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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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
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package com.sun.tools.jdi;

import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;

import com.sun.jdi.ClassNotLoadedException;
import com.sun.jdi.IncompatibleThreadStateException;
import com.sun.jdi.InternalException;
import com.sun.jdi.InvalidStackFrameException;
import com.sun.jdi.InvalidTypeException;
import com.sun.jdi.Location;
import com.sun.jdi.MonitorInfo;
import com.sun.jdi.NativeMethodException;
import com.sun.jdi.ObjectReference;
import com.sun.jdi.ReferenceType;
import com.sun.jdi.StackFrame;
import com.sun.jdi.ThreadGroupReference;
import com.sun.jdi.ThreadReference;
import com.sun.jdi.Value;
import com.sun.jdi.VirtualMachine;
import com.sun.jdi.request.BreakpointRequest;

public class ThreadReferenceImpl extends ObjectReferenceImpl
                                 implements ThreadReference {
    static final int SUSPEND_STATUS_SUSPENDED = 0x1;
    static final int SUSPEND_STATUS_BREAK = 0x2;

    private int suspendedZombieCount = 0;

    /*
     * Some objects can only be created while a thread is suspended and are valid
     * only while the thread remains suspended.  Examples are StackFrameImpl
     * and MonitorInfoImpl.  When the thread resumes, these objects have to be
     * marked as invalid so that their methods can throw
     * InvalidStackFrameException if they are called.  To do this, such objects
     * register themselves as listeners of the associated thread.  When the
     * thread is resumed, its listeners are notified and mark themselves
     * invalid.
     * Also, note that ThreadReferenceImpl itself caches some info that
     * is valid only as long as the thread is suspended.  When the thread
     * is resumed, that cache must be purged.
     * Lastly, note that ThreadReferenceImpl and its super, ObjectReferenceImpl
     * cache some info that is only valid as long as the entire VM is suspended.
     * If _any_ thread is resumed, this cache must be purged.  To handle this,
     * both ThreadReferenceImpl and ObjectReferenceImpl register themselves as
     * VMListeners so that they get notified when all threads are suspended and
     * when any thread is resumed.
     */

    // This is cached for the life of the thread
    private ThreadGroupReference threadGroup;

    // This is cached only while this one thread is suspended.  Each time
    // the thread is resumed, we abandon the current cache object and
    // create a new initialized one.
    private static class LocalCache {
        JDWP.ThreadReference.Status status = null;
        List<StackFrame> frames = null;
        int framesStart = -1;
        int framesLength = 0;
        int frameCount = -1;
        List<ObjectReference> ownedMonitors = null;
        List<MonitorInfo> ownedMonitorsInfo = null;
        ObjectReference contendedMonitor = null;
        boolean triedCurrentContended = false;
    }

    /*
     * The localCache instance var is set by resetLocalCache to an initialized
     * object as shown above.  This occurs when the ThreadReference
     * object is created, and when the mirrored thread is resumed.
     * The fields are then filled in by the relevant methods as they
     * are called.  A problem can occur if resetLocalCache is called
     * (ie, a resume() is executed) at certain points in the execution
     * of some of these methods - see 6751643.  To avoid this, each
     * method that wants to use this cache must make a local copy of
     * this variable and use that.  This means that each invocation of
     * these methods will use a copy of the cache object that was in
     * effect at the point that the copy was made; if a racy resume
     * occurs, it won't affect the method's local copy.  This means that
     * the values returned by these calls may not match the state of
     * the debuggee at the time the caller gets the values.  EG,
     * frameCount() is called and comes up with 5 frames.  But before
     * it returns this, a resume of the debuggee thread is executed in a
     * different debugger thread.  The thread is resumed and running at
     * the time that the value 5 is returned.  Or even worse, the thread
     * could be suspended again and have a different number of frames, eg, 24,
     * but this call will still return 5.
     */
    private LocalCache localCache;

    private void resetLocalCache() {
        localCache = new LocalCache();
    }

    // This is cached only while all threads in the VM are suspended
    // Yes, someone could change the name of a thread while it is suspended.
    private static class Cache extends ObjectReferenceImpl.Cache {
        String name = null;
    }
    protected ObjectReferenceImpl.Cache newCache() {
        return new Cache();
    }

    // Listeners - synchronized on vm.state()
    private List<WeakReference<ThreadListener>> listeners = new ArrayList<>();

    ThreadReferenceImpl(VirtualMachine aVm, long aRef) {
        super(aVm, aRef);
        resetLocalCache();
        vm.state().addListener(this);
    }

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

    /*
     * VMListener implementation
     */
    public boolean vmNotSuspended(VMAction action) {
        if (action.resumingThread() == null) {
            // all threads are being resumed
            synchronized (vm.state()) {
                processThreadAction(new ThreadAction(this,
                                            ThreadAction.THREAD_RESUMABLE));
            }

