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/**
*
* 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.balancer;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Comparator;
import java.util.Deque;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.NavigableMap;
import java.util.Random;
import java.util.Set;
import java.util.TreeMap;
import java.util.function.Predicate;
import java.util.stream.Collectors;
import org.apache.commons.lang3.NotImplementedException;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hbase.ClusterMetrics;
import org.apache.hadoop.hbase.HBaseConfiguration;
import org.apache.hadoop.hbase.HBaseIOException;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.HDFSBlocksDistribution;
import org.apache.hadoop.hbase.ServerMetrics;
import org.apache.hadoop.hbase.ServerName;
import org.apache.hadoop.hbase.TableName;
import org.apache.hadoop.hbase.client.RegionInfo;
import org.apache.hadoop.hbase.client.RegionReplicaUtil;
import org.apache.hadoop.hbase.master.LoadBalancer;
import org.apache.hadoop.hbase.master.MasterServices;
import org.apache.hadoop.hbase.master.RackManager;
import org.apache.hadoop.hbase.master.RegionPlan;
import org.apache.hadoop.hbase.master.balancer.BaseLoadBalancer.Cluster.Action.Type;
import org.apache.yetus.audience.InterfaceAudience;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.hbase.thirdparty.com.google.common.annotations.VisibleForTesting;
import org.apache.hbase.thirdparty.com.google.common.base.Joiner;
import org.apache.hbase.thirdparty.com.google.common.collect.ArrayListMultimap;
import org.apache.hbase.thirdparty.com.google.common.collect.Lists;
import org.apache.hbase.thirdparty.com.google.common.collect.Sets;
/**
* The base class for load balancers. It provides the the functions used to by
* {@link org.apache.hadoop.hbase.master.assignment.AssignmentManager} to assign regions
* in the edge cases. It doesn't provide an implementation of the
* actual balancing algorithm.
*
*/
@InterfaceAudience.Private
public abstract class BaseLoadBalancer implements LoadBalancer {
protected static final int MIN_SERVER_BALANCE = 2;
private volatile boolean stopped = false;
private static final List EMPTY_REGION_LIST = new ArrayList<>(0);
static final Predicate IDLE_SERVER_PREDICATOR
= load -> load.getRegionMetrics().isEmpty();
protected RegionLocationFinder regionFinder;
protected boolean useRegionFinder;
private static class DefaultRackManager extends RackManager {
@Override
public String getRack(ServerName server) {
return UNKNOWN_RACK;
}
}
/**
* The constructor that uses the basic MetricsBalancer
*/
protected BaseLoadBalancer() {
metricsBalancer = new MetricsBalancer();
createRegionFinder();
}
/**
* This Constructor accepts an instance of MetricsBalancer,
* which will be used instead of creating a new one
*/
protected BaseLoadBalancer(MetricsBalancer metricsBalancer) {
this.metricsBalancer = (metricsBalancer != null) ? metricsBalancer : new MetricsBalancer();
createRegionFinder();
}
private void createRegionFinder() {
useRegionFinder = config.getBoolean("hbase.master.balancer.uselocality", true);
if (useRegionFinder) {
regionFinder = new RegionLocationFinder();
}
}
/**
* An efficient array based implementation similar to ClusterState for keeping
* the status of the cluster in terms of region assignment and distribution.
* LoadBalancers, such as StochasticLoadBalancer uses this Cluster object because of
* hundreds of thousands of hashmap manipulations are very costly, which is why this
* class uses mostly indexes and arrays.
*
* Cluster tracks a list of unassigned regions, region assignments, and the server
* topology in terms of server names, hostnames and racks.
*/
protected static class Cluster {
ServerName[] servers;
String[] hosts; // ServerName uniquely identifies a region server. multiple RS can run on the same host
String[] racks;
boolean multiServersPerHost = false; // whether or not any host has more than one server
ArrayList tables;
RegionInfo[] regions;
Deque[] regionLoads;
private RegionLocationFinder regionFinder;
int[][] regionLocations; //regionIndex -> list of serverIndex sorted by locality
int[] serverIndexToHostIndex; //serverIndex -> host index
int[] serverIndexToRackIndex; //serverIndex -> rack index
int[][] regionsPerServer; //serverIndex -> region list
int[][] regionsPerHost; //hostIndex -> list of regions
int[][] regionsPerRack; //rackIndex -> region list
int[][] primariesOfRegionsPerServer; //serverIndex -> sorted list of regions by primary region index
int[][] primariesOfRegionsPerHost; //hostIndex -> sorted list of regions by primary region index
int[][] primariesOfRegionsPerRack; //rackIndex -> sorted list of regions by primary region index
int[][] serversPerHost; //hostIndex -> list of server indexes
int[][] serversPerRack; //rackIndex -> list of server indexes
int[] regionIndexToServerIndex; //regionIndex -> serverIndex
int[] initialRegionIndexToServerIndex; //regionIndex -> serverIndex (initial cluster state)
int[] regionIndexToTableIndex; //regionIndex -> tableIndex
int[][] numRegionsPerServerPerTable; //serverIndex -> tableIndex -> # regions
int[] numMaxRegionsPerTable; //tableIndex -> max number of regions in a single RS
int[] regionIndexToPrimaryIndex; //regionIndex -> regionIndex of the primary
boolean hasRegionReplicas = false; //whether there is regions with replicas
Integer[] serverIndicesSortedByRegionCount;
Integer[] serverIndicesSortedByLocality;
Map serversToIndex;
Map hostsToIndex;
Map racksToIndex;
Map tablesToIndex;
Map regionsToIndex;
float[] localityPerServer;
int numServers;
int numHosts;
int numRacks;
int numTables;
int numRegions;
int numMovedRegions = 0; //num moved regions from the initial configuration
Map> clusterState;
protected final RackManager rackManager;
// Maps region -> rackIndex -> locality of region on rack
private float[][] rackLocalities;
// Maps localityType -> region -> [server|rack]Index with highest locality
private int[][] regionsToMostLocalEntities;
protected Cluster(
Map> clusterState,
Map> loads,
RegionLocationFinder regionFinder,
RackManager rackManager) {
this(null, clusterState, loads, regionFinder, rackManager);
}
@SuppressWarnings("unchecked")
protected Cluster(
Collection unassignedRegions,
Map> clusterState,
Map> loads,
RegionLocationFinder regionFinder,
RackManager rackManager) {
if (unassignedRegions == null) {
unassignedRegions = EMPTY_REGION_LIST;
}
serversToIndex = new HashMap<>();
hostsToIndex = new HashMap<>();
racksToIndex = new HashMap<>();
tablesToIndex = new HashMap<>();
//TODO: We should get the list of tables from master
tables = new ArrayList<>();
this.rackManager = rackManager != null ? rackManager : new DefaultRackManager();
numRegions = 0;
List> serversPerHostList = new ArrayList<>();
List> serversPerRackList = new ArrayList<>();
this.clusterState = clusterState;
this.regionFinder = regionFinder;
// Use servername and port as there can be dead servers in this list. We want everything with
// a matching hostname and port to have the same index.
