org.apache.hadoop.hbase.master.RegionStates Maven / Gradle / Ivy
Show all versions of hbase-server Show documentation
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hbase.master;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.HRegionInfo;
import org.apache.hadoop.hbase.HTableDescriptor;
import org.apache.hadoop.hbase.MetaTableAccessor;
import org.apache.hadoop.hbase.RegionTransition;
import org.apache.hadoop.hbase.Server;
import org.apache.hadoop.hbase.ServerLoad;
import org.apache.hadoop.hbase.ServerName;
import org.apache.hadoop.hbase.TableName;
import org.apache.hadoop.hbase.TableStateManager;
import org.apache.hadoop.hbase.classification.InterfaceAudience;
import org.apache.hadoop.hbase.client.RegionReplicaUtil;
import org.apache.hadoop.hbase.master.RegionState.State;
import org.apache.hadoop.hbase.protobuf.generated.ZooKeeperProtos;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.ConfigUtil;
import org.apache.hadoop.hbase.util.FSUtils;
import org.apache.hadoop.hbase.util.Pair;
import org.apache.hadoop.hbase.zookeeper.ZKAssign;
import org.apache.hadoop.hbase.zookeeper.ZooKeeperWatcher;
import org.apache.zookeeper.KeeperException;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Preconditions;
/**
* Region state accountant. It holds the states of all regions in the memory.
* In normal scenario, it should match the meta table and the true region states.
*
* This map is used by AssignmentManager to track region states.
*/
@InterfaceAudience.Private
public class RegionStates {
private static final Log LOG = LogFactory.getLog(RegionStates.class);
/**
* Regions currently in transition.
*/
final HashMap regionsInTransition =
new HashMap();
/**
* Region encoded name to state map.
* All the regions should be in this map.
*/
private final Map regionStates =
new HashMap();
/**
* Holds mapping of table -> region state
*/
private final Map> regionStatesTableIndex =
new HashMap>();
/**
* Server to regions assignment map.
* Contains the set of regions currently assigned to a given server.
*/
private final Map> serverHoldings =
new HashMap>();
/**
* Maintains the mapping from the default region to the replica regions.
*/
private final Map> defaultReplicaToOtherReplicas =
new HashMap>();
/**
* Region to server assignment map.
* Contains the server a given region is currently assigned to.
*/
private final TreeMap regionAssignments =
new TreeMap();
/**
* Encoded region name to server assignment map for re-assignment
* purpose. Contains the server a given region is last known assigned
* to, which has not completed log splitting, so not assignable.
* If a region is currently assigned, this server info in this
* map should be the same as that in regionAssignments.
* However the info in regionAssignments is cleared when the region
* is offline while the info in lastAssignments is cleared when
* the region is closed or the server is dead and processed.
*/
private final HashMap lastAssignments =
new HashMap();
/**
* Encoded region name to server assignment map for the
* purpose to clean up serverHoldings when a region is online
* on a new server. When the region is offline from the previous
* server, we cleaned up regionAssignments so that it has the
* latest assignment map. But we didn't clean up serverHoldings
* to match the meta. We need this map to find out the old server
* whose serverHoldings needs cleanup, given a moved region.
*/
private final HashMap oldAssignments =
new HashMap();
/**
* Map a host port pair string to the latest start code
* of a region server which is known to be dead. It is dead
* to us, but server manager may not know it yet.
*/
private final HashMap deadServers =
new HashMap();
/**
* Map a dead servers to the time when log split is done.
* Since log splitting is not ordered, we have to remember
* all processed instances. The map is cleaned up based
* on a configured time. By default, we assume a dead
* server should be done with log splitting in two hours.
*/
private final HashMap processedServers =
new HashMap();
private long lastProcessedServerCleanTime;
private final TableStateManager tableStateManager;
private final RegionStateStore regionStateStore;
private final ServerManager serverManager;
private final Server server;
private final boolean useZK; // Is it ZK based assignment?
// The maximum time to keep a log split info in region states map
static final String LOG_SPLIT_TIME = "hbase.master.maximum.logsplit.keeptime";
static final long DEFAULT_LOG_SPLIT_TIME = 7200000L; // 2 hours
RegionStates(final Server master, final TableStateManager tableStateManager,
final ServerManager serverManager, final RegionStateStore regionStateStore) {
this.tableStateManager = tableStateManager;
this.regionStateStore = regionStateStore;
this.serverManager = serverManager;
this.server = master;
this.useZK = ConfigUtil.useZKForAssignment(server.getConfiguration());
}
/**
* @return a copy of the region assignment map
*/
public synchronized Map getRegionAssignments() {
return new TreeMap(regionAssignments);
}
/**
* Return the replicas (including default) for the regions grouped by ServerName
* @param regions
* @return a pair containing the groupings as a map
*/
synchronized Map> getRegionAssignments(
Collection regions) {
Map> map = new HashMap>();
for (HRegionInfo region : regions) {
HRegionInfo defaultReplica = RegionReplicaUtil.getRegionInfoForDefaultReplica(region);
Set allReplicas = defaultReplicaToOtherReplicas.get(defaultReplica);
if (allReplicas != null) {
for (HRegionInfo hri : allReplicas) {
ServerName server = regionAssignments.get(hri);
if (server != null) {
List regionsOnServer = map.get(server);
if (regionsOnServer == null) {
regionsOnServer = new ArrayList(1);
map.put(server, regionsOnServer);
}
regionsOnServer.add(hri);
}
}
}
}
return map;
}
public synchronized ServerName getRegionServerOfRegion(HRegionInfo hri) {
return regionAssignments.get(hri);
}
/**
* Get regions in transition and their states
*/
@SuppressWarnings("unchecked")
public synchronized Map getRegionsInTransition() {
return (Map)regionsInTransition.clone();
}
/**
* @return True if specified region in transition.
