public Array System__Method__Signature___(string MethodName) { //TODO: support overloaded methods XmlRpcServiceInfo svcInfo = XmlRpcServiceInfo.CreateServiceInfo( this.GetType()); XmlRpcMethodInfo mthdInfo = svcInfo.GetMethod(MethodName); if (mthdInfo == null) { throw new XmlRpcFaultException(880, "Request for information on unsupported method"); } if (mthdInfo.IsHidden) { throw new XmlRpcFaultException(881, "Information not available on this method"); } //XmlRpcTypes.CheckIsXmlRpcMethod(mi); ArrayList alist = new ArrayList(); alist.Add(XmlRpcTypeInfo.GetXmlRpcTypeString(mthdInfo.ReturnType)); foreach (XmlRpcParameterInfo paramInfo in mthdInfo.Parameters) { alist.Add(XmlRpcTypeInfo.GetXmlRpcTypeString(paramInfo.Type)); } string[] types = (string[])alist.ToArray(typeof(string)); ArrayList retalist = new ArrayList(); retalist.Add(types); Array retarray = retalist.ToArray(typeof(string[])); return(retarray); }
public void XmlRpcStruct() { Type type = typeof(XmlRpcStruct); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tHashtable, rpcType, "XmlRpcStruct doesn't map to XmlRpcType.tHashtable"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "struct", "XmlRpcStruct doesn't map to 'struct'"); }
public void String() { Type type = typeof(string); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tString, rpcType, "String doesn't map to XmlRpcType.tString"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "string", "String doesn't map to 'string'"); }
public void XmlRpcBoolean() { Type type = typeof(bool?); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tBoolean, rpcType, "XmlRpcBoolean doesn't map to XmlRpcType.tBoolean"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "boolean", "XmlRpcBoolean doesn't map to 'boolean'"); }
public void XmlRpcInt() { Type type = typeof(int?); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tInt32, rpcType, "XmlRpcInt doesn't map to XmlRpcType.tInt32"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "integer", "XmlRpcInt doesn't map to 'integer'"); }
public void NullableStruct() { Type type = typeof(TestStruct?); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tStruct, rpcType, "TestStruct? doesn't map to XmlRpcType.tStruct"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "struct", "TestStruct? doesn't map to 'struct'"); }
public void NullableDateTime() { Type type = typeof(DateTime?); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tDateTime, rpcType, "DateTime? doesn't map to XmlRpcType.tDateTime"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "dateTime", "DateTime? doesn't map to 'dateTime'"); }
public void NullableIn64() { Type type = typeof(long?); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tInt64, rpcType, "long? doesn't map to XmlRpcType.tInt64"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "i8", "long? doesn't map to 'i8'"); }
public void Void() { Type type = typeof(void); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tVoid, rpcType, "void doesn't map to XmlRpcType.tVoid"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "void", "void doesn't map to 'void'"); }
public void JaggedIntArray() { Type type = typeof(Int32[][]); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tArray, rpcType, "Int32[] doesn't map to XmlRpcType.tArray"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "array", "Int32[] doesn't map to 'array'"); }
public void Array() { Type type = typeof(Array); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tArray, rpcType, "Array doesn't map to XmlRpcType.tArray"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "array", "Array doesn't map to 'array'"); }
