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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;

import java.util.concurrent.ScheduledThreadPoolExecutor;
import java.util.concurrent.TimeUnit;

import org.apache.yetus.audience.InterfaceAudience;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.hbase.thirdparty.com.google.common.annotations.VisibleForTesting;

/**
 * ScheduledChore is a task performed on a period in hbase. ScheduledChores become active once
 * scheduled with a {@link ChoreService} via {@link ChoreService#scheduleChore(ScheduledChore)}. The
 * chore is run in a {@link ScheduledThreadPoolExecutor} and competes with other ScheduledChores for
 * access to the threads in the core thread pool. If an unhandled exception occurs, the chore
 * cancellation is logged. Implementers should consider whether or not the Chore will be able to
 * execute within the defined period. It is bad practice to define a ScheduledChore whose execution
 * time exceeds its period since it will try to hog one of the threads in the {@link ChoreService}'s
 * thread pool.
 * 

* Don't subclass ScheduledChore if the task relies on being woken up for something to do, such as * an entry being added to a queue, etc. */ @InterfaceAudience.Public public abstract class ScheduledChore implements Runnable { private static final Logger LOG = LoggerFactory.getLogger(ScheduledChore.class); private final String name; /** * Default values for scheduling parameters should they be excluded during construction */ private final static TimeUnit DEFAULT_TIME_UNIT = TimeUnit.MILLISECONDS; private final static long DEFAULT_INITIAL_DELAY = 0; /** * Scheduling parameters. Used by ChoreService when scheduling the chore to run periodically */ private final int period; // in TimeUnit units private final TimeUnit timeUnit; private final long initialDelay; // in TimeUnit units /** * Interface to the ChoreService that this ScheduledChore is scheduled with. null if the chore is * not scheduled. */ private ChoreServicer choreServicer; /** * Variables that encapsulate the meaningful state information */ private long timeOfLastRun = -1; // system time millis private long timeOfThisRun = -1; // system time millis private boolean initialChoreComplete = false; /** * A means by which a ScheduledChore can be stopped. Once a chore recognizes that it has been * stopped, it will cancel itself. This is particularly useful in the case where a single stopper * instance is given to multiple chores. In such a case, a single {@link Stoppable#stop(String)} * command can cause many chores to stop together. */ private final Stoppable stopper; interface ChoreServicer { /** * Cancel any ongoing schedules that this chore has with the implementer of this interface. */ public void cancelChore(ScheduledChore chore); public void cancelChore(ScheduledChore chore, boolean mayInterruptIfRunning); /** * @return true when the chore is scheduled with the implementer of this interface */ public boolean isChoreScheduled(ScheduledChore chore); /** * This method tries to execute the chore immediately. If the chore is executing at the time of * this call, the chore will begin another execution as soon as the current execution finishes *

