/*
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* 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
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package com.sun.tools.jdi;
import com.sun.jdi.*;
import com.sun.jdi.event.*;
import com.sun.jdi.connect.spi.Connection;
import com.sun.jdi.event.EventSet;
import java.util.*;
import java.io.IOException;
public class TargetVM implements Runnable {
private Map<String, Packet> waitingQueue = new HashMap<String, Packet>(32,0.75f);
private boolean shouldListen = true;
private List<EventQueue> eventQueues = Collections.synchronizedList(new ArrayList<EventQueue>(2));
private VirtualMachineImpl vm;
private Connection connection;
private Thread readerThread;
private EventController eventController = null;
private boolean eventsHeld = false;
/*
* TO DO: The limit numbers below are somewhat arbitrary and should
* be configurable in the future.
*/
static private final int OVERLOADED_QUEUE = 2000;
static private final int UNDERLOADED_QUEUE = 100;
TargetVM(VirtualMachineImpl vm, Connection connection) {
this.vm = vm;
this.connection = connection;
this.readerThread = new Thread(vm.threadGroupForJDI(),
this, "JDI Target VM Interface");
this.readerThread.setDaemon(true);
}
void start() {
readerThread.start();
}
private void dumpPacket(Packet packet, boolean sending) {
String direction = sending ? "Sending" : "Receiving";
if (sending) {
vm.printTrace(direction + " Command. id=" + packet.id +
", length=" + packet.data.length +
", commandSet=" + packet.cmdSet +
", command=" + packet.cmd +
", flags=" + packet.flags);
} else {
String type = (packet.flags & Packet.Reply) != 0 ?
"Reply" : "Event";
vm.printTrace(direction + " " + type + ". id=" + packet.id +
", length=" + packet.data.length +
", errorCode=" + packet.errorCode +
", flags=" + packet.flags);
}
StringBuffer line = new StringBuffer(80);
line.append("0000: ");
for (int i = 0; i < packet.data.length; i++) {
if ((i > 0) && (i % 16 == 0)) {
vm.printTrace(line.toString());
line.setLength(0);
line.append(String.valueOf(i));
line.append(": ");
int len = line.length();
for (int j = 0; j < 6 - len; j++) {
line.insert(0, '0');
}
}
int val = 0xff & packet.data[i];
String str = Integer.toHexString(val);
if (str.length() == 1) {
line.append('0');
}
line.append(str);
line.append(' ');
}
if (line.length() > 6) {
vm.printTrace(line.toString());
}
}
public void run() {
if ((vm.traceFlags & VirtualMachine.TRACE_SENDS) != 0) {
vm.printTrace("Target VM interface thread running");
}
Packet p=null,p2;
String idString;
while(shouldListen) {
boolean done = false;
try {
byte b[] = connection.readPacket();
if (b.length == 0) {
done = true;
}
p = Packet.fromByteArray(b);
} catch (IOException e) {
done = true;
}
if (done) {
shouldListen = false;
try {
connection.close();
} catch (IOException ioe) { }
break;
}
if ((vm.traceFlags & VirtualMachineImpl.TRACE_RAW_RECEIVES) != 0) {
dumpPacket(p, false);
}
if((p.flags & Packet.Reply) == 0) {
// It's a command
handleVMCommand(p);
} else {
/*if(p.errorCode != Packet.ReplyNoError) {
System.err.println("Packet " + p.id + " returned failure = " + p.errorCode);
}*/
vm.state().notifyCommandComplete(p.id);
idString = String.valueOf(p.id);
synchronized(waitingQueue) {
p2 = waitingQueue.get(idString);
if (p2 != null)
waitingQueue.remove(idString);
}
if(p2 == null) {
// Whoa! a reply without a sender. Problem.
// FIX ME! Need to post an error.
