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SubjectRe: [PATCH v2 5/5] psi: introduce psi monitor
On Mon, Jan 14, 2019 at 11:42 AM Johannes Weiner <hannes@cmpxchg.org> wrote:
>
> On Mon, Jan 14, 2019 at 11:30:12AM -0800, Suren Baghdasaryan wrote:
> > On Mon, Jan 14, 2019 at 2:22 AM Peter Zijlstra <peterz@infradead.org> wrote:
> > >
> > > On Thu, Jan 10, 2019 at 02:07:18PM -0800, Suren Baghdasaryan wrote:
> > > > +/*
> > > > + * psi_update_work represents slowpath accounting part while
> > > > + * psi_group_change represents hotpath part.
> > > > + * There are two potential races between these path:
> > > > + * 1. Changes to group->polling when slowpath checks for new stall, then
> > > > + * hotpath records new stall and then slowpath resets group->polling
> > > > + * flag. This leads to the exit from the polling mode while monitored
> > > > + * states are still changing.
> > > > + * 2. Slowpath overwriting an immediate update scheduled from the hotpath
> > > > + * with a regular update further in the future and missing the
> > > > + * immediate update.
> > > > + * Both races are handled with a retry cycle in the slowpath:
> > > > + *
> > > > + * HOTPATH: | SLOWPATH:
> > > > + * |
> > > > + * A) times[cpu] += delta | E) delta = times[*]
> > > > + * B) start_poll = (delta[poll_mask] &&| if delta[poll_mask]:
> > > > + * cmpxchg(g->polling, 0, 1) == 0)| F) polling_until = now +
> > > > + * | grace_period
> > > > + * | if now > polling_until:
> > > > + * if start_poll: | if g->polling:
> > > > + * C) mod_delayed_work(1) | G) g->polling = polling = 0
> > > > + * else if !delayed_work_pending(): | H) goto SLOWPATH
> > > > + * D) schedule_delayed_work(PSI_FREQ)| else:
> > > > + * | if !g->polling:
> > > > + * | I) g->polling = polling = 1
> > > > + * | J) if delta && first_pass:
> > > > + * | next_avg = calculate_averages()
> > > > + * | if polling:
> > > > + * | next_poll = poll_triggers()
> > > > + * | if (delta && first_pass) || polling:
> > > > + * | K) mod_delayed_work(
> > > > + * | min(next_avg, next_poll))
> > > > + * | if !polling:
> > > > + * | first_pass = false
> > > > + * | L) goto SLOWPATH
> > > > + *
> > > > + * Race #1 is represented by (EABGD) sequence in which case slowpath
> > > > + * deactivates polling mode because it misses new monitored stall and hotpath
> > > > + * doesn't activate it because at (B) g->polling is not yet reset by slowpath
> > > > + * in (G). This race is handled by the (H) retry, which in the race described
> > > > + * above results in the new sequence of (EABGDHEIK) that reactivates polling
> > > > + * mode.
> > > > + *
> > > > + * Race #2 is represented by polling==false && (JABCK) sequence which
> > > > + * overwrites immediate update scheduled at (C) with a later (next_avg) update
> > > > + * scheduled at (K). This race is handled by the (L) retry which results in the
> > > > + * new sequence of polling==false && (JABCKLEIK) that reactivates polling mode
> > > > + * and reschedules next polling update (next_poll).
> > > > + *
> > > > + * Note that retries can't result in an infinite loop because retry #1 happens
> > > > + * only during polling reactivation and retry #2 happens only on the first
> > > > + * pass. Constant reactivations are impossible because polling will stay active
> > > > + * for at least grace_period. Worst case scenario involves two retries (HEJKLE)
> > > > + */
> > >
> > > I'm having a fairly hard time with this. There's a distinct lack of
> > > memory ordering, and a suspicious mixing of atomic ops (cmpxchg) and
> > > regular loads and stores (without READ_ONCE/WRITE_ONCE even).
> > >
> > > Please clarify.
> >
> > Thanks for the feedback.
> > I do mix atomic and regular loads with g->polling only because the
> > slowpath is the only one that resets it back to 0, so
> > cmpxchg(g->polling, 1, 0) == 1 at (G) would always return 1.
> > Setting g->polling back to 1 at (I) indeed needs an atomic operation
> > but at that point it does not matter whether hotpath or slowpath sets
> > it. In either case we will schedule a polling update.
> > Am I missing anything?
> >
> > For memory ordering (which Johannes also pointed out) the critical point is:
> >
> > times[cpu] += delta | if g->polling:
> > smp_wmb() | g->polling = polling = 0
> > cmpxchg(g->polling, 0, 1) | smp_rmb()
> > | delta = times[*] (through goto SLOWPATH)
> >
> > So that hotpath writes to times[] then g->polling and slowpath reads
> > g->polling then times[]. cmpxchg() implies a full barrier, so we can
> > drop smp_wmb(). Something like this:
> >
> > times[cpu] += delta | if g->polling:
> > cmpxchg(g->polling, 0, 1) | g->polling = polling = 0
> > | smp_rmb()
> > | delta = times[*] (through goto SLOWPATH)
>
> delta = times[*] is get_recent_times(), which uses a seqcount and so
> implies the smp_rmb() already as well. So we shouldn't need another
> explicit one. But the comment should point out all the barriers.

Got it, thanks!
How about changing the comment this way:

HOTPATH: | SLOWPATH:
|
A) times[cpu] += delta | E) delta = times[*]
smp_wmb() | if delta[poll_mask]:
B) start_poll = (delta[poll_mask] &&| F) polling_until = now + grace_period
cmpxchg(g->polling, 0, 1) == 0)| if now > polling_until:
if start_poll: | if g->polling:
C) mod_delayed_work(1) | G) g->polling = polling = 0
else if !delayed_work_pending(): | smp_rmb()
D) schedule_delayed_work(PSI_FREQ)| H) goto SLOWPATH
| else:
| if !g->polling:
| I) g->polling = polling = 1
| J) if delta && first_pass:
| next_avg = calculate_averages()
| if polling:
| next_poll = poll_triggers()
| if (delta && first_pass) || polling:
| K) mod_delayed_work(
| min(next_avg, next_poll))
| if !polling:
| first_pass = false
| L) goto SLOWPATH

And maybe adding a comment about implied memory barriers in cmpxchg()
and in seqlock.
Would that be enough?

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