-status", "/master-status", MasterStatusServlet.class);
787    infoServer.addUnprivilegedServlet("api_v1", "/api/v1/*", buildApiV1Servlet());
788    infoServer.addUnprivilegedServlet("hbck", "/hbck/*", buildHbckServlet());
789
790    infoServer.setAttribute(MASTER, this);
791  }
792
793  private ServletHolder buildApiV1Servlet() {
794    final ResourceConfig config = ResourceConfigFactory.createResourceConfig(conf, this);
795    return new ServletHolder(new ServletContainer(config));
796  }
797
798  private ServletHolder buildHbckServlet() {
799    final ResourceConfig config = HbckConfigFactory.createResourceConfig(conf, this);
800    return new ServletHolder(new ServletContainer(config));
801  }
802
803  @Override
804  protected Class<? extends HttpServlet> getDumpServlet() {
805    return MasterDumpServlet.class;
806  }
807
808  @Override
809  public MetricsMaster getMasterMetrics() {
810    return metricsMaster;
811  }
812
813  /**
814   * Initialize all ZK based system trackers. But do not include {@link RegionServerTracker}, it
815   * should have already been initialized along with {@link ServerManager}.
816   */
817  private void initializeZKBasedSystemTrackers()
818    throws IOException, KeeperException, ReplicationException, DeserializationException {
819    if (maintenanceMode) {
820      // in maintenance mode, always use MaintenanceLoadBalancer.
821      conf.unset(LoadBalancer.HBASE_RSGROUP_LOADBALANCER_CLASS);
822      conf.setClass(HConstants.HBASE_MASTER_LOADBALANCER_CLASS, MaintenanceLoadBalancer.class,
823        LoadBalancer.class);
824    }
825    this.balancer = new RSGroupBasedLoadBalancer();
826    this.loadBalancerStateStore = new LoadBalancerStateStore(masterRegion, zooKeeper);
827
828    this.regionNormalizerManager =
829      RegionNormalizerFactory.createNormalizerManager(conf, masterRegion, zooKeeper, this);
830    this.configurationManager.registerObserver(regionNormalizerManager);
831    this.regionNormalizerManager.start();
832
833    this.splitOrMergeStateStore = new SplitOrMergeStateStore(masterRegion, zooKeeper, conf);
834
835    // This is for backwards compatible. We do not need the CP for rs group now but if user want to
836    // load it, we need to enable rs group.
837    String[] cpClasses = conf.getStrings(MasterCoprocessorHost.MASTER_COPROCESSOR_CONF_KEY);
838    if (cpClasses != null) {
839      for (String cpClass : cpClasses) {
840        if (RSGroupAdminEndpoint.class.getName().equals(cpClass)) {
841          RSGroupUtil.enableRSGroup(conf);
842          break;
843        }
844      }
845    }
846    this.rsGroupInfoManager = RSGroupInfoManager.create(this);
847
848    this.replicationPeerManager = ReplicationPeerManager.create(this, clusterId);
849    this.configurationManager.registerObserver(replicationPeerManager);
850    this.replicationPeerModificationStateStore =
851      new ReplicationPeerModificationStateStore(masterRegion);
852
853    this.drainingServerTracker = new DrainingServerTracker(zooKeeper, this, this.serverManager);
854    this.drainingServerTracker.start();
855
856    this.snapshotCleanupStateStore = new SnapshotCleanupStateStore(masterRegion, zooKeeper);
857
858    String clientQuorumServers = conf.get(HConstants.CLIENT_ZOOKEEPER_QUORUM);
859    boolean clientZkObserverMode = conf.getBoolean(HConstants.CLIENT_ZOOKEEPER_OBSERVER_MODE,
860      HConstants.DEFAULT_CLIENT_ZOOKEEPER_OBSERVER_MODE);
861    if (clientQuorumServers != null && !clientZkObserverMode) {
862      // we need to take care of the ZK information synchronization
863      // if given client ZK are not observer nodes
864      ZKWatcher clientZkWatcher = new ZKWatcher(conf,
865        getProcessName() + ":" + rpcServices.getSocketAddress().getPort() + "-clientZK", this,
866        false, true);
867      this.metaLocationSyncer = new MetaLocationSyncer(zooKeeper, clientZkWatcher, this);
868      this.metaLocationSyncer.start();
869      this.masterAddressSyncer = new MasterAddressSyncer(zooKeeper, clientZkWatcher, this);
870      this.masterAddressSyncer.start();
871      // set cluster id is a one-go effort
872      ZKClusterId.setClusterId(clientZkWatcher, fileSystemManager.getClusterId());
873    }
874
875    // Set the cluster as up. If new RSs, they'll be waiting on this before
876    // going ahead with their startup.
877    boolean wasUp = this.clusterStatusTracker.isClusterUp();
878    if (!wasUp) this.clusterStatusTracker.setClusterUp();
879
880    LOG.info("Active/primary master=" + this.serverName + ", sessionid=0x"
881      + Long.toHexString(this.zooKeeper.getRecoverableZooKeeper().getSessionId())
882      + ", setting cluster-up flag (Was=" + wasUp + ")");
883
884    // create/initialize the snapshot manager and other procedure managers
885    this.snapshotManager = new SnapshotManager();
886    this.mpmHost = new MasterProcedureManagerHost();
887    this.mpmHost.register(this.snapshotManager);
888    this.mpmHost.register(new MasterFlushTableProcedureManager());
889    this.mpmHost.loadProcedures(conf);
890    this.mpmHost.initialize(this, this.metricsMaster);
891  }
892
893  // Will be overriden in test to inject customized AssignmentManager
894  @InterfaceAudience.Private
895  protected AssignmentManager createAssignmentManager(MasterServices master,
896    MasterRegion masterRegion) {
897    return new AssignmentManager(master, masterRegion);
898  }
899
900  private void tryMigrateMetaLocationsFromZooKeeper() throws IOException, KeeperException {
901    // try migrate data from zookeeper
902    try (ResultScanner scanner =
903      masterRegion.getScanner(new Scan().addFamily(HConstants.CATALOG_FAMILY))) {
904      if (scanner.next() != null) {
905        // notice that all replicas for a region are in the same row, so the migration can be
906        // done with in a one row put, which means if we have data in catalog family then we can
907        // make sure that the migration is done.
908        LOG.info("The {} family in master local region already has data in it, skip migrating...",
909          HConstants.CATALOG_FAMILY_STR);
910        return;
911      }
912    }
913    // start migrating
914    byte[] row = CatalogFamilyFormat.getMetaKeyForRegion(RegionInfoBuilder.FIRST_META_REGIONINFO);
915    Put put = new Put(row);
916    List<String> metaReplicaNodes = zooKeeper.getMetaReplicaNodes();
917    StringBuilder info = new StringBuilder("Migrating meta locations:");
918    for (String metaReplicaNode : metaReplicaNodes) {
919      int replicaId = zooKeeper.getZNodePaths().getMetaReplicaIdFromZNode(metaReplicaNode);
920      RegionState state = MetaTableLocator.getMetaRegionState(zooKeeper, replicaId);
921      info.append(" ").append(state);
922      put.setTimestamp(state.getStamp());
923      MetaTableAccessor.addRegionInfo(put, state.getRegion());
924      if (state.getServerName() != null) {
925        MetaTableAccessor.addLocation(put, state.getServerName(), HConstants.NO_SEQNUM, replicaId);
926      }
927      put.add(CellBuilderFactory.create(CellBuilderType.SHALLOW_COPY).setRow(put.getRow())
928        .setFamily(HConstants.CATALOG_FAMILY)
929        .setQualifier(RegionStateStore.getStateColumn(replicaId)).setTimestamp(put.getTimestamp())
930        .setType(Cell.Type.Put).setValue(Bytes.toBytes(state.getState().name())).build());
931    }
932    if (!put.isEmpty()) {
933      LOG.info(info.toString());
934      masterRegion.update(r -> r.put(put));
935    } else {
936      LOG.info("No meta location available on zookeeper, skip migrating...");
937    }
938  }
939
940  /**
941   * Finish initialization of HMaster after becoming the primary master.
942   * <p/>
943   * The startup order is a bit complicated but very important, do not change it unless you know
944   * what you are doing.
945   * <ol>
946   * <li>Initialize file system based components - file system manager, wal manager, table
947   * descriptors, etc</li>
948   * <li>Publish cluster id</li>
949   * <li>Here comes the most complicated part - initialize server manager, assignment manager and
950   * region server tracker
951   * <ol type='i'>
952   * <li>Create server manager</li>
953   * <li>Create master local region</li>
954   * <li>Create procedure executor, load the procedures, but do not start workers. We will start it
955   * later after we finish scheduling SCPs to avoid scheduling duplicated SCPs for the same
956   * server</li>
957   * <li>Create assignment manager and start it, load the meta region state, but do not load data
958   * from meta region</li>
959   * <li>Start region server tracker, construct the online servers set and find out dead servers and
960   * schedule SCP for them. The online servers will be constructed by scanning zk, and we will also
961   * scan the wal directory and load from master local region to find out possible live region
962   * servers, and the differences between these two sets are the dead servers</li>
963   * </ol>
964   * </li>
965   * <li>If this is a new deploy, schedule a InitMetaProcedure to initialize meta</li>
966   * <li>Start necessary service threads - balancer, catalog janitor, executor services, and also
967   * the procedure executor, etc. Notice that the balancer must be created first as assignment
968   * manager may use it when assigning regions.</li>
969   * <li>Wait for meta to be initialized if necessary, start table state manager.</li>
970   * <li>Wait for enough region servers to check-in</li>
971   * <li>Let assignment manager load data from meta and construct region states</li>
972   * <li>Start all other things such as chore services, etc</li>
973   * </ol>
974   * <p/>
975   * Notice that now we will not schedule a special procedure to make meta online(unless the first
976   * time where meta has not been created yet), we will rely on SCP to bring meta online.
977   */
978  private void finishActiveMasterInitialization() throws IOException, InterruptedException,
979    KeeperException, ReplicationException, DeserializationException {
980    /*
981     * We are active master now... go initialize components we need to run.
982     */
983    startupTaskGroup.addTask("Initializing Master file system");
984
985    this.masterActiveTime = EnvironmentEdgeManager.currentTime();
986    // TODO: Do this using Dependency Injection, using PicoContainer, Guice or Spring.
987
988    // always initialize the MemStoreLAB as we use a region to store data in master now, see
989    // localStore.
990    initializeMemStoreChunkCreator(null);
991    this.fileSystemManager = new MasterFileSystem(conf);
992    this.walManager = new MasterWalManager(this);
993
994    // warm-up HTDs cache on master initialization
995    if (preLoadTableDescriptors) {
996      startupTaskGroup.addTask("Pre-loading table descriptors");
997      this.tableDescriptors.getAll();
998    }
999
1000    // Publish cluster ID; set it in Master too. The superclass RegionServer does this later but
1001    // only after it has checked in with the Master. At least a few tests ask Master for clusterId
1002    // before it has called its run method and before RegionServer has done the reportForDuty.
1003    ClusterId clusterId = fileSystemManager.getClusterId();
1004    startupTaskGroup.addTask("Publishing Cluster ID " + clusterId + " in ZooKeeper");
1005    ZKClusterId.setClusterId(this.zooKeeper, fileSystemManager.getClusterId());
1006    this.clusterId = clusterId.toString();
1007
1008    // Precaution. Put in place the old hbck1 lock file to fence out old hbase1s running their
1009    // hbck1s against an hbase2 cluster; it could do damage. To skip this behavior, set
1010    // hbase.write.hbck1.lock.file to false.
1011    if (this.conf.getBoolean("hbase.write.hbck1.lock.file", true)) {
1012      Pair<Path, FSDataOutputStream> result = null;
1013      try {
1014        result = HBaseFsck.checkAndMarkRunningHbck(this.conf,
1015          HBaseFsck.createLockRetryCounterFactory(this.conf).create());
1016      } finally {
1017        if (result != null) {
1018          Closeables.close(result.getSecond(), true);
1019        }
1020      }
1021    }
1022
1023    startupTaskGroup.addTask("Initialize ServerManager and schedule SCP for crash servers");
1024    // The below two managers must be created before loading procedures, as they will be used during
1025    // loading.
1026    // initialize master local region
1027    masterRegion = MasterRegionFactory.create(this);
1028    rsListStorage = new MasterRegionServerList(masterRegion, this);
1029
1030    // Initialize the ServerManager and register it as a configuration observer
1031    this.serverManager = createServerManager(this, rsListStorage);
1032    this.configurationManager.registerObserver(this.serverManager);
1033
1034    this.syncReplicationReplayWALManager = new SyncReplicationReplayWALManager(this);
1035    if (
1036      !conf.getBoolean(HBASE_SPLIT_WAL_COORDINATED_BY_ZK, DEFAULT_HBASE_SPLIT_COORDINATED_BY_ZK)
1037    ) {
1038      this.splitWALManager = new SplitWALManager(this);
1039    }
1040
1041    tryMigrateMetaLocationsFromZooKeeper();
1042
1043    createProcedureExecutor();
1044    Map<Class<?>, List<Procedure<MasterProcedureEnv>>> procsByType = procedureExecutor
1045      .getActiveProceduresNoCopy().stream().collect(Collectors.groupingBy(p -> p.getClass()));
1046
1047    // Create Assignment Manager
1048    this.assignmentManager = createAssignmentManager(this, masterRegion);
1049    this.assignmentManager.start();
1050    // TODO: TRSP can perform as the sub procedure for other procedures, so even if it is marked as
1051    // completed, it could still be in the procedure list. This is a bit strange but is another
1052    // story, need to verify the implementation for ProcedureExecutor and ProcedureStore.
1053    List<TransitRegionStateProcedure> ritList =
1054      procsByType.getOrDefault(TransitRegionStateProcedure.class, Collections.emptyList()).stream()
1055        .filter(p -> !p.isFinished()).map(p -> (TransitRegionStateProcedure) p)
1056        .collect(Collectors.toList());
1057    this.assignmentManager.setupRIT(ritList);
1058
1059    // Start RegionServerTracker with listing of servers found with exiting SCPs -- these should
1060    // be registered in the deadServers set -- and the servernames loaded from the WAL directory
1061    // and master local region that COULD BE 'alive'(we'll schedule SCPs for each and let SCP figure
1062    // it out).
1063    // We also pass dirs that are already 'splitting'... so we can do some checks down in tracker.
1064    // TODO: Generate the splitting and live Set in one pass instead of two as we currently do.
1065    this.regionServerTracker.upgrade(
1066      procsByType.getOrDefault(ServerCrashProcedure.class, Collections.emptyList()).stream()
1067        .map(p -> (ServerCrashProcedure) p).collect(
1068          Collectors.toMap(ServerCrashProcedure::getServerName, Procedure::getSubmittedTime)),
1069      Sets.union(rsListStorage.getAll(), walManager.getLiveServersFromWALDir()),
1070      walManager.getSplittingServersFromWALDir());
1071    // This manager must be accessed AFTER hbase:meta is confirmed on line..
1072    this.tableStateManager = new TableStateManager(this);
1073
1074    startupTaskGroup.addTask("Initializing ZK system trackers");
1075    initializeZKBasedSystemTrackers();
1076    startupTaskGroup.addTask("Loading last flushed sequence id of regions");
1077    try {
1078      this.serverManager.loadLastFlushedSequenceIds();
1079    } catch (IOException e) {
1080      LOG.info("Failed to load last flushed sequence id of regions" + " from file system", e);
1081    }
1082    // Set ourselves as active Master now our claim has succeeded up in zk.
1083    this.activeMaster = true;
1084
1085    // Start the Zombie master detector after setting master as active, see HBASE-21535
1086    Thread zombieDetector = new Thread(new MasterInitializationMonitor(this),
1087      "ActiveMasterInitializationMonitor-" + EnvironmentEdgeManager.currentTime());
1088    zombieDetector.setDaemon(true);
1089    zombieDetector.start();
1090
1091    if (!maintenanceMode) {
1092      startupTaskGroup.addTask("Initializing master coprocessors");
1093      setQuotasObserver(conf);
1094      CoprocessorConfigurationUtil.syncReadOnlyConfigurations(conf,
1095        CoprocessorHost.MASTER_COPROCESSOR_CONF_KEY);
1096      AbstractReadOnlyController.manageActiveClusterIdFile(
1097        ConfigurationUtil.isReadOnlyModeEnabledInConf(conf), this.getMasterFileSystem());
1098      initializeCoprocessorHost(conf);
1099    } else {
1100      // start an in process region server for carrying system regions
1101      maintenanceRegionServer =
1102        JVMClusterUtil.createRegionServerThread(getConfiguration(), HRegionServer.class, 0);
1103      maintenanceRegionServer.start();
1104    }
1105
1106    // Checking if meta needs initializing.
1107    startupTaskGroup.addTask("Initializing meta table if this is a new deploy");
1108    InitMetaProcedure initMetaProc = null;
1109
1110    // Always look for an already-running InitMetaProcedure first. Once such a procedure has passed
1111    // the INIT_META_ASSIGN_META state, a RegionState for meta exists, so guarding this lookup with
1112    // hasTableRegionStates would hide a still-running procedure, and we would skip awaiting it.
1113    // Filter out finished procedures: getProcedures() also returns completed procedures reloaded
1114    // from the procedure store, and awaiting such a procedure would block forever because its
1115    // completion latch is reset to 1 on deserialization and never counted down again.
1116    Optional<InitMetaProcedure> optProc = procedureExecutor.getProcedures().stream()
1117      .filter(p -> p instanceof InitMetaProcedure && !p.isFinished())
1118      .map(o -> (InitMetaProcedure) o).findAny();
1119    if (optProc.isPresent()) {
1120      initMetaProc = optProc.get();
1121    } else if (
1122      !this.assignmentManager.getRegionStates().hasTableRegionStates(TableName.META_TABLE_NAME)
1123    ) {
1124      // schedule an init meta procedure if meta has not been deployed yet
1125      initMetaProc = new InitMetaProcedure();
1126      procedureExecutor.submitProcedure(initMetaProc);
1127    }
1128
1129    // initialize load balancer
1130    this.balancer.setMasterServices(this);
1131    this.balancer.initialize();
1132    this.balancer.updateClusterMetrics(getClusterMetricsWithoutCoprocessor());
1133
1134    // try migrate replication data
1135    ZKReplicationQueueStorageForMigration oldReplicationQueueStorage =
1136      new ZKReplicationQueueStorageForMigration(zooKeeper, conf);
1137    // check whether there are something to migrate and we haven't scheduled a migration procedure
1138    // yet
1139    if (
1140      oldReplicationQueueStorage.hasData() && procedureExecutor.getProcedures().stream()
1141        .allMatch(p -> !(p instanceof MigrateReplicationQueueFromZkToTableProcedure))
1142    ) {
1143      procedureExecutor.submitProcedure(new MigrateReplicationQueueFromZkToTableProcedure());
1144    }
1145    // start up all service threads.
1146    startupTaskGroup.addTask("Initializing master service threads");
1147    startServiceThreads();
1148    // wait meta to be initialized after we start procedure executor
1149    if (initMetaProc != null) {
1150      initMetaProc.await();
1151      if (initMetaProc.isFailed() && initMetaProc.hasException()) {
1152        throw new IOException("Failed to initialize meta table", initMetaProc.getException());
1153      }
1154    }
1155    // Wake up this server to check in
1156    sleeper.skipSleepCycle();
1157
1158    // Wait for region servers to report in.
1159    // With this as part of master initialization, it precludes our being able to start a single
1160    // server that is both Master and RegionServer. Needs more thought. TODO.
1161    String statusStr = "Wait for region servers to report in";
1162    MonitoredTask waitRegionServer = startupTaskGroup.addTask(statusStr);
1163    LOG.info(Objects.toString(waitRegionServer));
1164    waitForRegionServers(waitRegionServer);
1165
1166    // Check if master is shutting down because issue initializing regionservers or balancer.
1167    if (isStopped()) {
1168      return;
1169    }
1170
1171    startupTaskGroup.addTask("Starting assignment manager");
1172    // FIRST HBASE:META READ!!!!
1173    // The below cannot make progress w/o hbase:meta being online.
1174    // This is the FIRST attempt at going to hbase:meta. Meta on-lining is going on in background
1175    // as procedures run -- in particular SCPs for crashed servers... One should put up hbase:meta
1176    // if it is down. It may take a while to come online. So, wait here until meta if for sure
1177    // available. That's what waitForMetaOnline does.
1178    if (!waitForMetaOnline()) {
1179      return;
1180    }
1181
1182    TableDescriptor metaDescriptor = tableDescriptors.get(TableName.META_TABLE_NAME);
1183    final ColumnFamilyDescriptor tableFamilyDesc =
1184      metaDescriptor.getColumnFamily(HConstants.TABLE_FAMILY);
1185    final ColumnFamilyDescriptor replBarrierFamilyDesc =
1186      metaDescriptor.getColumnFamily(HConstants.REPLICATION_BARRIER_FAMILY);
1187
1188    this.assignmentManager.initializationPostMetaOnline();
1189    this.assignmentManager.joinCluster();
1190    // The below depends on hbase:meta being online.
1191    this.assignmentManager.processOfflineRegions();
1192    // this must be called after the above processOfflineRegions to prevent race
1193    this.assignmentManager.wakeMetaLoadedEvent();
1194
1195    // for migrating from a version without HBASE-25099, and also for honoring the configuration
1196    // first.
1197    if (conf.get(HConstants.META_REPLICAS_NUM) != null) {
1198      int replicasNumInConf =
1199        conf.getInt(HConstants.META_REPLICAS_NUM, HConstants.DEFAULT_META_REPLICA_NUM);
1200      TableDescriptor metaDesc = tableDescriptors.get(TableName.META_TABLE_NAME);
1201      if (metaDesc.getRegionReplication() != replicasNumInConf) {
1202        // it is possible that we already have some replicas before upgrading, so we must set the
1203        // region replication number in meta TableDescriptor directly first, without creating a
1204        // ModifyTableProcedure, otherwise it may cause a double assign for the meta replicas.
