mirror of
https://github.com/dolphin-emu/dolphin.git
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521 lines
16 KiB
C++
521 lines
16 KiB
C++
#pragma once
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#include <windows.h>
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#include <PathCch.h>
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#include "catch.hpp"
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#include <wil/filesystem.h>
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#include <wil/result.h>
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#define REPORTS_ERROR(expr) witest::ReportsError(wistd::is_same<HRESULT, decltype(expr)>{}, [&]() { return expr; })
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#define REQUIRE_ERROR(expr) REQUIRE(REPORTS_ERROR(expr))
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#define REQUIRE_NOERROR(expr) REQUIRE_FALSE(REPORTS_ERROR(expr))
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#define CRASHES(expr) witest::DoesCodeCrash([&]() { return expr; })
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#define REQUIRE_CRASH(expr) REQUIRE(CRASHES(expr))
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#define REQUIRE_NOCRASH(expr) REQUIRE_FALSE(CRASHES(expr))
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// NOTE: SUCCEEDED/FAILED macros not used here since Catch2 can give us better diagnostics if it knows the HRESULT value
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#define REQUIRE_SUCCEEDED(expr) REQUIRE((HRESULT)(expr) >= 0)
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#define REQUIRE_FAILED(expr) REQUIRE((HRESULT)(expr) < 0)
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// MACRO double evaluation check.
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// The following macro illustrates a common problem with writing macros:
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// #define MY_MAX(a, b) (((a) > (b)) ? (a) : (b))
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// The issue is that whatever code is being used for both a and b is being executed twice.
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// This isn't harmful when thinking of constant numerics, but consider this example:
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// MY_MAX(4, InterlockedIncrement(&cCount))
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// This evaluates the (B) parameter twice and results in incrementing the counter twice.
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// We use MDEC in unit tests to verify that this kind of pattern is not present. A test
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// of this kind:
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// MY_MAX(MDEC(4), MDEC(InterlockedIncrement(&cCount))
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// will verify that the parameters are not evaluated more than once.
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#define MDEC(PARAM) (witest::details::MacroDoubleEvaluationCheck(__LINE__, #PARAM), PARAM)
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// There's some functionality that we need for testing that's not available for the app partition. Since those tests are
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// primarily compilation tests, declare what's needed here
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extern "C" {
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#if !WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP | WINAPI_PARTITION_SYSTEM | WINAPI_PARTITION_GAMES)
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WINBASEAPI _Ret_maybenull_
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PVOID WINAPI AddVectoredExceptionHandler(_In_ ULONG First, _In_ PVECTORED_EXCEPTION_HANDLER Handler);
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WINBASEAPI
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ULONG WINAPI RemoveVectoredExceptionHandler(_In_ PVOID Handle);
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#endif
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}
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#pragma warning(push)
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#pragma warning(disable: 4702) // Unreachable code
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namespace witest
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{
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namespace details
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{
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inline void MacroDoubleEvaluationCheck(size_t uLine, _In_ const char* pszCode)
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{
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struct SEval
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{
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size_t uLine;
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const char* pszCode;
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};
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static SEval rgEval[15] = {};
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static size_t nOffset = 0;
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for (auto& eval : rgEval)
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{
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if ((eval.uLine == uLine) && (eval.pszCode != nullptr) && (0 == strcmp(pszCode, eval.pszCode)))
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{
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// This verification indicates that macro-double-evaluation check is firing for a particular usage of MDEC().
