src/share/classes/com/sun/tools/jdi/ObjectReferenceImpl.java - platform/external/oj-libjdwp - Git at Google

 /*
  * Copyright (c) 1998, 2015, 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.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * 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 com.sun.tools.jdi;

 import com.sun.jdi.*;

 import java.util.*;
 import java.util.ArrayList;

 public class ObjectReferenceImpl extends ValueImpl
              implements ObjectReference, VMListener {

     protected long ref;
     private ReferenceType type = null;
     private int gcDisableCount = 0;
     boolean addedListener = false;

     // This is cached only while the VM is suspended
     protected static class Cache {
         JDWP.ObjectReference.MonitorInfo monitorInfo = null;
     }

     private static final Cache noInitCache = new Cache();
     private static final Cache markerCache = new Cache();
     private Cache cache = noInitCache;

     private void disableCache() {
         synchronized (vm.state()) {
             cache = null;
         }
     }

     private void enableCache() {
         synchronized (vm.state()) {
             cache = markerCache;
         }
     }

     // Override in subclasses
     protected Cache newCache() {
         return new Cache();
     }

     protected Cache getCache() {
         synchronized (vm.state()) {
             if (cache == noInitCache) {
                 if (vm.state().isSuspended()) {
                     // Set cache now, otherwise newly created objects are
                     // not cached until resuspend
                     enableCache();
                 } else {
                     disableCache();
                 }
             }
             if (cache == markerCache) {
                 cache = newCache();
             }
             return cache;
         }
     }

     // Return the ClassTypeImpl upon which to invoke a method.
     // By default it is our very own referenceType() but subclasses
     // can override.
     protected ClassTypeImpl invokableReferenceType(Method method) {
         return (ClassTypeImpl)referenceType();
     }

     ObjectReferenceImpl(VirtualMachine aVm,long aRef) {
         super(aVm);

         ref = aRef;
     }

     protected String description() {
         return "ObjectReference " + uniqueID();
     }

     /*
      * VMListener implementation
      */
     public boolean vmSuspended(VMAction action) {
         enableCache();
         return true;
     }

     public boolean vmNotSuspended(VMAction action) {
         // make sure that cache and listener management are synchronized
         synchronized (vm.state()) {
             if (cache != null && (vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0) {
                 vm.printTrace("Clearing temporary cache for " + description());
             }
             disableCache();
             if (addedListener) {
                 /*
                  * If a listener was added (i.e. this is not a
                  * ObjectReference that adds a listener on startup),
                  * remove it here.
                  */
                 addedListener = false;
                 return false;  // false says remove
             } else {
                 return true;
             }
         }
     }

     public boolean equals(Object obj) {
         if ((obj != null) && (obj instanceof ObjectReferenceImpl)) {
             ObjectReferenceImpl other = (ObjectReferenceImpl)obj;
             return (ref() == other.ref()) &&
                    super.equals(obj);
         } else {
             return false;
         }
     }

     public int hashCode() {
         return(int)ref();
     }

     public Type type() {
         return referenceType();
     }

     public ReferenceType referenceType() {
         if (type == null) {
             try {
                 JDWP.ObjectReference.ReferenceType rtinfo =
                     JDWP.ObjectReference.ReferenceType.process(vm, this);
                 type = vm.referenceType(rtinfo.typeID,
                                         rtinfo.refTypeTag);
             } catch (JDWPException exc) {
                 throw exc.toJDIException();
             }
         }
         return type;
     }

     public Value getValue(Field sig) {
         List<Field> list = new ArrayList<Field>(1);
         list.add(sig);
         Map<Field, Value> map = getValues(list);
         return map.get(sig);
     }

     public Map<Field,Value> getValues(List<? extends Field> theFields) {
         validateMirrors(theFields);

         List<Field> staticFields = new ArrayList<Field>(0);
         int size = theFields.size();
         List<Field> instanceFields = new ArrayList<Field>(size);

         for (int i=0; i<size; i++) {
             Field field = (Field)theFields.get(i);

             // Make sure the field is valid
             ((ReferenceTypeImpl)referenceType()).validateFieldAccess(field);

             // FIX ME! We need to do some sanity checking
             // here; make sure the field belongs to this
             // object.
             if (field.isStatic())
                 staticFields.add(field);
             else {
                 instanceFields.add(field);
             }
         }

