//********************************************************* // // Copyright (c) Microsoft. All rights reserved. // This code is licensed under the MIT License. // THE SOFTWARE IS 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. // //********************************************************* #ifndef __WIL_CPPWINRT_INCLUDED #define __WIL_CPPWINRT_INCLUDED #include "common.h" #include #include #include #include // WIL and C++/WinRT use two different exception types for communicating HRESULT failures. Thus, both libraries need to // understand how to translate these exception types into the correct HRESULT values at the ABI boundary. Prior to // C++/WinRT "2.0" this was accomplished by injecting the WINRT_EXTERNAL_CATCH_CLAUSE macro - that WIL defines below - // into its exception handler (winrt::to_hresult). Starting with C++/WinRT "2.0" this mechanism has shifted to a global // function pointer - winrt_to_hresult_handler - that WIL sets automatically when this header is included and // 'CPPWINRT_SUPPRESS_STATIC_INITIALIZERS' is not defined. /// @cond namespace wil::details { // Since the C++/WinRT version macro is a string... // For example: "2.0.221104.6" inline constexpr int version_from_string(const char* versionString) { int result = 0; while ((*versionString >= '0') && (*versionString <= '9')) { result = result * 10 + (*versionString - '0'); ++versionString; } return result; } inline constexpr int major_version_from_string(const char* versionString) { return version_from_string(versionString); } inline constexpr int minor_version_from_string(const char* versionString) { int dotCount = 0; while ((*versionString != '\0')) { if (*versionString == '.') { ++dotCount; } ++versionString; if (dotCount == 2) { return version_from_string(versionString); } } return 0; } } /// @endcond #ifdef CPPWINRT_VERSION // Prior to C++/WinRT "2.0" this header needed to be included before 'winrt/base.h' so that our definition of // 'WINRT_EXTERNAL_CATCH_CLAUSE' would get picked up in the implementation of 'winrt::to_hresult'. This is no longer // problematic, so only emit an error when using a version of C++/WinRT prior to 2.0 static_assert(::wil::details::major_version_from_string(CPPWINRT_VERSION) >= 2, "Please include wil/cppwinrt.h before including any C++/WinRT headers"); #endif // NOTE: Will eventually be removed once C++/WinRT 2.0 use can be assumed #ifdef WINRT_EXTERNAL_CATCH_CLAUSE #define __WI_CONFLICTING_WINRT_EXTERNAL_CATCH_CLAUSE 1 #else #define WINRT_EXTERNAL_CATCH_CLAUSE \ catch (const wil::ResultException& e) \ { \ return winrt::hresult_error(e.GetErrorCode(), winrt::to_hstring(e.what())).to_abi(); \ } #endif #include "result_macros.h" #include #if __WI_CONFLICTING_WINRT_EXTERNAL_CATCH_CLAUSE static_assert(::wil::details::major_version_from_string(CPPWINRT_VERSION) >= 2, "C++/WinRT external catch clause already defined outside of WIL"); #endif // In C++/WinRT 2.0 and beyond, this function pointer exists. In earlier versions it does not. It's much easier to avoid // linker errors than it is to SFINAE on variable existence, so we declare the variable here, but are careful not to // use it unless the version of C++/WinRT is high enough extern std::int32_t(__stdcall* winrt_to_hresult_handler)(void*) noexcept; // The same is true with this function pointer as well, except that the version must be 2.X or higher. extern void(__stdcall* winrt_throw_hresult_handler)(uint32_t, char const*, char const*, void*, winrt::hresult const) noexcept; /// @cond namespace wil::details { inline void MaybeGetExceptionString( const winrt::hresult_error& exception, _Out_writes_opt_(debugStringChars) PWSTR debugString, _When_(debugString != nullptr, _Pre_satisfies_(debugStringChars > 0)) size_t debugStringChars) { if (debugString) { StringCchPrintfW(debugString, debugStringChars, L"winrt::hresult_error: %ls", exception.message().c_str()); } } inline HRESULT __stdcall ResultFromCaughtException_CppWinRt( _Inout_updates_opt_(debugStringChars) PWSTR