geode/loader/include/Geode/platform/macos.hpp

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#pragma once
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#include <cstring>
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#include <mach-o/dyld.h>
#include <type_traits>
#include <typeinfo>
namespace geode {
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using dylib_t = void*;
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struct PlatformInfo {
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dylib_t m_dylib;
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};
}
namespace geode::base {
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GEODE_NOINLINE inline uintptr_t get() {
static uintptr_t base = _dyld_get_image_vmaddr_slide(0) + 0x100000000;
return base;
}
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}
namespace geode::cast {
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using uinthalf_t = uint32_t;
using inthalf_t = int32_t;
struct DummyClass {
virtual ~DummyClass() {}
};
struct DummySingleClass : DummyClass {};
struct DummyClass2 {};
struct DummyMultipleClass : DummySingleClass, DummyClass2 {};
struct ClassTypeinfoType {
void** m_typeinfoVtable;
char const* m_typeinfoName;
};
struct SingleClassTypeinfoType : ClassTypeinfoType {
ClassTypeinfoType* m_baseClassTypeinfo;
};
#pragma pack(push, 1)
struct MultipleClassSingleEntryType {
ClassTypeinfoType* m_baseClassTypeinfo;
uint8_t m_visibilityFlag;
inthalf_t m_offset;
uint8_t m_padding[sizeof(inthalf_t) - 1];
};
#pragma pack(pop)
struct MultipleClassTypeinfoType : ClassTypeinfoType {
uint32_t m_flags;
uint32_t m_numBaseClass;
MultipleClassSingleEntryType m_baseClasses[0x100];
};
struct VtableTypeinfoType {
inthalf_t m_offset;
ClassTypeinfoType* m_typeinfo;
};
struct VtableType {
void* m_vtable[0x100];
};
struct CompleteVtableType : VtableTypeinfoType, VtableType {};
inline void** typeinfoVtableOf(void* ptr) {
auto vftable = *reinterpret_cast<VtableType**>(ptr);
auto typeinfoPtr =
static_cast<VtableTypeinfoType*>(static_cast<CompleteVtableType*>(vftable));
return typeinfoPtr->m_typeinfo->m_typeinfoVtable;
}
inline void* traverseTypeinfoFor(
void* ptr, ClassTypeinfoType* typeinfo, char const* afterIdent
) {
DummySingleClass dummySingleClass;
DummyMultipleClass dummyMultipleClass;
{
auto optionIdent = typeinfo->m_typeinfoName;
if (std::strcmp(optionIdent, afterIdent) == 0) {
return ptr;
}
}
if (typeinfo->m_typeinfoVtable == typeinfoVtableOf(&dummySingleClass)) {
auto siTypeinfo = static_cast<SingleClassTypeinfoType*>(typeinfo);
return traverseTypeinfoFor(ptr, siTypeinfo->m_baseClassTypeinfo, afterIdent);
}
else if (typeinfo->m_typeinfoVtable == typeinfoVtableOf(&dummyMultipleClass)) {
auto vmiTypeinfo = static_cast<MultipleClassTypeinfoType*>(typeinfo);
for (int i = 0; i < vmiTypeinfo->m_numBaseClass; ++i) {
auto& entry = vmiTypeinfo->m_baseClasses[i];
auto optionPtr = reinterpret_cast<std::byte*>(ptr) + entry.m_offset;
auto ret = traverseTypeinfoFor(optionPtr, entry.m_baseClassTypeinfo, afterIdent);
if (ret != nullptr) return ret;
}
}
return nullptr;
}
template <class After, class Before>
inline After typeinfo_cast(Before ptr) {
static_assert(
std::is_polymorphic_v<std::remove_pointer_t<Before>>, "Input is not a polymorphic type"
);
auto basePtr = dynamic_cast<void*>(ptr);
auto vftable = *reinterpret_cast<VtableType**>(basePtr);
auto typeinfo =
static_cast<VtableTypeinfoType*>(static_cast<CompleteVtableType*>(vftable))->m_typeinfo;
auto afterTypeinfo =
reinterpret_cast<ClassTypeinfoType const*>(&typeid(std::remove_pointer_t<After>));
auto afterIdent = afterTypeinfo->m_typeinfoName;
return static_cast<After>(traverseTypeinfoFor(basePtr, typeinfo, afterIdent));
}
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}