System.err.println("Recieved reply with no sender!");
continue;
}
p2.errorCode = p.errorCode;
p2.data = p.data;
p2.replied = true;
synchronized(p2) {
p2.notify();
}
}
}
// inform the VM mamager that this VM is history
vm.vmManager.disposeVirtualMachine(vm);
// close down all the event queues
// Closing a queue causes a VMDisconnectEvent to
// be put onto the queue.
synchronized(eventQueues) {
Iterator<EventQueue> iter = eventQueues.iterator();
while (iter.hasNext()) {
((EventQueueImpl)iter.next()).close();
}
}
// indirectly throw VMDisconnectedException to
// command requesters.
synchronized(waitingQueue) {
Iterator<Packet> iter = waitingQueue.values().iterator();
while (iter.hasNext()) {
Packet packet = iter.next();
synchronized(packet) {
packet.notify();
}
}
waitingQueue.clear();
}
if ((vm.traceFlags & VirtualMachine.TRACE_SENDS) != 0) {
vm.printTrace("Target VM interface thread exiting");
}
}
protected void handleVMCommand(Packet p) {
switch (p.cmdSet) {
case JDWP.Event.COMMAND_SET:
handleEventCmdSet(p);
break;
default:
System.err.println("Ignoring cmd " + p.id + "/" +
p.cmdSet + "/" + p.cmd + " from the VM");
return;
}
}
/* Events should not be constructed on this thread (the thread
* which reads all data from the transport). This means that the
* packet cannot be converted to real JDI objects as that may
* involve further communications with the back end which would
* deadlock.
*
* Instead the whole packet is passed for lazy eval by a queue
* reading thread.
*/
protected void handleEventCmdSet(Packet p) {
EventSet eventSet = new EventSetImpl(vm, p);
if (eventSet != null) {
queueEventSet(eventSet);
}
}
private EventController eventController() {
if (eventController == null) {
eventController = new EventController(vm);
}
return eventController;
}
private synchronized void controlEventFlow(int maxQueueSize) {
if (!eventsHeld && (maxQueueSize > OVERLOADED_QUEUE)) {
eventController().hold();
eventsHeld = true;
} else if (eventsHeld && (maxQueueSize < UNDERLOADED_QUEUE)) {
eventController().release();
eventsHeld = false;
}
}
void notifyDequeueEventSet() {
int maxQueueSize = 0;
synchronized(eventQueues) {
Iterator<EventQueue> iter = eventQueues.iterator();
while (iter.hasNext()) {
EventQueueImpl queue = (EventQueueImpl)iter.next();
maxQueueSize = Math.max(maxQueueSize, queue.size());
}
}
controlEventFlow(maxQueueSize);
}
private void queueEventSet(EventSet eventSet) {
int maxQueueSize = 0;
synchronized(eventQueues) {
Iterator<EventQueue> iter = eventQueues.iterator();
while (iter.hasNext()) {
EventQueueImpl queue = (EventQueueImpl)iter.next();
queue.enqueue(eventSet);
maxQueueSize = Math.max(maxQueueSize, queue.size());
}
}
controlEventFlow(maxQueueSize);
}
void send(Packet packet) {
String id = String.valueOf(packet.id);
synchronized(waitingQueue) {
waitingQueue.put(id, packet);
}
if ((vm.traceFlags & VirtualMachineImpl.TRACE_RAW_SENDS) != 0) {
dumpPacket(packet, true);
}
try {
connection.writePacket(packet.toByteArray());
} catch (IOException e) {
throw new VMDisconnectedException(e.getMessage());
}
}
void waitForReply(Packet packet) {
synchronized(packet) {
while ((!packet.replied) && shouldListen) {
try { packet.wait(); } catch (InterruptedException e) {;}
}
if (!packet.replied) {
throw new VMDisconnectedException();
}
}
}
void addEventQueue(EventQueueImpl queue) {
if ((vm.traceFlags & VirtualMachine.TRACE_EVENTS) != 0) {
vm.printTrace("New event queue added");
}
eventQueues.add(queue);
}
void stopListening() {
if ((vm.traceFlags & VirtualMachine.TRACE_EVENTS) != 0) {
vm.printTrace("Target VM i/f closing event queues");
}
shouldListen = false;
try {
connection.close();
} catch (IOException ioe) { }
}
static private class EventController extends Thread {
VirtualMachineImpl vm;
int controlRequest = 0;
EventController(VirtualMachineImpl vm) {
super(vm.threadGroupForJDI(), "JDI Event Control Thread");
this.vm = vm;
setDaemon(true);
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