public SDKClassInfo(IntPtr address, RemoteProcess remoteProcess, PEImageBuffer peImageBuffer)
{
ClassInfo typeInfo = remoteProcess.Read <ClassInfo>(address);
ClassInfoData typeInfoData = remoteProcess.Read <ClassInfoData>(typeInfo.m_InfoData);
Name = $"{remoteProcess.ReadString(typeInfoData.m_Name, 255)}";
ThisTypeInfo = address;
Type = typeInfoData.GetNewEntryType();
Flags = typeInfoData.m_Flags;
Alignment = typeInfoData.m_Alignment;
TotalSize = typeInfoData.m_TotalSize;
FieldCount = typeInfoData.m_FieldCount;
ParentClass = typeInfoData.m_SuperClass;
var superClassInfo = new SDKTypeInfo(ParentClass, remoteProcess);
ParentClassName = $"{superClassInfo.Name}";
// debug
if (Name == "PoseTrackKeyframe")
{
Name = Name;
}
// end debug
// fill fields list
if (FieldCount == 0)
{
if ((ParentClass != IntPtr.Zero) && (TotalSize > superClassInfo.TotalSize))
{
SDKFieldEntry fieldEntry;
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x{superClassInfo.TotalSize.ToString("X4")}[{TotalSize - superClassInfo.TotalSize}]";
fieldEntry.fieldOffset = superClassInfo.TotalSize;
fieldEntry.fieldSize = TotalSize - superClassInfo.TotalSize;
fieldEntry.lastFieldOffset = 0;
fieldEntry.lastFieldSize = 0;
Fields.Add(fieldEntry);
FieldCount++;
}
else if ((ParentClass == IntPtr.Zero) || (Name == ParentClassName))
{
// reference oddity for (Name == ParentClassName) fb::IglooSubsystem : has itself as parent, 0 fields
SDKFieldEntry fieldEntry;
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x000[{TotalSize}]";
fieldEntry.fieldOffset = 0;
fieldEntry.fieldSize = TotalSize;
fieldEntry.lastFieldOffset = 0;
fieldEntry.lastFieldSize = 0;
Fields.Add(fieldEntry);
FieldCount++;
}
}
else //if (FieldCount > 0)
{
for (int i = 0; i < FieldCount; i++)
{
var fieldInfoData = remoteProcess.Read <FieldInfoData>((IntPtr)((Int64)typeInfoData.m_Fields + (i * 0x18)));
SDKFieldEntry fieldEntry;
var fieldTypeInfo = new SDKTypeInfo(fieldInfoData.m_FieldTypePtr, remoteProcess);
// fix the odd field type with flags as 0x0000 or 0x2000
if ((fieldInfoData.m_Flags == 0) || (fieldInfoData.m_Flags == 0x2000))
{
fieldEntry.fieldType = fieldTypeInfo.FixTypeName(fieldTypeInfo.Name);
}
else
{
fieldEntry.fieldType = fieldTypeInfo.GetCppType(); //fieldTypeInfo.Name;
}
fieldEntry.fieldInternalType = fieldTypeInfo.Name;
fieldEntry.fieldBasicType = fieldTypeInfo.Type;//fieldInfoData.GetEntryType();
fieldEntry.fieldName = remoteProcess.ReadString(fieldInfoData.m_Name, 255);
fieldEntry.fieldOffset = fieldInfoData.m_FieldOffset;
fieldEntry.fieldSize = fieldTypeInfo.TotalSize;
fieldEntry.lastFieldOffset = lastFieldOffset;
fieldEntry.lastFieldSize = lastFieldSize;
// fix error with some bools being flagged as int16_t
if ((fieldEntry.fieldType == "int16_t") && (fieldEntry.fieldSize == 1))
{
fieldEntry.fieldType = "bool";
fieldEntry.fieldInternalType = "Boolean";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Boolean;
}
Fields.Add(fieldEntry);
lastFieldOffset = fieldEntry.fieldOffset;
lastFieldSize = fieldTypeInfo.TotalSize;
}
// the field array isn't sorted in offset order so fix that
