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SubjectRe: [PATCH v4 00/30] NT synchronization primitive driver
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On Tuesday, 16 April 2024 11:19:17 CDT Peter Zijlstra wrote:
> On Tue, Apr 16, 2024 at 05:53:45PM +0200, Peter Zijlstra wrote:
> > On Tue, Apr 16, 2024 at 05:50:14PM +0200, Peter Zijlstra wrote:
> > > On Tue, Apr 16, 2024 at 10:14:21AM +0200, Peter Zijlstra wrote:
> > > > > Some aspects of the implementation may deserve particular comment:
> > > > >
> > > > > * In the interest of performance, each object is governed only by a
> > > > > single
> > > > >
> > > > > spinlock. However, NTSYNC_IOC_WAIT_ALL requires that the state of
> > > > > multiple
> > > > > objects be changed as a single atomic operation. In order to
> > > > > achieve this, we first take a device-wide lock ("wait_all_lock")
> > > > > any time we are going to lock more than one object at a time.
> > > > >
> > > > > The maximum number of objects that can be used in a vectored wait,
> > > > > and
> > > > > therefore the maximum that can be locked simultaneously, is 64.
> > > > > This number is NT's own limit.
> > >
> > > AFAICT:
> > > spin_lock(&dev->wait_all_lock);
> > >
> > > list_for_each_entry(entry, &obj->all_waiters, node)
> > >
> > > for (i=0; i<count; i++)
> > >
> > > spin_lock_nest_lock(q->entries[i].obj->lock,
> > > &dev->wait_all_lock);
> > >
> > > Where @count <= NTSYNC_MAX_WAIT_COUNT.
> > >
> > > So while this nests at most 65 spinlocks, there is no actual bound on
> > > the amount of nested lock sections in total. That is, all_waiters list
> > > can be grown without limits.
> > >
> > > Can we pretty please make wait_all_lock a mutex ?

That should be fine, at least.

> > Hurmph, it's worse, you do that list walk while holding some obj->lock
> > spinlokc too. Still need to figure out how all that works....
>
> So the point of having that other lock around is so that things like:
>
> try_wake_all_obj(dev, sem)
> try_wake_any_sem(sem)
>
> are done under the same lock?

The point of having the other lock around is that try_wake_all() needs to lock
multiple objects at the same time. It's a way of avoiding lock inversion.

Consider task A does a wait-for-all on objects X, Y, Z. Then task B signals Y,
so we do try_wake_all_obj() on Y, which does try_wake_all() on A's queue
entry; that needs to check X and Z and consume the state of all three objects
atomically. Another task could be trying to signal Z at the same time and
could hit a task waiting on Z, Y, X, and that causes inversion.

The simple and easy way to implement everything is just to have a global lock
on the whole device, but this is kind of known to be a performance bottleneck
(this was NT's BKL, and they ditched it starting with Vista or 7 or
something).

Instead we use a lock per object, and normally in the wait-for-any case we
only ever need to grab one lock at a time, but when we need to do a wait-for-
all we need to lock multiple objects at once, and we grab the outer lock to
avoid potential lock inversion.

> Where I seem to note that both those functions do that same list
> iteration.

Over different lists. I don't know if there's a better way to name things to
make that clearer.

There's the "any" wait queue, which tasks which do a wait-for-any add
themselves to, and the "all" wait queue, which tasks that do a wait-for-all
add themselves to. Signaling an object could potentially wake up either one,
but checking whether a task is eligible is a different process.



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