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468 lines
20 KiB
C++
468 lines
20 KiB
C++
//*********************************************************
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//
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// Copyright (c) Microsoft. All rights reserved.
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// This code is licensed under the MIT License.
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
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// ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
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// TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
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// PARTICULAR PURPOSE AND NONINFRINGEMENT.
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//
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//*********************************************************
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#ifndef __WIL_COM_APARTMENT_VARIABLE_INCLUDED
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#define __WIL_COM_APARTMENT_VARIABLE_INCLUDED
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#include <any>
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#include <objidl.h>
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#include <roapi.h>
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#include <type_traits>
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#include <unordered_map>
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#include <winrt/Windows.Foundation.h>
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#include "com.h"
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#include "cppwinrt.h"
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#include "result_macros.h"
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#include "win32_helpers.h"
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#ifndef WIL_ENABLE_EXCEPTIONS
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#error This header requires exceptions
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#endif
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namespace wil
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{
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// Determine if apartment variables are supported in the current process context.
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// Prior to build 22365, the APIs needed to create apartment variables (e.g. RoGetApartmentIdentifier)
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// failed for unpackaged processes. For MS people, see http://task.ms/31861017 for details.
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// APIs needed to implement apartment variables did not work in non-packaged processes.
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inline bool are_apartment_variables_supported()
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{
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unsigned long long apartmentId{};
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return RoGetApartmentIdentifier(&apartmentId) != HRESULT_FROM_WIN32(ERROR_API_UNAVAILABLE);
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}
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// COM will implicitly rundown the apartment registration when it invokes a handler
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// and blocks calling unregister when executing the callback. So be careful to release()
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// this when callback is invoked to avoid a double free of the cookie.
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using unique_apartment_shutdown_registration = unique_any<APARTMENT_SHUTDOWN_REGISTRATION_COOKIE, decltype(&::RoUnregisterForApartmentShutdown), ::RoUnregisterForApartmentShutdown>;
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struct apartment_variable_platform
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{
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static unsigned long long GetApartmentId()
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{
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unsigned long long apartmentId{};
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FAIL_FAST_IF_FAILED(RoGetApartmentIdentifier(&apartmentId));
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return apartmentId;
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}
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static auto RegisterForApartmentShutdown(IApartmentShutdown* observer)
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{
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unsigned long long id{};
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shutdown_type cookie;
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THROW_IF_FAILED(RoRegisterForApartmentShutdown(observer, &id, cookie.put()));
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return cookie;
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}
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static void UnRegisterForApartmentShutdown(APARTMENT_SHUTDOWN_REGISTRATION_COOKIE cookie)
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{
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FAIL_FAST_IF_FAILED(RoUnregisterForApartmentShutdown(cookie));
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}
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static auto CoInitializeEx(DWORD coinitFlags = 0 /*COINIT_MULTITHREADED*/)
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{
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return wil::CoInitializeEx(coinitFlags);
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}
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// disable the test hook
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inline static constexpr unsigned long AsyncRundownDelayForTestingRaces = INFINITE;
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using shutdown_type = wil::unique_apartment_shutdown_registration;
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};
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enum class apartment_variable_leak_action { fail_fast, ignore };
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// "pins" the current module in memory by incrementing the module reference count and leaking that.
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inline void ensure_module_stays_loaded()
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{
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static INIT_ONCE s_initLeakModule{}; // avoiding magic statics
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wil::init_once_failfast(s_initLeakModule, []()
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{
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HMODULE result{};
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FAIL_FAST_IF(!GetModuleHandleExW(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS | GET_MODULE_HANDLE_EX_FLAG_PIN, L"", &result));
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return S_OK;
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});
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}
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namespace details
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{
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// For the address of data, you can detect global variables by the ability to resolve the module from the address.