*/
public synchronized boolean isRegionInTransition(final HRegionInfo hri) {
return regionsInTransition.containsKey(hri.getEncodedName());
}
/**
* @return True if specified region in transition.
*/
public synchronized boolean isRegionInTransition(final String encodedName) {
return regionsInTransition.containsKey(encodedName);
}
/**
* @return True if any region in transition.
*/
public synchronized boolean isRegionsInTransition() {
return !regionsInTransition.isEmpty();
}
/**
* @return True if hbase:meta table region is in transition.
*/
public synchronized boolean isMetaRegionInTransition() {
for (RegionState state : regionsInTransition.values()) {
if (state.getRegion().isMetaRegion()) return true;
}
return false;
}
/**
* @return True if specified region assigned, and not in transition.
*/
public synchronized boolean isRegionOnline(final HRegionInfo hri) {
return !isRegionInTransition(hri) && regionAssignments.containsKey(hri);
}
/**
* @return True if specified region offline/closed, but not in transition.
* If the region is not in the map, it is offline to us too.
*/
public synchronized boolean isRegionOffline(final HRegionInfo hri) {
return getRegionState(hri) == null || (!isRegionInTransition(hri)
&& isRegionInState(hri, State.OFFLINE, State.CLOSED));
}
/**
* @return True if specified region is in one of the specified states.
*/
public boolean isRegionInState(
final HRegionInfo hri, final State... states) {
return isRegionInState(hri.getEncodedName(), states);
}
/**
* @return True if specified region is in one of the specified states.
*/
public boolean isRegionInState(
final String encodedName, final State... states) {
RegionState regionState = getRegionState(encodedName);
return isOneOfStates(regionState, states);
}
/**
* Wait for the state map to be updated by assignment manager.
*/
public synchronized void waitForUpdate(
final long timeout) throws InterruptedException {
this.wait(timeout);
}
/**
* Get region transition state
*/
public RegionState getRegionTransitionState(final HRegionInfo hri) {
return getRegionTransitionState(hri.getEncodedName());
}
/**
* Get region transition state
*/
public synchronized RegionState
getRegionTransitionState(final String encodedName) {
return regionsInTransition.get(encodedName);
}
/**
* Add a list of regions to RegionStates. If a region is split
* and offline, its state will be SPLIT. Otherwise, its state will
* be OFFLINE. Region already in RegionStates will be skipped.
*/
public void createRegionStates(
final List hris) {
for (HRegionInfo hri: hris) {
createRegionState(hri);
}
}
/**
* Add a region to RegionStates. If the region is split
* and offline, its state will be SPLIT. Otherwise, its state will
* be OFFLINE. If it is already in RegionStates, this call has
* no effect, and the original state is returned.
*/
public RegionState createRegionState(final HRegionInfo hri) {
return createRegionState(hri, null, null, null);
}
/**
* Add a region to RegionStates with the specified state.
* If the region is already in RegionStates, this call has
* no effect, and the original state is returned.
