#pragma once #include "memory.h" #include #include void InstallInitialHooks(); typedef void (*DllLoadCallbackFuncType)(CModule moduleAddress); void AddDllLoadCallback(std::string dll, DllLoadCallbackFuncType callback, std::string tag = "", std::vector reliesOn = {}); void AddDllLoadCallbackForDedicatedServer( std::string dll, DllLoadCallbackFuncType callback, std::string tag = "", std::vector reliesOn = {}); void AddDllLoadCallbackForClient( std::string dll, DllLoadCallbackFuncType callback, std::string tag = "", std::vector reliesOn = {}); void CallAllPendingDLLLoadCallbacks(); // new dll load callback stuff enum class eDllLoadCallbackSide { UNSIDED, CLIENT, DEDICATED_SERVER }; class __dllLoadCallback { public: __dllLoadCallback() = delete; __dllLoadCallback( eDllLoadCallbackSide side, const std::string dllName, DllLoadCallbackFuncType callback, std::string uniqueStr, std::string reliesOn); }; #define __CONCAT3(x, y, z) x##y##z #define CONCAT3(x, y, z) __CONCAT3(x, y, z) #define __CONCAT2(x, y) x##y #define CONCAT2(x, y) __CONCAT2(x, y) #define __STR(s) #s // adds a callback to be called when a given dll is loaded, for creating hooks and such #define __ON_DLL_LOAD(dllName, side, uniquestr, reliesOn, args) \ void CONCAT2(__dllLoadCallback, uniquestr) args; \ namespace \ { \ __dllLoadCallback CONCAT2(__dllLoadCallbackInstance, __LINE__)( \ side, dllName, CONCAT2(__dllLoadCallback, uniquestr), __STR(uniquestr), reliesOn); \ } \ void CONCAT2(__dllLoadCallback, uniquestr) args #define ON_DLL_LOAD(dllName, uniquestr, args) __ON_DLL_LOAD(dllName, eDllLoadCallbackSide::UNSIDED, uniquestr, "", args) #define ON_DLL_LOAD_RELIESON(dllName, uniquestr, reliesOn, args) \ __ON_DLL_LOAD(dllName, eDllLoadCallbackSide::UNSIDED, uniquestr, __STR(reliesOn), args) #define ON_DLL_LOAD_CLIENT(dllName, uniquestr, args) __ON_DLL_LOAD(dllName, eDllLoadCallbackSide::CLIENT, uniquestr, "", args) #define ON_DLL_LOAD_CLIENT_RELIESON(dllName, uniquestr, reliesOn, args) \ __ON_DLL_LOAD(dllName, eDllLoadCallbackSide::CLIENT, uniquestr, __STR(reliesOn), args) #define ON_DLL_LOAD_DEDI(dllName, uniquestr, args) __ON_DLL_LOAD(dllName, eDllLoadCallbackSide::DEDICATED_SERVER, uniquestr, "", args) #define ON_DLL_LOAD_DEDI_RELIESON(dllName, uniquestr, reliesOn, args) \ __ON_DLL_LOAD(dllName, eDllLoadCallbackSide::DEDICATED_SERVER, uniquestr, __STR(reliesOn), args) // new macro hook stuff class __autohook; class __fileAutohook { public: std::vector<__autohook*> hooks; void Dispatch(); void DispatchForModule(const char* pModuleName); }; // initialise autohooks for this file #define AUTOHOOK_INIT() \ namespace \ { \ __fileAutohook __FILEAUTOHOOK; \ } // dispatch all autohooks in this file #define AUTOHOOK_DISPATCH() __FILEAUTOHOOK.Dispatch(); #define AUTOHOOK_DISPATCH_MODULE(moduleName) __FILEAUTOHOOK.DispatchForModule(__STR(moduleName)); class __autohook { public: enum AddressResolutionMode { OFFSET_STRING, // we're using a string that of the format dllname.dll + offset ABSOLUTE_ADDR, // we're using an absolute address, we don't need to process it at all PROCADDRESS // resolve using GetModuleHandle and GetProcAddress }; char* pFuncName; LPVOID