[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH v2 24/48] xen: switch from for_each_vcpu() to for_each_sched_unit()
Where appropriate switch from for_each_vcpu() to for_each_sched_unit() in order to prepare core scheduling. As it is beneficial once here and for sure in future add a unit_scheduler() helper and let vcpu_scheduler() use it. Signed-off-by: Juergen Gross <jgross@xxxxxxxx> --- V2: - handle affinity_broken correctly (Jan Beulich) - add unit_scheduler() (Jan Beulich) --- xen/common/domain.c | 9 ++- xen/common/schedule.c | 148 ++++++++++++++++++++++++++++++-------------------- 2 files changed, 93 insertions(+), 64 deletions(-) diff --git a/xen/common/domain.c b/xen/common/domain.c index 19d881b0c3..91b01c220e 100644 --- a/xen/common/domain.c +++ b/xen/common/domain.c @@ -550,7 +550,7 @@ void domain_update_node_affinity(struct domain *d) cpumask_var_t dom_cpumask, dom_cpumask_soft; cpumask_t *dom_affinity; const cpumask_t *online; - struct vcpu *v; + struct sched_unit *unit; unsigned int cpu; /* Do we have vcpus already? If not, no need to update node-affinity. */ @@ -583,12 +583,11 @@ void domain_update_node_affinity(struct domain *d) * and the full mask of where it would prefer to run (the union of * the soft affinity of all its various vcpus). Let's build them. */ - for_each_vcpu ( d, v ) + for_each_sched_unit ( d, unit ) { - cpumask_or(dom_cpumask, dom_cpumask, - v->sched_unit->cpu_hard_affinity); + cpumask_or(dom_cpumask, dom_cpumask, unit->cpu_hard_affinity); cpumask_or(dom_cpumask_soft, dom_cpumask_soft, - v->sched_unit->cpu_soft_affinity); + unit->cpu_soft_affinity); } /* Filter out non-online cpus */ cpumask_and(dom_cpumask, dom_cpumask, online); diff --git a/xen/common/schedule.c b/xen/common/schedule.c index fcd083d31d..7b0ff8395e 100644 --- a/xen/common/schedule.c +++ b/xen/common/schedule.c @@ -147,26 +147,32 @@ static inline struct scheduler *dom_scheduler(const struct domain *d) return &ops; } -static inline struct scheduler *vcpu_scheduler(const struct vcpu *v) +static inline struct scheduler *unit_scheduler(const struct sched_unit *unit) { - struct domain *d = v->domain; + struct domain *d = unit->domain; if ( likely(d->cpupool != NULL) ) return d->cpupool->sched; /* - * If d->cpupool is NULL, this is a vCPU of the idle domain. And this + * If d->cpupool is NULL, this is a unit of the idle domain. And this * case is special because the idle domain does not really belong to * a cpupool and, hence, doesn't really have a scheduler). In fact, its - * vCPUs (may) run on pCPUs which are in different pools, with different + * units (may) run on pCPUs which are in different pools, with different * schedulers. * * What we want, in this case, is the scheduler of the pCPU where this - * particular idle vCPU is running. And, since v->processor never changes - * for idle vCPUs, it is safe to use it, with no locks, to figure that out. + * particular idle unit is running. And, since unit->res never changes + * for idle units, it is safe to use it, with no locks, to figure that out. */ + ASSERT(is_idle_domain(d)); - return per_cpu(scheduler, v->processor); + return per_cpu(scheduler, unit->res->processor); +} + +static inline struct scheduler *vcpu_scheduler(const struct vcpu *v) +{ + return unit_scheduler(v->sched_unit); } #define VCPU2ONLINE(_v) cpupool_domain_cpumask((_v)->domain) @@ -487,10 +493,11 @@ static void sched_move_irqs(struct sched_unit *unit) int sched_move_domain(struct domain *d, struct cpupool *c) { struct vcpu *v; + struct sched_unit *unit; unsigned int new_p; - void **vcpu_priv; + void **unit_priv; void *domdata; - void *vcpudata; + void *unitdata; struct scheduler *old_ops; void *old_domdata; @@ -504,22 +511,21 @@ int sched_move_domain(struct domain *d, struct cpupool *c) if ( IS_ERR(domdata) ) return PTR_ERR(domdata); - vcpu_priv = xzalloc_array(void *, d->max_vcpus); - if ( vcpu_priv == NULL ) + unit_priv = xzalloc_array(void *, d->max_vcpus); + if ( unit_priv == NULL ) { sched_free_domdata(c->sched, domdata); return -ENOMEM; } - for_each_vcpu ( d, v ) + for_each_sched_unit ( d, unit ) { - vcpu_priv[v->vcpu_id] = sched_alloc_vdata(c->sched, v->sched_unit, - domdata); - if ( vcpu_priv[v->vcpu_id] == NULL ) + unit_priv[unit->unit_id] = sched_alloc_vdata(c->sched, unit, domdata); + if ( unit_priv[unit->unit_id] == NULL ) { - for_each_vcpu ( d, v ) - xfree(vcpu_priv[v->vcpu_id]); - xfree(vcpu_priv); + for_each_sched_unit ( d, unit ) + xfree(unit_priv[unit->unit_id]); + xfree(unit_priv); sched_free_domdata(c->sched, domdata); return -ENOMEM; } @@ -530,30 +536,35 @@ int sched_move_domain(struct domain *d, struct cpupool *c) old_ops = dom_scheduler(d); old_domdata = d->sched_priv; - for_each_vcpu ( d, v ) + for_each_sched_unit ( d, unit ) { - sched_remove_unit(old_ops, v->sched_unit); + sched_remove_unit(old_ops, unit); } d->cpupool = c; d->sched_priv = domdata; new_p = cpumask_first(c->cpu_valid); - for_each_vcpu ( d, v ) + for_each_sched_unit ( d, unit ) { spinlock_t *lock; + unsigned int unit_p = new_p; - vcpudata = v->sched_unit->priv; + unitdata = unit->priv; - migrate_timer(&v->periodic_timer, new_p); - migrate_timer(&v->singleshot_timer, new_p); - migrate_timer(&v->poll_timer, new_p); + for_each_sched_unit_vcpu ( unit, v ) + { + migrate_timer(&v->periodic_timer, new_p); + migrate_timer(&v->singleshot_timer, new_p); + migrate_timer(&v->poll_timer, new_p); + new_p = cpumask_cycle(new_p, c->cpu_valid); + } - lock = unit_schedule_lock_irq(v->sched_unit); + lock = unit_schedule_lock_irq(unit); - sched_set_affinity(v, &cpumask_all, &cpumask_all); + sched_set_affinity(unit->vcpu_list, &cpumask_all, &cpumask_all); - sched_set_res(v->sched_unit, get_sched_res(new_p)); + sched_set_res(unit, get_sched_res(unit_p)); /* * With v->processor modified we must not * - make any further changes assuming we hold the scheduler lock, @@ -561,15 +572,13 @@ int sched_move_domain(struct domain *d, struct cpupool *c) */ spin_unlock_irq(lock); - v->sched_unit->priv = vcpu_priv[v->vcpu_id]; + unit->priv = unit_priv[unit->unit_id]; if ( !d->is_dying ) - sched_move_irqs(v->sched_unit); - - new_p = cpumask_cycle(new_p, c->cpu_valid); + sched_move_irqs(unit); - sched_insert_unit(c->sched, v->sched_unit); + sched_insert_unit(c->sched, unit); - sched_free_vdata(old_ops, vcpudata); + sched_free_vdata(old_ops, unitdata); } domain_update_node_affinity(d); @@ -578,7 +587,7 @@ int sched_move_domain(struct domain *d, struct cpupool *c) sched_free_domdata(old_ops, old_domdata); - xfree(vcpu_priv); + xfree(unit_priv); return 0; } @@ -880,18 +889,36 @@ void vcpu_force_reschedule(struct vcpu *v) vcpu_migrate_finish(v); } +static bool sched_check_affinity_broken(struct sched_unit *unit) +{ + struct vcpu *v; + + for_each_sched_unit_vcpu ( unit, v ) + if ( v->affinity_broken ) + return true; + + return false; +} + +static void sched_reset_affinity_broken(struct sched_unit *unit) +{ + struct vcpu *v; + + for_each_sched_unit_vcpu ( unit, v ) + v->affinity_broken = false; +} + void restore_vcpu_affinity(struct domain *d) { unsigned int cpu = smp_processor_id(); - struct vcpu *v; + struct sched_unit *unit; ASSERT(system_state == SYS_STATE_resume); - for_each_vcpu ( d, v ) + for_each_sched_unit ( d, unit ) { spinlock_t *lock; - unsigned int old_cpu = v->processor; - struct sched_unit *unit = v->sched_unit; + unsigned int old_cpu = sched_unit_cpu(unit); struct sched_resource *res; ASSERT(!unit_runnable(unit)); @@ -910,18 +937,20 @@ void restore_vcpu_affinity(struct domain *d) cpupool_domain_cpumask(d)); if ( cpumask_empty(cpumask_scratch_cpu(cpu)) ) { - if ( v->affinity_broken ) + if ( sched_check_affinity_broken(unit) ) { - sched_set_affinity(v, unit->cpu_hard_affinity_saved, NULL); - v->affinity_broken = 0; + sched_set_affinity(unit->vcpu_list, + unit->cpu_hard_affinity_saved, NULL); + sched_reset_affinity_broken(unit); cpumask_and(cpumask_scratch_cpu(cpu), unit->cpu_hard_affinity, cpupool_domain_cpumask(d)); } if ( cpumask_empty(cpumask_scratch_cpu(cpu)) ) { - printk(XENLOG_DEBUG "Breaking affinity for %pv\n", v); - sched_set_affinity(v, &cpumask_all, NULL); + printk(XENLOG_DEBUG "Breaking affinity for %pv\n", + unit->vcpu_list); + sched_set_affinity(unit->vcpu_list, &cpumask_all, NULL); cpumask_and(cpumask_scratch_cpu(cpu), unit->cpu_hard_affinity, cpupool_domain_cpumask(d)); } @@ -934,12 +963,12 @@ void restore_vcpu_affinity(struct domain *d) /* v->processor might have changed, so reacquire the lock. */ lock = unit_schedule_lock_irq(unit); - res = sched_pick_resource(vcpu_scheduler(v), unit); + res = sched_pick_resource(unit_scheduler(unit), unit); sched_set_res(unit, res); spin_unlock_irq(lock); - if ( old_cpu != v->processor ) - sched_move_irqs(v->sched_unit); + if ( old_cpu != sched_unit_cpu(unit) ) + sched_move_irqs(unit); } domain_update_node_affinity(d); @@ -953,7 +982,6 @@ void restore_vcpu_affinity(struct domain *d) int cpu_disable_scheduler(unsigned int cpu) { struct domain *d; - struct vcpu *v; struct cpupool *c; cpumask_t online_affinity; int ret = 0; @@ -964,17 +992,18 @@ int cpu_disable_scheduler(unsigned int cpu) for_each_domain_in_cpupool ( d, c ) { - for_each_vcpu ( d, v ) + struct sched_unit *unit; + + for_each_sched_unit ( d, unit ) { unsigned long flags; - struct sched_unit *unit = v->sched_unit; spinlock_t *lock = unit_schedule_lock_irqsave(unit, &flags); cpumask_and(&online_affinity, unit->cpu_hard_affinity, c->cpu_valid); if ( cpumask_empty(&online_affinity) && cpumask_test_cpu(cpu, unit->cpu_hard_affinity) ) { - if ( v->affinity_broken ) + if ( unit->vcpu_list->affinity_broken ) { /* The vcpu is temporarily pinned, can't move it. */ unit_schedule_unlock_irqrestore(lock, flags, unit); @@ -982,14 +1011,15 @@ int cpu_disable_scheduler(unsigned int cpu) break; } - printk(XENLOG_DEBUG "Breaking affinity for %pv\n", v); + printk(XENLOG_DEBUG "Breaking affinity for %pv\n", + unit->vcpu_list); - sched_set_affinity(v, &cpumask_all, NULL); + sched_set_affinity(unit->vcpu_list, &cpumask_all, NULL); } - if ( v->processor != cpu ) + if ( sched_unit_cpu(unit) != sched_get_resource_cpu(cpu) ) { - /* The vcpu is not on this cpu, so we can move on. */ + /* The unit is not on this cpu, so we can move on. */ unit_schedule_unlock_irqrestore(lock, flags, unit); continue; } @@ -1002,17 +1032,17 @@ int cpu_disable_scheduler(unsigned int cpu) * * the scheduler will always find a suitable solution, or * things would have failed before getting in here. */ - vcpu_migrate_start(v); + vcpu_migrate_start(unit->vcpu_list); unit_schedule_unlock_irqrestore(lock, flags, unit); - vcpu_migrate_finish(v); + vcpu_migrate_finish(unit->vcpu_list); /* * The only caveat, in this case, is that if a vcpu active in * the hypervisor isn't migratable. In this case, the caller * should try again after releasing and reaquiring all locks. */ - if ( v->processor == cpu ) + if ( sched_unit_cpu(unit) == sched_get_resource_cpu(cpu) ) ret = -EAGAIN; } } @@ -1023,8 +1053,8 @@ int cpu_disable_scheduler(unsigned int cpu) static int cpu_disable_scheduler_check(unsigned int cpu) { struct domain *d; - struct vcpu *v; struct cpupool *c; + struct vcpu *v; c = per_cpu(cpupool, cpu); if ( c == NULL ) -- 2.16.4 _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxxxxxxxxx https://lists.xenproject.org/mailman/listinfo/xen-devel
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