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SubjectRe: [PATCH v2 2/4] mm: introduce cma_alloc_bulk API
On Wed, Dec 02, 2020 at 04:49:15PM +0100, Michal Hocko wrote:
> On Wed 02-12-20 10:14:41, David Hildenbrand wrote:
> > On 01.12.20 18:51, Minchan Kim wrote:
> > > There is a need for special HW to require bulk allocation of
> > > high-order pages. For example, 4800 * order-4 pages, which
> > > would be minimum, sometimes, it requires more.
> > >
> > > To meet the requirement, a option reserves 300M CMA area and
> > > requests the whole 300M contiguous memory. However, it doesn't
> > > work if even one of those pages in the range is long-term pinned
> > > directly or indirectly. The other option is to ask higher-order
> >
> > My latest knowledge is that pages in the CMA area are never long term
> > pinned.
> >
> > https://lore.kernel.org/lkml/20201123090129.GD27488@dhcp22.suse.cz/
> >
> > "gup already tries to deal with long term pins on CMA regions and migrate
> > to a non CMA region. Have a look at __gup_longterm_locked."
> >
> > We should rather identify ways how that is still possible and get rid of
> > them.
> >
> >
> > Now, short-term pinnings and PCP are other issues where
> > alloc_contig_range() could be improved (e.g., in contrast to a FAST
> > mode, a HARD mode which temporarily disables the PCP, ...).
>
> Agreed!
>
> > > size (e.g., 2M) than requested order(64K) repeatedly until driver
> > > could gather necessary amount of memory. Basically, this approach
> > > makes the allocation very slow due to cma_alloc's function
> > > slowness and it could be stuck on one of the pageblocks if it
> > > encounters unmigratable page.
> > >
> > > To solve the issue, this patch introduces cma_alloc_bulk.
> > >
> > > int cma_alloc_bulk(struct cma *cma, unsigned int align,
> > > bool fast, unsigned int order, size_t nr_requests,
> > > struct page **page_array, size_t *nr_allocated);
> > >
> > > Most parameters are same with cma_alloc but it additionally passes
> > > vector array to store allocated memory. What's different with cma_alloc
> > > is it will skip pageblocks without waiting/stopping if it has unmovable
> > > page so that API continues to scan other pageblocks to find requested
> > > order page.
> > >
> > > cma_alloc_bulk is best effort approach in that it skips some pageblocks
> > > if they have unmovable pages unlike cma_alloc. It doesn't need to be
> > > perfect from the beginning at the cost of performance. Thus, the API
> > > takes "bool fast parameter" which is propagated into alloc_contig_range to
> > > avoid significat overhead functions to inrecase CMA allocation success
> > > ratio(e.g., migration retrial, PCP, LRU draining per pageblock)
> > > at the cost of less allocation success ratio. If the caller couldn't
> > > allocate enough, they could call it with "false" to increase success ratio
> > > if they are okay to expense the overhead for the success ratio.
> >
> > Just so I understand what the idea is:
> >
> > alloc_contig_range() sometimes fails on CMA regions when trying to
> > allocate big chunks (e.g., 300M). Instead of tackling that issue, you
> > rather allocate plenty of small chunks, and make these small allocations
> > fail faster/ make the allocations less reliable. Correct?
> >
> > I don't really have a strong opinion on that. Giving up fast rather than
> > trying for longer sounds like a useful thing to have - but I wonder if
> > it's strictly necessary for the use case you describe.
> >
> > I'd like to hear Michals opinion on that.
>
> Well, what I can see is that this new interface is an antipatern to our
> allocation routines. We tend to control allocations by gfp mask yet you
> are introducing a bool parameter to make something faster... What that
> really means is rather arbitrary. Would it make more sense to teach
> cma_alloc resp. alloc_contig_range to recognize GFP_NOWAIT, GFP_NORETRY resp.
> GFP_RETRY_MAYFAIL instead?

If we use cma_alloc, that interface requires "allocate one big memory
chunk". IOW, return value is just struct page and expected that the page
is a big contiguos memory. That means it couldn't have a hole in the
range. However the idea here, what we asked is much smaller chunk rather
than a big contiguous memory so we could skip some of pages if they are
randomly pinned(long-term/short-term whatever) and search other pages
in the CMA area to avoid long stall. Thus, it couldn't work with exising
cma_alloc API with simple gfp_mak.

>
> I am not deeply familiar with the cma allocator so sorry for a
> potentially stupid question. Why does a bulk interface performs better
> than repeated calls to cma_alloc? Is this because a failure would help
> to move on to the next pfn range while a repeated call would have to
> deal with the same range?

Yub, true with other overheads(e.g., migration retrial, waiting writeback
PCP/LRU draining IPI)

>
> > > Signed-off-by: Minchan Kim <minchan@kernel.org>
> > > ---
> > > include/linux/cma.h | 5 ++
> > > include/linux/gfp.h | 2 +
> > > mm/cma.c | 126 ++++++++++++++++++++++++++++++++++++++++++--
> > > mm/page_alloc.c | 19 ++++---
> > > 4 files changed, 140 insertions(+), 12 deletions(-)
> > >
> --
> Michal Hocko
> SUSE Labs

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