         Map<Field, Value> map;
         if (staticFields.size() > 0) {
             map = referenceType().getValues(staticFields);
         } else {
             map = new HashMap<Field, Value>(size);
         }

         size = instanceFields.size();

         JDWP.ObjectReference.GetValues.Field[] queryFields =
                          new JDWP.ObjectReference.GetValues.Field[size];
         for (int i=0; i<size; i++) {
             FieldImpl field = (FieldImpl)instanceFields.get(i);/* thanks OTI */
             queryFields[i] = new JDWP.ObjectReference.GetValues.Field(
                                          field.ref());
         }
         ValueImpl[] values;
         try {
             values = JDWP.ObjectReference.GetValues.
                                      process(vm, this, queryFields).values;
         } catch (JDWPException exc) {
             throw exc.toJDIException();
         }

         if (size != values.length) {
             throw new InternalException(
                          "Wrong number of values returned from target VM");
         }
         for (int i=0; i<size; i++) {
             FieldImpl field = (FieldImpl)instanceFields.get(i);
             map.put(field, values[i]);
         }

         return map;
     }

     public void setValue(Field field, Value value)
                    throws InvalidTypeException, ClassNotLoadedException {

         validateMirror(field);
         validateMirrorOrNull(value);

         // Make sure the field is valid
         ((ReferenceTypeImpl)referenceType()).validateFieldSet(field);

         if (field.isStatic()) {
             ReferenceType type = referenceType();
             if (type instanceof ClassType) {
                 ((ClassType)type).setValue(field, value);
                 return;
             } else {
                 throw new IllegalArgumentException(
                                     "Invalid type for static field set");
             }
         }

         try {
             JDWP.ObjectReference.SetValues.FieldValue[] fvals =
                       new JDWP.ObjectReference.SetValues.FieldValue[1];
             fvals[0] = new JDWP.ObjectReference.SetValues.FieldValue(
                            ((FieldImpl)field).ref(),
                            // Validate and convert if necessary
                            ValueImpl.prepareForAssignment(value,
                                                           (FieldImpl)field));
             try {
                 JDWP.ObjectReference.SetValues.process(vm, this, fvals);
             } catch (JDWPException exc) {
                 throw exc.toJDIException();
             }
         } catch (ClassNotLoadedException e) {
             /*
              * Since we got this exception,
              * the field type must be a reference type. The value
              * we're trying to set is null, but if the field's
              * class has not yet been loaded through the enclosing
              * class loader, then setting to null is essentially a
              * no-op, and we should allow it without an exception.
              */
             if (value != null) {
                 throw e;
             }
         }
     }

     void validateMethodInvocation(Method method, int options)
                                          throws InvalidTypeException,
                                          InvocationException {
         /*
          * Method must be in this object's class, a superclass, or
          * implemented interface
          */
         ReferenceTypeImpl declType = (ReferenceTypeImpl)method.declaringType();
         if (!declType.isAssignableFrom(this)) {
             throw new IllegalArgumentException("Invalid method");
         }

         if (declType instanceof ClassTypeImpl) {
             validateClassMethodInvocation(method, options);
         } else if (declType instanceof InterfaceTypeImpl) {
             validateIfaceMethodInvocation(method, options);
         } else {
             throw new InvalidTypeException();
         }
     }

     void validateClassMethodInvocation(Method method, int options)
                                          throws InvalidTypeException,
                                          InvocationException {

         ClassTypeImpl clazz = invokableReferenceType(method);

         /*
          * Method must be a non-constructor
          */
         if (method.isConstructor()) {
             throw new IllegalArgumentException("Cannot invoke constructor");
         }

         /*
          * For nonvirtual invokes, method must have a body
          */
         if (isNonVirtual(options)) {
             if (method.isAbstract()) {
                 throw new IllegalArgumentException("Abstract method");
             }
         }

         /*
          * Get the class containing the method that will be invoked.
          * This class is needed only for proper validation of the
          * method argument types.
          */
         ClassTypeImpl invokedClass;
         if (isNonVirtual(options)) {
             // No overrides in non-virtual invokes
             invokedClass = clazz;
         } else {
             /*
              * For virtual invokes, find any override of the method.
              * Since we are looking for a method with a real body, we
              * don't need to bother with interfaces/abstract methods.
              */
             Method invoker = clazz.concreteMethodByName(method.name(),
                                                         method.signature());
             //  invoker is supposed to be non-null under normal circumstances
             invokedClass = (ClassTypeImpl)invoker.declaringType();
         }
         /* The above code is left over from previous versions.
          * We haven't had time to divine the intent.  jjh, 7/31/2003
          */
     }

     void validateIfaceMethodInvocation(Method method, int options)
                                          throws InvalidTypeException,
                                          InvocationException {
         /*
          * Only default methods allowed for nonvirtual invokes
          */
         if (isNonVirtual(options) && !method.isDefault()) {
             throw new IllegalArgumentException("Not a default method");
         }
     }

