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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.io.BufferedReader; import java.io.FileReader; import java.io.IOException; import java.io.InputStreamReader; import java.util.ArrayList; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.regex.Pattern; import java.util.regex.PatternSyntaxException; import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.fs.FileSystem; import org.apache.hadoop.fs.Path; import org.apache.hadoop.hbase.ServerName; import org.apache.yetus.audience.InterfaceAudience; import org.slf4j.Logger; import org.slf4j.LoggerFactory; /** * This is an optional Cost function designed to allow region count skew across RegionServers. A * rule file is loaded from the local FS or HDFS before balancing. It contains lines of rules. A * rule is composed of a regexp for hostname, and a limit. For example, we could have: *

* * rs[0-9] 200 * rs1[0-9] 50 *

* RegionServers with hostname matching the first rules will have a limit of 200, and the others 50. * If there's no match, a default is set. The costFunction is trying to fill all RegionServers * linearly, meaning that if the global usage is at 50%, then all RegionServers should hold half of * their capacity in terms of regions. In order to use this CostFunction, you need to set the * following options: *
    *
  • hbase.master.balancer.stochastic.additionalCostFunctions
  • *
  • hbase.master.balancer.stochastic.heterogeneousRegionCountRulesFile
  • *
  • hbase.master.balancer.stochastic.heterogeneousRegionCountDefault
  • *
* The rule file can be located on local FS or HDFS, depending on the prefix (file//: or hdfs://). */ @InterfaceAudience.Private public class HeterogeneousRegionCountCostFunction extends StochasticLoadBalancer.CostFunction { /** * configuration used for the path where the rule file is stored. */ static final String HBASE_MASTER_BALANCER_HETEROGENEOUS_RULES_FILE = "hbase.master.balancer.heterogeneousRegionCountRulesFile"; private static final Logger LOG = LoggerFactory.getLogger(HeterogeneousRegionCountCostFunction.class); /** * Default rule to apply when the rule file is not found. Default to 200. */ private static final String HBASE_MASTER_BALANCER_HETEROGENEOUS_RULES_DEFAULT = "hbase.master.balancer.heterogeneousRegionCountDefault"; /** * Cost for the function. Default to 500, can be changed. */ private static final String REGION_COUNT_SKEW_COST_KEY = "hbase.master.balancer.stochastic.heterogeneousRegionCountCost"; private static final float DEFAULT_REGION_COUNT_SKEW_COST = 500; private final String rulesPath; /** * Contains the rules, key is the regexp for ServerName, value is the limit */ private final Map limitPerRule; /** * This is a cache, used to not go through all the limitPerRule map when searching for limit */ private final Map limitPerRS; private final Configuration conf; private int defaultNumberOfRegions; /** * Total capacity of regions for the cluster, based on the online RS and their associated rules */ private int totalCapacity = 0; double overallUsage; HeterogeneousRegionCountCostFunction(final Configuration conf) { super(conf); this.conf = conf; this.limitPerRS = new HashMap<>(); this.limitPerRule = new HashMap<>(); this.setMultiplier(conf.getFloat(REGION_COUNT_SKEW_COST_KEY, DEFAULT_REGION_COUNT_SKEW_COST)); this.rulesPath = conf.get(HBASE_MASTER_BALANCER_HETEROGENEOUS_RULES_FILE); this.defaultNumberOfRegions = conf.getInt(HBASE_MASTER_BALANCER_HETEROGENEOUS_RULES_DEFAULT, 200); if (this.defaultNumberOfRegions < 0) { LOG.warn("invalid configuration '" + HBASE_MASTER_BALANCER_HETEROGENEOUS_RULES_DEFAULT + "'. Setting default to 200"); this.defaultNumberOfRegions = 200; } if (conf.getFloat(StochasticLoadBalancer.RegionCountSkewCostFunction.REGION_COUNT_SKEW_COST_KEY, StochasticLoadBalancer.RegionCountSkewCostFunction.DEFAULT_REGION_COUNT_SKEW_COST) > 0) { LOG.warn("regionCountCost is not set to 0, " + " this will interfere with the HeterogeneousRegionCountCostFunction!"); } } /** * Called once per LB invocation to give the cost function to initialize it's state, and perform * any costly calculation. */ @Override void init(final BaseLoadBalancer.Cluster cluster) { this.cluster = cluster; this.loadRules(); } @Override