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1 /*
2  * Copyright (c) 1998, 2015, Oracle and/or its affiliates. All rights reserved.
3  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4  *
5  * This code is free software; you can redistribute it and/or modify it
6  * under the terms of the GNU General Public License version 2 only, as
7  * published by the Free Software Foundation.  Oracle designates this
8  * particular file as subject to the "Classpath" exception as provided
9  * by Oracle in the LICENSE file that accompanied this code.
10  *
11  * This code is distributed in the hope that it will be useful, but WITHOUT
12  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
14  * version 2 for more details (a copy is included in the LICENSE file that
15  * accompanied this code).
16  *
17  * You should have received a copy of the GNU General Public License version
18  * 2 along with this work; if not, write to the Free Software Foundation,
19  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20  *
21  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
22  * or visit www.oracle.com if you need additional information or have any
23  * questions.
24  */
25 
26 package com.sun.tools.jdi;
27 
28 import com.sun.jdi.*;
29 import com.sun.jdi.connect.spi.Connection;
30 import com.sun.jdi.request.EventRequestManager;
31 import com.sun.jdi.request.EventRequest;
32 import com.sun.jdi.request.BreakpointRequest;
33 import com.sun.jdi.event.EventQueue;
34 
35 import java.util.*;
36 import java.text.MessageFormat;
37 import java.lang.ref.ReferenceQueue;
38 import java.lang.ref.Reference;
39 import java.lang.ref.SoftReference;
40 import java.lang.ref.WeakReference;
41 
42 class VirtualMachineImpl extends MirrorImpl
43              implements PathSearchingVirtualMachine, ThreadListener {
44     // VM Level exported variables, these
45     // are unique to a given vm
46     public final int sizeofFieldRef;
47     public final int sizeofMethodRef;
48     public final int sizeofObjectRef;
49     public final int sizeofClassRef;
50     public final int sizeofFrameRef;
51 
52     final int sequenceNumber;
53 
54     private final TargetVM target;
55     private final EventQueueImpl eventQueue;
56     private final EventRequestManagerImpl internalEventRequestManager;
57     private final EventRequestManagerImpl eventRequestManager;
58     final VirtualMachineManagerImpl vmManager;
59     private final ThreadGroup threadGroupForJDI;
60 
61     // Allow direct access to this field so that that tracing code slows down
62     // JDI as little as possible when not enabled.
63     int traceFlags = TRACE_NONE;
64 
65     static int TRACE_RAW_SENDS     = 0x01000000;
66     static int TRACE_RAW_RECEIVES  = 0x02000000;
67 
68     boolean traceReceives = false;   // pre-compute because of frequency
69 
70     // ReferenceType access - updated with class prepare and unload events
71     // Protected by "synchronized(this)". "retrievedAllTypes" may be
72     // tested unsynchronized (since once true, it stays true), but must
73     // be set synchronously
74     private Map<Long, ReferenceType> typesByID;
75     private TreeSet<ReferenceType> typesBySignature;
76     private boolean retrievedAllTypes = false;
77 
78     // For other languages support
79     private String defaultStratum = null;
80 
81     // ObjectReference cache
82     // "objectsByID" protected by "synchronized(this)".
83     private final Map<Long, SoftObjectReference> objectsByID = new HashMap<Long, SoftObjectReference>();
84     private final ReferenceQueue<ObjectReferenceImpl> referenceQueue = new ReferenceQueue<ObjectReferenceImpl>();
85     static private final int DISPOSE_THRESHOLD = 50;
86     private final List<SoftObjectReference> batchedDisposeRequests =
87             Collections.synchronizedList(new ArrayList<SoftObjectReference>(DISPOSE_THRESHOLD + 10));
88 
89     // These are cached once for the life of the VM
90     private JDWP.VirtualMachine.Version versionInfo;
91     private JDWP.VirtualMachine.ClassPaths pathInfo;
92     private JDWP.VirtualMachine.Capabilities capabilities = null;
93     private JDWP.VirtualMachine.CapabilitiesNew capabilitiesNew = null;
94 
95     // Per-vm singletons for primitive types and for void.
96     // singleton-ness protected by "synchronized(this)".
97     private BooleanType theBooleanType;
98     private ByteType    theByteType;
99     private CharType    theCharType;
100     private ShortType   theShortType;
101     private IntegerType theIntegerType;
102     private LongType    theLongType;
103     private FloatType   theFloatType;
104     private DoubleType  theDoubleType;
105 
106     private VoidType    theVoidType;
107 
108     private VoidValue voidVal;
109 
110     // Launched debuggee process
111     private Process process;
112 
113     // coordinates state changes and corresponding listener notifications
114     private VMState state = new VMState(this);
115 
116     private Object initMonitor = new Object();
117     private boolean initComplete = false;
118     private boolean shutdown = false;
119 
notifyInitCompletion()120     private void notifyInitCompletion() {
121         synchronized(initMonitor) {
122             initComplete = true;
123             initMonitor.notifyAll();
124         }
125     }
126 
waitInitCompletion()127     void waitInitCompletion() {
128         synchronized(initMonitor) {
129             while (!initComplete) {
130                 try {
131                     initMonitor.wait();
132                 } catch (InterruptedException e) {
133                     // ignore
134                 }
135             }
136         }
137     }
138 
state()139     VMState state() {
140         return state;
141     }
142 
143     /*
144      * ThreadListener implementation
145      */
threadResumable(ThreadAction action)146     public boolean threadResumable(ThreadAction action) {
147         /*
148          * If any thread is resumed, the VM is considered not suspended.
149          * Just one thread is being resumed so pass it to thaw.
150          */
151         state.thaw(action.thread());
152         return true;
153     }
154 
VirtualMachineImpl(VirtualMachineManager manager, Connection connection, Process process, int sequenceNumber)155     VirtualMachineImpl(VirtualMachineManager manager,
156                        Connection connection, Process process,
157                        int sequenceNumber) {
158         super(null);  // Can't use super(this)
159         vm = this;
160 
161         this.vmManager = (VirtualMachineManagerImpl)manager;
162         this.process = process;
163         this.sequenceNumber = sequenceNumber;
164 
165         /* Create ThreadGroup to be used by all threads servicing
166          * this VM.
167          */
168         threadGroupForJDI = new ThreadGroup(vmManager.mainGroupForJDI(),
169                                             "JDI [" +
170                                             this.hashCode() + "]");
171 
172         /*
173          * Set up a thread to communicate with the target VM over
174          * the specified transport.
175          */
176         target = new TargetVM(this, connection);
177 
178         /*
179          * Set up a thread to handle events processed internally
180          * the JDI implementation.