*
* @param hri the region info to create a state for
* @param newState the state to the region in set to
* @param serverName the server the region is transitioning on
* @param lastHost the last server that hosts the region
* @return the current state
*/
public synchronized RegionState createRegionState(final HRegionInfo hri,
State newState, ServerName serverName, ServerName lastHost) {
if (newState == null || (newState == State.OPEN && serverName == null)) {
newState = State.OFFLINE;
}
if (hri.isOffline() && hri.isSplit()) {
newState = State.SPLIT;
serverName = null;
}
String encodedName = hri.getEncodedName();
RegionState regionState = regionStates.get(encodedName);
if (regionState != null) {
LOG.warn("Tried to create a state for a region already in RegionStates, "
+ "used existing: " + regionState + ", ignored new: " + newState);
} else {
regionState = new RegionState(hri, newState, serverName);
putRegionState(regionState);
if (newState == State.OPEN) {
if (!serverName.equals(lastHost)) {
LOG.warn("Open region's last host " + lastHost
+ " should be the same as the current one " + serverName
+ ", ignored the last and used the current one");
lastHost = serverName;
}
lastAssignments.put(encodedName, lastHost);
regionAssignments.put(hri, lastHost);
} else if (!regionState.isUnassignable()) {
regionsInTransition.put(encodedName, regionState);
}
if (lastHost != null && newState != State.SPLIT) {
addToServerHoldings(lastHost, hri);
if (newState != State.OPEN) {
oldAssignments.put(encodedName, lastHost);
}
}
}
return regionState;
}
private RegionState putRegionState(RegionState regionState) {
HRegionInfo hri = regionState.getRegion();
String encodedName = hri.getEncodedName();
TableName table = hri.getTable();
RegionState oldState = regionStates.put(encodedName, regionState);
Map map = regionStatesTableIndex.get(table);
if (map == null) {
map = new HashMap();
regionStatesTableIndex.put(table, map);
}
map.put(encodedName, regionState);
return oldState;
}
/**
* Set the region state to CLOSED
*/
public RegionState setRegionStateTOCLOSED(
final byte[] regionName,
final ServerName serverName) {
HRegionInfo regionInfo = getRegionInfo(regionName);
return setRegionStateTOCLOSED(regionInfo, serverName);
}
/**
* Set the region state to CLOSED
*/
public RegionState setRegionStateTOCLOSED(
final HRegionInfo regionInfo,
final ServerName serverName) {
ServerName sn = serverName;
if (sn == null) {
RegionState regionState = getRegionState(regionInfo.getEncodedName());
if (regionState != null) {
sn = regionState.getServerName();
}
// TODO: if sn is null, should we dig into
// lastAssignments.get(regionInfo.getEncodedName() to get the server name?
// For now, I just keep the same logic that works in the past
}
// We have to make sure that the last region server is set to be the same as the
// current RS. If we don't do that, we could run into situation that both AM and SSH
// think other would do the assignment work; at the end, neither does the work and
// region remains RIT.
// See HBASE-13330 and HBASE-17023
setLastRegionServerOfRegion(sn, regionInfo.getEncodedName());
return updateRegionState(regionInfo, State.CLOSED, sn);
}
/**
* Update a region state. It will be put in transition if not already there.
*/
public RegionState updateRegionState(
final HRegionInfo hri, final State state) {
RegionState regionState = getRegionState(hri.getEncodedName());
return updateRegionState(hri, state,
regionState == null ? null : regionState.getServerName());
}
/**
* Update a region state. It will be put in transition if not already there.
*
* If we can't find the region info based on the region name in
* the transition, log a warning and return null.
*/
public RegionState updateRegionState(
final RegionTransition transition, final State state) {
byte [] regionName = transition.getRegionName();
HRegionInfo regionInfo = getRegionInfo(regionName);
if (regionInfo == null) {
String prettyRegionName = HRegionInfo.prettyPrint(
HRegionInfo.encodeRegionName(regionName));
LOG.warn("Failed to find region " + prettyRegionName
+ " in updating its state to " + state
+ " based on region transition " + transition);
return null;
}
return updateRegionState(regionInfo, state,
transition.getServerName());
}
/**
* Transition a region state to OPEN from OPENING/PENDING_OPEN
*/
public synchronized RegionState transitionOpenFromPendingOpenOrOpeningOnServer(
final RegionTransition transition, final RegionState fromState, final ServerName sn) {
if(fromState.isPendingOpenOrOpeningOnServer(sn)){
return updateRegionState(transition, State.OPEN);
}
return null;
}
/**
* Update a region state. It will be put in transition if not already there.
*/
public RegionState updateRegionState(
final HRegionInfo hri, final State state, final ServerName serverName) {
return updateRegionState(hri, state, serverName, HConstants.NO_SEQNUM);
}
public void regionOnline(final HRegionInfo hri, final ServerName serverName) {
regionOnline(hri, serverName, HConstants.NO_SEQNUM);
}
/**
* A region is online, won't be in transition any more.
* We can't confirm it is really online on specified region server
* because it hasn't been put in region server's online region list yet.
*/
public void regionOnline(final HRegionInfo hri, final ServerName serverName, long openSeqNum) {
String encodedName = hri.getEncodedName();
if (!serverManager.isServerOnline(serverName)) {
// This is possible if the region server dies before master gets a
// chance to handle ZK event in time. At this time, if the dead server
// is already processed by SSH, we should ignore this event.
// If not processed yet, ignore and let SSH deal with it.