1205        int existingReplicasCount =
1206          assignmentManager.getRegionStates().getRegionsOfTable(TableName.META_TABLE_NAME).size();
1207        if (existingReplicasCount > metaDesc.getRegionReplication()) {
1208          LOG.info(
1209            "Update replica count of {} from {}(in TableDescriptor)" + " to {}(existing ZNodes)",
1210            TableName.META_TABLE_NAME, metaDesc.getRegionReplication(), existingReplicasCount);
1211          metaDesc = TableDescriptorBuilder.newBuilder(metaDesc)
1212            .setRegionReplication(existingReplicasCount).build();
1213          tableDescriptors.update(metaDesc);
1214        }
1215        // check again, and issue a ModifyTableProcedure if needed
1216        if (metaDesc.getRegionReplication() != replicasNumInConf) {
1217          LOG.info(
1218            "The {} config is {} while the replica count in TableDescriptor is {}"
1219              + " for {}, altering...",
1220            HConstants.META_REPLICAS_NUM, replicasNumInConf, metaDesc.getRegionReplication(),
1221            TableName.META_TABLE_NAME);
1222          procedureExecutor.submitProcedure(new ModifyTableProcedure(
1223            procedureExecutor.getEnvironment(), TableDescriptorBuilder.newBuilder(metaDesc)
1224              .setRegionReplication(replicasNumInConf).build(),
1225            null, metaDesc, false, true));
1226        }
1227      }
1228    }
1229    // Initialize after meta is up as below scans meta
1230    FavoredNodesManager fnm = getFavoredNodesManager();
1231    if (fnm != null) {
1232      fnm.initializeFromMeta();
1233    }
1234
1235    // set cluster status again after user regions are assigned
1236    this.balancer.updateClusterMetrics(getClusterMetricsWithoutCoprocessor());
1237
1238    // Start balancer and meta catalog janitor after meta and regions have been assigned.
1239    startupTaskGroup.addTask("Starting balancer and catalog janitor");
1240    this.clusterStatusChore = new ClusterStatusChore(this, balancer);
1241    getChoreService().scheduleChore(clusterStatusChore);
1242    this.balancerChore = new BalancerChore(this);
1243    if (!disableBalancerChoreForTest) {
1244      getChoreService().scheduleChore(balancerChore);
1245    }
1246    if (regionNormalizerManager != null) {
1247      getChoreService().scheduleChore(regionNormalizerManager.getRegionNormalizerChore());
1248    }
1249    this.catalogJanitorChore = new CatalogJanitor(this);
1250    getChoreService().scheduleChore(catalogJanitorChore);
1251    this.hbckChore = new HbckChore(this);
1252    getChoreService().scheduleChore(hbckChore);
1253    this.serverManager.startChore();
1254
1255    // Only for rolling upgrade, where we need to migrate the data in namespace table to meta table.
1256    if (!waitForNamespaceOnline()) {
1257      return;
1258    }
1259    startupTaskGroup.addTask("Starting cluster schema service");
1260    try {
1261      initClusterSchemaService();
1262    } catch (IllegalStateException e) {
1263      if (
1264        e.getCause() != null && e.getCause() instanceof NoSuchColumnFamilyException
1265          && tableFamilyDesc == null && replBarrierFamilyDesc == null
1266      ) {
1267        LOG.info("ClusterSchema service could not be initialized. This is "
1268          + "expected during HBase 1 to 2 upgrade", e);
1269      } else {
1270        throw e;
1271      }
1272    }
1273
1274    if (this.cpHost != null) {
1275      try {
1276        this.cpHost.preMasterInitialization();
1277      } catch (IOException e) {
1278        LOG.error("Coprocessor preMasterInitialization() hook failed", e);
1279      }
1280    }
1281
1282    LOG.info(String.format("Master has completed initialization %.3fsec",
1283      (EnvironmentEdgeManager.currentTime() - masterActiveTime) / 1000.0f));
1284    this.masterFinishedInitializationTime = EnvironmentEdgeManager.currentTime();
1285    configurationManager.registerObserver(this.balancer);
1286    configurationManager.registerObserver(this.logCleanerPool);
1287    configurationManager.registerObserver(this.logCleaner);
1288    configurationManager.registerObserver(this.regionsRecoveryConfigManager);
1289    configurationManager.registerObserver(this.exclusiveHFileCleanerPool);
1290    if (this.sharedHFileCleanerPool != null) {
1291      configurationManager.registerObserver(this.sharedHFileCleanerPool);
1292    }
1293    if (this.hfileCleaners != null) {
1294      for (HFileCleaner cleaner : hfileCleaners) {
1295        configurationManager.registerObserver(cleaner);
1296      }
1297    }
1298    // Set master as 'initialized'.
1299    setInitialized(true);
1300    startupTaskGroup.markComplete("Initialization successful");
1301    MonitoredTask status =
1302      TaskMonitor.get().createStatus("Progress after master initialized", false, true);
1303
1304    if (tableFamilyDesc == null && replBarrierFamilyDesc == null) {
1305      // create missing CFs in meta table after master is set to 'initialized'.
1306      createMissingCFsInMetaDuringUpgrade(metaDescriptor);
1307
1308      // Throwing this Exception to abort active master is painful but this
1309      // seems the only way to add missing CFs in meta while upgrading from
1310      // HBase 1 to 2 (where HBase 2 has HBASE-23055 & HBASE-23782 checked-in).
1311      // So, why do we abort active master after adding missing CFs in meta?
1312      // When we reach here, we would have already bypassed NoSuchColumnFamilyException
1313      // in initClusterSchemaService(), meaning ClusterSchemaService is not
1314      // correctly initialized but we bypassed it. Similarly, we bypassed
1315      // tableStateManager.start() as well. Hence, we should better abort
1316      // current active master because our main task - adding missing CFs
1317      // in meta table is done (possible only after master state is set as
1318      // initialized) at the expense of bypassing few important tasks as part
1319      // of active master init routine. So now we abort active master so that
1320      // next active master init will not face any issues and all mandatory
1321      // services will be started during master init phase.
1322      throw new PleaseRestartMasterException("Aborting active master after missing"
1323        + " CFs are successfully added in meta. Subsequent active master "
1324        + "initialization should be uninterrupted");
1325    }
1326
1327    if (maintenanceMode) {
1328      LOG.info("Detected repair mode, skipping final initialization steps.");
1329      return;
1330    }
1331
1332    assignmentManager.checkIfShouldMoveSystemRegionAsync();
1333    status.setStatus("Starting quota manager");
1334    initQuotaManager();
1335    if (QuotaUtil.isQuotaEnabled(conf)) {
1336      // Create the quota snapshot notifier
1337      spaceQuotaSnapshotNotifier = createQuotaSnapshotNotifier();
1338      spaceQuotaSnapshotNotifier.initialize(getConnection());
1339      this.quotaObserverChore = new QuotaObserverChore(this, getMasterMetrics());
1340      // Start the chore to read the region FS space reports and act on them
1341      getChoreService().scheduleChore(quotaObserverChore);
1342
1343      this.snapshotQuotaChore = new SnapshotQuotaObserverChore(this, getMasterMetrics());
1344      // Start the chore to read snapshots and add their usage to table/NS quotas
1345      getChoreService().scheduleChore(snapshotQuotaChore);
1346    }
1347    final SlowLogMasterService slowLogMasterService = new SlowLogMasterService(conf, this);
1348    slowLogMasterService.init();
1349
1350    WALEventTrackerTableCreator.createIfNeededAndNotExists(conf, this);
1351    // Create REPLICATION.SINK_TRACKER table if needed.
1352    ReplicationSinkTrackerTableCreator.createIfNeededAndNotExists(conf, this);
1353
1354    // clear the dead servers with same host name and port of online server because we are not
1355    // removing dead server with same hostname and port of rs which is trying to check in before
1356    // master initialization. See HBASE-5916.
1357    this.serverManager.clearDeadServersWithSameHostNameAndPortOfOnlineServer();
1358
1359    // Check and set the znode ACLs if needed in case we are overtaking a non-secure configuration
1360    status.setStatus("Checking ZNode ACLs");
1361    zooKeeper.checkAndSetZNodeAcls();
1362
1363    status.setStatus("Initializing MOB Cleaner");
1364    initMobCleaner();
1365
1366    // delete the stale data for replication sync up tool if necessary
1367    status.setStatus("Cleanup ReplicationSyncUp status if necessary");
1368    Path replicationSyncUpInfoFile =
1369      new Path(new Path(dataRootDir, ReplicationSyncUp.INFO_DIR), ReplicationSyncUp.INFO_FILE);
1370    if (dataFs.exists(replicationSyncUpInfoFile)) {
1371      // info file is available, load the timestamp and use it to clean up stale data in replication
1372      // queue storage.
1373      byte[] data;
1374      try (FSDataInputStream in = dataFs.open(replicationSyncUpInfoFile)) {
1375        data = ByteStreams.toByteArray(in);
1376      }
1377      ReplicationSyncUpToolInfo info = null;
1378      try {
1379        info = JsonMapper.fromJson(Bytes.toString(data), ReplicationSyncUpToolInfo.class);
1380      } catch (JsonParseException e) {
1381        // usually this should be a partial file, which means the ReplicationSyncUp tool did not
1382        // finish properly, so not a problem. Here we do not clean up the status as we do not know
1383        // the reason why the tool did not finish properly, so let users clean the status up
1384        // manually
1385        LOG.warn("failed to parse replication sync up info file, ignore and continue...", e);
1386      }
1387      if (info != null) {
1388        LOG.info("Remove last sequence ids and hfile references which are written before {}({})",
1389          info.getStartTimeMs(), DateTimeFormatter.ISO_DATE_TIME.withZone(ZoneId.systemDefault())
1390            .format(Instant.ofEpochMilli(info.getStartTimeMs())));
1391        replicationPeerManager.getQueueStorage()
1392          .removeLastSequenceIdsAndHFileRefsBefore(info.getStartTimeMs());
1393        // delete the file after removing the stale data, so next time we do not need to do this
1394        // again.
1395        dataFs.delete(replicationSyncUpInfoFile, false);
1396      }
1397    }
1398    status.setStatus("Calling postStartMaster coprocessors");
1399    if (this.cpHost != null) {
1400      // don't let cp initialization errors kill the master
1401      try {
1402        this.cpHost.postStartMaster();
1403      } catch (IOException ioe) {
1404        LOG.error("Coprocessor postStartMaster() hook failed", ioe);
1405      }
1406    }
1407
1408    zombieDetector.interrupt();
1409
1410    /*
1411     * After master has started up, lets do balancer post startup initialization. Since this runs in
1412     * activeMasterManager thread, it should be fine.
1413     */
1414    long start = EnvironmentEdgeManager.currentTime();
1415    this.balancer.postMasterStartupInitialize();
1416    if (LOG.isDebugEnabled()) {
1417      LOG.debug("Balancer post startup initialization complete, took "
1418        + ((EnvironmentEdgeManager.currentTime() - start) / 1000) + " seconds");
1419    }
1420
1421    this.rollingUpgradeChore = new RollingUpgradeChore(this);
1422    getChoreService().scheduleChore(rollingUpgradeChore);
1423
1424    this.oldWALsDirSizeChore = new OldWALsDirSizeChore(this);
1425    getChoreService().scheduleChore(this.oldWALsDirSizeChore);
1426
1427    status.markComplete("Progress after master initialized complete");
1428  }
1429
1430  /**
1431   * Used for testing only to set Mock objects.
1432   * @param hbckChore hbckChore
1433   */
1434  public void setHbckChoreForTesting(HbckChore hbckChore) {
1435    this.hbckChore = hbckChore;
1436  }
1437
1438  /**
1439   * Used for testing only to set Mock objects.
1440   * @param catalogJanitorChore catalogJanitorChore
1441   */
1442  public void setCatalogJanitorChoreForTesting(CatalogJanitor catalogJanitorChore) {
1443    this.catalogJanitorChore = catalogJanitorChore;
1444  }
1445
1446  private void createMissingCFsInMetaDuringUpgrade(TableDescriptor metaDescriptor)
1447    throws IOException {
1448    TableDescriptor newMetaDesc = TableDescriptorBuilder.newBuilder(metaDescriptor)
1449      .setColumnFamily(FSTableDescriptors.getTableFamilyDescForMeta(conf))
1450      .setColumnFamily(FSTableDescriptors.getReplBarrierFamilyDescForMeta()).build();
1451    long pid = this.modifyTable(TableName.META_TABLE_NAME, () -> newMetaDesc, 0, 0, false);
1452    waitForProcedureToComplete(pid, "Failed to add table and rep_barrier CFs to meta");
1453  }
1454
1455  private void waitForProcedureToComplete(long pid, String errorMessage) throws IOException {
1456    int tries = 30;
1457    while (
1458      !(getMasterProcedureExecutor().isFinished(pid)) && getMasterProcedureExecutor().isRunning()
1459        && tries > 0
1460    ) {
1461      try {
1462        Thread.sleep(1000);
1463      } catch (InterruptedException e) {
1464        throw new IOException("Wait interrupted", e);
1465      }
1466      tries--;
1467    }
1468    if (tries <= 0) {
1469      throw new HBaseIOException(
1470        "Failed to add table and rep_barrier CFs to meta in a given time.");
1471    } else {
1472      Procedure<?> result = getMasterProcedureExecutor().getResult(pid);
1473      if (result != null && result.isFailed()) {
1474        throw new IOException(
1475          errorMessage + ". " + MasterProcedureUtil.unwrapRemoteIOException(result));
1476      }
1477    }
1478  }
1479
1480  /**
1481   * Check hbase:meta is up and ready for reading. For use during Master startup only.
1482   * @return True if meta is UP and online and startup can progress. Otherwise, meta is not online
1483   *         and we will hold here until operator intervention.
1484   */
1485  @InterfaceAudience.Private
1486  public boolean waitForMetaOnline() {
1487    return isRegionOnline(RegionInfoBuilder.FIRST_META_REGIONINFO);
1488  }
1489
1490  /**
1491   * @return True if region is online and scannable else false if an error or shutdown (Otherwise we
1492   *         just block in here holding up all forward-progess).
1493   */
1494  private boolean isRegionOnline(RegionInfo ri) {
1495    RetryCounter rc = null;
1496    while (!isStopped()) {
1497      RegionState rs = this.assignmentManager.getRegionStates().getRegionState(ri);
1498      if (rs != null && rs.isOpened()) {
1499        if (this.getServerManager().isServerOnline(rs.getServerName())) {
1500          return true;
1501        }
1502      }
1503      // Region is not OPEN.
1504      Optional<Procedure<MasterProcedureEnv>> optProc = this.procedureExecutor.getProcedures()
1505        .stream().filter(p -> p instanceof ServerCrashProcedure).findAny();
1506      // TODO: Add a page to refguide on how to do repair. Have this log message point to it.
1507      // Page will talk about loss of edits, how to schedule at least the meta WAL recovery, and
1508      // then how to assign including how to break region lock if one held.
1509      LOG.warn(
1510        "{} is NOT online; state={}; ServerCrashProcedures={}. Master startup cannot "
1511          + "progress, in holding-pattern until region onlined.",
1512        ri.getRegionNameAsString(), rs, optProc.isPresent());
1513      // Check once-a-minute.
1514      if (rc == null) {
1515        rc = new RetryCounterFactory(Integer.MAX_VALUE, 1000, 60_000).create();
1516      }
1517      Threads.sleep(rc.getBackoffTimeAndIncrementAttempts());
1518    }
1519    return false;
1520  }
1521
1522  /**
1523   * Check hbase:namespace table is assigned. If not, startup will hang looking for the ns table
1524   * <p/>
1525   * This is for rolling upgrading, later we will migrate the data in ns table to the ns family of
1526   * meta table. And if this is a new cluster, this method will return immediately as there will be
1527   * no namespace table/region.
1528   * @return True if namespace table is up/online.
1529   */
1530  private boolean waitForNamespaceOnline() throws IOException {
1531    TableState nsTableState =
1532      MetaTableAccessor.getTableState(getConnection(), TableName.NAMESPACE_TABLE_NAME);
1533    if (nsTableState == null || nsTableState.isDisabled()) {
1534      // this means we have already migrated the data and disabled or deleted the namespace table,
1535      // or this is a new deploy which does not have a namespace table from the beginning.
1536      return true;
1537    }
1538    List<RegionInfo> ris =
1539      this.assignmentManager.getRegionStates().getRegionsOfTable(TableName.NAMESPACE_TABLE_NAME);
1540    if (ris.isEmpty()) {
1541      // maybe this will not happen any more, but anyway, no harm to add a check here...
1542      return true;
1543    }
1544    // Else there are namespace regions up in meta. Ensure they are assigned before we go on.
1545    for (RegionInfo ri : ris) {
1546      if (!isRegionOnline(ri)) {
1547        return false;
1548      }
1549    }
1550    return true;
1551  }
1552
1553  /**
1554   * Adds the {@code MasterQuotasObserver} to the list of configured Master observers to
1555   * automatically remove quotas for a table when that table is deleted.
1556   */
1557  @InterfaceAudience.Private
1558  public void updateConfigurationForQuotasObserver(Configuration conf) {
1559    // We're configured to not delete quotas on table deletion, so we don't need to add the obs.
1560    if (
1561      !conf.getBoolean(MasterQuotasObserver.REMOVE_QUOTA_ON_TABLE_DELETE,
1562        MasterQuotasObserver.REMOVE_QUOTA_ON_TABLE_DELETE_DEFAULT)
1563    ) {
1564      return;
1565    }
1566    String[] masterCoprocs = conf.getStrings(CoprocessorHost.MASTER_COPROCESSOR_CONF_KEY);
1567    final int length = null == masterCoprocs ? 0 : masterCoprocs.length;
1568    String[] updatedCoprocs = new String[length + 1];
1569    if (length > 0) {
1570      System.arraycopy(masterCoprocs, 0, updatedCoprocs, 0, masterCoprocs.length);
1571    }
1572    updatedCoprocs[length] = MasterQuotasObserver.class.getName();
1573    conf.setStrings(CoprocessorHost.MASTER_COPROCESSOR_CONF_KEY, updatedCoprocs);
1574  }
1575
1576  private void initMobCleaner() {
1577    this.mobFileCleanerChore = new MobFileCleanerChore(this);
1578    configurationManager.registerObserver(this.mobFileCleanerChore);
1579    getChoreService().scheduleChore(mobFileCleanerChore);
1580    this.mobFileCompactionChore = new MobFileCompactionChore(this);
1581    getChoreService().scheduleChore(mobFileCompactionChore);
1582  }
1583
1584  /**
1585   * <p>
1586   * Create a {@link ServerManager} instance.
1587   * </p>
1588   * <p>
1589   * Will be overridden in tests.
1590   * </p>
1591   */
1592  @InterfaceAudience.Private
1593  protected ServerManager createServerManager(MasterServices master, RegionServerList storage)
1594    throws IOException {
1595    // We put this out here in a method so can do a Mockito.spy and stub it out
1596    // w/ a mocked up ServerManager.
1597    setupClusterConnection();
1598    return new ServerManager(master, storage);
1599  }
1600
1601  private void waitForRegionServers(final MonitoredTask status)
1602    throws IOException, InterruptedException {
1603    this.serverManager.waitForRegionServers(status);
1604  }
1605
1606  // Will be overridden in tests
1607  @InterfaceAudience.Private
1608  protected void initClusterSchemaService() throws IOException, InterruptedException {
1609    this.clusterSchemaService = new ClusterSchemaServiceImpl(this);
1610    this.clusterSchemaService.startAsync();
1611    try {
1612      this.clusterSchemaService
1613        .awaitRunning(getConfiguration().getInt(HBASE_MASTER_WAIT_ON_SERVICE_IN_SECONDS,
1614          DEFAULT_HBASE_MASTER_WAIT_ON_SERVICE_IN_SECONDS), TimeUnit.SECONDS);
1615    } catch (TimeoutException toe) {
1616      throw new IOException("Timedout starting ClusterSchemaService", toe);
1617    }
1618  }
1619
1620  private void initQuotaManager() throws IOException {
1621    MasterQuotaManager quotaManager = new MasterQuotaManager(this);
1622    quotaManager.start();
1623    this.quotaManager = quotaManager;
1624  }
1625
1626  private SpaceQuotaSnapshotNotifier createQuotaSnapshotNotifier() {
1627    SpaceQuotaSnapshotNotifier notifier =
1628      SpaceQuotaSnapshotNotifierFactory.getInstance().create(getConfiguration());
1629    return notifier;
1630  }
1631
1632  public boolean isCatalogJanitorEnabled() {
1633    return catalogJanitorChore != null ? catalogJanitorChore.getEnabled() : false;
1634  }
1635
1636  boolean isCleanerChoreEnabled() {
1637    boolean hfileCleanerFlag = true, logCleanerFlag = true;
1638
1639    if (getHFileCleaner() != null) {
1640      hfileCleanerFlag = getHFileCleaner().getEnabled();
1641    }
1642
1643    if (logCleaner != null) {
1644      logCleanerFlag = logCleaner.getEnabled();
1645    }
1646
1647    return (hfileCleanerFlag && logCleanerFlag);
1648  }
1649
1650  @Override
1651  public ServerManager getServerManager() {
1652    return this.serverManager;
1653  }
1654
1655  @Override
1656  public MasterFileSystem getMasterFileSystem() {
1657    return this.fileSystemManager;
1658  }
1659
1660  @Override
1661  public MasterWalManager getMasterWalManager() {
1662    return this.walManager;
1663  }
1664
1665  @Override
1666  public boolean rotateSystemKeyIfChanged() throws IOException {
1667    // STUB - Feature not yet implemented
1668    return false;
1669  }
1670
1671  @Override
1672  public SplitWALManager getSplitWALManager() {
1673    return splitWALManager;
1674  }
1675
1676  @Override
1677  public TableStateManager getTableStateManager() {
1678    return tableStateManager;
1679  }
1680
1681  /*
1682   * Start up all services. If any of these threads gets an unhandled exception then they just die
1683   * with a logged message. This should be fine because in general, we do not expect the master to
1684   * get such unhandled exceptions as OOMEs; it should be lightly loaded. See what HRegionServer
1685   * does if need to install an unexpected exception handler.
