#pragma once #define WIN32_LEAN_AND_MEAN #include // min and max is required by gdi, therefore NOMINMAX won't work #ifdef max #undef max #endif #ifdef min #undef min #endif #include #include #include namespace utilities::nt { class library final { public: static library load(const char* name); static library load(const std::string& name); static library load(const std::filesystem::path& path); static library get_by_address(const void* address); library(); explicit library(const std::string& name); explicit library(HMODULE handle); library(const library& a) : module_(a.module_) { } bool operator!=(const library& obj) const { return !(*this == obj); }; bool operator==(const library& obj) const; operator bool() const; operator HMODULE() const; void unprotect() const; void* get_entry_point() const; size_t get_relative_entry_point() const; bool is_valid() const; std::string get_name() const; std::string get_path() const; std::string get_folder() const; std::uint8_t* get_ptr() const; void free(); HMODULE get_handle() const; template T get_proc(const std::string& process) const { if (!this->is_valid()) T{}; return reinterpret_cast(GetProcAddress(this->module_, process.data())); } template std::function get(const std::string& process) const { if (!this->is_valid()) return std::function(); return static_cast(this->get_proc(process)); } template T invoke(const std::string& process, Args ... args) const { auto method = this->get(process); if (method) return method(args...); return T(); } template T invoke_pascal(const std::string& process, Args ... args) const { auto method = this->get(process); if (method) return method(args...); return T(); } template T invoke_this(const std::string& process, void* this_ptr, Args ... args) const { auto method = this->get(this_ptr, process); if (method) return method(args...); return T(); } std::vector get_section_headers() const; PIMAGE_NT_HEADERS get_nt_headers() const; PIMAGE_DOS_HEADER get_dos_header() const; PIMAGE_OPTIONAL_HEADER get_optional_header() const; void** get_iat_entry(const std::string& module_name, const std::string& proc_name) const; private: HMODULE module_; }; template class handle { public: handle() = default; handle(const HANDLE h) : handle_(h) { } ~handle() { if (*this) { CloseHandle(this->handle_); this->handle_ = InvalidHandle; } } handle(const handle&) = delete; handle& operator=(const handle&) = delete; handle(handle&& obj) noexcept : handle() { this->operator=(std::move(obj)); } handle& operator=(handle&& obj) noexcept { if (this != &obj) { this->~handle(); this->handle_ = obj.handle_; obj.handle_ = InvalidHandle; } return *this; } handle& operator=(HANDLE h) noexcept { this->~handle(); this->handle_ = h; return *this; } operator bool() const { return this->handle_ != InvalidHandle; } operator HANDLE() const { return this->handle_; } private: HANDLE handle_{InvalidHandle}; }; bool is_shutdown_in_progress(); __declspec(noreturn) void raise_hard_exception(); std::string load_resource(int id); void relaunch_self(); __declspec(noreturn) void terminate(uint32_t code = 0); }