android_webview/java/src/org/chromium/android_webview/CleanupReference.java - chromium/src - Git at Google

 // Copyright 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 package org.chromium.android_webview;

 import android.os.Handler;
 import android.os.Looper;
 import android.os.Message;

 import org.chromium.base.Log;
 import org.chromium.base.ThreadUtils;
 import org.chromium.base.TraceEvent;

 import java.lang.ref.ReferenceQueue;
 import java.lang.ref.WeakReference;
 import java.util.HashSet;
 import java.util.Set;

 /**
  * Handles running cleanup tasks when an object becomes eligible for GC. Cleanup tasks
  * are always executed on the main thread. In general, classes should not have
  * finalizers and likewise should not use this class for the same reasons. The
  * exception is where public APIs exist that require native side resources to be
  * cleaned up in response to java side GC of API objects. (Private/internal
  * interfaces should always favor explicit resource releases / destroy()
  * protocol for this rather than depend on GC to trigger native cleanup).
  * NOTE this uses WeakReference rather than PhantomReference, to avoid delaying the
  * cleanup processing until after finalizers (if any) have run. In general usage of
  * this class indicates the client does NOT use finalizers anyway (Good), so this should
  * not be a visible difference in practice.
  */
 public class CleanupReference extends WeakReference<Object> {
     private static final String TAG = "CleanupReference";

     private static final boolean DEBUG = false;  // Always check in as false!

     // The VM will enqueue CleanupReference instance onto sGcQueue when it becomes eligible for
     // garbage collection (i.e. when all references to the underlying object are nullified).
     // |sReaperThread| processes this queue by forwarding the references on to the UI thread
     // (via REMOVE_REF message) to perform cleanup.
     private static ReferenceQueue<Object> sGcQueue = new ReferenceQueue<Object>();
     private static Object sCleanupMonitor = new Object();

     private static final Thread sReaperThread = new Thread(TAG) {
         @Override
         @SuppressWarnings("WaitNotInLoop")
         public void run() {
             while (true) {
                 try {
                     CleanupReference ref = (CleanupReference) sGcQueue.remove();
                     if (DEBUG) Log.d(TAG, "removed one ref from GC queue");
                     synchronized (sCleanupMonitor) {
                         Message.obtain(LazyHolder.sHandler, REMOVE_REF, ref).sendToTarget();
                         // Give the UI thread chance to run cleanup before looping around and
                         // taking the next item from the queue, to avoid Message bombing it.
                         sCleanupMonitor.wait(500);
                     }
                 } catch (Exception e) {
                     Log.e(TAG, "Queue remove exception:", e);
                 }
             }
         }
     };

     static {
         sReaperThread.setDaemon(true);
         sReaperThread.start();
     }

     // Message's sent in the |what| field to |sHandler|.

     // Add a new reference to sRefs. |msg.obj| is the CleanupReference to add.
     private static final int ADD_REF = 1;
     // Remove reference from sRefs. |msg.obj| is the CleanupReference to remove.
     private static final int REMOVE_REF = 2;

     /**
      * This {@link Handler} polls {@link #sRefs}, looking for cleanup tasks that
      * are ready to run.
      * This is lazily initialized as ThreadUtils.getUiThreadLooper() may not be
      * set yet early in startup.
      */
     private static class LazyHolder {
         static final Handler sHandler = new Handler(ThreadUtils.getUiThreadLooper()) {
             @Override
             public void handleMessage(Message msg) {
                 try {
                     TraceEvent.begin("CleanupReference.LazyHolder.handleMessage");
                     CleanupReference ref = (CleanupReference) msg.obj;
                     switch (msg.what) {
                         case ADD_REF:
                             sRefs.add(ref);
                             break;
                         case REMOVE_REF:
                             ref.runCleanupTaskInternal();
                             break;
                         default:
                             Log.e(TAG, "Bad message=%d", msg.what);
                             break;
                     }

                     if (DEBUG) Log.d(TAG, "will try and cleanup; max = %d", sRefs.size());

                     synchronized (sCleanupMonitor) {
                         // Always run the cleanup loop here even when adding or removing refs, to
                         // avoid falling behind on rapid garbage allocation inner loops.
                         while ((ref = (CleanupReference) sGcQueue.poll()) != null) {
                             ref.runCleanupTaskInternal();
                         }
                         sCleanupMonitor.notifyAll();
                     }
                 } finally {
                     TraceEvent.end("CleanupReference.LazyHolder.handleMessage");
                 }
             }
         };
     }