181          */
182         EventQueueImpl internalEventQueue = new EventQueueImpl(this, target);
183         new InternalEventHandler(this, internalEventQueue);
184         /*
185          * Initialize client access to event setting and handling
186          */
187         eventQueue = new EventQueueImpl(this, target);
188         eventRequestManager = new EventRequestManagerImpl(this);
189 
190         target.start();
191 
192         /*
193          * Many ids are variably sized, depending on target VM.
194          * Find out the sizes right away.
195          */
196         JDWP.VirtualMachine.IDSizes idSizes;
197         try {
198             idSizes = JDWP.VirtualMachine.IDSizes.process(vm);
199         } catch (JDWPException exc) {
200             throw exc.toJDIException();
201         }
202         sizeofFieldRef  = idSizes.fieldIDSize;
203         sizeofMethodRef = idSizes.methodIDSize;
204         sizeofObjectRef = idSizes.objectIDSize;
205         sizeofClassRef = idSizes.referenceTypeIDSize;
206         sizeofFrameRef  = idSizes.frameIDSize;
207 
208         /**
209          * Set up requests needed by internal event handler.
210          * Make sure they are distinguished by creating them with
211          * an internal event request manager.
212          *
213          * Warning: create events only with SUSPEND_NONE policy.
214          * In the current implementation other policies will not
215          * be handled correctly when the event comes in. (notfiySuspend()
216          * will not be properly called, and if the event is combined
217          * with external events in the same set, suspend policy is not
218          * correctly determined for the internal vs. external event sets)
219          */
220         internalEventRequestManager = new EventRequestManagerImpl(this);
221         EventRequest er = internalEventRequestManager.createClassPrepareRequest();
222         er.setSuspendPolicy(EventRequest.SUSPEND_NONE);
223         er.enable();
224         er = internalEventRequestManager.createClassUnloadRequest();
225         er.setSuspendPolicy(EventRequest.SUSPEND_NONE);
226         er.enable();
227 
228         /*
229          * Tell other threads, notably TargetVM, that initialization
230          * is complete.
231          */
232         notifyInitCompletion();
233     }
234 
getInternalEventRequestManager()235     EventRequestManagerImpl getInternalEventRequestManager() {
236         return internalEventRequestManager;
237     }
238 
validateVM()239     void validateVM() {
240         /*
241          * We no longer need to do this.  The spec now says
242          * that a VMDisconnected _may_ be thrown in these
243          * cases, not that it _will_ be thrown.
244          * So, to simplify things we will just let the
245          * caller's of this method proceed with their business.
246          * If the debuggee is disconnected, either because it
247          * crashed or finished or something, or because the
248          * debugger called exit() or dispose(), then if
249          * we end up trying to communicate with the debuggee,
250          * code in TargetVM will throw a VMDisconnectedException.
251          * This means that if we can satisfy a request without
252          * talking to the debuggee, (eg, with cached data) then
253          * VMDisconnectedException will _not_ be thrown.
254          * if (shutdown) {
255          *    throw new VMDisconnectedException();
256          * }
257          */
258     }
259 
equals(Object obj)260     public boolean equals(Object obj) {
261         return this == obj;
262     }
263 
hashCode()264     public int hashCode() {
265         return System.identityHashCode(this);
266     }
267 
classesByName(String className)268     public List<ReferenceType> classesByName(String className) {
269         validateVM();
270         String signature = JNITypeParser.typeNameToSignature(className);
271         List<ReferenceType> list;
272         if (retrievedAllTypes) {
273            list = findReferenceTypes(signature);
274         } else {
275            list = retrieveClassesBySignature(signature);
276         }
277         return Collections.unmodifiableList(list);
278     }
279 
allClasses()280     public List<ReferenceType> allClasses() {
281         validateVM();
282 
283         if (!retrievedAllTypes) {
284             retrieveAllClasses();
285         }
286         ArrayList<ReferenceType> a;
287         synchronized (this) {
288             a = new ArrayList<ReferenceType>(typesBySignature);
289         }
290         return Collections.unmodifiableList(a);
291     }
292 
293     public void
redefineClasses(Map<? extends ReferenceType,byte[]> classToBytes)294         redefineClasses(Map<? extends ReferenceType,byte[]> classToBytes)
295     {
296         int cnt = classToBytes.size();
297         JDWP.VirtualMachine.RedefineClasses.ClassDef[] defs =
298             new JDWP.VirtualMachine.RedefineClasses.ClassDef[cnt];
299         validateVM();
300         if (!canRedefineClasses()) {
301             throw new UnsupportedOperationException();
302         }
303         Iterator<?> it = classToBytes.entrySet().iterator();
304         for (int i = 0; it.hasNext(); i++) {
305             Map.Entry<?,?> entry = (Map.Entry)it.next();
306             ReferenceTypeImpl refType = (ReferenceTypeImpl)entry.getKey();
307             validateMirror(refType);
308             defs[i] = new JDWP.VirtualMachine.RedefineClasses
309                        .ClassDef(refType, (byte[])entry.getValue());
310         }
311 
312         // flush caches and disable caching until the next suspend
313         vm.state().thaw();
314 
315         try {
316             JDWP.VirtualMachine.RedefineClasses.
317                 process(vm, defs);
318         } catch (JDWPException exc) {
319             switch (exc.errorCode()) {
320             case JDWP.Error.INVALID_CLASS_FORMAT :
321                 throw new ClassFormatError(
322                         "class not in class file format");
323             case JDWP.Error.CIRCULAR_CLASS_DEFINITION :
324                 throw new ClassCircularityError(
325        "circularity has been detected while initializing a class");
326             case JDWP.Error.FAILS_VERIFICATION :
327                 throw new VerifyError(
328    "verifier detected internal inconsistency or security problem");
329             case JDWP.Error.UNSUPPORTED_VERSION :
330                 throw new UnsupportedClassVersionError(
331                     "version numbers of class are not supported");
332             case JDWP.Error.ADD_METHOD_NOT_IMPLEMENTED:
333                 throw new UnsupportedOperationException(
334                               "add method not implemented");
335             case JDWP.Error.SCHEMA_CHANGE_NOT_IMPLEMENTED :
336                 throw new UnsupportedOperationException(
337                               "schema change not implemented");
338             case JDWP.Error.HIERARCHY_CHANGE_NOT_IMPLEMENTED:
339                 throw new UnsupportedOperationException(
340                               "hierarchy change not implemented");
341             case JDWP.Error.DELETE_METHOD_NOT_IMPLEMENTED :
342                 throw new UnsupportedOperationException(
343                               "delete method not implemented");
344             case JDWP.Error.CLASS_MODIFIERS_CHANGE_NOT_IMPLEMENTED:
345                 throw new UnsupportedOperationException(
346                        "changes to class modifiers not implemented");
347             case JDWP.Error.METHOD_MODIFIERS_CHANGE_NOT_IMPLEMENTED :
348                 throw new UnsupportedOperationException(
349                        "changes to method modifiers not implemented");
350             case JDWP.Error.NAMES_DONT_MATCH :
351                 throw new NoClassDefFoundError(
352                               "class names do not match");
353             default:
354                 throw exc.toJDIException();
355             }
356         }
357 
358         // Delete any record of the breakpoints
359         List<BreakpointRequest> toDelete = new ArrayList<BreakpointRequest>();
360         EventRequestManager erm = eventRequestManager();
361         it = erm.breakpointRequests().iterator();
362         while (it.hasNext()) {
363             BreakpointRequest req = (BreakpointRequest)it.next();
364             if (classToBytes.containsKey(req.location().declaringType())) {
365                 toDelete.add(req);
366             }
367         }
368         erm.deleteEventRequests(toDelete);
369 
370         // Invalidate any information cached for the classes just redefined.
