/* * Copyright (c) 1998, 2008, 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. */ /* * This source code is provided to illustrate the usage of a given feature * or technique and has been deliberately simplified. Additional steps * required for a production-quality application, such as security checks, * input validation and proper error handling, might not be present in * this sample code. */ package com.sun.tools.example.debug.bdi; import com.sun.jdi.*; import com.sun.jdi.request.*; import com.sun.jdi.connect.*; import com.sun.tools.example.debug.expr.ExpressionParser; import com.sun.tools.example.debug.expr.ParseException; import java.io.*; import java.util.*; import com.sun.tools.example.debug.event.*; import javax.swing.SwingUtilities; /** * Move this towards being only state and functionality * that spans across Sessions (and thus VMs). */ public class ExecutionManager { private Session session; /** * Get/set JDI trace mode. */ int traceMode = VirtualMachine.TRACE_NONE; ////////////////// Listener registration ////////////////// // Session Listeners ArrayList sessionListeners = new ArrayList(); public void addSessionListener(SessionListener listener) { sessionListeners.add(listener); } public void removeSessionListener(SessionListener listener) { sessionListeners.remove(listener); } // Spec Listeners ArrayList specListeners = new ArrayList(); public void addSpecListener(SpecListener cl) { specListeners.add(cl); } public void removeSpecListener(SpecListener cl) { specListeners.remove(cl); } // JDI Listeners ArrayList jdiListeners = new ArrayList(); /** * Adds a JDIListener */ public void addJDIListener(JDIListener jl) { jdiListeners.add(jl); } /** * Adds a JDIListener - at the specified position */ public void addJDIListener(int index, JDIListener jl) { jdiListeners.add(index, jl); } /** * Removes a JDIListener */ public void removeJDIListener(JDIListener jl) { jdiListeners.remove(jl); } // App Echo Listeners private ArrayList appEchoListeners = new ArrayList(); public void addApplicationEchoListener(OutputListener l) { appEchoListeners.add(l); } public void removeApplicationEchoListener(OutputListener l) { appEchoListeners.remove(l); } // App Output Listeners private ArrayList appOutputListeners = new ArrayList(); public void addApplicationOutputListener(OutputListener l) { appOutputListeners.add(l); } public void removeApplicationOutputListener(OutputListener l) { appOutputListeners.remove(l); } // App Error Listeners private ArrayList appErrorListeners = new ArrayList(); public void addApplicationErrorListener(OutputListener l) { appErrorListeners.add(l); } public void removeApplicationErrorListener(OutputListener l) { appErrorListeners.remove(l); } // Diagnostic Listeners private ArrayList diagnosticsListeners = new ArrayList(); public void addDiagnosticsListener(OutputListener l) { diagnosticsListeners.add(l); } public void removeDiagnosticsListener(OutputListener l) { diagnosticsListeners.remove(l); } /////////// End Listener Registration ////////////// //### We probably don't want this public public VirtualMachine vm() { return session == null ? null : session.vm; } void ensureActiveSession() throws NoSessionException { if (session == null) { throw new NoSessionException(); } } public EventRequestManager eventRequestManager() { return vm() == null ? null : vm().eventRequestManager(); } /** * Get JDI trace mode. */ public int getTraceMode(int mode) { return traceMode; } /** * Set JDI trace mode. */ public void setTraceMode(int mode) { traceMode = mode; if (session != null) { session.setTraceMode(mode); } } /** * Determine if VM is interrupted, i.e, present and not running. */ public boolean isInterrupted() /* should: throws NoSessionException */ { // ensureActiveSession(); return session.interrupted; } /** * Return a list of ReferenceType objects for all * currently loaded classes and interfaces. * Array types are not returned. */ public List allClasses() throws NoSessionException { ensureActiveSession(); return vm().allClasses(); } /** * Return a ReferenceType object for the currently * loaded class or interface whose fully-qualified * class name is specified, else return null if there * is none. * * In general, we must return a list of types, because * multiple class loaders could have loaded a class * with the same fully-qualified name. */ public List findClassesByName(String name) throws NoSessionException { ensureActiveSession(); return vm().classesByName(name); } /** * Return a list of ReferenceType objects for all * currently loaded classes and interfaces whose name * matches the given pattern. The pattern syntax is * open to some future revision, but currently consists * of a fully-qualified class name in which the first * component may optionally be a "*" character, designating * an arbitrary prefix. */ public List findClassesMatchingPattern(String