for (ServerName sn : clusterState.keySet()) {
if (sn == null) {
LOG.warn("TODO: Enable TRACE on BaseLoadBalancer. Empty servername); " +
"skipping; unassigned regions?");
if (LOG.isTraceEnabled()) {
LOG.trace("EMPTY SERVERNAME " + clusterState.toString());
}
continue;
}
if (serversToIndex.get(sn.getAddress().toString()) == null) {
serversToIndex.put(sn.getHostAndPort(), numServers++);
}
if (!hostsToIndex.containsKey(sn.getHostname())) {
hostsToIndex.put(sn.getHostname(), numHosts++);
serversPerHostList.add(new ArrayList<>(1));
}
int serverIndex = serversToIndex.get(sn.getHostAndPort());
int hostIndex = hostsToIndex.get(sn.getHostname());
serversPerHostList.get(hostIndex).add(serverIndex);
String rack = this.rackManager.getRack(sn);
if (!racksToIndex.containsKey(rack)) {
racksToIndex.put(rack, numRacks++);
serversPerRackList.add(new ArrayList<>());
}
int rackIndex = racksToIndex.get(rack);
serversPerRackList.get(rackIndex).add(serverIndex);
}
// Count how many regions there are.
for (Entry> entry : clusterState.entrySet()) {
numRegions += entry.getValue().size();
}
numRegions += unassignedRegions.size();
regionsToIndex = new HashMap<>(numRegions);
servers = new ServerName[numServers];
serversPerHost = new int[numHosts][];
serversPerRack = new int[numRacks][];
regions = new RegionInfo[numRegions];
regionIndexToServerIndex = new int[numRegions];
initialRegionIndexToServerIndex = new int[numRegions];
regionIndexToTableIndex = new int[numRegions];
regionIndexToPrimaryIndex = new int[numRegions];
regionLoads = new Deque[numRegions];
regionLocations = new int[numRegions][];
serverIndicesSortedByRegionCount = new Integer[numServers];
serverIndicesSortedByLocality = new Integer[numServers];
localityPerServer = new float[numServers];
serverIndexToHostIndex = new int[numServers];
serverIndexToRackIndex = new int[numServers];
regionsPerServer = new int[numServers][];
regionsPerHost = new int[numHosts][];
regionsPerRack = new int[numRacks][];
primariesOfRegionsPerServer = new int[numServers][];
primariesOfRegionsPerHost = new int[numHosts][];
primariesOfRegionsPerRack = new int[numRacks][];
int tableIndex = 0, regionIndex = 0, regionPerServerIndex = 0;
for (Entry> entry : clusterState.entrySet()) {
if (entry.getKey() == null) {
LOG.warn("SERVERNAME IS NULL, skipping " + entry.getValue());
continue;
}
int serverIndex = serversToIndex.get(entry.getKey().getHostAndPort());
// keep the servername if this is the first server name for this hostname
// or this servername has the newest startcode.
if (servers[serverIndex] == null ||
servers[serverIndex].getStartcode() < entry.getKey().getStartcode()) {
servers[serverIndex] = entry.getKey();
}
if (regionsPerServer[serverIndex] != null) {
// there is another server with the same hostAndPort in ClusterState.
// allocate the array for the total size
regionsPerServer[serverIndex] = new int[entry.getValue().size() + regionsPerServer[serverIndex].length];
} else {
regionsPerServer[serverIndex] = new int[entry.getValue().size()];
}
primariesOfRegionsPerServer[serverIndex] = new int[regionsPerServer[serverIndex].length];
serverIndicesSortedByRegionCount[serverIndex] = serverIndex;
serverIndicesSortedByLocality[serverIndex] = serverIndex;
}
hosts = new String[numHosts];
for (Entry entry : hostsToIndex.entrySet()) {
hosts[entry.getValue()] = entry.getKey();
}
racks = new String[numRacks];
for (Entry entry : racksToIndex.entrySet()) {
racks[entry.getValue()] = entry.getKey();
}
for (Entry> entry : clusterState.entrySet()) {
int serverIndex = serversToIndex.get(entry.getKey().getHostAndPort());
regionPerServerIndex = 0;
int hostIndex = hostsToIndex.get(entry.getKey().getHostname());
serverIndexToHostIndex[serverIndex] = hostIndex;
int rackIndex = racksToIndex.get(this.rackManager.getRack(entry.getKey()));
serverIndexToRackIndex[serverIndex] = rackIndex;
for (RegionInfo region : entry.getValue()) {
registerRegion(region, regionIndex, serverIndex, loads, regionFinder);
regionsPerServer[serverIndex][regionPerServerIndex++] = regionIndex;
regionIndex++;
}
}
for (RegionInfo region : unassignedRegions) {
registerRegion(region, regionIndex, -1, loads, regionFinder);
regionIndex++;
}
for (int i = 0; i < serversPerHostList.size(); i++) {
serversPerHost[i] = new int[serversPerHostList.get(i).size()];
for (int j = 0; j < serversPerHost[i].length; j++) {
serversPerHost[i][j] = serversPerHostList.get(i).get(j);
}
if (serversPerHost[i].length > 1) {
multiServersPerHost = true;
}
}
for (int i = 0; i < serversPerRackList.size(); i++) {
serversPerRack[i] = new int[serversPerRackList.get(i).size()];
for (int j = 0; j < serversPerRack[i].length; j++) {
serversPerRack[i][j] = serversPerRackList.get(i).get(j);
}
}
numTables = tables.size();
numRegionsPerServerPerTable = new int[numServers][numTables];
for (int i = 0; i < numServers; i++) {
for (int j = 0; j < numTables; j++) {
numRegionsPerServerPerTable[i][j] = 0;
}
}
for (int i=0; i < regionIndexToServerIndex.length; i++) {
if (regionIndexToServerIndex[i] >= 0) {
numRegionsPerServerPerTable[regionIndexToServerIndex[i]][regionIndexToTableIndex[i]]++;
}
}
numMaxRegionsPerTable = new int[numTables];
for (int[] aNumRegionsPerServerPerTable : numRegionsPerServerPerTable) {
for (tableIndex = 0; tableIndex < aNumRegionsPerServerPerTable.length; tableIndex++) {
if (aNumRegionsPerServerPerTable[tableIndex] > numMaxRegionsPerTable[tableIndex]) {
numMaxRegionsPerTable[tableIndex] = aNumRegionsPerServerPerTable[tableIndex];
}
}
}
for (int i = 0; i < regions.length; i ++) {
RegionInfo info = regions[i];
if (RegionReplicaUtil.isDefaultReplica(info)) {
regionIndexToPrimaryIndex[i] = i;
} else {
hasRegionReplicas = true;
RegionInfo primaryInfo = RegionReplicaUtil.getRegionInfoForDefaultReplica(info);
regionIndexToPrimaryIndex[i] = regionsToIndex.getOrDefault(primaryInfo, -1);
}
}
for (int i = 0; i < regionsPerServer.length; i++) {
primariesOfRegionsPerServer[i] = new int[regionsPerServer[i].length];
for (int j = 0; j < regionsPerServer[i].length; j++) {
int primaryIndex = regionIndexToPrimaryIndex[regionsPerServer[i][j]];
primariesOfRegionsPerServer[i][j] = primaryIndex;
}
// sort the regions by primaries.
