/* * Copyright (c) 2021 The Khronos Group Inc. * Copyright (c) 2021 Valve Corporation * Copyright (c) 2021 LunarG, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and/or associated documentation files (the "Materials"), to * deal in the Materials without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Materials, and to permit persons to whom the Materials are * furnished to do so, subject to the following conditions: * * The above copyright notice(s) and this permission notice shall be included in * all copies or substantial portions of the Materials. * * THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE MATERIALS OR THE * USE OR OTHER DEALINGS IN THE MATERIALS. * * Author: Charles Giessen */ // This needs to be defined first, or else we'll get redefinitions on NTSTATUS values #if defined(_WIN32) #define UMDF_USING_NTSTATUS #include #endif #include #include #include "shim.h" #include "detours.h" static PlatformShim platform_shim; extern "C" { static LibraryWrapper gdi32_dll; using PFN_GetSidSubAuthority = PDWORD(__stdcall *)(PSID pSid, DWORD nSubAuthority); static PFN_GetSidSubAuthority fpGetSidSubAuthority = GetSidSubAuthority; PDWORD __stdcall ShimGetSidSubAuthority(PSID, DWORD) { return &platform_shim.elevation_level; } static PFN_LoaderEnumAdapters2 fpEnumAdapters2 = nullptr; static PFN_LoaderQueryAdapterInfo fpQueryAdapterInfo = nullptr; NTSTATUS APIENTRY ShimEnumAdapters2(LoaderEnumAdapters2 *adapters) { if (adapters == nullptr) { return STATUS_INVALID_PARAMETER; } if (platform_shim.d3dkmt_adapters.size() == 0) { if (adapters->adapters != nullptr) adapters->adapter_count = 0; return STATUS_SUCCESS; } if (adapters->adapters != nullptr) { for (size_t i = 0; i < platform_shim.d3dkmt_adapters.size(); i++) { adapters->adapters[i].handle = platform_shim.d3dkmt_adapters[i].hAdapter; adapters->adapters[i].luid = platform_shim.d3dkmt_adapters[i].adapter_luid; } adapters->adapter_count = static_cast(platform_shim.d3dkmt_adapters.size()); } else { adapters->adapter_count = static_cast(platform_shim.d3dkmt_adapters.size()); } return STATUS_SUCCESS; } NTSTATUS APIENTRY ShimQueryAdapterInfo(const LoaderQueryAdapterInfo *query_info) { if (query_info == nullptr || query_info->private_data == nullptr) { return STATUS_INVALID_PARAMETER; } auto handle = query_info->handle; auto it = std::find_if(platform_shim.d3dkmt_adapters.begin(), platform_shim.d3dkmt_adapters.end(), [handle](D3DKMT_Adapter const &adapter) { return handle == adapter.hAdapter; }); if (it == platform_shim.d3dkmt_adapters.end()) { return STATUS_INVALID_PARAMETER; } auto &adapter = *it; auto *reg_info = reinterpret_cast(query_info->private_data); std::vector *paths = nullptr; if (wcsstr(reg_info->value_name, L"DriverName") != nullptr) { // looking for drivers paths = &adapter.driver_paths; } else if (wcsstr(reg_info->value_name, L"ImplicitLayers") != nullptr) { // looking for implicit layers paths = &adapter.implicit_layer_paths; } else if (wcsstr(reg_info->value_name, L"ExplicitLayers") != nullptr) { // looking