Thread (23 messages) 23 messages, 10 authors, 2026-03-25

Re: [LSF/MM/BPF TOPIC] Per-process page size

From: Matthew Wilcox <willy@infradead.org>
Date: 2026-02-17 15:22:50
Also in: linux-mm, lkml

On Tue, Feb 17, 2026 at 08:20:26PM +0530, Dev Jain wrote:
2. Generic Linux MM enlightenment
---------------------------------
We enlighten the Linux MM code to always hand out memory in the granularity
Please don't use the term "enlighten".  Tht's used to describe something
something or other with hypervisors.  Come up with a new term or use one
that already exists.
File memory
-----------
For a growing list of compliant file systems, large folios can already be
stored in the page cache. There is even a mechanism, introduced to support
filesystems with block sizes larger than the system page size, to set a
hard-minimum size for folios on a per-address-space basis. This mechanism
will be reused and extended to service the per-process page size requirements.

One key reason that the 64K kernel currently consumes considerably more memory
than the 4K kernel is that Linux systems often have lots of small
configuration files which each require a page in the page cache. But these
small files are (likely) only used by certain processes. So, we prefer to
continue to cache those using a 4K page.
Therefore, if a process with a larger page size maps a file whose pagecache
contains smaller folios, we drop them and re-read the range with a folio
order at least that of the process order.
That's going to be messy.  I don't have a good idea for solving this
problem, but the page cache really isn't set up to change minimum folio
order while the inode is in use.
 - Are there other arches which could benefit from this?
Some architectures walk the page tables entirely in software, but on the
other hand, those tend to be, er, "legacy" architectures these days and
it's doubtful that anybody would invest in adding support.

Sounds like a good question for Arnd ;-)
 - What level of compatibility we can achieve - is it even possible to
   contain userspace within the emulated ABI?
 - Rough edges of compatibility layer - pfnmaps, ksm, procfs, etc. For
   example, what happens when a 64K process opens a procfs file of
   a 4K process?
 - native pgtable implementation - perhaps inspiration can be taken
   from other arches with an involved pgtable logic (ppc, s390)?
I question who decides what page size a particular process will use.
The programmer?  The sysadmin?  It seems too disruptive for the kernel
to monitor and decide for the app what page size it will use.
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