debugString, _When_(debugString != nullptr, _Pre_satisfies_(debugStringChars > 0)) size_t debugStringChars, _Inout_ bool* isNormalized) noexcept { if (g_pfnResultFromCaughtException) { try { throw; } catch (const ResultException& exception) { *isNormalized = true; MaybeGetExceptionString(exception, debugString, debugStringChars); return exception.GetErrorCode(); } catch (const winrt::hresult_error& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return exception.to_abi(); } catch (const std::bad_alloc& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return E_OUTOFMEMORY; } catch (const std::out_of_range& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return E_BOUNDS; } catch (const std::invalid_argument& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return E_INVALIDARG; } catch (...) { auto hr = RecognizeCaughtExceptionFromCallback(debugString, debugStringChars); if (FAILED(hr)) { return hr; } } } else { try { throw; } catch (const ResultException& exception) { *isNormalized = true; MaybeGetExceptionString(exception, debugString, debugStringChars); return exception.GetErrorCode(); } catch (const winrt::hresult_error& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return exception.to_abi(); } catch (const std::bad_alloc& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return E_OUTOFMEMORY; } catch (const std::out_of_range& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return E_BOUNDS; } catch (const std::invalid_argument& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return E_INVALIDARG; } catch (const std::exception& exception) { MaybeGetExceptionString(exception, debugString, debugStringChars); return HRESULT_FROM_WIN32(ERROR_UNHANDLED_EXCEPTION); } catch (...) { // Fall through to returning 'S_OK' below } } // Tell the caller that we were unable to map the exception by succeeding... return S_OK; } } /// @endcond namespace wil { inline std::int32_t __stdcall winrt_to_hresult(void* returnAddress) noexcept { // C++/WinRT only gives us the return address (caller), so pass along an empty 'DiagnosticsInfo' since we don't // have accurate file/line/etc. information return static_cast(details::ReportFailure_CaughtException(__R_DIAGNOSTICS_RA(DiagnosticsInfo{}, returnAddress))); } inline void __stdcall winrt_throw_hresult(uint32_t lineNumber, char const* fileName, char const* functionName, void* returnAddress, winrt::hresult const result) noexcept { void* callerReturnAddress{nullptr}; PCSTR code{nullptr}; wil::details::ReportFailure_Hr(__R_FN_CALL_FULL __R_COMMA result); } inline void WilInitialize_CppWinRT() { details::g_pfnResultFromCaughtException_CppWinRt = details::ResultFromCaughtException_CppWinRt; if constexpr (details::major_version_from_string(CPPWINRT_VERSION) >= 2) { WI_ASSERT(winrt_to_hresult_handler == nullptr); winrt_to_hresult_handler = winrt_to_hresult; if constexpr (details::minor_version_from_string(CPPWINRT_VERSION) >= 210122) { WI_ASSERT(winrt_throw_hresult_handler == nullptr); winrt_throw_hresult_handler = winrt_throw_hresult; } } } /// @cond namespace details { #ifndef CPPWINRT_SUPPRESS_STATIC_INITIALIZERS WI_ODR_PRAGMA("CPPWINRT_SUPPRESS_STATIC_INITIALIZERS", "0") WI_HEADER_INITITALIZATION_FUNCTION(WilInitialize_CppWinRT, [] { ::wil::WilInitialize_CppWinRT(); return 1; }); #else WI_ODR_PRAGMA("CPPWINRT_SUPPRESS_STATIC_INITIALIZERS", "1") #endif } /// @endcond // Provides an overload of verify_hresult so that the WIL macros can recognize winrt::hresult as a valid "hresult" type. inline long verify_hresult(winrt::hresult hr) noexcept { return hr; } // Provides versions of get_abi and put_abi for genericity that directly use HSTRING for convenience. template auto get_abi(T const& object) noexcept { return winrt::get_abi(object); } inline auto get_abi(winrt::hstring const& object) noexcept { return static_cast(winrt::get_abi(object)); } inline auto str_raw_ptr(const winrt::hstring& str) noexcept { return str.c_str(); } template auto put_abi(T& object) noexcept { return