LOG.warn("Ignored, " + encodedName + " was opened on a dead server: " + serverName);
return;
}
updateRegionState(hri, State.OPEN, serverName, openSeqNum);
synchronized (this) {
regionsInTransition.remove(encodedName);
ServerName oldServerName = regionAssignments.put(hri, serverName);
if (!serverName.equals(oldServerName)) {
if (LOG.isDebugEnabled()) {
LOG.debug("Onlined " + hri.getShortNameToLog() + " on " + serverName);
}
addToServerHoldings(serverName, hri);
addToReplicaMapping(hri);
if (oldServerName == null) {
oldServerName = oldAssignments.remove(encodedName);
}
if (oldServerName != null
&& !oldServerName.equals(serverName)
&& serverHoldings.containsKey(oldServerName)) {
LOG.info("Offlined " + hri.getShortNameToLog() + " from " + oldServerName);
removeFromServerHoldings(oldServerName, hri);
}
}
}
}
private void addToServerHoldings(ServerName serverName, HRegionInfo hri) {
Set regions = serverHoldings.get(serverName);
if (regions == null) {
regions = new HashSet();
serverHoldings.put(serverName, regions);
}
regions.add(hri);
}
private void addToReplicaMapping(HRegionInfo hri) {
HRegionInfo defaultReplica = RegionReplicaUtil.getRegionInfoForDefaultReplica(hri);
Set replicas =
defaultReplicaToOtherReplicas.get(defaultReplica);
if (replicas == null) {
replicas = new HashSet();
defaultReplicaToOtherReplicas.put(defaultReplica, replicas);
}
replicas.add(hri);
}
private void removeFromServerHoldings(ServerName serverName, HRegionInfo hri) {
Set oldRegions = serverHoldings.get(serverName);
oldRegions.remove(hri);
if (oldRegions.isEmpty()) {
serverHoldings.remove(serverName);
}
}
private void removeFromReplicaMapping(HRegionInfo hri) {
HRegionInfo defaultReplica = RegionReplicaUtil.getRegionInfoForDefaultReplica(hri);
Set replicas = defaultReplicaToOtherReplicas.get(defaultReplica);
if (replicas != null) {
replicas.remove(hri);
if (replicas.isEmpty()) {
defaultReplicaToOtherReplicas.remove(defaultReplica);
}
}
}
/**
* Used in some unit tests
*/
@VisibleForTesting
synchronized boolean existsInServerHoldings(final ServerName serverName,
final HRegionInfo hri) {
Set oldRegions = serverHoldings.get(serverName);
if (oldRegions != null) {
return oldRegions.contains(hri);
}
return false;
}
/**
* A dead server's wals have been split so that all the regions
* used to be open on it can be safely assigned now. Mark them assignable.
*/
public synchronized void logSplit(final ServerName serverName) {
for (Iterator> it
= lastAssignments.entrySet().iterator(); it.hasNext();) {
Map.Entry e = it.next();
if (e.getValue().equals(serverName)) {
it.remove();
}
}
long now = System.currentTimeMillis();
if (LOG.isDebugEnabled()) {
LOG.debug("Adding to log splitting servers " + serverName);
}
processedServers.put(serverName, Long.valueOf(now));
Configuration conf = server.getConfiguration();
long obsoleteTime = conf.getLong(LOG_SPLIT_TIME, DEFAULT_LOG_SPLIT_TIME);
// Doesn't have to be very accurate about the clean up time
if (now > lastProcessedServerCleanTime + obsoleteTime) {
lastProcessedServerCleanTime = now;
long cutoff = now - obsoleteTime;
for (Iterator> it
= processedServers.entrySet().iterator(); it.hasNext();) {
Map.Entry e = it.next();
if (e.getValue().longValue() < cutoff) {
if (LOG.isDebugEnabled()) {
LOG.debug("Removed from log splitting servers " + e.getKey());
}
it.remove();
}
}
}
}
/**
* Log split is done for a given region, so it is assignable now.
*/
public void logSplit(final HRegionInfo region) {
clearLastAssignment(region);
}
public synchronized void clearLastAssignment(final HRegionInfo region) {
lastAssignments.remove(region.getEncodedName());
}
/**
* A region is offline, won't be in transition any more.
*/
public void regionOffline(final HRegionInfo hri) {
regionOffline(hri, null);
}
/**
* A region is offline, won't be in transition any more. Its state
* should be the specified expected state, which can only be
* Split/Merged/Offline/null(=Offline)/SplittingNew/MergingNew.
*/
public void regionOffline(
final HRegionInfo hri, final State expectedState) {
Preconditions.checkArgument(expectedState == null
|| RegionState.isUnassignable(expectedState),
"Offlined region should not be " + expectedState);
if (isRegionInState(hri, State.SPLITTING_NEW, State.MERGING_NEW)) {
// Remove it from all region maps
deleteRegion(hri);
return;
}
/*
* One tricky case, if region here is a replica region and its parent is at
* SPLIT state, its newState should be same as its parent, not OFFLINE.
