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Date:   Thu, 3 Aug 2023 17:21:54 +0300
From:   "Kirill A. Shutemov" <kirill.shutemov@linux.intel.com>
To:     Ryan Roberts <ryan.roberts@arm.com>
Cc:     Andrew Morton <akpm@linux-foundation.org>,
        Matthew Wilcox <willy@infradead.org>,
        Yin Fengwei <fengwei.yin@intel.com>,
        David Hildenbrand <david@redhat.com>,
        Yu Zhao <yuzhao@google.com>,
        Catalin Marinas <catalin.marinas@arm.com>,
        Will Deacon <will@kernel.org>,
        Anshuman Khandual <anshuman.khandual@arm.com>,
        Yang Shi <shy828301@gmail.com>,
        "Huang, Ying" <ying.huang@intel.com>, Zi Yan <ziy@nvidia.com>,
        Luis Chamberlain <mcgrof@kernel.org>,
        Itaru Kitayama <itaru.kitayama@gmail.com>, linux-mm@kvack.org,
        linux-kernel@vger.kernel.org, linux-arm-kernel@lists.infradead.org
Subject: Re: [PATCH v4 2/5] mm: LARGE_ANON_FOLIO for improved performance
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On Thu, Aug 03, 2023 at 01:43:31PM +0100, Ryan Roberts wrote:
> + Kirill
> 
> On 26/07/2023 10:51, Ryan Roberts wrote:
> > Introduce LARGE_ANON_FOLIO feature, which allows anonymous memory to be
> > allocated in large folios of a determined order. All pages of the large
> > folio are pte-mapped during the same page fault, significantly reducing
> > the number of page faults. The number of per-page operations (e.g. ref
> > counting, rmap management lru list management) are also significantly
> > reduced since those ops now become per-folio.
> > 
> > The new behaviour is hidden behind the new LARGE_ANON_FOLIO Kconfig,
> > which defaults to disabled for now; The long term aim is for this to
> > defaut to enabled, but there are some risks around internal
> > fragmentation that need to be better understood first.
> > 
> > When enabled, the folio order is determined as such: For a vma, process
> > or system that has explicitly disabled THP, we continue to allocate
> > order-0. THP is most likely disabled to avoid any possible internal
> > fragmentation so we honour that request.
> > 
> > Otherwise, the return value of arch_wants_pte_order() is used. For vmas
> > that have not explicitly opted-in to use transparent hugepages (e.g.
> > where thp=madvise and the vma does not have MADV_HUGEPAGE), then
> > arch_wants_pte_order() is limited to 64K (or PAGE_SIZE, whichever is
> > bigger). This allows for a performance boost without requiring any
> > explicit opt-in from the workload while limitting internal
> > fragmentation.
> > 
> > If the preferred order can't be used (e.g. because the folio would
> > breach the bounds of the vma, or because ptes in the region are already
> > mapped) then we fall back to a suitable lower order; first
> > PAGE_ALLOC_COSTLY_ORDER, then order-0.
> > 
> 
> ...
> 
> > +#define ANON_FOLIO_MAX_ORDER_UNHINTED \
> > +		(ilog2(max_t(unsigned long, SZ_64K, PAGE_SIZE)) - PAGE_SHIFT)
> > +
> > +static int anon_folio_order(struct vm_area_struct *vma)
> > +{
> > +	int order;
> > +
> > +	/*
> > +	 * If THP is explicitly disabled for either the vma, the process or the
> > +	 * system, then this is very likely intended to limit internal
> > +	 * fragmentation; in this case, don't attempt to allocate a large
> > +	 * anonymous folio.
> > +	 *
> > +	 * Else, if the vma is eligible for thp, allocate a large folio of the
> > +	 * size preferred by the arch. Or if the arch requested a very small
> > +	 * size or didn't request a size, then use PAGE_ALLOC_COSTLY_ORDER,
> > +	 * which still meets the arch's requirements but means we still take
> > +	 * advantage of SW optimizations (e.g. fewer page faults).
> > +	 *
> > +	 * Finally if thp is enabled but the vma isn't eligible, take the
> > +	 * arch-preferred size and limit it to ANON_FOLIO_MAX_ORDER_UNHINTED.
> > +	 * This ensures workloads that have not explicitly opted-in take benefit
> > +	 * while capping the potential for internal fragmentation.
> > +	 */
> > +
> > +	if ((vma->vm_flags & VM_NOHUGEPAGE) ||
> > +	    test_bit(MMF_DISABLE_THP, &vma->vm_mm->flags) ||
> > +	    !hugepage_flags_enabled())
> > +		order = 0;
> > +	else {
> > +		order = max(arch_wants_pte_order(), PAGE_ALLOC_COSTLY_ORDER);
> > +
> > +		if (!hugepage_vma_check(vma, vma->vm_flags, false, true, true))
> > +			order = min(order, ANON_FOLIO_MAX_ORDER_UNHINTED);
> > +	}
> > +
> > +	return order;
> > +}
> 
> 
> Hi All,
> 
> I'm writing up the conclusions that we arrived at during discussion in the THP
> meeting yesterday, regarding linkage with exiting THP ABIs. It would be great if
> I can get explicit "agree" or disagree + rationale from at least David, Yu and
> Kirill.
> 
> In summary; I think we are converging on the approach that is already coded, but
> I'd like confirmation.
> 
> 
> 
> The THP situation today
> -----------------------
> 
>  - At system level: THP can be set to "never", "madvise" or "always"
>  - At process level: THP can be "never" or "defer to system setting"
>  - At VMA level: no-hint, MADV_HUGEPAGE, MADV_NOHUGEPAGE
> 
> That gives us this table to describe how a page fault is handled, according to
> process state (columns) and vma flags (rows):
> 
>                 | never     | madvise   | always
> ----------------|-----------|-----------|-----------
> no hint         | S         | S         | THP>S
> MADV_HUGEPAGE   | S         | THP>S     | THP>S
> MADV_NOHUGEPAGE | S         | S         | S
> 
> Legend:
> S	allocate single page (PTE-mapped)
> LAF	allocate lage anon folio (PTE-mapped)
> THP	allocate THP-sized folio (PMD-mapped)
> >	fallback (usually because vma size/alignment insufficient for folio)
> 
> 
> 
> Principles for Large Anon Folios (LAF)
> --------------------------------------
> 
> David tells us there are use cases today (e.g. qemu live migration) which use
> MADV_NOHUGEPAGE to mean "don't fill any PTEs that are not explicitly faulted"
> and these use cases will break (i.e. functionally incorrect) if this request is
> not honoured.
> 
> So LAF must at least honour MADV_NOHUGEPAGE to prevent breaking existing use
> cases. And once we do this, then I think the least confusing thing is for it to
> also honor the "never" system/process state; so if either the system, process or
> vma has explicitly opted-out of THP, then LAF should also be bypassed.
> 
> Similarly, any case that would previously cause the allocation of PMD-sized THP
> must continue to be honoured, else we risk performance regression.
> 
> That leaves the "madvise/no-hint" case, and all THP fallback paths due to the
> VMA not being correctly aligned or sized to hold a PMD-sized mapping. In these
> cases, we will attempt to use LAF first, and fallback to single page if the vma
> size/alignment doesn't permit it.
> 
>                 | never     | madvise   | always
> ----------------|-----------|-----------|-----------
> no hint         | S         | LAF>S     | THP>LAF>S
> MADV_HUGEPAGE   | S         | THP>LAF>S | THP>LAF>S
> MADV_NOHUGEPAGE | S         | S         | S
> 
> I think this (perhaps conservative) approach will be the least surprising to
> users. And is the policy that is already implemented in this patch.