Fields = Fields.OrderBy(x => x.fieldOffset).ToList();
// check if pads needed
for (int i = 1; i < FieldCount; i++)
{
lastFieldOffset = Fields.ElementAt(i - 1).fieldOffset;
lastFieldSize = Fields.ElementAt(i - 1).fieldSize;
SDKFieldEntry fieldEntry;
fieldEntry = Fields.ElementAt(i);
fieldEntry.lastFieldOffset = lastFieldOffset;
fieldEntry.lastFieldSize = lastFieldSize;
Fields[i] = fieldEntry;
}
for (int i = 0; i < FieldCount; i++)
{
SDKFieldEntry fieldEntry;
if (i == (FieldCount - 1))
{
// last class member so check against total size
if (TotalSize > (Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize))
{
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x{(Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize).ToString("X4")}[{TotalSize - (Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize)}]";
fieldEntry.fieldOffset = Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize;
fieldEntry.fieldSize = TotalSize - (Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize);
fieldEntry.lastFieldOffset = Fields.ElementAt(i).fieldOffset;
fieldEntry.lastFieldSize = Fields.ElementAt(i).fieldSize;
Fields.Add(fieldEntry);
FieldCount++;
}
}
if ((i == 0) && (ParentClass != IntPtr.Zero))
{
// first class member so check against parent size
if (superClassInfo.TotalSize < Fields.ElementAt(i).fieldOffset)
{
var debug = Fields.ElementAt(i).fieldOffset;
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x{superClassInfo.TotalSize.ToString("X4")}[{Fields.ElementAt(i).fieldOffset - superClassInfo.TotalSize}]";
fieldEntry.fieldOffset = superClassInfo.TotalSize;
fieldEntry.fieldSize = Fields.ElementAt(i).fieldOffset - superClassInfo.TotalSize;
fieldEntry.lastFieldOffset = 0; // superClassInfo.TotalSize;
fieldEntry.lastFieldSize = superClassInfo.TotalSize;
Fields.Insert(0, fieldEntry);
i++;
FieldCount++;
}
}
else
{
// inter-field pads. seems to be correct now :)
if (Fields.ElementAt(i).fieldOffset > (Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize))
{
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x{(Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize).ToString("X4")}[{Fields.ElementAt(i).fieldOffset - (Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize)}]";
fieldEntry.fieldOffset = Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize;
fieldEntry.fieldSize = Fields.ElementAt(i).fieldOffset - (Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize);
fieldEntry.lastFieldOffset = Fields.ElementAt(i).fieldOffset;
fieldEntry.lastFieldSize = Fields.ElementAt(i).fieldSize;
Fields.Insert(i, fieldEntry);
i++;
FieldCount++;
}
}
}
}
RuntimeId = typeInfo.m_RuntimeId;
Next = typeInfo.m_Next;
DefaultInstance = typeInfo.m_DefaultInstance;
ClassId = typeInfo.m_ClassId;
GetVtable(remoteProcess, peImageBuffer);
}
static void Main(string[] args)
{
RemoteProcess remoteProcess = new RemoteProcess("starwarsbattlefrontii");
List <SDKEnumFieldInfo> enumList = new List <SDKEnumFieldInfo>();
List <SDKValueTypeInfo> structList = new List <SDKValueTypeInfo>();
List <SDKClassInfo> classList = new List <SDKClassInfo>();