pHookFunc; LPVOID* ppOrigFunc; // address resolution props AddressResolutionMode iAddressResolutionMode; char* pAddrString = nullptr; // for OFFSET_STRING LPVOID iAbsoluteAddress = nullptr; // for ABSOLUTE_ADDR char* pModuleName; // for PROCADDRESS char* pProcName; // for PROCADDRESS public: __autohook() = delete; __autohook(__fileAutohook* autohook, const char* funcName, LPVOID absoluteAddress, LPVOID* orig, LPVOID func) : pHookFunc(func), ppOrigFunc(orig), iAbsoluteAddress(absoluteAddress) { iAddressResolutionMode = ABSOLUTE_ADDR; const int iFuncNameStrlen = strlen(funcName) + 1; pFuncName = new char[iFuncNameStrlen]; memcpy(pFuncName, funcName, iFuncNameStrlen); autohook->hooks.push_back(this); } __autohook(__fileAutohook* autohook, const char* funcName, const char* addrString, LPVOID* orig, LPVOID func) : pHookFunc(func), ppOrigFunc(orig) { iAddressResolutionMode = OFFSET_STRING; const int iFuncNameStrlen = strlen(funcName) + 1; pFuncName = new char[iFuncNameStrlen]; memcpy(pFuncName, funcName, iFuncNameStrlen); const int iAddrStrlen = strlen(addrString) + 1; pAddrString = new char[iAddrStrlen]; memcpy(pAddrString, addrString, iAddrStrlen); autohook->hooks.push_back(this); } __autohook(__fileAutohook* autohook, const char* funcName, const char* moduleName, const char* procName, LPVOID* orig, LPVOID func) : pHookFunc(func), ppOrigFunc(orig) { iAddressResolutionMode = PROCADDRESS; const int iFuncNameStrlen = strlen(funcName) + 1; pFuncName = new char[iFuncNameStrlen]; memcpy(pFuncName, funcName, iFuncNameStrlen); const int iModuleNameStrlen = strlen(moduleName) + 1; pModuleName = new char[iModuleNameStrlen]; memcpy(pModuleName, moduleName, iModuleNameStrlen); const int iProcNameStrlen = strlen(procName) + 1; pProcName = new char[iProcNameStrlen]; memcpy(pProcName, procName, iProcNameStrlen); autohook->hooks.push_back(this); } ~__autohook() { delete[] pFuncName; if (pAddrString) delete[] pAddrString; if (pModuleName) delete[] pModuleName; if (pProcName) delete[] pProcName; } void Dispatch() { LPVOID targetAddr = nullptr; // determine the address of the function we're hooking switch (iAddressResolutionMode) { case ABSOLUTE_ADDR: { targetAddr = iAbsoluteAddress; break; } case OFFSET_STRING: { // in the format server.dll + 0xDEADBEEF int iDllNameEnd = 0; for (; !isspace(pAddrString[iDllNameEnd]) && pAddrString[iDllNameEnd] != '+'; iDllNameEnd++) ; char* pModuleName = new char[iDllNameEnd + 1]; memcpy(pModuleName, pAddrString, iDllNameEnd); pModuleName[iDllNameEnd] = '\0'; // get the module address const HMODULE pModuleAddr = GetModuleHandleA(pModuleName); if (!pModuleAddr) break; // get the offset string uintptr_t iOffset = 0; int iOffsetBegin = iDllNameEnd; int iOffsetEnd = strlen(pAddrString); // seek until we hit the start of the number offset for (; !