This looks very reasonable.

The only questionable field is no-hint/madvise. I can argue for both LAF>S
and S here. I think LAF>S is fine as long as we are not too aggressive
with allocation order.

I think we need to work on eliminating reasons for users to set 'never'.
If something behaves better with 'never' kernel has failed user.

> Downsides of this policy
> ------------------------
> 
> As Yu and Yin have pointed out, there are some workloads which do not perform
> well with THP, due to large fault latency or memory wastage, etc. But which
> _may_ still benefit from LAF. By taking the conservative approach, we exclude
> these workloads from benefiting automatically.

Hm. I don't buy it. Why THP with order-9 is too much, but order-8 LAF is
fine?

If allocation latency is a problem, it has to be fixed. Maybe with
introducing an API to page allocator where user can request a range of
acceptable orders and page allocator returns largest readily available
possibly starting background compaction.

> But given they have explicitly opted out of THP, it doesn't seem unreasonable
> that those workloads should be explicitly modified to opt-in to LAF.

No, we should address the reason the why THP is off. I think there
shouldn't be hard wall between THP and LAF, but smooth gradient.

> The
> question is what should a control for this look like? And do we need to
> implement the control for an MVP implementation of LAF? For the latter question,
> I would suggest this can come later - its a tool to further optimize, but its
> absence does not regress today's performance.
> 
> What should a control look like?

I would start with zero-API. Let's see if we can live with it.

If something is required for debug or benchmarking, we can add it to
debugfs.

> One suggestion was to expose a "maximum order" tunable, which would limit the
> size of THP that could be allocated. setting it to 1M would cause traditional
> THP to be bypassed (assuming for now PMD-sized THP is 2M) but would permit LAF.
> But Kirill suggested that this type of control might turn out to be restrictive
> in the long run.
> 
> Another suggestion was to provide a more abstracted hint to the kernel, which
> the kernel could then derive a policy from, and that policy would be easier to
> change over time.
> 
> 
> 
> Large Anon Folio Size
> ---------------------
> 
> Once we have decided to use LAF (vs THP vs S), we need to decide how big the
> folio should be. If/when we get a control as described above, that will
> obviously place an upper bound on the size. HW may also have a preferred size
> due to tricks it can do in the TLB (arch_wants_pte_order() in this patch) but
> you may still want to allocate a bigger folio than the HW wants (since bigger
> folios will reduce page faults) or you may want to allocate a smaller folio than
> the HW wants (due to concerns about latency or memory wastage).
> 
> I've had a stab at addressing this in the patch too, using the same decision as
> for THP (ignoring the vma size/alignment requirement) to decide if we use the HW
> preferred order or if we cap it (currently set at 64K).
> 
> Thoughts, comments?
> 
> Thanks,
> Ryan
> 
> 
> 
> 
> 

-- 
  Kiryl Shutsemau / Kirill A. Shutemov