pattern) throws NoSessionException { ensureActiveSession(); List result = new ArrayList(); //### Is default size OK? if (pattern.startsWith("*.")) { // Wildcard matches any leading package name. pattern = pattern.substring(1); for (ReferenceType type : vm().allClasses()) { if (type.name().endsWith(pattern)) { result.add(type); } } return result; } else { // It's a class name. return vm().classesByName(pattern); } } /* * Return a list of ThreadReference objects corresponding * to the threads that are currently active in the VM. * A thread is removed from the list just before the * thread terminates. */ public List allThreads() throws NoSessionException { ensureActiveSession(); return vm().allThreads(); } /* * Return a list of ThreadGroupReference objects corresponding * to the top-level threadgroups that are currently active in the VM. * Note that a thread group may be empty, or contain no threads as * descendents. */ public List topLevelThreadGroups() throws NoSessionException { ensureActiveSession(); return vm().topLevelThreadGroups(); } /* * Return the system threadgroup. */ public ThreadGroupReference systemThreadGroup() throws NoSessionException { ensureActiveSession(); return vm().topLevelThreadGroups().get(0); } /* * Evaluate an expression. */ public Value evaluate(final StackFrame f, String expr) throws ParseException, InvocationException, InvalidTypeException, ClassNotLoadedException, NoSessionException, IncompatibleThreadStateException { ExpressionParser.GetFrame frameGetter = null; ensureActiveSession(); if (f != null) { frameGetter = new ExpressionParser.GetFrame() { @Override public StackFrame get() /* throws IncompatibleThreadStateException */ { return f; } }; } return ExpressionParser.evaluate(expr, vm(), frameGetter); } /* * Start a new VM. */ public void run(boolean suspended, String vmArgs, String className, String args) throws VMLaunchFailureException { endSession(); //### Set a breakpoint on 'main' method. //### Would be cleaner if we could just bring up VM already suspended. if (suspended) { //### Set breakpoint at 'main(java.lang.String[])'. List argList = new ArrayList(1); argList.add("java.lang.String[]"); createMethodBreakpoint(className, "main", argList); } String cmdLine = className + " " + args; startSession(new ChildSession(this, vmArgs, cmdLine, appInput, appOutput, appError, diagnostics)); } /* * Attach to an existing VM. */ public void attach(String portName) throws VMLaunchFailureException { endSession(); //### Changes made here for connectors have broken the //### the 'Session' abstraction. The 'Session.attach()' //### method is intended to encapsulate all of the various //### ways in which session start-up can fail. (maddox 12/18/98) /* * Now that attaches and launches both go through Connectors, * it may be worth creating a new subclass of Session for * attach sessions. */ VirtualMachineManager mgr = Bootstrap.virtualMachineManager(); AttachingConnector connector = mgr.attachingConnectors().get(0); Map arguments = connector.defaultArguments(); arguments.get("port").setValue(portName); Session newSession = internalAttach(connector, arguments); if (newSession != null) { startSession(newSession); } } private Session internalAttach(AttachingConnector connector, Map arguments) { try { VirtualMachine vm = connector.attach(arguments); return new Session(vm, this, diagnostics); } catch (IOException ioe) { diagnostics.putString("\n Unable to attach to target VM: " + ioe.getMessage()); } catch (IllegalConnectorArgumentsException icae) { diagnostics.putString("\n Invalid connector arguments: " + icae.getMessage()); } return null; } private Session internalListen(ListeningConnector connector, Map arguments) { try { VirtualMachine vm = connector.accept(arguments); return new Session(vm, this, diagnostics); } catch (IOException ioe) { diagnostics.putString( "\n Unable to accept connection to target VM: " + ioe.getMessage()); } catch (IllegalConnectorArgumentsException icae) { diagnostics.putString("\n Invalid connector arguments: " + icae.getMessage()); } return null; } /* * Connect via user specified arguments * @return true on success */ public boolean explictStart(Connector connector, Map arguments) throws VMLaunchFailureException { Session newSession = null; endSession(); if (connector instanceof LaunchingConnector) { // we were launched, use ChildSession newSession = new ChildSession(this, (LaunchingConnector)connector, arguments, appInput, appOutput, appError, diagnostics); } else if (connector instanceof AttachingConnector) { newSession = internalAttach((AttachingConnector)connector, arguments); } else if (connector instanceof ListeningConnector) { newSession = internalListen((ListeningConnector)connector, arguments); } else { diagnostics.putString("\n Unknown connector: " + connector); } if (newSession != null) { startSession(newSession); } return