(pAddrString[iOffsetBegin] >= '0' && pAddrString[iOffsetBegin] <= '9') && pAddrString[iOffsetBegin]; iOffsetBegin++) ; bool bIsHex = pAddrString[iOffsetBegin] == '0' && (pAddrString[iOffsetBegin + 1] == 'X' || pAddrString[iOffsetBegin + 1] == 'x'); if (bIsHex) iOffset = std::stoi(pAddrString + iOffsetBegin + 2, 0, 16); else iOffset = std::stoi(pAddrString + iOffsetBegin); targetAddr = (LPVOID)((uintptr_t)pModuleAddr + iOffset); break; } case PROCADDRESS: { targetAddr = GetProcAddress(GetModuleHandleA(pModuleName), pProcName); break; } } if (MH_CreateHook(targetAddr, pHookFunc, ppOrigFunc) == MH_OK) { if (MH_EnableHook(targetAddr) == MH_OK) spdlog::info("Enabling hook {}", pFuncName); else spdlog::error("MH_EnableHook failed for function {}", pFuncName); } else spdlog::error("MH_CreateHook failed for function {}", pFuncName); } }; // hook a function at a given offset from a dll to be dispatched with AUTOHOOK_DISPATCH() #define AUTOHOOK(name, addrString, type, callingConvention, args) \ type callingConvention CONCAT2(__autohookfunc, name) args; \ namespace \ { \ type(*callingConvention name) args; \ __autohook CONCAT2(__autohook, __LINE__)( \ &__FILEAUTOHOOK, __STR(name), __STR(addrString), (LPVOID*)&name, (LPVOID)CONCAT2(__autohookfunc, name)); \ } \ type callingConvention CONCAT2(__autohookfunc, name) args // hook a function at a given absolute constant address to be dispatched with AUTOHOOK_DISPATCH() #define AUTOHOOK_ABSOLUTEADDR(name, addr, type, callingConvention, args) \ type callingConvention CONCAT2(__autohookfunc, name) args; \ namespace \ { \ type(*callingConvention name) args; \ __autohook \ CONCAT2(__autohook, __LINE__)(&__FILEAUTOHOOK, __STR(name), addr, (LPVOID*)&name, (LPVOID)CONCAT2(__autohookfunc, name)); \ } \ type callingConvention CONCAT2(__autohookfunc, name) args // hook a function at a given module and exported function to be dispatched with AUTOHOOK_DISPATCH() #define AUTOHOOK_PROCADDRESS(name, moduleName, procName, type, callingConvention, args) \ type callingConvention CONCAT2(__autohookfunc, name) args; \ namespace \ { \ type(*callingConvention name) args; \ __autohook CONCAT2(__autohook, __LINE__)( \ &__FILEAUTOHOOK, __STR(name), __STR(moduleName), __STR(procName), (LPVOID*)&name, (LPVOID)CONCAT2(__autohookfunc, name)); \ } \ type callingConvention CONCAT2(__autohookfunc, name) \ args class ManualHook { public: char* pFuncName; LPVOID pHookFunc; LPVOID* ppOrigFunc; public: ManualHook() = delete; ManualHook(const char* funcName, LPVOID func); ManualHook(const char* funcName, LPVOID* orig, LPVOID func); bool Dispatch(LPVOID addr, LPVOID* orig = nullptr); }; // hook a function to be dispatched manually later #define HOOK(varName, originalFunc, type, callingConvention, args) \ namespace \ { \ type(*callingConvention originalFunc) args; \ } \ type callingConvention CONCAT2(__manualhookfunc, varName) args; \ ManualHook varName = ManualHook(__STR(varName), (LPVOID*)&originalFunc, (LPVOID)CONCAT2(__manualhookfunc, varName)); \ type callingConvention CONCAT2(__manualhookfunc, varName) args #define HOOK_NOORIG(varName, type, callingConvention, args) \ type callingConvention CONCAT2(__manualhookfunc, varName) args; \ ManualHook varName = ManualHook(__STR(varName), (LPVOID)CONCAT2(__manualhookfunc, varName)); \ type callingConvention CONCAT2(__manualhookfunc, varName) \ args void MakeHook(LPVOID pTarget, LPVOID pDetour, void* ppOriginal, const char* pFuncName = ""); #define MAKEHOOK(pTarget, pDetour, ppOriginal) MakeHook(pTarget, pDetour, ppOriginal, __STR(pDetour))