public void XmlRpcDouble() { Type type = typeof(double?); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tDouble, rpcType, "XmlRpcDouble doesn't map to XmlRpcType.tDouble"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "double", "XmlRpcDouble doesn't map to 'double'"); }
public void Base64() { Type type = typeof(byte[]); XmlRpcType rpcType = XmlRpcTypeInfo.GetXmlRpcType(type); Assert.AreEqual(XmlRpcType.tBase64, rpcType, "Byte[] doesn't map to XmlRpcType.tBase64"); string rpcString = XmlRpcTypeInfo.GetXmlRpcTypeString(type); Assert.AreEqual(rpcString, "base64", "Byte[] doesn't map to 'base64'"); }
private void CheckImplictString(Type valType, MappingStack mappingStack) { if (valType != null && valType != typeof(string)) { throw new XmlRpcTypeMismatchException(mappingStack.MappingType + " contains implicit string value where " + XmlRpcTypeInfo.GetXmlRpcTypeString(valType) + " expected " + StackDump(mappingStack)); } }
private static void CheckImplictString(Type valType, MappingStack mappingStack) { if (valType != null && valType != typeof(string) && !valType.IsEnum) { throw new XmlRpcTypeMismatchException( string.Format( "{0} contains implicit string value where {1} expected {2}", mappingStack.MappingType, XmlRpcTypeInfo.GetXmlRpcTypeString(valType), StackDump(mappingStack))); } }
private static void CheckExpectedType(Type expectedType, Type actualType, MappingStack mappingStack) { if (expectedType != null && expectedType.IsEnum) { var fourBitTypes = new[] { typeof(byte), typeof(sbyte), typeof(short), typeof(ushort), typeof(int) }; var eightBitTypes = new[] { typeof(uint), typeof(long) }; var underlyingType = Enum.GetUnderlyingType(expectedType); if (Array.IndexOf(fourBitTypes, underlyingType) >= 0) { expectedType = typeof(int); } else if (Array.IndexOf(eightBitTypes, underlyingType) >= 0) { expectedType = typeof(long); } else { throw new XmlRpcInvalidEnumValue( string.Format( "{0} contains {1} which cannot be mapped to {2} {3}", mappingStack.MappingType, XmlRpcTypeInfo.GetXmlRpcTypeString(actualType), XmlRpcTypeInfo.GetXmlRpcTypeString(expectedType), StackDump(mappingStack))); } } // TODO: throw exception for invalid enum type if (expectedType != null && expectedType != typeof(object) && expectedType != actualType && (actualType.IsValueType && expectedType != typeof(Nullable <>).MakeGenericType(actualType))) { throw new XmlRpcTypeMismatchException( string.Format( "{0} contains {1} value where {2} expected {3}", mappingStack.MappingType, XmlRpcTypeInfo.GetXmlRpcTypeString(actualType), XmlRpcTypeInfo.GetXmlRpcTypeString(expectedType), StackDump(mappingStack))); } }
private void CheckExpectedType(Type expectedType, Type actualType, MappingStack mappingStack) { if (expectedType != null && expectedType.IsEnum) { Type[] i4Types = new Type[] { typeof(byte), typeof(sbyte), typeof(short), typeof(ushort), typeof(int) }; Type[] i8Types = new Type[] { typeof(uint), typeof(long) }; Type underlyingType = Enum.GetUnderlyingType(expectedType); if (Array.IndexOf(i4Types, underlyingType) >= 0) { expectedType = typeof(Int32); } else if (Array.IndexOf(i8Types, underlyingType) >= 0) { expectedType = typeof(long); } else { throw new XmlRpcInvalidEnumValue(mappingStack.MappingType + " contains " + XmlRpcTypeInfo.GetXmlRpcTypeString(actualType) + " which cannot be mapped to " + XmlRpcTypeInfo.GetXmlRpcTypeString(expectedType) + " " + StackDump(mappingStack)); } } // TODO: throw exception for invalid enum type if (expectedType != null && expectedType != typeof(Object) && expectedType != actualType && (actualType.IsValueType && expectedType != typeof(Nullable <>).MakeGenericType(actualType))) { throw new XmlRpcTypeMismatchException(mappingStack.MappingType + " contains " + XmlRpcTypeInfo.GetXmlRpcTypeString(actualType) + " value where " + XmlRpcTypeInfo.GetXmlRpcTypeString(expectedType) + " expected " + StackDump(mappingStack)); } }
