Thread (41 messages) 41 messages, 9 authors, 2021-05-11

Re: [PATCH net-next v3 0/5] page_pool: recycle buffers

From: Ilias Apalodimas <ilias.apalodimas@linaro.org>
Date: 2021-05-07 07:06:25
Also in: linux-mm, linux-rdma, lkml, netdev

On Fri, May 07, 2021 at 11:23:28AM +0800, Yunsheng Lin wrote:
On 2021/5/6 20:58, Ilias Apalodimas wrote:
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Not really, the opposite is happening here. If the pp_recycle bit is set we
will always call page_pool_return_skb_page().  If the page signature matches
the 'magic' set by page pool we will always call xdp_return_skb_frame() will
end up calling __page_pool_put_page(). If the refcnt is 1 we'll try
to recycle the page.  If it's not we'll release it from page_pool (releasing
some internal references we keep) unmap the buffer and decrement the refcnt.
Yes, I understood the above is what the page pool do now.

But the question is who is still holding an extral reference to the page when
kfree_skb()? Perhaps a cloned and pskb_expand_head()'ed skb is holding an extral
reference to the same page? So why not just do a page_ref_dec() if the orginal skb
is freed first, and call __page_pool_put_page() when the cloned skb is freed later?
So that we can always reuse the recyclable page from a recyclable skb. This may
make the page_pool_destroy() process delays longer than before, I am supposed the
page_pool_destroy() delaying for cloned skb case does not really matters here.

If the above works, I think the samiliar handling can be added to RX zerocopy if
the RX zerocopy also hold extral references to the recyclable page from a recyclable
skb too?
Right, this sounds doable, but I'll have to go back code it and see if it
really makes sense.  However I'd still prefer the support to go in as-is
(including the struct xdp_mem_info in struct page, instead of a page_pool
pointer).

There's a couple of reasons for that.  If we keep the struct xdp_mem_info we
can in the future recycle different kind of buffers using __xdp_return().
And this is a non intrusive change if we choose to store the page pool address
directly in the future.  It just affects the internal contract between the
page_pool code and struct page.  So it won't affect any drivers that already
use the feature.
This patchset has embeded a signature field in "struct page", and xdp_mem_info
is stored in page_private(), which seems not considering the case for associating
the page pool with "struct page" directly yet? 
Correct
Is the page pool also stored in
page_private() and a different signature is used to indicate that?
No only struct xdp_mem_info as you mentioned before
I am not saying we have to do it in this patchset, but we have to consider it
while we are adding new signature field to "struct page", right?
We won't need a new signature.  The signature in both cases is there to 
guarantee the page you are trying to recycle was indeed allocated by page_pool.

Basically we got two design choices here: 
- We store the page_pool ptr address directly in page->private and then,
  we call into page_pool APIs directly to do the recycling.
  That would eliminate the lookup through xdp_mem_info and the
  XDP helpers to locate page pool pointer (through __xdp_return).
- You store the xdp_mem_info on page_private.  In that case you need to go
  through __xdp_return()  to locate the page_pool pointer. Although we might
  loose some performance that would allow us to recycle additional memory types
  and not only MEM_TYPE_PAGE_POOL (in case we ever need it).


I think both choices are sane.  What I am trying to explain here, is
regardless of what we choose now, we can change it in the future without
affecting the API consumers at all.  What will change internally is the way we
lookup the page pool pointer we are trying to recycle.

[...]


Cheers
/Ilias
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