//bool forIDA = false; // set true to adjust output for IDA import (Array<> becomes pointer to type)
remoteProcess.OpenProcessMemory();
var peImageBuffer = new PEImageBuffer(remoteProcess);
var firstTypeInfoPtr = peImageBuffer.FindOffset("48 8B 05 ? ? ? ? 48 89 41 08 48 89 0D ? ? ? ?");
var firstTypeInfo = remoteProcess.Read <IntPtr>((IntPtr)firstTypeInfoPtr);
Console.WriteLine($"Image Base : 0x{remoteProcess.ImageBase.ToString("X9")}");
Console.WriteLine($"Image Size : 0x{remoteProcess.ImageSize.ToString("X9")}");
Console.WriteLine("");
Console.WriteLine($"OFFSET_FirstTypeInfo : 0x{firstTypeInfoPtr.ToString("X9")}");
var next = firstTypeInfo;
Console.WriteLine("Processing...");
var count = 1;
// testing in reclass
var classcount = 1;
var structcount = 1;
var enumcount = 1;
var tasks = new List <Task>();
var tasksCount = 0;
var thisNext = next;
while (remoteProcess.IsValidImagePtr(next))
{
var typeInfo = new SDKTypeInfo(next, remoteProcess);
var type = typeInfo.Type;
if (typeInfo.Name.Contains('('))
{
// some functions apparently defined, skip for now investigate later
type = BasicTypesEnum.kTypeCode_Void;
}
if ((typeInfo.Name.Contains("Float32")) || (typeInfo.Name.Contains("char")))
{
// uneeded class
type = BasicTypesEnum.kTypeCode_Void;
}
switch (type)
{
case BasicTypesEnum.kTypeCode_Enum:
{
enumList.Add(new SDKEnumFieldInfo(next, remoteProcess));
++enumcount;
}
break;
case BasicTypesEnum.kTypeCode_ValueType:
{
structList.Add(new SDKValueTypeInfo(next, remoteProcess));
++structcount;
}
break;
case BasicTypesEnum.kTypeCode_Class:
{
classList.Add(new SDKClassInfo(next, remoteProcess, peImageBuffer));
//if (tasksCount == Environment.ProcessorCount)
//{
// Task.WaitAll(tasks.ToArray());
// tasksCount = 0;
//}
//// experimental multitasking of the classes to speed up finding vtables
//thisNext = next;
//tasks.Add(
// Task.Run(() =>
// {
// var cInfo = new SDKClassInfo(thisNext, remoteProcess, peImageBuffer);
// classList.Add(cInfo);
// }
// ));
//++tasksCount;
++classcount;
}
break;
case BasicTypesEnum.kTypeCode_BasicTypeCount:
{
Console.WriteLine($"{typeInfo.Name}");
}
break;
default:
break;
}
next = typeInfo.Next;
++count;
}
Task.WaitAll(tasks.ToArray());
ProcessHeaders.CreateHeaders(ref enumList, ref structList, ref classList);
// var enumLines = new List<string>();
// if (!forIDA)
// {
// enumLines.Add("#pragma once");
// enumLines.Add("");
// enumLines.Add("namespace fb");
// enumLines.Add("{");
// }
// foreach (SDKEnumFieldInfo enumInfo in enumList)
// {
// enumLines.Add("////////////////////////////////////////");
// enumLines.Add($"// Runtime Id : {enumInfo.RuntimeId}");
// enumLines.Add($"// TypeInfo : 0x{enumInfo.ThisTypeInfo.ToString("X9")}");
// enumLines.Add($"enum {enumInfo.Name}");
// enumLines.Add("{");
// for (int i = 0; i < enumInfo.FieldCount; i++)
// {
// string end = ",";
// if (i == enumInfo.FieldCount - 1)
// {
// end = "";
// }
// // fix some small issues related to having all the enums in the same file
// var fieldName = enumInfo.Fields.ElementAt(i).fieldName;
