spt/assembly-tool
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assembly-tool/de4dot/de4dot.code/renamer/asmmodules/Module.cs
Archangel 77a24319b1 Update de4dot to use dnlib 4.4.0 and x64 
Adds the source code used for this modification, this de4dot source code has been cleaned of any things not needed for deobfuscating the tarkov assembly

Co-authored-by: 静穏靄 <170472707+seionmoya@users.noreply.github.com>
2024-12-30 16:01:39 +01:00

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7.9 KiB
C#
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/*
Copyright (C) 2011-2015 de4dot@gmail.com
This file is part of de4dot.
de4dot is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
de4dot 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 for more details.
You should have received a copy of the GNU General Public License
along with de4dot. If not, see <http://www.gnu.org/licenses/>.
*/
using System;
using System.Collections.Generic;
using dnlib.DotNet;
namespace de4dot.code.renamer.asmmodules {
public class Module : IResolver {
IObfuscatedFile obfuscatedFile;
TypeDefDict types = new TypeDefDict();
MemberRefFinder memberRefFinder;
IList<RefToDef<TypeRef, TypeDef>> typeRefsToRename = new List<RefToDef<TypeRef, TypeDef>>();
IList<RefToDef<MemberRef, MethodDef>> methodRefsToRename = new List<RefToDef<MemberRef, MethodDef>>();
IList<RefToDef<MemberRef, FieldDef>> fieldRefsToRename = new List<RefToDef<MemberRef, FieldDef>>();
List<CustomAttributeRef> customAttributeFieldRefs = new List<CustomAttributeRef>();
List<CustomAttributeRef> customAttributePropertyRefs = new List<CustomAttributeRef>();
List<MethodDef> allMethods;
public class CustomAttributeRef {
public CustomAttribute cattr;
public int index;
public IMemberRef reference;
public CustomAttributeRef(CustomAttribute cattr, int index, IMemberRef reference) {
this.cattr = cattr;
this.index = index;
this.reference = reference;
}
}
public class RefToDef<R, D> where R : ICodedToken where D : ICodedToken {
public R reference;
public D definition;
public RefToDef(R reference, D definition) {
this.reference = reference;
this.definition = definition;
}
}
public IEnumerable<RefToDef<TypeRef, TypeDef>> TypeRefsToRename => typeRefsToRename;
public IEnumerable<RefToDef<MemberRef, MethodDef>> MethodRefsToRename => methodRefsToRename;
public IEnumerable<RefToDef<MemberRef, FieldDef>> FieldRefsToRename => fieldRefsToRename;
public IEnumerable<CustomAttributeRef> CustomAttributeFieldRefs => customAttributeFieldRefs;
public IEnumerable<CustomAttributeRef> CustomAttributePropertyRefs => customAttributePropertyRefs;
public IObfuscatedFile ObfuscatedFile => obfuscatedFile;
public string Filename => obfuscatedFile.Filename;
public ModuleDefMD ModuleDefMD => obfuscatedFile.ModuleDefMD;
public Module(IObfuscatedFile obfuscatedFile) => this.obfuscatedFile = obfuscatedFile;
public IEnumerable<MTypeDef> GetAllTypes() => types.GetValues();
public IEnumerable<MethodDef> GetAllMethods() => allMethods;
public void FindAllMemberRefs(ref int typeIndex) {
memberRefFinder = new MemberRefFinder();
memberRefFinder.FindAll(ModuleDefMD);
allMethods = new List<MethodDef>(memberRefFinder.MethodDefs.Keys);
var allTypesList = new List<MTypeDef>();
foreach (var type in memberRefFinder.TypeDefs.Keys) {
var typeDef = new MTypeDef(type, this, typeIndex++);
types.Add(typeDef);
allTypesList.Add(typeDef);
typeDef.AddMembers();
}
var allTypesCopy = new List<MTypeDef>(allTypesList);
var typeToIndex = new Dictionary<TypeDef, int>();
for (int i = 0; i < allTypesList.Count; i++)
typeToIndex[allTypesList[i].TypeDef] = i;
foreach (var typeDef in allTypesList) {
if (typeDef.TypeDef.NestedTypes == null)
continue;
foreach (var nestedTypeDef2 in typeDef.TypeDef.NestedTypes) {
int index = typeToIndex[nestedTypeDef2];
var nestedTypeDef = allTypesCopy[index];
