On 27.01.22 22:23, Yang Shi wrote:
> On Wed, Jan 26, 2022 at 2:00 AM David Hildenbrand <david@xxxxxxxxxx> wrote:
>>
>> reuse_swap_page() currently indicates if we can write to an anon page
>> without COW. A COW is required if the page is shared by multiple
>> processes (either already mapped or via swap entries) or if there is
>> concurrent writeback that cannot tolerate concurrent page modifications.
>>
>> reuse_swap_page() doesn't check for pending references from other
>> processes that already unmapped the page, however,
>> is_refcount_suitable() essentially does the same thing in the context of
>> khugepaged. khugepaged is the last remaining user of reuse_swap_page() and
>> we want to remove that function.
>>
>> In the context of khugepaged, we are not actually going to write to the
>> page and we don't really care about other processes mapping the page:
>> for example, without swap, we don't care about shared pages at all.
>>
>> The current logic seems to be:
>> * Writable: -> Not shared, but might be in the swapcache. Nobody can
>> fault it in from the swapcache as there are no other swap entries.
>> * Readable and not in the swapcache: Might be shared (but nobody can
>> fault it in from the swapcache).
>> * Readable and in the swapcache: Might be shared and someone might be
>> able to fault it in from the swapcache. Make sure we're the exclusive
>> owner via reuse_swap_page().
>>
>> Having to guess due to lack of comments and documentation, the current
>> logic really only wants to make sure that a page that might be shared
>> cannot be faulted in from the swapcache while khugepaged is active.
>> It's hard to guess why that is that case and if it's really still required,
>> but let's try keeping that logic unmodified.
>
> I don't think it could be faulted in while khugepaged is active since
> khugepaged does hold mmap_lock in write mode IIUC. So page fault is
> serialized against khugepaged.
It could get faulted in by another process sharing the page, because we
only synchronize against the current process.
>
> My wild guess is that collapsing shared pages was not supported before
> v5.8, so we need reuse_swap_page() to tell us if the page in swap
> cache is shared or not. But it is not true anymore. And khugepaged
> just allocates a THP then copy the data from base pages to huge page
> then replace PTEs to PMD, it doesn't change the content of the page,
> so I failed to see a problem by collapsing a shared page in swap
> cache. But I'm really not entirely sure, I may miss something...
Looking more closely where this logic originates from, it was introduced in:
commit 10359213d05acf804558bda7cc9b8422a828d1cd
Author: Ebru Akagunduz <ebru.akagunduz@xxxxxxxxx>
Date: Wed Feb 11 15:28:28 2015 -0800
mm: incorporate read-only pages into transparent huge pages
This patch aims to improve THP collapse rates, by allowing THP collapse in
the presence of read-only ptes, like those left in place by do_swap_page
after a read fault.
Currently THP can collapse 4kB pages into a THP when there are up to
khugepaged_max_ptes_none pte_none ptes in a 2MB range. This patch applies
the same limit for read-only ptes.
The change essentially results in a read-only mapped PTE page getting copied and
mapped writable via a new PMD-mapped THP.
It mentions do_swap_page(), so I assume it just tried to do what do_swap_page()
would do when trying to map a page swapped in from the page cache writable
immediately.
But we differ from do_swap_page() that we're not actually going to map the page
writable, we're going to copy the page (__collapse_huge_page_copy()) and map
the copy writable.
I assume we can remove that logic.
--
Thanks,
David / dhildenb