Arrays.sort(primariesOfRegionsPerServer[i]);
}
// compute regionsPerHost
if (multiServersPerHost) {
for (int i = 0 ; i < serversPerHost.length; i++) {
int numRegionsPerHost = 0;
for (int j = 0; j < serversPerHost[i].length; j++) {
numRegionsPerHost += regionsPerServer[serversPerHost[i][j]].length;
}
regionsPerHost[i] = new int[numRegionsPerHost];
primariesOfRegionsPerHost[i] = new int[numRegionsPerHost];
}
for (int i = 0 ; i < serversPerHost.length; i++) {
int numRegionPerHostIndex = 0;
for (int j = 0; j < serversPerHost[i].length; j++) {
for (int k = 0; k < regionsPerServer[serversPerHost[i][j]].length; k++) {
int region = regionsPerServer[serversPerHost[i][j]][k];
regionsPerHost[i][numRegionPerHostIndex] = region;
int primaryIndex = regionIndexToPrimaryIndex[region];
primariesOfRegionsPerHost[i][numRegionPerHostIndex] = primaryIndex;
numRegionPerHostIndex++;
}
}
// sort the regions by primaries.
Arrays.sort(primariesOfRegionsPerHost[i]);
}
}
// compute regionsPerRack
if (numRacks > 1) {
for (int i = 0 ; i < serversPerRack.length; i++) {
int numRegionsPerRack = 0;
for (int j = 0; j < serversPerRack[i].length; j++) {
numRegionsPerRack += regionsPerServer[serversPerRack[i][j]].length;
}
regionsPerRack[i] = new int[numRegionsPerRack];
primariesOfRegionsPerRack[i] = new int[numRegionsPerRack];
}
for (int i = 0 ; i < serversPerRack.length; i++) {
int numRegionPerRackIndex = 0;
for (int j = 0; j < serversPerRack[i].length; j++) {
for (int k = 0; k < regionsPerServer[serversPerRack[i][j]].length; k++) {
int region = regionsPerServer[serversPerRack[i][j]][k];
regionsPerRack[i][numRegionPerRackIndex] = region;
int primaryIndex = regionIndexToPrimaryIndex[region];
primariesOfRegionsPerRack[i][numRegionPerRackIndex] = primaryIndex;
numRegionPerRackIndex++;
}
}
// sort the regions by primaries.
Arrays.sort(primariesOfRegionsPerRack[i]);
}
}
}
/** Helper for Cluster constructor to handle a region */
private void registerRegion(RegionInfo region, int regionIndex,
int serverIndex, Map> loads,
RegionLocationFinder regionFinder) {
String tableName = region.getTable().getNameAsString();
if (!tablesToIndex.containsKey(tableName)) {
tables.add(tableName);
tablesToIndex.put(tableName, tablesToIndex.size());
}
int tableIndex = tablesToIndex.get(tableName);
regionsToIndex.put(region, regionIndex);
regions[regionIndex] = region;
regionIndexToServerIndex[regionIndex] = serverIndex;
initialRegionIndexToServerIndex[regionIndex] = serverIndex;
regionIndexToTableIndex[regionIndex] = tableIndex;
// region load
if (loads != null) {
Deque rl = loads.get(region.getRegionNameAsString());
// That could have failed if the RegionLoad is using the other regionName
if (rl == null) {
// Try getting the region load using encoded name.
rl = loads.get(region.getEncodedName());
}
regionLoads[regionIndex] = rl;
}
if (regionFinder != null) {
// region location
List loc = regionFinder.getTopBlockLocations(region);
regionLocations[regionIndex] = new int[loc.size()];
for (int i = 0; i < loc.size(); i++) {
regionLocations[regionIndex][i] = loc.get(i) == null ? -1
: (serversToIndex.get(loc.get(i).getHostAndPort()) == null ? -1
: serversToIndex.get(loc.get(i).getHostAndPort()));
}
}
}
/**
* Returns true iff a given server has less regions than the balanced amount
*/
public boolean serverHasTooFewRegions(int server) {
int minLoad = this.numRegions / numServers;
int numRegions = getNumRegions(server);
return numRegions < minLoad;
}
/**
* Retrieves and lazily initializes a field storing the locality of
* every region/server combination
*/
public float[][] getOrComputeRackLocalities() {
if (rackLocalities == null || regionsToMostLocalEntities == null) {
computeCachedLocalities();
}
return rackLocalities;
}
/**
* Lazily initializes and retrieves a mapping of region -> server for which region has
* the highest the locality
*/
public int[] getOrComputeRegionsToMostLocalEntities(LocalityType type) {
if (rackLocalities == null || regionsToMostLocalEntities == null) {
computeCachedLocalities();
}
return regionsToMostLocalEntities[type.ordinal()];
}
/**
* Looks up locality from cache of localities. Will create cache if it does
* not already exist.
*/
public float getOrComputeLocality(int region, int entity, LocalityType type) {
switch (type) {
case SERVER:
return getLocalityOfRegion(region, entity);
case RACK:
return getOrComputeRackLocalities()[region][entity];
default:
throw new IllegalArgumentException("Unsupported LocalityType: " + type);
}
}
/**
* Returns locality weighted by region size in MB. Will create locality cache
* if it does not already exist.
