On Mon 23-11-20 11:06:21, Pavel Tatashin wrote:
> On Mon, Nov 23, 2020 at 4:01 AM Michal Hocko <mhocko@xxxxxxxx> wrote:
> >
> > On Fri 20-11-20 15:27:46, Pavel Tatashin wrote:
> > > Recently, I encountered a hang that is happening during memory hot
> > > remove operation. It turns out that the hang is caused by pinned user
> > > pages in ZONE_MOVABLE.
> > >
> > > Kernel expects that all pages in ZONE_MOVABLE can be migrated, but
> > > this is not the case if a user applications such as through dpdk
> > > libraries pinned them via vfio dma map.
> >
> > Long term or effectively time unbound pinning on zone movable is
> > fundamentaly broken. The sole reason of ZONE_MOVABLE existence is to
> > guarantee migrateability. If the cosumer of this memory cannot guarantee
> > that then it shouldn't use __GFP_MOVABLE in the first place.
>
> Exactly, this is what I am trying to solve, and started this thread to
> figure out what is the best approach to address this problem.
>
> >
> > > Kernel keeps trying to
> > > hot-remove them, but refcnt never gets to zero, so we are looping
> > > until the hardware watchdog kicks in.
> >
> > Yeah, the existing offlining behavior doesn't stop trying because the
> > current implementation of the migration cannot tell a diffence between
> > short and long term failures. Maybe the recent ref count for long term
> > pinning can be used to help out there.
> >
> > Anyway, I am wondering what do you mean by watchdog firing. The
> > operation should trigger neither of soft, hard or hung detectors.
>
> You are right, the hot-remove is killable operation. In our case,
> however, systemd stops petting watchdog during kexec reboot to ensure
> that reboot finishes, however, because we hot-remove memory during
> shutdown, and kernel is unable to hot-remove memory within 60s we get
> a watchdog reset.
Well, this should be worked around quite trivially. You can kill your
attempt before the timeout fires.
[...]
> > > 2. Add an internal move_pages_zone() similar to move_pages() syscall
> > > but instead of migrating to a different NUMA node, migrate pages from
> > > ZONE_MOVABLE to another zone.
> > > Call move_pages_zone() on demand prior to pinning pages from
> > > vfio_pin_map_dma() for instance.
> >
> > Why is the existing migration API insufficient?
>
> Here I am talking about internal implementation not user API. We do
> not have a function that migrates pages in a user address space from
> one zone to another zone. We only have a function that is exposed as a
> syscall that migrates pages from one node to another node.
We do have migrate_pages and its interface should make it trivial enough
that a new general purpose helper shouldn't be really needed.
struct migration_target_control mtc = {
.gfp_mask = GFP_USER | __GFP_RETRY_MAYFAIL,
};
migrate_pages(&list_of_pages, alloc_migration_target, NULL,
(unsigned long)&mtc, MIGRATE_SYNC, MR_PINNING);
note that NR_PINNING would have to added.
> > > 3. Perhaps, it also makes sense to add madvise() flag, to allocate
> > > pages from non-movable zone. When a user application knows that it
> > > will do DMA mapping, and pin pages for a long time, the memory that it
> > > allocates should never be migrated or hot-removed, so make sure that
> > > it comes from the appropriate place.
> > > The benefit of adding madvise() flag is that we won't have to deal
> > > with slow page migration during pin time, but the disadvantage is that
> > > we would need to change the user interface.
> >
> > No, the MOVABLE_ZONE like other zone types are internal implementation
> > detail of the MM. I do not think we want to expose that to the userspace
> > and carve this into stone.
>
> What I mean here is allowing users to guarantee that the page's PA is
> going to stay the same. Sort of a stronger mlock. Mlock only
> guarantees that the page is not swapped, but something like
> MADV_PINNED would guarantee that page is not going to be swapped and
> also not migrated.
There were some discussions around vmpin/unpin syscalls. This didn't
really lead anywhere. One of the roadblock was a proper accounting IIRC.
You might want to look for those discussions in email archives.
> If a user determines the PA of that page, that PA
> is going to stay the same throughout the life of the page. This is not
> exposing internal implementation in any way, this guarantee could be
> honored in various ways: i.e. pinned or allocating from ZONE_NORMAL.
> The fact that we would honor it by allocating memory from ZONE_NORMAL
> is implementation detail that would not be exposed to the user.
Jason has already replied to this and I do not have much to add.
[...]
> I just think it is inefficient to first allocate memory from
> ZONE_MOVABLE, and later migrate it to ZONE_NORMAL.
Yes it is inefficient. Is it usual that the memory is already faulted in
when it is pinned?
--
Michal Hocko
SUSE Labs
