Re: alloc_contig_range() with MIGRATE_MOVABLE performance regression since 4.9

From: Michal Hocko
Date: Thu Apr 22 2021 - 03:50:09 EST


Cc David and Oscar who are familiar with this code as well.

On Wed 21-04-21 11:36:01, Florian Fainelli wrote:
> Hi all,
>
> I have been trying for the past few days to identify the source of a
> performance regression that we are seeing with the 5.4 kernel but not
> with the 4.9 kernel on ARM64. Testing something newer like 5.10 is a bit
> challenging at the moment but will happen eventually.
>
> What we are seeing is a ~3x increase in the time needed for
> alloc_contig_range() to allocate 1GB in blocks of 2MB pages. The system
> is idle at the time and there are no other contenders for memory other
> than the user-space programs already started (DHCP client, shell, etc.).
>
> I have tried playing with the compact_control structure settings but
> have not found anything that would bring us back to the performance of
> 4.9. More often than not, we see test_pages_isolated() returning an
> non-zero error code which would explain the slow down, since we have
> some logic that re-tries the allocation if alloc_contig_range() returns
> -EBUSY. If I remove the retry logic however, we don't get -EBUSY and we
> get the results below:
>
> 4.9 shows this:
>
> [ 457.537634] allocating: size: 1024MB avg: 59172 (us), max: 137306
> (us), min: 44859 (us), total: 591723 (us), pages: 512, per-page: 115 (us)
> [ 457.550222] freeing: size: 1024MB avg: 67397 (us), max: 151408 (us),
> min: 52630 (us), total: 673974 (us), pages: 512, per-page: 131 (us)
>
> 5.4 show this:
>
> [ 222.388758] allocating: size: 1024MB avg: 156739 (us), max: 157254
> (us), min: 155915 (us), total: 1567394 (us), pages: 512, per-page: 306 (us)
> [ 222.401601] freeing: size: 1024MB avg: 209899 (us), max: 210085 (us),
> min: 209749 (us), total: 2098999 (us), pages: 512, per-page: 409 (us)
>
> This regression is not seen when MIGRATE_CMA is specified instead of
> MIGRATE_MOVABLE.
>
> A few characteristics that you should probably be aware of:
>
> - There is 4GB of memory populated with the memory being mapped into the
> CPU's address starting at space at 0x4000_0000 (1GB), PAGE_SIZE is 4KB
>
> - there is a ZONE_DMA32 that starts at 0x4000_0000 and ends at
> 0xE480_0000, from there on we have a ZONE_MOVABLE which is comprised of
> 0xE480_0000 - 0xfdc00000 and another range spanning 0x1_0000_0000 -
> 0x1_4000_0000
>
> Attached is the kernel configuration.
>
> Thanks!
> --
> Florian



--
Michal Hocko
SUSE Labs