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 * 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
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 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
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package org.apache.lucene.index;


import org.apache.lucene.store.RateLimiter;
import org.apache.lucene.util.ThreadInterruptedException;

import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicLong;

import org.apache.lucene.index.MergePolicy.OneMergeProgress;
import org.apache.lucene.index.MergePolicy.OneMergeProgress.PauseReason;

This is the RateLimiter that IndexWriter assigns to each running merge, to give MergeSchedulers ionice like control. @lucene.internal
/** This is the {@link RateLimiter} that {@link IndexWriter} assigns to each running merge, to * give {@link MergeScheduler}s ionice like control. * * @lucene.internal */
public class MergeRateLimiter extends RateLimiter { private final static int MIN_PAUSE_CHECK_MSEC = 25; private final static long MIN_PAUSE_NS = TimeUnit.MILLISECONDS.toNanos(2); private final static long MAX_PAUSE_NS = TimeUnit.MILLISECONDS.toNanos(250); private volatile double mbPerSec; private volatile long minPauseCheckBytes; private long lastNS; private AtomicLong totalBytesWritten = new AtomicLong(); private final OneMergeProgress mergeProgress;
Sole constructor.
/** Sole constructor. */
public MergeRateLimiter(OneMergeProgress mergeProgress) { // Initially no IO limit; use setter here so minPauseCheckBytes is set: this.mergeProgress = mergeProgress; setMBPerSec(Double.POSITIVE_INFINITY); } @Override public void setMBPerSec(double mbPerSec) { // Synchronized to make updates to mbPerSec and minPauseCheckBytes atomic. synchronized (this) { // 0.0 is allowed: it means the merge is paused if (mbPerSec < 0.0) { throw new IllegalArgumentException("mbPerSec must be positive; got: " + mbPerSec); } this.mbPerSec = mbPerSec; // NOTE: Double.POSITIVE_INFINITY casts to Long.MAX_VALUE this.minPauseCheckBytes = Math.min(1024*1024, (long) ((MIN_PAUSE_CHECK_MSEC / 1000.0) * mbPerSec * 1024 * 1024)); assert minPauseCheckBytes >= 0; } mergeProgress.wakeup(); } @Override public double getMBPerSec() { return mbPerSec; }
Returns total bytes written by this merge.
/** Returns total bytes written by this merge. */
public long getTotalBytesWritten() { return totalBytesWritten.get(); } @Override public long pause(long bytes) throws MergePolicy.MergeAbortedException { totalBytesWritten.addAndGet(bytes); // While loop because we may wake up and check again when our rate limit // is changed while we were pausing: long paused = 0; long delta; while ((delta = maybePause(bytes, System.nanoTime())) >= 0) { // Keep waiting. paused += delta; } return paused; }
Total NS merge was stopped.
/** Total NS merge was stopped. */
public long getTotalStoppedNS() { return mergeProgress.getPauseTimes().get(PauseReason.STOPPED); }
Total NS merge was paused to rate limit IO.
/** Total NS merge was paused to rate limit IO. */
public long getTotalPausedNS() { return mergeProgress.getPauseTimes().get(PauseReason.PAUSED); }
Returns the number of nanoseconds spent in a paused state or -1 if no pause was applied. If the thread needs pausing, this method delegates to the linked OneMergeProgress.
/** * Returns the number of nanoseconds spent in a paused state or <code>-1</code> * if no pause was applied. If the thread needs pausing, this method delegates * to the linked {@link OneMergeProgress}. */
private long maybePause(long bytes, long curNS) throws MergePolicy.MergeAbortedException { // Now is a good time to abort the merge: if (mergeProgress.isAborted()) { throw new MergePolicy.MergeAbortedException("Merge aborted."); } double rate = mbPerSec; // read from volatile rate once. double secondsToPause = (bytes/1024./1024.) / rate; // Time we should sleep until; this is purely instantaneous // rate (just adds seconds onto the last time we had paused to); // maybe we should also offer decayed recent history one? long targetNS = lastNS + (long) (1000000000 * secondsToPause); long curPauseNS = targetNS - curNS; // We don't bother with thread pausing if the pause is smaller than 2 msec. if (curPauseNS <= MIN_PAUSE_NS) { // Set to curNS, not targetNS, to enforce the instant rate, not // the "averaged over all history" rate: lastNS = curNS; return -1; } // Defensive: don't sleep for too long; the loop above will call us again if // we should keep sleeping and the rate may be adjusted in between. if (curPauseNS > MAX_PAUSE_NS) { curPauseNS = MAX_PAUSE_NS; } long start = System.nanoTime(); try { mergeProgress.pauseNanos( curPauseNS, rate == 0.0 ? PauseReason.STOPPED : PauseReason.PAUSED, () -> rate == mbPerSec); } catch (InterruptedException ie) { throw new ThreadInterruptedException(ie); } return System.nanoTime() - start; } @Override public long getMinPauseCheckBytes() { return minPauseCheckBytes; } }