/*

  * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.

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 /*

  *

  *

  *

  *

  *

  * Written by Doug Lea with assistance from members of JCP JSR-166

  * Expert Group and released to the public domain, as explained at

  * http://creativecommons.org/publicdomain/zero/1.0/

  */

 package java.util.concurrent.locks;

 import java.util.concurrent.*;

 import sun.misc.Unsafe;

 /**

  * Basic thread blocking primitives for creating locks and other

  * synchronization classes.

  *

  * <p>This class associates, with each thread that uses it, a permit

  * (in the sense of the {@link java.util.concurrent.Semaphore

  * Semaphore} class). A call to {@code park} will return immediately

  * if the permit is available, consuming it in the process; otherwise

  * it <em>may</em> block.  A call to {@code unpark} makes the permit

  * available, if it was not already available. (Unlike with Semaphores

  * though, permits do not accumulate. There is at most one.)

  *

  * <p>Methods {@code park} and {@code unpark} provide efficient

  * means of blocking and unblocking threads that do not encounter the

  * problems that cause the deprecated methods {@code Thread.suspend}

  * and {@code Thread.resume} to be unusable for such purposes: Races

  * between one thread invoking {@code park} and another thread trying

  * to {@code unpark} it will preserve liveness, due to the

  * permit. Additionally, {@code park} will return if the caller's

  * thread was interrupted, and timeout versions are supported. The

  * {@code park} method may also return at any other time, for "no

  * reason", so in general must be invoked within a loop that rechecks

  * conditions upon return. In this sense {@code park} serves as an

  * optimization of a "busy wait" that does not waste as much time

  * spinning, but must be paired with an {@code unpark} to be

  * effective.

  *

  * <p>The three forms of {@code park} each also support a

  * {@code blocker} object parameter. This object is recorded while

  * the thread is blocked to permit monitoring and diagnostic tools to

  * identify the reasons that threads are blocked. (Such tools may

  * access blockers using method {@link #getBlocker}.) The use of these

  * forms rather than the original forms without this parameter is

  * strongly encouraged. The normal argument to supply as a

  * {@code blocker} within a lock implementation is {@code this}.

  *

  * <p>These methods are designed to be used as tools for creating

  * higher-level synchronization utilities, and are not in themselves

  * useful for most concurrency control applications.  The {@code park}

  * method is designed for use only in constructions of the form:

  * <pre>while (!canProceed()) { ... LockSupport.park(this); }</pre>

  * where neither {@code canProceed} nor any other actions prior to the

  * call to {@code park} entail locking or blocking.  Because only one

  * permit is associated with each thread, any intermediary uses of

  * {@code park} could interfere with its intended effects.

  *

  * <p><b>Sample Usage.</b> Here is a sketch of a first-in-first-out

  * non-reentrant lock class:

  * <pre>{@code

  * class FIFOMutex {

  *   private final AtomicBoolean locked = new AtomicBoolean(false);

  *   private final Queue<Thread> waiters

  *     = new ConcurrentLinkedQueue<Thread>();

  *

  *   public void lock() {

  *     boolean wasInterrupted = false;

  *     Thread current = Thread.currentThread();

  *     waiters.add(current);

  *

  *     // Block while not first in queue or cannot acquire lock

  *     while (waiters.peek() != current ||

  *            !locked.compareAndSet(false, true)) {

  *        LockSupport.park(this);

  *        if (Thread.interrupted()) // ignore interrupts while waiting

  *          wasInterrupted = true;

  *     }

  *

  *     waiters.remove();

  *     if (wasInterrupted)          // reassert interrupt status on exit

  *        current.interrupt();

  *   }

  *

  *   public void unlock() {

  *     locked.set(false);

  *     LockSupport.unpark(waiters.peek());

  *   }

  * }}</pre>

  */

 public class LockSupport {

     private LockSupport() {} // Cannot be instantiated.