371         it = classToBytes.keySet().iterator();
372         while (it.hasNext()) {
373             ReferenceTypeImpl rti = (ReferenceTypeImpl)it.next();
374             rti.noticeRedefineClass();
375         }
376     }
377 
allThreads()378     public List<ThreadReference> allThreads() {
379         validateVM();
380         return state.allThreads();
381     }
382 
topLevelThreadGroups()383     public List<ThreadGroupReference> topLevelThreadGroups() {
384         validateVM();
385         return state.topLevelThreadGroups();
386     }
387 
388     /*
389      * Sends a command to the back end which is defined to do an
390      * implicit vm-wide resume. The VM can no longer be considered
391      * suspended, so certain cached data must be invalidated.
392      */
sendResumingCommand(CommandSender sender)393     PacketStream sendResumingCommand(CommandSender sender) {
394         return state.thawCommand(sender);
395     }
396 
397     /*
398      * The VM has been suspended. Additional caching can be done
399      * as long as there are no pending resumes.
400      */
notifySuspend()401     void notifySuspend() {
402         state.freeze();
403     }
404 
suspend()405     public void suspend() {
406         validateVM();
407         try {
408             JDWP.VirtualMachine.Suspend.process(vm);
409         } catch (JDWPException exc) {
410             throw exc.toJDIException();
411         }
412         notifySuspend();
413     }
414 
resume()415     public void resume() {
416         validateVM();
417         CommandSender sender =
418             new CommandSender() {
419                 public PacketStream send() {
420                     return JDWP.VirtualMachine.Resume.enqueueCommand(vm);
421                 }
422         };
423         try {
424             PacketStream stream = state.thawCommand(sender);
425             JDWP.VirtualMachine.Resume.waitForReply(vm, stream);
426         } catch (VMDisconnectedException exc) {
427             /*
428              * If the debugger makes a VMDeathRequest with SUSPEND_ALL,
429              * then when it does an EventSet.resume after getting the
430              * VMDeathEvent, the normal flow of events is that the
431              * BE shuts down, but the waitForReply comes back ok.  In this
432              * case, the run loop in TargetVM that is waiting for a packet
433              * gets an EOF because the socket closes. It generates a
434              * VMDisconnectedEvent and everyone is happy.
435              * However, sometimes, the BE gets shutdown before this
436              * waitForReply completes.  In this case, TargetVM.waitForReply
437              * gets awakened with no reply and so gens a VMDisconnectedException
438              * which is not what we want.  It might be possible to fix this
439              * in the BE, but it is ok to just ignore the VMDisconnectedException
440              * here.  This will allow the VMDisconnectedEvent to be generated
441              * correctly.  And, if the debugger should happen to make another
442              * request, it will get a VMDisconnectedException at that time.
443              */
444         } catch (JDWPException exc) {
445             switch (exc.errorCode()) {
446                 case JDWP.Error.VM_DEAD:
447                     return;
448                 default:
449                     throw exc.toJDIException();
450             }
451         }
452     }
453 
eventQueue()454     public EventQueue eventQueue() {
455         /*
456          * No VM validation here. We allow access to the event queue
457          * after disconnection, so that there is access to the terminating
458          * events.
459          */
460         return eventQueue;
461     }
462 
eventRequestManager()463     public EventRequestManager eventRequestManager() {
464         validateVM();
465         return eventRequestManager;
466     }
467 
eventRequestManagerImpl()468     EventRequestManagerImpl eventRequestManagerImpl() {
469         return eventRequestManager;
470     }
471 
mirrorOf(boolean value)472     public BooleanValue mirrorOf(boolean value) {
473         validateVM();
474         return new BooleanValueImpl(this,value);
475     }
476 
mirrorOf(byte value)477     public ByteValue mirrorOf(byte value) {
478         validateVM();
479         return new ByteValueImpl(this,value);
480     }
481 
mirrorOf(char value)482     public CharValue mirrorOf(char value) {
483         validateVM();
484         return new CharValueImpl(this,value);
485     }
486 
mirrorOf(short value)487     public ShortValue mirrorOf(short value) {
488         validateVM();
489         return new ShortValueImpl(this,value);
490     }
491 
mirrorOf(int value)492     public IntegerValue mirrorOf(int value) {
493         validateVM();
494         return new IntegerValueImpl(this,value);
495     }
496 
mirrorOf(long value)497     public LongValue mirrorOf(long value) {
498         validateVM();
499         return new LongValueImpl(this,value);
500     }
501 
mirrorOf(float value)502     public FloatValue mirrorOf(float value) {
503         validateVM();
504         return new FloatValueImpl(this,value);
505     }
506 
mirrorOf(double value)507     public DoubleValue mirrorOf(double value) {
508         validateVM();
509         return new DoubleValueImpl(this,value);
510     }
511 
mirrorOf(String value)512     public StringReference mirrorOf(String value) {
513         validateVM();
514         try {
515             return (StringReference)JDWP.VirtualMachine.CreateString.