for explicit layers paths = &adapter.explicit_layer_paths; } reg_info->status = LOADER_QUERY_REGISTRY_STATUS_SUCCESS; if (reg_info->output_value_size == 0) { // final null terminator size ULONG size = 2; // size is in bytes, so multiply path size + 1 (for null terminator) by size of wchar (basically, 2). for (auto const &path : *paths) size += static_cast((path.length() + 1) * sizeof(wchar_t)); reg_info->output_value_size = size; if (size != 2) { // only want to write data if there is path data to write reg_info->status = LOADER_QUERY_REGISTRY_STATUS_BUFFER_OVERFLOW; } } else if (reg_info->output_value_size > 2) { size_t index = 0; for (auto const &path : *paths) { for (auto w : path) { reg_info->output_string[index++] = w; } reg_info->output_string[index++] = L'\0'; } // make sure there is a null terminator reg_info->output_string[index++] = L'\0'; reg_info->status = LOADER_QUERY_REGISTRY_STATUS_SUCCESS; } return STATUS_SUCCESS; } // clang-format off static CONFIGRET(WINAPI *REAL_CM_Get_Device_ID_List_SizeW)(PULONG pulLen, PCWSTR pszFilter, ULONG ulFlags) = CM_Get_Device_ID_List_SizeW; static CONFIGRET(WINAPI *REAL_CM_Get_Device_ID_ListW)(PCWSTR pszFilter, PZZWSTR Buffer, ULONG BufferLen, ULONG ulFlags) = CM_Get_Device_ID_ListW; static CONFIGRET(WINAPI *REAL_CM_Locate_DevNodeW)(PDEVINST pdnDevInst, DEVINSTID_W pDeviceID, ULONG ulFlags) = CM_Locate_DevNodeW; static CONFIGRET(WINAPI *REAL_CM_Get_DevNode_Status)(PULONG pulStatus, PULONG pulProblemNumber, DEVINST dnDevInst, ULONG ulFlags) = CM_Get_DevNode_Status; static CONFIGRET(WINAPI *REAL_CM_Get_Device_IDW)(DEVINST dnDevInst, PWSTR Buffer, ULONG BufferLen, ULONG ulFlags) = CM_Get_Device_IDW; static CONFIGRET(WINAPI *REAL_CM_Get_Child)(PDEVINST pdnDevInst, DEVINST dnDevInst, ULONG ulFlags) = CM_Get_Child; static CONFIGRET(WINAPI *REAL_CM_Get_DevNode_Registry_PropertyW)(DEVINST dnDevInst, ULONG ulProperty, PULONG pulRegDataType, PVOID Buffer, PULONG pulLength, ULONG ulFlags) = CM_Get_DevNode_Registry_PropertyW; static CONFIGRET(WINAPI *REAL_CM_Get_Sibling)(PDEVINST pdnDevInst, DEVINST dnDevInst, ULONG ulFlags) = CM_Get_Sibling; // clang-format on CONFIGRET WINAPI SHIM_CM_Get_Device_ID_List_SizeW(PULONG pulLen, [[maybe_unused]] PCWSTR pszFilter, [[maybe_unused]] ULONG ulFlags) { if (pulLen == nullptr) { return CR_INVALID_POINTER; } *pulLen = static_cast(platform_shim.CM_device_ID_list.size()); return CR_SUCCESS; } CONFIGRET WINAPI SHIM_CM_Get_Device_ID_ListW([[maybe_unused]] PCWSTR pszFilter, PZZWSTR Buffer, ULONG BufferLen, [[maybe_unused]] ULONG ulFlags) { if (Buffer != NULL) { if (BufferLen < platform_shim.CM_device_ID_list.size()) return CR_BUFFER_SMALL; for (size_t i = 0; i < BufferLen; i++) { Buffer[i] = platform_shim.CM_device_ID_list[i]; } } return CR_SUCCESS; } // TODO CONFIGRET WINAPI SHIM_CM_Locate_DevNodeW(PDEVINST, DEVINSTID_W, ULONG) { return CR_FAILURE; } // TODO CONFIGRET WINAPI SHIM_CM_Get_DevNode_Status(PULONG, PULONG, DEVINST, ULONG) { return CR_FAILURE; } // TODO