On 21-Jan 15:59, Peter Zijlstra wrote:
> On Tue, Jan 15, 2019 at 10:15:01AM +0000, Patrick Bellasi wrote:
> > @@ -835,6 +954,28 @@ static void uclamp_bucket_inc(struct uclamp_se *uc_se, unsigned int clamp_id,
> > } while (!atomic_long_try_cmpxchg(&uc_maps[bucket_id].adata,
> > &uc_map_old.data, uc_map_new.data));
> >
> > + /*
> > + * Ensure each CPU tracks the correct value for this clamp bucket.
> > + * This initialization of per-CPU variables is required only when a
> > + * clamp value is requested for the first time from a slow-path.
> > + */
>
> I'm confused; why is this needed?
That's a lazy initialization of the per-CPU uclamp data for a given
bucket, i.e. the clamp value assigned to a bucket, which happens only
when new clamp values are requested... usually only at system
boot/configuration time.
For example, let say we have these buckets mapped to given clamp
values:
bucket_#0: clamp value: 10% (mapped)
bucket_#1: clamp value: 20% (mapped)
bucket_#2: clamp value: 30% (mapped)
and then let's assume all the users of bucket_#1 are "destroyed", i.e.
there are no more tasks, system defaults or cgroups asking for a
20% clamp value. The corresponding bucket will become free:
bucket_#0: clamp value: 10% (mapped)
bucket_#1: clamp value: 20% (free)
bucket_#2: clamp value: 30% (mapped)
If, in the future, we ask for a new clamp value, let say a task ask
for a 40% clamp value, then we need to map that value into a bucket.
Since bucket_#1 is free we can use it to fill up the hold and keep all
the buckets in use at the beginning of a cache line.
However, since now bucket_#1 tracks a different clamp value (40
instead of 20) we need to walk all the CPUs and updated the cached
value:
bucket_#0: clamp value: 10% (mapped)
bucket_#1: clamp value: 40% (mapped)
bucket_#2: clamp value: 30% (mapped)
Is that more clear ?
In the following code:
>
> > + if (unlikely(!uc_map_old.se_count)) {
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
This condition is matched by clamp buckets which needs the
initialization described above. These are buckets without a client so
fare and that have been selected to map/track a new clamp value.
That's why we have an unlikely... quite likely tasks/cgroups will keep
asking for the same (limited number of) clamp values and thus we find
a bucket already properly initialized for them.
> > + for_each_possible_cpu(cpu) {
> > + struct uclamp_cpu *uc_cpu =
> > + &cpu_rq(cpu)->uclamp[clamp_id];
> > +
> > + /* CPU's tasks count must be 0 for free buckets */
> > + SCHED_WARN_ON(uc_cpu->bucket[bucket_id].tasks);
> > + if (unlikely(uc_cpu->bucket[bucket_id].tasks))
> > + uc_cpu->bucket[bucket_id].tasks = 0;
That's a safety check, we expect that (free) buckets do not refcount
any task. That's one of the conditions for a bucket to be considered
free. Here we do just a sanity check, that's because we use unlikely.
If the check matches there is a data corruption, which is reported by
the previous SCHED_WARN_ON and "fixed" by the if branch.
In my tests I have s/SCHED_WARN_ON/BUG_ON/ and never hit that bug...
thus the refcounting code should be ok and this check is there just to
be more on the safe side for future changes.
> > +
> > + /* Minimize cache lines invalidation */
> > + if (uc_cpu->bucket[bucket_id].value == bucket_value)
> > + continue;
If by any chance we get a request for a new clamp value which happened
to be already used before... we can skip the initialization to avoid.
> > + uc_cpu->bucket[bucket_id].value = bucket_value;
> > + }
> > + }
> > +
> > uc_se->value = clamp_value;
> > uc_se->bucket_id = bucket_id;
> >
--
#include <best/regards.h>
Patrick Bellasi