winrt::put_abi(object); } inline auto put_abi(winrt::hstring& object) noexcept { return reinterpret_cast(winrt::put_abi(object)); } inline ::IUnknown* com_raw_ptr(const winrt::Windows::Foundation::IUnknown& ptr) noexcept { return static_cast<::IUnknown*>(winrt::get_abi(ptr)); } // Needed to power wil::cx_object_from_abi that requires IInspectable inline ::IInspectable* com_raw_ptr(const winrt::Windows::Foundation::IInspectable& ptr) noexcept { return static_cast<::IInspectable*>(winrt::get_abi(ptr)); } // Taken from the docs.microsoft.com article template T convert_from_abi(::IUnknown* from) { T to{ nullptr }; // `T` is a projected type. winrt::check_hresult(from->QueryInterface(winrt::guid_of(), winrt::put_abi(to))); return to; } // For obtaining an object from an interop method on the factory. Example: // winrt::InputPane inputPane = wil::capture_interop(&IInputPaneInterop::GetForWindow, hwnd); // If the method produces something different from the factory type: // winrt::IAsyncAction action = wil::capture_interop(&IAccountsSettingsPaneInterop::ShowAddAccountForWindow, hwnd); template auto capture_interop(HRESULT(__stdcall Interface::* method)(InterfaceArgs...), Args&&... args) { auto interop = winrt::get_activation_factory(); return winrt::capture(interop, method, std::forward(args)...); } // For obtaining an object from an interop method on an instance. Example: // winrt::UserActivitySession session = wil::capture_interop(activity, &IUserActivityInterop::CreateSessionForWindow, hwnd); template auto capture_interop(winrt::Windows::Foundation::IUnknown const& o, HRESULT(__stdcall Interface::* method)(InterfaceArgs...), Args&&... args) { return winrt::capture(o.as(), method, std::forward(args)...); } /** Holds a reference to the host C++/WinRT module to prevent it from being unloaded. Normally, this is done by being in an IAsyncOperation coroutine or by holding a strong reference to a C++/WinRT object hosted in the same module, but if you have neither, you will need to hold a reference explicitly. For the WRL equivalent, see wrl_module_reference. This can be used as a base, which permits EBO: ~~~~ struct NonWinrtObject : wil::winrt_module_reference { int value; }; // DLL will not be unloaded as long as NonWinrtObject is still alive. auto p = std::make_unique(); ~~~~ Or it can be used as a member (with [[no_unique_address]] to avoid occupying any memory): ~~~~ struct NonWinrtObject { int value; [[no_unique_address]] wil::winrt_module_reference module_ref; }; // DLL will not be unloaded as long as NonWinrtObject is still alive. auto p = std::make_unique(); ~~~~ If using it to prevent the host DLL from unloading while a thread or threadpool work item is still running, create the object before starting the thread, and pass it to the thread. This avoids a race condition where the host DLL could get unloaded before the thread starts. ~~~~ std::thread([module_ref = wil::winrt_module_reference()]() { do_background_work(); }); // Don't do this (race condition) std::thread([]() { wil::winrt_module_reference module_ref; do_background_work(); }); // WRONG ~~~~ Also useful in coroutines that neither capture DLL-hosted COM objects, nor are themselves DLL-hosted COM objects. (If the coroutine returns IAsyncAction or captures a get_strong() of its containing WinRT class, then the IAsyncAction or strong reference will itself keep a strong reference to the host module.) ~~~~ winrt::fire_and_forget ContinueBackgroundWork() { // prevent DLL from unloading while we are running on a background thread. // Do this before switching to the background thread. wil::winrt_module_reference module_ref; co_await winrt::resume_background(); do_background_work(); }; ~~~~ */ struct [[nodiscard]] winrt_module_reference { winrt_module_reference() { ++winrt::get_module_lock(); } winrt_module_reference(winrt_module_reference const&) : winrt_module_reference() {} ~winrt_module_reference() { --winrt::get_module_lock(); } }; } #endif // __WIL_CPPWINRT_INCLUDED