*/
public double getOrComputeWeightedLocality(int region, int server, LocalityType type) {
return getRegionSizeMB(region) * getOrComputeLocality(region, server, type);
}
/**
* Returns the size in MB from the most recent RegionLoad for region
*/
public int getRegionSizeMB(int region) {
Deque load = regionLoads[region];
// This means regions have no actual data on disk
if (load == null) {
return 0;
}
return regionLoads[region].getLast().getStorefileSizeMB();
}
/**
* Computes and caches the locality for each region/rack combinations,
* as well as storing a mapping of region -> server and region -> rack such that server
* and rack have the highest locality for region
*/
private void computeCachedLocalities() {
rackLocalities = new float[numRegions][numRacks];
regionsToMostLocalEntities = new int[LocalityType.values().length][numRegions];
// Compute localities and find most local server per region
for (int region = 0; region < numRegions; region++) {
int serverWithBestLocality = 0;
float bestLocalityForRegion = 0;
for (int server = 0; server < numServers; server++) {
// Aggregate per-rack locality
float locality = getLocalityOfRegion(region, server);
int rack = serverIndexToRackIndex[server];
int numServersInRack = serversPerRack[rack].length;
rackLocalities[region][rack] += locality / numServersInRack;
if (locality > bestLocalityForRegion) {
serverWithBestLocality = server;
bestLocalityForRegion = locality;
}
}
regionsToMostLocalEntities[LocalityType.SERVER.ordinal()][region] = serverWithBestLocality;
// Find most local rack per region
int rackWithBestLocality = 0;
float bestRackLocalityForRegion = 0.0f;
for (int rack = 0; rack < numRacks; rack++) {
float rackLocality = rackLocalities[region][rack];
if (rackLocality > bestRackLocalityForRegion) {
bestRackLocalityForRegion = rackLocality;
rackWithBestLocality = rack;
}
}
regionsToMostLocalEntities[LocalityType.RACK.ordinal()][region] = rackWithBestLocality;
}
}
/**
* Maps region index to rack index
*/
public int getRackForRegion(int region) {
return serverIndexToRackIndex[regionIndexToServerIndex[region]];
}
enum LocalityType {
SERVER,
RACK
}
/** An action to move or swap a region */
public static class Action {
public enum Type {
ASSIGN_REGION,
MOVE_REGION,
SWAP_REGIONS,
NULL,
}
public Type type;
public Action (Type type) {this.type = type;}
/** Returns an Action which would undo this action */
public Action undoAction() { return this; }
@Override
public String toString() { return type + ":";}
}
public static class AssignRegionAction extends Action {
public int region;
public int server;
public AssignRegionAction(int region, int server) {
super(Type.ASSIGN_REGION);
this.region = region;
this.server = server;
}
@Override
public Action undoAction() {
// TODO implement this. This action is not being used by the StochasticLB for now
// in case it uses it, we should implement this function.
throw new NotImplementedException(HConstants.NOT_IMPLEMENTED);
}
@Override
public String toString() {
return type + ": " + region + ":" + server;
}
}
public static class MoveRegionAction extends Action {
public int region;
public int fromServer;
public int toServer;
public MoveRegionAction(int region, int fromServer, int toServer) {
super(Type.MOVE_REGION);
this.fromServer = fromServer;
this.region = region;
this.toServer = toServer;
}
@Override
public Action undoAction() {
return new MoveRegionAction (region, toServer, fromServer);
}
@Override
public String toString() {
return type + ": " + region + ":" + fromServer + " -> " + toServer;
}
}
public static class SwapRegionsAction extends Action {
public int fromServer;
public int fromRegion;
public int toServer;
public int toRegion;
public SwapRegionsAction(int fromServer, int fromRegion, int toServer, int toRegion) {
super(Type.SWAP_REGIONS);
this.fromServer = fromServer;
this.fromRegion = fromRegion;
this.toServer = toServer;
this.toRegion = toRegion;
}
@Override
public Action undoAction() {
return new SwapRegionsAction (fromServer, toRegion, toServer, fromRegion);
}
@Override
public String toString() {
return type + ": " + fromRegion + ":" + fromServer + " <-> " + toRegion + ":" + toServer;
}
}
@edu.umd.cs.findbugs.annotations.SuppressWarnings(value="NM_FIELD_NAMING_CONVENTION",
justification="Mistake. Too disruptive to change now")
public static final Action NullAction = new Action(Type.NULL);
public void doAction(Action action) {
switch (action.type) {
case NULL: break;
case ASSIGN_REGION:
// FindBugs: Having the assert quietens FB BC_UNCONFIRMED_CAST warnings
assert action instanceof AssignRegionAction: action.getClass();
AssignRegionAction ar = (AssignRegionAction) action;
regionsPerServer[ar.server] = addRegion(regionsPerServer[ar.server], ar.region);
regionMoved(ar.region, -1, ar.server);
break;
case MOVE_REGION:
assert action instanceof MoveRegionAction: action.getClass();
MoveRegionAction mra = (MoveRegionAction) action;
regionsPerServer[mra.fromServer] = removeRegion(regionsPerServer[mra.fromServer], mra.region);
regionsPerServer[mra.toServer] = addRegion(regionsPerServer[mra.toServer], mra.region);
regionMoved(mra.region, mra.fromServer, mra.toServer);
break;
case SWAP_REGIONS:
assert action instanceof SwapRegionsAction: action.getClass();
SwapRegionsAction a = (SwapRegionsAction) action;
regionsPerServer[a.fromServer] = replaceRegion(regionsPerServer[a.fromServer], a.fromRegion, a.toRegion);
regionsPerServer[a.toServer] = replaceRegion(regionsPerServer[a.toServer], a.toRegion, a.fromRegion);
regionMoved(a.fromRegion, a.fromServer, a.toServer);
regionMoved(a.toRegion, a.toServer, a.fromServer);
break;
default:
throw new RuntimeException("Uknown action:" + action.type);
}
}
/**
* Return true if the placement of region on server would lower the availability
* of the region in question
* @return true or false
*/
boolean wouldLowerAvailability(RegionInfo regionInfo, ServerName serverName) {
if (!serversToIndex.containsKey(serverName.getHostAndPort())) {
return false; // safeguard against race between cluster.servers and servers from LB method args
}
int server = serversToIndex.get(serverName.getHostAndPort());
int region = regionsToIndex.get(regionInfo);
int primary = regionIndexToPrimaryIndex[region];
// there is a subset relation for server < host < rack
// check server first
if (contains(primariesOfRegionsPerServer[server], primary)) {
// check for whether there are other servers that we can place this region
for (int i = 0; i < primariesOfRegionsPerServer.length; i++) {
if (i != server && !contains(primariesOfRegionsPerServer[i], primary)) {
return true; // meaning there is a better server
}
}
return false; // there is not a better server to place this
}
// check host
if (multiServersPerHost) { // these arrays would only be allocated if we have more than one server per host
