public CorValue Invoke(string methodName, CorValue instance, params CorValue[] args) { var allArgs = new List <CorValue>(); if (instance != null) { allArgs.Add(instance); } allArgs.AddRange(args); MDbgFunction func = process.ResolveFunctionNameFromScope(methodName); if (null == func) { throw new Exception(String.Format(CultureInfo.InvariantCulture, "Could not resolve {0}", new Object[] { methodName })); } CorEval eval = process.Threads.Active.CorThread.CreateEval(); // Get Variables ArrayList vars = new ArrayList(); String arg; foreach (var v in allArgs) { if (v is CorGenericValue) { vars.Add(v as CorValue); } else { CorHeapValue hv = v.CastToHeapValue(); if (hv != null) { // we cannot pass directly heap values, we need to pass reference to heap valus CorReferenceValue myref = eval.CreateValue(CorElementType.ELEMENT_TYPE_CLASS, null).CastToReferenceValue(); myref.Value = hv.Address; vars.Add(myref); } else { vars.Add(v); } } } eval.CallFunction(func.CorFunction, (CorValue[])vars.ToArray(typeof(CorValue))); return(GetResult()); }
/// <summary> /// Eval a function in the target process. /// </summary> /// <param name="functionNameFromScope">The full function name.</param> MDbgValue FunctionEval(string functionNameFromScope) { CorAppDomain corAD = this.MDbgProcess.Threads.Active.CorThread.AppDomain; MDbgFunction function = this.MDbgProcess.ResolveFunctionNameFromScope( functionNameFromScope, corAD); CorEval eval = this.MDbgProcess.Threads.Active.CorThread.CreateEval(); eval.CallFunction(function.CorFunction, new CorValue[0]); MDbgProcess.Go().WaitOne(); MDbgValue value = null; if (MDbgProcess.StopReason is EvalCompleteStopReason) { CorValue result = (MDbgProcess.StopReason as EvalCompleteStopReason).Eval.Result; if (result != null) { value = new MDbgValue(MDbgProcess, result); } } return(value); }
private string PrintObject(int indentLevel, CorObjectValue ov, int expandDepth, bool canDoFunceval) { Debug.Assert(expandDepth >= 0); bool fNeedToResumeThreads = true; // Print generics-aware type. string name = InternalUtil.PrintCorType(this.m_process, ov.ExactType); StringBuilder txt = new StringBuilder(); txt.Append(name); if (expandDepth > 0) { // we gather the field info of the class before we do // funceval since funceval requires running the debugger process // and this in turn can cause GC and invalidate our references. StringBuilder expandedDescription = new StringBuilder(); if (IsComplexType) { foreach (MDbgValue v in GetFields()) { expandedDescription.Append("\n").Append(IndentedString(indentLevel + 1, v.Name)). Append("=").Append(IndentedBlock(indentLevel + 2, v.GetStringValue(expandDepth - 1, false))); } } // if the value we're printing is a nullable type that has no value (is null), we can't do a func eval // to get its value, since it will be boxed as a null pointer. We already have the information we need, so // we'll just take care of it now. Note that ToString() for null-valued nullable types just prints the // empty string. // bool hasValue = (bool)(GetField("hasValue").CorValue.CastToGenericValue().GetValue()); if (IsNullableType(ov.ExactType) && !(bool)(GetField("hasValue").CorValue.CastToGenericValue().GetValue())) { txt.Append(" < >"); } else if (ov.IsValueClass && canDoFunceval) // we could display even values for real Objects, but we will just show // "description" for valueclasses. { CorClass cls = ov.ExactType.Class; CorMetadataImport importer = m_process.Modules.Lookup(cls.Module).Importer; MetadataType mdType = importer.GetType(cls.Token) as MetadataType; if (mdType.ReallyIsEnum) { txt.AppendFormat(" <{0}>", InternalGetEnumString(ov, mdType)); } else if (m_process.IsRunning) { txt.Append(" <N/A during run>"); } else { MDbgThread activeThread = m_process.Threads.Active; CorValue thisValue; CorHeapValue hv = ov.CastToHeapValue(); if (hv != null) { // we need to pass reference value. CorHandleValue handle = hv.CreateHandle(CorDebugHandleType.HANDLE_WEAK_TRACK_RESURRECTION); thisValue = handle; } else { thisValue = ov; } try { CorEval eval = m_process.Threads.Active.CorThread.CreateEval(); m_process.CorProcess.SetAllThreadsDebugState(CorDebugThreadState.THREAD_SUSPEND, activeThread.CorThread); MDbgFunction toStringFunc = m_process.ResolveFunctionName(null, "System.Object", "ToString", thisValue.ExactType.Class.Module.Assembly.AppDomain)[0]; Debug.Assert(toStringFunc != null); // we should be always able to resolve ToString function. eval.CallFunction(toStringFunc.CorFunction, new CorValue[] { thisValue }); m_process.Go(); do { m_process.StopEvent.WaitOne(); if (m_process.StopReason is EvalCompleteStopReason) { CorValue cv = eval.Result; Debug.Assert(cv != null); MDbgValue mv = new MDbgValue(m_process, cv); string valName = mv.GetStringValue(0); // just purely for esthetical reasons we 'discard' " if (valName.StartsWith("\"") && valName.EndsWith("\"")) { valName = valName.Substring(1, valName.Length - 