On 2/26/20 4:56 PM, Hugh Dickins wrote:
On Wed, 26 Feb 2020, Yang Shi wrote:
On 2/21/20 4:24 PM, Alexander Duyck wrote:
On Fri, Feb 21, 2020 at 10:24 AM Yang Shi <yang.shi@xxxxxxxxxxxxxxxxx>
wrote:
On 2/20/20 10:16 AM, Alexander Duyck wrote:
On Tue, Dec 3, 2019 at 4:43 PM Yang Shi <yang.shi@xxxxxxxxxxxxxxxxx>
wrote:
Currently when truncating shmem file, if the range is partial of THP
(start or end is in the middle of THP), the pages actually will just
get
cleared rather than being freed unless the range cover the whole THP.
Even though all the subpages are truncated (randomly or
sequentially),
the THP may still be kept in page cache. This might be fine for some
usecases which prefer preserving THP.
But, when doing balloon inflation in QEMU, QEMU actually does hole
punch
or MADV_DONTNEED in base page size granulairty if hugetlbfs is not
used.
So, when using shmem THP as memory backend QEMU inflation actually
doesn't
work as expected since it doesn't free memory. But, the inflation
usecase really needs get the memory freed. Anonymous THP will not
get
freed right away too but it will be freed eventually when all
subpages are
unmapped, but shmem THP would still stay in page cache.
Split THP right away when doing partial hole punch, and if split
fails
just clear the page so that read to the hole punched area would
return
zero.
Cc: Hugh Dickins <hughd@xxxxxxxxxx>
Cc: Kirill A. Shutemov <kirill.shutemov@xxxxxxxxxxxxxxx>
Cc: Andrea Arcangeli <aarcange@xxxxxxxxxx>
Signed-off-by: Yang Shi <yang.shi@xxxxxxxxxxxxxxxxx>
One question I would have is if this is really the desired behavior we
are looking for?
By proactively splitting the THP you are likely going to see a
performance regression with the virtio-balloon driver enabled in QEMU.
I would suspect the response to that would be to update the QEMU code
to identify the page size of the shared memory ramblock. At that
point I suspect it would start behaving the same as how it currently
handles anonymous memory, and the work done here would essentially
have been wasted other than triggering the desire to resolve this in
QEMU to avoid a performance regression.
The code for inflating a the balloon in virtio-balloon in QEMU can be
found here:
https://github.com/qemu/qemu/blob/master/hw/virtio/virtio-balloon.c#L66
If there is a way for us to just populate the value obtained via
qemu_ram_pagesize with the THP page size instead of leaving it at 4K,
which is the size I am assuming it is at since you indicated that it
is just freeing the base page size, then we could address the same
issue and likely get the desired outcome of freeing the entire THP
page when it is no longer used.
If qemu could punch hole (this is how qemu free file-backed memory) in
THP unit, either w/ or w/o the patch the THP won't get split since the
whole THP will get truncated. But, if qemu has to free memory in sub-THP
size due to whatever reason (for example, 1MB for every 2MB section),
then we have to split THP otherwise no memory will be freed actually
with the current code. It is not about performance, it is about really
giving memory back to host.
I get that, but at the same time I am not sure if everyone will be
happy with the trade-off. That is my concern.
You may want to change the patch description above if that is the
case. Based on the description above it makes it sound as if the issue
is that QEMU is using hole punch or MADV_DONTNEED with the wrong
granularity. Based on your comment here it sounds like you want to
have the ability to break up the larger THP page as soon as you want
to push out a single 4K page from it.
Yes, you are right. The commit log may be confusing. What I wanted to convey
is QEMU has no idea if THP is used or not so it treats memory with base size
unless hugetlbfs is used since QEMU is aware huge page is used in this case.
This may sounds irrelevant to the problem, I would just remove that.
Oh, I'm sad to read that, since I was yanking most of your commit
message (as "Yang Shi writes") into my version, to give stronger
and independent justification for the change.
If I try to write about QEMU and ballooning myself, nonsense is sure to
emerge; but I don't know what part "I would just remove that" refers to.
May I beg you for an updated paragraph or two, explaining why you
want to see the change?
I think Alexander means this line "But, when doing balloon inflation in
QEMU, QEMU actually does hole punch
or MADV_DONTNEED in base page size granulairty if hugetlbfs is not
used." He thought it may confuse people thought this is QEMU issue.
Actually, according to the later discussion, it sounds like a limitation
from balloon driver, which just can deal with 4K size page. So, we could
rephrase it to "Balloon inflation is handled in base page size."
Thanks,
Hugh