VariableInfo[] EnumDictionary(IDictionary lst, ILIntepreter intepreter) { VariableInfo[] res = new VariableInfo[lst.Count]; var keys = GetArray(lst.Keys); var values = GetArray(lst.Values); for (int i = 0; i < lst.Count; i++) { try { var obj = values[i]; VariableInfo info = VariableInfo.FromObject(obj, true); info.Name = string.Format("[{0}]", i); info.Type = VariableTypes.IndexAccess; info.Offset = i; info.Value = string.Format("{0},{1}", SafeToString(keys[i]), SafeToString(values[i])); info.Expandable = true; res[i] = info; } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = string.Format("[{0}]", i); res[i] = info; } } return res; }
VariableInfo[] EnumList(IList lst, ILIntepreter intepreter) { VariableInfo[] res = new VariableInfo[lst.Count]; for (int i = 0; i < lst.Count; i++) { try { var obj = lst[i]; VariableInfo info = VariableInfo.FromObject(obj, true); info.Name = string.Format("[{0}]", i); info.Offset = i; info.Type = VariableTypes.IndexAccess; res[i] = info; } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = string.Format("[{0}]", i); res[i] = info; } } return res; }
VariableInfo[] EnumArray(Array arr, ILIntepreter intepreter) { VariableInfo[] res = new VariableInfo[arr.Length]; for(int i = 0; i < arr.Length; i++) { try { var obj = arr.GetValue(i); VariableInfo info = VariableInfo.FromObject(obj, true); info.Name = string.Format("[{0}]", i); info.Offset = i; info.Type = VariableTypes.IndexAccess; res[i] = info; } catch(Exception ex) { var info = VariableInfo.GetException(ex); info.Name = string.Format("[{0}]", i); res[i] = info; } } return res; }
VariableInfo[] EnumObject(object obj, Type t) { List<VariableInfo> lst = new List<VariableInfo>(); foreach (var i in t.GetFields(System.Reflection.BindingFlags.Public | System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Instance)) { try { if (i.GetCustomAttributes(typeof(System.Runtime.CompilerServices.CompilerGeneratedAttribute), false).Length > 0) continue; var val = i.GetValue(obj); VariableInfo info = VariableInfo.FromObject(val); info.Type = VariableTypes.FieldReference; info.TypeName = i.FieldType.FullName; info.Name = i.Name; info.Expandable = !i.FieldType.IsPrimitive && val != null; info.IsPrivate = i.IsPrivate; info.IsProtected = i.IsFamily; lst.Add(info); } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = i.Name; lst.Add(info); } } foreach (var i in t.GetProperties(System.Reflection.BindingFlags.Public | System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Instance)) { try { if (i.GetIndexParameters().Length > 0) continue; var val = i.GetValue(obj, null); VariableInfo info = VariableInfo.FromObject(val); info.Type = VariableTypes.PropertyReference; info.TypeName = i.PropertyType.FullName; info.Name = i.Name; info.Expandable = !i.PropertyType.IsPrimitive && val != null; info.IsPrivate = i.GetGetMethod(true).IsPrivate; info.IsProtected = i.GetGetMethod(true).IsFamily; lst.Add(info); } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = i.Name; lst.Add(info); } } return lst.ToArray(); }
