symbol-processor/data/out.h
2024-08-01 21:57:31 -04:00

174 lines
4.4 KiB
C++

#pragma once
// Check Architecture
#ifndef __arm__
#error "Symbols Are ARM-Only"
#endif
// Headers
#include <variant>
#include <functional>
#include <cstddef>
#include <string>
#include <vector>
#include <map>
#include <type_traits>
#include <cstring>
// Virtual Function Information
template <typename T>
class __Function;
template <typename T>
class __VirtualFunctionInfo {
__VirtualFunctionInfo(T *const addr_, void *const parent_):
addr(addr_),
parent(parent_) {}
[[nodiscard]] bool can_overwrite() const {
return ((void *) *addr) != parent;
}
T *const addr;
void *const parent;
friend class __Function<std::remove_pointer_t<T>>;
};
// Thunks
typedef void *(*thunk_enabler_t)(void *target, void *thunk);
extern thunk_enabler_t thunk_enabler;
// Function Information
template <typename Ret, typename... Args>
class __Function<Ret(Args...)> {
public:
// Types
using ptr_type = Ret (*)(Args...);
using type = std::function<Ret(Args...)>;
using overwrite_type = std::function<Ret(type, Args...)>;
// Normal Function
__Function(const char *const name_, const ptr_type func_, const ptr_type thunk_):
func(func_),
enabled(true),
name(name_),
backup(func_),
thunk(thunk_) {}
// Virtual Function
__Function(const char *const name_, ptr_type *const func_, void *const parent, const ptr_type thunk_):
func(__VirtualFunctionInfo(func_, parent)),
enabled(std::get<__VirtualFunctionInfo<ptr_type>>(func).can_overwrite()),
name(name_),
backup(*get_vtable_addr()),
thunk(thunk_) {}
// Overwrite Function
[[nodiscard]] bool overwrite(overwrite_type target) {
// Check If Enabled
if (!enabled) {
return false;
}
// Enable Thunk
enable_thunk();
// Overwrite
type original = get_thunk_target();
thunk_target = [original, target](Args... args) {
return target(original, std::forward<Args>(args)...);
};
return true;
}
// Getters
[[nodiscard]] ptr_type get(bool result_will_be_stored) {
if (!enabled) {
return nullptr;
} else {
if (result_will_be_stored) {
enable_thunk();
}
if (is_virtual()) {
return *get_vtable_addr();
} else {
return std::get<ptr_type>(func);
}
}
}
[[nodiscard]] ptr_type *get_vtable_addr() const {
return std::get<__VirtualFunctionInfo<ptr_type>>(func).addr;
}
[[nodiscard]] type get_thunk_target() const {
if (thunk_target) {
return thunk_target;
} else {
return backup;
}
}
private:
// Current Function
std::variant<ptr_type, __VirtualFunctionInfo<ptr_type>> func;
[[nodiscard]] bool is_virtual() const {
return func.index() == 1;
}
public:
// State
const bool enabled;
const char *const name;
// Backup Of Original Function Pointer
const ptr_type backup;
private:
// Thunk
const ptr_type thunk;
type thunk_target;
bool thunk_enabled = false;
void enable_thunk() {
if (!thunk_enabled && enabled) {
ptr_type real_thunk = (ptr_type) thunk_enabler((void *) backup, (void *) thunk);
if (!is_virtual()) {
func = real_thunk;
}
thunk_enabled = true;
}
}
};
// Shortcuts
typedef unsigned char uchar;
typedef unsigned short ushort;
typedef unsigned int uint;
// Duplicate VTable
#define RTTI_SIZE 4
template <typename T>
T *dup_vtable(T *vtable) {
// Check
static_assert(std::is_constructible_v<T>, "Unable To Construct VTable");
// Get Size
const uchar *real_vtable = (uchar *) vtable;
real_vtable -= RTTI_SIZE;
const size_t real_vtable_size = sizeof(T) + RTTI_SIZE;
// Allocate
uchar *new_vtable = (uchar *) ::operator new(real_vtable_size);
// Copy
memcpy(new_vtable, real_vtable, real_vtable_size);
// Return
new_vtable += RTTI_SIZE;
return (T *) new_vtable;
}
#undef RTTI_SIZE
// Forward Declarations
{{ forwardDeclarations }}
// Extra Headers
{{ extraHeaders }}
// Warnings
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Winvalid-offsetof"
#pragma GCC diagnostic ignored "-Wshadow"
{{ main }}
// Cleanup Warnings
#pragma GCC diagnostic pop