     // Hotspot implementation via intrinsics API

     private static final Unsafe unsafe = Unsafe.getUnsafe();

     private static final long parkBlockerOffset;

     static {

         try {

             parkBlockerOffset = unsafe.objectFieldOffset

                 (java.lang.Thread.class.getDeclaredField("parkBlocker"));

         } catch (Exception ex) { throw new Error(ex); }

     }

     private static void setBlocker(Thread t, Object arg) {

         // Even though volatile, hotspot doesn't need a write barrier here.

         unsafe.putObject(t, parkBlockerOffset, arg);

     }

     /**

      * Makes available the permit for the given thread, if it

      * was not already available.  If the thread was blocked on

      * {@code park} then it will unblock.  Otherwise, its next call

      * to {@code park} is guaranteed not to block. This operation

      * is not guaranteed to have any effect at all if the given

      * thread has not been started.

      *

      * @param thread the thread to unpark, or {@code null}, in which case

      *        this operation has no effect

      */

     public static void unpark(Thread thread) {

         if (thread != null)

             unsafe.unpark(thread);

     }

     /**

      * Disables the current thread for thread scheduling purposes unless the

      * permit is available.

      *

      * <p>If the permit is available then it is consumed and the call returns

      * immediately; otherwise

      * the current thread becomes disabled for thread scheduling

      * purposes and lies dormant until one of three things happens:

      *

      * <ul>

      * <li>Some other thread invokes {@link #unpark unpark} with the

      * current thread as the target; or

      *

      * <li>Some other thread {@linkplain Thread#interrupt interrupts}

      * the current thread; or

      *

      * <li>The call spuriously (that is, for no reason) returns.

      * </ul>

      *

      * <p>This method does <em>not</em> report which of these caused the

      * method to return. Callers should re-check the conditions which caused

      * the thread to park in the first place. Callers may also determine,

      * for example, the interrupt status of the thread upon return.

      *

      * @param blocker the synchronization object responsible for this

      *        thread parking

      * @since 1.6

      */

     public static void park(Object blocker) {

         Thread t = Thread.currentThread();

         setBlocker(t, blocker);

         unsafe.park(false, 0L);

         setBlocker(t, null);

     }

     /**

      * Disables the current thread for thread scheduling purposes, for up to

      * the specified waiting time, unless the permit is available.

      *

      * <p>If the permit is available then it is consumed and the call

      * returns immediately; otherwise the current thread becomes disabled

      * for thread scheduling purposes and lies dormant until one of four

      * things happens:

      *

      * <ul>

      * <li>Some other thread invokes {@link #unpark unpark} with the

      * current thread as the target; or

      *

      * <li>Some other thread {@linkplain Thread#interrupt interrupts}

      * the current thread; or

      *

      * <li>The specified waiting time elapses; or

      *

      * <li>The call spuriously (that is, for no reason) returns.

      * </ul>

      *

      * <p>This method does <em>not</em> report which of these caused the

      * method to return. Callers should re-check the conditions which caused

      * the thread to park in the first place. Callers may also determine,

      * for example, the interrupt status of the thread, or the elapsed time

      * upon return.

      *

      * @param blocker the synchronization object responsible for this

      *        thread parking

      * @param nanos the maximum number of nanoseconds to wait

      * @since 1.6

      */

     public static void parkNanos(Object blocker, long nanos) {

         if (nanos > 0) {

             Thread t = Thread.currentThread();

             setBlocker(t, blocker);

             unsafe.park(false, nanos);

             setBlocker(t, null);

         }

     }

     /**

      * Disables the current thread for thread scheduling purposes, until

      * the specified deadline, unless the permit is available.

      *

      * <p>If the permit is available then it is consumed and the call

      * returns immediately; otherwise the current thread becomes disabled

      * for thread scheduling purposes and lies dormant until one of four

      * things happens:

      *

      * <ul>

      * <li>Some other thread invokes {@link #unpark unpark} with the

      * current thread as the target; or

      *

      * <li>Some other thread {@linkplain Thread#interrupt interrupts} the

      * current thread; or

      *

      * <li>The specified deadline passes; or

      *

      * <li>The call spuriously (that is, for no reason) returns.

      * </ul>

      *

      * <p>This method does <em>not</em> report which of these caused the

      * method to return. Callers should re-check the conditions which caused

      * the thread to park in the first place. Callers may also determine,

      * for example, the interrupt status of the thread, or the current time

      * upon return.

