MalwareSourceCode/Win32/Proof of Concepts/herpaderping/ext/submodules/wil/result_originate.h
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//*********************************************************
//
// 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.
//
//*********************************************************
// Note: When origination is enabled by including this file, origination is done as part of the RETURN_* and THROW_* macros. Before originating
// a new error we will observe whether there is already an error payload associated with the current thread. If there is, and the HRESULTs match,
// then a new error will not be originated. Otherwise we will overwrite it with a new origination. The ABI boundary for WinRT APIs will check the
// per-thread error information. The act of checking the error clears it, so there should be minimal risk of failing to originate distinct errors
// simply because the HRESULTs match.
//
// For THROW_ macros we will examine the thread-local error storage once per throw. So typically once, with additional calls if the exception is
// caught and re-thrown.
//
// For RETURN_ macros we will have to examine the thread-local error storage once per frame as the call stack unwinds. Because error conditions
// -should- be uncommon the performance impact of checking TLS should be minimal. The more expensive part is originating the error because it must
// capture the entire stack and some additional data.
#ifndef __WIL_RESULT_ORIGINATE_INCLUDED
#define __WIL_RESULT_ORIGINATE_INCLUDED
#include "result.h"
#include <OleAuto.h> // RestrictedErrorInfo uses BSTRs :(
#include "resource.h"
#include "com.h"
#include <roerrorapi.h>
namespace wil
{
namespace details
{
// Note: The name must begin with "Raise" so that the !analyze auto-bucketing will ignore this stack frame. Otherwise this line of code gets all the blame.
inline void __stdcall RaiseRoOriginateOnWilExceptions(wil::FailureInfo const& failure) WI_NOEXCEPT
{
if ((failure.type == FailureType::Return) || (failure.type == FailureType::Exception))
{
bool shouldOriginate = true;
wil::com_ptr_nothrow<IRestrictedErrorInfo> restrictedErrorInformation;
if (GetRestrictedErrorInfo(&restrictedErrorInformation) == S_OK)
{
// This thread already has an error origination payload. Don't originate again if it has the same HRESULT that we are
// observing right now.
wil::unique_bstr descriptionUnused;
HRESULT existingHr = failure.hr;
wil::unique_bstr restrictedDescriptionUnused;
wil::unique_bstr capabilitySidUnused;
if (SUCCEEDED(restrictedErrorInformation->GetErrorDetails(&descriptionUnused, &existingHr, &restrictedDescriptionUnused, &capabilitySidUnused)))
{
shouldOriginate = (failure.hr != existingHr);
}
}
if (shouldOriginate)
{
#if WINAPI_FAMILY_PARTITION(WINAPI_PARTITION_DESKTOP | WINAPI_PARTITION_SYSTEM)
wil::unique_hmodule errorModule;
if (GetModuleHandleExW(0, L"api-ms-win-core-winrt-error-l1-1-1.dll", &errorModule))
{
auto pfn = reinterpret_cast<decltype(&::RoOriginateError)>(GetProcAddress(errorModule.get(), "RoOriginateError"));
if (pfn != nullptr)
{
pfn(failure.hr, nullptr);
}
}
#else // DESKTOP | SYSTEM
::RoOriginateError(failure.hr, nullptr);
#endif // DESKTOP | SYSTEM
}
else if (restrictedErrorInformation)
{
// GetRestrictedErrorInfo returns ownership of the error information. If we aren't originating, and an error was already present,
// then we need to restore the error information for later observation.
SetRestrictedErrorInfo(restrictedErrorInformation.get());
}
}
}
// This method will check for the presence of stowed exception data on the current thread. If such data exists, and the HRESULT
// matches the current failure, then we will call RoFailFastWithErrorContext. RoFailFastWithErrorContext in this situation will
// result in -VASTLY- improved crash bucketing. It is hard to express just how much better. In other cases we just return and
// the calling method fails fast the same way it always has.
inline void __stdcall FailfastWithContextCallback(wil::FailureInfo const& failure) WI_NOEXCEPT
{
wil::com_ptr_nothrow<IRestrictedErrorInfo> restrictedErrorInformation;
if (GetRestrictedErrorInfo(&restrictedErrorInformation) == S_OK)
{
wil::unique_bstr descriptionUnused;
HRESULT existingHr = failure.hr;
wil::unique_bstr restrictedDescriptionUnused;
wil::unique_bstr capabilitySidUnused;
if (SUCCEEDED(restrictedErrorInformation->GetErrorDetails(&descriptionUnused, &existingHr, &restrictedDescriptionUnused, &capabilitySidUnused)) &&
(existingHr == failure.hr))
{
// GetRestrictedErrorInfo returns ownership of the error information. We want it to be available for RoFailFastWithErrorContext
// so we must restore it via SetRestrictedErrorInfo first.
SetRestrictedErrorInfo(restrictedErrorInformation.get());
RoFailFastWithErrorContext(existingHr);
}
else
{
// The error didn't match the current failure. Put it back in thread-local storage even though we aren't failing fast
// in this method, so it is available in the debugger just-in-case.
SetRestrictedErrorInfo(restrictedErrorInformation.get());
}
}
}
} // namespace details
} // namespace wil
// Automatically call RoOriginateError upon error origination by including this file
WI_HEADER_INITITALIZATION_FUNCTION(ResultStowedExceptionInitialize, []
{
::wil::SetOriginateErrorCallback(::wil::details::RaiseRoOriginateOnWilExceptions);
::wil::SetFailfastWithContextCallback(::wil::details::FailfastWithContextCallback);
return 1;
});
#endif // __WIL_RESULT_ORIGINATE_INCLUDED