void OnReceive(DebugMessageType type, byte[] buffer) { if (clientSocket == null || clientSocket.Disconnected) { return; } System.IO.MemoryStream ms = new System.IO.MemoryStream(buffer); System.IO.BinaryReader br = new System.IO.BinaryReader(ms); switch (type) { case DebugMessageType.CSAttach: { SendAttachResult(); } break; case DebugMessageType.CSBindBreakpoint: { CSBindBreakpoint msg = new Protocol.CSBindBreakpoint(); msg.BreakpointHashCode = br.ReadInt32(); msg.IsLambda = br.ReadBoolean(); msg.NamespaceName = br.ReadString(); var typeName = br.ReadString(); msg.TypeName = String.IsNullOrWhiteSpace(msg.NamespaceName) ? typeName : msg.NamespaceName + "." + typeName; msg.MethodName = br.ReadString(); msg.StartLine = br.ReadInt32(); msg.EndLine = br.ReadInt32(); msg.Enabled = br.ReadBoolean(); msg.Condition = new BreakpointCondition(); msg.Condition.Style = (BreakpointConditionStyle)br.ReadByte(); if (msg.Condition.Style != BreakpointConditionStyle.None) { msg.Condition.Expression = br.ReadString(); } msg.UsingInfos = new UsingInfo[br.ReadInt32() + 1]; msg.UsingInfos[0] = new UsingInfo() { Alias = null, Name = msg.NamespaceName }; //当前命名空间具有最高优先级 for (int i = 1; i < msg.UsingInfos.Length; i++) { msg.UsingInfos[i] = new UsingInfo() { Alias = br.ReadString(), Name = br.ReadString() }; } TryBindBreakpoint(msg); } break; case DebugMessageType.CSSetBreakpointEnabled: { ds.SetBreakpointEnabled(br.ReadInt32(), br.ReadBoolean()); } break; case DebugMessageType.CSSetBreakpointCondition: { int bpHash = br.ReadInt32(); BreakpointConditionStyle style = (BreakpointConditionStyle)br.ReadByte(); string expression = style != BreakpointConditionStyle.None ? br.ReadString() : null; ds.SetBreakpointCondition(bpHash, style, expression); } break; case DebugMessageType.CSDeleteBreakpoint: { CSDeleteBreakpoint msg = new Protocol.CSDeleteBreakpoint(); msg.BreakpointHashCode = br.ReadInt32(); ds.DeleteBreakpoint(msg.BreakpointHashCode); } break; case DebugMessageType.CSExecute: { CSExecute msg = new Protocol.CSExecute(); msg.ThreadHashCode = br.ReadInt32(); ds.ExecuteThread(msg.ThreadHashCode); } break; case DebugMessageType.CSStep: { CSStep msg = new CSStep(); msg.ThreadHashCode = br.ReadInt32(); msg.StepType = (StepTypes)br.ReadByte(); ds.StepThread(msg.ThreadHashCode, msg.StepType); } break; case DebugMessageType.CSResolveVariable: { CSResolveVariable msg = new CSResolveVariable(); msg.ThreadHashCode = br.ReadInt32(); msg.FrameIndex = br.ReadInt32(); msg.Variable = ReadVariableReference(br); VariableInfo info; try { object res; info = ds.ResolveVariable(msg.ThreadHashCode, msg.FrameIndex, msg.Variable, out res); } catch (Exception ex) { info = VariableInfo.GetException(ex); } if (info.Type != VariableTypes.Pending) { SendSCResolveVariableResult(info); } } break; case DebugMessageType.CSResolveIndexAccess: { CSResolveIndexer msg = new CSResolveIndexer(); msg.ThreadHashCode = br.ReadInt32(); msg.FrameIndex = br.ReadInt32(); msg.Body = ReadVariableReference(br); msg.Index = ReadVariableReference(br); VariableInfo info; try { object res; info = ds.ResolveIndexAccess(msg.ThreadHashCode, msg.FrameIndex, new VariableReference { Parent = msg.Body, Parameters = new VariableReference[1] { msg.Index } }, out res); } catch (Exception ex) { info = VariableInfo.GetException(ex); } if (info.Type != VariableTypes.Pending) { SendSCResolveVariableResult(info); } } break; case DebugMessageType.CSEnumChildren: { int thId = br.ReadInt32(); int frameId = br.ReadInt32(); var parent = ReadVariableReference(br); VariableInfo[] info = null; try { info = ds.EnumChildren(thId, frameId, parent); } catch (Exception ex) { info = new VariableInfo[] { VariableInfo.GetException(ex) }; } if (info != null) { SendSCEnumChildrenResult(info); } } break; } }