private object MapArray(IEnumerator <Node> iter, Type valType, MappingStack mappingStack, MappingAction mappingAction, out Type mappedType) { mappedType = null; // required type must be an array if (valType != null && !(valType.IsArray == true || valType == typeof(Array) || valType == typeof(object))) { throw new XmlRpcTypeMismatchException(mappingStack.MappingType + " contains array value where " + XmlRpcTypeInfo.GetXmlRpcTypeString(valType) + " expected " + StackDump(mappingStack)); } if (valType != null) { XmlRpcType xmlRpcType = XmlRpcTypeInfo.GetXmlRpcType(valType); if (xmlRpcType == XmlRpcType.tMultiDimArray) { mappingStack.Push("array mapped to type " + valType.Name); Object ret = MapMultiDimArray(iter, valType, mappingStack, mappingAction); return(ret); } mappingStack.Push("array mapped to type " + valType.Name); } else { mappingStack.Push("array"); } var values = new List <object>(); Type elemType = DetermineArrayItemType(valType); bool bGotType = false; Type useType = null; while (iter.MoveNext() && iter.Current is ValueNode) { mappingStack.Push(String.Format("element {0}", values.Count)); object value = MapValueNode(iter, elemType, mappingStack, mappingAction); values.Add(value); mappingStack.Pop(); } foreach (object value in values) { if (value == null) { continue; } if (bGotType == false) { useType = value.GetType(); bGotType = true; } else { if (useType != value.GetType()) { useType = null; } } } Object[] args = new Object[1]; args[0] = values.Count; Object retObj = null; if (valType != null && valType != typeof(Array) && valType != typeof(object)) { retObj = CreateArrayInstance(valType, args); } else { if (useType == null) { retObj = CreateArrayInstance(typeof(object[]), args); } else { retObj = Array.CreateInstance(useType, (int)args[0]); }; } for (int j = 0; j < values.Count; j++) { ((Array)retObj).SetValue(values[j], j); } mappingStack.Pop(); return(retObj); }
private object MapStruct(IEnumerator <Node> iter, Type valueType, MappingStack mappingStack, MappingAction mappingAction, out Type mappedType) { mappedType = null; if (valueType.IsPrimitive) { throw new XmlRpcTypeMismatchException(mappingStack.MappingType + " contains struct value where " + XmlRpcTypeInfo.GetXmlRpcTypeString(valueType) + " expected " + StackDump(mappingStack)); } if (valueType.IsGenericType && valueType.GetGenericTypeDefinition() == typeof(Nullable <>)) { valueType = valueType.GetGenericArguments()[0]; } object retObj; try { retObj = Activator.CreateInstance(valueType); } catch (Exception) { throw new XmlRpcTypeMismatchException(mappingStack.MappingType + " contains struct value where " + XmlRpcTypeInfo.GetXmlRpcTypeString(valueType) + " expected (as type " + valueType.Name + ") " + StackDump(mappingStack)); } // Note: mapping action on a struct is only applied locally - it // does not override the global mapping action when members of the // struct are mapped MappingAction localAction = mappingAction; if (valueType != null) { mappingStack.Push("struct mapped to type " + valueType.Name); localAction = StructMappingAction(valueType, mappingAction); } else { mappingStack.Push("struct"); } // create map of field names and remove each name from it as // processed so we can determine which fields are missing var names = new List <string>(); CreateFieldNamesMap(valueType, names); int fieldCount = 0; List <string> rpcNames = new List <string>(); try { while (iter.MoveNext()) { if (!