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view src/org/eclipse/jetty/util/thread/QueuedThreadPool.java @ 806:49cbf6ee529f
include property files in build
author | Franklin Schmidt <fschmidt@gmail.com> |
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date | Wed, 07 Sep 2016 22:50:42 -0600 |
parents | 3428c60d7cfc |
children | 8e9db0bbf4f9 |
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// // ======================================================================== // Copyright (c) 1995-2014 Mort Bay Consulting Pty. Ltd. // ------------------------------------------------------------------------ // All rights reserved. This program and the accompanying materials // are made available under the terms of the Eclipse Public License v1.0 // and Apache License v2.0 which accompanies this distribution. // // The Eclipse Public License is available at // http://www.eclipse.org/legal/epl-v10.html // // The Apache License v2.0 is available at // http://www.opensource.org/licenses/apache2.0.php // // You may elect to redistribute this code under either of these licenses. // ======================================================================== // package org.eclipse.jetty.util.thread; import java.io.IOException; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.concurrent.ArrayBlockingQueue; import java.util.concurrent.BlockingQueue; import java.util.concurrent.ConcurrentLinkedQueue; import java.util.concurrent.Executor; import java.util.concurrent.RejectedExecutionException; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicLong; import org.eclipse.jetty.util.BlockingArrayQueue; import org.eclipse.jetty.util.component.AbstractLifeCycle; import org.eclipse.jetty.util.component.AggregateLifeCycle; import org.eclipse.jetty.util.component.Dumpable; import org.eclipse.jetty.util.component.LifeCycle; import org.eclipse.jetty.util.log.Log; import org.eclipse.jetty.util.log.Logger; import org.eclipse.jetty.util.thread.ThreadPool.SizedThreadPool; public class QueuedThreadPool extends AbstractLifeCycle implements SizedThreadPool, Executor, Dumpable { private static final Logger LOG = Log.getLogger(QueuedThreadPool.class); private final AtomicInteger _threadsStarted = new AtomicInteger(); private final AtomicInteger _threadsIdle = new AtomicInteger(); private final AtomicLong _lastShrink = new AtomicLong(); private final ConcurrentLinkedQueue<Thread> _threads=new ConcurrentLinkedQueue<Thread>(); private final Object _joinLock = new Object(); private BlockingQueue<Runnable> _jobs; private String _name; private int _maxIdleTimeMs=60000; private int _maxThreads=254; private int _minThreads=8; private int _maxQueued=-1; private int _priority=Thread.NORM_PRIORITY; private boolean _daemon=false; private int _maxStopTime=100; private boolean _detailedDump=false; /* ------------------------------------------------------------------- */ /** Construct */ public QueuedThreadPool() { _name="qtp"+super.hashCode(); } /* ------------------------------------------------------------------- */ /** Construct */ public QueuedThreadPool(int maxThreads) { this(); setMaxThreads(maxThreads); } /* ------------------------------------------------------------------- */ /** Construct */ public QueuedThreadPool(BlockingQueue<Runnable> jobQ) { this(); _jobs=jobQ; _jobs.clear(); } /* ------------------------------------------------------------ */ @Override protected void doStart() throws Exception { super.doStart(); _threadsStarted.set(0); if (_jobs==null) { _jobs=_maxQueued>0 ?new ArrayBlockingQueue<Runnable>(_maxQueued) :new BlockingArrayQueue<Runnable>(_minThreads,_minThreads); } int threads=_threadsStarted.get(); while (isRunning() && threads<_minThreads) { startThread(threads); threads=_threadsStarted.get(); } } /* ------------------------------------------------------------ */ @Override protected void doStop() throws Exception { super.doStop(); long start=System.currentTimeMillis(); // let jobs complete naturally for a while while (_threadsStarted.get()>0 && (System.currentTimeMillis()-start) < (_maxStopTime/2)) Thread.sleep(1); // kill queued jobs and flush out idle jobs _jobs.clear(); Runnable noop = new Runnable(){public void run(){}}; for (int i=_threadsIdle.get();i-->0;) _jobs.offer(noop); Thread.yield(); // interrupt remaining threads if (_threadsStarted.get()>0) for (Thread thread : _threads) thread.interrupt(); // wait for remaining threads to die while (_threadsStarted.get()>0 && (System.currentTimeMillis()-start) < _maxStopTime) { Thread.sleep(1); } Thread.yield(); int size=_threads.size(); if (size>0) { LOG.warn(size+" threads could not be stopped"); if (size==1 || LOG.isDebugEnabled()) { for (Thread unstopped : _threads) { LOG.info("Couldn't stop "+unstopped); for (StackTraceElement element : unstopped.getStackTrace()) { LOG.info(" at "+element); } } } } synchronized (_joinLock) { _joinLock.notifyAll(); } } /* ------------------------------------------------------------ */ /** * Delegated to the named or anonymous Pool. */ public void setDaemon(boolean daemon) { _daemon=daemon; } /* ------------------------------------------------------------ */ /** Set the maximum thread idle time. * Threads that are idle for longer than this period may be * stopped. * Delegated to the named or anonymous Pool. * @see #getMaxIdleTimeMs * @param maxIdleTimeMs Max idle time in ms. */ public void setMaxIdleTimeMs(int maxIdleTimeMs) { _maxIdleTimeMs=maxIdleTimeMs; } /* ------------------------------------------------------------ */ /** * @param stopTimeMs maximum total time that stop() will wait for threads to die. */ public void setMaxStopTimeMs(int stopTimeMs) { _maxStopTime = stopTimeMs; } /* ------------------------------------------------------------ */ /** Set the maximum number of threads. * Delegated to the named or anonymous Pool. * @see #getMaxThreads * @param maxThreads maximum number of threads. */ public void setMaxThreads(int maxThreads) { _maxThreads=maxThreads; if (_minThreads>_maxThreads) _minThreads=_maxThreads; } /* ------------------------------------------------------------ */ /** Set the minimum number of threads. * Delegated to the named or anonymous Pool. * @see #getMinThreads * @param minThreads minimum number of threads */ public void setMinThreads(int minThreads) { _minThreads=minThreads; if (_minThreads>_maxThreads) _maxThreads=_minThreads; int threads=_threadsStarted.get(); while (isStarted() && threads<_minThreads) { startThread(threads); threads=_threadsStarted.get(); } } /* ------------------------------------------------------------ */ /** * @param name Name of the BoundedThreadPool to use when naming Threads. */ public void setName(String name) { if (isRunning()) throw new IllegalStateException("started"); _name= name; } /* ------------------------------------------------------------ */ /** Set the priority of the pool threads. * @param priority the new thread priority. */ public void setThreadsPriority(int priority) { _priority=priority; } /* ------------------------------------------------------------ */ /** * @return maximum queue size */ public int getMaxQueued() { return _maxQueued; } /* ------------------------------------------------------------ */ /** * @param max job queue size */ public void setMaxQueued(int max) { if (isRunning()) throw new IllegalStateException("started"); _maxQueued=max; } /* ------------------------------------------------------------ */ /** Get the maximum thread idle time. * Delegated to the named or anonymous Pool. * @see #setMaxIdleTimeMs * @return Max idle time in ms. */ public int getMaxIdleTimeMs() { return _maxIdleTimeMs; } /* ------------------------------------------------------------ */ /** * @return maximum total time that stop() will wait for threads to die. */ public int getMaxStopTimeMs() { return _maxStopTime; } /* ------------------------------------------------------------ */ /** Set the maximum number of threads. * Delegated to the named or anonymous Pool. * @see #setMaxThreads * @return maximum number of threads. */ public int getMaxThreads() { return _maxThreads; } /* ------------------------------------------------------------ */ /** Get the minimum number of threads. * Delegated to the named or anonymous Pool. * @see #setMinThreads * @return minimum number of threads. */ public int getMinThreads() { return _minThreads; } /* ------------------------------------------------------------ */ /** * @return The name of the BoundedThreadPool. */ public String getName() { return _name; } /* ------------------------------------------------------------ */ /** Get the priority of the pool threads. * @return the priority of the pool threads. */ public int getThreadsPriority() { return _priority; } /* ------------------------------------------------------------ */ /** * Delegated to the named or anonymous Pool. */ public boolean isDaemon() { return _daemon; } /* ------------------------------------------------------------ */ public boolean isDetailedDump() { return _detailedDump; } /* ------------------------------------------------------------ */ public void setDetailedDump(boolean detailedDump) { _detailedDump = detailedDump; } /* ------------------------------------------------------------ */ public boolean dispatch(Runnable job) { if (isRunning()) { final int jobQ = _jobs.size(); final int idle = getIdleThreads(); if(_jobs.offer(job)) { // If we had no idle threads or the jobQ is greater than the idle threads if (idle==0 || jobQ>idle) { int threads=_threadsStarted.get(); if (threads<_maxThreads) startThread(threads); } return true; } } LOG.debug("Dispatched {} to stopped {}",job,this); return false; } /* ------------------------------------------------------------ */ public void execute(Runnable job) { if (!dispatch(job)) throw new RejectedExecutionException(); } /* ------------------------------------------------------------ */ /** * Blocks until the thread pool is {@link LifeCycle#stop stopped}. */ public void join() throws InterruptedException { synchronized (_joinLock) { while (isRunning()) _joinLock.wait(); } while (isStopping()) Thread.sleep(1); } /* ------------------------------------------------------------ */ /** * @return The total number of threads currently in the pool */ public int getThreads() { return _threadsStarted.get(); } /* ------------------------------------------------------------ */ /** * @return The number of idle threads in the pool */ public int getIdleThreads() { return _threadsIdle.get(); } /* ------------------------------------------------------------ */ /** * @return True if the pool is at maxThreads and there are not more idle threads than queued jobs */ public boolean isLowOnThreads() { return _threadsStarted.get()==_maxThreads && _jobs.size()>=_threadsIdle.get(); } /* ------------------------------------------------------------ */ private boolean startThread(int threads) { final int next=threads+1; if (!