     PacketStream sendInvokeCommand(final ThreadReferenceImpl thread,
                                    final ClassTypeImpl refType,
                                    final MethodImpl method,
                                    final ValueImpl[] args,
                                    final int options) {
         CommandSender sender =
             new CommandSender() {
                 public PacketStream send() {
                     return JDWP.ObjectReference.InvokeMethod.enqueueCommand(
                                           vm, ObjectReferenceImpl.this,
                                           thread, refType,
                                           method.ref(), args, options);
                 }
         };

         PacketStream stream;
         if ((options & INVOKE_SINGLE_THREADED) != 0) {
             stream = thread.sendResumingCommand(sender);
         } else {
             stream = vm.sendResumingCommand(sender);
         }
         return stream;
     }

     public Value invokeMethod(ThreadReference threadIntf, Method methodIntf,
                               List<? extends Value> origArguments, int options)
                               throws InvalidTypeException,
                                      IncompatibleThreadStateException,
                                      InvocationException,
                                      ClassNotLoadedException {
         validateMirror(threadIntf);
         validateMirror(methodIntf);
         validateMirrorsOrNulls(origArguments);

         MethodImpl method = (MethodImpl)methodIntf;
         ThreadReferenceImpl thread = (ThreadReferenceImpl)threadIntf;

         if (method.isStatic()) {
             if (referenceType() instanceof InterfaceType) {
                 InterfaceType type = (InterfaceType)referenceType();
                 return type.invokeMethod(thread, method, origArguments, options);
             } else if (referenceType() instanceof ClassType) {
                 ClassType type = (ClassType)referenceType();
                 return type.invokeMethod(thread, method, origArguments, options);
             } else {
                 throw new IllegalArgumentException("Invalid type for static method invocation");
             }
         }

         validateMethodInvocation(method, options);

         List<Value> arguments = method.validateAndPrepareArgumentsForInvoke(
                                                   origArguments);

         ValueImpl[] args = arguments.toArray(new ValueImpl[0]);
         JDWP.ObjectReference.InvokeMethod ret;
         try {
             PacketStream stream =
                 sendInvokeCommand(thread, invokableReferenceType(method),
                                   method, args, options);
             ret = JDWP.ObjectReference.InvokeMethod.waitForReply(vm, stream);
         } catch (JDWPException exc) {
             if (exc.errorCode() == JDWP.Error.INVALID_THREAD) {
                 throw new IncompatibleThreadStateException();
             } else {
                 throw exc.toJDIException();
             }
         }

         /*
          * There is an implict VM-wide suspend at the conclusion
          * of a normal (non-single-threaded) method invoke
          */
         if ((options & INVOKE_SINGLE_THREADED) == 0) {
             vm.notifySuspend();
         }

         if (ret.exception != null) {
             throw new InvocationException(ret.exception);
         } else {
             return ret.returnValue;
         }
     }

     /* leave synchronized to keep count accurate */
     public synchronized void disableCollection() {
         if (gcDisableCount == 0) {
             try {
                 JDWP.ObjectReference.DisableCollection.process(vm, this);
             } catch (JDWPException exc) {
                 throw exc.toJDIException();
             }
         }
         gcDisableCount++;
     }

     /* leave synchronized to keep count accurate */
     public synchronized void enableCollection() {
         gcDisableCount--;

         if (gcDisableCount == 0) {
             try {
                 JDWP.ObjectReference.EnableCollection.process(vm, this);
             } catch (JDWPException exc) {
                 // If already collected, no harm done, no exception
                 if (exc.errorCode() != JDWP.Error.INVALID_OBJECT) {
                     throw exc.toJDIException();
                 }
                 return;
             }
         }
     }

     public boolean isCollected() {
         try {
             return JDWP.ObjectReference.IsCollected.process(vm, this).
                                                               isCollected;
         } catch (JDWPException exc) {
             throw exc.toJDIException();
         }
     }

     public long uniqueID() {
         return ref();
     }

     JDWP.ObjectReference.MonitorInfo jdwpMonitorInfo()
                              throws IncompatibleThreadStateException {
         JDWP.ObjectReference.MonitorInfo info = null;
         try {
             Cache local;