516                              process(vm, value).stringObject;
517         } catch (JDWPException exc) {
518             throw exc.toJDIException();
519         }
520     }
521 
mirrorOfVoid()522     public VoidValue mirrorOfVoid() {
523         if (voidVal == null) {
524             voidVal = new VoidValueImpl(this);
525         }
526         return voidVal;
527     }
528 
instanceCounts(List<? extends ReferenceType> classes)529     public long[] instanceCounts(List<? extends ReferenceType> classes) {
530         if (!canGetInstanceInfo()) {
531             throw new UnsupportedOperationException(
532                 "target does not support getting instances");
533         }
534         long[] retValue ;
535         ReferenceTypeImpl[] rtArray = new ReferenceTypeImpl[classes.size()];
536         int ii = 0;
537         for (ReferenceType rti: classes) {
538             validateMirror(rti);
539             rtArray[ii++] = (ReferenceTypeImpl)rti;
540         }
541         try {
542             retValue = JDWP.VirtualMachine.InstanceCounts.
543                                 process(vm, rtArray).counts;
544         } catch (JDWPException exc) {
545             throw exc.toJDIException();
546         }
547 
548         return retValue;
549     }
550 
dispose()551     public void dispose() {
552         validateVM();
553         shutdown = true;
554         try {
555             JDWP.VirtualMachine.Dispose.process(vm);
556         } catch (JDWPException exc) {
557             throw exc.toJDIException();
558         }
559         target.stopListening();
560     }
561 
exit(int exitCode)562     public void exit(int exitCode) {
563         validateVM();
564         shutdown = true;
565         try {
566             JDWP.VirtualMachine.Exit.process(vm, exitCode);
567         } catch (JDWPException exc) {
568             throw exc.toJDIException();
569         }
570         target.stopListening();
571     }
572 
process()573     public Process process() {
574         validateVM();
575         return process;
576     }
577 
versionInfo()578     private JDWP.VirtualMachine.Version versionInfo() {
579        try {
580            if (versionInfo == null) {
581                // Need not be synchronized since it is static information
582                versionInfo = JDWP.VirtualMachine.Version.process(vm);
583            }
584            return versionInfo;
585        } catch (JDWPException exc) {
586            throw exc.toJDIException();
587        }
588    }
description()589     public String description() {
590         validateVM();
591 
592         return MessageFormat.format(vmManager.getString("version_format"),
593                                     "" + vmManager.majorInterfaceVersion(),
594                                     "" + vmManager.minorInterfaceVersion(),
595                                      versionInfo().description);
596     }
597 
version()598     public String version() {
599         validateVM();
600         return versionInfo().vmVersion;
601     }
602 
name()603     public String name() {
604         validateVM();
605         return versionInfo().vmName;
606     }
607 
canWatchFieldModification()608     public boolean canWatchFieldModification() {
609         validateVM();
610         return capabilities().canWatchFieldModification;
611     }
canWatchFieldAccess()612     public boolean canWatchFieldAccess() {
613         validateVM();
614         return capabilities().canWatchFieldAccess;
615     }
canGetBytecodes()616     public boolean canGetBytecodes() {
617         validateVM();
618         return capabilities().canGetBytecodes;
619     }
canGetSyntheticAttribute()620     public boolean canGetSyntheticAttribute() {
621         validateVM();
622         return capabilities().canGetSyntheticAttribute;
623     }
canGetOwnedMonitorInfo()624     public boolean canGetOwnedMonitorInfo() {
625         validateVM();
626         return capabilities().canGetOwnedMonitorInfo;
627     }
canGetCurrentContendedMonitor()628     public boolean canGetCurrentContendedMonitor() {
629         validateVM();
630         return capabilities().canGetCurrentContendedMonitor;
631     }
canGetMonitorInfo()632     public boolean canGetMonitorInfo() {
633         validateVM();
634         return capabilities().canGetMonitorInfo;
635     }
636 
hasNewCapabilities()637     private boolean hasNewCapabilities() {
638         return versionInfo().jdwpMajor > 1 ||
639             versionInfo().jdwpMinor >= 4;
640     }
641 
canGet1_5LanguageFeatures()642     boolean canGet1_5LanguageFeatures() {
643         return versionInfo().jdwpMajor > 1 ||
644             versionInfo().jdwpMinor >= 5;
645     }
646 
canUseInstanceFilters()647     public boolean canUseInstanceFilters() {
648         validateVM();
649         return hasNewCapabilities() &&
650             capabilitiesNew().canUseInstanceFilters;
651     }
canRedefineClasses()652     public boolean canRedefineClasses() {
653         validateVM();
654         return hasNewCapabilities() &&
655             capabilitiesNew().canRedefineClasses;
656     }
canAddMethod()657     public boolean canAddMethod() {
658         validateVM();
659         return hasNewCapabilities() &&
660             capabilitiesNew().canAddMethod;
661     }
canUnrestrictedlyRedefineClasses()662     public boolean canUnrestrictedlyRedefineClasses() {
663         validateVM();
664         return hasNewCapabilities() &&
665             capabilitiesNew().canUnrestrictedlyRedefineClasses;
666     }
canPopFrames()667     public boolean canPopFrames() {
668         validateVM();
669         return hasNewCapabilities() &&
670             capabilitiesNew().canPopFrames;
671     }
canGetMethodReturnValues()672     public boolean canGetMethodReturnValues() {
673         return versionInfo().jdwpMajor > 1 ||
674             versionInfo().jdwpMinor >= 6;
675     }
canGetInstanceInfo()676     public boolean canGetInstanceInfo() {
677         if (versionInfo().jdwpMajor < 1 ||
678             versionInfo().jdwpMinor < 6) {
679             return false;
680         }
681         validateVM();
682         return hasNewCapabilities() &&
683             capabilitiesNew().canGetInstanceInfo;
684     }
canUseSourceNameFilters()685     public boolean canUseSourceNameFilters() {
686         if (versionInfo().jdwpMajor < 1 ||
687             versionInfo().jdwpMinor < 6) {
688             return false;
689         }
690         return true;
691     }
canForceEarlyReturn()692     public boolean canForceEarlyReturn() {
693         validateVM();
694         return hasNewCapabilities() &&
695             capabilitiesNew().canForceEarlyReturn;
696     }
canBeModified()697     public boolean canBeModified() {
698         return true;
699     }
canGetSourceDebugExtension()700     public boolean canGetSourceDebugExtension() {
701         validateVM();
702         return hasNewCapabilities() &&
703             capabilitiesNew().canGetSourceDebugExtension;
704     }
canGetClassFileVersion()705     public boolean canGetClassFileVersion() {
706         if ( versionInfo().jdwpMajor < 1 &&
707              versionInfo().jdwpMinor  < 6) {
708             return false;
709         } else {
710             return true;
711         }
712     }
canGetConstantPool()713     public boolean canGetConstantPool() {
714         validateVM();
715         return hasNewCapabilities() &&
716             capabilitiesNew().canGetConstantPool;
717     }
canRequestVMDeathEvent()718     public boolean canRequestVMDeathEvent() {
719         validateVM();
720         return hasNewCapabilities() &&
721             capabilitiesNew().canRequestVMDeathEvent;
722     }
canRequestMonitorEvents()723     public boolean canRequestMonitorEvents() {
724         validateVM();
725         return hasNewCapabilities() &&
726             capabilitiesNew().canRequestMonitorEvents;
727     }
canGetMonitorFrameInfo()728     public boolean canGetMonitorFrameInfo() {
729         validateVM();
730         return hasNewCapabilities() &&
731             capabilitiesNew().canGetMonitorFrameInfo;
732     }
733 
setDebugTraceMode(int traceFlags)734     public void setDebugTraceMode(int traceFlags) {
735         validateVM();