int host = serverIndexToHostIndex[server];
if (contains(primariesOfRegionsPerHost[host], primary)) {
// check for whether there are other hosts that we can place this region
for (int i = 0; i < primariesOfRegionsPerHost.length; i++) {
if (i != host && !contains(primariesOfRegionsPerHost[i], primary)) {
return true; // meaning there is a better host
}
}
return false; // there is not a better host to place this
}
}
// check rack
if (numRacks > 1) {
int rack = serverIndexToRackIndex[server];
if (contains(primariesOfRegionsPerRack[rack], primary)) {
// check for whether there are other racks that we can place this region
for (int i = 0; i < primariesOfRegionsPerRack.length; i++) {
if (i != rack && !contains(primariesOfRegionsPerRack[i], primary)) {
return true; // meaning there is a better rack
}
}
return false; // there is not a better rack to place this
}
}
return false;
}
void doAssignRegion(RegionInfo regionInfo, ServerName serverName) {
if (!serversToIndex.containsKey(serverName.getHostAndPort())) {
return;
}
int server = serversToIndex.get(serverName.getHostAndPort());
int region = regionsToIndex.get(regionInfo);
doAction(new AssignRegionAction(region, server));
}
void regionMoved(int region, int oldServer, int newServer) {
regionIndexToServerIndex[region] = newServer;
if (initialRegionIndexToServerIndex[region] == newServer) {
numMovedRegions--; //region moved back to original location
} else if (oldServer >= 0 && initialRegionIndexToServerIndex[region] == oldServer) {
numMovedRegions++; //region moved from original location
}
int tableIndex = regionIndexToTableIndex[region];
if (oldServer >= 0) {
numRegionsPerServerPerTable[oldServer][tableIndex]--;
}
numRegionsPerServerPerTable[newServer][tableIndex]++;
//check whether this caused maxRegionsPerTable in the new Server to be updated
if (numRegionsPerServerPerTable[newServer][tableIndex] > numMaxRegionsPerTable[tableIndex]) {
numMaxRegionsPerTable[tableIndex] = numRegionsPerServerPerTable[newServer][tableIndex];
} else if (oldServer >= 0 && (numRegionsPerServerPerTable[oldServer][tableIndex] + 1)
== numMaxRegionsPerTable[tableIndex]) {
//recompute maxRegionsPerTable since the previous value was coming from the old server
numMaxRegionsPerTable[tableIndex] = 0;
for (int[] aNumRegionsPerServerPerTable : numRegionsPerServerPerTable) {
if (aNumRegionsPerServerPerTable[tableIndex] > numMaxRegionsPerTable[tableIndex]) {
numMaxRegionsPerTable[tableIndex] = aNumRegionsPerServerPerTable[tableIndex];
}
}
}
// update for servers
int primary = regionIndexToPrimaryIndex[region];
if (oldServer >= 0) {
primariesOfRegionsPerServer[oldServer] = removeRegion(
primariesOfRegionsPerServer[oldServer], primary);
}
primariesOfRegionsPerServer[newServer] = addRegionSorted(
primariesOfRegionsPerServer[newServer], primary);
// update for hosts
if (multiServersPerHost) {
int oldHost = oldServer >= 0 ? serverIndexToHostIndex[oldServer] : -1;
int newHost = serverIndexToHostIndex[newServer];
if (newHost != oldHost) {
regionsPerHost[newHost] = addRegion(regionsPerHost[newHost], region);
primariesOfRegionsPerHost[newHost] = addRegionSorted(primariesOfRegionsPerHost[newHost], primary);
if (oldHost >= 0) {
regionsPerHost[oldHost] = removeRegion(regionsPerHost[oldHost], region);
primariesOfRegionsPerHost[oldHost] = removeRegion(
primariesOfRegionsPerHost[oldHost], primary); // will still be sorted
}
}
}
// update for racks
if (numRacks > 1) {
int oldRack = oldServer >= 0 ? serverIndexToRackIndex[oldServer] : -1;
int newRack = serverIndexToRackIndex[newServer];
if (newRack != oldRack) {
regionsPerRack[newRack] = addRegion(regionsPerRack[newRack], region);
primariesOfRegionsPerRack[newRack] = addRegionSorted(primariesOfRegionsPerRack[newRack], primary);
if (oldRack >= 0) {
regionsPerRack[oldRack] = removeRegion(regionsPerRack[oldRack], region);
primariesOfRegionsPerRack[oldRack] = removeRegion(
primariesOfRegionsPerRack[oldRack], primary); // will still be sorted
}
}
}
}
int[] removeRegion(int[] regions, int regionIndex) {
//TODO: this maybe costly. Consider using linked lists
int[] newRegions = new int[regions.length - 1];
int i = 0;
for (i = 0; i < regions.length; i++) {
if (regions[i] == regionIndex) {
break;
}
newRegions[i] = regions[i];
}
System.arraycopy(regions, i+1, newRegions, i, newRegions.length - i);
return newRegions;
}
int[] addRegion(int[] regions, int regionIndex) {
int[] newRegions = new int[regions.length + 1];
System.arraycopy(regions, 0, newRegions, 0, regions.length);
newRegions[newRegions.length - 1] = regionIndex;
return newRegions;
}
int[] addRegionSorted(int[] regions, int regionIndex) {
int[] newRegions = new int[regions.length + 1];
int i = 0;
for (i = 0; i < regions.length; i++) { // find the index to insert
if (regions[i] > regionIndex) {
break;
}
}
System.arraycopy(regions, 0, newRegions, 0, i); // copy first half
System.arraycopy(regions, i, newRegions, i+1, regions.length - i); // copy second half
newRegions[i] = regionIndex;
return newRegions;
}
int[] replaceRegion(int[] regions, int regionIndex, int newRegionIndex) {
int i = 0;
for (i = 0; i < regions.length; i++) {
if (regions[i] == regionIndex) {
regions[i] = newRegionIndex;
break;
}
}
return regions;
}
void sortServersByRegionCount() {
Arrays.sort(serverIndicesSortedByRegionCount, numRegionsComparator);
}
int getNumRegions(int server) {
return regionsPerServer[server].length;
}
boolean contains(int[] arr, int val) {
return Arrays.binarySearch(arr, val) >= 0;
}
private Comparator numRegionsComparator = Comparator.comparingInt(this::getNumRegions);
int getLowestLocalityRegionOnServer(int serverIndex) {
if (regionFinder != null) {
float lowestLocality = 1.0f;
int lowestLocalityRegionIndex = -1;
if (regionsPerServer[serverIndex].length == 0) {
// No regions on that region server
return -1;
}
for (int j = 0; j < regionsPerServer[serverIndex].length; j++) {
int regionIndex = regionsPerServer[serverIndex][j];
HDFSBlocksDistribution distribution = regionFinder
.getBlockDistribution(regions[regionIndex]);
float locality = distribution.getBlockLocalityIndex(servers[serverIndex].getHostname());
// skip empty region
if (distribution.getUniqueBlocksTotalWeight() == 0) {
continue;
}
if (locality < lowestLocality) {
lowestLocality = locality;
lowestLocalityRegionIndex = j;
}
}
if (lowestLocalityRegionIndex == -1) {
return -1;
}
if (LOG.isTraceEnabled()) {
LOG.trace("Lowest locality region is "
+ regions[regionsPerServer[serverIndex][lowestLocalityRegionIndex]]
.getRegionNameAsString() + " with locality " + lowestLocality
+ " and its region server contains " + regionsPerServer[serverIndex].length
+ " regions");
}
return regionsPerServer[serverIndex][lowestLocalityRegionIndex];
} else {
return -1;
}
}