*/
State newState =
expectedState == null ? State.OFFLINE : expectedState;
if ((expectedState == null) && !RegionReplicaUtil.isDefaultReplica(hri)) {
RegionState primateState = getRegionState(
RegionReplicaUtil.getRegionInfoForDefaultReplica(hri));
if ((primateState != null) && (primateState.getState() == State.SPLIT)) {
if (LOG.isDebugEnabled()) {
LOG.debug("Update region " + hri + "to SPLIT, from primary region " +
RegionReplicaUtil.getRegionInfoForDefaultReplica(hri));
}
newState = State.SPLIT;
}
}
updateRegionState(hri, newState);
String encodedName = hri.getEncodedName();
synchronized (this) {
regionsInTransition.remove(encodedName);
ServerName oldServerName = regionAssignments.remove(hri);
if (oldServerName != null && serverHoldings.containsKey(oldServerName)) {
if (newState == State.MERGED || newState == State.SPLIT
|| hri.isMetaRegion() || tableStateManager.isTableState(hri.getTable(),
ZooKeeperProtos.Table.State.DISABLED, ZooKeeperProtos.Table.State.DISABLING)) {
// Offline the region only if it's merged/split, or the table is disabled/disabling.
// Otherwise, offline it from this server only when it is online on a different server.
LOG.info("Offlined " + hri.getShortNameToLog() + " from " + oldServerName);
removeFromServerHoldings(oldServerName, hri);
removeFromReplicaMapping(hri);
} else {
// Need to remember it so that we can offline it from this
// server when it is online on a different server.
oldAssignments.put(encodedName, oldServerName);
}
}
}
}
/**
* A server is offline, all regions on it are dead.
*/
public List serverOffline(final ZooKeeperWatcher watcher, final ServerName sn) {
// Offline all regions on this server not already in transition.
List rits = new ArrayList();
Set regionsToClean = new HashSet();
// Offline regions outside the loop and synchronized block to avoid
// ConcurrentModificationException and deadlock in case of meta anassigned,
// but RegionState a blocked.
Set regionsToOffline = new HashSet();
synchronized (this) {
Set assignedRegions = serverHoldings.get(sn);
if (assignedRegions == null) {
assignedRegions = new HashSet();
}
for (HRegionInfo region : assignedRegions) {
// Offline open regions, no need to offline if SPLIT/MERGED/OFFLINE
if (isRegionOnline(region)) {
regionsToOffline.add(region);
} else if (isRegionInState(region, State.SPLITTING, State.MERGING)) {
LOG.debug("Offline splitting/merging region " + getRegionState(region));
try {
// Delete the ZNode if exists
ZKAssign.deleteNodeFailSilent(watcher, region);
regionsToOffline.add(region);
} catch (KeeperException ke) {
server.abort("Unexpected ZK exception deleting node " + region, ke);
}
}
}
for (RegionState state : regionsInTransition.values()) {
HRegionInfo hri = state.getRegion();
if (assignedRegions.contains(hri)) {
// Region is open on this region server, but in transition.
// This region must be moving away from this server, or splitting/merging.
// SSH will handle it, either skip assigning, or re-assign.
LOG.info("Transitioning " + state + " will be handled by ServerCrashProcedure for " + sn);
} else if (sn.equals(state.getServerName())) {
// Region is in transition on this region server, and this
// region is not open on this server. So the region must be
// moving to this server from another one (i.e. opening or
// pending open on this server, was open on another one.
// Offline state is also kind of pending open if the region is in
// transition. The region could be in failed_close state too if we have
// tried several times to open it while this region server is not reachable)
if (state.isPendingOpenOrOpening() || state.isFailedClose() || state.isOffline()) {
LOG.info("Found region in " + state +
" to be reassigned by ServerCrashProcedure for " + sn);
rits.add(hri);
} else if(state.isSplittingNew() || state.isMergingNew()) {
LOG.info("Offline/Cleanup region if no meta entry exists, hri: " + hri +
" state: " + state);
regionsToClean.add(state.getRegion());
} else {
LOG.warn("THIS SHOULD NOT HAPPEN: unexpected " + state);
}
}
}
this.notifyAll();
}
for (HRegionInfo hri : regionsToOffline) {
regionOffline(hri);
}
cleanFailedSplitMergeRegions(regionsToClean);
return rits;
}
/**
* This method does an RPC to hbase:meta. Do not call this method with a lock/synchronize held.
* In ZK mode we rollback and hence cleanup daughters/merged region. We also cleanup if
* meta doesn't have these regions.
*
* @param hris The hris to check if empty in hbase:meta and if so, clean them up.
*/
private void cleanFailedSplitMergeRegions(Set hris) {
if (hris.isEmpty()) {
return;
}
for (HRegionInfo hri : hris) {
// This is RPC to meta table. It is done while we have a synchronize on
// regionstates. No progress will be made if meta is not available at this time.
// This is a cleanup task. Not critical.
try {
Pair regionPair =
MetaTableAccessor.getRegion(server.getConnection(), hri.getRegionName());
if (regionPair == null || useZK) {
regionOffline(hri);
// If we use ZK, then we can cleanup entries from meta, since we roll back.
if (regionPair != null) {
MetaTableAccessor.deleteRegion(this.server.getConnection(), hri);
}
LOG.debug("Cleaning up HDFS since no meta entry exists, hri: " + hri);
FSUtils.deleteRegionDir(server.getConfiguration(), hri);
}
} catch (IOException e) {
LOG.warn("Got exception while cleaning up region " + hri, e);
}
}
}
/**
* Gets the online regions of the specified table.