protected double cost() { double cost = 0; final double targetUsage = ((double) this.cluster.numRegions / (double) this.totalCapacity); for (int i = 0; i < this.cluster.numServers; i++) { // retrieve capacity for each RS final ServerName sn = this.cluster.servers[i]; final double limit = this.limitPerRS.getOrDefault(sn, defaultNumberOfRegions); final double nbrRegions = this.cluster.regionsPerServer[i].length; final double usage = nbrRegions / limit; if (usage > targetUsage) { // cost is the number of regions above the local limit final double localCost = (nbrRegions - Math.round(limit * targetUsage)) / limit; cost += localCost; } } return cost / (double) this.cluster.numServers; } /** * used to load the rule files. */ void loadRules() { final List lines = readFile(this.rulesPath); if (null == lines) { LOG.warn("cannot load rules file, keeping latest rules file which has " + this.limitPerRule.size() + " rules"); return; } LOG.info("loading rules file '" + this.rulesPath + "'"); this.limitPerRule.clear(); for (final String line : lines) { try { if (line.length() == 0) { continue; } if (line.startsWith("#")) { continue; } final String[] splits = line.split(" "); if (splits.length != 2) { throw new IOException( "line '" + line + "' is malformated, " + "expected [regexp] [limit]. Skipping line"); } final Pattern pattern = Pattern.compile(splits[0]); final Integer limit = Integer.parseInt(splits[1]); this.limitPerRule.put(pattern, limit); } catch (final IOException | NumberFormatException | PatternSyntaxException e) { LOG.error("error on line: " + e); } } this.rebuildCache(); } /** * used to read the rule files from either HDFS or local FS */ private List readFile(final String filename) { if (null == filename) { return null; } try { if (filename.startsWith("file:")) { return readFileFromLocalFS(filename); } return readFileFromHDFS(filename); } catch (IOException e) { LOG.error("cannot read rules file located at ' " + filename + " ':" + e.getMessage()); return null; } } /** * used to read the rule files from HDFS */ private List readFileFromHDFS(final String filename) throws IOException { final Path path = new Path(filename); final FileSystem fs = FileSystem.get(this.conf); final BufferedReader reader = new BufferedReader(new InputStreamReader(fs.open(path))); return readLines(reader); } /** * used to read the rule files from local FS */ private List readFileFromLocalFS(final String filename) throws IOException { BufferedReader reader = new BufferedReader(new FileReader(filename)); return readLines(reader); } private List readLines(BufferedReader reader) throws IOException { final List records = new ArrayList<>(); try { String line; while ((line = reader.readLine()) != null) { records.add(line); } } finally { reader.close(); } return records; } /** * Rebuild cache matching ServerNames and their capacity. */ private void rebuildCache() { LOG.debug("Rebuilding cache of capacity for each RS"); this.limitPerRS.clear(); this.totalCapacity = 0; if (null == this.cluster) { return; } for (int i = 0; i < this.cluster.numServers; i++) { final ServerName sn = this.cluster.servers[i]; final int capacity = this.findLimitForRS(sn); LOG.debug(sn.getHostname() + " can hold " + capacity + " regions"); this.totalCapacity += capacity; } overallUsage = (double) this.cluster.numRegions / (double) this.totalCapacity; LOG.info("Cluster can hold " + this.cluster.numRegions + "/" + this.totalCapacity + " regions (" + Math.round(overallUsage * 100) + "%)"); if (overallUsage >= 1) { LOG.warn("Cluster is overused, {}", overallUsage); } } /** * Find the limit for a ServerName. If not found then return the default value * @param serverName the server we are looking for * @return the limit */ int findLimitForRS(final ServerName serverName) { boolean matched = false; int limit = -1; for (final Map.Entry entry : this.limitPerRule.entrySet()) { if (entry.getKey().matcher(serverName.getHostname()).matches()) { matched = true; limit = entry.getValue(); break; } } if (!matched) { limit = this.defaultNumberOfRegions; } // Feeding cache this.limitPerRS.put(serverName, limit); return limit; } int getNumberOfRulesLoaded() { return this.limitPerRule.size(); } }




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