float getLocalityOfRegion(int region, int server) {
if (regionFinder != null) {
HDFSBlocksDistribution distribution = regionFinder.getBlockDistribution(regions[region]);
return distribution.getBlockLocalityIndex(servers[server].getHostname());
} else {
return 0f;
}
}
@VisibleForTesting
protected void setNumRegions(int numRegions) {
this.numRegions = numRegions;
}
@VisibleForTesting
protected void setNumMovedRegions(int numMovedRegions) {
this.numMovedRegions = numMovedRegions;
}
@edu.umd.cs.findbugs.annotations.SuppressWarnings(value="SBSC_USE_STRINGBUFFER_CONCATENATION",
justification="Not important but should be fixed")
@Override
public String toString() {
StringBuilder desc = new StringBuilder("Cluster={servers=[");
for(ServerName sn:servers) {
desc.append(sn.getHostAndPort()).append(", ");
}
desc.append("], serverIndicesSortedByRegionCount=")
.append(Arrays.toString(serverIndicesSortedByRegionCount))
.append(", regionsPerServer=").append(Arrays.deepToString(regionsPerServer));
desc.append(", numMaxRegionsPerTable=").append(Arrays.toString(numMaxRegionsPerTable))
.append(", numRegions=").append(numRegions).append(", numServers=").append(numServers)
.append(", numTables=").append(numTables).append(", numMovedRegions=")
.append(numMovedRegions).append('}');
return desc.toString();
}
}
// slop for regions
protected float slop;
// overallSlop to control simpleLoadBalancer's cluster level threshold
protected float overallSlop;
protected Configuration config = HBaseConfiguration.create();
protected RackManager rackManager;
private static final Random RANDOM = new Random(System.currentTimeMillis());
private static final Logger LOG = LoggerFactory.getLogger(BaseLoadBalancer.class);
protected MetricsBalancer metricsBalancer = null;
protected ClusterMetrics clusterStatus = null;
protected ServerName masterServerName;
protected MasterServices services;
protected boolean onlySystemTablesOnMaster;
protected boolean maintenanceMode;
@Override
public void setConf(Configuration conf) {
this.config = conf;
setSlop(conf);
if (slop < 0) slop = 0;
else if (slop > 1) slop = 1;
if (overallSlop < 0) overallSlop = 0;
else if (overallSlop > 1) overallSlop = 1;
this.onlySystemTablesOnMaster = LoadBalancer.isSystemTablesOnlyOnMaster(this.config);
this.rackManager = new RackManager(getConf());
if (useRegionFinder) {
regionFinder.setConf(conf);
}
// Print out base configs. Don't print overallSlop since it for simple balancer exclusively.
LOG.info("slop={}, systemTablesOnMaster={}",
this.slop, this.onlySystemTablesOnMaster);
}
protected void setSlop(Configuration conf) {
this.slop = conf.getFloat("hbase.regions.slop", (float) 0.2);
this.overallSlop = conf.getFloat("hbase.regions.overallSlop", slop);
}
/**
* Check if a region belongs to some system table.
* If so, the primary replica may be expected to be put on the master regionserver.
*/
public boolean shouldBeOnMaster(RegionInfo region) {
return (this.maintenanceMode || this.onlySystemTablesOnMaster)
&& region.getTable().isSystemTable();
}
/**
* Balance the regions that should be on master regionserver.
*/
protected List balanceMasterRegions(Map> clusterMap) {
if (masterServerName == null || clusterMap == null || clusterMap.size() <= 1) return null;
List plans = null;
List regions = clusterMap.get(masterServerName);
if (regions != null) {
Iterator keyIt = null;
for (RegionInfo region: regions) {
if (shouldBeOnMaster(region)) continue;
// Find a non-master regionserver to host the region
if (keyIt == null || !keyIt.hasNext()) {
keyIt = clusterMap.keySet().iterator();
}
ServerName dest = keyIt.next();
if (masterServerName.equals(dest)) {
if (!keyIt.hasNext()) {
keyIt = clusterMap.keySet().iterator();
}
dest = keyIt.next();
}
// Move this region away from the master regionserver
RegionPlan plan = new RegionPlan(region, masterServerName, dest);
if (plans == null) {
plans = new ArrayList<>();
}
plans.add(plan);
}
}
for (Map.Entry> server: clusterMap.entrySet()) {
if (masterServerName.equals(server.getKey())) continue;
for (RegionInfo region: server.getValue()) {
if (!shouldBeOnMaster(region)) continue;
// Move this region to the master regionserver
RegionPlan plan = new RegionPlan(region, server.getKey(), masterServerName);
if (plans == null) {
plans = new ArrayList<>();
}
plans.add(plan);
}
}
return plans;
}
/**
* If master is configured to carry system tables only, in here is
* where we figure what to assign it.
*/
protected Map> assignMasterSystemRegions(
Collection regions, List servers) {
if (servers == null || regions == null || regions.isEmpty()) {
return null;
}
Map> assignments = new TreeMap<>();
if (this.maintenanceMode || this.onlySystemTablesOnMaster) {
if (masterServerName != null && servers.contains(masterServerName)) {
assignments.put(masterServerName, new ArrayList<>());
for (RegionInfo region : regions) {
if (shouldBeOnMaster(region)) {
assignments.get(masterServerName).add(region);
}
}
}
}
return assignments;
}
@Override
public Configuration getConf() {
return this.config;
}
@Override
public synchronized void setClusterMetrics(ClusterMetrics st) {
this.clusterStatus = st;
if (useRegionFinder) {
regionFinder.setClusterMetrics(st);
}
}
@Override
public void setClusterLoad(Map>> clusterLoad){
}
@Override
public void setMasterServices(MasterServices masterServices) {
masterServerName = masterServices.getServerName();
this.services = masterServices;
if (useRegionFinder) {
this.regionFinder.setServices(masterServices);
}
if (this.services.isInMaintenanceMode()) {
this.maintenanceMode = true;
}
}
@Override
public void postMasterStartupInitialize() {
if (services != null && regionFinder != null) {
try {
Set regions =
services.getAssignmentManager().getRegionStates().getRegionAssignments().keySet();
regionFinder.refreshAndWait(regions);
} catch (Exception e) {
LOG.warn("Refreshing region HDFS Block dist failed with exception, ignoring", e);
}
}
}
public void setRackManager(RackManager rackManager) {
this.rackManager = rackManager;
}
protected boolean needsBalance(Cluster c) {
ClusterLoadState cs = new ClusterLoadState(c.clusterState);
if (cs.getNumServers() < MIN_SERVER_BALANCE) {
if (LOG.isDebugEnabled()) {
LOG.debug("Not running balancer because only " + cs.getNumServers()
+ " active regionserver(s)");
}
return false;
}
if(areSomeRegionReplicasColocated(c)) return true;
// Check if we even need to do any load balancing
// HBASE-3681 check sloppiness first
float average = cs.getLoadAverage(); // for logging
int floor = (int) Math.floor(average * (1 - slop));
int ceiling = (int) Math.ceil(average * (1 + slop));
if (!(cs.getMaxLoad() > ceiling || cs.getMinLoad() < floor)) {
NavigableMap> serversByLoad = cs.getServersByLoad();
if (LOG.isTraceEnabled()) {
// If nothing to balance, then don't say anything unless trace-level logging.