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FAIL("Expression '" << pszCode << "' double evaluated in macro on line " << uLine);
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}
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}
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rgEval[nOffset].uLine = uLine;
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rgEval[nOffset].pszCode = pszCode;
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nOffset = (nOffset + 1) % ARRAYSIZE(rgEval);
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}
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template <typename T>
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class AssignTemporaryValueCleanup
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{
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public:
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AssignTemporaryValueCleanup(_In_ AssignTemporaryValueCleanup const &) = delete;
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AssignTemporaryValueCleanup & operator=(_In_ AssignTemporaryValueCleanup const &) = delete;
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explicit AssignTemporaryValueCleanup(_Inout_ T *pVal, T val) WI_NOEXCEPT :
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m_pVal(pVal),
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m_valOld(*pVal)
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{
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*pVal = val;
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}
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AssignTemporaryValueCleanup(_Inout_ AssignTemporaryValueCleanup && other) WI_NOEXCEPT :
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m_pVal(other.m_pVal),
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m_valOld(other.m_valOld)
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{
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other.m_pVal = nullptr;
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}
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~AssignTemporaryValueCleanup() WI_NOEXCEPT
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{
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operator()();
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}
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void operator()() WI_NOEXCEPT
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{
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if (m_pVal != nullptr)
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{
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*m_pVal = m_valOld;
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m_pVal = nullptr;
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}
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}
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void Dismiss() WI_NOEXCEPT
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{
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m_pVal = nullptr;
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}
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private:
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T *m_pVal;
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T m_valOld;
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};
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}
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// Use the following routine to allow for a variable to be swapped with another and automatically revert the
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// assignment at the end of the scope.
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// Example:
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// int nFoo = 10
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// {
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// auto revert = witest::AssignTemporaryValue(&nFoo, 12);
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// // nFoo will now be 12 within this scope...
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// }
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// // and nFoo is back to 10 within the outer scope
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template <typename T>
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inline witest::details::AssignTemporaryValueCleanup<T> AssignTemporaryValue(_Inout_ T *pVal, T val) WI_NOEXCEPT
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{
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return witest::details::AssignTemporaryValueCleanup<T>(pVal, val);
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}
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//! Global class which tracks objects that derive from @ref AllocatedObject.
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//! Use `witest::g_objectCount.Leaked()` to determine if an object deriving from `AllocatedObject` has been leaked.
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class GlobalCount
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{
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public:
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int m_count = 0;
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//! Returns `true` if there are any objects that derive from @ref AllocatedObject still in memory.
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bool Leaked() const
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{
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return (m_count != 0);
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}
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~GlobalCount()
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{
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if (Leaked())
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{
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// NOTE: This runs when no test is active, but will still cause an assert failure to notify
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FAIL("GlobalCount is non-zero; there is a leak somewhere");
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}
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}
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};
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__declspec(selectany) GlobalCount g_objectCount;
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//! Derive an allocated test object from witest::AllocatedObject to ensure that those objects aren't leaked in the test.
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//! Note that you can call g_objectCount.Leaked() at any point to determine if a leak has already occurred (assuming that
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//! all objects should have been destroyed at that point.
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class AllocatedObject
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{
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public:
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AllocatedObject() { g_objectCount.m_count++; }
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~AllocatedObject() { g_objectCount.m_count--; }
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};
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template <typename Lambda>
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bool DoesCodeThrow(Lambda&& callOp)
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{
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#ifdef WIL_ENABLE_EXCEPTIONS
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try
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#endif
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{
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callOp();
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}
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#ifdef WIL_ENABLE_EXCEPTIONS
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catch (...)
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{
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return true;
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}
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#endif
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return false;
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}
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[[noreturn]]
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inline void __stdcall TranslateFailFastException(PEXCEPTION_RECORD rec, PCONTEXT, DWORD)
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{
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// RaiseFailFastException cannot be continued or handled. By instead calling RaiseException, it allows us to
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// handle exceptions
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::RaiseException(rec->ExceptionCode, rec->ExceptionFlags, rec->NumberParameters, rec->ExceptionInformation);
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#ifdef __clang__
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__builtin_unreachable();
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#endif
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}
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[[noreturn]]
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inline void __stdcall FakeFailfastWithContext(const wil::FailureInfo&) noexcept
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{
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::RaiseException(STATUS_STACK_BUFFER_OVERRUN, 0, 0, nullptr);
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#ifdef __clang__
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__builtin_unreachable();
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#endif
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}
