Re: [patch 6/12] hold atomic kmaps across generic_file_read

From: Daniel Phillips (phillips@arcor.de)
Date: Sat Aug 10 2002 - 13:16:36 EST


On Saturday 10 August 2002 19:01, Linus Torvalds wrote:
> On Sat, 10 Aug 2002, Daniel Phillips wrote:
> > Sorry, this connection is too subtle for me. I see why we want to do
> > this, and in fact I've been researching how to do it for the last few
> > weeks, but I don't see how it's related to the atomic kmap path. Could
> > you please explain, in words of one syllable?
>
> We cannot do that optimization generally. I'll give you two reasons, both
> of which are sufficient on their own:
>
> - doing the page table walk is simply slower than doing the memcpy if the
> page is just there. So you have to have a good heuristic on when it
> might be worthwhile to do page table tricks. That heuristic should
> include "is the page directly accessible". Which is exactly what you
> get if you have a "atomic copy_to_user() that returns failure if it
> cannot be done atomically".
>
> - Even if walking the page tables were to be fast (ie ignoring #1),
> replacing a page in virtual memory is absolutely not. Especially not on
> SMP, where replacing a page in memory implies doing CPU crosscalls in
> order to invalidate the TLB on other CPU's for the old page. So before
> you do the "clever VM stuff", you had better have a heuristic that says
> "this page isn't mapped, so it doesn't need the expensive cross-calls".
>
> Again: guess what gives you pretty much exactly that heuristic?
>
> See?

Yes, I see. Easy, when you put it that way.

> The fact is, "memcpy()" is damned fast for a lot of cases, because it
> natively uses the TLB and existing caches. It's slow for other cases, but
> you want to have a good _heuristic_ for when you might want to try to
> avoid the slow case without avoiding the fast case. Without that heuristic
> you can't do the optimization sanely.
>
> And obviously the heuristic should be a really fast one. The atomic
> copy_to_user() is the _perfect_ heuristic, because if it just does the
> memcpy there is absolutely zero overhead (it just does it). The overhead
> comes in only in the case where we're going to be slowed down by the fault
> anyway, _and_ where we want to do the clever tricks.

So the overhead consists of inc/deccing preempt_count around the
copy_*_user, which fakes do_page_fault into forcing an early return.

> > While I'm feeling disoriented, what exactly is the deadlock path for a
> > write from a mmaped, not uptodate page, to the same page? And why does
> > __get_user need to touch the page in *two* places to instantiate it?
>
> It doesn't touch it twice. It touches _both_ of the potential pages that
> will be involved in the memcpy - since the copy may well not be
> page-aligned in user space.

Oh duh. I stared at that for the longest time, without realizing there's no
alignment requirement.

> The deadlock is when you do a write of a page into a mapping of the very
> same page that isn't yet mapped. What happens is:
>
> - the write has gotten the page lock. Since the wrie knows that the whole
> page is going to be overwritten, it is _not_ marked uptodate, and the
> old contents (garbage from the allocation) are left alone.
>
> - the copy_from_user() pagefaults and tries to bring in the _same_ page
> into user land.
>
> - that involves reading in the page and making sure it is up-to-date
>
> - but since the write has already locked the page, you now have a
> deadlock. The write cannot continue, since it needs the old contents,
> and the old contents cannot be read in since the write holds the page
> lock.
>
> The "copy_from_user() atomically" solves the problem quite nicely. If the
> atomic copy fails, we can afford to do the things that we cannot afford to
> do normally (because the thing never triggers under real load, and real
> load absolutely _needs_ to not try to get the page up-to-date before the
> write).
>
> So with the atomic copy-from-user, we can trap the problem only when it is
> a problem, and go full speed normally.

That's all crystal clear now. (Though the way do_page_fault finesses
copy_from_user into returning early is a little - how should I put it -
opaque. Yes, I see it, but...)

I'm sure you're aware there's a lot more you can do with these tricks
than just zero-copy read - there's zero-copy write as well, and there
are both of the above, except a full pte page at a time. There could
even be a file to file copy if there were an interface for it.

I don't see what prevents the read optimization even with a mmapped
page, the page just becomes CoW in all of the mapped region, the read
destination and the page cache.

-- 
Daniel
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