newSession != null; } /* * Detach from VM. If VM was started by debugger, terminate it. */ public void detach() throws NoSessionException { ensureActiveSession(); endSession(); } private void startSession(Session s) throws VMLaunchFailureException { if (!s.attach()) { throw new VMLaunchFailureException(); } session = s; EventRequestManager em = vm().eventRequestManager(); ClassPrepareRequest classPrepareRequest = em.createClassPrepareRequest(); //### We must allow the deferred breakpoints to be resolved before //### we continue executing the class. We could optimize if there //### were no deferred breakpoints outstanding for a particular class. //### Can we do this with JDI? classPrepareRequest.setSuspendPolicy(EventRequest.SUSPEND_ALL); classPrepareRequest.enable(); ClassUnloadRequest classUnloadRequest = em.createClassUnloadRequest(); classUnloadRequest.setSuspendPolicy(EventRequest.SUSPEND_NONE); classUnloadRequest.enable(); ThreadStartRequest threadStartRequest = em.createThreadStartRequest(); threadStartRequest.setSuspendPolicy(EventRequest.SUSPEND_NONE); threadStartRequest.enable(); ThreadDeathRequest threadDeathRequest = em.createThreadDeathRequest(); threadDeathRequest.setSuspendPolicy(EventRequest.SUSPEND_NONE); threadDeathRequest.enable(); ExceptionRequest exceptionRequest = em.createExceptionRequest(null, false, true); exceptionRequest.setSuspendPolicy(EventRequest.SUSPEND_ALL); exceptionRequest.enable(); validateThreadInfo(); session.interrupted = true; notifySessionStart(); } void endSession() { if (session != null) { session.detach(); session = null; invalidateThreadInfo(); notifySessionDeath(); } } /* * Suspend all VM activity. */ public void interrupt() throws NoSessionException { ensureActiveSession(); vm().suspend(); //### Is it guaranteed that the interrupt has happened? validateThreadInfo(); session.interrupted = true; notifyInterrupted(); } /* * Resume interrupted VM. */ public void go() throws NoSessionException, VMNotInterruptedException { ensureActiveSession(); invalidateThreadInfo(); session.interrupted = false; notifyContinued(); vm().resume(); } /* * Stepping. */ void clearPreviousStep(ThreadReference thread) { /* * A previous step may not have completed on this thread; * if so, it gets removed here. */ EventRequestManager mgr = vm().eventRequestManager(); for (StepRequest request : mgr.stepRequests()) { if (request.thread().equals(thread)) { mgr.deleteEventRequest(request); break; } } } private void generalStep(ThreadReference thread, int size, int depth) throws NoSessionException { ensureActiveSession(); invalidateThreadInfo(); session.interrupted = false; notifyContinued(); clearPreviousStep(thread); EventRequestManager reqMgr = vm().eventRequestManager(); StepRequest request = reqMgr.createStepRequest(thread, size, depth); // We want just the next step event and no others request.addCountFilter(1); request.enable(); vm().resume(); } public void stepIntoInstruction(ThreadReference thread) throws NoSessionException { generalStep(thread, StepRequest.STEP_MIN, StepRequest.STEP_INTO); } public void stepOverInstruction(ThreadReference thread) throws NoSessionException { generalStep(thread, StepRequest.STEP_MIN, StepRequest.STEP_OVER); } public void stepIntoLine(ThreadReference thread) throws NoSessionException, AbsentInformationException { generalStep(thread, StepRequest.STEP_LINE, StepRequest.STEP_INTO); } public void stepOverLine(ThreadReference thread) throws NoSessionException, AbsentInformationException { generalStep(thread, StepRequest.STEP_LINE, StepRequest.STEP_OVER); } public void stepOut(ThreadReference thread) throws NoSessionException { generalStep(thread, StepRequest.STEP_MIN, StepRequest.STEP_OUT); } /* * Thread control. */ public void suspendThread(ThreadReference thread) throws NoSessionException { ensureActiveSession(); thread.suspend(); } public void resumeThread(ThreadReference thread) throws NoSessionException { ensureActiveSession(); thread.resume(); } public void stopThread(ThreadReference thread) throws NoSessionException { ensureActiveSession(); //### Need an exception now. Which one to use? //thread.stop(); } /* * ThreadInfo objects -- Allow query of thread status and stack. */ private List threadInfoList = new LinkedList(); //### Should be weak! (in the value, not the key) private HashMap threadInfoMap = new HashMap(); public ThreadInfo threadInfo(ThreadReference thread) { if (session == null || thread == null) { return null; } ThreadInfo info = threadInfoMap.get(thread); if (info == null) { //### Should not hardcode initial frame count and prefetch here! //info = new ThreadInfo(thread, 10, 10); info = new ThreadInfo(thread); if (session.interrupted) { info.validate(); } threadInfoList.add(info); threadInfoMap.put(thread, info); } return info; } void validateThreadInfo() { session.interrupted = true; for (ThreadInfo threadInfo : threadInfoList) { threadInfo.validate(); } } private void invalidateThreadInfo() { if (session != null) { session.interrupted = false; for (ThreadInfo threadInfo : threadInfoList) { threadInfo.invalidate(); } } } void removeThreadInfo(ThreadReference thread) { ThreadInfo info = threadInfoMap.get(thread); if (info != null) { info.invalidate(); threadInfoMap.remove(thread); threadInfoList.remove(info); } } /* * Listen for Session control events. */ private void notifyInterrupted() { ArrayList l = new ArrayList(sessionListeners); EventObject evt = new EventObject(this); for (int i = 0; i < l.size(); i++) { l.get(i).sessionInterrupt(evt); } } private void notifyContinued() { ArrayList l = new ArrayList(sessionListeners); EventObject evt = new EventObject(this); for (int i = 0; i < l.size(); i++) { l.get(i).sessionContinue(evt); } } private void notifySessionStart() { ArrayList l = new ArrayList(sessionListeners); EventObject evt = new EventObject(this); for (int i = 0; i < l.size(); i++) { l.get(i).sessionStart(evt); } } private void notifySessionDeath() { /*** noop for now ArrayList l = new ArrayList(sessionListeners); EventObject evt = new EventObject(this); for (int i = 0; i < l.size(); i++) { ((SessionListener)l.get(i)).sessionDeath(evt); } ****/ } /* * Listen for input and output requests from the application * being debugged. These are generated only when the debuggee * is spawned as a child of the debugger. */ private Object inputLock = new Object(); private LinkedList inputBuffer = new LinkedList(); private void resetInputBuffer() { synchronized (inputLock) { inputBuffer = new LinkedList(); } } public void sendLineToApplication(String line) { synchronized (inputLock) { inputBuffer.addFirst(line); inputLock.notifyAll(); } } private InputListener appInput = new InputListener() { @Override public String getLine() { // Don't allow reader to be interrupted -- catch and retry. String line = null; while (line == null) { synchronized (inputLock) { try { while (inputBuffer.size() < 1) { inputLock.wait(); } line = inputBuffer.removeLast(); } catch (InterruptedException e) {} } } // We must not be holding inputLock here, as the listener // that we call to echo a line might call us re-entrantly // to provide another line of input. // Run in Swing event dispatcher thread. final String input = line; SwingUtilities.invokeLater(new Runnable() { @Override public void run() { echoInputLine(input); } }); return line; } }; private static String newline = System.getProperty("line.separator"); private void echoInputLine(String line) { ArrayList l = new ArrayList(appEchoListeners); for (int i = 0; i < l.size(); i++) { OutputListener ol = l.get(i); ol.putString(line); ol.putString(newline); } } private OutputListener appOutput = new OutputListener() { @Override public void putString(String string) { ArrayList l = new ArrayList(appEchoListeners); for (int i = 0; i < l.size(); i++) { l.get(i).putString(string); } } }; private OutputListener appError = new OutputListener() { @Override public void putString(String string) { ArrayList l = new ArrayList(appEchoListeners); for (int i = 0; i < l.size(); i++) { l.get(i).putString(string); } } }; private OutputListener diagnostics = new OutputListener() { @Override public void putString(String string) { ArrayList l = new ArrayList(diagnosticsListeners); for (int i = 0; i < l.size(); i++) { l.get(i).putString(string); } } }; ///////////// Spec Request Creation/Deletion/Query /////////// private EventRequestSpecList specList = new EventRequestSpecList(this); public BreakpointSpec createSourceLineBreakpoint(String sourceName, int line) { return specList.createSourceLineBreakpoint(sourceName, line); } public BreakpointSpec createClassLineBreakpoint(String classPattern, int line) { return specList.createClassLineBreakpoint(classPattern, line); } public BreakpointSpec createMethodBreakpoint(String classPattern, String methodId, List methodArgs) { return specList.createMethodBreakpoint(classPattern, methodId, methodArgs); } public ExceptionSpec createExceptionIntercept(String classPattern, boolean notifyCaught, boolean notifyUncaught) { return specList.createExceptionIntercept(classPattern, notifyCaught, notifyUncaught); } public AccessWatchpointSpec createAccessWatchpoint(String classPattern, String fieldId) { return specList.createAccessWatchpoint(classPattern, fieldId); } public ModificationWatchpointSpec createModificationWatchpoint(String classPattern, String fieldId) { return specList.createModificationWatchpoint(classPattern, fieldId); } public void delete(EventRequestSpec spec) { specList.delete(spec); } void resolve(ReferenceType refType) { specList.resolve(refType); } public void install(EventRequestSpec spec) { specList.install(spec, vm()); } public List eventRequestSpecs() { return specList.eventRequestSpecs(); } }