LOG.trace("Skipping load balancing because balanced cluster; " +
"servers=" + cs.getNumServers() +
" regions=" + cs.getNumRegions() + " average=" + average +
" mostloaded=" + serversByLoad.lastKey().getLoad() +
" leastloaded=" + serversByLoad.firstKey().getLoad());
}
return false;
}
return true;
}
/**
* Subclasses should implement this to return true if the cluster has nodes that hosts
* multiple replicas for the same region, or, if there are multiple racks and the same
* rack hosts replicas of the same region
* @param c Cluster information
* @return whether region replicas are currently co-located
*/
protected boolean areSomeRegionReplicasColocated(Cluster c) {
return false;
}
/**
* Generates a bulk assignment plan to be used on cluster startup using a
* simple round-robin assignment.
*
* Takes a list of all the regions and all the servers in the cluster and
* returns a map of each server to the regions that it should be assigned.
*
* Currently implemented as a round-robin assignment. Same invariant as load
* balancing, all servers holding floor(avg) or ceiling(avg).
*
* TODO: Use block locations from HDFS to place regions with their blocks
*
* @param regions all regions
* @param servers all servers
* @return map of server to the regions it should take, or null if no
* assignment is possible (ie. no regions or no servers)
*/
@Override
public Map> roundRobinAssignment(List regions,
List servers) throws HBaseIOException {
metricsBalancer.incrMiscInvocations();
Map> assignments = assignMasterSystemRegions(regions, servers);
if (assignments != null && !assignments.isEmpty()) {
servers = new ArrayList<>(servers);
// Guarantee not to put other regions on master
servers.remove(masterServerName);
List masterRegions = assignments.get(masterServerName);
if (!masterRegions.isEmpty()) {
regions = new ArrayList<>(regions);
regions.removeAll(masterRegions);
}
}
if (this.maintenanceMode || regions == null || regions.isEmpty()) {
return assignments;
}
int numServers = servers == null ? 0 : servers.size();
if (numServers == 0) {
LOG.warn("Wanted to do round robin assignment but no servers to assign to");
return null;
}
// TODO: instead of retainAssignment() and roundRobinAssignment(), we should just run the
// normal LB.balancerCluster() with unassignedRegions. We only need to have a candidate
// generator for AssignRegionAction. The LB will ensure the regions are mostly local
// and balanced. This should also run fast with fewer number of iterations.
if (numServers == 1) { // Only one server, nothing fancy we can do here
ServerName server = servers.get(0);
assignments.put(server, new ArrayList<>(regions));
return assignments;
}
Cluster cluster = createCluster(servers, regions);
List unassignedRegions = new ArrayList<>();
roundRobinAssignment(cluster, regions, unassignedRegions,
servers, assignments);
List lastFewRegions = new ArrayList<>();
// assign the remaining by going through the list and try to assign to servers one-by-one
int serverIdx = RANDOM.nextInt(numServers);
for (RegionInfo region : unassignedRegions) {
boolean assigned = false;
for (int j = 0; j < numServers; j++) { // try all servers one by one
ServerName serverName = servers.get((j + serverIdx) % numServers);
if (!cluster.wouldLowerAvailability(region, serverName)) {
List serverRegions =
assignments.computeIfAbsent(serverName, k -> new ArrayList<>());
serverRegions.add(region);
cluster.doAssignRegion(region, serverName);
serverIdx = (j + serverIdx + 1) % numServers; //remain from next server
assigned = true;
break;
}
}
if (!assigned) {
lastFewRegions.add(region);
}
}
// just sprinkle the rest of the regions on random regionservers. The balanceCluster will
// make it optimal later. we can end up with this if numReplicas > numServers.
for (RegionInfo region : lastFewRegions) {
int i = RANDOM.nextInt(numServers);
ServerName server = servers.get(i);
List serverRegions = assignments.computeIfAbsent(server, k -> new ArrayList<>());
serverRegions.add(region);
cluster.doAssignRegion(region, server);
}
return assignments;
}
protected Cluster createCluster(List servers, Collection regions) {
// Get the snapshot of the current assignments for the regions in question, and then create
// a cluster out of it. Note that we might have replicas already assigned to some servers
// earlier. So we want to get the snapshot to see those assignments, but this will only contain
// replicas of the regions that are passed (for performance).
Map> clusterState = getRegionAssignmentsByServer(regions);
for (ServerName server : servers) {
if (!clusterState.containsKey(server)) {
clusterState.put(server, EMPTY_REGION_LIST);
}
}
return new Cluster(regions, clusterState, null, this.regionFinder,
rackManager);
}
private List findIdleServers(List servers) {
return this.services.getServerManager()
.getOnlineServersListWithPredicator(servers, IDLE_SERVER_PREDICATOR);
}
/**
* Used to assign a single region to a random server.
*/
@Override
public ServerName randomAssignment(RegionInfo regionInfo, List servers)
throws HBaseIOException {
metricsBalancer.incrMiscInvocations();
if (servers != null && servers.contains(masterServerName)) {
if (shouldBeOnMaster(regionInfo)) {
return masterServerName;
}
if (!LoadBalancer.isTablesOnMaster(getConf())) {
// Guarantee we do not put any regions on master
servers = new ArrayList<>(servers);
servers.remove(masterServerName);
}
}
int numServers = servers == null ? 0 : servers.size();
if (numServers == 0) {
LOG.warn("Wanted to retain assignment but no servers to assign to");
return null;
}
if (numServers == 1) { // Only one server, nothing fancy we can do here
return servers.get(0);
}
List idleServers = findIdleServers(servers);
if (idleServers.size() == 1) {
return idleServers.get(0);
}
final List finalServers = idleServers.isEmpty() ?
servers : idleServers;
List regions = Lists.newArrayList(regionInfo);
Cluster cluster = createCluster(finalServers, regions);
return randomAssignment(cluster, regionInfo, finalServers);
}
/**
* Generates a bulk assignment startup plan, attempting to reuse the existing
* assignment information from META, but adjusting for the specified list of
* available/online servers available for assignment.