        }

        /*
         * Othewise, only one thread is being resumed:
         *   if it is us,
         *      we have already done our processThreadAction to notify our
         *      listeners when we processed the resume.
         *   if it is not us,
         *      we don't want to notify our listeners
         *       because we are not being resumed.
         */
        return super.vmNotSuspended(action);
    }

    
Note that we only cache the name string while the entire VM is suspended because the name can change via Thread.setName arbitrarily while this thread is running.
/** * Note that we only cache the name string while the entire VM is suspended * because the name can change via Thread.setName arbitrarily while this * thread is running. */
public String name() { String name = null; try { Cache local = (Cache)getCache(); if (local != null) { name = local.name; } if (name == null) { name = JDWP.ThreadReference.Name.process(vm, this).threadName; if (local != null) { local.name = name; } } } catch (JDWPException exc) { throw exc.toJDIException(); } return name; } /* * Sends a command to the back end which is defined to do an * implicit vm-wide resume. */ PacketStream sendResumingCommand(CommandSender sender) { synchronized (vm.state()) { processThreadAction(new ThreadAction(this, ThreadAction.THREAD_RESUMABLE)); return sender.send(); } } public void suspend() { try { JDWP.ThreadReference.Suspend.process(vm, this); } catch (JDWPException exc) { throw exc.toJDIException(); } // Don't consider the thread suspended yet. On reply, notifySuspend() // will be called. } public void resume() { /* * If it's a zombie, we can just update internal state without * going to back end. */ if (suspendedZombieCount > 0) { suspendedZombieCount--; return; } PacketStream stream; synchronized (vm.state()) { processThreadAction(new ThreadAction(this, ThreadAction.THREAD_RESUMABLE)); stream = JDWP.ThreadReference.Resume.enqueueCommand(vm, this); } try { JDWP.ThreadReference.Resume.waitForReply(vm, stream); } catch (JDWPException exc) { throw exc.toJDIException(); } } public int suspendCount() { /* * If it's a zombie, we maintain the count in the front end. */ if (suspendedZombieCount > 0) { return suspendedZombieCount; } try { return JDWP.ThreadReference.SuspendCount.process(vm, this).suspendCount; } catch (JDWPException exc) { throw exc.toJDIException(); } } public void stop(ObjectReference throwable) throws InvalidTypeException { validateMirrorOrNull(throwable); // Verify that the given object is a Throwable instance List<ReferenceType> list = vm.classesByName("java.lang.Throwable"); ClassTypeImpl throwableClass = (ClassTypeImpl)list.get(0); if ((throwable == null) || !throwableClass.isAssignableFrom(throwable)) { throw new InvalidTypeException("Not an instance of Throwable"); } try { JDWP.ThreadReference.Stop.process(vm, this, (ObjectReferenceImpl)throwable); } catch (JDWPException exc) { throw exc.toJDIException(); } } public void interrupt() { try { JDWP.ThreadReference.Interrupt.process(vm, this); } catch (JDWPException exc) { throw exc.toJDIException(); } } private JDWP.ThreadReference.Status jdwpStatus() { LocalCache snapshot = localCache; JDWP.ThreadReference.Status myStatus = snapshot.status; try { if (myStatus == null) { myStatus = JDWP.ThreadReference.Status.process(vm, this); if ((myStatus.suspendStatus & SUSPEND_STATUS_SUSPENDED) != 0) { // thread is suspended, we can cache the status. snapshot.status = myStatus; } } } catch (JDWPException exc) { throw exc.toJDIException(); } return myStatus; } public int status() { return jdwpStatus().threadStatus; } public boolean isSuspended() { return ((suspendedZombieCount > 0) || ((jdwpStatus().suspendStatus & SUSPEND_STATUS_SUSPENDED) != 0)); } public boolean isAtBreakpoint() { /* * TO DO: This fails to take filters into account. */ try { StackFrame frame = frame(0); Location location = frame.location(); List<BreakpointRequest> requests = vm.eventRequestManager().breakpointRequests(); Iterator<BreakpointRequest> iter = requests.iterator(); while (iter.hasNext()) { BreakpointRequest request = iter.next(); if (location.equals(request.location())) { return true; } } return false; } catch (IndexOutOfBoundsException iobe) { return false; // no frames on stack => not at breakpoint } catch (IncompatibleThreadStateException itse) { // Per the javadoc, not suspended => return false return false; } } public ThreadGroupReference threadGroup() { /* * Thread group can't change, so it's cached once and for all. */ if (threadGroup == null) { try { threadGroup = JDWP.ThreadReference.ThreadGroup. process(vm, this).group; } catch (JDWPException exc) { throw exc.toJDIException(); } } return threadGroup; } public int frameCount() throws IncompatibleThreadStateException { LocalCache snapshot = localCache; try { if (snapshot.frameCount == -1) { snapshot.frameCount = JDWP.ThreadReference.FrameCount .process(vm, this).frameCount; } } catch (JDWPException exc) { switch (exc.errorCode()) { case JDWP.Error.THREAD_NOT_SUSPENDED: case JDWP.Error.INVALID_THREAD: /* zombie */ throw new IncompatibleThreadStateException(); default: throw exc.toJDIException(); } } return snapshot.frameCount; } public List<StackFrame> frames() throws IncompatibleThreadStateException { return privateFrames(0, -1); } public StackFrame frame(int index) throws IncompatibleThreadStateException { List<StackFrame> list = privateFrames(index, 1); return list.get(0); }
Is the requested subrange within what has been retrieved? local is known to be non-null. Should only be called from a sync method.
/** * Is the requested subrange within what has been retrieved? * local is known to be non-null. Should only be called from * a sync method. */
private boolean isSubrange(LocalCache snapshot, int start, int length) { if (start < snapshot.framesStart) { return false; } if (length == -1) { return (snapshot.framesLength == -1); } if (snapshot.framesLength == -1) { if ((start + length) > (snapshot.framesStart + snapshot.frames.size())) { throw new IndexOutOfBoundsException(); } return true; } return ((start + length) <= (snapshot.framesStart + snapshot.framesLength)); } public List<StackFrame> frames(int start, int length) throws IncompatibleThreadStateException { if (length < 0) { throw new IndexOutOfBoundsException( "length must be greater than or equal to zero"); } return privateFrames(start, length); }
Private version of frames() allows "-1" to specify all remaining frames.
/** * Private version of frames() allows "-1" to specify all * remaining frames. */
synchronized private List<StackFrame> privateFrames(int start, int length) throws IncompatibleThreadStateException { // Lock must be held while creating stack frames so if that two threads // do this at the same time, one won't clobber the subset created by the other. LocalCache snapshot = localCache; try { if (snapshot.frames == null || !isSubrange(snapshot, start, length)) { JDWP.ThreadReference.Frames.Frame[] jdwpFrames = JDWP.ThreadReference.Frames. process(vm, this, start, length).frames; int count = jdwpFrames.length; snapshot.frames = new ArrayList<>(count); for (int i = 0; i<count; i++) { if (jdwpFrames[i].location == null) { throw new InternalException("Invalid frame location"); } StackFrame frame = new StackFrameImpl(vm, this, jdwpFrames[i].frameID, jdwpFrames[i].location); // Add to the frame list snapshot.frames.add(frame); } snapshot.framesStart = start; snapshot.framesLength = length; return Collections.unmodifiableList(snapshot.frames); } else { int fromIndex = start - snapshot.framesStart; int toIndex; if (length == -1) { toIndex = snapshot.frames.size() - fromIndex; } else { toIndex = fromIndex + length; } return Collections.unmodifiableList(snapshot.frames.subList(fromIndex, toIndex)); } } catch (JDWPException exc) { switch (exc.errorCode()) { case JDWP.Error.THREAD_NOT_SUSPENDED: case JDWP.Error.INVALID_THREAD: /* zombie */ throw new IncompatibleThreadStateException(); default: throw exc.toJDIException(); } } } public List<ObjectReference> ownedMonitors() throws IncompatibleThreadStateException { LocalCache snapshot = localCache; try { if (snapshot.ownedMonitors == null) { snapshot.ownedMonitors = Arrays.asList( (ObjectReference[])JDWP.ThreadReference.OwnedMonitors. process(vm, this).owned); if ((vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0) { vm.printTrace(description() + " temporarily caching owned monitors"+ " (count = " + snapshot.ownedMonitors.size() + ")"); } } } catch (JDWPException exc) { switch (exc.errorCode()) { case JDWP.Error.THREAD_NOT_SUSPENDED: case JDWP.Error.INVALID_THREAD: /* zombie */ throw new IncompatibleThreadStateException(); default: throw exc.toJDIException(); } } return snapshot.ownedMonitors; } public ObjectReference currentContendedMonitor() throws IncompatibleThreadStateException { LocalCache snapshot = localCache; try { if (snapshot.contendedMonitor == null && !snapshot.triedCurrentContended) { snapshot.contendedMonitor = JDWP.ThreadReference.CurrentContendedMonitor. process(vm, this).monitor; snapshot.triedCurrentContended = true; if ((snapshot.contendedMonitor != null) && ((vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0)) { vm.printTrace(description() + " temporarily caching contended monitor"+ " (id = " + snapshot.contendedMonitor.uniqueID() + ")"); } } } catch (JDWPException exc) { switch (exc.errorCode()) { case JDWP.Error.THREAD_NOT_SUSPENDED: case JDWP.Error.INVALID_THREAD: /* zombie */ throw new IncompatibleThreadStateException(); default: throw exc.toJDIException(); } } return snapshot.contendedMonitor; } public List<MonitorInfo> ownedMonitorsAndFrames() throws IncompatibleThreadStateException { LocalCache snapshot = localCache; try { if (snapshot.ownedMonitorsInfo == null) { JDWP.ThreadReference.OwnedMonitorsStackDepthInfo.monitor[] minfo; minfo = JDWP.ThreadReference.OwnedMonitorsStackDepthInfo.process(vm, this).owned; snapshot.ownedMonitorsInfo = new ArrayList<>(minfo.length); for (int i=0; i < minfo.length; i++) { MonitorInfo mon = new MonitorInfoImpl(vm, minfo[i].monitor, this, minfo[i].stack_depth); snapshot.ownedMonitorsInfo.add(mon); } if ((vm.traceFlags & VirtualMachine.TRACE_OBJREFS) != 0) { vm.printTrace(description() + " temporarily caching owned monitors"+ " (count = " + snapshot.ownedMonitorsInfo.size() + ")"); } } } catch (JDWPException exc) { switch (exc.errorCode()) { case JDWP.Error.THREAD_NOT_SUSPENDED: case JDWP.Error.INVALID_THREAD: /* zombie */ throw new IncompatibleThreadStateException(); default: throw exc.toJDIException(); } } return snapshot.ownedMonitorsInfo; } public void popFrames(StackFrame frame) throws IncompatibleThreadStateException { // Note that interface-wise this functionality belongs // here in ThreadReference, but implementation-wise it // belongs in StackFrame, so we just forward it. if (!frame.thread().equals(this)) { throw new IllegalArgumentException("frame does not belong to this thread"); } if (!vm.canPopFrames()) { throw new UnsupportedOperationException( "target does not support popping frames"); } ((StackFrameImpl)frame).pop(); } public void forceEarlyReturn(Value returnValue) throws InvalidTypeException, ClassNotLoadedException, IncompatibleThreadStateException { if (!vm.canForceEarlyReturn()) { throw new UnsupportedOperationException( "target does not support the forcing of a method to return early"); } validateMirrorOrNull(returnValue); StackFrameImpl sf; try { sf = (StackFrameImpl)frame(0); } catch (IndexOutOfBoundsException exc) { throw new InvalidStackFrameException("No more frames on the stack"); } sf.validateStackFrame(); MethodImpl meth = (MethodImpl)sf.location().method(); ValueImpl convertedValue = ValueImpl.prepareForAssignment(returnValue, meth.getReturnValueContainer()); try { JDWP.ThreadReference.ForceEarlyReturn.process(vm, this, convertedValue); } catch (JDWPException exc) { switch (exc.errorCode()) { case JDWP.Error.OPAQUE_FRAME: throw new NativeMethodException(); case JDWP.Error.THREAD_NOT_SUSPENDED: throw new IncompatibleThreadStateException( "Thread not suspended"); case JDWP.Error.THREAD_NOT_ALIVE: throw new IncompatibleThreadStateException( "Thread has not started or has finished"); case JDWP.Error.NO_MORE_FRAMES: throw new InvalidStackFrameException( "No more frames on the stack"); default: throw exc.toJDIException(); } } } public String toString() { return "instance of " + referenceType().name() + "(name='" + name() + "', " + "id=" + uniqueID() + ")"; } byte typeValueKey() { return JDWP.Tag.THREAD; } void addListener(ThreadListener listener) { synchronized (vm.state()) { listeners.add(new WeakReference<>(listener)); } } void removeListener(ThreadListener listener) { synchronized (vm.state()) { Iterator<WeakReference<ThreadListener>> iter = listeners.iterator(); while (iter.hasNext()) { WeakReference<ThreadListener> ref = iter.next(); if (listener.equals(ref.get())) { iter.remove(); break; } } } }
Propagate the thread state change information to registered listeners. Must be entered while synchronized on vm.state()
/** * Propagate the thread state change information * to registered listeners. * Must be entered while synchronized on vm.state() */
private void processThreadAction(ThreadAction action) { synchronized (vm.state()) { Iterator<WeakReference<ThreadListener>> iter = listeners.iterator(); while (iter.hasNext()) { WeakReference<ThreadListener> ref = iter.next(); ThreadListener listener = ref.get(); if (listener != null) { switch (action.id()) { case ThreadAction.THREAD_RESUMABLE: if (!listener.threadResumable(action)) { iter.remove(); } break; } } else { // Listener is unreachable; clean up iter.remove(); } } // Discard our local cache resetLocalCache(); } } }