On Tue, May 29, 2012 at 06:44:15PM +0200, Peter Zijlstra wrote:
> On Fri, 2012-05-25 at 19:02 +0200, Andrea Arcangeli wrote:
> > Move the AutoNUMA per page information from the "struct page" to a
> > separate page_autonuma data structure allocated in the memsection
> > (with sparsemem) or in the pgdat (with flatmem).
> >
> > This is done to avoid growing the size of the "struct page" and the
> > page_autonuma data is only allocated if the kernel has been booted on
> > real NUMA hardware (or if noautonuma is passed as parameter to the
> > kernel).
> >
>
> Argh, please fold this change back into the series proper. If you want
> to keep it.. as it is its not really an improvement IMO, see below.
The whole objective of this patch is to avoid allocating the
page_autonuma structures when the kernel is booted on not NUMA
hardware.
It's not an improvement when booting the kernel on NUMA hardware
that's for sure.
I didn't merge it with the previous because this was the most
experimental recent change, so I wanted bisectability here. When
something goes wrong here, the kernel won't boot, so unless you use
kvm with gdbstub it's a little tricky to debug (indeed I debugged it
with gdbstub, there it's trivial).
> > +struct page_autonuma {
> > + /*
> > + * FIXME: move to pgdat section along with the memcg and allocate
> > + * at runtime only in presence of a numa system.
> > + */
> > + /*
> > + * To modify autonuma_last_nid lockless the architecture,
> > + * needs SMP atomic granularity < sizeof(long), not all archs
> > + * have that, notably some alpha. Archs without that requires
> > + * autonuma_last_nid to be a long.
> > + */
>
> Looking at arch/alpha/include/asm/xchg.h it looks to have that just
> fine, so maybe we simply don't support SMP on those early Alphas that
> had that weirdness.
I agree we should never risk that.
> This makes a shadow page frame of 32 bytes per page, or ~0.8% of memory.
> This isn't in fact an improvement.
>
> The suggestion done by Rik was to have something like a sqrt(nr_pages)
> (?) scaled array of such things containing the list_head and page
> pointer -- and leave the two nids in the regular page frame. Although I
> think you've got to fight the memcg people over that last word in struct
> page.
>
> That places a limit on the amount of pages that can be in migration
> concurrently, but also greatly reduces the memory overhead.
Yes, however for the last_nid I'd still need it for every page (and if
I allocate it dynamic I still first need to find a way to remove the
struct page pointer).
I thought to add a pointer in the memsection (or maybe to use a vmemmap
so that it won't even require a pointer in every memsection). I've to
check a few more things before I allow_the autonuma->page translation
without a page pointer, notably to verify the boot time allocations
points won't just allocate power of two blocks of memory (they
shouldn't but I didn't verify).
This is clearly a move in the right direction to avoid the memory
overhead when not booted on NUMA hardware, and I don't think there's
anything fundamental that prevents us remove the page pointer from the
page_autonuma structure, and to later experiment with a limited size
array of async migration structures.
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