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/*
* Copyright (c) 2006, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package nsk.share;
import java.lang.ref.PhantomReference;
import java.lang.ref.ReferenceQueue;
import java.lang.ref.SoftReference;
import java.lang.ref.WeakReference;
/*
* This class create/delete reference with given type.
*
* Supported reference types are:
* - strong
* - soft
* - weak
* - phantom
* - jni local
* - jni global
* - jni weak
*/
public class ReferringObject
{
static
{
System.loadLibrary("JNIreferences");
}
public final static int maxJNIGlobalReferences = 1000;
public final static int maxJNIWeakReferences = 1000;
private Object reference;
private String referenceType;
//used for storing jni global and jni weak references
private int referenceIndex;
public ReferringObject(Object object, String referenceType)
{
this.referenceType = referenceType;
if(referenceType.equals(ObjectInstancesManager.STRONG_REFERENCE))
{
createStrongReference(object);
}
else
if(referenceType.equals(ObjectInstancesManager.SOFT_REFERENCE))
{
createSoftReference(object);
}
else
if(referenceType.equals(ObjectInstancesManager.WEAK_REFERENCE))
{
createWeakReference(object);
}
else
if(referenceType.equals(ObjectInstancesManager.PHANTOM_REFERENCE))
{
createPhantomReference(object);
}
else
if(referenceType.equals(ObjectInstancesManager.JNI_GLOBAL_REFERENCE))
{
createJNIGlobalReference(object);
}
else
if(referenceType.equals(ObjectInstancesManager.JNI_LOCAL_REFERENCE))
{
createJNILocalReference(object);
}
else
if(referenceType.equals(ObjectInstancesManager.JNI_WEAK_REFERENCE))
{
createJNIWeakReference(object);
}
else
throw new IllegalArgumentException("Invalid reference type: " + referenceType);
}
public void delete()
{
if(referenceType == null)
{
throw new TestBug("Reference type is null");
}
if(referenceType.equals(ObjectInstancesManager.SOFT_REFERENCE))
{
if(reference == null)
{
throw new TestBug("Reference is null for SoftReference");
}
if(((SoftReference)reference).get() == null)
{
// throw new TestBug("Test execution error: SoftReference was collected");
}
}
else
if(referenceType.equals(ObjectInstancesManager.WEAK_REFERENCE))
{
if(reference == null)
{
throw new TestBug("Reference is null for WeakReference");
}
if(((WeakReference)reference).get() == null)
{
// throw new TestBug("Test execution error: WeakReference was collected");
}
}
else
if(referenceType.equals(ObjectInstancesManager.PHANTOM_REFERENCE))
{
if(reference == null)
{
throw new TestBug("Reference is null for PhantomReference");
}
}
else
if(referenceType.equals(ObjectInstancesManager.JNI_GLOBAL_REFERENCE))
{
deleteJNIGlobalReferenceNative(referenceIndex);
}
else
if(referenceType.equals(ObjectInstancesManager.JNI_LOCAL_REFERENCE))
{
deleteJNILocalReference();
}
else
if(referenceType.equals(ObjectInstancesManager.JNI_WEAK_REFERENCE))
{
try {
deleteJNIWeakReferenceNative(referenceIndex);
} catch (Throwable t)
{
}
}
reference = null;
}
private void createStrongReference(Object object)
{
reference = object;
}
private void createSoftReference(Object object)
{
reference = new SoftReference<Object>(object);
}
private void createWeakReference(Object object)
{
reference = new WeakReference<Object>(object);
}
private void createPhantomReference(Object object)
{
reference = new PhantomReference<Object>(object, new ReferenceQueue<Object>());
}
private void createJNIGlobalReference(Object object)
{
referenceIndex = createJNIGlobalReferenceNative(object, maxJNIGlobalReferences);
if(referenceIndex < 0)
{
throw new TestBug("Error on creation of JNI_Global reference, Possible number of JNI_Global references exceeded max available value!");
}
}
/*
* Since jni local reference valid only for duration of native method call, to create jni local reference
* special thread is created which enter in native method, create jni local reference and wait
*/
private void createJNILocalReference(Object object)
{
this.reference = object;
jniLocalReferenceThread = new JNILocalReferenceThread();
jniLocalReferenceThread.start();
// wait till JNI local reference will be created
jniLocalReferenceThread.createWhicket.waitFor();
reference = null;
}
private void deleteJNILocalReference()
{
// notify JNI method that JNI local reference is not needed any more and could be released
jniLocalReferenceThread.deleteWhicket.unlock();
try
{
jniLocalReferenceThread.join(1000 * 60 * 2);
if(jniLocalReferenceThread.isAlive())
{
throw new TestBug("JNI_Local_Reference thread can't finish execution");
}
}
catch(InterruptedException e)
{
throw new TestBug("deleteJNILocalReference was interrupted");
}
}
private void createJNIWeakReference(Object object)
{
referenceIndex = createJNIWeakReferenceNative(object, maxJNIWeakReferences);
if(referenceIndex < 0)
{
throw new TestBug("Error on creation of JNI_Weak reference. Possible number of JNI_Weak references exceeded max available value!");
}
}
class JNILocalReferenceThread
extends Thread
{
Wicket createWhicket = new Wicket();
Wicket deleteWhicket = new Wicket();
public void run()
{
createJNILocalReferenceNative(reference, createWhicket, deleteWhicket);
}
}
private JNILocalReferenceThread jniLocalReferenceThread;
private native int createJNIGlobalReferenceNative(Object object, int maxJNIGlobalReferences);
private native void deleteJNIGlobalReferenceNative(int index);
private native void createJNILocalReferenceNative(Object object, Wicket createWhicket, Wicket deleteWhicket);
private native int createJNIWeakReferenceNative(Object object, int maxJNIWeakReferences);
private native void deleteJNIWeakReferenceNative(int index);
}
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