// if ((enumInfo.Name == "CutsceneActorType") || (enumInfo.Name == "DSJetpackMovementMode") || (enumInfo.Name == "AIPathLinkDirection"))
// {
// fieldName = $"{fieldName}_";
// }
// enumLines.Add($" {fieldName}{end} //0x{i.ToString("X4")}");
// }
// enumLines.Add("};");
// enumLines.Add("");
// }
// if (!forIDA)
// {
// enumLines.Add("}");
// }
// // sort structs for dependencies
// int infoCount = 0;
// while (infoCount < structList.Count)
// {
// var item = structList.ElementAt(infoCount);
// foreach (SDKFieldEntry field in item.Fields)
// {
// var fieldIndex = 0;
// var fieldTypeName = field.fieldType;
// if (fieldTypeName.Contains("-Array"))
// {
// fieldTypeName = field.fieldType.Substring(0, field.fieldType.Length - 6);
// }
// if ((field.fieldBasicType == BasicTypesEnum.kTypeCode_ValueType)
// || (field.fieldBasicType == BasicTypesEnum.kTypeCode_Array))
// {
// foreach (SDKValueTypeInfo fieldInfo in structList)
// {
// if (fieldInfo.Name == fieldTypeName)
// {
// fieldIndex = structList.IndexOf(fieldInfo);
// }
// }
// if (fieldIndex != 0)
// {
// var itemIndex = structList.IndexOf(item);
// // if we find the field item lower than the owning type, drop the owning type below it
// if (fieldIndex > itemIndex)
// {
// var tempInfo = structList.ElementAt(itemIndex);
// structList.RemoveAt(itemIndex);
// structList.Insert(fieldIndex, tempInfo);
// // start the list again
// infoCount = 0;
// break;
// }
// }
// }
// }
// ++infoCount;
// }
// var structLines = new List<string>();
// if (!forIDA)
// {
// structLines.Add("#pragma once");
// structLines.Add("");
// structLines.Add("namespace fb");
// structLines.Add("{");
// }
// foreach (SDKValueTypeInfo structInfo in structList)
// {
// structLines.Add("////////////////////////////////////////");
// structLines.Add($"// Runtime Id : {structInfo.RuntimeId}");
// structLines.Add($"// TypeInfo : 0x{structInfo.ThisTypeInfo.ToString("X9")}");
// structLines.Add($"struct {structInfo.Name}");
// structLines.Add("{");
// for (int i = 0; i < structInfo.FieldCount; i++)
// {
// var fieldType = structInfo.Fields.ElementAt(i).fieldType;
// var postfix = "";
// if (fieldType.Contains("-Array"))
// {
// fieldType = fieldType.Substring(0, fieldType.Length - 6);
// }
// fieldType = FixTypeName(fieldType);
// if ((structInfo.Fields.ElementAt(i).fieldBasicType == BasicTypesEnum.kTypeCode_Class) && (fieldType != "float"))
// {
// postfix = "*";
// }
// if (structInfo.Fields.ElementAt(i).fieldBasicType == BasicTypesEnum.kTypeCode_Array)
// {
// if (forIDA)
// {
// postfix = "*";
// }
// else
// {
// fieldType = $"Array<{fieldType}>";
// }
// }
// structLines.Add($" {fieldType}{postfix} {structInfo.Fields.ElementAt(i).fieldName}; //0x{structInfo.Fields.ElementAt(i).fieldOffset.ToString("X4")}");
// }
// structLines.Add("};");
// structLines.Add("");
// }
// if (!forIDA)
// {
// structLines.Add("}");
// }
// // sort by classid
// classList = classList.OrderBy(x => x.ClassId).ToList();
// var nameLines = new List<string>
// {
// "from idautils import *",
// "from idc import *",