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inline bool IsGlobalVariable(const void* moduleAddress) noexcept
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{
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wil::unique_hmodule moduleHandle;
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return GetModuleHandleExW(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, static_cast<PCWSTR>(moduleAddress), &moduleHandle) != FALSE;
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}
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struct any_maker_base
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{
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std::any(*adapter)(void*);
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void* inner;
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std::any operator()() const
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{
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return adapter(inner);
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}
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};
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template<typename T>
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struct any_maker : any_maker_base
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{
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any_maker()
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{
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adapter = [](auto) -> std::any { return T{}; };
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}
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any_maker(T(*maker)())
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{
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adapter = [](auto maker) -> std::any { return reinterpret_cast<T(*)()>(maker)(); };
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inner = reinterpret_cast<void*>(maker);
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}
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template<typename F>
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any_maker(F&& f)
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{
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adapter = [](auto maker) -> std::any { return reinterpret_cast<F*>(maker)[0](); };
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inner = std::addressof(f);
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}
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};
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template<apartment_variable_leak_action leak_action = apartment_variable_leak_action::fail_fast,
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typename test_hook = apartment_variable_platform>
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struct apartment_variable_base
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{
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inline static winrt::slim_mutex s_lock;
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struct apartment_variable_storage
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{
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apartment_variable_storage(apartment_variable_storage&& other) noexcept = default;
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apartment_variable_storage(const apartment_variable_storage& other) = delete;
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apartment_variable_storage(typename test_hook::shutdown_type&& cookie_) : cookie(std::move(cookie_))
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{
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}
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winrt::apartment_context context;
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typename test_hook::shutdown_type cookie;
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// Variables are stored using the address of the apartment_variable_base<> as the key.
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std::unordered_map<apartment_variable_base<leak_action, test_hook>*, std::any> variables;
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};
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// Apartment id -> variables storage.
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inline static wil::object_without_destructor_on_shutdown<
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std::unordered_map<unsigned long long, apartment_variable_storage>>
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s_apartmentStorage;
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constexpr apartment_variable_base() = default;
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~apartment_variable_base()
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{
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// Global variables (object with static storage duration)
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// are run down when the process is shutting down or when the
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// dll is unloaded. At these points it is not possible to start
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// an async operation and the work performed is not needed,
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// the apartments with variable have been run down already.
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const auto isGlobal = details::IsGlobalVariable(this);
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if (!isGlobal)
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{
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clear_all_apartments_async();
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}
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if constexpr (leak_action == apartment_variable_leak_action::fail_fast)
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{
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if (isGlobal && !ProcessShutdownInProgress())
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{
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// If you hit this fail fast it means the storage in s_apartmentStorage will be leaked.
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// For apartment variables used in .exes, this is expected and
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// this fail fast should be disabled using
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// wil::apartment_variable<T, wil::apartment_variable_leak_action::ignore>
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//
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// For DLLs, if this is expected, disable this fail fast using
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// wil::apartment_variable<T, wil::apartment_variable_leak_action::ignore>
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//
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// Use of apartment variables in DLLs only loaded by COM will never hit this case
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// as COM will unload DLLs before apartments are rundown,
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// providing the opportunity to empty s_apartmentStorage.
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//
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// But DLLs loaded and unloaded to call DLL entry points (outside of COM) may
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// create variable storage that can't be cleaned up as the DLL lifetime is
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// shorter that the COM lifetime. In these cases either
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// 1) accept the leaks and disable the fail fast as describe above
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// 2) disable module unloading by calling wil::ensure_module_stays_loaded
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// 3) CoCreate an object from this DLL to make COM aware of the DLL
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FAIL_FAST_IF(!s_apartmentStorage.get().empty());
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}
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}
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}
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// non-copyable, non-assignable
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apartment_variable_base(apartment_variable_base const&) = delete;
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void operator=(apartment_variable_base const&) = delete;
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// get current value or throw if no value has been set
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std::any& get_existing()
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{
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if (auto any = get_if())
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{
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return *any;
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}
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THROW_HR(E_NOT_SET);
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}
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static apartment_variable_storage* get_current_apartment_variable_storage()
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{
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auto storage = s_apartmentStorage.get().find(test_hook::GetApartmentId());
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if (storage != s_apartmentStorage.get().end())
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{
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return &storage->second;
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}
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return nullptr;
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}
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apartment_variable_storage* ensure_current_apartment_variables()
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{
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auto variables = get_current_apartment_variable_storage();
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if (variables)
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{
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return variables;
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}
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struct ApartmentObserver : public winrt::implements<ApartmentObserver, IApartmentShutdown>
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{
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void STDMETHODCALLTYPE OnUninitialize(unsigned long long apartmentId) noexcept override
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{
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// This code runs at apartment rundown so be careful to avoid deadlocks by
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// extracting the variables under the lock then release them outside.
