Re: [RFC PATCH 4/5] mm: truncate: split huge page cache page to a non-zero order if possible.
From: Zi Yan
Date: Tue Mar 22 2022 - 10:27:03 EST
On 21 Mar 2022, at 18:32, Roman Gushchin wrote:
> On Mon, Mar 21, 2022 at 10:21:27AM -0400, Zi Yan wrote:
>> From: Zi Yan <ziy@xxxxxxxxxx>
>>
>> To minimize the number of pages after a huge page truncation, we do not
>> need to split it all the way down to order-0. The huge page has at most
>> three parts, the part before offset, the part to be truncated, the part
>> remaining at the end. Find the greatest common power of two multiplier of
>> the non-zero values of them as the new order, so we can split the huge
>> page to this order and keep the remaining pages as large and as few as
>> possible.
>
> Would you mind please to describe the algorithm in more details?
Sure.
During truncation, there can be three parts in a huge page:
1. the _offset_ from the beginning of the huge page,
2. the _length_ of the to-be-truncated part,
3. the _remaining_ part after the to-be-truncated part.
the size of the split huge page need to be the greatest common divisor
of the non-zero ones of three after being rounded down to power of two.
OK, I actually find there is a gcd function. I think the algorithm can
simplified to
new_order = ilog2(gcd(gcd(offset, length), remaining)) - PAGE_SHIFT;
I will update the code, the commit message, and the comment in the next
version.
Thank you for the comment.
--
Best Regards,
Yan, Zi
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