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SubjectRe: [PATCH v2 1/1] psi: Fix uaf issue when psi trigger is destroyed while being polled
On Tue, Jan 11, 2022 at 12:15 PM Linus Torvalds
<torvalds@linux-foundation.org> wrote:
>
> On Tue, Jan 11, 2022 at 11:41 AM Eric Biggers <ebiggers@kernel.org> wrote:
> >
> > This is yet another case of "one time init".
>
> Ehh. It's somewhat debatable.
>
> For a flag that sets a value once, the rules are somewhat different.
> In that case, people may simply not care about memory ordering at all,
> because all they care about is the actual flag value, and - thanks to
> the one-time behavior - basically whether some transition had happened
> or not. That's not all that unusual.
>
> But when you fetch a pointer, things are at least conceptually
> slightly different.
>
> Of course, you may use the existence of the pointer itself as a flag
> (ie just a "NULL or not"), in which case it's the same as any other
> one-time flag thing.
>
> But if you use it to dereference something, then _by_definition_
> you're not just fetching a one-time flag - even if the pointer is only
> set once. At that point, at a minimum, you require that that thing has
> been initialized.
>
> Now, it's then absolutely true that the stuff behind the pointer may
> then have other reasons not to care about memory ordering again, and
> you may be able to avoid memory ordering even then. If you're just
> switching the pointer around between different objects that has been
> statically allocated and initialized, then there is no memory ordering
> required, for example. You might be back to the "I just want one or
> the other of these two pointers".
>
> But if you have something that was initialized before the pointer was
> assigned, you really do hit the problem we had on alpha, where even if
> you order the pointer write side accesses, the dereferencing of the
> pointer may not be ordered on the read side.
>
> Now, alpha is basically dead, and we probably don't really care. Even
> on alpha, the whole "data dependency isn't a memory ordering" is
> almost impossible to trigger.
>
> And in fact, to avoid too much pain we ended up saying "screw alpha"
> and added a memory barrier to READ_ONCE(), so it turns out that
> smp_store_release -> READ_ONCE() does work because we just couldn't be
> bothered to try something more proper.
>
> So yeah, READ_ONCE() ends up making the "access through a pointer"
> thing safe, but that's less of a "it should be safe" and more of a "we
> can't waste time dealing with braindamage on platforms that don't
> matter".
>
> In general, I think the rule should be that READ_ONCE() is for things
> that simply don't care about memory ordering at all (or do whatever
> ordering they want explicitly). And yes, one such very common case is
> the "one-way flag" where once a certain state has been reached, it's
> idempotent.
>
> Of course, then we have the fact that READ_ONCE() can be more
> efficient than "smp_load_acquire()" on some platforms, so if something
> is *hugely* performance-critical, you might use READ_ONCE() even if
> it's not really technically the right thing.
>
> So it's complicated.
>
> A lot of READ_ONCE() users exist just for historical reasons because
> they predated smp_store_release/smp_load_acquire. They may well have
> been using ACCESS_ONCE() long ago.
>
> And some are there because it's a very critical piece of code, and
> it's very intentional.
>
> But if you don't have some huge reasons, I really would prefer people
> use "smp_store_release -> smp_load_acquire" as a very clear "handoff"
> event.

Posted v3 with smp_store_release/smp_load_acquire:
https://lore.kernel.org/all/20220111232309.1786347-1-surenb@google.com
Thanks!

>
> Linus

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