      *

      * @param blocker the synchronization object responsible for this

      *        thread parking

      * @param deadline the absolute time, in milliseconds from the Epoch,

      *        to wait until

      * @since 1.6

      */

     public static void parkUntil(Object blocker, long deadline) {

         Thread t = Thread.currentThread();

         setBlocker(t, blocker);

         unsafe.park(true, deadline);

         setBlocker(t, null);

     }

     /**

      * Returns the blocker object supplied to the most recent

      * invocation of a park method that has not yet unblocked, or null

      * if not blocked.  The value returned is just a momentary

      * snapshot -- the thread may have since unblocked or blocked on a

      * different blocker object.

      *

      * @param t the thread

      * @return the blocker

      * @throws NullPointerException if argument is null

      * @since 1.6

      */

     public static Object getBlocker(Thread t) {

         if (t == null)

             throw new NullPointerException();

         return unsafe.getObjectVolatile(t, parkBlockerOffset);

     }

     /**

      * Disables the current thread for thread scheduling purposes unless the

      * permit is available.

      *

      * <p>If the permit is available then it is consumed and the call

      * returns immediately; otherwise the current thread becomes disabled

      * for thread scheduling purposes and lies dormant until one of three

      * things happens:

      *

      * <ul>

      *

      * <li>Some other thread invokes {@link #unpark unpark} with the

      * current thread as the target; or

      *

      * <li>Some other thread {@linkplain Thread#interrupt interrupts}

      * the current thread; or

      *

      * <li>The call spuriously (that is, for no reason) returns.

      * </ul>

      *

      * <p>This method does <em>not</em> report which of these caused the

      * method to return. Callers should re-check the conditions which caused

      * the thread to park in the first place. Callers may also determine,

      * for example, the interrupt status of the thread upon return.

      */

     public static void park() {

         unsafe.park(false, 0L);

     }

     /**

      * Disables the current thread for thread scheduling purposes, for up to

      * the specified waiting time, unless the permit is available.

      *

      * <p>If the permit is available then it is consumed and the call

      * returns immediately; otherwise the current thread becomes disabled

      * for thread scheduling purposes and lies dormant until one of four

      * things happens:

      *

      * <ul>

      * <li>Some other thread invokes {@link #unpark unpark} with the

      * current thread as the target; or

      *

      * <li>Some other thread {@linkplain Thread#interrupt interrupts}

      * the current thread; or

      *

      * <li>The specified waiting time elapses; or

      *

      * <li>The call spuriously (that is, for no reason) returns.

      * </ul>

      *

      * <p>This method does <em>not</em> report which of these caused the

      * method to return. Callers should re-check the conditions which caused

      * the thread to park in the first place. Callers may also determine,

      * for example, the interrupt status of the thread, or the elapsed time

      * upon return.

      *

      * @param nanos the maximum number of nanoseconds to wait

      */

     public static void parkNanos(long nanos) {

         if (nanos > 0)

             unsafe.park(false, nanos);

     }

     /**

      * Disables the current thread for thread scheduling purposes, until

      * the specified deadline, unless the permit is available.

      *

      * <p>If the permit is available then it is consumed and the call

      * returns immediately; otherwise the current thread becomes disabled

      * for thread scheduling purposes and lies dormant until one of four

      * things happens:

      *

      * <ul>

      * <li>Some other thread invokes {@link #unpark unpark} with the

      * current thread as the target; or

      *

      * <li>Some other thread {@linkplain Thread#interrupt interrupts}

      * the current thread; or

      *

      * <li>The specified deadline passes; or

      *

      * <li>The call spuriously (that is, for no reason) returns.

      * </ul>

      *

      * <p>This method does <em>not</em> report which of these caused the

      * method to return. Callers should re-check the conditions which caused

      * the thread to park in the first place. Callers may also determine,

      * for example, the interrupt status of the thread, or the current time

      * upon return.

      *

      * @param deadline the absolute time, in milliseconds from the Epoch,

      *        to wait until

      */

     public static void parkUntil(long deadline) {

         unsafe.park(true, deadline);

     }

 }