Re: [PATCH] mm/page_alloc: consider pfn holes after pfn_valid() in __pageblock_pfn_to_page()

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On 4/21/2023 12:21 PM, Huang, Ying wrote:
Baolin Wang <baolin.wang@xxxxxxxxxxxxxxxxx> writes:

On 4/20/2023 3:22 PM, Huang, Ying wrote:
Baolin Wang <baolin.wang@xxxxxxxxxxxxxxxxx> writes:

On 4/12/2023 7:25 PM, David Hildenbrand wrote:
On 12.04.23 12:45, Baolin Wang wrote:
Now the __pageblock_pfn_to_page() is used by set_zone_contiguous(),
which checks whether the given zone contains holes, and uses pfn_valid()
to check if the end pfn is valid. However pfn_valid() can not make sure
the end pfn is not a hole if the size of a pageblock is larger than the
size of a sub-mem_section, since the struct page getting by pfn_to_page()
may represent a hole or an unusable page frame, which may cause incorrect
zone contiguous is set.

Though another user of pageblock_pfn_to_page() in compaction seems work
well now, it is better to avoid scanning or touching these offline pfns.
So like commit 2d070eab2e82 ("mm: consider zone which is not fully
populated to have holes"), we should also use pfn_to_online_page() for
the end pfn to make sure it is a valid pfn with usable page frame.
Meanwhile the pfn_valid() for end pfn can be dropped now.

Moreover we've already used pfn_to_online_page() for start pfn to make
sure it is online and valid, so the pfn_valid() for the start pfn is
unnecessary, drop it.
pageblocks are supposed to fall into a single memory section, so in
mos > cases, if the start is online, so is the end.

Yes, the granularity of memory hotplug is a mem_section.

However, suppose the pageblock order is MAX_ORDER-1, and the size of a
sub-section is 2M, that means a pageblock will fall into 2 sub
mem-section, and if there is a hole in the zone, that means the 2nd
sub mem-section can be invalid without setting subsection_map bitmap.

So the start is online can make sure the end pfn of a pageblock is
online, but a valid start pfn can not make sure the end pfn is valid
in the bitmap of ms->usage->subsection_map.
arch_add_memory
    add_pages
      __add_pages
        sparse_add_section /* set subsection_map */
arch_add_memory() is only called by add_memory_resource() and
pagemap_range() (called add_pages() too).  In add_memory_resource(),
check_hotplug_memory_range() will enforce a strict hotplug range
alignment requirement (128 MB on x86_64).  pagemap_range() are used for
ZONE_DEVICE only.  That is, for normal memory, hotplug granularity is
much larger than 2MB.
IIUC, the situation you mentioned above is impossible.  Or do I miss
something?

Thanks for your input. Your example is correct, but this is not the
case I want to describe. My case is not about the memory hotplug,
instead about the early memory holes when initialzing the memory. Let
me try to describe explicity:

First suppose the pageblock order is MAX_ORDER-1, and see below memory
layout as an example:

[    0.000000] Zone ranges:
[    0.000000]   DMA      [mem 0x0000000040000000-0x00000000ffffffff]
[    0.000000]   DMA32    empty
[    0.000000]   Normal   [mem 0x0000000100000000-0x0000001fa7ffffff]
[    0.000000] Movable zone start for each node
[    0.000000] Early memory node ranges
[    0.000000]   node   0: [mem 0x0000000040000000-0x0000001fa3c7ffff]
[    0.000000]   node   0: [mem 0x0000001fa3c80000-0x0000001fa3ffffff]
[    0.000000]   node   0: [mem 0x0000001fa4000000-0x0000001fa402ffff]
[    0.000000]   node   0: [mem 0x0000001fa4030000-0x0000001fa40effff]
[    0.000000]   node   0: [mem 0x0000001fa40f0000-0x0000001fa73cffff]
[    0.000000]   node   0: [mem 0x0000001fa73d0000-0x0000001fa745ffff]
[    0.000000]   node   0: [mem 0x0000001fa7460000-0x0000001fa746ffff]
[    0.000000]   node   0: [mem 0x0000001fa7470000-0x0000001fa758ffff]
[    0.000000]   node   0: [mem 0x0000001fa7590000-0x0000001fa7dfffff]

Focus on the last memory range, and there is a hole for the range [mem
0x0000001fa7590000-0x0000001fa7dfffff]. That means the last pageblock
will contain the range from 0x1fa7c00000 to 0x1fa7ffffff, since the
pageblock must be 4M aligned. And in this page block, these pfns will
fall into 2 sub-section (the sub-section size is 2M aligned).

So, the 1st sub-section (indicates pfn range: 0x1fa7c00000 -
0x1fa7dfffff ) in this pageblock is valid by
free_area_init()--->subsection_map_init(), but the 2nd sub-section
(indicates pfn range: 0x1fa7e00000 - 0x1fa7ffffff ) in this pageblock
is not valid.

The problem is, if we just check the pageblock start of the hole pfn
(such as 0x1fa7dfffff) to make sure the hole pfn (0x1fa7dfffff) is
also valid, which is NOT correct. So that is what I mean "the start is
online can make sure the end pfn of a pageblock is online, but a valid
start pfn can not make sure the end pfn is valid in the bitmap of
ms->usage->subsection_map."

Hope I make it clear. Does that make sense to you? Thanks.

Thanks for your detailed description.  You are right, it's possible that
the second subsection of a pageblock is a hole.

It's good to remove unnecessary pfn_valid(start_pfn) check in your
original patch.  But it appears unnecessary to replace

OK. I will split this into a separate patch.

pfn_valid(end_pfn) with pfn_to_online_page(end_pfn).  Yes, it's possible
that there's a hole in a page block.  But it appears that this will not
break anything.  Per my understanding, even if we had fixed this one,

Yes, it will not break anything now, the worst case is the compaction will waste more time to scan unnecessary hole pfns, though I did not have a performance report to show this issue.

Another concern is that the zone->contiguous is fragile IMO, and not sure if there are pfn walkers will meet the holes though the zone->contiguous = 1 in future.

So at least we can add some comments for __pageblock_pfn_to_page() to describe this issue? what do you think?

there may be other smaller memory holes in a pageblock represented as
reserved pages




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