void OnReceive(DebugMessageType type, byte[] buffer) { if (clientSocket == null || clientSocket.Disconnected) { return; } System.IO.MemoryStream ms = new System.IO.MemoryStream(buffer); System.IO.BinaryReader br = new System.IO.BinaryReader(ms); switch (type) { case DebugMessageType.CSAttach: { SendAttachResult(); } break; case DebugMessageType.CSBindBreakpoint: { CSBindBreakpoint msg = new Protocol.CSBindBreakpoint(); msg.BreakpointHashCode = br.ReadInt32(); msg.IsLambda = br.ReadBoolean(); msg.TypeName = br.ReadString(); msg.MethodName = br.ReadString(); msg.StartLine = br.ReadInt32(); msg.EndLine = br.ReadInt32(); TryBindBreakpoint(msg); } break; case DebugMessageType.CSDeleteBreakpoint: { CSDeleteBreakpoint msg = new Protocol.CSDeleteBreakpoint(); msg.BreakpointHashCode = br.ReadInt32(); ds.DeleteBreakpoint(msg.BreakpointHashCode); } break; case DebugMessageType.CSExecute: { CSExecute msg = new Protocol.CSExecute(); msg.ThreadHashCode = br.ReadInt32(); ds.ExecuteThread(msg.ThreadHashCode); } break; case DebugMessageType.CSStep: { CSStep msg = new CSStep(); msg.ThreadHashCode = br.ReadInt32(); msg.StepType = (StepTypes)br.ReadByte(); ds.StepThread(msg.ThreadHashCode, msg.StepType); } break; case DebugMessageType.CSResolveVariable: { CSResolveVariable msg = new CSResolveVariable(); msg.ThreadHashCode = br.ReadInt32(); msg.Variable = ReadVariableReference(br); VariableInfo info; try { object res; info = ds.ResolveVariable(msg.ThreadHashCode, msg.Variable, out res); } catch (Exception ex) { info = VariableInfo.GetException(ex); } if (info.Type != VariableTypes.Pending) { SendSCResolveVariableResult(info); } } break; case DebugMessageType.CSResolveIndexAccess: { CSResolveIndexer msg = new CSResolveIndexer(); msg.ThreadHashCode = br.ReadInt32(); msg.Body = ReadVariableReference(br); msg.Index = ReadVariableReference(br); VariableInfo info; try { object res; info = ds.ResolveIndexAccess(msg.ThreadHashCode, msg.Body, msg.Index, out res); } catch (Exception ex) { info = VariableInfo.GetException(ex); } if (info.Type != VariableTypes.Pending) { SendSCResolveVariableResult(info); } } break; case DebugMessageType.CSEnumChildren: { int thId = br.ReadInt32(); var parent = ReadVariableReference(br); VariableInfo[] info = null; try { info = ds.EnumChildren(thId, parent); } catch (Exception ex) { info = new VariableInfo[] { VariableInfo.GetException(ex) }; } if (info != null) { SendSCEnumChildrenResult(info); } } break; } }
internal unsafe VariableInfo[] EnumChildren(int threadHashCode, VariableReference parent) { ILIntepreter intepreter; if (AppDomain.Intepreters.TryGetValue(threadHashCode, out intepreter)) { object obj; var info = ResolveVariable(threadHashCode, parent, out obj); if (obj != null) { if (obj is Array) { return(EnumArray((Array)obj, intepreter)); } else if (obj is IList) { return(EnumList((IList)obj, intepreter)); } else if (obj is IDictionary) { return(EnumDictionary((IDictionary)obj, intepreter)); } else if (obj is ILTypeInstance) { return(EnumILTypeInstance((ILTypeInstance)obj, intepreter)); } else if (obj is ILRuntime.Runtime.Enviorment.CrossBindingAdaptorType) { return(EnumILTypeInstance(((Enviorment.CrossBindingAdaptorType)obj).ILInstance, intepreter)); } else { return(EnumCLRObject(obj, intepreter)); } } else { return new VariableInfo[] { VariableInfo.NullReferenceExeption } }; } else { return new VariableInfo[] { VariableInfo.NullReferenceExeption } }; } VariableInfo[] EnumArray(Array arr, ILIntepreter intepreter) { VariableInfo[] res = new VariableInfo[arr.Length]; for (int i = 0; i < arr.Length; i++) { try { var obj = arr.GetValue(i); VariableInfo info = VariableInfo.FromObject(obj, true); info.Name = string.Format("[{0}]", i); info.Offset = i; info.Type = VariableTypes.IndexAccess; res[i] = info; } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = string.Format("[{0}]", i); res[i] = info; } } return(res); } VariableInfo[] EnumList(IList lst, ILIntepreter intepreter) { VariableInfo[] res = new VariableInfo[lst.Count]; for (int i = 0; i < lst.Count; i++) { try { var obj = lst[i]; VariableInfo info = VariableInfo.FromObject(obj, true); info.Name = string.Format("[{0}]", i); info.Offset = i; info.Type = VariableTypes.IndexAccess; res[i] = info; } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = string.Format("[{0}]", i); res[i] = info; } } return(res); } VariableInfo[] EnumDictionary(IDictionary lst, ILIntepreter intepreter) { VariableInfo[] res = new VariableInfo[lst.Count]; var keys = GetArray(lst.Keys); var values = GetArray(lst.Values); for (int i = 0; i < lst.Count; i++) { try { var obj = values[i]; VariableInfo info = VariableInfo.FromObject(obj, true); info.Name = string.Format("[{0}]", i); info.Type = VariableTypes.IndexAccess; info.Offset = i; info.Value = string.Format("{0},{1}", SafeToString(keys[i]), SafeToString(values[i])); info.Expandable = true; res[i] = info; } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = string.Format("[{0}]", i); res[i] = info; } } return(res); } string SafeToString(object obj) { if (obj != null) { return(obj.ToString()); } else { return("null"); } } object[] GetArray(ICollection lst) { object[] res = new object[lst.Count]; int idx = 0; foreach (var i in lst) { res[idx++] = i; } return(res); } VariableInfo[] EnumILTypeInstance(ILTypeInstance obj, ILIntepreter intepreter) { return(EnumObject(obj, obj.Type.ReflectionType)); } VariableInfo[] EnumCLRObject(object obj, ILIntepreter intepreter) { return(EnumObject(obj, obj.GetType())); } VariableInfo[] EnumObject(object obj, Type t) { List <VariableInfo> lst = new List <VariableInfo>(); foreach (var i in t.GetFields(System.Reflection.BindingFlags.Public | System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Instance)) { try { if (i.GetCustomAttributes(typeof(System.Runtime.CompilerServices.CompilerGeneratedAttribute), false).Length > 0) { continue; } var val = i.GetValue(obj); VariableInfo info = VariableInfo.FromObject(val); info.Type = VariableTypes.FieldReference; info.TypeName = i.FieldType.FullName; info.Name = i.Name; info.Expandable = !i.FieldType.IsPrimitive && val != null; info.IsPrivate = i.IsPrivate; info.IsProtected = i.IsFamily; lst.Add(info); } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = i.Name; lst.Add(info); } } foreach (var i in t.GetProperties(System.Reflection.BindingFlags.Public | System.Reflection.BindingFlags.NonPublic | System.Reflection.BindingFlags.Instance)) { try { if (i.GetIndexParameters().Length > 0) { continue; } var val = i.GetValue(obj, null); VariableInfo info = VariableInfo.FromObject(val); info.Type = VariableTypes.PropertyReference; info.TypeName = i.PropertyType.FullName; info.Name = i.Name; info.Expandable = !i.PropertyType.IsPrimitive && val != null; info.IsPrivate = i.GetGetMethod(true).IsPrivate; info.IsProtected = i.GetGetMethod(true).IsFamily; lst.Add(info); } catch (Exception ex) { var info = VariableInfo.GetException(ex); info.Name = i.Name; lst.Add(info); } } return(lst.ToArray()); }