CONFIGRET WINAPI SHIM_CM_Get_Device_IDW(DEVINST, PWSTR, ULONG, ULONG) { return CR_FAILURE; } // TODO CONFIGRET WINAPI SHIM_CM_Get_Child(PDEVINST, DEVINST, ULONG) { return CR_FAILURE; } // TODO CONFIGRET WINAPI SHIM_CM_Get_DevNode_Registry_PropertyW(DEVINST, ULONG, PULONG, PVOID, PULONG, ULONG) { return CR_FAILURE; } // TODO CONFIGRET WINAPI SHIM_CM_Get_Sibling(PDEVINST, DEVINST, ULONG) { return CR_FAILURE; } static LibraryWrapper dxgi_module; typedef HRESULT(APIENTRY *PFN_CreateDXGIFactory1)(REFIID riid, void **ppFactory); PFN_CreateDXGIFactory1 RealCreateDXGIFactory1; HRESULT __stdcall ShimGetDesc1(IDXGIAdapter1 *pAdapter, /* [annotation][out] */ _Out_ DXGI_ADAPTER_DESC1 *pDesc) { if (pAdapter == nullptr || pDesc == nullptr) return DXGI_ERROR_INVALID_CALL; for (const auto &[index, adapter] : platform_shim.dxgi_adapters) { if (&adapter.adapter_instance == pAdapter) { *pDesc = adapter.desc1; return S_OK; } } return DXGI_ERROR_INVALID_CALL; } ULONG __stdcall ShimIDXGIFactory1Release(IDXGIFactory1 *) { return S_OK; } ULONG __stdcall ShimIDXGIFactory6Release(IDXGIFactory6 *) { return S_OK; } ULONG __stdcall ShimRelease(IDXGIAdapter1 *) { return S_OK; } IDXGIAdapter1 *setup_and_get_IDXGIAdapter1(DXGIAdapter &adapter) { adapter.adapter_vtbl_instance.GetDesc1 = ShimGetDesc1; adapter.adapter_vtbl_instance.Release = ShimRelease; adapter.adapter_instance.lpVtbl = &adapter.adapter_vtbl_instance; return &adapter.adapter_instance; } HRESULT __stdcall ShimEnumAdapters1_1([[maybe_unused]] IDXGIFactory1 *This, /* [in] */ UINT Adapter, /* [annotation][out] */ _COM_Outptr_ IDXGIAdapter1 **ppAdapter) { if (Adapter >= platform_shim.dxgi_adapters.size()) { return DXGI_ERROR_INVALID_CALL; } if (ppAdapter != nullptr) { *ppAdapter = setup_and_get_IDXGIAdapter1(platform_shim.dxgi_adapters.at(Adapter)); } return S_OK; } HRESULT __stdcall ShimEnumAdapters1_6([[maybe_unused]] IDXGIFactory6 *This, /* [in] */ UINT Adapter, /* [annotation][out] */ _COM_Outptr_ IDXGIAdapter1 **ppAdapter) { if (Adapter >= platform_shim.dxgi_adapters.size()) { return DXGI_ERROR_INVALID_CALL; } if (ppAdapter != nullptr) { *ppAdapter = setup_and_get_IDXGIAdapter1(platform_shim.dxgi_adapters.at(Adapter)); } return S_OK; } HRESULT __stdcall ShimEnumAdapterByGpuPreference([[maybe_unused]] IDXGIFactory6 *This, _In_ UINT Adapter, [[maybe_unused]] _In_ DXGI_GPU_PREFERENCE GpuPreference, [[maybe_unused]] _In_ REFIID riid, _COM_Outptr_ void **ppvAdapter) { if (Adapter >= platform_shim.dxgi_adapters.size()) { return DXGI_ERROR_NOT_FOUND; } // loader always uses DXGI_GPU_PREFERENCE_UNSPECIFIED // Update the shim if this isn't the case assert(GpuPreference == DXGI_GPU_PREFERENCE::DXGI_GPU_PREFERENCE_UNSPECIFIED && "Test shim assumes the GpuPreference is unspecified."); if (ppvAdapter != nullptr) { *ppvAdapter = setup_and_get_IDXGIAdapter1(platform_shim.dxgi_adapters.at(Adapter)); } return S_OK; } static IDXGIFactory1 *get_IDXGIFactory1() { static IDXGIFactory1Vtbl vtbl{}; vtbl.EnumAdapters1 = ShimEnumAdapters1_1; vtbl.Release = ShimIDXGIFactory1Release; static IDXGIFactory1 factory{}; factory.lpVtbl = &vtbl; return &factory; } static IDXGIFactory6 *get_IDXGIFactory6() { static IDXGIFactory6Vtbl vtbl{}; vtbl.EnumAdapters1 = ShimEnumAdapters1_6; vtbl.EnumAdapterByGpuPreference = ShimEnumAdapterByGpuPreference; vtbl.Release = ShimIDXGIFactory6Release; static IDXGIFactory6 factory{}; factory.lpVtbl = &vtbl; return &factory; } HRESULT __stdcall ShimCreateDXGIFactory1(REFIID riid, void **ppFactory) { if (riid == IID_IDXGIFactory1) { auto *factory = get_IDXGIFactory1(); *ppFactory = factory; return S_OK; } if (riid == IID_IDXGIFactory6) { auto *factory = get_IDXGIFactory6(); *ppFactory = factory; return S_OK; } assert(false && "new riid, update shim code to handle"); return S_FALSE; } // Windows Registry shims using PFN_RegOpenKeyExA = LSTATUS(__stdcall *)(HKEY hKey, LPCSTR lpSubKey, DWORD ulOptions, REGSAM samDesired, PHKEY phkResult); static PFN_RegOpenKeyExA fpRegOpenKeyExA = RegOpenKeyExA; using PFN_RegQueryValueExA = LSTATUS(__stdcall *)(HKEY hKey, LPCSTR lpValueName, LPDWORD lpReserved, LPDWORD lpType, LPBYTE lpData, LPDWORD lpcbData); static PFN_RegQueryValueExA fpRegQueryValueExA = RegQueryValueExA; using PFN_RegEnumValueA = LSTATUS(__stdcall *)(HKEY hKey, DWORD dwIndex, LPSTR lpValueName, LPDWORD lpcchValueName, LPDWORD lpReserved, LPDWORD lpType, LPBYTE lpData, LPDWORD lpcbData); static PFN_RegEnumValueA fpRegEnumValueA = RegEnumValueA; using PFN_RegCloseKey = LSTATUS(__stdcall *)(HKEY hKey); static PFN_RegCloseKey fpRegCloseKey = RegCloseKey; LSTATUS __stdcall ShimRegOpenKeyExA(HKEY hKey, LPCSTR lpSubKey, [[maybe_unused]] DWORD ulOptions, [[maybe_unused]] REGSAM samDesired, PHKEY phkResult) { if (HKEY_LOCAL_MACHINE != hKey && HKEY_CURRENT_USER != hKey) return ERROR_BADKEY; std::string hive = ""; if (HKEY_LOCAL_MACHINE == hKey) hive = "HKEY_LOCAL_MACHINE"; else if (HKEY_CURRENT_USER == hKey) hive = "HKEY_CURRENT_USER"; if (hive == "") return ERROR_ACCESS_DENIED; platform_shim.created_keys.emplace_back(platform_shim.created_key_count++, hive + "\\" + lpSubKey); *phkResult = platform_shim.created_keys.back().get(); return 0; } const std::string *get_path_of_created_key(HKEY hKey) { for (const auto &key : platform_shim.created_keys) { if (key.key == hKey) { return &key.path; } } return nullptr; } std::vector *get_registry_vector(std::string const &path) { if (path == "HKEY_LOCAL_MACHINE\\" VK_DRIVERS_INFO_REGISTRY_LOC) return &platform_shim.hkey_local_machine_drivers; if (path == "HKEY_LOCAL_MACHINE\\" VK_ELAYERS_INFO_REGISTRY_LOC) return &platform_shim.hkey_local_machine_explicit_layers; if (path == "HKEY_LOCAL_MACHINE\\" VK_ILAYERS_INFO_REGISTRY_LOC) return &platform_shim.hkey_local_machine_implicit_layers; if (path == "HKEY_CURRENT_USER\\" VK_ELAYERS_INFO_REGISTRY_LOC) return &platform_shim.hkey_current_user_explicit_layers; if (path == "HKEY_CURRENT_USER\\" VK_ILAYERS_INFO_REGISTRY_LOC) return &platform_shim.hkey_current_user_implicit_layers; if (path == "HKEY_LOCAL_MACHINE\\" VK_SETTINGS_INFO_REGISTRY_LOC) return &platform_shim.hkey_local_machine_settings; if (path == "HKEY_CURRENT_USER\\" VK_SETTINGS_INFO_REGISTRY_LOC) return &platform_shim.hkey_current_user_settings; return nullptr; } LSTATUS __stdcall ShimRegQueryValueExA(HKEY, LPCSTR, LPDWORD, LPDWORD, LPBYTE, LPDWORD) { // TODO: return ERROR_SUCCESS; } LSTATUS __stdcall ShimRegEnumValueA(HKEY hKey, DWORD dwIndex, LPSTR lpValueName, LPDWORD lpcchValueName, [[maybe_unused]] LPDWORD lpReserved, [[maybe_unused]] LPDWORD lpType, LPBYTE lpData, LPDWORD lpcbData) { const std::string *path = get_path_of_created_key(hKey); if (path == nullptr) return ERROR_NO_MORE_ITEMS; const auto *location_ptr = get_registry_vector(*path); if (location_ptr == nullptr) return ERROR_NO_MORE_ITEMS; const auto &location = *location_ptr; if (dwIndex >= location.size()) return ERROR_NO_MORE_ITEMS; std::string name = narrow(location[dwIndex].name); if (*lpcchValueName < name.size()) return ERROR_NO_MORE_ITEMS; for (size_t i = 0; i < name.size(); i++) { lpValueName[i] = name[i]; } lpValueName[name.size()] = '\0'; *lpcchValueName = static_cast(name.size() + 1); if (*lpcbData < sizeof(DWORD)) return ERROR_NO_MORE_ITEMS; DWORD *lpcbData_dword = reinterpret_cast(lpData); *lpcbData_dword = location[dwIndex].value; *lpcbData = sizeof(DWORD); return ERROR_SUCCESS; } LSTATUS __stdcall ShimRegCloseKey(HKEY hKey) { for (size_t i = 0; i < platform_shim.created_keys.size(); i++) { if (platform_shim.created_keys[i].get() == hKey) { platform_shim.created_keys.erase(platform_shim.created_keys.begin() + i); return ERROR_SUCCESS; } } // means that RegCloseKey was called with an invalid key value (one that doesn't exist or has already been closed) exit(-1); } // Windows app package shims using PFN_GetPackagesByPackageFamily = LONG(WINAPI *)(PCWSTR, UINT32 *, PWSTR *, UINT32 *, WCHAR *); static PFN_GetPackagesByPackageFamily fpGetPackagesByPackageFamily = GetPackagesByPackageFamily; using PFN_GetPackagePathByFullName = LONG(WINAPI *)(PCWSTR, UINT32 *, PWSTR); static PFN_GetPackagePathByFullName fpGetPackagePathByFullName = GetPackagePathByFullName; static constexpr wchar_t package_full_name[] = L"ThisIsARandomStringSinceTheNameDoesn'tMatter"; LONG WINAPI ShimGetPackagesByPackageFamily(_In_ PCWSTR packageFamilyName, _Inout_ UINT32 *count, _Out_writes_opt_(*count) PWSTR *packageFullNames, _Inout_ UINT32 *bufferLength, _Out_writes_opt_(*bufferLength) WCHAR *buffer) { if (!packageFamilyName || !count || !bufferLength) return ERROR_INVALID_PARAMETER; if (!platform_shim.app_package_path.empty() && wcscmp(packageFamilyName, L"Microsoft.D3DMappingLayers_8wekyb3d8bbwe") == 0) { if (*count > 0 && !packageFullNames) return ERROR_INVALID_PARAMETER; if (*bufferLength > 0 && !buffer) return ERROR_INVALID_PARAMETER; if (*count > 1) return ERROR_INVALID_PARAMETER; bool too_small = *count < 1 || *bufferLength < ARRAYSIZE(package_full_name); *count = 1; *bufferLength = ARRAYSIZE(package_full_name); if (too_small) return