Re: seqcount usage in xt_replace_table()
From: Paul E. McKenney
Date: Thu Jan 10 2019 - 09:50:42 EST
On Thu, Jan 10, 2019 at 01:38:11PM +0100, Dmitry Vyukov wrote:
> On Thu, Jan 10, 2019 at 1:30 PM Andrea Parri
> <andrea.parri@xxxxxxxxxxxxxxxxxxxx> wrote:
> >
> > > For seqcounts we currently simply ignore all accesses within the read
> > > section (thus the requirement to dynamically track read sections).
> > > What does LKMM say about seqlocks?
> >
> > LKMM does not currently model seqlocks, if that's what you're asking;
> > c.f., tools/memory-model/linux-kernel.def for a list of the currently
> > supported synchronization primitives.
> >
> > LKMM has also no notion of "data race", it insists that the code must
> > contain no unmarked accesses; we have been discussing such extensions
> > since at least Dec'17 (we're not quite there!, as mentioned by Paul).
>
> How does it call cases that do contain unmarked accesses then? :)
>
> > My opinion is that ignoring all accesses within a given read section
> > _can_ lead to false negatives
>
> Absolutely. But this is a deliberate decision.
> For our tools we consider priority 1: no false positives. Period.
> Priority 2: also report some true positives in best effort manner.
>
> > (in every possible definition of "data
> > race" and "read sections" I can think of at the moment ;D):
> >
> > P0 P1
> > read_seqbegin() x = 1;
> > r0 = x;
> > read_seqretry() // =0
> >
> > ought to be "racy"..., right? (I didn't audit all the callsites for
> > read_{seqbegin,seqretry}(), but I wouldn't be surprised to find such
> > pattern ;D ... "legacy", as you recalled).
One approach would be to forgive data races in the seqlock read-side
critical section only if:
o There was a later matching read_seqretry() that returned true, and
o There were no dereferences of any data-racy load. (Yeah, this
one should be good clean fun to model!)
Do people nest read_seqbegin(), and if so, what does that mean? ;-)
Thanx, Paul