* This method looks at the in-memory state. It does not go to hbase:meta
.
* Only returns online regions. If a region on this table has been
* closed during a disable, etc., it will be included in the returned list.
* So, the returned list may not necessarily be ALL regions in this table, its
* all the ONLINE regions in the table.
* @param tableName
* @return Online regions from tableName
*/
public synchronized List getRegionsOfTable(TableName tableName) {
List tableRegions = new ArrayList();
// boundary needs to have table's name but regionID 0 so that it is sorted
// before all table's regions.
HRegionInfo boundary = new HRegionInfo(tableName, null, null, false, 0L);
for (HRegionInfo hri: regionAssignments.tailMap(boundary).keySet()) {
if(!hri.getTable().equals(tableName)) break;
tableRegions.add(hri);
}
return tableRegions;
}
/**
* Gets current state of all regions of the table.
* This method looks at the in-memory state. It does not go to hbase:meta
.
* Method guaranteed to return keys for all states
* in {@link org.apache.hadoop.hbase.master.RegionState.State}
*
* @param tableName
* @return Online regions from tableName
*/
public synchronized Map>
getRegionByStateOfTable(TableName tableName) {
Map> tableRegions =
new HashMap>();
for (State state : State.values()) {
tableRegions.put(state, new ArrayList());
}
Map indexMap = regionStatesTableIndex.get(tableName);
if (indexMap == null)
return tableRegions;
for (RegionState regionState : indexMap.values()) {
tableRegions.get(regionState.getState()).add(regionState.getRegion());
}
return tableRegions;
}
/**
* Wait on region to clear regions-in-transition.
*
* If the region isn't in transition, returns immediately. Otherwise, method
* blocks until the region is out of transition.
*/
public synchronized void waitOnRegionToClearRegionsInTransition(
final HRegionInfo hri) throws InterruptedException {
if (!isRegionInTransition(hri)) return;
while(!server.isStopped() && isRegionInTransition(hri)) {
RegionState rs = getRegionState(hri);
LOG.info("Waiting on " + rs + " to clear regions-in-transition");
waitForUpdate(100);
}
if (server.isStopped()) {
LOG.info("Giving up wait on region in " +
"transition because stoppable.isStopped is set");
}
}
/**
* A table is deleted. Remove its regions from all internal maps.
* We loop through all regions assuming we don't delete tables too much.
*/
public void tableDeleted(final TableName tableName) {
Set regionsToDelete = new HashSet();
synchronized (this) {
for (RegionState state: regionStates.values()) {
HRegionInfo region = state.getRegion();
if (region.getTable().equals(tableName)) {
regionsToDelete.add(region);
}
}
}
for (HRegionInfo region: regionsToDelete) {
deleteRegion(region);
}
}
/**
* Get a copy of all regions assigned to a server
*/
public synchronized Set getServerRegions(ServerName serverName) {
Set regions = serverHoldings.get(serverName);
if (regions == null) return null;
return new HashSet(regions);
}
/**
* Remove a region from all state maps.
*/
@VisibleForTesting
public synchronized void deleteRegion(final HRegionInfo hri) {
String encodedName = hri.getEncodedName();
regionsInTransition.remove(encodedName);
regionStates.remove(encodedName);
TableName table = hri.getTable();
Map indexMap = regionStatesTableIndex.get(table);
indexMap.remove(encodedName);
if (indexMap.size() == 0)
regionStatesTableIndex.remove(table);
lastAssignments.remove(encodedName);
ServerName sn = regionAssignments.remove(hri);
if (sn != null) {
Set regions = serverHoldings.get(sn);
regions.remove(hri);
}
}
@VisibleForTesting
public boolean isRegionInRegionStates(final HRegionInfo hri) {
return (getRegionState(hri) != null || isRegionOnline(hri)) || isRegionInTransition(hri)
|| isRegionInState(hri, State.OFFLINE, State.CLOSED);
}
/**
* Checking if a region was assigned to a server which is not online now.
* If so, we should hold re-assign this region till SSH has split its wals.
* Once logs are split, the last assignment of this region will be reset,
* which means a null last assignment server is ok for re-assigning.
*
* A region server could be dead but we don't know it yet. We may
* think it's online falsely. Therefore if a server is online, we still
* need to confirm it reachable and having the expected start code.
*/
synchronized boolean wasRegionOnDeadServer(final String encodedName) {
ServerName server = lastAssignments.get(encodedName);
return isServerDeadAndNotProcessed(server);
}
synchronized boolean isServerDeadAndNotProcessed(ServerName server) {
if (server == null) return false;
if (serverManager.isServerOnline(server)) {
String hostAndPort = server.getHostAndPort();
long startCode = server.getStartcode();
Long deadCode = deadServers.get(hostAndPort);
if (deadCode == null || startCode > deadCode.longValue()) {
if (serverManager.isServerReachable(server)) {
return false;
}
// The size of deadServers won't grow unbounded.
deadServers.put(hostAndPort, Long.valueOf(startCode));
}
// Watch out! If the server is not dead, the region could
// remain unassigned. That's why ServerManager#isServerReachable
// should use some retry.