* If the chore is not scheduled with a ChoreService, this call will fail. * @return false when the chore could not be triggered immediately */ public boolean triggerNow(ScheduledChore chore); /** * A callback that tells the implementer of this interface that one of the scheduled chores is * missing its start time. The implication of a chore missing its start time is that the * service's current means of scheduling may not be sufficient to handle the number of ongoing * chores (the other explanation is that the chore's execution time is greater than its * scheduled period). The service should try to increase its concurrency when this callback is * received. * @param chore The chore that missed its start time */ public void onChoreMissedStartTime(ScheduledChore chore); } /** * This constructor is for test only. It allows us to create an object and to call chore() on it. */ @InterfaceAudience.Private @VisibleForTesting protected ScheduledChore() { this.name = null; this.stopper = null; this.period = 0; this.initialDelay = DEFAULT_INITIAL_DELAY; this.timeUnit = DEFAULT_TIME_UNIT; } /** * @param name Name assigned to Chore. Useful for identification amongst chores of the same type * @param stopper When {@link Stoppable#isStopped()} is true, this chore will cancel and cleanup * @param period Period in millis with which this Chore repeats execution when scheduled. */ public ScheduledChore(final String name, Stoppable stopper, final int period) { this(name, stopper, period, DEFAULT_INITIAL_DELAY); } /** * @param name Name assigned to Chore. Useful for identification amongst chores of the same type * @param stopper When {@link Stoppable#isStopped()} is true, this chore will cancel and cleanup * @param period Period in millis with which this Chore repeats execution when scheduled. * @param initialDelay Delay before this Chore begins to execute once it has been scheduled. A * value of 0 means the chore will begin to execute immediately. Negative delays are * invalid and will be corrected to a value of 0. */ public ScheduledChore(final String name, Stoppable stopper, final int period, final long initialDelay) { this(name, stopper, period, initialDelay, DEFAULT_TIME_UNIT); } /** * @param name Name assigned to Chore. Useful for identification amongst chores of the same type * @param stopper When {@link Stoppable#isStopped()} is true, this chore will cancel and cleanup * @param period Period in Timeunit unit with which this Chore repeats execution when scheduled. * @param initialDelay Delay in Timeunit unit before this Chore begins to execute once it has been * scheduled. A value of 0 means the chore will begin to execute immediately. Negative * delays are invalid and will be corrected to a value of 0. * @param unit The unit that is used to measure period and initialDelay */ public ScheduledChore(final String name, Stoppable stopper, final int period, final long initialDelay, final TimeUnit unit) { this.name = name; this.stopper = stopper; this.period = period; this.initialDelay = initialDelay < 0 ? 0 : initialDelay; this.timeUnit = unit; } /** * @see java.lang.Runnable#run() */ @Override public void run() { updateTimeTrackingBeforeRun(); if (missedStartTime() && isScheduled()) { onChoreMissedStartTime(); if (LOG.isInfoEnabled()) LOG.info("Chore: " + getName() + " missed its start time"); } else if (stopper.isStopped() || !isScheduled()) { cancel(false); cleanup(); if (LOG.isInfoEnabled()) LOG.info("Chore: " + getName() + " was stopped"); } else { try { if (!initialChoreComplete) { initialChoreComplete = initialChore(); } else { chore(); } } catch (Throwable t) { if (LOG.isErrorEnabled()) LOG.error("Caught error", t); if (this.stopper.isStopped()) { cancel(false); cleanup(); } } } } /** * Update our time tracking members. Called at the start of an execution of this chore's run() * method so that a correct decision can be made as to whether or not we missed the start time */ private synchronized void updateTimeTrackingBeforeRun() { timeOfLastRun = timeOfThisRun; timeOfThisRun = System.currentTimeMillis(); } /** * Notify the ChoreService that this chore has missed its start time. Allows the ChoreService to * make the decision as to whether or not it would be worthwhile to increase the number of core * pool threads */ private synchronized void onChoreMissedStartTime() { if (choreServicer != null) choreServicer.onChoreMissedStartTime(this); } /** * @return How long in millis has it been since this chore last run. Useful for checking if the * chore has missed its scheduled start time by too large of a margin */ synchronized long getTimeBetweenRuns() { return timeOfThisRun - timeOfLastRun; } /** * @return true when the time between runs exceeds the acceptable threshold */ private synchronized boolean missedStartTime() { return isValidTime(timeOfLastRun) && isValidTime(timeOfThisRun) && getTimeBetweenRuns() > getMaximumAllowedTimeBetweenRuns(); } /** * @return max allowed time in millis between runs. */ private double getMaximumAllowedTimeBetweenRuns() { // Threshold used to determine if the Chore's current run started too late return 1.5 * timeUnit.toMillis(period); } /** * @param time in system millis * @return true if time is earlier or equal to current milli time */ private synchronized boolean isValidTime(final long time) { return time > 0 && time <= System.currentTimeMillis(); } /** * @return false when the Chore is not currently scheduled with a ChoreService */ public synchronized boolean triggerNow() { if (choreServicer != null) { return choreServicer.triggerNow(this); } else { return false; } } synchronized void setChoreServicer(ChoreServicer service) { // Chores should only ever be scheduled with a single ChoreService. If the choreServicer // is changing, cancel any existing schedules of this chore. if (choreServicer != null && choreServicer != service) { choreServicer.cancelChore(this, false); } choreServicer = service; timeOfThisRun = System.currentTimeMillis(); } public synchronized void cancel() { cancel(true); } public synchronized void cancel(boolean mayInterruptIfRunning) { if (isScheduled()) choreServicer.cancelChore(this, mayInterruptIfRunning); choreServicer = null; } public String getName() { return name; } public Stoppable getStopper() { return stopper; } /** * @return period to execute chore in getTimeUnit() units */ public int getPeriod() { return period; } /** * @return initial delay before executing chore in getTimeUnit() units */ public long getInitialDelay() { return initialDelay; } public TimeUnit getTimeUnit() { return timeUnit; } public synchronized boolean isInitialChoreComplete() { return initialChoreComplete; } @VisibleForTesting synchronized ChoreServicer getChoreServicer() { return choreServicer; } @VisibleForTesting synchronized long getTimeOfLastRun() { return timeOfLastRun; } @VisibleForTesting synchronized long getTimeOfThisRun() { return timeOfThisRun; } /** * @return true when this Chore is scheduled with a ChoreService */ public synchronized boolean isScheduled() { return choreServicer != null && choreServicer.isChoreScheduled(this); } @InterfaceAudience.Private @VisibleForTesting public synchronized void choreForTesting() { chore(); } /** * The task to execute on each scheduled execution of the Chore */ protected abstract void chore(); /** * Override to run a task before we start looping. * @return true if initial chore was successful */ protected boolean initialChore() { // Default does nothing return true; } /** * Override to run cleanup tasks when the Chore encounters an error and must stop running */ protected synchronized void cleanup() { } /** * A summation of this chore in human readable format. Downstream users should not presume * parsing of this string can relaibly be done between versions. Instead, they should rely * on the public accessor methods to get the information they desire. */ @InterfaceAudience.Private @Override public String toString() { return "[ScheduledChore: Name: " + getName() + " Period: " + getPeriod() + " Unit: " + getTimeUnit() + "]"; } }





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