allTypesCopy[index] = null;
if (nestedTypeDef == null) // Impossible
throw new ApplicationException("Nested type belongs to two or more types");
typeDef.Add(nestedTypeDef);
nestedTypeDef.NestingType = typeDef;
}
}
}
public void ResolveAllRefs(IResolver resolver) {
foreach (var typeRef in memberRefFinder.TypeRefs.Keys) {
var typeDef = resolver.ResolveType(typeRef);
if (typeDef != null)
typeRefsToRename.Add(new RefToDef<TypeRef, TypeDef>(typeRef, typeDef.TypeDef));
}
foreach (var memberRef in memberRefFinder.MemberRefs.Keys) {
if (memberRef.IsMethodRef) {
var methodDef = resolver.ResolveMethod(memberRef);
if (methodDef != null)
methodRefsToRename.Add(new RefToDef<MemberRef, MethodDef>(memberRef, methodDef.MethodDef));
}
else if (memberRef.IsFieldRef) {
var fieldDef = resolver.ResolveField(memberRef);
if (fieldDef != null)
fieldRefsToRename.Add(new RefToDef<MemberRef, FieldDef>(memberRef, fieldDef.FieldDef));
}
}
foreach (var cattr in memberRefFinder.CustomAttributes.Keys) {
var typeDef = resolver.ResolveType(cattr.AttributeType);
if (typeDef == null)
continue;
if (cattr.NamedArguments == null)
continue;
for (int i = 0; i < cattr.NamedArguments.Count; i++) {
var namedArg = cattr.NamedArguments[i];
if (namedArg.IsField) {
var fieldDef = FindField(typeDef, namedArg.Name, namedArg.Type);
if (fieldDef == null) {
Logger.w("Could not find field {0} in attribute {1} ({2:X8})",
Utils.ToCsharpString(namedArg.Name),
Utils.ToCsharpString(typeDef.TypeDef.Name),
typeDef.TypeDef.MDToken.ToInt32());
continue;
}
customAttributeFieldRefs.Add(new CustomAttributeRef(cattr, i, fieldDef.FieldDef));
}
else {
var propDef = FindProperty(typeDef, namedArg.Name, namedArg.Type);
if (propDef == null) {
Logger.w("Could not find property {0} in attribute {1} ({2:X8})",
Utils.ToCsharpString(namedArg.Name),
Utils.ToCsharpString(typeDef.TypeDef.Name),
typeDef.TypeDef.MDToken.ToInt32());
continue;
}
customAttributePropertyRefs.Add(new CustomAttributeRef(cattr, i, propDef.PropertyDef));
}
}
}
}
static MFieldDef FindField(MTypeDef typeDef, UTF8String name, TypeSig fieldType) {
while (typeDef != null) {
foreach (var fieldDef in typeDef.AllFields) {
if (fieldDef.FieldDef.Name != name)
continue;
if (new SigComparer().Equals(fieldDef.FieldDef.FieldSig.GetFieldType(), fieldType))
return fieldDef;
}
if (typeDef.baseType == null)
break;
typeDef = typeDef.baseType.typeDef;
}
return null;
}
static MPropertyDef FindProperty(MTypeDef typeDef, UTF8String name, TypeSig propType) {
while (typeDef != null) {
foreach (var propDef in typeDef.AllProperties) {
if (propDef.PropertyDef.Name != name)
continue;
if (new SigComparer().Equals(propDef.PropertyDef.PropertySig.GetRetType(), propType))
return propDef;
}
if (typeDef.baseType == null)
break;
typeDef = typeDef.baseType.typeDef;
}
return null;
}
public void OnTypesRenamed() {
var newTypes = new TypeDefDict();
foreach (var typeDef in types.GetValues()) {
typeDef.OnTypesRenamed();
newTypes.Add(typeDef);
}
types = newTypes;
ModuleDefMD.ResetTypeDefFindCache();
}
static ITypeDefOrRef GetNonGenericTypeRef(ITypeDefOrRef typeRef) {
var ts = typeRef as TypeSpec;
if (ts == null)
return typeRef;
var gis = ts.TryGetGenericInstSig();
if (gis == null || gis.GenericType == null)
return typeRef;
return gis.GenericType.TypeDefOrRef;
}
public MTypeDef ResolveType(ITypeDefOrRef typeRef) => types.Find(GetNonGenericTypeRef(typeRef));
public MMethodDef ResolveMethod(IMethodDefOrRef methodRef) {
var typeDef = types.Find(GetNonGenericTypeRef(methodRef.DeclaringType));
if (typeDef == null)
return null;
return typeDef.FindMethod(methodRef);
}
public MFieldDef ResolveField(MemberRef fieldRef) {
var typeDef = types.Find(GetNonGenericTypeRef(fieldRef.DeclaringType));
if (typeDef == null)
return null;
return typeDef.FindField(fieldRef);
}
}
}
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