(iter.Current is StructMember)) { break; } string rpcName = (iter.Current as StructMember).Value; if (rpcNames.Contains(rpcName)) { if (!IgnoreDuplicateMembers) { throw new XmlRpcInvalidXmlRpcException(mappingStack.MappingType + " contains struct value with duplicate member " + rpcName + " " + StackDump(mappingStack)); } else { continue; } } else { rpcNames.Add(rpcName); } string name = GetStructName(valueType, rpcName) ?? rpcName; MemberInfo mi = valueType.GetField(name); if (mi == null) { mi = valueType.GetProperty(name); } if (mi == null) { iter.MoveNext(); // move to value if (iter.Current is ComplexValueNode) { int depth = iter.Current.Depth; while (!(iter.Current is EndComplexValueNode && iter.Current.Depth == depth)) { iter.MoveNext(); } } continue; } if (names.Contains(name)) { names.Remove(name); } else { if (Attribute.IsDefined(mi, typeof(NonSerializedAttribute))) { mappingStack.Push(String.Format("member {0}", name)); throw new XmlRpcNonSerializedMember("Cannot map XML-RPC struct " + "member onto member marked as [NonSerialized]: " + " " + StackDump(mappingStack)); } } Type memberType = mi.MemberType == MemberTypes.Field ? (mi as FieldInfo).FieldType : (mi as PropertyInfo).PropertyType; string mappingMsg = valueType == null ? String.Format("member {0}", name) : String.Format("member {0} mapped to type {1}", name, memberType.Name); iter.MoveNext(); object valObj = OnStack(mappingMsg, mappingStack, delegate() { return(MapValueNode(iter, memberType, mappingStack, mappingAction)); }); if (mi.MemberType == MemberTypes.Field) { try { (mi as FieldInfo).SetValue(retObj, valObj); } catch { (mi as FieldInfo).SetValue(retObj, Enum.Parse((mi as FieldInfo).FieldType, (string)valObj, true)); } } else { (mi as PropertyInfo).SetValue(retObj, valObj, null); } fieldCount++; } if (localAction == MappingAction.Error && names.Count > 0) { ReportMissingMembers(valueType, names, mappingStack); } return(retObj); } finally { mappingStack.Pop(); } }
static void ExtractMethodInfo(Dictionary <string, XmlRpcMethodInfo> methods, MethodInfo mi, Type type) { XmlRpcMethodAttribute attr = (XmlRpcMethodAttribute) Attribute.GetCustomAttribute(mi, typeof(XmlRpcMethodAttribute)); if (attr == null) { return; } XmlRpcMethodInfo mthdInfo = new XmlRpcMethodInfo(); mthdInfo.MethodInfo = mi; mthdInfo.XmlRpcName = XmlRpcTypeInfo.GetXmlRpcMethodName(mi); mthdInfo.MiName = mi.Name; mthdInfo.Doc = attr.Description; mthdInfo.IsHidden = attr.IntrospectionMethod | attr.Hidden; // extract parameters information var parmList = new List <XmlRpcParameterInfo>(); ParameterInfo[] parms = mi.GetParameters(); foreach (ParameterInfo parm in parms) { XmlRpcParameterInfo parmInfo = new XmlRpcParameterInfo(); parmInfo.Name = parm.Name; parmInfo.Type = parm.ParameterType; parmInfo.XmlRpcType = XmlRpcTypeInfo.GetXmlRpcTypeString(parm.ParameterType); // retrieve optional attributed info parmInfo.Doc = ""; XmlRpcParameterAttribute pattr = (XmlRpcParameterAttribute) Attribute.GetCustomAttribute(parm, typeof(XmlRpcParameterAttribute)); if (pattr != null) { parmInfo.Doc = pattr.Description; parmInfo.XmlRpcName = pattr.Name; } parmInfo.IsParams = Attribute.IsDefined(parm, typeof(ParamArrayAttribute)); parmList.Add(parmInfo); } mthdInfo.Parameters = parmList.ToArray(); // extract return type information mthdInfo.ReturnType = mi.ReturnType; mthdInfo.ReturnXmlRpcType = XmlRpcTypeInfo.GetXmlRpcTypeString(mi.ReturnType); object[] orattrs = mi.ReturnTypeCustomAttributes.GetCustomAttributes( typeof(XmlRpcReturnValueAttribute), false); if (orattrs.Length > 0) { mthdInfo.ReturnDoc = ((XmlRpcReturnValueAttribute)orattrs[0]).Description; } if (methods.ContainsKey(mthdInfo.XmlRpcName)) { throw new XmlRpcDupXmlRpcMethodNames(String.Format("Method " + "{0} in type {1} has duplicate XmlRpc method name {2}", mi.Name, type.Name, mthdInfo.XmlRpcName)); } else { methods.Add(mthdInfo.XmlRpcName, mthdInfo); } }
private static void WriteType( HtmlTextWriter wrtr, Type type, bool isparams, IList structs) { // TODO: following is hack for case when type is Object string xmlRpcType; if (!isparams) { xmlRpcType = type != typeof(object) ? XmlRpcTypeInfo.GetXmlRpcTypeString(type) : "any"; } else { xmlRpcType = "varargs"; } wrtr.Write(xmlRpcType); if (string.Equals(xmlRpcType, "struct", StringComparison.Ordinal) && type != typeof(XmlRpcStruct)) { if (!structs.Contains(type)) { structs.Add(type); } wrtr.Write(" "); wrtr.WriteBeginTag("a"); wrtr.WriteAttribute("href", "#" + type.Name); wrtr.Write(HtmlTextWriter.TagRightChar); wrtr.Write(type.Name); wrtr.WriteEndTag("a"); } else if (string.Equals(xmlRpcType, "array", StringComparison.Ordinal) || string.Equals(xmlRpcType, "varargs", StringComparison.Ordinal)) { if (type.GetArrayRank() == 1) // single dim array { wrtr.Write(" of "); var elemType = type.GetElementType(); string elemXmlRpcType; elemXmlRpcType = elemType != typeof(object) ? XmlRpcTypeInfo.GetXmlRpcTypeString(elemType) : "any"; wrtr.Write(elemXmlRpcType); if (string.Equals(elemXmlRpcType, "struct", StringComparison.Ordinal) && elemType != typeof(XmlRpcStruct)) { if (!structs.Contains(elemType)) { structs.Add(elemType); } wrtr.Write(" "); wrtr.WriteBeginTag("a"); wrtr.WriteAttribute("href", "#" + elemType.Name); wrtr.Write(HtmlTextWriter.TagRightChar); wrtr.Write(elemType.Name); wrtr.WriteEndTag("a"); } } } }
static void WriteType( HtmlTextWriter wrtr, Type type, bool isparams, ArrayList structs) { // TODO: following is hack for case when type is Object string xmlRpcType; if (!isparams) { if (type != typeof(Object)) { xmlRpcType = XmlRpcTypeInfo.GetXmlRpcTypeString(type); } else { xmlRpcType = "any"; } } else { xmlRpcType = "varargs"; } wrtr.Write(xmlRpcType); if (xmlRpcType == "struct" && type != typeof(XmlRpcStruct)) { if (!structs.Contains(type)) { structs.Add(type); } wrtr.Write(" "); wrtr.WriteBeginTag("a"); wrtr.WriteAttribute("href", "#" + type.Name); wrtr.Write(HtmlTextWriter.TagRightChar); wrtr.Write(type.Name); wrtr.WriteEndTag("a"); } else if (xmlRpcType == "array" || xmlRpcType == "varargs") { if (type.GetArrayRank() == 1) // single dim array { wrtr.Write(" of "); Type elemType = type.GetElementType(); string elemXmlRpcType; if (elemType != typeof(Object)) { elemXmlRpcType = XmlRpcTypeInfo.GetXmlRpcTypeString(elemType); } else { elemXmlRpcType = "any"; } wrtr.Write(elemXmlRpcType); if (elemXmlRpcType == "struct" && elemType != typeof(XmlRpcStruct)) { if (!structs.Contains(elemType)) { structs.Add(elemType); } wrtr.Write(" "); wrtr.WriteBeginTag("a"); wrtr.WriteAttribute("href", "#" + elemType.Name); wrtr.Write(HtmlTextWriter.TagRightChar); wrtr.Write(elemType.Name); wrtr.WriteEndTag("a"); } } } }