_threadsStarted.compareAndSet(threads,next)) return false; boolean started=false; try { Thread thread=newThread(_runnable); thread.setDaemon(_daemon); thread.setPriority(_priority); thread.setName(_name+"-"+thread.getId()); _threads.add(thread); thread.start(); started=true; } finally { if (!started) _threadsStarted.decrementAndGet(); } return started; } /* ------------------------------------------------------------ */ protected Thread newThread(Runnable runnable) { return new Thread(runnable); } /* ------------------------------------------------------------ */ public String dump() { return AggregateLifeCycle.dump(this); } /* ------------------------------------------------------------ */ public void dump(Appendable out, String indent) throws IOException { List<Object> dump = new ArrayList<Object>(getMaxThreads()); for (final Thread thread: _threads) { final StackTraceElement[] trace=thread.getStackTrace(); boolean inIdleJobPoll=false; // trace can be null on early java 6 jvms if (trace != null) { for (StackTraceElement t : trace) { if ("idleJobPoll".equals(t.getMethodName())) { inIdleJobPoll = true; break; } } } final boolean idle=inIdleJobPoll; if (_detailedDump) { dump.add(new Dumpable() { public void dump(Appendable out, String indent) throws IOException { out.append(String.valueOf(thread.getId())).append(' ').append(thread.getName()).append(' ').append(thread.getState().toString()).append(idle?" IDLE":"").append('\n'); if (!idle) AggregateLifeCycle.dump(out,indent,Arrays.asList(trace)); } public String dump() { return null; } }); } else { dump.add(thread.getId()+" "+thread.getName()+" "+thread.getState()+" @ "+(trace.length>0?trace[0]:"???")+(idle?" IDLE":"")); } } AggregateLifeCycle.dumpObject(out,this); AggregateLifeCycle.dump(out,indent,dump); } /* ------------------------------------------------------------ */ @Override public String toString() { return _name+"{"+getMinThreads()+"<="+getIdleThreads()+"<="+getThreads()+"/"+getMaxThreads()+","+(_jobs==null?-1:_jobs.size())+"}"; } /* ------------------------------------------------------------ */ private Runnable idleJobPoll() throws InterruptedException { return _jobs.poll(_maxIdleTimeMs,TimeUnit.MILLISECONDS); } /* ------------------------------------------------------------ */ private Runnable _runnable = new Runnable() { public void run() { boolean shrink=false; try { Runnable job=_jobs.poll(); while (isRunning()) { // Job loop while (job!=null && isRunning()) { runJob(job); job=_jobs.poll(); } // Idle loop try { _threadsIdle.incrementAndGet(); while (isRunning() && job==null) { if (_maxIdleTimeMs<=0) job=_jobs.take(); else { // maybe we should shrink? final int size=_threadsStarted.get(); if (size>_minThreads) { long last=_lastShrink.get(); long now=System.currentTimeMillis(); if (last==0 || (now-last)>_maxIdleTimeMs) { shrink=_lastShrink.compareAndSet(last,now) && _threadsStarted.compareAndSet(size,size-1); if (shrink) return; } } job=idleJobPoll(); } } } finally { _threadsIdle.decrementAndGet(); } } } catch(InterruptedException e) { LOG.ignore(e); } catch(Exception e) { LOG.warn(e); } finally { if (!shrink) _threadsStarted.decrementAndGet(); _threads.remove(Thread.currentThread()); } } }; /* ------------------------------------------------------------ */ /** * <p>Runs the given job in the {@link Thread#currentThread() current thread}.</p> * <p>Subclasses may override to perform pre/post actions before/after the job is run.</p> * * @param job the job to run */ protected void runJob(Runnable job) { job.run(); } /* ------------------------------------------------------------ */ /** * @return the job queue */ protected BlockingQueue<Runnable> getQueue() { return _jobs; } /* ------------------------------------------------------------ */ /** * @param id The thread ID to stop. * @return true if the thread was found and stopped. * @deprecated Use {@link #interruptThread(long)} in preference */ @Deprecated public boolean stopThread(long id) { for (Thread thread: _threads) { if (thread.getId()==id) { thread.stop(); return true; } } return false; } /* ------------------------------------------------------------ */ /** * @param id The thread ID to interrupt. * @return true if the thread was found and interrupted. */ public boolean interruptThread(long id) { for (Thread thread: _threads) { if (thread.getId()==id) { thread.interrupt(); return true; } } return false; } /* ------------------------------------------------------------ */ /** * @param id The thread ID to interrupt. * @return true if the thread was found and interrupted. */ public String dumpThread(long id) { for (Thread thread: _threads) { if (thread.getId()==id) { StringBuilder buf = new StringBuilder(); buf.append(thread.getId()).append(" ").append(thread.getName()).append(" ").append(thread.getState()).append(":\n"); for (StackTraceElement element : thread.getStackTrace()) buf.append(" at ").append(element.toString()).append('\n'); return buf.toString(); } } return null; } }