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constexpr DWORD msvc_exception_code = 0xE06D7363;
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// This is a MAJOR hack. Catch2 registers a vectored exception handler - which gets run before our handler below -
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// that interprets a set of exception codes as fatal. We don't want this behavior since we may be expecting such
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// crashes, so instead translate all exception codes to something not fatal
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inline LONG WINAPI TranslateExceptionCodeHandler(PEXCEPTION_POINTERS info)
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{
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if (info->ExceptionRecord->ExceptionCode != witest::msvc_exception_code)
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{
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info->ExceptionRecord->ExceptionCode = STATUS_STACK_BUFFER_OVERRUN;
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}
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return EXCEPTION_CONTINUE_SEARCH;
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}
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namespace details
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{
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inline bool DoesCodeCrash(wistd::function<void()>& callOp)
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{
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bool result = false;
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__try
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{
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callOp();
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}
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// Let C++ exceptions pass through
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__except ((::GetExceptionCode() != msvc_exception_code) ? EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH)
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{
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result = true;
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}
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return result;
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}
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}
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inline bool DoesCodeCrash(wistd::function<void()> callOp)
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{
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// See above; we don't want to actually fail fast, so make sure we raise a different exception instead
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auto restoreHandler = AssignTemporaryValue(&wil::details::g_pfnRaiseFailFastException, TranslateFailFastException);
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auto restoreHandler2 = AssignTemporaryValue(&wil::details::g_pfnFailfastWithContextCallback, FakeFailfastWithContext);
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auto handler = AddVectoredExceptionHandler(1, TranslateExceptionCodeHandler);
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auto removeVectoredHandler = wil::scope_exit([&] { RemoveVectoredExceptionHandler(handler); });
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return details::DoesCodeCrash(callOp);
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}
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template <typename Lambda>
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bool ReportsError(wistd::false_type, Lambda&& callOp)
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{
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bool doesThrow = false;
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bool doesCrash = DoesCodeCrash([&]()
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{
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doesThrow = DoesCodeThrow(callOp);
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});
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return doesThrow || doesCrash;
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}
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template <typename Lambda>
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bool ReportsError(wistd::true_type, Lambda&& callOp)
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{
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return FAILED(callOp());
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}
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#ifdef WIL_ENABLE_EXCEPTIONS
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class TestFailureCache final :
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public wil::details::IFailureCallback
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{
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public:
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TestFailureCache() :
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m_callbackHolder(this)
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{
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}
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void clear()
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{
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m_failures.clear();
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}
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size_t size() const
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{
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return m_failures.size();
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}
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bool empty() const
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{
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return m_failures.empty();
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}
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const wil::FailureInfo& operator[](size_t pos) const
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{
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return m_failures.at(pos).GetFailureInfo();
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}
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// IFailureCallback
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bool NotifyFailure(wil::FailureInfo const & failure) WI_NOEXCEPT override
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{
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m_failures.emplace_back(failure);
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return false;
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}
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private:
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std::vector<wil::StoredFailureInfo> m_failures;
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wil::details::ThreadFailureCallbackHolder m_callbackHolder;
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};
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#endif
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inline HRESULT GetTempFileName(wchar_t (&result)[MAX_PATH])
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{
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wchar_t dir[MAX_PATH];
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RETURN_LAST_ERROR_IF(::GetTempPathW(MAX_PATH, dir) == 0);
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RETURN_LAST_ERROR_IF(::GetTempFileNameW(dir, L"wil", 0, result) == 0);
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return S_OK;
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}
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inline HRESULT CreateUniqueFolderPath(wchar_t (&buffer)[MAX_PATH], PCWSTR root = nullptr)
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{
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if (root)
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{
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RETURN_LAST_ERROR_IF(::GetTempFileNameW(root, L"wil", 0, buffer) == 0);
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}
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else
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{
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wchar_t tempPath[MAX_PATH];
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RETURN_LAST_ERROR_IF(::GetTempPathW(ARRAYSIZE(tempPath), tempPath) == 0);
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RETURN_LAST_ERROR_IF(::GetLongPathNameW(tempPath, tempPath, ARRAYSIZE(tempPath)) == 0);
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RETURN_LAST_ERROR_IF(::GetTempFileNameW(tempPath, L"wil", 0, buffer) == 0);
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}
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RETURN_IF_WIN32_BOOL_FALSE(DeleteFileW(buffer));
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PathCchRemoveExtension(buffer, ARRAYSIZE(buffer));
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return S_OK;
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}
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#if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP) && (_WIN32_WINNT >= _WIN32_WINNT_WIN7)
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struct TestFolder
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{
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TestFolder()
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{
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if (SUCCEEDED(CreateUniqueFolderPath(m_path)) && SUCCEEDED(wil::CreateDirectoryDeepNoThrow(m_path)))
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{
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m_valid = true;
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}