736         this.traceFlags = traceFlags;
737         this.traceReceives = (traceFlags & TRACE_RECEIVES) != 0;
738     }
739 
printTrace(String string)740     void printTrace(String string) {
741         System.err.println("[JDI: " + string + "]");
742     }
743 
printReceiveTrace(int depth, String string)744     void printReceiveTrace(int depth, String string) {
745         StringBuffer sb = new StringBuffer("Receiving:");
746         for (int i = depth; i > 0; --i) {
747             sb.append("    ");
748         }
749         sb.append(string);
750         printTrace(sb.toString());
751     }
752 
addReferenceType(long id, int tag, String signature)753     private synchronized ReferenceTypeImpl addReferenceType(long id,
754                                                        int tag,
755                                                        String signature) {
756         if (typesByID == null) {
757             initReferenceTypes();
758         }
759         ReferenceTypeImpl type = null;
760         switch(tag) {
761             case JDWP.TypeTag.CLASS:
762                 type = new ClassTypeImpl(vm, id);
763                 break;
764             case JDWP.TypeTag.INTERFACE:
765                 type = new InterfaceTypeImpl(vm, id);
766                 break;
767             case JDWP.TypeTag.ARRAY:
768                 type = new ArrayTypeImpl(vm, id);
769                 break;
770             default:
771                 throw new InternalException("Invalid reference type tag");
772         }
773 
774         /*
775          * If a signature was specified, make sure to set it ASAP, to
776          * prevent any needless JDWP command to retrieve it. (for example,
777          * typesBySignature.add needs the signature, to maintain proper
778          * ordering.
779          */
780         if (signature != null) {
781             type.setSignature(signature);
782         }
783 
784         typesByID.put(new Long(id), type);
785         typesBySignature.add(type);
786 
787         if ((vm.traceFlags & VirtualMachine.TRACE_REFTYPES) != 0) {
788            vm.printTrace("Caching new ReferenceType, sig=" + signature +
789                          ", id=" + id);
790         }
791 
792         return type;
793     }
794 
removeReferenceType(String signature)795     synchronized void removeReferenceType(String signature) {
796         if (typesByID == null) {
797             return;
798         }
799         /*
800          * There can be multiple classes with the same name. Since
801          * we can't differentiate here, we first remove all
802          * matching classes from our cache...
803          */
804         Iterator<ReferenceType> iter = typesBySignature.iterator();
805         int matches = 0;
806         while (iter.hasNext()) {
807             ReferenceTypeImpl type = (ReferenceTypeImpl)iter.next();
808             int comp = signature.compareTo(type.signature());
809             if (comp == 0) {
810                 matches++;
811                 iter.remove();
812                 typesByID.remove(new Long(type.ref()));
813                 if ((vm.traceFlags & VirtualMachine.TRACE_REFTYPES) != 0) {
814                    vm.printTrace("Uncaching ReferenceType, sig=" + signature +
815                                  ", id=" + type.ref());
816                 }
817 /* fix for 4359077 , don't break out. list is no longer sorted
818         in the order we think
819  */
820             }
821         }
822 
823         /*
824          * ...and if there was more than one, re-retrieve the classes
825          * with that name
826          */
827         if (matches > 1) {
828             retrieveClassesBySignature(signature);
829         }
830     }
831 
findReferenceTypes(String signature)832     private synchronized List<ReferenceType> findReferenceTypes(String signature) {
833         if (typesByID == null) {
834             return new ArrayList<ReferenceType>(0);
835         }
836         Iterator<ReferenceType> iter = typesBySignature.iterator();
837         List<ReferenceType> list = new ArrayList<ReferenceType>();
838         while (iter.hasNext()) {
839             ReferenceTypeImpl type = (ReferenceTypeImpl)iter.next();
840             int comp = signature.compareTo(type.signature());
841             if (comp == 0) {
842                 list.add(type);
843 /* fix for 4359077 , don't break out. list is no longer sorted
844         in the order we think
845  */
846             }
847         }
848         return list;
849     }
850 
initReferenceTypes()851     private void initReferenceTypes() {
852         typesByID = new HashMap<Long, ReferenceType>(300);
853         typesBySignature = new TreeSet<ReferenceType>();
854     }
855 
referenceType(long ref, byte tag)856     ReferenceTypeImpl referenceType(long ref, byte tag) {
857         return referenceType(ref, tag, null);
858     }
859 
classType(long ref)860     ClassTypeImpl classType(long ref) {
861         return (ClassTypeImpl)referenceType(ref, JDWP.TypeTag.CLASS, null);
862     }
863 
interfaceType(long ref)864     InterfaceTypeImpl interfaceType(long ref) {
865         return (InterfaceTypeImpl)referenceType(ref, JDWP.TypeTag.INTERFACE, null);
866     }
867 
arrayType(long ref)868     ArrayTypeImpl arrayType(long ref) {
869         return (ArrayTypeImpl)referenceType(ref, JDWP.TypeTag.ARRAY, null);
870     }
871 
referenceType(long id, int tag, String signature)872     ReferenceTypeImpl referenceType(long id, int tag,
873                                                  String signature) {
874         if ((vm.traceFlags & VirtualMachine.TRACE_REFTYPES) != 0) {
875             StringBuffer sb = new StringBuffer();
876             sb.append("Looking up ");
877             if (tag == JDWP.TypeTag.CLASS) {
878                 sb.append("Class");
879             } else if (tag == JDWP.TypeTag.INTERFACE) {
880                 sb.append("Interface");
881             } else if (tag == JDWP.TypeTag.ARRAY) {
882                 sb.append("ArrayType");
883             } else {
884                 sb.append("UNKNOWN TAG: " + tag);
885             }
886             if (signature != null) {
887                 sb.append(", signature='" + signature + "'");
888             }
889             sb.append(", id=" + id);
890             vm.printTrace(sb.toString());
891         }
892         if (id == 0) {
893             return null;
894         } else {
895             ReferenceTypeImpl retType = null;
896             synchronized (this) {
897                 if (typesByID != null) {
898                     retType = (ReferenceTypeImpl)typesByID.get(new Long(id));
899                 }
900                 if (retType == null) {
901                     retType = addReferenceType(id, tag, signature);
902                 }
903             }
904             return retType;
905         }
906     }
907 
capabilities()908     private JDWP.VirtualMachine.Capabilities capabilities() {
909         if (capabilities == null) {
910             try {
911                 capabilities = JDWP.VirtualMachine
912                                  .Capabilities.process(vm);
913             } catch (JDWPException exc) {
914                 throw exc.toJDIException();
915             }
916         }
917         return capabilities;
918     }
919 
capabilitiesNew()920     private JDWP.VirtualMachine.CapabilitiesNew capabilitiesNew() {
921         if (capabilitiesNew == null) {
922             try {
923                 capabilitiesNew = JDWP.VirtualMachine
924                                  .CapabilitiesNew.process(vm);
925             } catch (JDWPException exc) {
926                 throw exc.toJDIException();
927             }
928         }
929         return capabilitiesNew;
930     }
931 
retrieveClassesBySignature(String signature)932     private List<ReferenceType> retrieveClassesBySignature(String signature) {
933         if ((vm.traceFlags & VirtualMachine.TRACE_REFTYPES) != 0) {
934             vm.printTrace("Retrieving matching ReferenceTypes, sig=" + signature);
935         }
936         JDWP.VirtualMachine.ClassesBySignature.ClassInfo[] cinfos;
937         try {
938             cinfos = JDWP.VirtualMachine.ClassesBySignature.