             // getCache() and addlistener() must be synchronized
             // so that no events are lost.
             synchronized (vm.state()) {
                 local = getCache();

                 if (local != null) {
                     info = local.monitorInfo;

                     // Check if there will be something to cache
                     // and there is not already a listener
                     if (info == null && !vm.state().hasListener(this)) {
                         /* For other, less numerous objects, this is done
                          * in the constructor. Since there can be many
                          * ObjectReferences, the VM listener is installed
                          * and removed as needed.
                          * Listener must be installed before process()
                          */
                         vm.state().addListener(this);
                         addedListener = true;
                     }
                 }
             }
             if (info == null) {
                 info = JDWP.ObjectReference.MonitorInfo.process(vm, this);
                 if (local != null) {
                     local.monitorInfo = info;
                     if ((vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0) {
                         vm.printTrace("ObjectReference " + uniqueID() +
                                       " temporarily caching monitor info");
                     }
                 }
             }
         } catch (JDWPException exc) {
              if (exc.errorCode() == JDWP.Error.THREAD_NOT_SUSPENDED) {
                  throw new IncompatibleThreadStateException();
              } else {
                  throw exc.toJDIException();
              }
          }
         return info;
     }

     public List<ThreadReference> waitingThreads() throws IncompatibleThreadStateException {
         return Arrays.asList((ThreadReference[])jdwpMonitorInfo().waiters);
     }

     public ThreadReference owningThread() throws IncompatibleThreadStateException {
         return jdwpMonitorInfo().owner;
     }

     public int entryCount() throws IncompatibleThreadStateException {
         return jdwpMonitorInfo().entryCount;
     }


     public List<ObjectReference> referringObjects(long maxReferrers) {
         if (!vm.canGetInstanceInfo()) {
             throw new UnsupportedOperationException(
                 "target does not support getting referring objects");
         }

         if (maxReferrers < 0) {
             throw new IllegalArgumentException("maxReferrers is less than zero: "
                                               + maxReferrers);
         }

         int intMax = (maxReferrers > Integer.MAX_VALUE)?
             Integer.MAX_VALUE: (int)maxReferrers;
         // JDWP can't currently handle more than this (in mustang)

         try {
             return Arrays.asList((ObjectReference[])JDWP.ObjectReference.ReferringObjects.
                                 process(vm, this, intMax).referringObjects);
         } catch (JDWPException exc) {
             throw exc.toJDIException();
         }
     }

     long ref() {
         return ref;
     }

     boolean isClassObject() {
         /*
          * Don't need to worry about subclasses since java.lang.Class is final.
          */
         return referenceType().name().equals("java.lang.Class");
     }

     ValueImpl prepareForAssignmentTo(ValueContainer destination)
                                  throws InvalidTypeException,
                                         ClassNotLoadedException {

         validateAssignment(destination);
         return this;            // conversion never necessary
     }

     void validateAssignment(ValueContainer destination)
                             throws InvalidTypeException, ClassNotLoadedException {

         /*
          * Do these simpler checks before attempting a query of the destination's
          * type which might cause a confusing ClassNotLoadedException if
          * the destination is primitive or an array.
          */
         /*
          * TO DO: Centralize JNI signature knowledge
          */
         if (destination.signature().length() == 1) {
             throw new InvalidTypeException("Can't assign object value to primitive");
         }
         if ((destination.signature().charAt(0) == '[') &&
             (type().signature().charAt(0) != '[')) {
             throw new InvalidTypeException("Can't assign non-array value to an array");
         }
         if ("void".equals(destination.typeName())) {
             throw new InvalidTypeException("Can't assign object value to a void");
         }