1686   */
1687  private void startServiceThreads() throws IOException {
1688    // Start the executor service pools
1689    final int masterOpenRegionPoolSize = conf.getInt(HConstants.MASTER_OPEN_REGION_THREADS,
1690      HConstants.MASTER_OPEN_REGION_THREADS_DEFAULT);
1691    executorService.startExecutorService(executorService.new ExecutorConfig()
1692      .setExecutorType(ExecutorType.MASTER_OPEN_REGION).setCorePoolSize(masterOpenRegionPoolSize));
1693    final int masterCloseRegionPoolSize = conf.getInt(HConstants.MASTER_CLOSE_REGION_THREADS,
1694      HConstants.MASTER_CLOSE_REGION_THREADS_DEFAULT);
1695    executorService.startExecutorService(
1696      executorService.new ExecutorConfig().setExecutorType(ExecutorType.MASTER_CLOSE_REGION)
1697        .setCorePoolSize(masterCloseRegionPoolSize));
1698    final int masterServerOpThreads = conf.getInt(HConstants.MASTER_SERVER_OPERATIONS_THREADS,
1699      HConstants.MASTER_SERVER_OPERATIONS_THREADS_DEFAULT);
1700    executorService.startExecutorService(
1701      executorService.new ExecutorConfig().setExecutorType(ExecutorType.MASTER_SERVER_OPERATIONS)
1702        .setCorePoolSize(masterServerOpThreads));
1703    final int masterServerMetaOpsThreads =
1704      conf.getInt(HConstants.MASTER_META_SERVER_OPERATIONS_THREADS,
1705        HConstants.MASTER_META_SERVER_OPERATIONS_THREADS_DEFAULT);
1706    executorService.startExecutorService(executorService.new ExecutorConfig()
1707      .setExecutorType(ExecutorType.MASTER_META_SERVER_OPERATIONS)
1708      .setCorePoolSize(masterServerMetaOpsThreads));
1709    final int masterLogReplayThreads = conf.getInt(HConstants.MASTER_LOG_REPLAY_OPS_THREADS,
1710      HConstants.MASTER_LOG_REPLAY_OPS_THREADS_DEFAULT);
1711    executorService.startExecutorService(executorService.new ExecutorConfig()
1712      .setExecutorType(ExecutorType.M_LOG_REPLAY_OPS).setCorePoolSize(masterLogReplayThreads));
1713    final int masterSnapshotThreads = conf.getInt(SnapshotManager.SNAPSHOT_POOL_THREADS_KEY,
1714      SnapshotManager.SNAPSHOT_POOL_THREADS_DEFAULT);
1715    executorService.startExecutorService(
1716      executorService.new ExecutorConfig().setExecutorType(ExecutorType.MASTER_SNAPSHOT_OPERATIONS)
1717        .setCorePoolSize(masterSnapshotThreads).setAllowCoreThreadTimeout(true));
1718    final int masterMergeDispatchThreads = conf.getInt(HConstants.MASTER_MERGE_DISPATCH_THREADS,
1719      HConstants.MASTER_MERGE_DISPATCH_THREADS_DEFAULT);
1720    executorService.startExecutorService(
1721      executorService.new ExecutorConfig().setExecutorType(ExecutorType.MASTER_MERGE_OPERATIONS)
1722        .setCorePoolSize(masterMergeDispatchThreads).setAllowCoreThreadTimeout(true));
1723
1724    // We depend on there being only one instance of this executor running
1725    // at a time. To do concurrency, would need fencing of enable/disable of
1726    // tables.
1727    // Any time changing this maxThreads to > 1, pls see the comment at
1728    // AccessController#postCompletedCreateTableAction
1729    executorService.startExecutorService(executorService.new ExecutorConfig()
1730      .setExecutorType(ExecutorType.MASTER_TABLE_OPERATIONS).setCorePoolSize(1));
1731    startProcedureExecutor();
1732
1733    // Create log cleaner thread pool
1734    logCleanerPool = DirScanPool.getLogCleanerScanPool(conf);
1735    Map<String, Object> params = new HashMap<>();
1736    params.put(MASTER, this);
1737    // Start log cleaner thread
1738    int cleanerInterval =
1739      conf.getInt(HBASE_MASTER_CLEANER_INTERVAL, DEFAULT_HBASE_MASTER_CLEANER_INTERVAL);
1740    this.logCleaner =
1741      new LogCleaner(cleanerInterval, this, conf, getMasterWalManager().getFileSystem(),
1742        getMasterWalManager().getOldLogDir(), logCleanerPool, params);
1743    getChoreService().scheduleChore(logCleaner);
1744
1745    Path archiveDir = HFileArchiveUtil.getArchivePath(conf);
1746
1747    // Create custom archive hfile cleaners
1748    String[] paths = conf.getStrings(HFileCleaner.HFILE_CLEANER_CUSTOM_PATHS);
1749    // todo: handle the overlap issues for the custom paths
1750
1751    if (paths != null && paths.length > 0) {
1752      if (conf.getStrings(HFileCleaner.HFILE_CLEANER_CUSTOM_PATHS_PLUGINS) == null) {
1753        Set<String> cleanerClasses = new HashSet<>();
1754        String[] cleaners = conf.getStrings(HFileCleaner.MASTER_HFILE_CLEANER_PLUGINS);
1755        if (cleaners != null) {
1756          Collections.addAll(cleanerClasses, cleaners);
1757        }
1758        conf.setStrings(HFileCleaner.HFILE_CLEANER_CUSTOM_PATHS_PLUGINS,
1759          cleanerClasses.toArray(new String[cleanerClasses.size()]));
1760        LOG.info("Archive custom cleaner paths: {}, plugins: {}", Arrays.asList(paths),
1761          cleanerClasses);
1762      }
1763      // share the hfile cleaner pool in custom paths
1764      sharedHFileCleanerPool = DirScanPool.getHFileCleanerScanPool(conf.get(CUSTOM_POOL_SIZE, "6"));
1765      for (int i = 0; i < paths.length; i++) {
1766        Path path = new Path(paths[i].trim());
1767        HFileCleaner cleaner =
1768          new HFileCleaner("ArchiveCustomHFileCleaner-" + path.getName(), cleanerInterval, this,
1769            conf, getMasterFileSystem().getFileSystem(), new Path(archiveDir, path),
1770            HFileCleaner.HFILE_CLEANER_CUSTOM_PATHS_PLUGINS, sharedHFileCleanerPool, params, null);
1771        hfileCleaners.add(cleaner);
1772        hfileCleanerPaths.add(path);
1773      }
1774    }
1775
1776    // Create the whole archive dir cleaner thread pool
1777    exclusiveHFileCleanerPool = DirScanPool.getHFileCleanerScanPool(conf);
1778    hfileCleaners.add(0,
1779      new HFileCleaner(cleanerInterval, this, conf, getMasterFileSystem().getFileSystem(),
1780        archiveDir, exclusiveHFileCleanerPool, params, hfileCleanerPaths));
1781    hfileCleanerPaths.add(0, archiveDir);
1782    // Schedule all the hfile cleaners
1783    for (HFileCleaner hFileCleaner : hfileCleaners) {
1784      getChoreService().scheduleChore(hFileCleaner);
1785    }
1786
1787    // Regions Reopen based on very high storeFileRefCount is considered enabled
1788    // only if hbase.regions.recovery.store.file.ref.count has value > 0
1789    final int maxStoreFileRefCount = conf.getInt(HConstants.STORE_FILE_REF_COUNT_THRESHOLD,
1790      HConstants.DEFAULT_STORE_FILE_REF_COUNT_THRESHOLD);
1791    if (maxStoreFileRefCount > 0) {
1792      this.regionsRecoveryChore = new RegionsRecoveryChore(this, conf, this);
1793      getChoreService().scheduleChore(this.regionsRecoveryChore);
1794    } else {
1795      LOG.info(
1796        "Reopening regions with very high storeFileRefCount is disabled. "
1797          + "Provide threshold value > 0 for {} to enable it.",
1798        HConstants.STORE_FILE_REF_COUNT_THRESHOLD);
1799    }
1800
1801    this.regionsRecoveryConfigManager = new RegionsRecoveryConfigManager(this);
1802
1803    replicationBarrierCleaner =
1804      new ReplicationBarrierCleaner(conf, this, getConnection(), replicationPeerManager);
1805    getChoreService().scheduleChore(replicationBarrierCleaner);
1806
1807    final boolean isSnapshotChoreEnabled = this.snapshotCleanupStateStore.get();
1808    this.snapshotCleanerChore = new SnapshotCleanerChore(this, conf, getSnapshotManager());
1809    if (isSnapshotChoreEnabled) {
1810      getChoreService().scheduleChore(this.snapshotCleanerChore);
1811    } else {
1812      if (LOG.isTraceEnabled()) {
1813        LOG.trace("Snapshot Cleaner Chore is disabled. Not starting up the chore..");
1814      }
1815    }
1816    serviceStarted = true;
1817    if (LOG.isTraceEnabled()) {
1818      LOG.trace("Started service threads");
1819    }
1820  }
1821
1822  protected void stopServiceThreads() {
1823    if (masterJettyServer != null) {
1824      LOG.info("Stopping master jetty server");
1825      try {
1826        masterJettyServer.stop();
1827      } catch (Exception e) {
1828        LOG.error("Failed to stop master jetty server", e);
1829      }
1830    }
1831    stopChoreService();
1832    stopExecutorService();
1833    if (exclusiveHFileCleanerPool != null) {
1834      exclusiveHFileCleanerPool.shutdownNow();
1835      exclusiveHFileCleanerPool = null;
1836    }
1837    if (logCleanerPool != null) {
1838      logCleanerPool.shutdownNow();
1839      logCleanerPool = null;
1840    }
1841    if (sharedHFileCleanerPool != null) {
1842      sharedHFileCleanerPool.shutdownNow();
1843      sharedHFileCleanerPool = null;
1844    }
1845    if (maintenanceRegionServer != null) {
1846      maintenanceRegionServer.getRegionServer().stop(HBASE_MASTER_CLEANER_INTERVAL);
1847    }
1848
1849    LOG.debug("Stopping service threads");
1850    // stop procedure executor prior to other services such as server manager and assignment
1851    // manager, as these services are important for some running procedures. See HBASE-24117 for
1852    // example.
1853    stopProcedureExecutor();
1854
1855    if (regionNormalizerManager != null) {
1856      regionNormalizerManager.stop();
1857    }
1858    if (this.quotaManager != null) {
1859      this.quotaManager.stop();
1860    }
1861
1862    if (this.activeMasterManager != null) {
1863      this.activeMasterManager.stop();
1864    }
1865    if (this.serverManager != null) {
1866      this.serverManager.stop();
1867    }
1868    if (this.assignmentManager != null) {
1869      this.assignmentManager.stop();
1870    }
1871
1872    if (masterRegion != null) {
1873      masterRegion.close(isAborted());
1874    }
1875    if (this.walManager != null) {
1876      this.walManager.stop();
1877    }
1878    if (this.fileSystemManager != null) {
1879      this.fileSystemManager.stop();
1880    }
1881    if (this.mpmHost != null) {
1882      this.mpmHost.stop("server shutting down.");
1883    }
1884    if (this.regionServerTracker != null) {
1885      this.regionServerTracker.stop();
1886    }
1887  }
1888
1889  private void createProcedureExecutor() throws IOException {
1890    final String procedureDispatcherClassName =
1891      conf.get(HBASE_MASTER_RSPROC_DISPATCHER_CLASS, DEFAULT_HBASE_MASTER_RSPROC_DISPATCHER_CLASS);
1892    final RSProcedureDispatcher procedureDispatcher = ReflectionUtils.instantiateWithCustomCtor(
1893      procedureDispatcherClassName, new Class[] { MasterServices.class }, new Object[] { this });
1894    final MasterProcedureEnv procEnv = new MasterProcedureEnv(this, procedureDispatcher);
1895    procedureStore = new RegionProcedureStore(this, masterRegion,
1896      new MasterProcedureEnv.FsUtilsLeaseRecovery(this));
1897    procedureStore.registerListener(new ProcedureStoreListener() {
1898
1899      @Override
1900      public void abortProcess() {
1901        abort("The Procedure Store lost the lease", null);
1902      }
1903    });
1904    MasterProcedureScheduler procedureScheduler = procEnv.getProcedureScheduler();
1905    procedureExecutor = new ProcedureExecutor<>(conf, procEnv, procedureStore, procedureScheduler);
1906    configurationManager.registerObserver(procEnv);
1907
1908    int cpus = Runtime.getRuntime().availableProcessors();
1909    int defaultNumThreads = Math.max((cpus > 0 ? cpus / 4 : 0),
1910      MasterProcedureConstants.DEFAULT_MIN_MASTER_PROCEDURE_THREADS);
1911    int numThreads =
1912      conf.getInt(MasterProcedureConstants.MASTER_PROCEDURE_THREADS, defaultNumThreads);
1913    if (numThreads <= 0) {
1914      LOG.warn("{} is set to {}, which is invalid, using default value {} instead",
1915        MasterProcedureConstants.MASTER_PROCEDURE_THREADS, numThreads, defaultNumThreads);
1916      numThreads = defaultNumThreads;
1917    }
1918    final boolean abortOnCorruption =
1919      conf.getBoolean(MasterProcedureConstants.EXECUTOR_ABORT_ON_CORRUPTION,
1920        MasterProcedureConstants.DEFAULT_EXECUTOR_ABORT_ON_CORRUPTION);
1921    procedureStore.start(numThreads);
1922    // Just initialize it but do not start the workers, we will start the workers later by calling
1923    // startProcedureExecutor. See the javadoc for finishActiveMasterInitialization for more
1924    // details.
1925    procedureExecutor.init(numThreads, abortOnCorruption);
1926    if (!procEnv.getRemoteDispatcher().start()) {
1927      throw new HBaseIOException("Failed start of remote dispatcher");
1928    }
1929  }
1930
1931  // will be override in UT
1932  protected void startProcedureExecutor() throws IOException {
1933    procedureExecutor.startWorkers();
1934  }
1935
1936  /**
1937   * Turn on/off Snapshot Cleanup Chore
1938   * @param on indicates whether Snapshot Cleanup Chore is to be run
1939   */
1940  void switchSnapshotCleanup(final boolean on, final boolean synchronous) throws IOException {
1941    if (synchronous) {
1942      synchronized (this.snapshotCleanerChore) {
1943        switchSnapshotCleanup(on);
1944      }
1945    } else {
1946      switchSnapshotCleanup(on);
1947    }
1948  }
1949
1950  private void switchSnapshotCleanup(final boolean on) throws IOException {
1951    snapshotCleanupStateStore.set(on);
1952    if (on) {
1953      getChoreService().scheduleChore(this.snapshotCleanerChore);
1954    } else {
1955      this.snapshotCleanerChore.cancel();
1956    }
1957  }
1958
1959  private void stopProcedureExecutor() {
1960    if (procedureExecutor != null) {
1961      configurationManager.deregisterObserver(procedureExecutor.getEnvironment());
1962      procedureExecutor.getEnvironment().getRemoteDispatcher().stop();
1963      procedureExecutor.stop();
1964      procedureExecutor.join();
1965      procedureExecutor = null;
1966    }
1967
1968    if (procedureStore != null) {
1969      procedureStore.stop(isAborted());
1970      procedureStore = null;
1971    }
1972  }
1973
1974  protected void stopChores() {
1975    shutdownChore(mobFileCleanerChore);
1976    shutdownChore(mobFileCompactionChore);
1977    shutdownChore(balancerChore);
1978    if (regionNormalizerManager != null) {
1979      shutdownChore(regionNormalizerManager.getRegionNormalizerChore());
1980    }
1981    shutdownChore(clusterStatusChore);
1982    shutdownChore(catalogJanitorChore);
1983    shutdownChore(clusterStatusPublisherChore);
1984    shutdownChore(snapshotQuotaChore);
1985    shutdownChore(logCleaner);
1986    if (hfileCleaners != null) {
1987      for (ScheduledChore chore : hfileCleaners) {
1988        chore.shutdown();
1989      }
1990      hfileCleaners = null;
1991    }
1992    shutdownChore(replicationBarrierCleaner);
1993    shutdownChore(snapshotCleanerChore);
1994    shutdownChore(hbckChore);
1995    shutdownChore(regionsRecoveryChore);
1996    shutdownChore(rollingUpgradeChore);
1997    shutdownChore(oldWALsDirSizeChore);
1998  }
1999
2000  /** Returns Get remote side's InetAddress */
2001  InetAddress getRemoteInetAddress(final int port, final long serverStartCode)
2002    throws UnknownHostException {
2003    // Do it out here in its own little method so can fake an address when
2004    // mocking up in tests.
2005    InetAddress ia = RpcServer.getRemoteIp();
2006
2007    // The call could be from the local regionserver,
2008    // in which case, there is no remote address.
2009    if (ia == null && serverStartCode == startcode) {
2010      InetSocketAddress isa = rpcServices.getSocketAddress();
2011      if (isa != null && isa.getPort() == port) {
2012        ia = isa.getAddress();
2013      }
2014    }
2015    return ia;
2016  }
2017
2018  /** Returns Maximum time we should run balancer for */
2019  private int getMaxBalancingTime() {
2020    // if max balancing time isn't set, defaulting it to period time
2021    int maxBalancingTime =
2022      getConfiguration().getInt(HConstants.HBASE_BALANCER_MAX_BALANCING, getConfiguration()
2023        .getInt(HConstants.HBASE_BALANCER_PERIOD, HConstants.DEFAULT_HBASE_BALANCER_PERIOD));
2024    return maxBalancingTime;
2025  }
2026
2027  /** Returns Maximum number of regions in transition */
2028  private int getMaxRegionsInTransition() {
2029    int numRegions = this.assignmentManager.getRegionStates().getRegionAssignments().size();
2030    return Math.max((int) Math.floor(numRegions * this.maxRitPercent), 1);
2031  }
2032
2033  /**
2034   * It first sleep to the next balance plan start time. Meanwhile, throttling by the max number
2035   * regions in transition to protect availability.
2036   * @param nextBalanceStartTime   The next balance plan start time
2037   * @param maxRegionsInTransition max number of regions in transition
2038   * @param cutoffTime             when to exit balancer
2039   */
2040  private void balanceThrottling(long nextBalanceStartTime, int maxRegionsInTransition,
2041    long cutoffTime) {
2042    boolean interrupted = false;
2043
2044    // Sleep to next balance plan start time
2045    // But if there are zero regions in transition, it can skip sleep to speed up.
2046    while (
2047      !interrupted && EnvironmentEdgeManager.currentTime() < nextBalanceStartTime
2048        && this.assignmentManager.getRegionTransitScheduledCount() > 0
2049    ) {
2050      try {
2051        Thread.sleep(100);
2052      } catch (InterruptedException ie) {
2053        interrupted = true;
2054      }
2055    }
2056
2057    // Throttling by max number regions in transition
2058    while (
2059      !interrupted && maxRegionsInTransition > 0
2060        && this.assignmentManager.getRegionTransitScheduledCount() >= maxRegionsInTransition
2061        && EnvironmentEdgeManager.currentTime() <= cutoffTime
2062    ) {
2063      try {
2064        // sleep if the number of regions in transition exceeds the limit
2065        Thread.sleep(100);
2066      } catch (InterruptedException ie) {
2067        interrupted = true;
2068      }
2069    }
2070
2071    if (interrupted) Thread.currentThread().interrupt();
2072  }
2073
2074  public BalanceResponse balance() throws IOException {
2075    return balance(BalanceRequest.defaultInstance());
2076  }
2077
2078  /**
2079   * Trigger a normal balance, see {@link HMaster#balance()} . If the balance is not executed this
2080   * time, the metrics related to the balance will be updated. When balance is running, related
2081   * metrics will be updated at the same time. But if some checking logic failed and cause the
2082   * balancer exit early, we lost the chance to update balancer metrics. This will lead to user
2083   * missing the latest balancer info.
2084   */
2085  public BalanceResponse balanceOrUpdateMetrics() throws IOException {
2086    synchronized (this.balancer) {
2087      BalanceResponse response = balance();
2088      if (!response.isBalancerRan()) {
2089        Map<TableName, Map<ServerName, List<RegionInfo>>> assignments =
2090          this.assignmentManager.getRegionStates().getAssignmentsForBalancer(this.tableStateManager,
2091            this.serverManager.getOnlineServersList());
2092        for (Map<ServerName, List<RegionInfo>> serverMap : assignments.values()) {
2093          serverMap.keySet().removeAll(this.serverManager.getDrainingServersList());
2094        }
2095        this.balancer.updateBalancerLoadInfo(assignments);
2096      }
2097      return response;
2098    }
2099  }
2100
2101  /**
2102   * Checks master state before initiating action over region topology.
2103   * @param action the name of the action under consideration, for logging.
2104   * @return {@code true} when the caller should exit early, {@code false} otherwise.
2105   */
2106  @Override
2107  public boolean skipRegionManagementAction(final String action) {
2108    // Note: this method could be `default` on MasterServices if but for logging.
