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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [PATCH 3/7] xen: credit2: soft-affinity awareness in fallback_cpu()
On 06/16/2017 03:13 PM, Dario Faggioli wrote: > By, basically, moving all the logic of the function > inside the usual two steps (soft-affinity step and > hard-affinity step) loop. > > Signed-off-by: Dario Faggioli <dario.faggioli@xxxxxxxxxx> > Signed-off-by: Justin T. Weaver <jtweaver@xxxxxxxxxx> > --- > Cc: Anshul Makkar <anshul.makkar@xxxxxxxxxx> > Cc: George Dunlap <george.dunlap@xxxxxxxxxxxxx> > --- > George, you gave your Reviewed-by to: > https://lists.xenproject.org/archives/html/xen-devel/2016-08/msg02201.html > > which was adding soft-affinity awareness to both fallback_cpu and cpu_pick(). > See here: > https://lists.xenproject.org/archives/html/xen-devel/2016-09/msg03259.html > > I changed the cpu_pick() part a lot, and that's why I decided to split the > patch in two. As far as fallback_cpu(), though, what's done in this patch is > exactly the same that was being done in the original one. > > So, of course I'm dropping the Rev-by, but I thought it could have been useful > to mention this. :-) > --- > xen/common/sched_credit2.c | 77 > ++++++++++++++++++++++++++++++++------------ > 1 file changed, 56 insertions(+), 21 deletions(-) > > diff --git a/xen/common/sched_credit2.c b/xen/common/sched_credit2.c > index c749d4e..54f6e21 100644 > --- a/xen/common/sched_credit2.c > +++ b/xen/common/sched_credit2.c > @@ -537,36 +537,71 @@ void smt_idle_mask_clear(unsigned int cpu, cpumask_t > *mask) > } > > /* > - * When a hard affinity change occurs, we may not be able to check some > - * (any!) of the other runqueues, when looking for the best new processor > - * for svc (as trylock-s in csched2_cpu_pick() can fail). If that happens, we > - * pick, in order of decreasing preference: > - * - svc's current pcpu; > - * - another pcpu from svc's current runq; > - * - any cpu. > + * In csched2_cpu_pick(), it may not be possible to actually look at remote > + * runqueues (the trylock-s on their spinlocks can fail!). If that happens, > + * we pick, in order of decreasing preference: > + * 1) svc's current pcpu, if it is part of svc's soft affinity; > + * 2) a pcpu in svc's current runqueue that is also in svc's soft affinity; > + * 3) just one valid pcpu from svc's soft affinity; > + * 4) svc's current pcpu, if it is part of svc's hard affinity; > + * 5) a pcpu in svc's current runqueue that is also in svc's hard affinity; > + * 6) just one valid pcpu from svc's hard affinity > + * > + * Of course, 1, 2 and 3 makes sense only if svc has a soft affinity. Also > + * note that at least 6 is guaranteed to _always_ return at least one pcpu. > */ > static int get_fallback_cpu(struct csched2_vcpu *svc) > { > struct vcpu *v = svc->vcpu; > - int cpu = v->processor; > + unsigned int bs; > > - cpumask_and(cpumask_scratch_cpu(cpu), v->cpu_hard_affinity, > - cpupool_domain_cpumask(v->domain)); > + for_each_affinity_balance_step( bs ) > + { > + int cpu = v->processor; > + > + if ( bs == BALANCE_SOFT_AFFINITY && > + !has_soft_affinity(v, v->cpu_hard_affinity) ) > + continue; > > - if ( likely(cpumask_test_cpu(cpu, cpumask_scratch_cpu(cpu))) ) > - return cpu; > + affinity_balance_cpumask(v, bs, cpumask_scratch_cpu(cpu)); > + cpumask_and(cpumask_scratch_cpu(cpu), cpumask_scratch_cpu(cpu), > + cpupool_domain_cpumask(v->domain)); > > - if ( likely(cpumask_intersects(cpumask_scratch_cpu(cpu), > - &svc->rqd->active)) ) > - { > - cpumask_and(cpumask_scratch_cpu(cpu), &svc->rqd->active, > - cpumask_scratch_cpu(cpu)); > - return cpumask_first(cpumask_scratch_cpu(cpu)); > - } > + /* > + * This is cases 1 or 4 (depending on bs): if v->processor is (still) > + * in our affinity, go for it, for cache betterness. > + */ > + if ( likely(cpumask_test_cpu(cpu, cpumask_scratch_cpu(cpu))) ) > + return cpu; > > - ASSERT(!cpumask_empty(cpumask_scratch_cpu(cpu))); > + /* > + * This is cases 2 or 5 (depending on bs): v->processor isn't there > + * any longer, check if we at least can stay in our current runq. > + */ > + if ( likely(cpumask_intersects(cpumask_scratch_cpu(cpu), > + &svc->rqd->active)) ) > + { > + cpumask_and(cpumask_scratch_cpu(cpu), cpumask_scratch_cpu(cpu), > + &svc->rqd->active); > + return cpumask_first(cpumask_scratch_cpu(cpu)); > + } > > - return cpumask_first(cpumask_scratch_cpu(cpu)); > + /* > + * This is cases 3 or 6 (depending on bs): last stand, just one valid > + * pcpu from our soft affinity, if we have one and if there's any. In > + * fact, if we are doing soft-affinity, it is possible that we fail, > + * which means we stay in the loop and look for hard affinity. OTOH, > + * if we are at the hard-affinity balancing step, it's guaranteed > that > + * there is at least one valid cpu, and therefore we are sure that we > + * return it, and never really exit the loop. > + */ > + ASSERT(!cpumask_empty(cpumask_scratch_cpu(cpu)) || > + bs == BALANCE_SOFT_AFFINITY); > + cpu = cpumask_first(cpumask_scratch_cpu(cpu)); So just checking my understanding here... at this point we're not taking into consideration load or idleness or anything else -- we're just saying, "Is there a cpu in my soft affinity it is *possible* to run on?" So on a properly configured system, we should never take the second iteration of the loop? > + if ( likely(cpu < nr_cpu_ids) ) > + return cpu; > + } > + BUG_ON(1); Do we want to BUG() here? I don't think this constitutes an unrecoverable error; an ASSERT_UNREACHABLE() plus something random would be better, wouldn't it? -George _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx https://lists.xen.org/xen-devel
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