         // Validate assignment
         ReferenceType destType = (ReferenceTypeImpl)destination.type();
         ReferenceTypeImpl myType = (ReferenceTypeImpl)referenceType();
         if (!myType.isAssignableTo(destType)) {
             JNITypeParser parser = new JNITypeParser(destType.signature());
             String destTypeName = parser.typeName();
             throw new InvalidTypeException("Can't assign " +
                                            type().name() +
                                            " to " + destTypeName);
         }
     }


     public String toString() {
         return "instance of " + referenceType().name() + "(id=" + uniqueID() + ")";
     }

     byte typeValueKey() {
         return JDWP.Tag.OBJECT;
     }

     private static boolean isNonVirtual(int options) {
         return (options & INVOKE_NONVIRTUAL) != 0;
     }
 }
	/*
	* Copyright (c) 1998, 2015, 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. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* 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 com.sun.tools.jdi;

	import com.sun.jdi.*;

	import java.util.*;
	import java.util.ArrayList;

	public class ObjectReferenceImpl extends ValueImpl
	implements ObjectReference, VMListener {

	protected long ref;
	private ReferenceType type = null;
	private int gcDisableCount = 0;
	boolean addedListener = false;

	// This is cached only while the VM is suspended
	protected static class Cache {
	JDWP.ObjectReference.MonitorInfo monitorInfo = null;
	}

	private static final Cache noInitCache = new Cache();
	private static final Cache markerCache = new Cache();
	private Cache cache = noInitCache;

	private void disableCache() {
	synchronized (vm.state()) {
	cache = null;
	}
	}

	private void enableCache() {
	synchronized (vm.state()) {
	cache = markerCache;
	}
	}

	// Override in subclasses
	protected Cache newCache() {
	return new Cache();
	}

	protected Cache getCache() {
	synchronized (vm.state()) {
	if (cache == noInitCache) {
	if (vm.state().isSuspended()) {
	// Set cache now, otherwise newly created objects are
	// not cached until resuspend
	enableCache();
	} else {
	disableCache();
	}
	}
	if (cache == markerCache) {
	cache = newCache();
	}
	return cache;
	}
	}

	// Return the ClassTypeImpl upon which to invoke a method.
	// By default it is our very own referenceType() but subclasses
	// can override.
	protected ClassTypeImpl invokableReferenceType(Method method) {
	return (ClassTypeImpl)referenceType();
	}

	ObjectReferenceImpl(VirtualMachine aVm,long aRef) {
	super(aVm);

	ref = aRef;
	}

	protected String description() {
	return "ObjectReference " + uniqueID();
	}

	/*
	* VMListener implementation
	*/
	public boolean vmSuspended(VMAction action) {
	enableCache();
	return true;
	}

	public boolean vmNotSuspended(VMAction action) {
	// make sure that cache and listener management are synchronized
	synchronized (vm.state()) {
	if (cache != null && (vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0) {
	vm.printTrace("Clearing temporary cache for " + description());
	}
	disableCache();
	if (addedListener) {
	/*
	* If a listener was added (i.e. this is not a
	* ObjectReference that adds a listener on startup),
	* remove it here.
	*/
	addedListener = false;
	return false; // false says remove
	} else {
	return true;
	}
	}
	}

	public boolean equals(Object obj) {
	if ((obj != null) && (obj instanceof ObjectReferenceImpl)) {
	ObjectReferenceImpl other = (ObjectReferenceImpl)obj;
	return (ref() == other.ref()) &&
	super.equals(obj);
	} else {
	return false;
	}
	}

	public int hashCode() {
	return(int)ref();
	}

	public Type type() {
	return referenceType();
	}

	public ReferenceType referenceType() {
	if (type == null) {
	try {
	JDWP.ObjectReference.ReferenceType rtinfo =
	JDWP.ObjectReference.ReferenceType.process(vm, this);
	type = vm.referenceType(rtinfo.typeID,
	rtinfo.refTypeTag);
	} catch (JDWPException exc) {
	throw exc.toJDIException();
	}
	}
	return type;
	}

	public Value getValue(Field sig) {
	List<Field> list = new ArrayList<Field>(1);
	list.add(sig);
	Map<Field, Value> map = getValues(list);
	return map.get(sig);
	}

	public Map<Field,Value> getValues(List<? extends Field> theFields) {
	validateMirrors(theFields);

	List<Field> staticFields = new ArrayList<Field>(0);
	int size = theFields.size();
	List<Field> instanceFields = new ArrayList<Field>(size);

	for (int i=0; i<size; i++) {
	Field field = (Field)theFields.get(i);

	// Make sure the field is valid
	((ReferenceTypeImpl)referenceType()).validateFieldAccess(field);

	// FIX ME! We need to do some sanity checking
	// here; make sure the field belongs to this
	// object.
	if (field.isStatic())
	staticFields.add(field);
	else {
	instanceFields.add(field);
	}
	}