2109    if (!isInitialized()) {
2110      LOG.debug("Master has not been initialized, don't run {}.", action);
2111      return true;
2112    }
2113    if (this.getServerManager().isClusterShutdown()) {
2114      LOG.info("Cluster is shutting down, don't run {}.", action);
2115      return true;
2116    }
2117    if (isInMaintenanceMode()) {
2118      LOG.info("Master is in maintenance mode, don't run {}.", action);
2119      return true;
2120    }
2121    return false;
2122  }
2123
2124  public BalanceResponse balance(BalanceRequest request) throws IOException {
2125    checkInitialized();
2126
2127    BalanceResponse.Builder responseBuilder = BalanceResponse.newBuilder();
2128
2129    if (loadBalancerStateStore == null || !(loadBalancerStateStore.get() || request.isDryRun())) {
2130      return responseBuilder.build();
2131    }
2132
2133    if (skipRegionManagementAction("balancer")) {
2134      return responseBuilder.build();
2135    }
2136
2137    synchronized (this.balancer) {
2138      try {
2139        this.balancer.onBalancingStart();
2140        // Only allow one balance run at at time.
2141        if (this.assignmentManager.getRegionTransitScheduledCount() > 0) {
2142          List<RegionStateNode> regionsInTransition = assignmentManager.getRegionsInTransition();
2143          // if hbase:meta region is in transition, result of assignment cannot be recorded
2144          // ignore the force flag in that case
2145          boolean metaInTransition = assignmentManager.isMetaRegionInTransition();
2146          List<RegionStateNode> toPrint = regionsInTransition;
2147          int max = 5;
2148          boolean truncated = false;
2149          if (regionsInTransition.size() > max) {
2150            toPrint = regionsInTransition.subList(0, max);
2151            truncated = true;
2152          }
2153
2154          if (!request.isIgnoreRegionsInTransition() || metaInTransition) {
2155            LOG.info("Not running balancer (ignoreRIT=false" + ", metaRIT=" + metaInTransition
2156              + ") because " + assignmentManager.getRegionTransitScheduledCount()
2157              + " region(s) are scheduled to transit " + toPrint
2158              + (truncated ? "(truncated list)" : ""));
2159            return responseBuilder.build();
2160          }
2161        }
2162        if (this.serverManager.areDeadServersInProgress()) {
2163          LOG.info("Not running balancer because processing dead regionserver(s): "
2164            + this.serverManager.getDeadServers());
2165          return responseBuilder.build();
2166        }
2167
2168        if (this.cpHost != null) {
2169          try {
2170            if (this.cpHost.preBalance(request)) {
2171              LOG.debug("Coprocessor bypassing balancer request");
2172              return responseBuilder.build();
2173            }
2174          } catch (IOException ioe) {
2175            LOG.error("Error invoking master coprocessor preBalance()", ioe);
2176            return responseBuilder.build();
2177          }
2178        }
2179
2180        Map<TableName, Map<ServerName, List<RegionInfo>>> assignments =
2181          this.assignmentManager.getRegionStates().getAssignmentsForBalancer(tableStateManager,
2182            this.serverManager.getOnlineServersList());
2183        for (Map<ServerName, List<RegionInfo>> serverMap : assignments.values()) {
2184          serverMap.keySet().removeAll(this.serverManager.getDrainingServersList());
2185        }
2186
2187        // Give the balancer the current cluster state.
2188        this.balancer.updateClusterMetrics(getClusterMetricsWithoutCoprocessor());
2189
2190        List<RegionPlan> plans = this.balancer.balanceCluster(assignments);
2191
2192        responseBuilder.setBalancerRan(true).setMovesCalculated(plans == null ? 0 : plans.size());
2193
2194        if (skipRegionManagementAction("balancer")) {
2195          // make one last check that the cluster isn't shutting down before proceeding.
2196          return responseBuilder.build();
2197        }
2198
2199        // For dry run we don't actually want to execute the moves, but we do want
2200        // to execute the coprocessor below
2201        List<RegionPlan> sucRPs =
2202          request.isDryRun() ? Collections.emptyList() : executeRegionPlansWithThrottling(plans);
2203
2204        if (this.cpHost != null) {
2205          try {
2206            this.cpHost.postBalance(request, sucRPs);
2207          } catch (IOException ioe) {
2208            // balancing already succeeded so don't change the result
2209            LOG.error("Error invoking master coprocessor postBalance()", ioe);
2210          }
2211        }
2212
2213        responseBuilder.setMovesExecuted(sucRPs.size());
2214      } finally {
2215        this.balancer.onBalancingComplete();
2216      }
2217    }
2218
2219    // If LoadBalancer did not generate any plans, it means the cluster is already balanced.
2220    // Return true indicating a success.
2221    return responseBuilder.build();
2222  }
2223
2224  /**
2225   * Execute region plans with throttling
2226   * @param plans to execute
2227   * @return succeeded plans
2228   */
2229  public List<RegionPlan> executeRegionPlansWithThrottling(List<RegionPlan> plans) {
2230    List<RegionPlan> successRegionPlans = new ArrayList<>();
2231    int maxRegionsInTransition = getMaxRegionsInTransition();
2232    long balanceStartTime = EnvironmentEdgeManager.currentTime();
2233    long cutoffTime = balanceStartTime + this.maxBalancingTime;
2234    int rpCount = 0; // number of RegionPlans balanced so far
2235    if (plans != null && !plans.isEmpty()) {
2236      int balanceInterval = this.maxBalancingTime / plans.size();
2237      LOG.info(
2238        "Balancer plans size is " + plans.size() + ", the balance interval is " + balanceInterval
2239          + " ms, and the max number regions in transition is " + maxRegionsInTransition);
2240
2241      for (RegionPlan plan : plans) {
2242        LOG.info("balance " + plan);
2243        // TODO: bulk assign
2244        try {
2245          this.assignmentManager.balance(plan);
2246          this.balancer.updateClusterMetrics(getClusterMetricsWithoutCoprocessor());
2247          this.balancer.throttle(plan);
2248        } catch (HBaseIOException hioe) {
2249          // should ignore failed plans here, avoiding the whole balance plans be aborted
2250          // later calls of balance() can fetch up the failed and skipped plans
2251          LOG.warn("Failed balance plan {}, skipping...", plan, hioe);
2252        } catch (Exception e) {
2253          LOG.warn("Failed throttling assigning a new plan.", e);
2254        }
2255        // rpCount records balance plans processed, does not care if a plan succeeds
2256        rpCount++;
2257        successRegionPlans.add(plan);
2258
2259        if (this.maxBalancingTime > 0) {
2260          balanceThrottling(balanceStartTime + rpCount * balanceInterval, maxRegionsInTransition,
2261            cutoffTime);
2262        }
2263
2264        // if performing next balance exceeds cutoff time, exit the loop
2265        if (
2266          this.maxBalancingTime > 0 && rpCount < plans.size()
2267            && EnvironmentEdgeManager.currentTime() > cutoffTime
2268        ) {
2269          // TODO: After balance, there should not be a cutoff time (keeping it as
2270          // a security net for now)
2271          LOG.debug(
2272            "No more balancing till next balance run; maxBalanceTime=" + this.maxBalancingTime);
2273          break;
2274        }
2275      }
2276    }
2277    LOG.debug("Balancer is going into sleep until next period in {}ms", getConfiguration()
2278      .getInt(HConstants.HBASE_BALANCER_PERIOD, HConstants.DEFAULT_HBASE_BALANCER_PERIOD));
2279    return successRegionPlans;
2280  }
2281
2282  @Override
2283  public RegionNormalizerManager getRegionNormalizerManager() {
2284    return regionNormalizerManager;
2285  }
2286
2287  @Override
2288  public boolean normalizeRegions(final NormalizeTableFilterParams ntfp,
2289    final boolean isHighPriority) throws IOException {
2290    if (regionNormalizerManager == null || !regionNormalizerManager.isNormalizerOn()) {
2291      LOG.debug("Region normalization is disabled, don't run region normalizer.");
2292      return false;
2293    }
2294    if (skipRegionManagementAction("region normalizer")) {
2295      return false;
2296    }
2297    if (assignmentManager.getRegionTransitScheduledCount() > 0) {
2298      return false;
2299    }
2300
2301    final Set<TableName> matchingTables = getTableDescriptors(new LinkedList<>(),
2302      ntfp.getNamespace(), ntfp.getRegex(), ntfp.getTableNames(), false).stream()
2303      .map(TableDescriptor::getTableName).collect(Collectors.toSet());
2304    final Set<TableName> allEnabledTables =
2305      tableStateManager.getTablesInStates(TableState.State.ENABLED);
2306    final List<TableName> targetTables =
2307      new ArrayList<>(Sets.intersection(matchingTables, allEnabledTables));
2308    Collections.shuffle(targetTables);
2309    return regionNormalizerManager.normalizeRegions(targetTables, isHighPriority);
2310  }
2311
2312  /** Returns Client info for use as prefix on an audit log string; who did an action */
2313  @Override
2314  public String getClientIdAuditPrefix() {
2315    return "Client=" + RpcServer.getRequestUserName().orElse(null) + "/"
2316      + RpcServer.getRemoteAddress().orElse(null);
2317  }
2318
2319  /**
2320   * Switch for the background CatalogJanitor thread. Used for testing. The thread will continue to
2321   * run. It will just be a noop if disabled.
2322   * @param b If false, the catalog janitor won't do anything.
2323   */
2324  public void setCatalogJanitorEnabled(final boolean b) {
2325    this.catalogJanitorChore.setEnabled(b);
2326  }
2327
2328  @Override
2329  public long mergeRegions(final RegionInfo[] regionsToMerge, final boolean forcible, final long ng,
2330    final long nonce) throws IOException {
2331    checkInitialized();
2332
2333    final String regionNamesToLog = RegionInfo.getShortNameToLog(regionsToMerge);
2334
2335    if (!isSplitOrMergeEnabled(MasterSwitchType.MERGE)) {
2336      LOG.warn("Merge switch is off! skip merge of " + regionNamesToLog);
2337      throw new DoNotRetryIOException(
2338        "Merge of " + regionNamesToLog + " failed because merge switch is off");
2339    }
2340
2341    if (!getTableDescriptors().get(regionsToMerge[0].getTable()).isMergeEnabled()) {
2342      LOG.warn("Merge is disabled for the table! Skipping merge of {}", regionNamesToLog);
2343      throw new DoNotRetryIOException(
2344        "Merge of " + regionNamesToLog + " failed as region merge is disabled for the table");
2345    }
2346
2347    return MasterProcedureUtil.submitProcedure(new NonceProcedureRunnable(this, ng, nonce) {
2348      @Override
2349      protected void run() throws IOException {
2350        getMaster().getMasterCoprocessorHost().preMergeRegions(regionsToMerge);
2351        String aid = getClientIdAuditPrefix();
2352        LOG.info("{} merge regions {}", aid, regionNamesToLog);
2353        submitProcedure(new MergeTableRegionsProcedure(procedureExecutor.getEnvironment(),
2354          regionsToMerge, forcible));
2355        getMaster().getMasterCoprocessorHost().postMergeRegions(regionsToMerge);
2356      }
2357
2358      @Override
2359      protected String getDescription() {
2360        return "MergeTableProcedure";
2361      }
2362    });
2363  }
2364
2365  @Override
2366  public long splitRegion(final RegionInfo regionInfo, final byte[] splitRow, final long nonceGroup,
2367    final long nonce) throws IOException {
2368    checkInitialized();
2369
2370    if (!isSplitOrMergeEnabled(MasterSwitchType.SPLIT)) {
2371      LOG.warn("Split switch is off! skip split of " + regionInfo);
2372      throw new DoNotRetryIOException(
2373        "Split region " + regionInfo.getRegionNameAsString() + " failed due to split switch off");
2374    }
2375
2376    if (!getTableDescriptors().get(regionInfo.getTable()).isSplitEnabled()) {
2377      LOG.warn("Split is disabled for the table! Skipping split of {}", regionInfo);
2378      throw new DoNotRetryIOException("Split region " + regionInfo.getRegionNameAsString()
2379        + " failed as region split is disabled for the table");
2380    }
2381
2382    return MasterProcedureUtil
2383      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2384        @Override
2385        protected void run() throws IOException {
2386          getMaster().getMasterCoprocessorHost().preSplitRegion(regionInfo.getTable(), splitRow);
2387          LOG.info(getClientIdAuditPrefix() + " split " + regionInfo.getRegionNameAsString());
2388
2389          // Execute the operation asynchronously
2390          submitProcedure(getAssignmentManager().createSplitProcedure(regionInfo, splitRow));
2391        }
2392
2393        @Override
2394        protected String getDescription() {
2395          return "SplitTableProcedure";
2396        }
2397      });
2398  }
2399
2400  private void warmUpRegion(ServerName server, RegionInfo region) {
2401    FutureUtils.addListener(asyncClusterConnection.getRegionServerAdmin(server)
2402      .warmupRegion(RequestConverter.buildWarmupRegionRequest(region)), (r, e) -> {
2403        if (e != null) {
2404          LOG.warn("Failed to warm up region {} on server {}", region, server, e);
2405        }
2406      });
2407  }
2408
2409  // Public so can be accessed by tests. Blocks until move is done.
2410  // Replace with an async implementation from which you can get
2411  // a success/failure result.
2412  @InterfaceAudience.Private
2413  public void move(final byte[] encodedRegionName, byte[] destServerName) throws IOException {
2414    RegionState regionState =
2415      assignmentManager.getRegionStates().getRegionState(Bytes.toString(encodedRegionName));
2416
2417    RegionInfo hri;
2418    if (regionState != null) {
2419      hri = regionState.getRegion();
2420    } else {
2421      throw new UnknownRegionException(Bytes.toStringBinary(encodedRegionName));
2422    }
2423
2424    ServerName dest;
2425    List<ServerName> exclude = hri.getTable().isSystemTable()
2426      ? assignmentManager.getExcludedServersForSystemTable()
2427      : new ArrayList<>(1);
2428    if (
2429      destServerName != null && exclude.contains(ServerName.valueOf(Bytes.toString(destServerName)))
2430    ) {
2431      LOG.info(Bytes.toString(encodedRegionName) + " can not move to "
2432        + Bytes.toString(destServerName) + " because the server is in exclude list");
2433      destServerName = null;
2434    }
2435    if (destServerName == null || destServerName.length == 0) {
2436      LOG.info("Passed destination servername is null/empty so " + "choosing a server at random");
2437      exclude.add(regionState.getServerName());
2438      final List<ServerName> destServers = this.serverManager.createDestinationServersList(exclude);
2439      dest = balancer.randomAssignment(hri, destServers);
2440      if (dest == null) {
2441        LOG.debug("Unable to determine a plan to assign " + hri);
2442        return;
2443      }
2444    } else {
2445      ServerName candidate = ServerName.valueOf(Bytes.toString(destServerName));
2446      dest = balancer.randomAssignment(hri, Lists.newArrayList(candidate));
2447      if (dest == null) {
2448        LOG.debug("Unable to determine a plan to assign " + hri);
2449        return;
2450      }
2451      // TODO: deal with table on master for rs group.
2452      if (dest.equals(serverName)) {
2453        // To avoid unnecessary region moving later by balancer. Don't put user
2454        // regions on master.
2455        LOG.debug("Skipping move of region " + hri.getRegionNameAsString()
2456          + " to avoid unnecessary region moving later by load balancer,"
2457          + " because it should not be on master");
2458        return;
2459      }
2460    }
2461
2462    if (dest.equals(regionState.getServerName())) {
2463      LOG.debug("Skipping move of region " + hri.getRegionNameAsString()
2464        + " because region already assigned to the same server " + dest + ".");
2465      return;
2466    }
2467
2468    // Now we can do the move
2469    RegionPlan rp = new RegionPlan(hri, regionState.getServerName(), dest);
2470    assert rp.getDestination() != null : rp.toString() + " " + dest;
2471
2472    try {
2473      checkInitialized();
2474      if (this.cpHost != null) {
2475        this.cpHost.preMove(hri, rp.getSource(), rp.getDestination());
2476      }
2477
2478      TransitRegionStateProcedure proc =
2479        this.assignmentManager.createMoveRegionProcedure(rp.getRegionInfo(), rp.getDestination());
2480      if (conf.getBoolean(WARMUP_BEFORE_MOVE, DEFAULT_WARMUP_BEFORE_MOVE)) {
2481        // Warmup the region on the destination before initiating the move.
2482        // A region server could reject the close request because it either does not
2483        // have the specified region or the region is being split.
2484        LOG.info(getClientIdAuditPrefix() + " move " + rp + ", warming up region on "
2485          + rp.getDestination());
2486        warmUpRegion(rp.getDestination(), hri);
2487      }
2488      LOG.info(getClientIdAuditPrefix() + " move " + rp + ", running balancer");
2489      Future<byte[]> future = ProcedureSyncWait.submitProcedure(this.procedureExecutor, proc);
2490      try {
2491        // Is this going to work? Will we throw exception on error?
2492        // TODO: CompletableFuture rather than this stunted Future.
2493        future.get();
2494      } catch (InterruptedException | ExecutionException e) {
2495        throw new HBaseIOException(e);
2496      }
2497      if (this.cpHost != null) {
2498        this.cpHost.postMove(hri, rp.getSource(), rp.getDestination());
2499      }
2500    } catch (IOException ioe) {
2501      if (ioe instanceof HBaseIOException) {
2502        throw (HBaseIOException) ioe;
2503      }
2504      throw new HBaseIOException(ioe);
2505    }
2506  }
2507
2508  @Override
2509  public long createTable(final TableDescriptor tableDescriptor, final byte[][] splitKeys,
2510    final long nonceGroup, final long nonce) throws IOException {
2511    checkInitialized();
2512    TableDescriptor desc = getMasterCoprocessorHost().preCreateTableRegionsInfos(tableDescriptor);
2513    if (desc == null) {
2514      throw new IOException("Creation for " + tableDescriptor + " is canceled by CP");
2515    }
2516    String namespace = desc.getTableName().getNamespaceAsString();
2517    this.clusterSchemaService.getNamespace(namespace);
2518
2519    RegionInfo[] newRegions = ModifyRegionUtils.createRegionInfos(desc, splitKeys);
2520    TableDescriptorChecker.sanityCheck(conf, desc);
2521
2522    return MasterProcedureUtil
2523      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2524        @Override
2525        protected void run() throws IOException {
2526          getMaster().getMasterCoprocessorHost().preCreateTable(desc, newRegions);
2527
2528          LOG.info(getClientIdAuditPrefix() + " create " + desc);
2529
2530          // TODO: We can handle/merge duplicate requests, and differentiate the case of
2531          // TableExistsException by saying if the schema is the same or not.
2532          //
2533          // We need to wait for the procedure to potentially fail due to "prepare" sanity
2534          // checks. This will block only the beginning of the procedure. See HBASE-19953.
2535          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createBlockingLatch();
2536          submitProcedure(
2537            new CreateTableProcedure(procedureExecutor.getEnvironment(), desc, newRegions, latch));
2538          latch.await();
2539
2540          getMaster().getMasterCoprocessorHost().postCreateTable(desc, newRegions);
2541        }
2542
2543        @Override
2544        protected String getDescription() {
2545          return "CreateTableProcedure";
2546        }
2547      });
2548  }
2549
2550  @Override
2551  public long createSystemTable(final TableDescriptor tableDescriptor) throws IOException {
2552    return createSystemTable(tableDescriptor, false);
2553  }
2554
2555  private long createSystemTable(final TableDescriptor tableDescriptor, final boolean isCritical)
2556    throws IOException {
2557    if (isStopped()) {
2558      throw new MasterNotRunningException();
2559    }
2560
2561    TableName tableName = tableDescriptor.getTableName();
2562    if (!(tableName.isSystemTable())) {
2563      throw new IllegalArgumentException(
2564        "Only system table creation can use this createSystemTable API");
2565    }
2566
2567    RegionInfo[] newRegions = ModifyRegionUtils.createRegionInfos(tableDescriptor, null);
2568
2569    LOG.info(getClientIdAuditPrefix() + " create " + tableDescriptor);
2570
2571    // This special create table is called locally to master. Therefore, no RPC means no need
2572    // to use nonce to detect duplicated RPC call.
2573    CreateTableProcedure proc =
2574      new CreateTableProcedure(procedureExecutor.getEnvironment(), tableDescriptor, newRegions);
2575    proc.setCriticalSystemTable(isCritical);
2576    return this.procedureExecutor.submitProcedure(proc);
2577  }
2578
2579  private void startActiveMasterManager(int infoPort) throws KeeperException {
2580    String backupZNode = ZNodePaths.joinZNode(zooKeeper.getZNodePaths().backupMasterAddressesZNode,
2581      serverName.toString());
2582    /*
2583     * Add a ZNode for ourselves in the backup master directory since we may not become the active
2584     * master. If so, we want the actual active master to know we are backup masters, so that it
2585     * won't assign regions to us if so configured. If we become the active master later,
2586     * ActiveMasterManager will delete this node explicitly. If we crash before then, ZooKeeper will
2587     * delete this node for us since it is ephemeral.
2588     */
2589    LOG.info("Adding backup master ZNode " + backupZNode);
2590    if (!MasterAddressTracker.setMasterAddress(zooKeeper, backupZNode, serverName, infoPort)) {
2591      LOG.warn("Failed create of " + backupZNode + " by " + serverName);
2592    }
2593    this.activeMasterManager.setInfoPort(infoPort);
2594    int timeout = conf.getInt(HConstants.ZK_SESSION_TIMEOUT, HConstants.DEFAULT_ZK_SESSION_TIMEOUT);
2595    // If we're a backup master, stall until a primary to write this address
2596    if (conf.getBoolean(HConstants.MASTER_TYPE_BACKUP, HConstants.DEFAULT_MASTER_TYPE_BACKUP)) {
2597      LOG.debug("HMaster started in backup mode. Stalling until master znode is written.");
2598      // This will only be a minute or so while the cluster starts up,
2599      // so don't worry about setting watches on the parent znode
2600      while (!activeMasterManager.hasActiveMaster()) {
2601        LOG.debug("Waiting for master address and cluster state znode to be written.");
2602        Threads.sleep(timeout);
2603      }
2604    }
2605
2606    // Here for the master startup process, we use TaskGroup to monitor the whole progress.
