Re: [PATCH v4 35/36] mm: Convert do_set_pte() to set_pte_range()

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On Fri, Mar 17, 2023 at 04:19:44PM +0800, Yin, Fengwei wrote:
> 
> 
> On 3/17/2023 4:00 PM, Ryan Roberts wrote:
> > On 17/03/2023 06:33, Yin, Fengwei wrote:
> >>
> >>
> >> On 3/17/2023 11:44 AM, Matthew Wilcox wrote:
> >>> On Fri, Mar 17, 2023 at 09:58:17AM +0800, Yin, Fengwei wrote:
> >>>>
> >>>>
> >>>> On 3/17/2023 1:52 AM, Matthew Wilcox wrote:
> >>>>> On Thu, Mar 16, 2023 at 04:38:58PM +0000, Ryan Roberts wrote:
> >>>>>> On 16/03/2023 16:23, Yin, Fengwei wrote:
> >>>>>>>> I think you are changing behavior here - is this intentional? Previously this
> >>>>>>>> would be evaluated per page, now its evaluated once for the whole range. The
> >>>>>>>> intention below is that directly faulted pages are mapped young and prefaulted
> >>>>>>>> pages are mapped old. But now a whole range will be mapped the same.
> >>>>>>>
> >>>>>>> Yes. You are right here.
> >>>>>>>
> >>>>>>> Look at the prefault and cpu_has_hw_af for ARM64, it looks like we
> >>>>>>> can avoid to handle vmf->address == addr specially. It's OK to 
> >>>>>>> drop prefault and change the logic here a little bit to:
> >>>>>>>   if (arch_wants_old_prefaulted_pte())
> >>>>>>>       entry = pte_mkold(entry);
> >>>>>>>   else
> >>>>>>>       entry = pte_sw_mkyong(entry);
> >>>>>>>
> >>>>>>> It's not necessary to use pte_sw_mkyong for vmf->address == addr
> >>>>>>> because HW will set the ACCESS bit in page table entry.
> >>>>>>>
> >>>>>>> Add Will Deacon in case I missed something here. Thanks.
> >>>>>>
> >>>>>> I'll defer to Will's response, but not all arm HW supports HW access flag
> >>>>>> management. In that case it's done by SW, so I would imagine that by setting
> >>>>>> this to old initially, we will get a second fault to set the access bit, which
> >>>>>> will slow things down. I wonder if you will need to split this into (up to) 3
> >>>>>> calls to set_ptes()?
> >>>>>
> >>>>> I don't think we should do that.  The limited information I have from
> >>>>> various microarchitectures is that the PTEs must differ only in their
> >>>>> PFN bits in order to use larger TLB entries.  That includes the Accessed
> >>>>> bit (or equivalent).  So we should mkyoung all the PTEs in the same
> >>>>> folio, at least initially.
> >>>>>
> >>>>> That said, we should still do this conditionally.  We'll prefault some
> >>>>> other folios too.  So I think this should be:
> >>>>>
> >>>>>         bool prefault = (addr > vmf->address) || ((addr + nr) < vmf->address);
> >>>>>
> >>>> According to commit 46bdb4277f98e70d0c91f4289897ade533fe9e80, if hardware access
> >>>> flag is supported on ARM64, there is benefit if prefault PTEs is set as "old".
> >>>> If we change prefault like above, the PTEs is set as "yong" which loose benefit
> >>>> on ARM64 with hardware access flag.
> >>>>
> >>>> ITOH, if from "old" to "yong" is cheap, why not leave all PTEs of folio as "old"
> >>>> and let hardware to update it to "yong"?
> >>>
> >>> Because we're tracking the entire folio as a single entity.  So we're
> >>> better off avoiding the extra pagefaults to update the accessed bit,
> >>> which won't actually give us any information (vmscan needs to know "were
> >>> any of the accessed bits set", not "how many of them were set").
> >> There is no extra pagefaults to update the accessed bit. There are three cases here:
> >> 1. hardware support access flag and cheap from "old" to "yong" without extra fault
> >> 2. hardware support access flag and expensive from "old" to "yong" without extra fault
> >> 3. no hardware support access flag (extra pagefaults from "old" to "yong". Expensive)
> >>
> >> For #2 and #3, it's expensive from "old" to "yong", so we always set PTEs "yong" in
> >> page fault.
> >> For #1, It's cheap from "old" to "yong", so it's OK to set PTEs "old" in page fault.
> >> And hardware will set it to "yong" when access memory. Actually, ARM64 with hardware
> >> access bit requires to set PTEs "old".
> > 
> > Your logic makes sense, but it doesn't take into account the HPA
> > micro-architectural feature present in some ARM CPUs. HPA can transparently
> > coalesce multiple pages into a single TLB entry when certain conditions are met
> > (roughly; upto 4 pages physically and virtually contiguous and all within a
> > 4-page natural alignment). But as Matthew says, this works out better when all
> > pte attributes (including access and dirty) match. Given the reason for setting
> > the prefault pages to old is so that vmscan can do a better job of finding cold
> > pages, and given vmscan will now be looking for folios and not individual pages
> > (I assume?), I agree with Matthew that we should make whole folios young or old.
> > It will marginally increase our chances of the access and dirty bits being
> > consistent across the whole 4-page block that the HW tries to coalesce. If we
> > unconditionally make everything old, the hw will set accessed for the single
> > page that faulted, and we therefore don't have consistency for that 4-page block.
> My concern was that the benefit of "old" PTEs for ARM64 with hardware access bit
> will be lost. The workloads (application launch latency and direct reclaim according
> to commit 46bdb4277f98e70d0c91f4289897ade533fe9e80) can show regression with this
> series. Thanks.

Yes, please don't fault everything in as young as it has caused horrible
vmscan behaviour leading to app-startup slowdown in the past:

https://lore.kernel.org/all/20210111140149.GB7642@willie-the-truck/

If we have to use the same value for all the ptes, then just base them
all on arch_wants_old_prefaulted_pte() as iirc hardware AF was pretty
cheap in practice for us.

Cheers,

Will



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