	Map<Field, Value> map;
	if (staticFields.size() > 0) {
	map = referenceType().getValues(staticFields);
	} else {
	map = new HashMap<Field, Value>(size);
	}

	size = instanceFields.size();

	JDWP.ObjectReference.GetValues.Field[] queryFields =
	new JDWP.ObjectReference.GetValues.Field[size];
	for (int i=0; i<size; i++) {
	FieldImpl field = (FieldImpl)instanceFields.get(i);/* thanks OTI */
	queryFields[i] = new JDWP.ObjectReference.GetValues.Field(
	field.ref());
	}
	ValueImpl[] values;
	try {
	values = JDWP.ObjectReference.GetValues.
	process(vm, this, queryFields).values;
	} catch (JDWPException exc) {
	throw exc.toJDIException();
	}

	if (size != values.length) {
	throw new InternalException(
	"Wrong number of values returned from target VM");
	}
	for (int i=0; i<size; i++) {
	FieldImpl field = (FieldImpl)instanceFields.get(i);
	map.put(field, values[i]);
	}

	return map;
	}

	public void setValue(Field field, Value value)
	throws InvalidTypeException, ClassNotLoadedException {

	validateMirror(field);
	validateMirrorOrNull(value);

	// Make sure the field is valid
	((ReferenceTypeImpl)referenceType()).validateFieldSet(field);

	if (field.isStatic()) {
	ReferenceType type = referenceType();
	if (type instanceof ClassType) {
	((ClassType)type).setValue(field, value);
	return;
	} else {
	throw new IllegalArgumentException(
	"Invalid type for static field set");
	}
	}

	try {
	JDWP.ObjectReference.SetValues.FieldValue[] fvals =
	new JDWP.ObjectReference.SetValues.FieldValue[1];
	fvals[0] = new JDWP.ObjectReference.SetValues.FieldValue(
	((FieldImpl)field).ref(),
	// Validate and convert if necessary
	ValueImpl.prepareForAssignment(value,
	(FieldImpl)field));
	try {
	JDWP.ObjectReference.SetValues.process(vm, this, fvals);
	} catch (JDWPException exc) {
	throw exc.toJDIException();
	}
	} catch (ClassNotLoadedException e) {
	/*
	* Since we got this exception,
	* the field type must be a reference type. The value
	* we're trying to set is null, but if the field's
	* class has not yet been loaded through the enclosing
	* class loader, then setting to null is essentially a
	* no-op, and we should allow it without an exception.
	*/
	if (value != null) {
	throw e;
	}
	}
	}

	void validateMethodInvocation(Method method, int options)
	throws InvalidTypeException,
	InvocationException {
	/*
	* Method must be in this object's class, a superclass, or
	* implemented interface
	*/
	ReferenceTypeImpl declType = (ReferenceTypeImpl)method.declaringType();
	if (!declType.isAssignableFrom(this)) {
	throw new IllegalArgumentException("Invalid method");
	}

	if (declType instanceof ClassTypeImpl) {
	validateClassMethodInvocation(method, options);
	} else if (declType instanceof InterfaceTypeImpl) {
	validateIfaceMethodInvocation(method, options);
	} else {
	throw new InvalidTypeException();
	}
	}

	void validateClassMethodInvocation(Method method, int options)
	throws InvalidTypeException,
	InvocationException {

	ClassTypeImpl clazz = invokableReferenceType(method);

	/*
	* Method must be a non-constructor
	*/
	if (method.isConstructor()) {
	throw new IllegalArgumentException("Cannot invoke constructor");
	}

	/*
	* For nonvirtual invokes, method must have a body
	*/
	if (isNonVirtual(options)) {
	if (method.isAbstract()) {
	throw new IllegalArgumentException("Abstract method");
	}
	}

	/*
	* Get the class containing the method that will be invoked.
	* This class is needed only for proper validation of the
	* method argument types.
	*/
	ClassTypeImpl invokedClass;
	if (isNonVirtual(options)) {
	// No overrides in non-virtual invokes
	invokedClass = clazz;
	} else {
	/*
	* For virtual invokes, find any override of the method.
	* Since we are looking for a method with a real body, we
	* don't need to bother with interfaces/abstract methods.
	*/
	Method invoker = clazz.concreteMethodByName(method.name(),
	method.signature());
	// invoker is supposed to be non-null under normal circumstances
	invokedClass = (ClassTypeImpl)invoker.declaringType();
	}
	/* The above code is left over from previous versions.
	* We haven't had time to divine the intent. jjh, 7/31/2003
	*/
	}

	void validateIfaceMethodInvocation(Method method, int options)
	throws InvalidTypeException,
	InvocationException {
	/*
	* Only default methods allowed for nonvirtual invokes
	*/
	if (isNonVirtual(options) && !method.isDefault()) {
	throw new IllegalArgumentException("Not a default method");
	}
	}