2607    // The UI is similar to how Hadoop designed the startup page for the NameNode.
2608    // See HBASE-21521 for more details.
2609    // We do not cleanup the startupTaskGroup, let the startup progress information
2610    // be permanent in the MEM.
2611    startupTaskGroup = TaskMonitor.createTaskGroup(true, "Master startup");
2612    try {
2613      if (activeMasterManager.blockUntilBecomingActiveMaster(timeout, startupTaskGroup)) {
2614        finishActiveMasterInitialization();
2615      }
2616    } catch (Throwable t) {
2617      startupTaskGroup.abort("Failed to become active master due to:" + t.getMessage());
2618      LOG.error(HBaseMarkers.FATAL, "Failed to become active master", t);
2619      // HBASE-5680: Likely hadoop23 vs hadoop 20.x/1.x incompatibility
2620      if (
2621        t instanceof NoClassDefFoundError
2622          && t.getMessage().contains("org/apache/hadoop/hdfs/protocol/HdfsConstants$SafeModeAction")
2623      ) {
2624        // improved error message for this special case
2625        abort("HBase is having a problem with its Hadoop jars.  You may need to recompile "
2626          + "HBase against Hadoop version " + org.apache.hadoop.util.VersionInfo.getVersion()
2627          + " or change your hadoop jars to start properly", t);
2628      } else {
2629        abort("Unhandled exception. Starting shutdown.", t);
2630      }
2631    }
2632  }
2633
2634  private static boolean isCatalogTable(final TableName tableName) {
2635    return tableName.equals(TableName.META_TABLE_NAME);
2636  }
2637
2638  @Override
2639  public long deleteTable(final TableName tableName, final long nonceGroup, final long nonce)
2640    throws IOException {
2641    checkInitialized();
2642
2643    return MasterProcedureUtil
2644      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2645        @Override
2646        protected void run() throws IOException {
2647          getMaster().getMasterCoprocessorHost().preDeleteTable(tableName);
2648
2649          LOG.info(getClientIdAuditPrefix() + " delete " + tableName);
2650
2651          // TODO: We can handle/merge duplicate request
2652          //
2653          // We need to wait for the procedure to potentially fail due to "prepare" sanity
2654          // checks. This will block only the beginning of the procedure. See HBASE-19953.
2655          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createBlockingLatch();
2656          submitProcedure(
2657            new DeleteTableProcedure(procedureExecutor.getEnvironment(), tableName, latch));
2658          latch.await();
2659
2660          getMaster().getMasterCoprocessorHost().postDeleteTable(tableName);
2661        }
2662
2663        @Override
2664        protected String getDescription() {
2665          return "DeleteTableProcedure";
2666        }
2667      });
2668  }
2669
2670  @Override
2671  public long truncateTable(final TableName tableName, final boolean preserveSplits,
2672    final long nonceGroup, final long nonce) throws IOException {
2673    checkInitialized();
2674
2675    return MasterProcedureUtil
2676      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2677        @Override
2678        protected void run() throws IOException {
2679          getMaster().getMasterCoprocessorHost().preTruncateTable(tableName);
2680
2681          LOG.info(getClientIdAuditPrefix() + " truncate " + tableName);
2682          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createLatch(2, 0);
2683          submitProcedure(new TruncateTableProcedure(procedureExecutor.getEnvironment(), tableName,
2684            preserveSplits, latch));
2685          latch.await();
2686
2687          getMaster().getMasterCoprocessorHost().postTruncateTable(tableName);
2688        }
2689
2690        @Override
2691        protected String getDescription() {
2692          return "TruncateTableProcedure";
2693        }
2694      });
2695  }
2696
2697  @Override
2698  public long truncateRegion(final RegionInfo regionInfo, final long nonceGroup, final long nonce)
2699    throws IOException {
2700    checkInitialized();
2701
2702    return MasterProcedureUtil
2703      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2704        @Override
2705        protected void run() throws IOException {
2706          getMaster().getMasterCoprocessorHost().preTruncateRegion(regionInfo);
2707
2708          LOG.info(
2709            getClientIdAuditPrefix() + " truncate region " + regionInfo.getRegionNameAsString());
2710
2711          // Execute the operation asynchronously
2712          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createLatch(2, 0);
2713          submitProcedure(
2714            new TruncateRegionProcedure(procedureExecutor.getEnvironment(), regionInfo, latch));
2715          latch.await();
2716
2717          getMaster().getMasterCoprocessorHost().postTruncateRegion(regionInfo);
2718        }
2719
2720        @Override
2721        protected String getDescription() {
2722          return "TruncateRegionProcedure";
2723        }
2724      });
2725  }
2726
2727  @Override
2728  public long addColumn(final TableName tableName, final ColumnFamilyDescriptor column,
2729    final long nonceGroup, final long nonce) throws IOException {
2730    checkInitialized();
2731    checkTableExists(tableName);
2732
2733    return modifyTable(tableName, new TableDescriptorGetter() {
2734
2735      @Override
2736      public TableDescriptor get() throws IOException {
2737        TableDescriptor old = getTableDescriptors().get(tableName);
2738        if (old.hasColumnFamily(column.getName())) {
2739          throw new InvalidFamilyOperationException("Column family '" + column.getNameAsString()
2740            + "' in table '" + tableName + "' already exists so cannot be added");
2741        }
2742
2743        return TableDescriptorBuilder.newBuilder(old).setColumnFamily(column).build();
2744      }
2745    }, nonceGroup, nonce, true);
2746  }
2747
2748  /**
2749   * Implement to return TableDescriptor after pre-checks
2750   */
2751  protected interface TableDescriptorGetter {
2752    TableDescriptor get() throws IOException;
2753  }
2754
2755  @Override
2756  public long modifyColumn(final TableName tableName, final ColumnFamilyDescriptor descriptor,
2757    final long nonceGroup, final long nonce) throws IOException {
2758    checkInitialized();
2759    checkTableExists(tableName);
2760    return modifyTable(tableName, new TableDescriptorGetter() {
2761
2762      @Override
2763      public TableDescriptor get() throws IOException {
2764        TableDescriptor old = getTableDescriptors().get(tableName);
2765        if (!old.hasColumnFamily(descriptor.getName())) {
2766          throw new InvalidFamilyOperationException("Family '" + descriptor.getNameAsString()
2767            + "' does not exist, so it cannot be modified");
2768        }
2769
2770        return TableDescriptorBuilder.newBuilder(old).modifyColumnFamily(descriptor).build();
2771      }
2772    }, nonceGroup, nonce, true);
2773  }
2774
2775  @Override
2776  public long modifyColumnStoreFileTracker(TableName tableName, byte[] family, String dstSFT,
2777    long nonceGroup, long nonce) throws IOException {
2778    checkInitialized();
2779    return MasterProcedureUtil
2780      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2781
2782        @Override
2783        protected void run() throws IOException {
2784          String sft = getMaster().getMasterCoprocessorHost()
2785            .preModifyColumnFamilyStoreFileTracker(tableName, family, dstSFT);
2786          LOG.info("{} modify column {} store file tracker of table {} to {}",
2787            getClientIdAuditPrefix(), Bytes.toStringBinary(family), tableName, sft);
2788          submitProcedure(new ModifyColumnFamilyStoreFileTrackerProcedure(
2789            procedureExecutor.getEnvironment(), tableName, family, sft));
2790          getMaster().getMasterCoprocessorHost().postModifyColumnFamilyStoreFileTracker(tableName,
2791            family, dstSFT);
2792        }
2793
2794        @Override
2795        protected String getDescription() {
2796          return "ModifyColumnFamilyStoreFileTrackerProcedure";
2797        }
2798      });
2799  }
2800
2801  @Override
2802  public long deleteColumn(final TableName tableName, final byte[] columnName,
2803    final long nonceGroup, final long nonce) throws IOException {
2804    checkInitialized();
2805    checkTableExists(tableName);
2806
2807    return modifyTable(tableName, new TableDescriptorGetter() {
2808
2809      @Override
2810      public TableDescriptor get() throws IOException {
2811        TableDescriptor old = getTableDescriptors().get(tableName);
2812
2813        if (!old.hasColumnFamily(columnName)) {
2814          throw new InvalidFamilyOperationException(
2815            "Family '" + Bytes.toString(columnName) + "' does not exist, so it cannot be deleted");
2816        }
2817        if (old.getColumnFamilyCount() == 1) {
2818          throw new InvalidFamilyOperationException("Family '" + Bytes.toString(columnName)
2819            + "' is the only column family in the table, so it cannot be deleted");
2820        }
2821        return TableDescriptorBuilder.newBuilder(old).removeColumnFamily(columnName).build();
2822      }
2823    }, nonceGroup, nonce, true);
2824  }
2825
2826  @Override
2827  public long enableTable(final TableName tableName, final long nonceGroup, final long nonce)
2828    throws IOException {
2829    checkInitialized();
2830
2831    return MasterProcedureUtil
2832      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2833        @Override
2834        protected void run() throws IOException {
2835          getMaster().getMasterCoprocessorHost().preEnableTable(tableName);
2836
2837          // Normally, it would make sense for this authorization check to exist inside
2838          // AccessController, but because the authorization check is done based on internal state
2839          // (rather than explicit permissions) we'll do the check here instead of in the
2840          // coprocessor.
2841          MasterQuotaManager quotaManager = getMasterQuotaManager();
2842          if (quotaManager != null) {
2843            if (quotaManager.isQuotaInitialized()) {
2844              // skip checking quotas for system tables, see:
2845              // https://issues.apache.org/jira/browse/HBASE-28183
2846              if (!tableName.isSystemTable()) {
2847                SpaceQuotaSnapshot currSnapshotOfTable =
2848                  QuotaTableUtil.getCurrentSnapshotFromQuotaTable(getConnection(), tableName);
2849                if (currSnapshotOfTable != null) {
2850                  SpaceQuotaStatus quotaStatus = currSnapshotOfTable.getQuotaStatus();
2851                  if (
2852                    quotaStatus.isInViolation()
2853                      && SpaceViolationPolicy.DISABLE == quotaStatus.getPolicy().orElse(null)
2854                  ) {
2855                    throw new AccessDeniedException("Enabling the table '" + tableName
2856                      + "' is disallowed due to a violated space quota.");
2857                  }
2858                }
2859              }
2860            } else if (LOG.isTraceEnabled()) {
2861              LOG
2862                .trace("Unable to check for space quotas as the MasterQuotaManager is not enabled");
2863            }
2864          }
2865
2866          LOG.info(getClientIdAuditPrefix() + " enable " + tableName);
2867
2868          // Execute the operation asynchronously - client will check the progress of the operation
2869          // In case the request is from a <1.1 client before returning,
2870          // we want to make sure that the table is prepared to be
2871          // enabled (the table is locked and the table state is set).
2872          // Note: if the procedure throws exception, we will catch it and rethrow.
2873          final ProcedurePrepareLatch prepareLatch = ProcedurePrepareLatch.createLatch();
2874          submitProcedure(
2875            new EnableTableProcedure(procedureExecutor.getEnvironment(), tableName, prepareLatch));
2876          prepareLatch.await();
2877
2878          getMaster().getMasterCoprocessorHost().postEnableTable(tableName);
2879        }
2880
2881        @Override
2882        protected String getDescription() {
2883          return "EnableTableProcedure";
2884        }
2885      });
2886  }
2887
2888  @Override
2889  public long disableTable(final TableName tableName, final long nonceGroup, final long nonce)
2890    throws IOException {
2891    checkInitialized();
2892
2893    return MasterProcedureUtil
2894      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2895        @Override
2896        protected void run() throws IOException {
2897          getMaster().getMasterCoprocessorHost().preDisableTable(tableName);
2898
2899          LOG.info(getClientIdAuditPrefix() + " disable " + tableName);
2900
2901          // Execute the operation asynchronously - client will check the progress of the operation
2902          // In case the request is from a <1.1 client before returning,
2903          // we want to make sure that the table is prepared to be
2904          // enabled (the table is locked and the table state is set).
2905          // Note: if the procedure throws exception, we will catch it and rethrow.
2906          //
2907          // We need to wait for the procedure to potentially fail due to "prepare" sanity
2908          // checks. This will block only the beginning of the procedure. See HBASE-19953.
2909          final ProcedurePrepareLatch prepareLatch = ProcedurePrepareLatch.createBlockingLatch();
2910          submitProcedure(new DisableTableProcedure(procedureExecutor.getEnvironment(), tableName,
2911            false, prepareLatch));
2912          prepareLatch.await();
2913
2914          getMaster().getMasterCoprocessorHost().postDisableTable(tableName);
2915        }
2916
2917        @Override
2918        protected String getDescription() {
2919          return "DisableTableProcedure";
2920        }
2921      });
2922  }
2923
2924  private long modifyTable(final TableName tableName,
2925    final TableDescriptorGetter newDescriptorGetter, final long nonceGroup, final long nonce,
2926    final boolean shouldCheckDescriptor) throws IOException {
2927    return modifyTable(tableName, newDescriptorGetter, nonceGroup, nonce, shouldCheckDescriptor,
2928      true);
2929  }
2930
2931  private long modifyTable(final TableName tableName,
2932    final TableDescriptorGetter newDescriptorGetter, final long nonceGroup, final long nonce,
2933    final boolean shouldCheckDescriptor, final boolean reopenRegions) throws IOException {
2934    return MasterProcedureUtil
2935      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2936        @Override
2937        protected void run() throws IOException {
2938          TableDescriptor oldDescriptor = getMaster().getTableDescriptors().get(tableName);
2939          TableDescriptor newDescriptor = getMaster().getMasterCoprocessorHost()
2940            .preModifyTable(tableName, oldDescriptor, newDescriptorGetter.get());
2941          TableDescriptorChecker.sanityCheck(conf, newDescriptor);
2942          LOG.info("{} modify table {} from {} to {}", getClientIdAuditPrefix(), tableName,
2943            oldDescriptor, newDescriptor);
2944
2945          // Execute the operation synchronously - wait for the operation completes before
2946          // continuing.
2947          //
2948          // We need to wait for the procedure to potentially fail due to "prepare" sanity
2949          // checks. This will block only the beginning of the procedure. See HBASE-19953.
2950          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createBlockingLatch();
2951          submitProcedure(new ModifyTableProcedure(procedureExecutor.getEnvironment(),
2952            newDescriptor, latch, oldDescriptor, shouldCheckDescriptor, reopenRegions));
2953          latch.await();
2954
2955          getMaster().getMasterCoprocessorHost().postModifyTable(tableName, oldDescriptor,
2956            newDescriptor);
2957        }
2958
2959        @Override
2960        protected String getDescription() {
2961          return "ModifyTableProcedure";
2962        }
2963      });
2964
2965  }
2966
2967  @Override
2968  public long modifyTable(final TableName tableName, final TableDescriptor newDescriptor,
2969    final long nonceGroup, final long nonce, final boolean reopenRegions) throws IOException {
2970    checkInitialized();
2971    return modifyTable(tableName, new TableDescriptorGetter() {
2972      @Override
2973      public TableDescriptor get() throws IOException {
2974        return newDescriptor;
2975      }
2976    }, nonceGroup, nonce, false, reopenRegions);
2977
2978  }
2979
2980  @Override
2981  public long modifyTableStoreFileTracker(TableName tableName, String dstSFT, long nonceGroup,
2982    long nonce) throws IOException {
2983    checkInitialized();
2984    return MasterProcedureUtil
2985      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
2986
2987        @Override
2988        protected void run() throws IOException {
2989          String sft = getMaster().getMasterCoprocessorHost()
2990            .preModifyTableStoreFileTracker(tableName, dstSFT);
2991          LOG.info("{} modify table store file tracker of table {} to {}", getClientIdAuditPrefix(),
2992            tableName, sft);
2993          submitProcedure(new ModifyTableStoreFileTrackerProcedure(
2994            procedureExecutor.getEnvironment(), tableName, sft));
2995          getMaster().getMasterCoprocessorHost().postModifyTableStoreFileTracker(tableName, sft);
2996        }
2997
2998        @Override
2999        protected String getDescription() {
3000          return "ModifyTableStoreFileTrackerProcedure";
3001        }
3002      });
3003  }
3004
3005  public long restoreSnapshot(final SnapshotDescription snapshotDesc, final long nonceGroup,
3006    final long nonce, final boolean restoreAcl, final String customSFT) throws IOException {
3007    checkInitialized();
3008    getSnapshotManager().checkSnapshotSupport();
3009
3010    // Ensure namespace exists. Will throw exception if non-known NS.
3011    final TableName dstTable = TableName.valueOf(snapshotDesc.getTable());
3012    getClusterSchema().getNamespace(dstTable.getNamespaceAsString());
3013
3014    return MasterProcedureUtil
3015      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
3016        @Override
3017        protected void run() throws IOException {
3018          setProcId(getSnapshotManager().restoreOrCloneSnapshot(snapshotDesc, getNonceKey(),
3019            restoreAcl, customSFT));
3020        }
3021
3022        @Override
3023        protected String getDescription() {
3024          return "RestoreSnapshotProcedure";
3025        }
3026      });
3027  }
3028
3029  private void checkTableExists(final TableName tableName)
3030    throws IOException, TableNotFoundException {
3031    if (!tableDescriptors.exists(tableName)) {
3032      throw new TableNotFoundException(tableName);
3033    }
3034  }
3035
3036  @Override
3037  public void checkTableModifiable(final TableName tableName)
3038    throws IOException, TableNotFoundException, TableNotDisabledException {
3039    if (isCatalogTable(tableName)) {
3040      throw new IOException("Can't modify catalog tables");
3041    }
3042    checkTableExists(tableName);
3043    TableState ts = getTableStateManager().getTableState(tableName);
3044    if (!ts.isDisabled()) {
3045      throw new TableNotDisabledException("Not DISABLED; " + ts);
3046    }
3047  }
3048
3049  public void reloadRegionServerQuotas() {
3050    // multiple reloads are harmless, so no need for NonceProcedureRunnable
3051    getLiveRegionServers()
3052      .forEach(sn -> procedureExecutor.submitProcedure(new ReloadQuotasProcedure(sn)));
3053  }
3054
3055  public ClusterMetrics getClusterMetricsWithoutCoprocessor() throws InterruptedIOException {
3056    return getClusterMetricsWithoutCoprocessor(EnumSet.allOf(Option.class));
3057  }
3058
3059  public ClusterMetrics getClusterMetricsWithoutCoprocessor(EnumSet<Option> options)
3060    throws InterruptedIOException {
3061    ClusterMetricsBuilder builder = ClusterMetricsBuilder.newBuilder();
3062    // given that hbase1 can't submit the request with Option,
3063    // we return all information to client if the list of Option is empty.
3064    if (options.isEmpty()) {
3065      options = EnumSet.allOf(Option.class);
3066    }
3067
3068    // TASKS and/or LIVE_SERVERS will populate this map, which will be given to the builder if
3069    // not null after option processing completes.
3070    Map<ServerName, ServerMetrics> serverMetricsMap = null;
3071
3072    for (Option opt : options) {
3073      switch (opt) {
3074        case HBASE_VERSION:
3075          builder.setHBaseVersion(VersionInfo.getVersion());
3076          break;
3077        case CLUSTER_ID:
3078          builder.setClusterId(getClusterId());
3079          break;
3080        case MASTER:
3081          builder.setMasterName(getServerName());
3082          break;
3083        case BACKUP_MASTERS:
3084          builder.setBackerMasterNames(getBackupMasters());
3085          break;
3086        case TASKS: {
3087          // Master tasks
3088          builder.setMasterTasks(TaskMonitor.get().getTasks().stream()
3089            .map(task -> ServerTaskBuilder.newBuilder().setDescription(task.getDescription())
3090              .setStatus(task.getStatus())
3091              .setState(ServerTask.State.valueOf(task.getState().name()))
3092              .setStartTime(task.getStartTime()).setCompletionTime(task.getCompletionTimestamp())
3093              .build())
3094            .collect(Collectors.toList()));
3095          // TASKS is also synonymous with LIVE_SERVERS for now because task information for
3096          // regionservers is carried in ServerLoad.