// "from idaapi import *",
// "",
// "def MakeNames():",
// " startEa = SegByBase(SegByName(\"HEADER\"))",
// " imageend = 0",
// "",
// " for ea in Segments():",
// " imageend = SegEnd(ea)",
// ""
// };
// var classLines = new List<string>();
// if (!forIDA)
// {
// classLines.Add("#pragma once");
// classLines.Add("");
// classLines.Add("namespace fb");
// classLines.Add("{");
// }
// var declarationLines = new List<string>();
// if (!forIDA)
// {
// declarationLines.Add("#pragma once");
// declarationLines.Add("");
// declarationLines.Add("namespace fb");
// declarationLines.Add("{");
// }
// foreach (SDKClassInfo classInfo in classList)
// {
// classLines.Add("////////////////////////////////////////");
// classLines.Add($"// Class Id : {classInfo.ClassId}");
// classLines.Add($"// Runtime Id : {classInfo.RuntimeId}");
// classLines.Add($"// TypeInfo : 0x{classInfo.ThisTypeInfo.ToString("X9")}");
// classLines.Add($"// Default Instance : 0x{classInfo.DefaultInstance.ToString("X9")}");
// classLines.Add($"// Vtable : 0x{classInfo.VTable.ToString("X9")}");
// classLines.Add($"#ifndef _{classInfo.Name}_");
// classLines.Add($"#define _{classInfo.Name}_");
// if ((classInfo.ParentClassName != classInfo.Name) && (classInfo.ParentClassName != ""))
// {
// classLines.Add($"class {classInfo.Name} : {classInfo.ParentClassName}");
// }
// else
// {
// classLines.Add($"class {classInfo.Name}");
// }
// classLines.Add("{");
// if (classInfo.FieldCount > 0)
// {
// classLines.Add("public:");
// }
// for (int i = 0; i < classInfo.FieldCount; i++)
// {
// var fieldType = classInfo.Fields.ElementAt(i).fieldType;
// var postfix = "";
// if (fieldType.Contains("-Array"))
// {
// fieldType = fieldType.Substring(0, fieldType.Length - 6);
// }
// fieldType = FixTypeName(fieldType);
// if ((classInfo.Fields.ElementAt(i).fieldBasicType == BasicTypesEnum.kTypeCode_Class) && (fieldType != "float"))
// {
// postfix = "*";
// }
// if (classInfo.Fields.ElementAt(i).fieldBasicType == BasicTypesEnum.kTypeCode_Array)
// {
// if (forIDA)
// {
// postfix = "*";
// }
// else
// {
// fieldType = $"Array<{fieldType}>";
// }
// }
// classLines.Add($" {fieldType}{postfix} {classInfo.Fields.ElementAt(i).fieldName}; //0x{classInfo.Fields.ElementAt(i).fieldOffset.ToString("X4")}");
// }
// classLines.Add("};");
// classLines.Add($"//0x{classInfo.TotalSize.ToString("X4")}");
// classLines.Add($"#endif");
// classLines.Add("");
// declarationLines.Add($"class {classInfo.Name};");
// // idapython stuff
// /*
// * Python>MakeNames()
//14356C140: can't rename byte as 'PlayerAbilityWeaponInfoEntityData_vtbl' because this byte can't have a name (it is a tail byte).
//14356C178: can't rename byte as 'PlayerAbilityWeaponUpgradeInfoEntityData_vtbl' because this byte can't have a name (it is a tail byte).
//1413481DC: can't rename byte as 'ClientWheelComponent_vtbl' because this byte can't have a name (it is a tail byte).
//141948644: can't rename byte as 'ServerVehicleHealthComponent_vtbl' because this byte can't have a name (it is a tail byte).