939                                       process(vm, signature).classes;
940         } catch (JDWPException exc) {
941             throw exc.toJDIException();
942         }
943 
944         int count = cinfos.length;
945         List<ReferenceType> list = new ArrayList<ReferenceType>(count);
946 
947         // Hold lock during processing to improve performance
948         synchronized (this) {
949             for (int i = 0; i < count; i++) {
950                 JDWP.VirtualMachine.ClassesBySignature.ClassInfo ci =
951                                                                cinfos[i];
952                 ReferenceTypeImpl type = referenceType(ci.typeID,
953                                                        ci.refTypeTag,
954                                                        signature);
955                 type.setStatus(ci.status);
956                 list.add(type);
957             }
958         }
959         return list;
960     }
961 
retrieveAllClasses1_4()962     private void retrieveAllClasses1_4() {
963         JDWP.VirtualMachine.AllClasses.ClassInfo[] cinfos;
964         try {
965             cinfos = JDWP.VirtualMachine.AllClasses.process(vm).classes;
966         } catch (JDWPException exc) {
967             throw exc.toJDIException();
968         }
969 
970         // Hold lock during processing to improve performance
971         // and to have safe check/set of retrievedAllTypes
972         synchronized (this) {
973             if (!retrievedAllTypes) {
974                 // Number of classes
975                 int count = cinfos.length;
976                 for (int i=0; i<count; i++) {
977                     JDWP.VirtualMachine.AllClasses.ClassInfo ci =
978                                                                cinfos[i];
979                     ReferenceTypeImpl type = referenceType(ci.typeID,
980                                                            ci.refTypeTag,
981                                                            ci.signature);
982                     type.setStatus(ci.status);
983                 }
984                 retrievedAllTypes = true;
985             }
986         }
987     }
988 
retrieveAllClasses()989     private void retrieveAllClasses() {
990         if ((vm.traceFlags & VirtualMachine.TRACE_REFTYPES) != 0) {
991             vm.printTrace("Retrieving all ReferenceTypes");
992         }
993 
994         if (!vm.canGet1_5LanguageFeatures()) {
995             retrieveAllClasses1_4();
996             return;
997         }
998 
999         /*
1000          * To save time (assuming the caller will be
1001          * using then) we will get the generic sigs too.
1002          */
1003 
1004         JDWP.VirtualMachine.AllClassesWithGeneric.ClassInfo[] cinfos;
1005         try {
1006             cinfos = JDWP.VirtualMachine.AllClassesWithGeneric.process(vm).classes;
1007         } catch (JDWPException exc) {
1008             throw exc.toJDIException();
1009         }
1010 
1011         // Hold lock during processing to improve performance
1012         // and to have safe check/set of retrievedAllTypes
1013         synchronized (this) {
1014             if (!retrievedAllTypes) {
1015                 // Number of classes
1016                 int count = cinfos.length;
1017                 for (int i=0; i<count; i++) {
1018                     JDWP.VirtualMachine.AllClassesWithGeneric.ClassInfo ci =
1019                                                                cinfos[i];
1020                     ReferenceTypeImpl type = referenceType(ci.typeID,
1021                                                            ci.refTypeTag,
1022                                                            ci.signature);
1023                     type.setGenericSignature(ci.genericSignature);
1024                     type.setStatus(ci.status);
1025                 }
1026                 retrievedAllTypes = true;
1027             }
1028         }
1029     }
1030 
sendToTarget(Packet packet)1031     void sendToTarget(Packet packet) {
1032         target.send(packet);
1033     }
1034 
waitForTargetReply(Packet packet)1035     void waitForTargetReply(Packet packet) {
1036         target.waitForReply(packet);
1037         /*
1038          * If any object disposes have been batched up, send them now.