3097          // Add entries to serverMetricsMap for all live servers, if we haven't already done so
3098          if (serverMetricsMap == null) {
3099            serverMetricsMap = getOnlineServers();
3100          }
3101          break;
3102        }
3103        case LIVE_SERVERS: {
3104          // Add entries to serverMetricsMap for all live servers, if we haven't already done so
3105          if (serverMetricsMap == null) {
3106            serverMetricsMap = getOnlineServers();
3107          }
3108          break;
3109        }
3110        case DEAD_SERVERS: {
3111          if (serverManager != null) {
3112            builder.setDeadServerNames(
3113              new ArrayList<>(serverManager.getDeadServers().copyServerNames()));
3114          }
3115          break;
3116        }
3117        case UNKNOWN_SERVERS: {
3118          if (serverManager != null) {
3119            builder.setUnknownServerNames(getUnknownServers());
3120          }
3121          break;
3122        }
3123        case MASTER_COPROCESSORS: {
3124          if (cpHost != null) {
3125            builder.setMasterCoprocessorNames(Arrays.asList(getMasterCoprocessors()));
3126          }
3127          break;
3128        }
3129        case REGIONS_IN_TRANSITION: {
3130          if (assignmentManager != null) {
3131            builder.setRegionsInTransition(
3132              new ArrayList<>(assignmentManager.getRegionsStateInTransition()));
3133          }
3134          break;
3135        }
3136        case BALANCER_ON: {
3137          if (loadBalancerStateStore != null) {
3138            builder.setBalancerOn(loadBalancerStateStore.get());
3139          }
3140          break;
3141        }
3142        case MASTER_INFO_PORT: {
3143          if (infoServer != null) {
3144            builder.setMasterInfoPort(infoServer.getPort());
3145          }
3146          break;
3147        }
3148        case SERVERS_NAME: {
3149          if (serverManager != null) {
3150            builder.setServerNames(serverManager.getOnlineServersList());
3151          }
3152          break;
3153        }
3154        case TABLE_TO_REGIONS_COUNT: {
3155          if (isActiveMaster() && isInitialized() && assignmentManager != null) {
3156            try {
3157              Map<TableName, RegionStatesCount> tableRegionStatesCountMap = new HashMap<>();
3158              List<TableDescriptor> tableDescriptors = listTableDescriptors(null, null, null, true);
3159              for (TableDescriptor tableDescriptor : tableDescriptors) {
3160                TableName tableName = tableDescriptor.getTableName();
3161                RegionStatesCount regionStatesCount =
3162                  assignmentManager.getRegionStatesCount(tableName);
3163                tableRegionStatesCountMap.put(tableName, regionStatesCount);
3164              }
3165              builder.setTableRegionStatesCount(tableRegionStatesCountMap);
3166            } catch (IOException e) {
3167              LOG.error("Error while populating TABLE_TO_REGIONS_COUNT for Cluster Metrics..", e);
3168            }
3169          }
3170          break;
3171        }
3172        case DECOMMISSIONED_SERVERS: {
3173          if (serverManager != null) {
3174            builder.setDecommissionedServerNames(serverManager.getDrainingServersList());
3175          }
3176          break;
3177        }
3178      }
3179    }
3180
3181    if (serverMetricsMap != null) {
3182      builder.setLiveServerMetrics(serverMetricsMap);
3183    }
3184
3185    return builder.build();
3186  }
3187
3188  private List<ServerName> getUnknownServers() {
3189    if (serverManager != null) {
3190      final Set<ServerName> serverNames = getAssignmentManager().getRegionStates().getRegionStates()
3191        .stream().map(RegionState::getServerName).collect(Collectors.toSet());
3192      final List<ServerName> unknownServerNames = serverNames.stream()
3193        .filter(sn -> sn != null && serverManager.isServerUnknown(sn)).collect(Collectors.toList());
3194      return unknownServerNames;
3195    }
3196    return null;
3197  }
3198
3199  private Map<ServerName, ServerMetrics> getOnlineServers() {
3200    if (serverManager != null) {
3201      final Map<ServerName, ServerMetrics> map = new HashMap<>();
3202      serverManager.getOnlineServers().entrySet().forEach(e -> map.put(e.getKey(), e.getValue()));
3203      return map;
3204    }
3205    return null;
3206  }
3207
3208  /** Returns cluster status */
3209  public ClusterMetrics getClusterMetrics() throws IOException {
3210    return getClusterMetrics(EnumSet.allOf(Option.class));
3211  }
3212
3213  public ClusterMetrics getClusterMetrics(EnumSet<Option> options) throws IOException {
3214    if (cpHost != null) {
3215      cpHost.preGetClusterMetrics();
3216    }
3217    ClusterMetrics status = getClusterMetricsWithoutCoprocessor(options);
3218    if (cpHost != null) {
3219      cpHost.postGetClusterMetrics(status);
3220    }
3221    return status;
3222  }
3223
3224  /** Returns info port of active master or 0 if any exception occurs. */
3225  public int getActiveMasterInfoPort() {
3226    return activeMasterManager.getActiveMasterInfoPort();
3227  }
3228
3229  /**
3230   * @param sn is ServerName of the backup master
3231   * @return info port of backup master or 0 if any exception occurs.
3232   */
3233  public int getBackupMasterInfoPort(final ServerName sn) {
3234    return activeMasterManager.getBackupMasterInfoPort(sn);
3235  }
3236
3237  /**
3238   * The set of loaded coprocessors is stored in a static set. Since it's statically allocated, it
3239   * does not require that HMaster's cpHost be initialized prior to accessing it.
3240   * @return a String representation of the set of names of the loaded coprocessors.
3241   */
3242  public static String getLoadedCoprocessors() {
3243    return CoprocessorHost.getLoadedCoprocessors().toString();
3244  }
3245
3246  /** Returns timestamp in millis when HMaster was started. */
3247  public long getMasterStartTime() {
3248    return startcode;
3249  }
3250
3251  /** Returns timestamp in millis when HMaster became the active master. */
3252  @Override
3253  public long getMasterActiveTime() {
3254    return masterActiveTime;
3255  }
3256
3257  /** Returns timestamp in millis when HMaster finished becoming the active master */
3258  public long getMasterFinishedInitializationTime() {
3259    return masterFinishedInitializationTime;
3260  }
3261
3262  public int getNumWALFiles() {
3263    return 0;
3264  }
3265
3266  public ProcedureStore getProcedureStore() {
3267    return procedureStore;
3268  }
3269
3270  public int getRegionServerInfoPort(final ServerName sn) {
3271    int port = this.serverManager.getInfoPort(sn);
3272    return port == 0
3273      ? conf.getInt(HConstants.REGIONSERVER_INFO_PORT, HConstants.DEFAULT_REGIONSERVER_INFOPORT)
3274      : port;
3275  }
3276
3277  @Override
3278  public String getRegionServerVersion(ServerName sn) {
3279    // Will return "0.0.0" if the server is not online to prevent move system region to unknown
3280    // version RS.
3281    return this.serverManager.getVersion(sn);
3282  }
3283
3284  @Override
3285  public void checkIfShouldMoveSystemRegionAsync() {
3286    assignmentManager.checkIfShouldMoveSystemRegionAsync();
3287  }
3288
3289  /** Returns array of coprocessor SimpleNames. */
3290  public String[] getMasterCoprocessors() {
3291    Set<String> masterCoprocessors = getMasterCoprocessorHost().getCoprocessors();
3292    return masterCoprocessors.toArray(new String[masterCoprocessors.size()]);
3293  }
3294
3295  @Override
3296  public void abort(String reason, Throwable cause) {
3297    if (!setAbortRequested() || isStopped()) {
3298      LOG.debug("Abort called but aborted={}, stopped={}", isAborted(), isStopped());
3299      return;
3300    }
3301    if (cpHost != null) {
3302      // HBASE-4014: dump a list of loaded coprocessors.
3303      LOG.error(HBaseMarkers.FATAL,
3304        "Master server abort: loaded coprocessors are: " + getLoadedCoprocessors());
3305    }
3306    String msg = "***** ABORTING master " + this + ": " + reason + " *****";
3307    if (cause != null) {
3308      LOG.error(HBaseMarkers.FATAL, msg, cause);
3309    } else {
3310      LOG.error(HBaseMarkers.FATAL, msg);
3311    }
3312
3313    try {
3314      stopMaster();
3315    } catch (IOException e) {
3316      LOG.error("Exception occurred while stopping master", e);
3317    }
3318  }
3319
3320  @Override
3321  public MasterCoprocessorHost getMasterCoprocessorHost() {
3322    return cpHost;
3323  }
3324
3325  @Override
3326  public MasterQuotaManager getMasterQuotaManager() {
3327    return quotaManager;
3328  }
3329
3330  @Override
3331  public ProcedureExecutor<MasterProcedureEnv> getMasterProcedureExecutor() {
3332    return procedureExecutor;
3333  }
3334
3335  @Override
3336  public ServerName getServerName() {
3337    return this.serverName;
3338  }
3339
3340  @Override
3341  public AssignmentManager getAssignmentManager() {
3342    return this.assignmentManager;
3343  }
3344
3345  @Override
3346  public CatalogJanitor getCatalogJanitor() {
3347    return this.catalogJanitorChore;
3348  }
3349
3350  public MemoryBoundedLogMessageBuffer getRegionServerFatalLogBuffer() {
3351    return rsFatals;
3352  }
3353
3354  public TaskGroup getStartupProgress() {
3355    return startupTaskGroup;
3356  }
3357
3358  /**
3359   * Shutdown the cluster. Master runs a coordinated stop of all RegionServers and then itself.
3360   */
3361  public void shutdown() throws IOException {
3362    TraceUtil.trace(() -> {
3363      if (cpHost != null) {
3364        cpHost.preShutdown();
3365      }
3366
3367      // Tell the servermanager cluster shutdown has been called. This makes it so when Master is
3368      // last running server, it'll stop itself. Next, we broadcast the cluster shutdown by setting
3369      // the cluster status as down. RegionServers will notice this change in state and will start
3370      // shutting themselves down. When last has exited, Master can go down.
3371      if (this.serverManager != null) {
3372        this.serverManager.shutdownCluster();
3373      }
3374      if (this.clusterStatusTracker != null) {
3375        try {
3376          this.clusterStatusTracker.setClusterDown();
3377        } catch (KeeperException e) {
3378          LOG.error("ZooKeeper exception trying to set cluster as down in ZK", e);
3379        }
3380      }
3381      // Stop the procedure executor. Will stop any ongoing assign, unassign, server crash etc.,
3382      // processing so we can go down.
3383      if (this.procedureExecutor != null) {
3384        this.procedureExecutor.stop();
3385      }
3386      // Shutdown our cluster connection. This will kill any hosted RPCs that might be going on;
3387      // this is what we want especially if the Master is in startup phase doing call outs to
3388      // hbase:meta, etc. when cluster is down. Without ths connection close, we'd have to wait on
3389      // the rpc to timeout.
3390      if (this.asyncClusterConnection != null) {
3391        this.asyncClusterConnection.close();
3392      }
3393    }, "HMaster.shutdown");
3394  }
3395
3396  public void stopMaster() throws IOException {
3397    if (cpHost != null) {
3398      cpHost.preStopMaster();
3399    }
3400    stop("Stopped by " + Thread.currentThread().getName());
3401  }
3402
3403  @Override
3404  public void stop(String msg) {
3405    if (!this.stopped) {
3406      LOG.info("***** STOPPING master '" + this + "' *****");
3407      this.stopped = true;
3408      LOG.info("STOPPED: " + msg);
3409      // Wakes run() if it is sleeping
3410      sleeper.skipSleepCycle();
3411      if (this.activeMasterManager != null) {
3412        this.activeMasterManager.stop();
3413      }
3414    }
3415  }
3416
3417  protected void checkServiceStarted() throws ServerNotRunningYetException {
3418    if (!serviceStarted) {
3419      throw new ServerNotRunningYetException("Server is not running yet");
3420    }
3421  }
3422
3423  void checkInitialized() throws PleaseHoldException, ServerNotRunningYetException,
3424    MasterNotRunningException, MasterStoppedException {
3425    checkServiceStarted();
3426    if (!isInitialized()) {
3427      throw new PleaseHoldException("Master is initializing");
3428    }
3429    if (isStopped()) {
3430      throw new MasterStoppedException();
3431    }
3432  }
3433
3434  /**
3435   * Report whether this master is currently the active master or not. If not active master, we are
3436   * parked on ZK waiting to become active. This method is used for testing.
3437   * @return true if active master, false if not.
3438   */
3439  @Override
3440  public boolean isActiveMaster() {
3441    return activeMaster;
3442  }
3443
3444  /**
3445   * Report whether this master has completed with its initialization and is ready. If ready, the
3446   * master is also the active master. A standby master is never ready. This method is used for
3447   * testing.
3448   * @return true if master is ready to go, false if not.
3449   */
3450  @Override
3451  public boolean isInitialized() {
3452    return initialized.isReady();
3453  }
3454
3455  /**
3456   * Report whether this master is started This method is used for testing.
3457   * @return true if master is ready to go, false if not.
3458   */
3459  public boolean isOnline() {
3460    return serviceStarted;
3461  }
3462
3463  /**
3464   * Report whether this master is in maintenance mode.
3465   * @return true if master is in maintenanceMode
3466   */
3467  @Override
3468  public boolean isInMaintenanceMode() {
3469    return maintenanceMode;
3470  }
3471
3472  public void setInitialized(boolean isInitialized) {
3473    procedureExecutor.getEnvironment().setEventReady(initialized, isInitialized);
3474  }
3475
3476  /**
3477   * Mainly used in procedure related tests, where we will restart ProcedureExecutor and
3478   * AssignmentManager, but we do not want to restart master(to speed up the test), so we need to
3479   * disable rpc for a while otherwise some critical rpc requests such as
3480   * reportRegionStateTransition could fail and cause region server to abort.
3481   */
3482  @RestrictedApi(explanation = "Should only be called in tests", link = "",
3483      allowedOnPath = ".*/src/test/.*")
3484  public void setServiceStarted(boolean started) {
3485    this.serviceStarted = started;
3486  }
3487
3488  @Override
3489  public ProcedureEvent<?> getInitializedEvent() {
3490    return initialized;
3491  }
3492
3493  /**
3494   * Compute the average load across all region servers. Currently, this uses a very naive
3495   * computation - just uses the number of regions being served, ignoring stats about number of
3496   * requests.
3497   * @return the average load
3498   */
3499  public double getAverageLoad() {
3500    if (this.assignmentManager == null) {
3501      return 0;
3502    }
3503
3504    RegionStates regionStates = this.assignmentManager.getRegionStates();
3505    if (regionStates == null) {
3506      return 0;
3507    }
3508    return regionStates.getAverageLoad();
3509  }
3510
3511  @Override
3512  public boolean registerService(Service instance) {
3513    /*
3514     * No stacking of instances is allowed for a single service name
3515     */
3516    Descriptors.ServiceDescriptor serviceDesc = instance.getDescriptorForType();
3517    String serviceName = CoprocessorRpcUtils.getServiceName(serviceDesc);
3518    if (coprocessorServiceHandlers.containsKey(serviceName)) {
3519      LOG.error("Coprocessor service " + serviceName
3520        + " already registered, rejecting request from " + instance);
3521      return false;
3522    }
3523
3524    coprocessorServiceHandlers.put(serviceName, instance);
3525    if (LOG.isDebugEnabled()) {
3526      LOG.debug("Registered master coprocessor service: service=" + serviceName);
3527    }
3528    return true;
3529  }
3530
3531  /**
3532   * Utility for constructing an instance of the passed HMaster class.
3533   * @return HMaster instance.
3534   */
3535  public static HMaster constructMaster(Class<? extends HMaster> masterClass,
3536    final Configuration conf) {
3537    try {
3538      Constructor<? extends HMaster> c = masterClass.getConstructor(Configuration.class);
3539      return c.newInstance(conf);
3540    } catch (Exception e) {
3541      Throwable error = e;
3542      if (
3543        e instanceof InvocationTargetException
3544          && ((InvocationTargetException) e).getTargetException() != null
3545      ) {
3546        error = ((InvocationTargetException) e).getTargetException();
3547      }
3548      throw new RuntimeException("Failed construction of Master: " + masterClass.toString() + ". ",
3549        error);
3550    }
3551  }
3552
3553  /**
3554   * @see org.apache.hadoop.hbase.master.HMasterCommandLine
3555   */
3556  public static void main(String[] args) {
3557    LOG.info("STARTING service " + HMaster.class.getSimpleName());
3558    VersionInfo.logVersion();
3559    new HMasterCommandLine(HMaster.class).doMain(args);
3560  }
3561
3562  public HFileCleaner getHFileCleaner() {
3563    return this.hfileCleaners.get(0);
3564  }
3565
3566  public List<HFileCleaner> getHFileCleaners() {
3567    return this.hfileCleaners;
3568  }
3569
3570  public LogCleaner getLogCleaner() {
3571    return this.logCleaner;
3572  }
3573
3574  /** Returns the underlying snapshot manager */
3575  @Override
3576  public SnapshotManager getSnapshotManager() {
3577    return this.snapshotManager;
3578  }
3579
3580  /** Returns the underlying MasterProcedureManagerHost */
3581  @Override
3582  public MasterProcedureManagerHost getMasterProcedureManagerHost() {
3583    return mpmHost;
3584  }
3585
3586  @Override
3587  public ClusterSchema getClusterSchema() {
3588    return this.clusterSchemaService;
3589  }
3590
3591  /**
3592   * Create a new Namespace.
3593   * @param namespaceDescriptor descriptor for new Namespace
3594   * @param nonceGroup          Identifier for the source of the request, a client or process.
3595   * @param nonce               A unique identifier for this operation from the client or process
3596   *                            identified by <code>nonceGroup</code> (the source must ensure each
3597   *                            operation gets a unique id).
3598   * @return procedure id
3599   */
3600  long createNamespace(final NamespaceDescriptor namespaceDescriptor, final long nonceGroup,
3601    final long nonce) throws IOException {
3602    checkInitialized();
3603
3604    TableName.isLegalNamespaceName(Bytes.toBytes(namespaceDescriptor.getName()));
3605
3606    return MasterProcedureUtil
3607      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
3608        @Override
3609        protected void run() throws IOException {
3610          getMaster().getMasterCoprocessorHost().preCreateNamespace(namespaceDescriptor);
3611          // We need to wait for the procedure to potentially fail due to "prepare" sanity
3612          // checks. This will block only the beginning of the procedure. See HBASE-19953.
3613          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createBlockingLatch();
3614          LOG.info(getClientIdAuditPrefix() + " creating " + namespaceDescriptor);
3615          // Execute the operation synchronously - wait for the operation to complete before
3616          // continuing.
3617          setProcId(getClusterSchema().createNamespace(namespaceDescriptor, getNonceKey(), latch));
3618          latch.await();
3619          getMaster().getMasterCoprocessorHost().postCreateNamespace(namespaceDescriptor);
3620        }
3621
3622        @Override
3623        protected String getDescription() {
3624          return "CreateNamespaceProcedure";
3625        }
3626      });
3627  }
3628
3629  /**
3630   * Modify an existing Namespace.
3631   * @param nonceGroup Identifier for the source of the request, a client or process.
3632   * @param nonce      A unique identifier for this operation from the client or process identified
3633   *                   by <code>nonceGroup</code> (the source must ensure each operation gets a
3634   *                   unique id).
3635   * @return procedure id
3636   */
3637  long modifyNamespace(final NamespaceDescriptor newNsDescriptor, final long nonceGroup,
3638    final long nonce) throws IOException {
3639    checkInitialized();
3640
3641    TableName.isLegalNamespaceName(Bytes.toBytes(newNsDescriptor.getName()));
3642
3643    return MasterProcedureUtil
3644      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
3645        @Override
3646        protected void run() throws IOException {
3647          NamespaceDescriptor oldNsDescriptor = getNamespace(newNsDescriptor.getName());
3648          getMaster().getMasterCoprocessorHost().preModifyNamespace(oldNsDescriptor,
3649            newNsDescriptor);
3650          // We need to wait for the procedure to potentially fail due to "prepare" sanity
3651          // checks. This will block only the beginning of the procedure. See HBASE-19953.
3652          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createBlockingLatch();
3653          LOG.info(getClientIdAuditPrefix() + " modify " + newNsDescriptor);
3654          // Execute the operation synchronously - wait for the operation to complete before
3655          // continuing.
3656          setProcId(getClusterSchema().modifyNamespace(newNsDescriptor, getNonceKey(), latch));
3657          latch.await();
3658          getMaster().getMasterCoprocessorHost().postModifyNamespace(oldNsDescriptor,
3659            newNsDescriptor);
3660        }
3661
3662        @Override
3663        protected String getDescription() {
3664          return "ModifyNamespaceProcedure";
3665        }
3666      });
3667  }
3668
3669  /**
3670   * Delete an existing Namespace. Only empty Namespaces (no tables) can be removed.
3671   * @param nonceGroup Identifier for the source of the request, a client or process.
3672   * @param nonce      A unique identifier for this operation from the client or process identified
3673   *                   by <code>nonceGroup</code> (the source must ensure each operation gets a
3674   *                   unique id).
3675   * @return procedure id
3676   */
3677  long deleteNamespace(final String name, final long nonceGroup, final long nonce)
3678    throws IOException {
3679    checkInitialized();
3680
3681    return MasterProcedureUtil
3682      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
3683        @Override
3684        protected void run() throws IOException {
3685          getMaster().getMasterCoprocessorHost().preDeleteNamespace(name);
3686          LOG.info(getClientIdAuditPrefix() + " delete " + name);
3687          // Execute the operation synchronously - wait for the operation to complete before
3688          // continuing.
3689          //
3690          // We need to wait for the procedure to potentially fail due to "prepare" sanity
3691          // checks. This will block only the beginning of the procedure. See HBASE-19953.