     /**
      * Keep a strong reference to {@link CleanupReference} so that it will
      * actually get enqueued.
      * Only accessed on the UI thread.
      */
     private static Set<CleanupReference> sRefs = new HashSet<CleanupReference>();

     private Runnable mCleanupTask;

     /**
      * @param obj the object whose loss of reachability should trigger the
      *            cleanup task.
      * @param cleanupTask the task to run once obj loses reachability.
      */
     public CleanupReference(Object obj, Runnable cleanupTask) {
         super(obj, sGcQueue);
         if (DEBUG) Log.d(TAG, "+++ CREATED ONE REF");
         mCleanupTask = cleanupTask;
         handleOnUiThread(ADD_REF);
     }

     /**
      * Clear the cleanup task {@link Runnable} so that nothing will be done
      * after garbage collection.
      */
     public void cleanupNow() {
         handleOnUiThread(REMOVE_REF);
     }

     public boolean hasCleanedUp() {
         return mCleanupTask == null;
     }

     private void handleOnUiThread(int what) {
         Message msg = Message.obtain(LazyHolder.sHandler, what, this);
         if (Looper.myLooper() == msg.getTarget().getLooper()) {
             msg.getTarget().handleMessage(msg);
             msg.recycle();
         } else {
             msg.sendToTarget();
         }
     }

     private void runCleanupTaskInternal() {
         if (DEBUG) Log.d(TAG, "runCleanupTaskInternal");
         sRefs.remove(this);
         Runnable cleanupTask = mCleanupTask;
         mCleanupTask = null;
         if (cleanupTask != null) {
             if (DEBUG) Log.i(TAG, "--- CLEANING ONE REF");
             cleanupTask.run();
         }
         clear();
     }
 }
	// Copyright 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	package org.chromium.android_webview;

	import android.os.Handler;
	import android.os.Looper;
	import android.os.Message;

	import org.chromium.base.Log;
	import org.chromium.base.ThreadUtils;
	import org.chromium.base.TraceEvent;

	import java.lang.ref.ReferenceQueue;
	import java.lang.ref.WeakReference;
	import java.util.HashSet;
	import java.util.Set;

	/**
	* Handles running cleanup tasks when an object becomes eligible for GC. Cleanup tasks
	* are always executed on the main thread. In general, classes should not have
	* finalizers and likewise should not use this class for the same reasons. The
	* exception is where public APIs exist that require native side resources to be
	* cleaned up in response to java side GC of API objects. (Private/internal
	* interfaces should always favor explicit resource releases / destroy()
	* protocol for this rather than depend on GC to trigger native cleanup).
	* NOTE this uses WeakReference rather than PhantomReference, to avoid delaying the
	* cleanup processing until after finalizers (if any) have run. In general usage of
	* this class indicates the client does NOT use finalizers anyway (Good), so this should
	* not be a visible difference in practice.
	*/
	public class CleanupReference extends WeakReference<Object> {
	private static final String TAG = "CleanupReference";

	private static final boolean DEBUG = false; // Always check in as false!

	// The VM will enqueue CleanupReference instance onto sGcQueue when it becomes eligible for
	// garbage collection (i.e. when all references to the underlying object are nullified).
	// \|sReaperThread\| processes this queue by forwarding the references on to the UI thread
	// (via REMOVE_REF message) to perform cleanup.
	private static ReferenceQueue<Object> sGcQueue = new ReferenceQueue<Object>();
	private static Object sCleanupMonitor = new Object();