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auto variables = [apartmentId]()
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{
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auto lock = winrt::slim_lock_guard(s_lock);
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return s_apartmentStorage.get().extract(apartmentId);
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}();
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WI_ASSERT(variables.key() == apartmentId);
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// The system implicitly releases the shutdown observer
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// after invoking the callback and does not allow calling unregister
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// in the callback. So release the reference to the registration.
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variables.mapped().cookie.release();
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}
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};
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auto shutdownRegistration = test_hook::RegisterForApartmentShutdown(winrt::make<ApartmentObserver>().get());
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return &s_apartmentStorage.get().insert({ test_hook::GetApartmentId(), apartment_variable_storage(std::move(shutdownRegistration)) }).first->second;
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}
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// get current value or custom-construct one on demand
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template<typename T>
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std::any& get_or_create(any_maker<T> && creator)
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{
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apartment_variable_storage* variable_storage = nullptr;
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{ // scope for lock
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auto lock = winrt::slim_lock_guard(s_lock);
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variable_storage = ensure_current_apartment_variables();
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auto variable = variable_storage->variables.find(this);
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if (variable != variable_storage->variables.end())
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{
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return variable->second;
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}
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} // drop the lock
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// create the object outside the lock to avoid reentrant deadlock
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auto value = creator();
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auto insert_lock = winrt::slim_lock_guard(s_lock);
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// The insertion may fail if creator() recursively caused itself to be created,
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// in which case we return the existing object and the falsely-created one is discarded.
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return variable_storage->variables.insert({ this, std::move(value) }).first->second;
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}
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// get pointer to current value or nullptr if no value has been set
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std::any* get_if()
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{
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auto lock = winrt::slim_lock_guard(s_lock);
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if (auto variable_storage = get_current_apartment_variable_storage())
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{
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auto variable = variable_storage->variables.find(this);
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if (variable != variable_storage->variables.end())
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{
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return &(variable->second);
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}
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}
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return nullptr;
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}
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// replace or create the current value, fail fasts if the value is not already stored
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void set(std::any value)
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{
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// release value, with the swapped value, outside of the lock
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{
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auto lock = winrt::slim_lock_guard(s_lock);
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auto storage = s_apartmentStorage.get().find(test_hook::GetApartmentId());
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FAIL_FAST_IF(storage == s_apartmentStorage.get().end());
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auto& variable_storage = storage->second;
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auto variable = variable_storage.variables.find(this);
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FAIL_FAST_IF(variable == variable_storage.variables.end());
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variable->second.swap(value);
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}
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}
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// remove any current value
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void clear()
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{
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auto lock = winrt::slim_lock_guard(s_lock);
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if (auto variable_storage = get_current_apartment_variable_storage())
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{
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variable_storage->variables.erase(this);
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if (variable_storage->variables.size() == 0)
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{
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s_apartmentStorage.get().erase(test_hook::GetApartmentId());
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}
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}
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}
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winrt::Windows::Foundation::IAsyncAction clear_all_apartments_async()
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{
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// gather all the apartments that hold objects we need to destruct
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// (do not gather the objects themselves, because the apartment might
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// destruct before we get around to it, and we should let the apartment
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// destruct the object while it still can).