3692          ProcedurePrepareLatch latch = ProcedurePrepareLatch.createBlockingLatch();
3693          setProcId(submitProcedure(
3694            new DeleteNamespaceProcedure(procedureExecutor.getEnvironment(), name, latch)));
3695          latch.await();
3696          // Will not be invoked in the face of Exception thrown by the Procedure's execution
3697          getMaster().getMasterCoprocessorHost().postDeleteNamespace(name);
3698        }
3699
3700        @Override
3701        protected String getDescription() {
3702          return "DeleteNamespaceProcedure";
3703        }
3704      });
3705  }
3706
3707  /**
3708   * Get a Namespace
3709   * @param name Name of the Namespace
3710   * @return Namespace descriptor for <code>name</code>
3711   */
3712  NamespaceDescriptor getNamespace(String name) throws IOException {
3713    checkInitialized();
3714    if (this.cpHost != null) this.cpHost.preGetNamespaceDescriptor(name);
3715    NamespaceDescriptor nsd = this.clusterSchemaService.getNamespace(name);
3716    if (this.cpHost != null) this.cpHost.postGetNamespaceDescriptor(nsd);
3717    return nsd;
3718  }
3719
3720  /**
3721   * Get all Namespaces
3722   * @return All Namespace descriptors
3723   */
3724  List<NamespaceDescriptor> getNamespaces() throws IOException {
3725    checkInitialized();
3726    final List<NamespaceDescriptor> nsds = new ArrayList<>();
3727    if (cpHost != null) {
3728      cpHost.preListNamespaceDescriptors(nsds);
3729    }
3730    nsds.addAll(this.clusterSchemaService.getNamespaces());
3731    if (this.cpHost != null) {
3732      this.cpHost.postListNamespaceDescriptors(nsds);
3733    }
3734    return nsds;
3735  }
3736
3737  /**
3738   * List namespace names
3739   * @return All namespace names
3740   */
3741  public List<String> listNamespaces() throws IOException {
3742    checkInitialized();
3743    List<String> namespaces = new ArrayList<>();
3744    if (cpHost != null) {
3745      cpHost.preListNamespaces(namespaces);
3746    }
3747    for (NamespaceDescriptor namespace : clusterSchemaService.getNamespaces()) {
3748      namespaces.add(namespace.getName());
3749    }
3750    if (cpHost != null) {
3751      cpHost.postListNamespaces(namespaces);
3752    }
3753    return namespaces;
3754  }
3755
3756  @Override
3757  public List<TableName> listTableNamesByNamespace(String name) throws IOException {
3758    checkInitialized();
3759    return listTableNames(name, null, true);
3760  }
3761
3762  @Override
3763  public List<TableDescriptor> listTableDescriptorsByNamespace(String name) throws IOException {
3764    checkInitialized();
3765    return listTableDescriptors(name, null, null, true);
3766  }
3767
3768  @Override
3769  public boolean abortProcedure(final long procId, final boolean mayInterruptIfRunning)
3770    throws IOException {
3771    if (cpHost != null) {
3772      cpHost.preAbortProcedure(this.procedureExecutor, procId);
3773    }
3774
3775    final boolean result = this.procedureExecutor.abort(procId, mayInterruptIfRunning);
3776
3777    if (cpHost != null) {
3778      cpHost.postAbortProcedure();
3779    }
3780
3781    return result;
3782  }
3783
3784  @Override
3785  public List<Procedure<?>> getProcedures() throws IOException {
3786    if (cpHost != null) {
3787      cpHost.preGetProcedures();
3788    }
3789
3790    @SuppressWarnings({ "unchecked", "rawtypes" })
3791    List<Procedure<?>> procList = (List) this.procedureExecutor.getProcedures();
3792
3793    if (cpHost != null) {
3794      cpHost.postGetProcedures(procList);
3795    }
3796
3797    return procList;
3798  }
3799
3800  @Override
3801  public List<LockedResource> getLocks() throws IOException {
3802    if (cpHost != null) {
3803      cpHost.preGetLocks();
3804    }
3805
3806    MasterProcedureScheduler procedureScheduler =
3807      procedureExecutor.getEnvironment().getProcedureScheduler();
3808
3809    final List<LockedResource> lockedResources = procedureScheduler.getLocks();
3810
3811    if (cpHost != null) {
3812      cpHost.postGetLocks(lockedResources);
3813    }
3814
3815    return lockedResources;
3816  }
3817
3818  /**
3819   * Returns the list of table descriptors that match the specified request
3820   * @param namespace        the namespace to query, or null if querying for all
3821   * @param regex            The regular expression to match against, or null if querying for all
3822   * @param tableNameList    the list of table names, or null if querying for all
3823   * @param includeSysTables False to match only against userspace tables
3824   * @return the list of table descriptors
3825   */
3826  public List<TableDescriptor> listTableDescriptors(final String namespace, final String regex,
3827    final List<TableName> tableNameList, final boolean includeSysTables) throws IOException {
3828    List<TableDescriptor> htds = new ArrayList<>();
3829    if (cpHost != null) {
3830      cpHost.preGetTableDescriptors(tableNameList, htds, regex);
3831    }
3832    htds = getTableDescriptors(htds, namespace, regex, tableNameList, includeSysTables);
3833    if (cpHost != null) {
3834      cpHost.postGetTableDescriptors(tableNameList, htds, regex);
3835    }
3836    return htds;
3837  }
3838
3839  /**
3840   * Returns the list of table names that match the specified request
3841   * @param regex            The regular expression to match against, or null if querying for all
3842   * @param namespace        the namespace to query, or null if querying for all
3843   * @param includeSysTables False to match only against userspace tables
3844   * @return the list of table names
3845   */
3846  public List<TableName> listTableNames(final String namespace, final String regex,
3847    final boolean includeSysTables) throws IOException {
3848    List<TableDescriptor> htds = new ArrayList<>();
3849    if (cpHost != null) {
3850      cpHost.preGetTableNames(htds, regex);
3851    }
3852    htds = getTableDescriptors(htds, namespace, regex, null, includeSysTables);
3853    if (cpHost != null) {
3854      cpHost.postGetTableNames(htds, regex);
3855    }
3856    List<TableName> result = new ArrayList<>(htds.size());
3857    for (TableDescriptor htd : htds)
3858      result.add(htd.getTableName());
3859    return result;
3860  }
3861
3862  /**
3863   * Return a list of table descriptors after applying any provided filter parameters. Note that the
3864   * user-facing description of this filter logic is presented on the class-level javadoc of
3865   * {@link NormalizeTableFilterParams}.
3866   */
3867  private List<TableDescriptor> getTableDescriptors(final List<TableDescriptor> htds,
3868    final String namespace, final String regex, final List<TableName> tableNameList,
3869    final boolean includeSysTables) throws IOException {
3870    if (tableNameList == null || tableNameList.isEmpty()) {
3871      // request for all TableDescriptors
3872      Collection<TableDescriptor> allHtds;
3873      if (namespace != null && namespace.length() > 0) {
3874        // Do a check on the namespace existence. Will fail if it does not exist.
3875        this.clusterSchemaService.getNamespace(namespace);
3876        allHtds = tableDescriptors.getByNamespace(namespace).values();
3877      } else {
3878        allHtds = tableDescriptors.getAll().values();
3879      }
3880      for (TableDescriptor desc : allHtds) {
3881        if (
3882          tableStateManager.isTablePresent(desc.getTableName())
3883            && (includeSysTables || !desc.getTableName().isSystemTable())
3884        ) {
3885          htds.add(desc);
3886        }
3887      }
3888    } else {
3889      for (TableName s : tableNameList) {
3890        if (tableStateManager.isTablePresent(s)) {
3891          TableDescriptor desc = tableDescriptors.get(s);
3892          if (desc != null) {
3893            htds.add(desc);
3894          }
3895        }
3896      }
3897    }
3898
3899    // Retains only those matched by regular expression.
3900    if (regex != null) filterTablesByRegex(htds, Pattern.compile(regex));
3901    return htds;
3902  }
3903
3904  /**
3905   * Removes the table descriptors that don't match the pattern.
3906   * @param descriptors list of table descriptors to filter
3907   * @param pattern     the regex to use
3908   */
3909  private static void filterTablesByRegex(final Collection<TableDescriptor> descriptors,
3910    final Pattern pattern) {
3911    final String defaultNS = NamespaceDescriptor.DEFAULT_NAMESPACE_NAME_STR;
3912    Iterator<TableDescriptor> itr = descriptors.iterator();
3913    while (itr.hasNext()) {
3914      TableDescriptor htd = itr.next();
3915      String tableName = htd.getTableName().getNameAsString();
3916      boolean matched = pattern.matcher(tableName).matches();
3917      if (!matched && htd.getTableName().getNamespaceAsString().equals(defaultNS)) {
3918        matched = pattern.matcher(defaultNS + TableName.NAMESPACE_DELIM + tableName).matches();
3919      }
3920      if (!matched) {
3921        itr.remove();
3922      }
3923    }
3924  }
3925
3926  @Override
3927  public long getLastMajorCompactionTimestamp(TableName table) throws IOException {
3928    return getClusterMetrics(EnumSet.of(Option.LIVE_SERVERS))
3929      .getLastMajorCompactionTimestamp(table);
3930  }
3931
3932  @Override
3933  public long getLastMajorCompactionTimestampForRegion(byte[] regionName) throws IOException {
3934    return getClusterMetrics(EnumSet.of(Option.LIVE_SERVERS))
3935      .getLastMajorCompactionTimestamp(regionName);
3936  }
3937
3938  /**
3939   * Gets the mob file compaction state for a specific table. Whether all the mob files are selected
3940   * is known during the compaction execution, but the statistic is done just before compaction
3941   * starts, it is hard to know the compaction type at that time, so the rough statistics are chosen
3942   * for the mob file compaction. Only two compaction states are available,
3943   * CompactionState.MAJOR_AND_MINOR and CompactionState.NONE.
3944   * @param tableName The current table name.
3945   * @return If a given table is in mob file compaction now.
3946   */
3947  public GetRegionInfoResponse.CompactionState getMobCompactionState(TableName tableName) {
3948    AtomicInteger compactionsCount = mobCompactionStates.get(tableName);
3949    if (compactionsCount != null && compactionsCount.get() != 0) {
3950      return GetRegionInfoResponse.CompactionState.MAJOR_AND_MINOR;
3951    }
3952    return GetRegionInfoResponse.CompactionState.NONE;
3953  }
3954
3955  public void reportMobCompactionStart(TableName tableName) throws IOException {
3956    IdLock.Entry lockEntry = null;
3957    try {
3958      lockEntry = mobCompactionLock.getLockEntry(tableName.hashCode());
3959      AtomicInteger compactionsCount = mobCompactionStates.get(tableName);
3960      if (compactionsCount == null) {
3961        compactionsCount = new AtomicInteger(0);
3962        mobCompactionStates.put(tableName, compactionsCount);
3963      }
3964      compactionsCount.incrementAndGet();
3965    } finally {
3966      if (lockEntry != null) {
3967        mobCompactionLock.releaseLockEntry(lockEntry);
3968      }
3969    }
3970  }
3971
3972  public void reportMobCompactionEnd(TableName tableName) throws IOException {
3973    IdLock.Entry lockEntry = null;
3974    try {
3975      lockEntry = mobCompactionLock.getLockEntry(tableName.hashCode());
3976      AtomicInteger compactionsCount = mobCompactionStates.get(tableName);
3977      if (compactionsCount != null) {
3978        int count = compactionsCount.decrementAndGet();
3979        // remove the entry if the count is 0.
3980        if (count == 0) {
3981          mobCompactionStates.remove(tableName);
3982        }
3983      }
3984    } finally {
3985      if (lockEntry != null) {
3986        mobCompactionLock.releaseLockEntry(lockEntry);
3987      }
3988    }
3989  }
3990
3991  /**
3992   * Queries the state of the {@link LoadBalancerStateStore}. If the balancer is not initialized,
3993   * false is returned.
3994   * @return The state of the load balancer, or false if the load balancer isn't defined.
3995   */
3996  public boolean isBalancerOn() {
3997    return !isInMaintenanceMode() && loadBalancerStateStore != null && loadBalancerStateStore.get();
3998  }
3999
4000  /**
4001   * Queries the state of the {@link RegionNormalizerStateStore}. If it's not initialized, false is
4002   * returned.
4003   */
4004  public boolean isNormalizerOn() {
4005    return !isInMaintenanceMode() && getRegionNormalizerManager().isNormalizerOn();
4006  }
4007
4008  /**
4009   * Queries the state of the {@link SplitOrMergeStateStore}. If it is not initialized, false is
4010   * returned. If switchType is illegal, false will return.
4011   * @param switchType see {@link org.apache.hadoop.hbase.client.MasterSwitchType}
4012   * @return The state of the switch
4013   */
4014  @Override
4015  public boolean isSplitOrMergeEnabled(MasterSwitchType switchType) {
4016    return !isInMaintenanceMode() && splitOrMergeStateStore != null
4017      && splitOrMergeStateStore.isSplitOrMergeEnabled(switchType);
4018  }
4019
4020  /**
4021   * Fetch the configured {@link LoadBalancer} class name. If none is set, a default is returned.
4022   * <p/>
4023   * Notice that, the base load balancer will always be {@link RSGroupBasedLoadBalancer} now, so
4024   * this method will return the balancer used inside each rs group.
4025   * @return The name of the {@link LoadBalancer} in use.
4026   */
4027  public String getLoadBalancerClassName() {
4028    return conf.get(HConstants.HBASE_MASTER_LOADBALANCER_CLASS,
4029      LoadBalancerFactory.getDefaultLoadBalancerClass().getName());
4030  }
4031
4032  public SplitOrMergeStateStore getSplitOrMergeStateStore() {
4033    return splitOrMergeStateStore;
4034  }
4035
4036  @Override
4037  public RSGroupBasedLoadBalancer getLoadBalancer() {
4038    return balancer;
4039  }
4040
4041  @Override
4042  public FavoredNodesManager getFavoredNodesManager() {
4043    return balancer.getFavoredNodesManager();
4044  }
4045
4046  private long executePeerProcedure(AbstractPeerProcedure<?> procedure) throws IOException {
4047    if (!isReplicationPeerModificationEnabled()) {
4048      throw new IOException("Replication peer modification disabled");
4049    }
4050    long procId = procedureExecutor.submitProcedure(procedure);
4051    procedure.getLatch().await();
4052    return procId;
4053  }
4054
4055  @Override
4056  public long addReplicationPeer(String peerId, ReplicationPeerConfig peerConfig, boolean enabled)
4057    throws ReplicationException, IOException {
4058    LOG.info(getClientIdAuditPrefix() + " creating replication peer, id=" + peerId + ", config="
4059      + peerConfig + ", state=" + (enabled ? "ENABLED" : "DISABLED"));
4060    return executePeerProcedure(new AddPeerProcedure(peerId, peerConfig, enabled));
4061  }
4062
4063  @Override
4064  public long removeReplicationPeer(String peerId) throws ReplicationException, IOException {
4065    LOG.info(getClientIdAuditPrefix() + " removing replication peer, id=" + peerId);
4066    return executePeerProcedure(new RemovePeerProcedure(peerId));
4067  }
4068
4069  @Override
4070  public long enableReplicationPeer(String peerId) throws ReplicationException, IOException {
4071    LOG.info(getClientIdAuditPrefix() + " enable replication peer, id=" + peerId);
4072    return executePeerProcedure(new EnablePeerProcedure(peerId));
4073  }
4074
4075  @Override
4076  public long disableReplicationPeer(String peerId) throws ReplicationException, IOException {
4077    LOG.info(getClientIdAuditPrefix() + " disable replication peer, id=" + peerId);
4078    return executePeerProcedure(new DisablePeerProcedure(peerId));
4079  }
4080
4081  @Override
4082  public ReplicationPeerConfig getReplicationPeerConfig(String peerId)
4083    throws ReplicationException, IOException {
4084    if (cpHost != null) {
4085      cpHost.preGetReplicationPeerConfig(peerId);
4086    }
4087    LOG.info(getClientIdAuditPrefix() + " get replication peer config, id=" + peerId);
4088    ReplicationPeerConfig peerConfig = this.replicationPeerManager.getPeerConfig(peerId)
4089      .orElseThrow(() -> new ReplicationPeerNotFoundException(peerId));
4090    if (cpHost != null) {
4091      cpHost.postGetReplicationPeerConfig(peerId);
4092    }
4093    return peerConfig;
4094  }
4095
4096  @Override
4097  public long updateReplicationPeerConfig(String peerId, ReplicationPeerConfig peerConfig)
4098    throws ReplicationException, IOException {
4099    LOG.info(getClientIdAuditPrefix() + " update replication peer config, id=" + peerId
4100      + ", config=" + peerConfig);
4101    return executePeerProcedure(new UpdatePeerConfigProcedure(peerId, peerConfig));
4102  }
4103
4104  @Override
4105  public List<ReplicationPeerDescription> listReplicationPeers(String regex)
4106    throws ReplicationException, IOException {
4107    if (cpHost != null) {
4108      cpHost.preListReplicationPeers(regex);
4109    }
4110    LOG.debug("{} list replication peers, regex={}", getClientIdAuditPrefix(), regex);
4111    Pattern pattern = regex == null ? null : Pattern.compile(regex);
4112    List<ReplicationPeerDescription> peers = this.replicationPeerManager.listPeers(pattern);
4113    if (cpHost != null) {
4114      cpHost.postListReplicationPeers(regex);
4115    }
4116    return peers;
4117  }
4118
4119  @Override
4120  public long transitReplicationPeerSyncReplicationState(String peerId, SyncReplicationState state)
4121    throws ReplicationException, IOException {
4122    LOG.info(
4123      getClientIdAuditPrefix()
4124        + " transit current cluster state to {} in a synchronous replication peer id={}",
4125      state, peerId);
4126    return executePeerProcedure(new TransitPeerSyncReplicationStateProcedure(peerId, state));
4127  }
4128
4129  @Override
4130  public boolean replicationPeerModificationSwitch(boolean on) throws IOException {
4131    return replicationPeerModificationStateStore.set(on);
4132  }
4133
4134  @Override
4135  public boolean isReplicationPeerModificationEnabled() {
4136    return replicationPeerModificationStateStore.get();
4137  }
4138
4139  /**
4140   * Mark region server(s) as decommissioned (previously called 'draining') to prevent additional
4141   * regions from getting assigned to them. Also unload the regions on the servers asynchronously.0
4142   * @param servers Region servers to decommission.
4143   */
4144  public void decommissionRegionServers(final List<ServerName> servers, final boolean offload)
4145    throws IOException {
4146    List<ServerName> serversAdded = new ArrayList<>(servers.size());
4147    // Place the decommission marker first.
4148    String parentZnode = getZooKeeper().getZNodePaths().drainingZNode;
4149    for (ServerName server : servers) {
4150      try {
4151        String node = ZNodePaths.joinZNode(parentZnode, server.getServerName());
4152        ZKUtil.createAndFailSilent(getZooKeeper(), node);
4153      } catch (KeeperException ke) {
4154        throw new HBaseIOException(
4155          this.zooKeeper.prefix("Unable to decommission '" + server.getServerName() + "'."), ke);
4156      }
4157      if (this.serverManager.addServerToDrainList(server)) {
4158        serversAdded.add(server);
4159      }
4160    }
4161    // Move the regions off the decommissioned servers.
4162    if (offload) {
4163      final List<ServerName> destServers = this.serverManager.createDestinationServersList();
4164      for (ServerName server : serversAdded) {
4165        final List<RegionInfo> regionsOnServer = this.assignmentManager.getRegionsOnServer(server);
4166        for (RegionInfo hri : regionsOnServer) {
4167          ServerName dest = balancer.randomAssignment(hri, destServers);
4168          if (dest == null) {
4169            throw new HBaseIOException("Unable to determine a plan to move " + hri);
4170          }
4171          RegionPlan rp = new RegionPlan(hri, server, dest);
4172          this.assignmentManager.moveAsync(rp);
4173        }
4174      }
4175    }
4176  }
4177
4178  /**
4179   * List region servers marked as decommissioned (previously called 'draining') to not get regions
4180   * assigned to them.
4181   * @return List of decommissioned servers.
4182   */
4183  public List<ServerName> listDecommissionedRegionServers() {
4184    return this.serverManager.getDrainingServersList();
4185  }
4186
4187  /**
4188   * Remove decommission marker (previously called 'draining') from a region server to allow regions
4189   * assignments. Load regions onto the server asynchronously if a list of regions is given
4190   * @param server Region server to remove decommission marker from.
4191   */
4192  public void recommissionRegionServer(final ServerName server,
4193    final List<byte[]> encodedRegionNames) throws IOException {
4194    // Remove the server from decommissioned (draining) server list.
4195    String parentZnode = getZooKeeper().getZNodePaths().drainingZNode;
4196    String node = ZNodePaths.joinZNode(parentZnode, server.getServerName());
4197    try {
4198      ZKUtil.deleteNodeFailSilent(getZooKeeper(), node);
4199    } catch (KeeperException ke) {
4200      throw new HBaseIOException(
4201        this.zooKeeper.prefix("Unable to recommission '" + server.getServerName() + "'."), ke);
4202    }
4203    this.serverManager.removeServerFromDrainList(server);
4204
4205    // Load the regions onto the server if we are given a list of regions.
4206    if (encodedRegionNames == null || encodedRegionNames.isEmpty()) {
4207      return;
4208    }
4209    if (!this.serverManager.isServerOnline(server)) {
4210      return;
4211    }
4212    for (byte[] encodedRegionName : encodedRegionNames) {
4213      RegionState regionState =
4214        assignmentManager.getRegionStates().getRegionState(Bytes.toString(encodedRegionName));
4215      if (regionState == null) {
4216        LOG.warn("Unknown region " + Bytes.toStringBinary(encodedRegionName));
4217        continue;
4218      }
4219      RegionInfo hri = regionState.getRegion();
4220      if (server.equals(regionState.getServerName())) {
4221        LOG.info("Skipping move of region " + hri.getRegionNameAsString()
4222          + " because region already assigned to the same server " + server + ".");
4223        continue;
4224      }
4225      RegionPlan rp = new RegionPlan(hri, regionState.getServerName(), server);
4226      this.assignmentManager.moveAsync(rp);
4227    }
4228  }
4229
4230  @Override
4231  public LockManager getLockManager() {
4232    return lockManager;
4233  }
4234
4235  public QuotaObserverChore getQuotaObserverChore() {
4236    return this.quotaObserverChore;
4237  }
4238
4239  public SpaceQuotaSnapshotNotifier getSpaceQuotaSnapshotNotifier() {
4240    return this.spaceQuotaSnapshotNotifier;
4241  }
4242
4243  @SuppressWarnings("unchecked")
4244  private RemoteProcedure<MasterProcedureEnv, ?> getRemoteProcedure(long procId) {
4245    Procedure<?> procedure = procedureExecutor.getProcedure(procId);
4246    if (procedure == null) {
4247      return null;
4248    }
4249    assert procedure instanceof RemoteProcedure;
4250    return (RemoteProcedure<MasterProcedureEnv, ?>) procedure;
4251  }
4252
4253  public void remoteProcedureCompleted(long procId, byte[] remoteResultData) {
4254    LOG.debug("Remote procedure done, pid={}", procId);
4255    RemoteProcedure<MasterProcedureEnv, ?> procedure = getRemoteProcedure(procId);
4256    if (procedure != null) {
4257      procedure.remoteOperationCompleted(procedureExecutor.getEnvironment(), remoteResultData);
4258    }
4259  }
4260
4261  public void remoteProcedureFailed(long procId, RemoteProcedureException error) {
4262    LOG.debug("Remote procedure failed, pid={}", procId, error);
4263    RemoteProcedure<MasterProcedureEnv, ?> procedure = getRemoteProcedure(procId);
4264    if (procedure != null) {
4265      procedure.remoteOperationFailed(procedureExecutor.getEnvironment(), error);
4266    }
4267  }
4268
4269  /**
4270   * Reopen regions provided in the argument
4271   * @param tableName   The current table name
4272   * @param regionNames The region names of the regions to reopen
4273   * @param nonceGroup  Identifier for the source of the request, a client or process
4274   * @param nonce       A unique identifier for this operation from the client or process identified
4275   *                    by <code>nonceGroup</code> (the source must ensure each operation gets a
4276   *                    unique id).
