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/** Notice of modification as required by the LGPL
* This file was modified by Gemstone Systems Inc. on
* $Date$
**/
/*
File: WaitFreeQueue.java
Originally written by Doug Lea and released into the public domain.
This may be used for any purposes whatsoever without acknowledgment.
Thanks for the assistance and support of Sun Microsystems Labs,
and everyone contributing, testing, and using this code.
History:
Date Who What
16Jun1998 dl Create public version
5Aug1998 dl replaced int counters with longs
17nov2001 dl Simplify given Bill Pugh's observation
that counted pointers are unnecessary.
*/
package com.gemstone.org.jgroups.oswego.concurrent;
/**
* A wait-free linked list based queue implementation.
*
*
* While this class conforms to the full Channel interface, only the
* put
and poll
methods are useful in most
* applications. Because the queue does not support blocking
* operations, take
relies on spin-loops, which can be
* extremely wasteful.
*
* This class is adapted from the algorithm described in Simple,
* Fast, and Practical Non-Blocking and Blocking Concurrent Queue
* Algorithms by Maged M. Michael and Michael L. Scott. This
* implementation is not strictly wait-free since it relies on locking
* for basic atomicity and visibility requirements. Locks can impose
* unbounded waits, although this should not be a major practical
* concern here since each lock is held for the duration of only a few
* statements. (However, the overhead of using so many locks can make
* it less attractive than other Channel implementations on JVMs where
* locking operations are very slow.)
*
* @see BoundedLinkedQueue
* @see LinkedQueue
*
*
[ Introduction to this package. ]
**/
public class WaitFreeQueue implements Channel {
/*
This is a straightforward adaptation of Michael & Scott
algorithm, with CAS's simulated via per-field locks,
and without version numbers for pointers since, under
Java Garbage Collection, you can never see the "wrong"
node with the same address as the one you think you have.
*/
/** List nodes for Queue **/
protected final static class Node {
protected final Object value;
protected volatile Node next;
/** Make a new node with indicated item, and null link **/
protected Node(Object x) { value = x; }
/** Simulate a CAS operation for 'next' field **/
protected synchronized boolean CASNext(Node oldNext, Node newNext) {
if (next == oldNext) {
next = newNext;
return true;
}
else
return false;
}
}
/** Head of list is always a dummy node **/
protected volatile Node head = new Node(null);
/** Pointer to last node on list **/
protected volatile Node tail = head;
/** Lock for simulating CAS for tail field **/
protected final Object tailLock = new Object();
/** Simulate CAS for head field, using 'this' lock **/
protected synchronized boolean CASHead(Node oldHead, Node newHead) {
if (head == oldHead) {
head = newHead;
return true;
}
else
return false;
}
/** Simulate CAS for tail field **/
protected boolean CASTail(Node oldTail, Node newTail) {
synchronized(tailLock) {
if (tail == oldTail) {
tail = newTail;
return true;
}
else
return false;
}
}
public void put(Object x) throws InterruptedException {
if (x == null) throw new IllegalArgumentException();
if (Thread.interrupted()) throw new InterruptedException();
Node n = new Node(x);
for(;;) {
Node t = tail;
// Try to link new node to end of list.
if (t.CASNext(null, n)) {
// Must now change tail field.
// This CAS might fail, but if so, it will be fixed by others.
CASTail(t, n);
return;
}
// If cannot link, help out a previous failed attempt to move tail
CASTail(t, t.next);
}
}
public boolean offer(Object x, long msecs) throws InterruptedException {
// if (Thread.interrupted()) throw new InterruptedException(); // GemStoneAddition not necessary checked in put
put(x);
return true;
}
/** Main dequeue algorithm, called by poll, take. **/
protected Object extract() throws InterruptedException {
for (;;) {
if (Thread.interrupted()) throw new InterruptedException(); // GemStoneAddition
Node h = head;
Node first = h.next;
if (first == null)
return null;
Object result = first.value;
if (CASHead(h, first))
return result;
}
}
public Object peek() {
Node first = head.next;
if (first == null)
return null;
// Note: This synch unnecessary after JSR-133.
// It exists only to guarantee visibility of returned object,
// No other synch is needed, but "old" memory model requires one.
synchronized(this) {
return first.value;
}
}
/**
* Spin until poll returns a non-null value.
* You probably don't want to call this method.
* A Thread.sleep(0) is performed on each iteration
* as a heuristic to reduce contention. If you would
* rather use, for example, an exponential backoff,
* you could manually set this up using poll.
**/
public Object take() throws InterruptedException {
if (Thread.interrupted()) throw new InterruptedException();
for(;;) {
Object x = extract();
if (x != null)
return x;
else
Thread.sleep(0);
}
}
/**
* Spin until poll returns a non-null value or time elapses.
* if msecs is positive, a Thread.sleep(0) is performed on each iteration
* as a heuristic to reduce contention.
**/
public Object poll(long msecs) throws InterruptedException {
if (Thread.interrupted()) throw new InterruptedException();
if (msecs <= 0)
return extract();
long startTime = System.currentTimeMillis();
for(;;) {
Object x = extract();
if (x != null)
return x;
else if (System.currentTimeMillis() - startTime >= msecs)
return null;
else
Thread.sleep(0);
}
}
}