Re: [PATCH] mm, oom: allow oom reaper to race with exit_mmap
From: Michal Hocko
Date: Tue Jul 25 2017 - 11:45:25 EST
On Tue 25-07-17 17:26:39, Andrea Arcangeli wrote:
> On Mon, Jul 24, 2017 at 09:23:32AM +0200, Michal Hocko wrote:
> > From: Michal Hocko <mhocko@xxxxxxxx>
> >
> > David has noticed that the oom killer might kill additional tasks while
> > the exiting oom victim hasn't terminated yet because the oom_reaper marks
> > the curent victim MMF_OOM_SKIP too early when mm->mm_users dropped down
> > to 0. The race is as follows
> >
> > oom_reap_task do_exit
> > exit_mm
> > __oom_reap_task_mm
> > mmput
> > __mmput
> > mmget_not_zero # fails
> > exit_mmap # frees memory
> > set_bit(MMF_OOM_SKIP)
> >
> > The victim is still visible to the OOM killer until it is unhashed.
>
> I think this is a very minor problem, in the worst case you get a
> false positive oom kill, and it requires a race condition for it to
> happen. I wouldn't add mmap_sem in exit_mmap just for this considering
> the mmget_not_zero is already enough to leave exit_mmap alone.
That problem is real though as reported by David.
> Could you first clarify these points then I'll understand better what
> the above is about:
>
> 1) if exit_mmap runs for a long time with terabytes of RAM with
> mmap_sem held for writing like your patch does, wouldn't then
> oom_reap_task_mm fail the same way after a few tries on
> down_read_trylock? Despite your patch got applied? Isn't that
> simply moving the failure that leads to set_bit(MMF_OOM_SKIP) from
> mmget_not_zero to down_read_trylock?
No, it's not because the exclusive lock in exit_mmap is taken _after_ we
unmapped the address space. unmap_vmas will happily race with the oom
reaper.
> 2) why isn't __oom_reap_task_mm returning different retvals in case
> mmget_not_zero fails? What is the point to schedule_timeout
> and retry MAX_OOM_REAP_RETRIES times if mmget_not_zero caused it to
> return null as it can't do anything about such task anymore? Why
> are we scheduling those RETRIES times if mm_users is 0?
We are not. __oom_reap_task_mm will return true if the mm_users is 0 and
bail out.
> 3) if exit_mmap is freeing lots of memory already, why should there be
> another OOM immediately?
Because the memory can be freed from a different oom domain (e.g. a
different NUMA node).
> I thought oom reaper only was needed when
> the task on the right column couldn't reach the final mmput to set
> mm_users to 0. Why exactly is a problem that MMF_OOM_SKIP gets set
> on the mm, if exit_mmap is already guaranteed to be running?
MMF_OOM_SKIP will hide this task from the OOM killer and so we will
select another victim if we are still under oom. We _want_ to postpone
setting MMF_OOM_SKIP until we know that the oom victim no longer
interesting and we can go on to select another one.
> Why
> isn't the oom reaper happy to just stop in such case and wait it to
> complete?
Because there is no _guarantee_ that the final __mmput will release the
memory in finite time. And we cannot guarantee that longterm.
> exit_mmap doesn't even take the mmap_sem and it's running
> in R state, how would it block in a way that requires the OOM
> reaper to free memory from another process to complete?
it is not only about exit_mmap. __mmput calls into exit_aio and that can
wait for completion and there is no way to guarantee this will finish in
finite time.
> 4) how is it safe to overwrite a VM_FAULT_RETRY that returns without
> mmap_sem and then the arch code will release the mmap_sem despite
> it was already released by handle_mm_fault? Anonymous memory faults
> aren't common to return VM_FAULT_RETRY but an userfault
> can. Shouldn't there be a block that prevents overwriting if
> VM_FAULT_RETRY is set below? (not only VM_FAULT_ERROR)
>
> if (unlikely((current->flags & PF_KTHREAD) && !(ret & VM_FAULT_ERROR)
> && test_bit(MMF_UNSTABLE, &vma->vm_mm->flags)))
> ret = VM_FAULT_SIGBUS;
I am not sure I understand what you mean and how this is related to the
patch?
--
Michal Hocko
SUSE Labs