4277   * @return procedure Id
4278   * @throws IOException if reopening region fails while running procedure
4279   * @deprecated since 3.0.0 and will be removed in 4.0.0. Use
4280   *             {@link #reopenRegionsThrottled(TableName, List, long, long)} instead so region
4281   *             reopening honors the configured throttling.
4282   * @see <a href="https://issues.apache.org/jira/browse/HBASE-29809">HBASE-29809</a>
4283   */
4284  @Deprecated
4285  long reopenRegions(final TableName tableName, final List<byte[]> regionNames,
4286    final long nonceGroup, final long nonce) throws IOException {
4287
4288    return MasterProcedureUtil
4289      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4290
4291        @Override
4292        protected void run() throws IOException {
4293          submitProcedure(new ReopenTableRegionsProcedure(tableName, regionNames));
4294        }
4295
4296        @Override
4297        protected String getDescription() {
4298          return "ReopenTableRegionsProcedure";
4299        }
4300
4301      });
4302
4303  }
4304
4305  /**
4306   * Reopen regions provided in the argument. Applies throttling to the procedure to avoid
4307   * overwhelming the system. This is used by the reopenTableRegions methods in the Admin API via
4308   * HMaster.
4309   * @param tableName   The current table name
4310   * @param regionNames The region names of the regions to reopen
4311   * @param nonceGroup  Identifier for the source of the request, a client or process
4312   * @param nonce       A unique identifier for this operation from the client or process identified
4313   *                    by <code>nonceGroup</code> (the source must ensure each operation gets a
4314   *                    unique id).
4315   * @return procedure Id
4316   * @throws IOException if reopening region fails while running procedure
4317   */
4318  long reopenRegionsThrottled(final TableName tableName, final List<byte[]> regionNames,
4319    final long nonceGroup, final long nonce) throws IOException {
4320
4321    checkInitialized();
4322
4323    if (!tableStateManager.isTablePresent(tableName)) {
4324      throw new TableNotFoundException(tableName);
4325    }
4326
4327    TableDescriptor tableDescriptor = getTableDescriptors().get(tableName);
4328    if (tableDescriptor == null) {
4329      throw new TableNotFoundException(tableName);
4330    }
4331
4332    return MasterProcedureUtil
4333      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4334        @Override
4335        protected void run() throws IOException {
4336          ReopenTableRegionsProcedure proc;
4337          if (regionNames.isEmpty()) {
4338            proc = ReopenTableRegionsProcedure.throttled(getConfiguration(), tableDescriptor);
4339          } else {
4340            proc = ReopenTableRegionsProcedure.throttled(getConfiguration(), tableDescriptor,
4341              regionNames);
4342          }
4343
4344          LOG.info("{} throttled reopening {} regions for table {}", getClientIdAuditPrefix(),
4345            regionNames.isEmpty() ? "all" : regionNames.size(), tableName);
4346
4347          submitProcedure(proc);
4348        }
4349
4350        @Override
4351        protected String getDescription() {
4352          return "Throttled ReopenTableRegionsProcedure for " + tableName;
4353        }
4354      });
4355  }
4356
4357  @Override
4358  public ReplicationPeerManager getReplicationPeerManager() {
4359    return replicationPeerManager;
4360  }
4361
4362  @Override
4363  public ReplicationLogCleanerBarrier getReplicationLogCleanerBarrier() {
4364    return replicationLogCleanerBarrier;
4365  }
4366
4367  @Override
4368  public Semaphore getSyncReplicationPeerLock() {
4369    return syncReplicationPeerLock;
4370  }
4371
4372  public HashMap<String, List<Pair<ServerName, ReplicationLoadSource>>>
4373    getReplicationLoad(ServerName[] serverNames) {
4374    List<ReplicationPeerDescription> peerList = this.getReplicationPeerManager().listPeers(null);
4375    if (peerList == null) {
4376      return null;
4377    }
4378    HashMap<String, List<Pair<ServerName, ReplicationLoadSource>>> replicationLoadSourceMap =
4379      new HashMap<>(peerList.size());
4380    peerList.stream()
4381      .forEach(peer -> replicationLoadSourceMap.put(peer.getPeerId(), new ArrayList<>()));
4382    for (ServerName serverName : serverNames) {
4383      List<ReplicationLoadSource> replicationLoadSources =
4384        getServerManager().getLoad(serverName).getReplicationLoadSourceList();
4385      for (ReplicationLoadSource replicationLoadSource : replicationLoadSources) {
4386        List<Pair<ServerName, ReplicationLoadSource>> replicationLoadSourceList =
4387          replicationLoadSourceMap.get(replicationLoadSource.getPeerID());
4388        if (replicationLoadSourceList == null) {
4389          LOG.debug("{} does not exist, but it exists "
4390            + "in znode(/hbase/replication/rs). when the rs restarts, peerId is deleted, so "
4391            + "we just need to ignore it", replicationLoadSource.getPeerID());
4392          continue;
4393        }
4394        replicationLoadSourceList.add(new Pair<>(serverName, replicationLoadSource));
4395      }
4396    }
4397    for (List<Pair<ServerName, ReplicationLoadSource>> loads : replicationLoadSourceMap.values()) {
4398      if (loads.size() > 0) {
4399        loads.sort(Comparator.comparingLong(load -> (-1) * load.getSecond().getReplicationLag()));
4400      }
4401    }
4402    return replicationLoadSourceMap;
4403  }
4404
4405  /**
4406   * This method modifies the master's configuration in order to inject replication-related features
4407   */
4408  @InterfaceAudience.Private
4409  public static void decorateMasterConfiguration(Configuration conf) {
4410    String plugins = conf.get(HBASE_MASTER_LOGCLEANER_PLUGINS);
4411    String cleanerClass = ReplicationLogCleaner.class.getCanonicalName();
4412    if (plugins == null || !plugins.contains(cleanerClass)) {
4413      conf.set(HBASE_MASTER_LOGCLEANER_PLUGINS, plugins + "," + cleanerClass);
4414    }
4415    if (ReplicationUtils.isReplicationForBulkLoadDataEnabled(conf)) {
4416      plugins = conf.get(HFileCleaner.MASTER_HFILE_CLEANER_PLUGINS);
4417      cleanerClass = ReplicationHFileCleaner.class.getCanonicalName();
4418      if (!plugins.contains(cleanerClass)) {
4419        conf.set(HFileCleaner.MASTER_HFILE_CLEANER_PLUGINS, plugins + "," + cleanerClass);
4420      }
4421    }
4422  }
4423
4424  public SnapshotQuotaObserverChore getSnapshotQuotaObserverChore() {
4425    return this.snapshotQuotaChore;
4426  }
4427
4428  public ActiveMasterManager getActiveMasterManager() {
4429    return activeMasterManager;
4430  }
4431
4432  @Override
4433  public SyncReplicationReplayWALManager getSyncReplicationReplayWALManager() {
4434    return this.syncReplicationReplayWALManager;
4435  }
4436
4437  @Override
4438  public HbckChore getHbckChore() {
4439    return this.hbckChore;
4440  }
4441
4442  @Override
4443  public void runReplicationBarrierCleaner() {
4444    ReplicationBarrierCleaner rbc = this.replicationBarrierCleaner;
4445    if (rbc != null) {
4446      rbc.chore();
4447    }
4448  }
4449
4450  @Override
4451  public RSGroupInfoManager getRSGroupInfoManager() {
4452    return rsGroupInfoManager;
4453  }
4454
4455  /**
4456   * Get the compaction state of the table
4457   * @param tableName The table name
4458   * @return CompactionState Compaction state of the table
4459   */
4460  public CompactionState getCompactionState(final TableName tableName) {
4461    CompactionState compactionState = CompactionState.NONE;
4462    try {
4463      List<RegionInfo> regions = assignmentManager.getRegionStates().getRegionsOfTable(tableName);
4464      for (RegionInfo regionInfo : regions) {
4465        ServerName serverName =
4466          assignmentManager.getRegionStates().getRegionServerOfRegion(regionInfo);
4467        if (serverName == null) {
4468          continue;
4469        }
4470        ServerMetrics sl = serverManager.getLoad(serverName);
4471        if (sl == null) {
4472          continue;
4473        }
4474        RegionMetrics regionMetrics = sl.getRegionMetrics().get(regionInfo.getRegionName());
4475        if (regionMetrics == null) {
4476          LOG.warn("Can not get compaction details for the region: {} , it may be not online.",
4477            regionInfo.getRegionNameAsString());
4478          continue;
4479        }
4480        if (regionMetrics.getCompactionState() == CompactionState.MAJOR) {
4481          if (compactionState == CompactionState.MINOR) {
4482            compactionState = CompactionState.MAJOR_AND_MINOR;
4483          } else {
4484            compactionState = CompactionState.MAJOR;
4485          }
4486        } else if (regionMetrics.getCompactionState() == CompactionState.MINOR) {
4487          if (compactionState == CompactionState.MAJOR) {
4488            compactionState = CompactionState.MAJOR_AND_MINOR;
4489          } else {
4490            compactionState = CompactionState.MINOR;
4491          }
4492        }
4493      }
4494    } catch (Exception e) {
4495      compactionState = null;
4496      LOG.error("Exception when get compaction state for " + tableName.getNameAsString(), e);
4497    }
4498    return compactionState;
4499  }
4500
4501  @Override
4502  public MetaLocationSyncer getMetaLocationSyncer() {
4503    return metaLocationSyncer;
4504  }
4505
4506  @RestrictedApi(explanation = "Should only be called in tests", link = "",
4507      allowedOnPath = ".*/src/test/.*")
4508  public MasterRegion getMasterRegion() {
4509    return masterRegion;
4510  }
4511
4512  /**
4513   * Dynamically updates HMaster's configuration. Since HMaster inherits from
4514   * {@link HBaseServerBase}, the {@code updatedConf} parameter references the same
4515   * {@link Configuration} object as HMaster's {@code this.conf} instance variable in a real HBase
4516   * deployment. This isn't necessarily the case in unit tests.
4517   * @param updatedConf the dynamically updated configuration
4518   */
4519  @Override
4520  public void onConfigurationChange(Configuration updatedConf) {
4521    try {
4522      Superusers.initialize(updatedConf);
4523    } catch (IOException e) {
4524      LOG.warn("Failed to initialize SuperUsers on reloading of the configuration");
4525    }
4526    // append the quotas observer back to the master coprocessor key
4527    setQuotasObserver(updatedConf);
4528
4529    boolean originalIsReadOnlyEnabled = CoprocessorConfigurationUtil
4530      .areReadOnlyCoprocessorsLoaded(this.conf, CoprocessorHost.MASTER_COPROCESSOR_CONF_KEY);
4531
4532    // updatedConf and this.conf reference the same Configuration object in an actual HBase
4533    // deployment. However, in unit test cases they reference different Configuration objects, so
4534    // this.conf needs to be updated.
4535    CoprocessorConfigurationUtil.maybeUpdateCoprocessors(updatedConf, this.conf,
4536      originalIsReadOnlyEnabled, this.cpHost, CoprocessorHost.MASTER_COPROCESSOR_CONF_KEY,
4537      this.maintenanceMode, this.toString(), this::initializeCoprocessorHost);
4538
4539    boolean maybeUpdatedReadOnlyMode = CoprocessorConfigurationUtil
4540      .areReadOnlyCoprocessorsLoaded(this.conf, CoprocessorHost.MASTER_COPROCESSOR_CONF_KEY);
4541
4542    if (maybeUpdatedReadOnlyMode != originalIsReadOnlyEnabled) {
4543      AbstractReadOnlyController.manageActiveClusterIdFile(maybeUpdatedReadOnlyMode,
4544        this.getMasterFileSystem());
4545    }
4546  }
4547
4548  @Override
4549  protected NamedQueueRecorder createNamedQueueRecord() {
4550    final boolean isBalancerDecisionRecording =
4551      conf.getBoolean(BaseLoadBalancer.BALANCER_DECISION_BUFFER_ENABLED,
4552        BaseLoadBalancer.DEFAULT_BALANCER_DECISION_BUFFER_ENABLED);
4553    final boolean isBalancerRejectionRecording =
4554      conf.getBoolean(BaseLoadBalancer.BALANCER_REJECTION_BUFFER_ENABLED,
4555        BaseLoadBalancer.DEFAULT_BALANCER_REJECTION_BUFFER_ENABLED);
4556    if (isBalancerDecisionRecording || isBalancerRejectionRecording) {
4557      return NamedQueueRecorder.getInstance(conf);
4558    } else {
4559      return null;
4560    }
4561  }
4562
4563  @Override
4564  protected boolean clusterMode() {
4565    return true;
4566  }
4567
4568  public String getClusterId() {
4569    if (activeMaster) {
4570      return clusterId;
4571    }
4572    return cachedClusterId.getFromCacheOrFetch();
4573  }
4574
4575  public Optional<ServerName> getActiveMaster() {
4576    return activeMasterManager.getActiveMasterServerName();
4577  }
4578
4579  public List<ServerName> getBackupMasters() {
4580    return activeMasterManager.getBackupMasters();
4581  }
4582
4583  @Override
4584  public Iterator<ServerName> getBootstrapNodes() {
4585    return regionServerTracker.getRegionServers().iterator();
4586  }
4587
4588  @Override
4589  public List<HRegionLocation> getMetaLocations() {
4590    return metaRegionLocationCache.getMetaRegionLocations();
4591  }
4592
4593  @Override
4594  public void flushMasterStore() throws IOException {
4595    LOG.info("Force flush master local region.");
4596    if (this.cpHost != null) {
4597      try {
4598        cpHost.preMasterStoreFlush();
4599      } catch (IOException ioe) {
4600        LOG.error("Error invoking master coprocessor preMasterStoreFlush()", ioe);
4601      }
4602    }
4603    masterRegion.flush(true);
4604    if (this.cpHost != null) {
4605      try {
4606        cpHost.postMasterStoreFlush();
4607      } catch (IOException ioe) {
4608        LOG.error("Error invoking master coprocessor postMasterStoreFlush()", ioe);
4609      }
4610    }
4611  }
4612
4613  public Collection<ServerName> getLiveRegionServers() {
4614    return regionServerTracker.getRegionServers();
4615  }
4616
4617  @RestrictedApi(explanation = "Should only be called in tests", link = "",
4618      allowedOnPath = ".*/src/test/.*")
4619  void setLoadBalancer(RSGroupBasedLoadBalancer loadBalancer) {
4620    this.balancer = loadBalancer;
4621  }
4622
4623  @RestrictedApi(explanation = "Should only be called in tests", link = "",
4624      allowedOnPath = ".*/src/test/.*")
4625  void setAssignmentManager(AssignmentManager assignmentManager) {
4626    this.assignmentManager = assignmentManager;
4627  }
4628
4629  @RestrictedApi(explanation = "Should only be called in tests", link = "",
4630      allowedOnPath = ".*/src/test/.*")
4631  static void setDisableBalancerChoreForTest(boolean disable) {
4632    disableBalancerChoreForTest = disable;
4633  }
4634
4635  private void setQuotasObserver(Configuration conf) {
4636    // Add the Observer to delete quotas on table deletion before starting all CPs by
4637    // default with quota support, avoiding if user specifically asks to not load this Observer.
4638    if (QuotaUtil.isQuotaEnabled(conf)) {
4639      updateConfigurationForQuotasObserver(conf);
4640    }
4641  }
4642
4643  private void initializeCoprocessorHost(Configuration conf) {
4644    // initialize master side coprocessors before we start handling requests
4645    this.cpHost = new MasterCoprocessorHost(this, conf);
4646  }
4647
4648  @Override
4649  public long flushTable(TableName tableName, List<byte[]> columnFamilies, long nonceGroup,
4650    long nonce) throws IOException {
4651    checkInitialized();
4652
4653    if (
4654      !getConfiguration().getBoolean(MasterFlushTableProcedureManager.FLUSH_PROCEDURE_ENABLED,
4655        MasterFlushTableProcedureManager.FLUSH_PROCEDURE_ENABLED_DEFAULT)
4656    ) {
4657      throw new DoNotRetryIOException("FlushTableProcedureV2 is DISABLED");
4658    }
4659
4660    return MasterProcedureUtil
4661      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4662        @Override
4663        protected void run() throws IOException {
4664          getMaster().getMasterCoprocessorHost().preTableFlush(tableName);
4665          LOG.info("{} flush {}", getClientIdAuditPrefix(), tableName);
4666          submitProcedure(
4667            new FlushTableProcedure(procedureExecutor.getEnvironment(), tableName, columnFamilies));
4668          getMaster().getMasterCoprocessorHost().postTableFlush(tableName);
4669        }
4670
4671        @Override
4672        protected String getDescription() {
4673          return "FlushTableProcedure";
4674        }
4675      });
4676  }
4677
4678  @Override
4679  public long rollAllWALWriters(long nonceGroup, long nonce) throws IOException {
4680    return MasterProcedureUtil
4681      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4682        @Override
4683        protected void run() {
4684          LOG.info("{} roll all wal writers", getClientIdAuditPrefix());
4685          submitProcedure(new LogRollProcedure());
4686        }
4687
4688        @Override
4689        protected String getDescription() {
4690          return "RollAllWALWriters";
4691        }
4692      });
4693  }
4694
4695  @RestrictedApi(explanation = "Should only be called in tests", link = "",
4696      allowedOnPath = ".*/src/test/.*")
4697  public MobFileCleanerChore getMobFileCleanerChore() {
4698    return mobFileCleanerChore;
4699  }
4700
4701  public Long refreshMeta(long nonceGroup, long nonce) throws IOException {
4702    return MasterProcedureUtil
4703      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4704        @Override
4705        protected void run() throws IOException {
4706          LOG.info("Submitting RefreshMetaProcedure");
4707          submitProcedure(new RefreshMetaProcedure(procedureExecutor.getEnvironment()));
4708        }
4709
4710        @Override
4711        protected String getDescription() {
4712          return "RefreshMetaProcedure";
4713        }
4714      });
4715  }
4716
4717  public Long refreshHfiles(final TableName tableName, final long nonceGroup, final long nonce)
4718    throws IOException {
4719    checkInitialized();
4720
4721    if (!tableDescriptors.exists(tableName)) {
4722      LOG.info("RefreshHfilesProcedure failed because table {} does not exist",
4723        tableName.getNameAsString());
4724      throw new TableNotFoundException(tableName);
4725    }
4726
4727    return MasterProcedureUtil
4728      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4729        @Override
4730        protected void run() throws IOException {
4731          LOG.info("Submitting RefreshHfilesTableProcedure for table {}",
4732            tableName.getNameAsString());
4733          submitProcedure(
4734            new RefreshHFilesTableProcedure(procedureExecutor.getEnvironment(), tableName));
4735        }
4736
4737        @Override
4738        protected String getDescription() {
4739          return "RefreshHfilesProcedure for a table";
4740        }
4741      });
4742  }
4743
4744  public Long refreshHfiles(final String namespace, final long nonceGroup, final long nonce)
4745    throws IOException {
4746    checkInitialized();
4747
4748    try {
4749      this.clusterSchemaService.getNamespace(namespace);
4750    } catch (IOException e) {
4751      LOG.info("RefreshHfilesProcedure failed because namespace {} does not exist", namespace);
4752      throw new NamespaceNotFoundException(namespace);
4753    }
4754
4755    return MasterProcedureUtil
4756      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4757        @Override
4758        protected void run() throws IOException {
4759          LOG.info("Submitting RefreshHfilesProcedure for namespace {}", namespace);
4760          submitProcedure(
4761            new RefreshHFilesTableProcedure(procedureExecutor.getEnvironment(), namespace));
4762        }
4763
4764        @Override
4765        protected String getDescription() {
4766          return "RefreshHfilesProcedure for namespace";
4767        }
4768      });
4769  }
4770
4771  public Long refreshHfiles(final long nonceGroup, final long nonce) throws IOException {
4772    checkInitialized();
4773
4774    return MasterProcedureUtil
4775      .submitProcedure(new MasterProcedureUtil.NonceProcedureRunnable(this, nonceGroup, nonce) {
4776        @Override
4777        protected void run() throws IOException {
4778          LOG.info("Submitting RefreshHfilesProcedure for all tables");
4779          submitProcedure(new RefreshHFilesTableProcedure(procedureExecutor.getEnvironment()));
4780        }
4781
4782        @Override
4783        protected String getDescription() {
4784          return "RefreshHfilesProcedure for all tables";
4785        }
4786      });
4787  }
4788}