2); } txt.Append(" <").Append(valName).Append(">"); break; } if ((m_process.StopReason is ProcessExitedStopReason) || (m_process.StopReason is EvalExceptionStopReason)) { txt.Append(" <N/A cannot evaluate>"); break; } // hitting bp or whatever should not matter -- we need to ignore it m_process.Go(); }while (true); } catch (COMException e) { // Ignore cannot copy a VC class error - Can't copy a VC with object refs in it. if (e.ErrorCode != (int)HResult.CORDBG_E_OBJECT_IS_NOT_COPYABLE_VALUE_CLASS) { throw; } } catch (System.NotImplementedException) { fNeedToResumeThreads = false; } finally { if (fNeedToResumeThreads) { // we need to resume all the threads that we have suspended no matter what. m_process.CorProcess.SetAllThreadsDebugState(CorDebugThreadState.THREAD_RUN, activeThread.CorThread); } } } } txt.Append(expandedDescription.ToString()); } return(txt.ToString()); }
public static void FuncEvalCmd(string arguments, IMDbgShell Shell, O2Thread.FuncVoidT1 <string> execOnEval) { try { var activeProcess = DI.o2MDbg.ActiveProcess; //Debugger.Processes.Active const string appDomainOption = "ad"; var ap = new ArgParser(arguments, appDomainOption + ":1"); if (!(ap.Count >= 1)) { throw new MDbgShellException("Not Enough arguments"); } // Currently debugger picks first function -- we have not implementing resolving overloaded functions. // Good example is Console.WriteLine -- there is 18 different types: // 1) [06000575] Void WriteLine() // 2) [06000576] Void WriteLine(Boolean) // 3) [06000577] Void WriteLine(Char) // 4) [06000578] Void WriteLine(Char[]) // 5) [06000579] Void WriteLine(Char[], Int32, Int32) // 6) [0600057a] Void WriteLine(Decimal) // 7) [0600057b] Void WriteLine(Double) // 8) [0600057c] Void WriteLine(Single) // 9) [0600057d] Void WriteLine(Int32) // 10) [0600057e] Void WriteLine(UInt32) // 11) [0600057f] Void WriteLine(Int64) // 12) [06000580] Void WriteLine(UInt64) // 13) [06000581] Void WriteLine(Object) // 14) [06000582] Void WriteLine(String) // 15) [06000583] Void WriteLine(String, Object) // 16) [06000584] Void WriteLine(String, Object, Object) // 17) [06000585] Void WriteLine(String, Object, Object, Object) // 18) [06000586] Void WriteLine(String, Object, Object, Object, Object, ...) // 19) [06000587] Void WriteLine(String, Object[]) // CorAppDomain appDomain; if (ap.OptionPassed(appDomainOption)) { MDbgAppDomain ad = activeProcess.AppDomains[ap.GetOption(appDomainOption).AsInt]; if (ad == null) { throw new ArgumentException("Invalid Appdomain Number"); } appDomain = ad.CorAppDomain; } else { appDomain = activeProcess.Threads.Active.CorThread.AppDomain; } MDbgFunction func = activeProcess.ResolveFunctionNameFromScope(ap.AsString(0), appDomain); if (null == func) { throw new MDbgShellException(String.Format(CultureInfo.InvariantCulture, "Could not resolve {0}", new Object[] { ap.AsString(0) })); } CorEval eval = activeProcess.Threads.Active.CorThread.CreateEval(); // Get Variables var vars = new ArrayList(); String arg; for (int i = 1; i < ap.Count; i++) { arg = ap.AsString(i); CorValue v = Shell.ExpressionParser.ParseExpression2(arg, activeProcess, activeProcess.Threads.Active. CurrentFrame); if (v == null) { throw new MDbgShellException("Cannot resolve expression or variable " + ap.AsString(i)); } if (v is CorGenericValue) { vars.Add(v); } else { CorHeapValue hv = v.CastToHeapValue(); if (hv != null) { // we cannot pass directly heap values, we need to pass reference to heap valus CorReferenceValue myref = eval.CreateValue(CorElementType.ELEMENT_TYPE_CLASS, null).CastToReferenceValue(); myref.Value = hv.Address; vars.Add(myref); } else { vars.Add(v); } } } eval.CallFunction(func.CorFunction, (CorValue[])vars.ToArray(typeof(CorValue))); activeProcess.Go().WaitOne(); // now display result of the funceval if (!(activeProcess.StopReason is EvalCompleteStopReason)) { // we could have received also EvalExceptionStopReason but it's derived from EvalCompleteStopReason Shell.IO.WriteOutput(MDbgOutputConstants.StdOutput, "Func-eval not fully completed and debuggee has stopped"); Shell.IO.WriteOutput(MDbgOutputConstants.StdOutput, "Result of funceval won't be printed when finished."); } else { eval = (activeProcess.StopReason as EvalCompleteStopReason).Eval; Debug.Assert(eval != null); CorValue cv = eval.Result; if (cv != null) { var mv = new MDbgValue(activeProcess, cv); if (execOnEval != null) // if this callback is set then execute { execOnEval(mv.GetStringValue(1)); return; } Shell.IO.WriteOutput(MDbgOutputConstants.StdOutput, "result = " + mv.GetStringValue(1)); if (cv.CastToReferenceValue() != null) { if (activeProcess.DebuggerVars.SetEvalResult(cv)) { Shell.IO.WriteOutput(MDbgOutputConstants.StdOutput, "results saved to $result"); } } } } } catch (Exception ex) { DI.log.ex(ex, "in FuncEvalCmd"); } if (execOnEval != null) // need to call this here so that the sync AutoResetEvent is set { execOnEval(null); } }