	PacketStream sendInvokeCommand(final ThreadReferenceImpl thread,
	final ClassTypeImpl refType,
	final MethodImpl method,
	final ValueImpl[] args,
	final int options) {
	CommandSender sender =
	new CommandSender() {
	public PacketStream send() {
	return JDWP.ObjectReference.InvokeMethod.enqueueCommand(
	vm, ObjectReferenceImpl.this,
	thread, refType,
	method.ref(), args, options);
	}
	};

	PacketStream stream;
	if ((options & INVOKE_SINGLE_THREADED) != 0) {
	stream = thread.sendResumingCommand(sender);
	} else {
	stream = vm.sendResumingCommand(sender);
	}
	return stream;
	}

	public Value invokeMethod(ThreadReference threadIntf, Method methodIntf,
	List<? extends Value> origArguments, int options)
	throws InvalidTypeException,
	IncompatibleThreadStateException,
	InvocationException,
	ClassNotLoadedException {
	validateMirror(threadIntf);
	validateMirror(methodIntf);
	validateMirrorsOrNulls(origArguments);

	MethodImpl method = (MethodImpl)methodIntf;
	ThreadReferenceImpl thread = (ThreadReferenceImpl)threadIntf;

	if (method.isStatic()) {
	if (referenceType() instanceof InterfaceType) {
	InterfaceType type = (InterfaceType)referenceType();
	return type.invokeMethod(thread, method, origArguments, options);
	} else if (referenceType() instanceof ClassType) {
	ClassType type = (ClassType)referenceType();
	return type.invokeMethod(thread, method, origArguments, options);
	} else {
	throw new IllegalArgumentException("Invalid type for static method invocation");
	}
	}

	validateMethodInvocation(method, options);

	List<Value> arguments = method.validateAndPrepareArgumentsForInvoke(
	origArguments);

	ValueImpl[] args = arguments.toArray(new ValueImpl[0]);
	JDWP.ObjectReference.InvokeMethod ret;
	try {
	PacketStream stream =
	sendInvokeCommand(thread, invokableReferenceType(method),
	method, args, options);
	ret = JDWP.ObjectReference.InvokeMethod.waitForReply(vm, stream);
	} catch (JDWPException exc) {
	if (exc.errorCode() == JDWP.Error.INVALID_THREAD) {
	throw new IncompatibleThreadStateException();
	} else {
	throw exc.toJDIException();
	}
	}

	/*
	* There is an implict VM-wide suspend at the conclusion
	* of a normal (non-single-threaded) method invoke
	*/
	if ((options & INVOKE_SINGLE_THREADED) == 0) {
	vm.notifySuspend();
	}

	if (ret.exception != null) {
	throw new InvocationException(ret.exception);
	} else {
	return ret.returnValue;
	}
	}

	/* leave synchronized to keep count accurate */
	public synchronized void disableCollection() {
	if (gcDisableCount == 0) {
	try {
	JDWP.ObjectReference.DisableCollection.process(vm, this);
	} catch (JDWPException exc) {
	throw exc.toJDIException();
	}
	}
	gcDisableCount++;
	}

	/* leave synchronized to keep count accurate */
	public synchronized void enableCollection() {
	gcDisableCount--;

	if (gcDisableCount == 0) {
	try {
	JDWP.ObjectReference.EnableCollection.process(vm, this);
	} catch (JDWPException exc) {
	// If already collected, no harm done, no exception
	if (exc.errorCode() != JDWP.Error.INVALID_OBJECT) {
	throw exc.toJDIException();
	}
	return;
	}
	}
	}

	public boolean isCollected() {
	try {
	return JDWP.ObjectReference.IsCollected.process(vm, this).
	isCollected;
	} catch (JDWPException exc) {
	throw exc.toJDIException();
	}
	}

	public long uniqueID() {
	return ref();
	}

	JDWP.ObjectReference.MonitorInfo jdwpMonitorInfo()
	throws IncompatibleThreadStateException {
	JDWP.ObjectReference.MonitorInfo info = null;
	try {
	Cache local;

