Re: [PATCH 1/5] mm: Add __GFP_NO_OOM_KILL flag
From: Andrew Morton
Date: Thu May 07 2009 - 17:57:22 EST
On Thu, 7 May 2009 14:25:23 -0700 (PDT)
David Rientjes <rientjes@xxxxxxxxxx> wrote:
> On Thu, 7 May 2009, Andrew Morton wrote:
>
> > > > All of your tasks are in D state other than kthreads, right? That means
> > > > they won't be in the oom killer (thus no zones are oom locked), so you can
> > > > easily do this
> > > >
> > > > struct zone *z;
> > > > for_each_populated_zone(z)
> > > > zone_set_flag(z, ZONE_OOM_LOCKED);
> > > >
> > > > and then
> > > >
> > > > for_each_populated_zone(z)
> > > > zone_clear_flag(z, ZONE_OOM_LOCKED);
> > > >
> > > > The serialization is done with trylocks so this will never invoke the oom
> > > > killer because all zones in the allocator's zonelist will be oom locked.
> > > >
> > > > Why does this not work for you?
> > >
> > > Well, it might work too, but why are you insisting? How's it better than
> > > __GFP_NO_OOM_KILL, actually?
> > >
> > > Andrew, what do you think about this?
> >
> > I don't think I understand the proposal. Is it to provide a means by
> > which PM can go in and set a state bit against each and every zone? If
> > so, that's still a global boolean, only messier.
> >
>
> Why can't it be global while preallocating memory for hibernation since
> nothing but kthreads could allocate at this point and if the system is oom
> then the oom killer wouldn't be able to do anything anyway since it can't
> kill them?
- globals are bad
- the standard way of controlling memory allocator behaviour is via
the gfp_t. Bypassing that is an unusual step and needs a higher
level of justification, which I'm not seeing here.
- if we do this via an unusual global, we reduce the chances that
another subsytem could use the new feature.
I don't know what subsytem that might be, but I bet they're out
there. checkpoint-restart, virtual machines, ballooning memory
drivers, kexec loading, etc.
> The fact is that _all_ allocations here are implicitly __GFP_NO_OOM_KILL
> whether it specifies it or not since the oom killer would simply kill a
> task in D state which can't exit or free memory and subsequent allocations
> would make the oom killer a no-op because there's an eligible task with
> TIF_MEMDIE set. The only thing you're saving with __GFP_NO_OOM_KILL is
> calling the oom killer in a first place and killing an unresponsive task
> but that would have to happen anyway when thawed since the system is oom
> (or otherwise lockup for GFP_KERNEL with order < PAGE_ALLOC_COSTLY_ORDER).
All the above is specific to the PM application only, when userspace
tasks are stopped.
It might well end up that stopping userspace (beforehand or before
oom-killing) is a hard requirement for reliably disabling the
oom-killer. Because the __GFP_NO_OOM_KILL user will be safe, but
random other allocations from other tasks will not be. So perhaps we
_do_ need a global, and random userspace processes should test and
sleep upon that global if they're heading in the direction of the
oom-killer.
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