On 19.02.21 17:31, Peter Xu wrote:
On Fri, Feb 19, 2021 at 09:20:16AM +0100, David Hildenbrand wrote:
On 18.02.21 23:59, Peter Xu wrote:
Hi, David,

On Wed, Feb 17, 2021 at 04:48:44PM +0100, David Hildenbrand wrote:
When we manage sparse memory mappings dynamically in user space - also
sometimes involving MADV_NORESERVE - we want to dynamically populate/
discard memory inside such a sparse memory region. Example users are
hypervisors (especially implementing memory ballooning or similar
technologies like virtio-mem) and memory allocators. In addition, we want
to fail in a nice way if populating does not succeed because we are out of
backend memory (which can happen easily with file-based mappings,
especially tmpfs and hugetlbfs).

Could you explain a bit more on how do you plan to use this new interface for
the virtio-balloon scenario?

Sure, that will bring up an interesting point to discuss
(MADV_POPULATE_WRITE).

I'm planning on using it in virtio-mem: whenever the guests requests the
hypervisor (via a virtio-mem device) to make specific blocks available
("plug"), I want to have a configurable option ("populate=on" /
"prealloc="on") to perform safety checks ("prealloc") and populate page
tables.

As you mentioned in the commit message, the original goal for MADV_POPULATE
should be for performance's sake, which I can understand.  But for safety
check, I'm curious whether we'd have better way to do that besides populating
the whole memory.

Well, it's 100% what I want for "populate=on"/"prealloc=on" semantics.

There is no real memory overcommit for huge pages, so any lacy allocation ("reserve only") only saves you boot time - which is not really an issue for virtio-mem, as the memory gets added and initialized asynchronously as the guest boots up.

"reserve=on,prealloc=off" is another future use case I have in mind - possible only for some memory backends (esp. anonymous memory - below).



E.g., can we simply ask the kernel "how much memory this process can still
allocate", then get a number out of it?  I'm not sure whether it can be done

Anything like that is completely racy and unreliable.

already by either cgroup or any other facilities, or maybe it's still missing.
But I'd raise this question up, since these two requirements seem to be two
standalone issues to solve at least to me.  It could be an overkill to populate
all the memory just for a sanity check.

For anonymous memory I have something in the works to dynamically reserve swap space per process for the memory reservation for not accounted private writable MAP_DONTRESERVE memory.

However, it works because swap space is per-system, not per-node or anything else. Doing that for file systems/hugetlbfs is a different beast.

And anonymous memory is right now less of my concern, as we're used to overcommitting there - limited pool sizes are more of an issue.

--- Ways to populate/preallocate ---

I see the following ways to populate/preallocate:

a) MADV_POPULATE: write fault on writable MAP_PRIVATE, read fault on
    MAP_SHARED
b) Writing to MAP_PRIVATE | MAP_SHARED from user space.
c) (below) MADV_POPULATE_WRITE: write fault on writable MAP_PRIVATE |
    MAP_SHARED

Especially, 2) is kind of weird as implemented in QEMU
(util/oslib-posix.c:do_touch_pages):

"Read & write back the same value, so we don't corrupt existing user/app
data ... TODO: get a better solution from kernel so we don't need to write
at all so we don't cause wear on the storage backing the region..."

It's interesting to know about commit 1e356fc14be ("mem-prealloc: reduce large
guest start-up and migration time.", 2017-03-14).  It seems for speeding up VM
boot, but what I can't understand is why it would cause the delay of hugetlb
accounting - I thought we'd fail even earlier at either fallocate() on the
hugetlb file (when we use /dev/hugepages) or on mmap() of the memfd which
contains the huge pages.  See hugetlb_reserve_pages() and its callers.  Or did
I miss something?

We should fail on mmap() when the reservation happens (unless MAP_NORESERVE is passed) I think.


I think there's a special case if QEMU fork() with a MAP_PRIVATE hugetlbfs
mapping, that could cause the memory accouting to be delayed until COW happens.

That would be kind of weird. I'd assume the reservation gets properly done during fork() - just like for VM_ACCOUNT.

However that's definitely not the case for QEMU since QEMU won't work at all as
late as that point.

IOW, for hugetlbfs I don't know why we need to populate the pages at all if we
simply want to know "whether we do still have enough space"..  And IIUC 2)
above is the major issue you'd like to solve too.

To avoid page faults at runtime on access I think. Reservation <= Preallocation.

[...]

--- HOW MADV_POPULATE_WRITE might be useful ---

With 3) 4) 5) MADV_POPULATE does partially what I want: preallocate memory
and populate page tables. But as it's a read fault, I think we'll have
another minor fault on access. Not perfect, but better than failing with
SIGBUS. One way around that would be having an additional
MADV_POPULATE_WRITE, to use in cases where it makes sense (I think at least
3) and 4), most probably not on actual files like 5) ).

Right, it seems when populating memories we'll read-fault on file-backed.
However that'll be another performance issue to think about.  So I'd hope we
can start with the current virtio-mem issue on memory accounting, then we can
discuss them separately.

MADV_POPULATE is certainly something I want and what fits nicely into the existing model of MAP_POPULATE. Doing reservation only is a different topic - and is most probably only possible for anonymous memory in a clean way.

Btw, thanks for the long write-up, it definitely helps me to understand what
you wanted to achieve.

Sure! Thanks!


--
Thanks,

David / dhildenb

Reply via email to