Re: [PATCH 04/30] firmware: google: Convert regular spinlock into trylock on panic path

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Hi Guilherme,

On Tue, May 3, 2022 at 12:12 PM Guilherme G. Piccoli
<gpiccoli@xxxxxxxxxx> wrote:
>
> On 03/05/2022 15:03, Evan Green wrote:
> > [...]
> > gsmi_shutdown_reason() is a common function called in other scenarios
> > as well, like reboot and thermal trip, where it may still make sense
> > to wait to acquire a spinlock. Maybe we should add a parameter to
> > gsmi_shutdown_reason() so that you can get your change on panic, but
> > we don't convert other callbacks into try-fail scenarios causing us to
> > miss logs.
> >
>
> Hi Evan, thanks for your feedback, much appreciated!
> What I've done in other cases like this was to have a helper checking
> the spinlock in the panic notifier - if we can acquire that, go ahead
> but if not, bail out. For a proper example of an implementation, check
> patch 13 of the series:
> https://lore.kernel.org/lkml/20220427224924.592546-14-gpiccoli@xxxxxxxxxx/ .
>
> Do you agree with that, or prefer really a parameter in
> gsmi_shutdown_reason() ? I'll follow your choice =)

I'm fine with either, thanks for the link. Mostly I want to make sure
other paths to gsmi_shutdown_reason() aren't also converted to a try.

>
>
> > Though thinking more about it, is this really a Good Change (TM)? The
> > spinlock itself already disables interrupts, meaning the only case
> > where this change makes a difference is if the panic happens from
> > within the function that grabbed the spinlock (in which case the
> > callback is also likely to panic), or in an NMI that panics within
> > that window. The downside of this change is that if one core was
> > politely working through an event with the lock held, and another core
> > panics, we now might lose the panic log, even though it probably would
> > have gone through fine assuming the other core has a chance to
> > continue.
>
> My feeling is that this is a good change, indeed - a lot of places are
> getting changed like this, in this series.
>
> Reasoning: the problem with your example is that, by default, secondary
> CPUs are disabled in the panic path, through an IPI mechanism. IPIs take
> precedence and interrupt the work in these CPUs, effectively
> interrupting the "polite work" with the lock held heh

The IPI can only interrupt a CPU with irqs disabled if the IPI is an
NMI. I haven't looked before to see if we use NMI IPIs to corral the
other CPUs on panic. On x86, I grepped my way down to
native_stop_other_cpus(), which looks like it does a normal IPI, waits
1 second, then does an NMI IPI. So, if a secondary CPU has the lock
held, on x86 it has roughly 1s to finish what it's doing and re-enable
interrupts before smp_send_stop() brings the NMI hammer down. I think
this should be more than enough time for the secondary CPU to get out
and release the lock.

So then it makes sense to me that you're fixing cases where we
panicked with the lock held, or hung with the lock held. Given the 1
second grace period x86 gives us, I'm on board, as that helps mitigate
the risk that we bailed out early with the try and should have spun a
bit longer instead. Thanks.

-Evan

>
> Then, such CPU is put to sleep and we finally reach the panic notifier
> hereby discussed, in the main CPU. If the other CPU was shut-off *with
> the lock held*, it's never finishing such work, so the lock is never to
> be released. Conclusion: the spinlock can't be acquired, hence we broke
> the machine (which is already broken, given it's panic) in the path of
> this notifier.
> This should be really rare, but..possible. So I think we should protect
> against this scenario.
>
> We can grab others' feedback if you prefer, and of course you have the
> rights to refuse this change in the gsmi code, but from my
> point-of-view, I don't see any advantage in just assume the risk,
> specially since the change is very very simple.
>
> Cheers,
>
>
> Guilherme



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