1039          */
1040         processBatchedDisposes();
1041     }
1042 
findBootType(String signature)1043     Type findBootType(String signature) throws ClassNotLoadedException {
1044         List<ReferenceType> types = retrieveClassesBySignature(signature);
1045         Iterator<ReferenceType> iter = types.iterator();
1046         while (iter.hasNext()) {
1047             ReferenceType type = iter.next();
1048             if (type.classLoader() == null) {
1049                 return type;
1050             }
1051         }
1052         JNITypeParser parser = new JNITypeParser(signature);
1053         throw new ClassNotLoadedException(parser.typeName(),
1054                                          "Type " + parser.typeName() + " not loaded");
1055     }
1056 
theBooleanType()1057     BooleanType theBooleanType() {
1058         if (theBooleanType == null) {
1059             synchronized(this) {
1060                 if (theBooleanType == null) {
1061                     theBooleanType = new BooleanTypeImpl(this);
1062                 }
1063             }
1064         }
1065         return theBooleanType;
1066     }
1067 
theByteType()1068     ByteType theByteType() {
1069         if (theByteType == null) {
1070             synchronized(this) {
1071                 if (theByteType == null) {
1072                     theByteType = new ByteTypeImpl(this);
1073                 }
1074             }
1075         }
1076         return theByteType;
1077     }
1078 
theCharType()1079     CharType theCharType() {
1080         if (theCharType == null) {
1081             synchronized(this) {
1082                 if (theCharType == null) {
1083                     theCharType = new CharTypeImpl(this);
1084                 }
1085             }
1086         }
1087         return theCharType;
1088     }
1089 
theShortType()1090     ShortType theShortType() {
1091         if (theShortType == null) {
1092             synchronized(this) {
1093                 if (theShortType == null) {
1094                     theShortType = new ShortTypeImpl(this);
1095                 }
1096             }
1097         }
1098         return theShortType;
1099     }
1100 
theIntegerType()1101     IntegerType theIntegerType() {
1102         if (theIntegerType == null) {
1103             synchronized(this) {
1104                 if (theIntegerType == null) {
1105                     theIntegerType = new IntegerTypeImpl(this);
1106                 }
1107             }
1108         }
1109         return theIntegerType;
1110     }
1111 
theLongType()1112     LongType theLongType() {
1113         if (theLongType == null) {
1114             synchronized(this) {
1115                 if (theLongType == null) {
1116                     theLongType = new LongTypeImpl(this);
1117                 }
1118             }
1119         }
1120         return theLongType;
1121     }
1122 
theFloatType()1123     FloatType theFloatType() {
1124         if (theFloatType == null) {
1125             synchronized(this) {
1126                 if (theFloatType == null) {
1127                     theFloatType = new FloatTypeImpl(this);
1128                 }
1129             }
1130         }
1131         return theFloatType;
1132     }
1133 
theDoubleType()1134     DoubleType theDoubleType() {
1135         if (theDoubleType == null) {
1136             synchronized(this) {
1137                 if (theDoubleType == null) {
1138                     theDoubleType = new DoubleTypeImpl(this);
1139                 }
1140             }
1141         }
1142         return theDoubleType;
1143     }
1144 
theVoidType()1145     VoidType theVoidType() {
1146         if (theVoidType == null) {
1147             synchronized(this) {
1148                 if (theVoidType == null) {
1149                     theVoidType = new VoidTypeImpl(this);
1150                 }
1151             }
1152         }
1153         return theVoidType;
1154     }
1155 
primitiveTypeMirror(byte tag)1156     PrimitiveType primitiveTypeMirror(byte tag) {
1157         switch (tag) {
1158             case JDWP.Tag.BOOLEAN:
1159                 return theBooleanType();
1160             case JDWP.Tag.BYTE:
1161                 return theByteType();
1162             case JDWP.Tag.CHAR:
1163                 return theCharType();
1164             case JDWP.Tag.SHORT:
1165                 return theShortType();
1166             case JDWP.Tag.INT:
1167                 return theIntegerType();
1168             case JDWP.Tag.LONG:
1169                 return theLongType();
1170             case JDWP.Tag.FLOAT:
1171                 return theFloatType();
1172             case JDWP.Tag.DOUBLE:
1173                 return theDoubleType();
1174             default:
1175                 throw new IllegalArgumentException("Unrecognized primitive tag " + tag);
1176         }
1177     }
1178 
processBatchedDisposes()1179     private void processBatchedDisposes() {
1180         if (shutdown) {
1181             return;
1182         }
1183 
1184         JDWP.VirtualMachine.DisposeObjects.Request[] requests = null;
1185         synchronized(batchedDisposeRequests) {
1186             int size = batchedDisposeRequests.size();
1187             if (size >= DISPOSE_THRESHOLD) {
1188                 if ((traceFlags & TRACE_OBJREFS) != 0) {
1189                     printTrace("Dispose threashold reached. Will dispose "
1190                                + size + " object references...");
1191                 }
1192                 requests = new JDWP.VirtualMachine.DisposeObjects.Request[size];
1193                 for (int i = 0; i < requests.length; i++) {
1194                     SoftObjectReference ref = batchedDisposeRequests.get(i);
1195                     if ((traceFlags & TRACE_OBJREFS) != 0) {
1196                         printTrace("Disposing object " + ref.key().longValue() +
1197                                    " (ref count = " + ref.count() + ")");
1198                     }
1199 
1200                     // This is kludgy. We temporarily re-create an object
1201                     // reference so that we can correctly pass its id to the
1202                     // JDWP command.
1203                     requests[i] =
1204                         new JDWP.VirtualMachine.DisposeObjects.Request(
1205                             new ObjectReferenceImpl(this, ref.key().longValue()),
1206                             ref.count());
1207                 }
1208                 batchedDisposeRequests.clear();
1209             }
1210         }
1211         if (requests != null) {
1212             try {
1213                 JDWP.VirtualMachine.DisposeObjects.process(vm, requests);
1214             } catch (JDWPException exc) {
1215                 throw exc.toJDIException();
1216             }
1217         }
1218     }
1219 
batchForDispose(SoftObjectReference ref)1220     private void batchForDispose(SoftObjectReference ref) {
1221         if ((traceFlags & TRACE_OBJREFS) != 0) {
1222             printTrace("Batching object " + ref.key().longValue() +
1223                        " for dispose (ref count = " + ref.count() + ")");
1224         }
1225         batchedDisposeRequests.add(ref);
1226     }
1227 
processQueue()1228     private void processQueue() {
1229         Reference<?> ref;
1230         //if ((traceFlags & TRACE_OBJREFS) != 0) {
1231         //    printTrace("Checking for softly reachable objects");
1232         //}
1233         while ((ref = referenceQueue.poll()) != null) {
1234             SoftObjectReference softRef = (SoftObjectReference)ref;
1235             removeObjectMirror(softRef);
1236             batchForDispose(softRef);
1237         }
1238     }
1239 
objectMirror(long id, int tag)1240     synchronized ObjectReferenceImpl objectMirror(long id, int tag) {
1241 
1242         // Handle any queue elements that are not strongly reachable
1243         processQueue();
1244 
1245         if (id == 0) {
1246             return null;
1247         }
1248         ObjectReferenceImpl object = null;
1249         Long key = new Long(id);
1250 
1251         /*
1252          * Attempt to retrieve an existing object object reference
1253          */
1254         SoftObjectReference ref = objectsByID.get(key);
1255         if (ref != null) {
1256             object = ref.object();
1257         }
1258 
1259         /*
1260          * If the object wasn't in the table, or it's soft reference was
1261          * cleared, create a new instance.
