[PATCH v3 1/3] arm64/ras: support sea error recovery
James Morse
james.morse at arm.com
Fri Sep 15 11:33:18 PDT 2017
Hi Xie XiuQi,
On 11/09/17 15:11, Xie XiuQi wrote:
> I first describe the approach of this patchset:
>
> A memory access error on the execution path usually triggers SEA.
> According to the existing process, errors occurred in the kernel,
> leading to direct panic, if it occurred the user-space, we should
> just kill process.
>
> But there is a class of error, in fact, is not necessary to kill
> process, you can recover and continue to run the process. Such as
> the instruction data corrupted, where the memory page might be
> read-only, which is has not been modified, the disk might have the
> correct data, so you can directly drop the page, ant reload it when
> necessary.
>
> So this patchset is just try to solve such problem: if the error is
> consumed in user-space and the error occurs on a clean page, you can
> directly drop the memory page without killing process.
>
> This is implemented in memory_failure, which is generic process.
> The error reported by SEA should be handled before re-enter the process,
> or we must kill the process to prevent error propagation.
>
> memory_failure_queue() is asynchronous, in which, error info was saved
> at ghes_proc, but handled in kworker. During this period there is a context
> switching, so we can not determine which process would be switch to. So
> memory_failure_queue is not suitable for handling the problem.
Thanks for this summary. I see the problem you're trying to solve is when
memory_failure() runs, in your scenario its not guaranteed to run before we
return to user space.
What is the user-visible symptom of this? SIGBUS, code=0 instead of SIGBUS,
code=...MCEERR_A?
..in which case I'm looking at this as a race with the memory_failure() bottom
half via schedule_work().
How does x86 avoid this same problem?
> And memory_failure is not nmi-safe, so it can not be called directly in the
> SEA context. So we just handle this error at SEA exit path, and before context
> switching.
(I need to look more into which locks memory_failure() is taking)
> In FFH mode, physical address can only be obtained by parsing the GHES table.
> But we only care about SEA, so the error handling is tied to the type of notification.
I care about all the notification methods. Once the notification has been passed
to APEI I want them to behave the same so that we don't have subtle bugs between
the 11 different ways we could get a notification. This code is rarely tested
enough as it is.
>From the arch code I just want to call out to APEI asking 'is this yours?'. If
so I expect APEI to have done all the work, if not we take the v8.0 behaviour.
Here you need APEI and the arch code to spot 'SEA' and treat it differently,
invoking some arm64-specific behaviour for APEI, and some
not-really-arch-specific code under /arch/arm64. There is nothing arm64 specific
about your arm_process_error(), how come the core APEI code doesn't need to do this?
I think this is caused by the way memory_failure() schedules its work, and that
is where I'd like to try and fix this, so that its the same for all notification
methods and all (cough: both) architectures.
> The TIF flag is checked on a generic path, but it will only be set when SEA occurs.
> And if we use unlikely optimization, it should have little impact on performance.
Yes, the arch code checks _TIF_WORK_MASK in one go so there is no performance
problem for code that hasn't taken the RAS-Error. (and once we've taken a RAS
error performance is out the window!)
> And the TIF flag approach was used on x86 platform for years, until commit d4812e169d
... so x86 doesn't do this ...
> (x86, mce: Get rid of TIF_MCE_NOTIFY and associated mce tricks)[0]. On currently arm64
> platform, there is no IST interrupt[1] function, so we could not call memory_failure
> directly in SEA context. So the way to use TIF notification, is also a good choice,
> after all, the same way on x86 platform is verified.
Thanks, looks like I need to read more of the history of x86's kernel-first
handling...
Thanks,
James
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