ERROR_INSUFFICIENT_BUFFER; for (size_t i = 0; i < sizeof(package_full_name) / sizeof(wchar_t); i++) { if (i >= *bufferLength) { break; } buffer[i] = package_full_name[i]; } *packageFullNames = buffer; return 0; } *count = 0; *bufferLength = 0; return 0; } LONG WINAPI ShimGetPackagePathByFullName(_In_ PCWSTR packageFullName, _Inout_ UINT32 *pathLength, _Out_writes_opt_(*pathLength) PWSTR path) { if (!packageFullName || !pathLength) return ERROR_INVALID_PARAMETER; if (*pathLength > 0 && !path) return ERROR_INVALID_PARAMETER; if (wcscmp(packageFullName, package_full_name) != 0) { *pathLength = 0; return 0; } if (*pathLength < platform_shim.app_package_path.size() + 1) { *pathLength = static_cast(platform_shim.app_package_path.size() + 1); return ERROR_INSUFFICIENT_BUFFER; } for (size_t i = 0; i < platform_shim.app_package_path.length(); i++) { if (i >= *pathLength) { break; } path[i] = platform_shim.app_package_path.c_str()[i]; } return 0; } using PFN_OutputDebugStringA = void(__stdcall *)(LPCSTR lpOutputString); static PFN_OutputDebugStringA fp_OutputDebugStringA = OutputDebugStringA; void __stdcall intercept_OutputDebugStringA(LPCSTR lpOutputString) { if (lpOutputString != nullptr) { platform_shim.fputs_stderr_log += lpOutputString; } } // Initialization void WINAPI DetourFunctions() { if (!gdi32_dll) { gdi32_dll = LibraryWrapper("gdi32.dll"); fpEnumAdapters2 = gdi32_dll.get_symbol("D3DKMTEnumAdapters2"); if (fpEnumAdapters2 == nullptr) { std::cerr << "Failed to load D3DKMTEnumAdapters2\n"; return; } fpQueryAdapterInfo = gdi32_dll.get_symbol("D3DKMTQueryAdapterInfo"); if (fpQueryAdapterInfo == nullptr) { std::cerr << "Failed to load D3DKMTQueryAdapterInfo\n"; return; } } if (!dxgi_module) { TCHAR systemPath[MAX_PATH] = ""; GetSystemDirectory(systemPath, MAX_PATH); StringCchCat(systemPath, MAX_PATH, TEXT("\\dxgi.dll")); dxgi_module = LibraryWrapper(systemPath); RealCreateDXGIFactory1 = dxgi_module.get_symbol("CreateDXGIFactory1"); if (RealCreateDXGIFactory1 == nullptr) { std::cerr << "Failed to load CreateDXGIFactory1\n"; } } DetourRestoreAfterWith(); DetourTransactionBegin(); DetourUpdateThread(GetCurrentThread()); DetourAttach(&(PVOID &)fpGetSidSubAuthority, (PVOID)ShimGetSidSubAuthority); DetourAttach(&(PVOID &)fpEnumAdapters2, (PVOID)ShimEnumAdapters2); DetourAttach(&(PVOID &)fpQueryAdapterInfo, (PVOID)ShimQueryAdapterInfo); DetourAttach(&(PVOID &)REAL_CM_Get_Device_ID_List_SizeW, (PVOID)SHIM_CM_Get_Device_ID_List_SizeW); DetourAttach(&(PVOID &)REAL_CM_Get_Device_ID_ListW, (PVOID)SHIM_CM_Get_Device_ID_ListW); DetourAttach(&(PVOID &)REAL_CM_Get_Device_ID_ListW, (PVOID)SHIM_CM_Get_Device_ID_ListW); DetourAttach(&(PVOID &)REAL_CM_Locate_DevNodeW, (PVOID)SHIM_CM_Locate_DevNodeW); DetourAttach(&(PVOID &)REAL_CM_Get_DevNode_Status, (PVOID)SHIM_CM_Get_DevNode_Status); DetourAttach(&(PVOID &)REAL_CM_Get_Device_IDW, (PVOID)SHIM_CM_Get_Device_IDW); DetourAttach(&(PVOID &)REAL_CM_Get_Child, (PVOID)SHIM_CM_Get_Child); DetourAttach(&(PVOID &)REAL_CM_Get_DevNode_Registry_PropertyW, (PVOID)SHIM_CM_Get_DevNode_Registry_PropertyW); DetourAttach(&(PVOID &)REAL_CM_Get_Sibling, (PVOID)SHIM_CM_Get_Sibling); DetourAttach(&(PVOID &)RealCreateDXGIFactory1, (PVOID)ShimCreateDXGIFactory1); DetourAttach(&(PVOID &)fpRegOpenKeyExA, (PVOID)ShimRegOpenKeyExA); DetourAttach(&(PVOID &)fpRegQueryValueExA, (PVOID)ShimRegQueryValueExA); DetourAttach(&(PVOID &)fpRegEnumValueA, (PVOID)ShimRegEnumValueA); DetourAttach(&(PVOID &)fpRegCloseKey, (PVOID)ShimRegCloseKey); DetourAttach(&(PVOID &)fpGetPackagesByPackageFamily, (PVOID)ShimGetPackagesByPackageFamily); DetourAttach(&(PVOID &)fpGetPackagePathByFullName, (PVOID)ShimGetPackagePathByFullName); DetourAttach(&(PVOID &)fp_OutputDebugStringA, (PVOID)intercept_OutputDebugStringA); LONG error = DetourTransactionCommit(); if (error != NO_ERROR) { std::cerr << "simple" << DETOURS_STRINGIFY(DETOURS_BITS) << ".dll:" << " Error detouring function(): " << error << "\n"; } } void DetachFunctions() { DetourTransactionBegin(); DetourUpdateThread(GetCurrentThread()); DetourDetach(&(PVOID &)fpGetSidSubAuthority, (PVOID)ShimGetSidSubAuthority); DetourDetach(&(PVOID &)fpEnumAdapters2, (PVOID)ShimEnumAdapters2); DetourDetach(&(PVOID &)fpQueryAdapterInfo, (PVOID)ShimQueryAdapterInfo); DetourDetach(&(PVOID &)REAL_CM_Get_Device_ID_List_SizeW, (PVOID)SHIM_CM_Get_Device_ID_List_SizeW); DetourDetach(&(PVOID &)REAL_CM_Get_Device_ID_ListW, (PVOID)SHIM_CM_Get_Device_ID_ListW); DetourDetach(&(PVOID &)REAL_CM_Locate_DevNodeW, (PVOID)SHIM_CM_Locate_DevNodeW); DetourDetach(&(PVOID &)REAL_CM_Get_DevNode_Status, (PVOID)SHIM_CM_Get_DevNode_Status); DetourDetach(&(PVOID &)REAL_CM_Get_Device_IDW, (PVOID)SHIM_CM_Get_Device_IDW); DetourDetach(&(PVOID &)REAL_CM_Get_Child, (PVOID)SHIM_CM_Get_Child); DetourDetach(&(PVOID &)REAL_CM_Get_DevNode_Registry_PropertyW, (PVOID)SHIM_CM_Get_DevNode_Registry_PropertyW); DetourDetach(&(PVOID &)REAL_CM_Get_Sibling, (PVOID)SHIM_CM_Get_Sibling); DetourDetach(&(PVOID &)RealCreateDXGIFactory1, (PVOID)ShimCreateDXGIFactory1); DetourDetach(&(PVOID &)fpRegOpenKeyExA, (PVOID)ShimRegOpenKeyExA); DetourDetach(&(PVOID &)fpRegQueryValueExA, (PVOID)ShimRegQueryValueExA); DetourDetach(&(PVOID &)fpRegEnumValueA, (PVOID)ShimRegEnumValueA); DetourDetach(&(PVOID &)fpRegCloseKey, (PVOID)ShimRegCloseKey); DetourDetach(&(PVOID &)fpGetPackagesByPackageFamily, (PVOID)ShimGetPackagesByPackageFamily); DetourDetach(&(PVOID &)fpGetPackagePathByFullName, (PVOID)ShimGetPackagePathByFullName); DetourDetach(&(PVOID &)fp_OutputDebugStringA, (PVOID)intercept_OutputDebugStringA); DetourTransactionCommit(); } BOOL WINAPI DllMain([[maybe_unused]] HINSTANCE hinst, DWORD dwReason, [[maybe_unused]] LPVOID reserved) { if (DetourIsHelperProcess()) { return TRUE; } if (dwReason == DLL_PROCESS_ATTACH) { DetourFunctions(); } else if (dwReason == DLL_PROCESS_DETACH) { DetachFunctions(); } return TRUE; } FRAMEWORK_EXPORT PlatformShim *get_platform_shim(std::vector *folders) { platform_shim = PlatformShim(folders); return &platform_shim; } }