1262          */
1263         if (object == null) {
1264             switch (tag) {
1265                 case JDWP.Tag.OBJECT:
1266                     object = new ObjectReferenceImpl(vm, id);
1267                     break;
1268                 case JDWP.Tag.STRING:
1269                     object = new StringReferenceImpl(vm, id);
1270                     break;
1271                 case JDWP.Tag.ARRAY:
1272                     object = new ArrayReferenceImpl(vm, id);
1273                     break;
1274                 case JDWP.Tag.THREAD:
1275                     ThreadReferenceImpl thread =
1276                         new ThreadReferenceImpl(vm, id);
1277                     thread.addListener(this);
1278                     object = thread;
1279                     break;
1280                 case JDWP.Tag.THREAD_GROUP:
1281                     object = new ThreadGroupReferenceImpl(vm, id);
1282                     break;
1283                 case JDWP.Tag.CLASS_LOADER:
1284                     object = new ClassLoaderReferenceImpl(vm, id);
1285                     break;
1286                 case JDWP.Tag.CLASS_OBJECT:
1287                     object = new ClassObjectReferenceImpl(vm, id);
1288                     break;
1289                 default:
1290                     throw new IllegalArgumentException("Invalid object tag: " + tag);
1291             }
1292             ref = new SoftObjectReference(key, object, referenceQueue);
1293 
1294             /*
1295              * If there was no previous entry in the table, we add one here
1296              * If the previous entry was cleared, we replace it here.
1297              */
1298             objectsByID.put(key, ref);
1299             if ((traceFlags & TRACE_OBJREFS) != 0) {
1300                 printTrace("Creating new " +
1301                            object.getClass().getName() + " (id = " + id + ")");
1302             }
1303         } else {
1304             ref.incrementCount();
1305         }
1306 
1307         return object;
1308     }
1309 
removeObjectMirror(ObjectReferenceImpl object)1310     synchronized void removeObjectMirror(ObjectReferenceImpl object) {
1311 
1312         // Handle any queue elements that are not strongly reachable
1313         processQueue();
1314 
1315         SoftObjectReference ref = objectsByID.remove(new Long(object.ref()));
1316         if (ref != null) {
1317             batchForDispose(ref);
1318         } else {
1319             /*
1320              * If there's a live ObjectReference about, it better be part
1321              * of the cache.
1322              */
1323             throw new InternalException("ObjectReference " + object.ref() +
1324                                         " not found in object cache");
1325         }
1326     }
1327 
removeObjectMirror(SoftObjectReference ref)1328     synchronized void removeObjectMirror(SoftObjectReference ref) {
1329         /*
1330          * This will remove the soft reference if it has not been
1331          * replaced in the cache.
1332          */
1333         objectsByID.remove(ref.key());
1334     }
1335 
objectMirror(long id)1336     ObjectReferenceImpl objectMirror(long id) {
1337         return objectMirror(id, JDWP.Tag.OBJECT);
1338     }
1339 
stringMirror(long id)1340     StringReferenceImpl stringMirror(long id) {
1341         return (StringReferenceImpl)objectMirror(id, JDWP.Tag.STRING);
1342     }
1343 
arrayMirror(long id)1344     ArrayReferenceImpl arrayMirror(long id) {
1345        return (ArrayReferenceImpl)objectMirror(id, JDWP.Tag.ARRAY);
1346     }
1347 
threadMirror(long id)1348     ThreadReferenceImpl threadMirror(long id) {
1349         return (ThreadReferenceImpl)objectMirror(id, JDWP.Tag.THREAD);
1350     }
1351 
threadGroupMirror(long id)1352     ThreadGroupReferenceImpl threadGroupMirror(long id) {
1353         return (ThreadGroupReferenceImpl)objectMirror(id,
1354                                                       JDWP.Tag.THREAD_GROUP);
1355     }
1356 
classLoaderMirror(long id)1357     ClassLoaderReferenceImpl classLoaderMirror(long id) {
1358         return (ClassLoaderReferenceImpl)objectMirror(id,
1359                                                       JDWP.Tag.CLASS_LOADER);
1360     }
1361 
classObjectMirror(long id)1362     ClassObjectReferenceImpl classObjectMirror(long id) {
1363         return (ClassObjectReferenceImpl)objectMirror(id,
1364                                                       JDWP.Tag.CLASS_OBJECT);
1365     }
1366 
1367     /*
1368      * Implementation of PathSearchingVirtualMachine
1369      */
getClasspath()1370     private JDWP.VirtualMachine.ClassPaths getClasspath() {
1371         if (pathInfo == null) {
1372             try {
1373                 pathInfo = JDWP.VirtualMachine.ClassPaths.process(vm);
1374             } catch (JDWPException exc) {
1375                 throw exc.toJDIException();
1376             }
1377         }
1378         return pathInfo;
1379     }
1380 
classPath()1381    public List<String> classPath() {
1382        return Arrays.asList(getClasspath().classpaths);
1383    }
1384 
bootClassPath()1385    public List<String> bootClassPath() {
1386        return Arrays.asList(getClasspath().bootclasspaths);
1387    }
1388 
baseDirectory()1389    public String baseDirectory() {
1390        return getClasspath().baseDir;
1391    }
1392 
setDefaultStratum(String stratum)1393     public void setDefaultStratum(String stratum) {
1394         defaultStratum = stratum;
1395         if (stratum == null) {
1396             stratum = "";
1397         }
1398         try {
1399             JDWP.VirtualMachine.SetDefaultStratum.process(vm,
1400                                                           stratum);
1401         } catch (JDWPException exc) {
1402             throw exc.toJDIException();
1403         }
1404     }
1405 
getDefaultStratum()1406     public String getDefaultStratum() {
1407         return defaultStratum;
1408     }
1409 
threadGroupForJDI()1410     ThreadGroup threadGroupForJDI() {
1411         return threadGroupForJDI;
1412     }
1413 
1414    static private class SoftObjectReference extends SoftReference<ObjectReferenceImpl> {
1415        int count;
1416        Long key;
1417 
SoftObjectReference(Long key, ObjectReferenceImpl mirror, ReferenceQueue<ObjectReferenceImpl> queue)1418        SoftObjectReference(Long key, ObjectReferenceImpl mirror,
1419                            ReferenceQueue<ObjectReferenceImpl> queue) {
1420            super(mirror, queue);
1421            this.count = 1;
1422            this.key = key;
1423        }
1424 
count()1425        int count() {
1426            return count;
1427        }
1428 
incrementCount()1429        void incrementCount() {
1430            count++;
1431        }
1432 
key()1433        Long key() {
1434            return key;
1435        }
1436 
object()1437        ObjectReferenceImpl object() {
1438            return get();
1439        }
1440    }
1441 }
1442