// */
// if (classInfo.GetTypeFunction != IntPtr.Zero)
// {
// nameLines.Add($" MakeName(0x{classInfo.GetTypeFunction.ToString("X9")}, \"{classInfo.Name}_GetType\")");
// }
// if (classInfo.VTable != IntPtr.Zero)
// {
// nameLines.Add($" MakeName(0x{classInfo.VTable.ToString("X9")}, \"{classInfo.Name}_vtbl\")");
// }
// }
// if (!forIDA)
// {
// classLines.Add("}");
// }
// if (!forIDA)
// {
// declarationLines.Add("}");
// }
// System.IO.File.WriteAllLines(@".\Enums.h", enumLines);
// System.IO.File.WriteAllLines(@".\Structs.h", structLines);
// System.IO.File.WriteAllLines(@".\Declarations.h", declarationLines);
// System.IO.File.WriteAllLines(@".\Classes.h", classLines);
// System.IO.File.WriteAllLines(@".\MakeNames.py", nameLines);
// // c++ import header
// var cppImportLines = new List<string>
// {
// "#pragma once",
// "",
// "namespace fb {",
// " struct Guid",
// " {",
// " unsigned long m_Data1; //0x0000",
// " unsigned short m_Data2; //0x0004",
// " unsigned short m_Data3; //0x0006",
// " unsigned char m_Data4[8]; //0x0008",
// " };",
// " //Size=0x0010",
// "",
// " typedef __m128 BoxedValueRef;",
// " typedef uint64_t ResourceRef;",
// " typedef uint64_t TypeRef;",
// " typedef uint64_t FileRef;",
// "",
// " typedef struct",
// " {",
// " char pad[0x14];",
// " } SHA1;",
// " //Size=0x0014",
// "",
// " template <typename T>",
// " class Array",
// " {",
// " private:",
// " T* m_firstElement;",
// "",
// " public:",
// " T At(INT nIndex)",
// " {",
// " if (m_firstElement == NULL)",
// " return *(T*)((UINT64)NULL);",
// "",
// " return *(T*)((UINT64)m_firstElement + (nIndex * sizeof(T)));",
// " };",
// "",
// " T operator [](INT index) { return At(index); }",
// " };",
// "",
// " #include \"Declarations.h\"",
// " #include \"Enums.h\"",
// " #include \"Structs.h\"",
// " #include \"Classes.h\"",
// "",
// };
// // IDA import header
// var idaImportLines = new List<string>
// {
// "from idautils import *",
// "from idc import *",
// "from idaapi import *",
// "",
// "def MakeNames():",
// " startEa = SegByBase(SegByName(\"HEADER\"))",
// " imageend = 0",
// "",
// " for ea in Segments():",
// " imageend = SegEnd(ea)",
// ""
// };
Console.WriteLine($"Found {count} TypeInfo entries.");
Console.WriteLine($"Found {classcount} ClassInfo entries.");
Console.WriteLine($"Found {structcount} ValueTypeInfo entries.");
Console.WriteLine($"Found {enumcount} EnumFieldInfo entries.");
Console.WriteLine("Done. Press a key to quit.");
remoteProcess.CloseProcessMemory();
Console.ReadLine();
}
public SDKValueTypeInfo(IntPtr address, RemoteProcess remoteProcess)
{
ValueTypeInfo typeInfo = remoteProcess.Read <ValueTypeInfo>(address);
ValueTypeInfoData typeInfoData = remoteProcess.Read <ValueTypeInfoData>(typeInfo.m_InfoData);
Name = $"{remoteProcess.ReadString(typeInfoData.m_Name, 255)}";
ThisTypeInfo = address;
Type = typeInfoData.GetNewEntryType();
Flags = typeInfoData.m_Flags;
Alignment = typeInfoData.m_Alignment;
TotalSize = typeInfoData.m_TotalSize;
FieldCount = typeInfoData.m_FieldCount;
RuntimeId = typeInfo.m_RuntimeId;
Next = typeInfo.m_Next;
// fill fields list
if (FieldCount == 0)
{
SDKFieldEntry fieldEntry;
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x000[{TotalSize}]";
fieldEntry.fieldOffset = 0;
fieldEntry.fieldSize = TotalSize;
fieldEntry.lastFieldOffset = 0;
fieldEntry.lastFieldSize = 0;