	// getCache() and addlistener() must be synchronized
	// so that no events are lost.
	synchronized (vm.state()) {
	local = getCache();

	if (local != null) {
	info = local.monitorInfo;

	// Check if there will be something to cache
	// and there is not already a listener
	if (info == null && !vm.state().hasListener(this)) {
	/* For other, less numerous objects, this is done
	* in the constructor. Since there can be many
	* ObjectReferences, the VM listener is installed
	* and removed as needed.
	* Listener must be installed before process()
	*/
	vm.state().addListener(this);
	addedListener = true;
	}
	}
	}
	if (info == null) {
	info = JDWP.ObjectReference.MonitorInfo.process(vm, this);
	if (local != null) {
	local.monitorInfo = info;
	if ((vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0) {
	vm.printTrace("ObjectReference " + uniqueID() +
	" temporarily caching monitor info");
	}
	}
	}
	} catch (JDWPException exc) {
	if (exc.errorCode() == JDWP.Error.THREAD_NOT_SUSPENDED) {
	throw new IncompatibleThreadStateException();
	} else {
	throw exc.toJDIException();
	}
	}
	return info;
	}

	public List<ThreadReference> waitingThreads() throws IncompatibleThreadStateException {
	return Arrays.asList((ThreadReference[])jdwpMonitorInfo().waiters);
	}

	public ThreadReference owningThread() throws IncompatibleThreadStateException {
	return jdwpMonitorInfo().owner;
	}

	public int entryCount() throws IncompatibleThreadStateException {
	return jdwpMonitorInfo().entryCount;
	}


	public List<ObjectReference> referringObjects(long maxReferrers) {
	if (!vm.canGetInstanceInfo()) {
	throw new UnsupportedOperationException(
	"target does not support getting referring objects");
	}

	if (maxReferrers < 0) {
	throw new IllegalArgumentException("maxReferrers is less than zero: "
	+ maxReferrers);
	}

	int intMax = (maxReferrers > Integer.MAX_VALUE)?
	Integer.MAX_VALUE: (int)maxReferrers;
	// JDWP can't currently handle more than this (in mustang)

	try {
	return Arrays.asList((ObjectReference[])JDWP.ObjectReference.ReferringObjects.
	process(vm, this, intMax).referringObjects);
	} catch (JDWPException exc) {
	throw exc.toJDIException();
	}
	}

	long ref() {
	return ref;
	}

	boolean isClassObject() {
	/*
	* Don't need to worry about subclasses since java.lang.Class is final.
	*/
	return referenceType().name().equals("java.lang.Class");
	}

	ValueImpl prepareForAssignmentTo(ValueContainer destination)
	throws InvalidTypeException,
	ClassNotLoadedException {

	validateAssignment(destination);
	return this; // conversion never necessary
	}

	void validateAssignment(ValueContainer destination)
	throws InvalidTypeException, ClassNotLoadedException {

	/*
	* Do these simpler checks before attempting a query of the destination's
	* type which might cause a confusing ClassNotLoadedException if
	* the destination is primitive or an array.
	*/
	/*
	* TO DO: Centralize JNI signature knowledge
	*/
	if (destination.signature().length() == 1) {
	throw new InvalidTypeException("Can't assign object value to primitive");
	}
	if ((destination.signature().charAt(0) == '[') &&
	(type().signature().charAt(0) != '[')) {
	throw new InvalidTypeException("Can't assign non-array value to an array");
	}
	if ("void".equals(destination.typeName())) {
	throw new InvalidTypeException("Can't assign object value to a void");
	}

	// Validate assignment
	ReferenceType destType = (ReferenceTypeImpl)destination.type();
	ReferenceTypeImpl myType = (ReferenceTypeImpl)referenceType();
	if (!myType.isAssignableTo(destType)) {
	JNITypeParser parser = new JNITypeParser(destType.signature());
	String destTypeName = parser.typeName();
	throw new InvalidTypeException("Can't assign " +
	type().name() +
	" to " + destTypeName);
	}
	}


	public String toString() {
	return "instance of " + referenceType().name() + "(id=" + uniqueID() + ")";
	}

	byte typeValueKey() {
	return JDWP.Tag.OBJECT;
	}

	private static boolean isNonVirtual(int options) {
	return (options & INVOKE_NONVIRTUAL) != 0;
	}
	}