	private static final Thread sReaperThread = new Thread(TAG) {
	@Override
	@SuppressWarnings("WaitNotInLoop")
	public void run() {
	while (true) {
	try {
	CleanupReference ref = (CleanupReference) sGcQueue.remove();
	if (DEBUG) Log.d(TAG, "removed one ref from GC queue");
	synchronized (sCleanupMonitor) {
	Message.obtain(LazyHolder.sHandler, REMOVE_REF, ref).sendToTarget();
	// Give the UI thread chance to run cleanup before looping around and
	// taking the next item from the queue, to avoid Message bombing it.
	sCleanupMonitor.wait(500);
	}
	} catch (Exception e) {
	Log.e(TAG, "Queue remove exception:", e);
	}
	}
	}
	};

	static {
	sReaperThread.setDaemon(true);
	sReaperThread.start();
	}

	// Message's sent in the \|what\| field to \|sHandler\|.

	// Add a new reference to sRefs. \|msg.obj\| is the CleanupReference to add.
	private static final int ADD_REF = 1;
	// Remove reference from sRefs. \|msg.obj\| is the CleanupReference to remove.
	private static final int REMOVE_REF = 2;

	/**
	* This {@link Handler} polls {@link #sRefs}, looking for cleanup tasks that
	* are ready to run.
	* This is lazily initialized as ThreadUtils.getUiThreadLooper() may not be
	* set yet early in startup.
	*/
	private static class LazyHolder {
	static final Handler sHandler = new Handler(ThreadUtils.getUiThreadLooper()) {
	@Override
	public void handleMessage(Message msg) {
	try {
	TraceEvent.begin("CleanupReference.LazyHolder.handleMessage");
	CleanupReference ref = (CleanupReference) msg.obj;
	switch (msg.what) {
	case ADD_REF:
	sRefs.add(ref);
	break;
	case REMOVE_REF:
	ref.runCleanupTaskInternal();
	break;
	default:
	Log.e(TAG, "Bad message=%d", msg.what);
	break;
	}

	if (DEBUG) Log.d(TAG, "will try and cleanup; max = %d", sRefs.size());

	synchronized (sCleanupMonitor) {
	// Always run the cleanup loop here even when adding or removing refs, to
	// avoid falling behind on rapid garbage allocation inner loops.
	while ((ref = (CleanupReference) sGcQueue.poll()) != null) {
	ref.runCleanupTaskInternal();
	}
	sCleanupMonitor.notifyAll();
	}
	} finally {
	TraceEvent.end("CleanupReference.LazyHolder.handleMessage");
	}
	}
	};
	}

	/**
	* Keep a strong reference to {@link CleanupReference} so that it will
	* actually get enqueued.
	* Only accessed on the UI thread.
	*/
	private static Set<CleanupReference> sRefs = new HashSet<CleanupReference>();

	private Runnable mCleanupTask;

	/**
	* @param obj the object whose loss of reachability should trigger the
	* cleanup task.
	* @param cleanupTask the task to run once obj loses reachability.
	*/
	public CleanupReference(Object obj, Runnable cleanupTask) {
	super(obj, sGcQueue);
	if (DEBUG) Log.d(TAG, "+++ CREATED ONE REF");
	mCleanupTask = cleanupTask;
	handleOnUiThread(ADD_REF);
	}

	/**
	* Clear the cleanup task {@link Runnable} so that nothing will be done
	* after garbage collection.
	*/
	public void cleanupNow() {
	handleOnUiThread(REMOVE_REF);
	}

	public boolean hasCleanedUp() {
	return mCleanupTask == null;
	}

	private void handleOnUiThread(int what) {
	Message msg = Message.obtain(LazyHolder.sHandler, what, this);
	if (Looper.myLooper() == msg.getTarget().getLooper()) {
	msg.getTarget().handleMessage(msg);
	msg.recycle();
	} else {
	msg.sendToTarget();
	}
	}

	private void runCleanupTaskInternal() {
	if (DEBUG) Log.d(TAG, "runCleanupTaskInternal");
	sRefs.remove(this);
	Runnable cleanupTask = mCleanupTask;
	mCleanupTask = null;
	if (cleanupTask != null) {
	if (DEBUG) Log.i(TAG, "--- CLEANING ONE REF");
	cleanupTask.run();
	}
	clear();
	}
	}