//
// We cache this info since it is very unlikely for that
// instance to come back up later on. We don't want to expire
// the server since we prefer to let it die naturally.
LOG.warn("Couldn't reach online server " + server);
}
// Now, we know it's dead. Check if it's processed
return !processedServers.containsKey(server);
}
/**
* Get the last region server a region was on for purpose of re-assignment,
* i.e. should the re-assignment be held back till log split is done?
*/
synchronized ServerName getLastRegionServerOfRegion(final String encodedName) {
return lastAssignments.get(encodedName);
}
synchronized void setLastRegionServerOfRegions(
final ServerName serverName, final List regionInfos) {
for (HRegionInfo hri: regionInfos) {
setLastRegionServerOfRegion(serverName, hri.getEncodedName());
}
}
synchronized void setLastRegionServerOfRegion(
final ServerName serverName, final String encodedName) {
lastAssignments.put(encodedName, serverName);
}
void splitRegion(HRegionInfo p,
HRegionInfo a, HRegionInfo b, ServerName sn) throws IOException {
regionStateStore.splitRegion(p, a, b, sn, getRegionReplication(p));
synchronized (this) {
// After PONR, split is considered to be done.
// Update server holdings to be aligned with the meta.
Set regions = serverHoldings.get(sn);
if (regions == null) {
throw new IllegalStateException(sn + " should host some regions");
}
regions.remove(p);
regions.add(a);
regions.add(b);
}
}
void mergeRegions(HRegionInfo p,
HRegionInfo a, HRegionInfo b, ServerName sn) throws IOException {
regionStateStore.mergeRegions(p, a, b, sn, getRegionReplication(a));
synchronized (this) {
// After PONR, merge is considered to be done.
// Update server holdings to be aligned with the meta.
Set regions = serverHoldings.get(sn);
if (regions == null) {
throw new IllegalStateException(sn + " should host some regions");
}
regions.remove(a);
regions.remove(b);
regions.add(p);
}
}
private int getRegionReplication(HRegionInfo r) throws IOException {
if (tableStateManager != null) {
HTableDescriptor htd = ((MasterServices)server).getTableDescriptors().get(r.getTable());
if (htd != null) {
return htd.getRegionReplication();
}
}
return 1;
}
/**
* At cluster clean re/start, mark all user regions closed except those of tables
* that are excluded, such as disabled/disabling/enabling tables. All user regions
* and their previous locations are returned.
*/
synchronized Map closeAllUserRegions(Set excludedTables) {
boolean noExcludeTables = excludedTables == null || excludedTables.isEmpty();
Set toBeClosed = new HashSet(regionStates.size());
for(RegionState state: regionStates.values()) {
HRegionInfo hri = state.getRegion();
if (state.isSplit() || hri.isSplit()) {
continue;
}
TableName tableName = hri.getTable();
if (!TableName.META_TABLE_NAME.equals(tableName)
&& (noExcludeTables || !excludedTables.contains(tableName))) {
toBeClosed.add(hri);
}
}
Map allUserRegions =
new HashMap(toBeClosed.size());
for (HRegionInfo hri: toBeClosed) {
RegionState regionState = updateRegionState(hri, State.CLOSED);
allUserRegions.put(hri, regionState.getServerName());
}
return allUserRegions;
}
/**
* Compute the average load across all region servers.
* Currently, this uses a very naive computation - just uses the number of
* regions being served, ignoring stats about number of requests.
* @return the average load
*/
protected synchronized double getAverageLoad() {
int numServers = 0, totalLoad = 0;
for (Map.Entry> e: serverHoldings.entrySet()) {
Set regions = e.getValue();
ServerName serverName = e.getKey();
int regionCount = regions.size();
if (serverManager.isServerOnline(serverName)) {
totalLoad += regionCount;
numServers++;
}
}
if (numServers > 1) {
// The master region server holds only a couple regions.
// Don't consider this server in calculating the average load
// if there are other region servers to avoid possible confusion.
Set hris = serverHoldings.get(server.getServerName());
if (hris != null) {
totalLoad -= hris.size();
numServers--;
}
}
return numServers == 0 ? 0.0 :
(double)totalLoad / (double)numServers;
}
/**
* This is an EXPENSIVE clone. Cloning though is the safest thing to do.
* Can't let out original since it can change and at least the load balancer
* wants to iterate this exported list. We need to synchronize on regions
* since all access to this.servers is under a lock on this.regions.
*
* @return A clone of current assignments by table.