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std::vector<winrt::apartment_context> contexts;
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{ // scope for lock
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auto lock = winrt::slim_lock_guard(s_lock);
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for (auto& [id, storage] : s_apartmentStorage.get())
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{
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auto variable = storage.variables.find(this);
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if (variable != storage.variables.end())
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{
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contexts.push_back(storage.context);
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}
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}
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}
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if (contexts.empty())
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{
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co_return;
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}
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wil::unique_mta_usage_cookie mta_reference; // need to extend the MTA due to async cleanup
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FAIL_FAST_IF_FAILED(CoIncrementMTAUsage(mta_reference.put()));
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// From a background thread hop into each apartment to run down the object
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// if it's still there.
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co_await winrt::resume_background();
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// This hook enables testing the case where execution of this method loses the race with
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// apartment rundown by other means.
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if constexpr (test_hook::AsyncRundownDelayForTestingRaces != INFINITE)
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{
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Sleep(test_hook::AsyncRundownDelayForTestingRaces);
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}
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for (auto&& context : contexts)
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{
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try
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{
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co_await context;
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clear();
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}
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catch (winrt::hresult_error const& e)
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{
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// Ignore failure if apartment ran down before we could clean it up.
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// The object already ran down as part of apartment cleanup.
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if ((e.code() != RPC_E_SERVER_DIED_DNE) &&
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(e.code() != RPC_E_DISCONNECTED))
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{
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throw;
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}
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}
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catch (...)
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{
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FAIL_FAST();
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}
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}
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}
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static const auto& storage()
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{
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return s_apartmentStorage.get();
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}
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static size_t current_apartment_variable_count()
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{
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auto lock = winrt::slim_lock_guard(s_lock);
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if (auto variable_storage = get_current_apartment_variable_storage())
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{
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return variable_storage->variables.size();
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}
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return 0;
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}
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};
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}
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// Apartment variables enable storing COM objects safely in globals
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// (objects with static storage duration) by creating a unique copy
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// in each apartment and managing their lifetime based on apartment rundown
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// notifications.
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// They can also be used for automatic or dynamic storage duration but those
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// cases are less common.
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// This type is also useful for storing references to apartment affine objects.
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//
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// Note, that apartment variables hosted in a COM DLL need to integrate with
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// the DllCanUnloadNow() function to include the ref counts contributed by
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// C++ WinRT objects. This is automatic for DLLs that host C++ WinRT objects
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// but WRL projects will need to be updated to call winrt::get_module_lock().
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template<typename T, apartment_variable_leak_action leak_action = apartment_variable_leak_action::fail_fast,
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typename test_hook = wil::apartment_variable_platform>
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struct apartment_variable : details::apartment_variable_base<leak_action, test_hook>
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{
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using base = details::apartment_variable_base<leak_action, test_hook>;
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constexpr apartment_variable() = default;
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// Get current value or throw if no value has been set.
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T& get_existing() { return std::any_cast<T&>(base::get_existing()); }
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// Get current value or default-construct one on demand.
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T& get_or_create()
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{
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return std::any_cast<T&>(base::get_or_create(details::any_maker<T>()));
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}
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// Get current value or custom-construct one on demand.
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template<typename F>
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T& get_or_create(F&& f)
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{
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return std::any_cast<T&>(base::get_or_create(details::any_maker<T>(std::forward<F>(f))));
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}
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// get pointer to current value or nullptr if no value has been set
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T* get_if() { return std::any_cast<T>(base::get_if()); }
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// replace or create the current value, fail fasts if the value is not already stored
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template<typename V> void set(V&& value) { return base::set(std::forward<V>(value)); }
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// Clear the value in the current apartment.
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using base::clear;
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// Asynchronously clear the value in all apartments it is present in.
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using base::clear_all_apartments_async;
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// For testing only.
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// 1) To observe the state of the storage in the debugger assign this to
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// a temporary variable (const&) and watch its contents.
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// 2) Use this to test the implementation.
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using base::storage;
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// For testing only. The number of variables in the current apartment.
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using base::current_apartment_variable_count;
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};
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}
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#endif // __WIL_COM_APARTMENT_VARIABLE_INCLUDED
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