Fields.Add(fieldEntry);
FieldCount++;
}
else
{
for (int i = 0; i < FieldCount; i++)
{
var fieldInfoData = remoteProcess.Read <FieldInfoData>((IntPtr)((Int64)typeInfoData.m_Fields + (i * 0x18)));
SDKFieldEntry fieldEntry;
var fieldTypeInfo = new SDKTypeInfo(fieldInfoData.m_FieldTypePtr, remoteProcess);
// fix the odd field type with flags as 0x0000 or 0x2000
if ((fieldInfoData.m_Flags == 0) || (fieldInfoData.m_Flags == 0x2000))
{
fieldEntry.fieldType = fieldTypeInfo.FixTypeName(fieldTypeInfo.Name);
}
else
{
fieldEntry.fieldType = fieldTypeInfo.GetCppType(); //fieldTypeInfo.Name;
}
fieldEntry.fieldInternalType = fieldTypeInfo.Name;
fieldEntry.fieldBasicType = fieldTypeInfo.Type;//fieldInfoData.GetEntryType();
fieldEntry.fieldName = remoteProcess.ReadString(fieldInfoData.m_Name, 255);
fieldEntry.fieldOffset = fieldInfoData.m_FieldOffset;
fieldEntry.fieldSize = fieldTypeInfo.TotalSize;
fieldEntry.lastFieldOffset = lastFieldOffset;
fieldEntry.lastFieldSize = lastFieldSize;
// fix error with some bools being flagged as int16_t
if ((fieldEntry.fieldType == "int16_t") && (fieldEntry.fieldSize == 1))
{
fieldEntry.fieldType = "bool";
}
Fields.Add(fieldEntry);
lastFieldOffset = fieldEntry.fieldOffset;
lastFieldSize = fieldTypeInfo.TotalSize;
}
// the field array isn't always sorted in offset order so fix that
Fields = Fields.OrderBy(x => x.fieldOffset).ToList();
// check if pads needed
for (int i = 1; i < FieldCount; i++)
{
lastFieldOffset = Fields.ElementAt(i - 1).fieldOffset;
lastFieldSize = Fields.ElementAt(i - 1).fieldSize;
SDKFieldEntry fieldEntry;
fieldEntry = Fields.ElementAt(i);
fieldEntry.lastFieldOffset = lastFieldOffset;
fieldEntry.lastFieldSize = lastFieldSize;
Fields[i] = fieldEntry;
}
for (int i = 0; i < FieldCount; i++)
{
SDKFieldEntry fieldEntry;
if (i == (FieldCount - 1))
{
// last class member so check against total size
if (TotalSize > (Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize))
{
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x{(Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize).ToString("X4")}[{TotalSize - (Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize)}]";
fieldEntry.fieldOffset = Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize;
fieldEntry.fieldSize = TotalSize - (Fields.ElementAt(i).fieldOffset + Fields.ElementAt(i).fieldSize);
fieldEntry.lastFieldOffset = Fields.ElementAt(i).fieldOffset;
fieldEntry.lastFieldSize = Fields.ElementAt(i).fieldSize;
Fields.Add(fieldEntry);
FieldCount++;
}
}
else
{
// inter-field pads. seems to be correct now :)
if (Fields.ElementAt(i).fieldOffset > (Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize))
{
fieldEntry.fieldType = "char";
fieldEntry.fieldInternalType = "Uint8";
fieldEntry.fieldBasicType = BasicTypesEnum.kTypeCode_Uint8;
fieldEntry.fieldName = $"_0x{(Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize).ToString("X4")}[{Fields.ElementAt(i).fieldOffset - (Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize)}]";
fieldEntry.fieldOffset = Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize;
fieldEntry.fieldSize = Fields.ElementAt(i).fieldOffset - (Fields.ElementAt(i).lastFieldOffset + Fields.ElementAt(i).lastFieldSize);
fieldEntry.lastFieldOffset = Fields.ElementAt(i).fieldOffset;
fieldEntry.lastFieldSize = Fields.ElementAt(i).fieldSize;
Fields.Insert(i, fieldEntry);
i++;
FieldCount++;
}
}
}
}
}