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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
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package org.apache.hadoop.hbase.regionserver.compactions;

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.classification.InterfaceAudience;
import org.apache.hadoop.hbase.regionserver.StoreConfigInformation;

/**
 * 

* Compaction configuration for a particular instance of HStore. * Takes into account both global settings and ones set on the column family/store. * Control knobs for default compaction algorithm: *

*

* maxCompactSize - upper bound on file size to be included in minor compactions * minCompactSize - lower bound below which compaction is selected without ratio test * minFilesToCompact - lower bound on number of files in any minor compaction * maxFilesToCompact - upper bound on number of files in any minor compaction * compactionRatio - Ratio used for compaction * minLocalityToForceCompact - Locality threshold for a store file to major compact (HBASE-11195) *

* Set parameter as "hbase.hstore.compaction.<attribute>" */ @InterfaceAudience.Private public class CompactionConfiguration { private static final Log LOG = LogFactory.getLog(CompactionConfiguration.class); public static final String HBASE_HSTORE_COMPACTION_RATIO_KEY = "hbase.hstore.compaction.ratio"; public static final String HBASE_HSTORE_COMPACTION_RATIO_OFFPEAK_KEY = "hbase.hstore.compaction.ratio.offpeak"; public static final String HBASE_HSTORE_COMPACTION_MIN_KEY = "hbase.hstore.compaction.min"; public static final String HBASE_HSTORE_COMPACTION_MIN_SIZE_KEY = "hbase.hstore.compaction.min.size"; public static final String HBASE_HSTORE_COMPACTION_MAX_KEY = "hbase.hstore.compaction.max"; public static final String HBASE_HSTORE_COMPACTION_DISCHARGER_THREAD_COUNT = "hbase.hstore.compaction.discharger.thread.count"; public static final String HBASE_HSTORE_COMPACTION_MAX_SIZE_KEY = "hbase.hstore.compaction.max.size"; public static final String HBASE_HSTORE_COMPACTION_MAX_SIZE_OFFPEAK_KEY = "hbase.hstore.compaction.max.size.offpeak"; public static final String HBASE_HSTORE_OFFPEAK_END_HOUR = "hbase.offpeak.end.hour"; public static final String HBASE_HSTORE_OFFPEAK_START_HOUR = "hbase.offpeak.start.hour"; public static final String HBASE_HSTORE_MIN_LOCALITY_TO_SKIP_MAJOR_COMPACT = "hbase.hstore.min.locality.to.skip.major.compact"; public static final String HBASE_HFILE_COMPACTION_DISCHARGER_THREAD_COUNT = "hbase.hfile.compaction.discharger.thread.count"; public static final String HBASE_HFILE_COMPACTION_DISCHARGER_INTERVAL = "hbase.hfile.compaction.discharger.interval"; /* * The epoch time length for the windows we no longer compact */ public static final String DATE_TIERED_MAX_AGE_MILLIS_KEY = "hbase.hstore.compaction.date.tiered.max.storefile.age.millis"; public static final String DATE_TIERED_INCOMING_WINDOW_MIN_KEY = "hbase.hstore.compaction.date.tiered.incoming.window.min"; public static final String COMPACTION_POLICY_CLASS_FOR_DATE_TIERED_WINDOWS_KEY = "hbase.hstore.compaction.date.tiered.window.policy.class"; public static final String DATE_TIERED_SINGLE_OUTPUT_FOR_MINOR_COMPACTION_KEY = "hbase.hstore.compaction.date.tiered.single.output.for.minor.compaction"; private static final Class DEFAULT_COMPACTION_POLICY_CLASS_FOR_DATE_TIERED_WINDOWS = ExploringCompactionPolicy.class; public static final String DATE_TIERED_COMPACTION_WINDOW_FACTORY_CLASS_KEY = "hbase.hstore.compaction.date.tiered.window.factory.class"; private static final Class DEFAULT_DATE_TIERED_COMPACTION_WINDOW_FACTORY_CLASS = ExponentialCompactionWindowFactory.class; Configuration conf; StoreConfigInformation storeConfigInfo; private final double offPeakCompactionRatio; /** Since all these properties can change online, they are volatile **/ private final long maxCompactSize; private final long offPeakMaxCompactSize; private final long minCompactSize; /** This one can be update **/ private int minFilesToCompact; private final int maxFilesToCompact; private final double compactionRatio; private final long throttlePoint; private final long majorCompactionPeriod; private final float majorCompactionJitter; private final float minLocalityToForceCompact; private final long dateTieredMaxStoreFileAgeMillis; private final int dateTieredIncomingWindowMin; private final String compactionPolicyForDateTieredWindow; private final boolean dateTieredSingleOutputForMinorCompaction; private final String dateTieredCompactionWindowFactory; CompactionConfiguration(Configuration conf, StoreConfigInformation storeConfigInfo) { this.conf = conf; this.storeConfigInfo = storeConfigInfo; maxCompactSize = conf.getLong(HBASE_HSTORE_COMPACTION_MAX_SIZE_KEY, Long.MAX_VALUE); offPeakMaxCompactSize = conf.getLong(HBASE_HSTORE_COMPACTION_MAX_SIZE_OFFPEAK_KEY, maxCompactSize); minCompactSize = conf.getLong(HBASE_HSTORE_COMPACTION_MIN_SIZE_KEY, storeConfigInfo.getMemstoreFlushSize()); minFilesToCompact = Math.max(2, conf.getInt(HBASE_HSTORE_COMPACTION_MIN_KEY, /*old name*/ conf.getInt("hbase.hstore.compactionThreshold", 3))); maxFilesToCompact = conf.getInt(HBASE_HSTORE_COMPACTION_MAX_KEY, 10); compactionRatio = conf.getFloat(HBASE_HSTORE_COMPACTION_RATIO_KEY, 1.2F); offPeakCompactionRatio = conf.getFloat(HBASE_HSTORE_COMPACTION_RATIO_OFFPEAK_KEY, 5.0F); throttlePoint = conf.getLong("hbase.regionserver.thread.compaction.throttle", 2 * maxFilesToCompact * storeConfigInfo.getMemstoreFlushSize()); majorCompactionPeriod = conf.getLong(HConstants.MAJOR_COMPACTION_PERIOD, 1000*60*60*24*7); // Make it 0.5 so jitter has us fall evenly either side of when the compaction should run majorCompactionJitter = conf.getFloat("hbase.hregion.majorcompaction.jitter", 0.50F); minLocalityToForceCompact = conf.getFloat(HBASE_HSTORE_MIN_LOCALITY_TO_SKIP_MAJOR_COMPACT, 0f); dateTieredMaxStoreFileAgeMillis = conf.getLong(DATE_TIERED_MAX_AGE_MILLIS_KEY, Long.MAX_VALUE); dateTieredIncomingWindowMin = conf.getInt(DATE_TIERED_INCOMING_WINDOW_MIN_KEY, 6); compactionPolicyForDateTieredWindow = conf.get( COMPACTION_POLICY_CLASS_FOR_DATE_TIERED_WINDOWS_KEY, DEFAULT_COMPACTION_POLICY_CLASS_FOR_DATE_TIERED_WINDOWS.getName()); dateTieredSingleOutputForMinorCompaction = conf .getBoolean(DATE_TIERED_SINGLE_OUTPUT_FOR_MINOR_COMPACTION_KEY, true); this.dateTieredCompactionWindowFactory = conf.get( DATE_TIERED_COMPACTION_WINDOW_FACTORY_CLASS_KEY, DEFAULT_DATE_TIERED_COMPACTION_WINDOW_FACTORY_CLASS.getName()); LOG.info(this); } @Override public String toString() { return String.format( "size [%d, %d, %d); files [%d, %d); ratio %f; off-peak ratio %f; throttle point %d;" + " major period %d, major jitter %f, min locality to compact %f;" + " tiered compaction: max_age %d, incoming window min %d," + " compaction policy for tiered window %s, single output for minor %b," + " compaction window factory %s", minCompactSize, maxCompactSize, offPeakMaxCompactSize, minFilesToCompact, maxFilesToCompact, compactionRatio, offPeakCompactionRatio, throttlePoint, majorCompactionPeriod, majorCompactionJitter, minLocalityToForceCompact, dateTieredMaxStoreFileAgeMillis, dateTieredIncomingWindowMin, compactionPolicyForDateTieredWindow, dateTieredSingleOutputForMinorCompaction, dateTieredCompactionWindowFactory ); } /** * @return lower bound below which compaction is selected without ratio test */ public long getMinCompactSize() { return minCompactSize; } /** * @return upper bound on file size to be included in minor compactions */ public long getMaxCompactSize() { return maxCompactSize; } /** * @return upper bound on number of files to be included in minor compactions */ public int getMinFilesToCompact() { return minFilesToCompact; } /** * Set upper bound on number of files to be included in minor compactions * @param threshold value to set to */ public void setMinFilesToCompact(int threshold) { minFilesToCompact = threshold; } /** * @return upper bound on number of files to be included in minor compactions */ public int getMaxFilesToCompact() { return maxFilesToCompact; } /** * @return Ratio used for compaction */ public double getCompactionRatio() { return compactionRatio; } /** * @return Off peak Ratio used for compaction */ public double getCompactionRatioOffPeak() { return offPeakCompactionRatio; } /** * @return ThrottlePoint used for classifying small and large compactions */ public long getThrottlePoint() { return throttlePoint; } /** * @return Major compaction period from compaction. * Major compactions are selected periodically according to this parameter plus jitter */ public long getMajorCompactionPeriod() { return majorCompactionPeriod; } /** * @return Major the jitter fraction, the fraction within which the major compaction * period is randomly chosen from the majorCompactionPeriod in each store. */ public float getMajorCompactionJitter() { return majorCompactionJitter; } /** * @return Block locality ratio, the ratio at which we will include old regions with a single * store file for major compaction. Used to improve block locality for regions that * haven't had writes in a while but are still being read. */ public float getMinLocalityToForceCompact() { return minLocalityToForceCompact; } public long getOffPeakMaxCompactSize() { return offPeakMaxCompactSize; } public long getMaxCompactSize(boolean mayUseOffpeak) { if (mayUseOffpeak) { return getOffPeakMaxCompactSize(); } else { return getMaxCompactSize(); } } public long getDateTieredMaxStoreFileAgeMillis() { return dateTieredMaxStoreFileAgeMillis; } public int getDateTieredIncomingWindowMin() { return dateTieredIncomingWindowMin; } public String getCompactionPolicyForDateTieredWindow() { return compactionPolicyForDateTieredWindow; } public boolean useDateTieredSingleOutputForMinorCompaction() { return dateTieredSingleOutputForMinorCompaction; } public String getDateTieredCompactionWindowFactory() { return dateTieredCompactionWindowFactory; } }




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