*
* Takes a map of all regions to their existing assignment from META. Also
* takes a list of online servers for regions to be assigned to. Attempts to
* retain all assignment, so in some instances initial assignment will not be
* completely balanced.
*
* Any leftover regions without an existing server to be assigned to will be
* assigned randomly to available servers.
*
* @param regions regions and existing assignment from meta
* @param servers available servers
* @return map of servers and regions to be assigned to them
*/
@Override
public Map> retainAssignment(Map regions,
List servers) throws HBaseIOException {
// Update metrics
metricsBalancer.incrMiscInvocations();
Map> assignments = assignMasterSystemRegions(regions.keySet(), servers);
if (assignments != null && !assignments.isEmpty()) {
servers = new ArrayList<>(servers);
// Guarantee not to put other regions on master
servers.remove(masterServerName);
List masterRegions = assignments.get(masterServerName);
regions = regions.entrySet().stream().filter(e -> !masterRegions.contains(e.getKey()))
.collect(Collectors.toMap(Map.Entry::getKey, Map.Entry::getValue));
}
if (this.maintenanceMode || regions.isEmpty()) {
return assignments;
}
int numServers = servers == null ? 0 : servers.size();
if (numServers == 0) {
LOG.warn("Wanted to do retain assignment but no servers to assign to");
return null;
}
if (numServers == 1) { // Only one server, nothing fancy we can do here
ServerName server = servers.get(0);
assignments.put(server, new ArrayList<>(regions.keySet()));
return assignments;
}
// Group all of the old assignments by their hostname.
// We can't group directly by ServerName since the servers all have
// new start-codes.
// Group the servers by their hostname. It's possible we have multiple
// servers on the same host on different ports.
ArrayListMultimap serversByHostname = ArrayListMultimap.create();
for (ServerName server : servers) {
assignments.put(server, new ArrayList<>());
serversByHostname.put(server.getHostnameLowerCase(), server);
}
// Collection of the hostnames that used to have regions
// assigned, but for which we no longer have any RS running
// after the cluster restart.
Set oldHostsNoLongerPresent = Sets.newTreeSet();
int numRandomAssignments = 0;
int numRetainedAssigments = 0;
Cluster cluster = createCluster(servers, regions.keySet());
for (Map.Entry entry : regions.entrySet()) {
RegionInfo region = entry.getKey();
ServerName oldServerName = entry.getValue();
List localServers = new ArrayList<>();
if (oldServerName != null) {
localServers = serversByHostname.get(oldServerName.getHostnameLowerCase());
}
if (localServers.isEmpty()) {
// No servers on the new cluster match up with this hostname,
// assign randomly.
ServerName randomServer = randomAssignment(cluster, region, servers);
assignments.get(randomServer).add(region);
numRandomAssignments++;
if (oldServerName != null) {
oldHostsNoLongerPresent.add(oldServerName.getHostnameLowerCase());
}
} else if (localServers.size() == 1) {
// the usual case - one new server on same host
ServerName target = localServers.get(0);
assignments.get(target).add(region);
cluster.doAssignRegion(region, target);
numRetainedAssigments++;
} else {
// multiple new servers in the cluster on this same host
if (localServers.contains(oldServerName)) {
assignments.get(oldServerName).add(region);
cluster.doAssignRegion(region, oldServerName);
} else {
ServerName target = null;
for (ServerName tmp: localServers) {
if (tmp.getPort() == oldServerName.getPort()) {
target = tmp;
break;
}
}
if (target == null) {
target = randomAssignment(cluster, region, localServers);
}
assignments.get(target).add(region);
}
numRetainedAssigments++;
}
}
String randomAssignMsg = "";
if (numRandomAssignments > 0) {
randomAssignMsg =
numRandomAssignments + " regions were assigned "
+ "to random hosts, since the old hosts for these regions are no "
+ "longer present in the cluster. These hosts were:\n "
+ Joiner.on("\n ").join(oldHostsNoLongerPresent);
}
LOG.info("Reassigned " + regions.size() + " regions. " + numRetainedAssigments
+ " retained the pre-restart assignment. " + randomAssignMsg);
return assignments;
}
@Override
public void initialize() throws HBaseIOException{
}
@Override
public void regionOnline(RegionInfo regionInfo, ServerName sn) {
}
@Override
public void regionOffline(RegionInfo regionInfo) {
}
@Override
public boolean isStopped() {
return stopped;
}
@Override
public void stop(String why) {
LOG.info("Load Balancer stop requested: "+why);
stopped = true;
}
/**
* Used to assign a single region to a random server.
*/
private ServerName randomAssignment(Cluster cluster, RegionInfo regionInfo,
List servers) {
int numServers = servers.size(); // servers is not null, numServers > 1
ServerName sn = null;
final int maxIterations = numServers * 4;
int iterations = 0;
do {
int i = RANDOM.nextInt(numServers);
sn = servers.get(i);
} while (cluster.wouldLowerAvailability(regionInfo, sn)
&& iterations++ < maxIterations);
cluster.doAssignRegion(regionInfo, sn);
return sn;
}
/**
* Round robin a list of regions to a list of servers
*/
private void roundRobinAssignment(Cluster cluster, List regions,
List unassignedRegions, List servers,
Map> assignments) {
int numServers = servers.size();
int numRegions = regions.size();
int max = (int) Math.ceil((float) numRegions / numServers);
int serverIdx = 0;
if (numServers > 1) {
serverIdx = RANDOM.nextInt(numServers);
}
int regionIdx = 0;
for (int j = 0; j < numServers; j++) {
ServerName server = servers.get((j + serverIdx) % numServers);
List serverRegions = new ArrayList<>(max);
for (int i = regionIdx; i < numRegions; i += numServers) {
RegionInfo region = regions.get(i % numRegions);
if (cluster.wouldLowerAvailability(region, server)) {
unassignedRegions.add(region);
} else {
serverRegions.add(region);
cluster.doAssignRegion(region, server);
}
}
assignments.put(server, serverRegions);
regionIdx++;
}
}
protected Map> getRegionAssignmentsByServer(
Collection regions) {
if (this.services != null && this.services.getAssignmentManager() != null) {
return this.services.getAssignmentManager().getSnapShotOfAssignment(regions);
} else {
return new HashMap<>();
}
}
@Override
public void onConfigurationChange(Configuration conf) {
}
}