*/
protected Map>>
getAssignmentsByTable() {
Map>> result =
new HashMap>>();
synchronized (this) {
if (!server.getConfiguration().getBoolean(
HConstants.HBASE_MASTER_LOADBALANCE_BYTABLE, false)) {
Map> svrToRegions =
new HashMap>(serverHoldings.size());
for (Map.Entry> e: serverHoldings.entrySet()) {
svrToRegions.put(e.getKey(), new ArrayList(e.getValue()));
}
result.put(TableName.valueOf(HConstants.ENSEMBLE_TABLE_NAME), svrToRegions);
} else {
for (Map.Entry> e: serverHoldings.entrySet()) {
for (HRegionInfo hri: e.getValue()) {
if (hri.isMetaRegion()) continue;
TableName tablename = hri.getTable();
Map> svrToRegions = result.get(tablename);
if (svrToRegions == null) {
svrToRegions = new HashMap>(serverHoldings.size());
result.put(tablename, svrToRegions);
}
List regions = svrToRegions.get(e.getKey());
if (regions == null) {
regions = new ArrayList();
svrToRegions.put(e.getKey(), regions);
}
regions.add(hri);
}
}
}
}
Map
onlineSvrs = serverManager.getOnlineServers();
// Take care of servers w/o assignments, and remove servers in draining mode
List drainingServers = this.serverManager.getDrainingServersList();
for (Map> map: result.values()) {
for (ServerName svr: onlineSvrs.keySet()) {
if (!map.containsKey(svr)) {
map.put(svr, new ArrayList());
}
}
map.keySet().removeAll(drainingServers);
}
return result;
}
protected RegionState getRegionState(final HRegionInfo hri) {
return getRegionState(hri.getEncodedName());
}
/**
* Returns a clone of region assignments per server
* @return a Map of ServerName to a List of HRegionInfo's
*/
protected synchronized Map> getRegionAssignmentsByServer() {
Map> regionsByServer =
new HashMap>(serverHoldings.size());
for (Map.Entry> e: serverHoldings.entrySet()) {
regionsByServer.put(e.getKey(), new ArrayList(e.getValue()));
}
return regionsByServer;
}
protected synchronized RegionState getRegionState(final String encodedName) {
return regionStates.get(encodedName);
}
/**
* Get the HRegionInfo from cache, if not there, from the hbase:meta table
* @param regionName
* @return HRegionInfo for the region
*/
@SuppressWarnings("deprecation")
protected HRegionInfo getRegionInfo(final byte [] regionName) {
String encodedName = HRegionInfo.encodeRegionName(regionName);
RegionState regionState = getRegionState(encodedName);
if (regionState != null) {
return regionState.getRegion();
}
try {
Pair p =
MetaTableAccessor.getRegion(server.getConnection(), regionName);
HRegionInfo hri = p == null ? null : p.getFirst();
if (hri != null) {
createRegionState(hri);
}
return hri;
} catch (IOException e) {
server.abort("Aborting because error occurred while reading "
+ Bytes.toStringBinary(regionName) + " from hbase:meta", e);
return null;
}
}
static boolean isOneOfStates(RegionState regionState, State... states) {
State s = regionState != null ? regionState.getState() : null;
for (State state: states) {
if (s == state) return true;
}
return false;
}
/**
* Update a region state. It will be put in transition if not already there.
*/
private RegionState updateRegionState(final HRegionInfo hri,
final State state, final ServerName serverName, long openSeqNum) {
if (state == State.FAILED_CLOSE || state == State.FAILED_OPEN) {
LOG.warn("Failed to open/close " + hri.getShortNameToLog()
+ " on " + serverName + ", set to " + state);
}
String encodedName = hri.getEncodedName();
RegionState regionState = new RegionState(
hri, state, System.currentTimeMillis(), serverName);
RegionState oldState = getRegionState(encodedName);
if (!regionState.equals(oldState)) {
LOG.info("Transition " + oldState + " to " + regionState);
// Persist region state before updating in-memory info, if needed
regionStateStore.updateRegionState(openSeqNum, regionState, oldState);
}
synchronized (this) {
regionsInTransition.put(encodedName, regionState);
putRegionState(regionState);
// For these states, region should be properly closed.
// There should be no log splitting issue.
if ((state == State.CLOSED || state == State.MERGED
|| state == State.SPLIT) && lastAssignments.containsKey(encodedName)) {
ServerName last = lastAssignments.get(encodedName);
if (last.equals(serverName)) {
lastAssignments.remove(encodedName);
} else {
LOG.warn(encodedName + " moved to " + state + " on "
+ serverName + ", expected " + last);
}
}
// Once a region is opened, record its last assignment right away.
if (serverName != null && state == State.OPEN) {
ServerName last = lastAssignments.get(encodedName);
if (!serverName.equals(last)) {
lastAssignments.put(encodedName, serverName);
if (last != null && isServerDeadAndNotProcessed(last)) {
LOG.warn(encodedName + " moved to " + serverName
+ ", while it's previous host " + last
+ " is dead but not processed yet");
}
}
}
// notify the change
this.notifyAll();
}
return regionState;
}
}