Re: [PATCH v3 31/35] lib: add memory allocations report in show_mem()

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On Tue, Feb 20, 2024 at 10:27 AM Vlastimil Babka <vbabka@xxxxxxx> wrote:
>
> On 2/19/24 18:17, Suren Baghdasaryan wrote:
> > On Thu, Feb 15, 2024 at 3:56 PM Kent Overstreet
> > <kent.overstreet@xxxxxxxxx> wrote:
> >>
> >> On Thu, Feb 15, 2024 at 06:27:29PM -0500, Steven Rostedt wrote:
> >> > All this, and we are still worried about 4k for useful debugging :-/
> >
> > I was planning to refactor this function to print one record at a time
> > with a smaller buffer but after discussing with Kent, he has plans to
> > reuse this function and having the report in one buffer is needed for
> > that.
>
> We are printing to console, AFAICS all the code involved uses plain printk()
> I think it would be way easier to have a function using printk() for this
> use case than the seq_buf which is more suitable for /proc and friends. Then
> all concerns about buffers would be gone. It wouldn't be that much of a code
> duplication?

Ok, after discussing this with Kent, I'll change this patch to provide
a function returning N top consumers (the array and N will be provided
by the caller) and then we can print one record at a time with much
less memory needed. That should address reusability concerns, will use
memory more efficiently and will allow for more flexibility (more/less
than 10 records if needed).
Thanks for the feedback, everyone!

>
> >> Every additional 4k still needs justification. And whether we burn a
> >> reserve on this will have no observable effect on user output in
> >> remotely normal situations; if this allocation ever fails, we've already
> >> been in an OOM situation for awhile and we've already printed out this
> >> report many times, with less memory pressure where the allocation would
> >> have succeeded.
> >
> > I'm not sure this claim will always be true, specifically in the case
> > of low-end devices with relatively low amounts of reserves and in the
>
> That's right, GFP_ATOMIC failures can easily happen without prior OOMs.
> Consider a system where userspace allocations fill the memory as they
> usually do, up to high watermark. Then a burst of packets is received and
> handled by GFP_ATOMIC allocations that deplete the reserves and can't cause
> OOMs (OOM is when we fail to reclaim anything, but we are allocating from a
> context that can't reclaim), so the very first report would be an GFP_ATOMIC
> failure and now it can't allocate that buffer for printing.
>
> I'm sure more such scenarios exist, Cc: Tetsuo who I recall was an expert on
> this topic.
>
> > presence of a possible quick memory usage spike. We should also
> > consider a case when panic_on_oom is set. All we get is one OOM
> > report, so we get only one chance to capture this report. In any case,
> > I don't yet have data to prove or disprove this claim but it will be
> > interesting to test it with data from the field once the feature is
> > deployed.
> >
> > For now I think with Vlastimil's __GFP_NOWARN suggestion the code
> > becomes safe and the only risk is to lose this report. If we get cases
> > with reports missing this data, we can easily change to reserved
> > memory.
>





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