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}
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TestFolder(PCWSTR path)
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{
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if (SUCCEEDED(StringCchCopyW(m_path, ARRAYSIZE(m_path), path)) && SUCCEEDED(wil::CreateDirectoryDeepNoThrow(m_path)))
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{
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m_valid = true;
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}
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}
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TestFolder(const TestFolder&) = delete;
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TestFolder& operator=(const TestFolder&) = delete;
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TestFolder(TestFolder&& other)
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{
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if (other.m_valid)
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{
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m_valid = true;
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other.m_valid = false;
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wcscpy_s(m_path, other.m_path);
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}
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}
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~TestFolder()
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{
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if (m_valid)
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{
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wil::RemoveDirectoryRecursiveNoThrow(m_path);
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}
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}
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operator bool() const
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{
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return m_valid;
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}
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operator PCWSTR() const
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{
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return m_path;
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}
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PCWSTR Path() const
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{
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return m_path;
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}
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private:
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bool m_valid = false;
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wchar_t m_path[MAX_PATH] = L"";
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};
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struct TestFile
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{
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TestFile(PCWSTR path)
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{
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if (SUCCEEDED(StringCchCopyW(m_path, ARRAYSIZE(m_path), path)))
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{
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Create();
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}
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}
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TestFile(PCWSTR dirPath, PCWSTR fileName)
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{
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if (SUCCEEDED(StringCchCopyW(m_path, ARRAYSIZE(m_path), dirPath)) && SUCCEEDED(PathCchAppend(m_path, ARRAYSIZE(m_path), fileName)))
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{
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Create();
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}
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}
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TestFile(const TestFile&) = delete;
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TestFile& operator=(const TestFile&) = delete;
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TestFile(TestFile&& other)
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{
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if (other.m_valid)
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{
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m_valid = true;
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m_deleteDir = other.m_deleteDir;
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other.m_valid = other.m_deleteDir = false;
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wcscpy_s(m_path, other.m_path);
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}
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}
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~TestFile()
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{
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// Best effort on all of these
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if (m_valid)
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{
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::DeleteFileW(m_path);
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}
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if (m_deleteDir)
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{
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size_t parentLength;
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if (wil::try_get_parent_path_range(m_path, &parentLength))
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{
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m_path[parentLength] = L'\0';
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::RemoveDirectoryW(m_path);
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m_path[parentLength] = L'\\';
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}
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}
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}
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operator bool() const
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{
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return m_valid;
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}
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operator PCWSTR() const
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{
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return m_path;
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}
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PCWSTR Path() const
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{
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return m_path;
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}
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private:
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HRESULT Create()
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{
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WI_ASSERT(!m_valid && !m_deleteDir);
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wil::unique_hfile fileHandle(::CreateFileW(m_path,
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FILE_WRITE_ATTRIBUTES,
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FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, nullptr,
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CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, nullptr));
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if (!fileHandle)
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{
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auto err = ::GetLastError();
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size_t parentLength;
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if ((err == ERROR_PATH_NOT_FOUND) && wil::try_get_parent_path_range(m_path, &parentLength))
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{
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m_path[parentLength] = L'\0';
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RETURN_IF_FAILED(wil::CreateDirectoryDeepNoThrow(m_path));
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m_deleteDir = true;
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m_path[parentLength] = L'\\';
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fileHandle.reset(::CreateFileW(m_path,
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FILE_WRITE_ATTRIBUTES,
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FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, nullptr,
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CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, nullptr));
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RETURN_LAST_ERROR_IF(!fileHandle);
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}
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else
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{
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RETURN_WIN32(err);
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}
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}
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m_valid = true;
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return S_OK;
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}
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bool m_valid = false;
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bool m_deleteDir = false;
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wchar_t m_path[MAX_PATH] = L"";
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};
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#endif
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}
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#pragma warning(pop)
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