Re: [PATCH v5 00/21] mm/zsmalloc: add zpdesc memory descriptor for zswap.zpool
From: Sergey Senozhatsky
Date: Wed Aug 14 2024 - 02:04:10 EST
On (24/08/08 04:37), Matthew Wilcox wrote:
[..]
>
> I don't know if it's _your_ problem. It's _our_ problem. The arguments
> for (at least attempting) to shrink struct page seem quite compelling.
> We have a plan for most of the users of struct page, in greater or
> lesser detail. I don't think we have a plan for zsmalloc. Or at least
> if there is a plan, I don't know what it is.
Got you, thanks. And sorry for a very delayed reply.
> > > Do you allocate a per-page struct zpdesc, and have each one pointing
> > > to a zspage?
> >
> > I'm not very knowledgeable when it comes to memdesc, excuse my
> > ignorance, and please feel free to educate me.
>
> I've written about it here:
> https://kernelnewbies.org/MatthewWilcox/Memdescs
> https://kernelnewbies.org/MatthewWilcox/FolioAlloc
> https://kernelnewbies.org/MatthewWilcox/Memdescs/Path
Thanks a lot!
> > So I guess if we have something
> >
> > struct zspage {
> > ..
> > struct zpdesc *first_desc;
> > ..
> > }
> >
> > and we "chain" zpdesc-s to form a zspage, and make each of them point to
> > a corresponding struct page (memdesc -> *page), then it'll resemble current
> > zsmalloc and should work for everyone? I also assume for zspdesc-s zsmalloc
> > will need to maintain a dedicated kmem_cache?
>
> Right, we could do that. Each memdesc has to be a multiple of 16 bytes,
> sp we'd be doing something like allocating 32 bytes for each page.
> Is there really 32 bytes of information that we want to store for
> each page? Or could we store all of the information in (a somewhat
> larger) zspage? Assuming we allocate 3 pages per zspage, if we allocate
> an extra 64 bytes in the zspage, we've saved 32 bytes per zspage.
I certainly like (and appreciate) the approach that saves us
some bytes here and there. zsmalloc page can consist of 1 to
up to CONFIG_ZSMALLOC_CHAIN_SIZE (max 16) physical pages. I'm
trying to understand (in pseudo-C code) what does a "somewhat larger
zspage" mean. A fixed size array (given that we know the max number
of physical pages) per-zspage?