@@ -177,6 +177,8 @@ static struct cpupool *cpupool_create(
return NULL;
}
}
+ c->granularity = sched_granularity;
+ c->opt_granularity = opt_sched_granularity;
*q = c;
@@ -56,7 +56,8 @@ int sched_ratelimit_us = SCHED_DEFAULT_RATELIMIT_US;
integer_param("sched_ratelimit_us", sched_ratelimit_us);
/* Number of vcpus per struct sched_unit. */
-static unsigned int __read_mostly sched_granularity = 1;
+enum sched_gran __read_mostly opt_sched_granularity = SCHED_GRAN_cpu;
+unsigned int __read_mostly sched_granularity = 1;
bool __read_mostly sched_disable_smt_switching;
const cpumask_t *sched_res_mask = &cpumask_all;
@@ -409,10 +410,10 @@ static struct sched_unit *sched_alloc_unit(struct vcpu *v)
{
struct sched_unit *unit, **prev_unit;
struct domain *d = v->domain;
+ unsigned int gran = d->cpupool ? d->cpupool->granularity : 1;
for_each_sched_unit ( d, unit )
- if ( unit->vcpu_list->vcpu_id / sched_granularity ==
- v->vcpu_id / sched_granularity )
+ if ( unit->vcpu_list->vcpu_id / gran == v->vcpu_id / gran )
break;
if ( unit )
@@ -1805,11 +1806,11 @@ static void sched_switch_units(struct sched_resource *sd,
if ( is_idle_unit(prev) )
{
prev->runstate_cnt[RUNSTATE_running] = 0;
- prev->runstate_cnt[RUNSTATE_runnable] = sched_granularity;
+ prev->runstate_cnt[RUNSTATE_runnable] = sd->granularity;
}
if ( is_idle_unit(next) )
{
- next->runstate_cnt[RUNSTATE_running] = sched_granularity;
+ next->runstate_cnt[RUNSTATE_running] = sd->granularity;
next->runstate_cnt[RUNSTATE_runnable] = 0;
}
}
@@ -2072,11 +2073,12 @@ static struct sched_unit *sched_wait_rendezvous_in(struct sched_unit *prev,
{
struct sched_unit *next;
struct vcpu *v;
+ unsigned int gran = get_sched_res(cpu)->granularity;
if ( !--prev->rendezvous_in_cnt )
{
next = do_schedule(prev, now, cpu);
- atomic_set(&next->rendezvous_out_cnt, sched_granularity + 1);
+ atomic_set(&next->rendezvous_out_cnt, gran + 1);
return next;
}
@@ -2196,6 +2198,7 @@ static void schedule(void)
struct sched_resource *sd;
spinlock_t *lock;
int cpu = smp_processor_id();
+ unsigned int gran = get_sched_res(cpu)->granularity;
ASSERT_NOT_IN_ATOMIC();
@@ -2221,11 +2224,11 @@ static void schedule(void)
stop_timer(&sd->s_timer);
- if ( sched_granularity > 1 )
+ if ( gran > 1 )
{
cpumask_t mask;
- prev->rendezvous_in_cnt = sched_granularity;
+ prev->rendezvous_in_cnt = gran;
cpumask_andnot(&mask, sd->cpus, cpumask_of(cpu));
cpumask_raise_softirq(&mask, SCHED_SLAVE_SOFTIRQ);
next = sched_wait_rendezvous_in(prev, &lock, cpu, now);
@@ -2291,6 +2294,9 @@ static int cpu_schedule_up(unsigned int cpu)
init_timer(&sd->s_timer, s_timer_fn, NULL, cpu);
atomic_set(&sd->urgent_count, 0);
+ /* We start with cpu granularity. */
+ sd->granularity = 1;
+
/* Boot CPU is dealt with later in scheduler_init(). */
if ( cpu == 0 )
return 0;
@@ -2581,6 +2587,7 @@ int schedule_cpu_switch(unsigned int cpu, struct cpupool *c)
sched_free_vdata(old_ops, vpriv_old);
sched_free_pdata(old_ops, ppriv_old, cpu);
+ get_sched_res(cpu)->granularity = c ? c->granularity : 1;
get_sched_res(cpu)->cpupool = c;
/* When a cpu is added to a pool, trigger it to go pick up some work */
if ( c != NULL )
@@ -25,6 +25,15 @@ extern int sched_ratelimit_us;
/* Scheduling resource mask. */
extern const cpumask_t *sched_res_mask;
+/* Number of vcpus per struct sched_unit. */
+enum sched_gran {
+ SCHED_GRAN_cpu,
+ SCHED_GRAN_core,
+ SCHED_GRAN_socket
+};
+extern enum sched_gran opt_sched_granularity;
+extern unsigned int sched_granularity;
+
/*
* In order to allow a scheduler to remap the lock->cpu mapping,
* we have a per-cpu pointer, along with a pre-allocated set of
@@ -47,6 +56,7 @@ struct sched_resource {
struct timer s_timer; /* scheduling timer */
atomic_t urgent_count; /* how many urgent vcpus */
unsigned int processor;
+ unsigned int granularity;
const cpumask_t *cpus; /* cpus covered by this struct */
};
@@ -531,6 +541,8 @@ struct cpupool
struct cpupool *next;
struct scheduler *sched;
atomic_t refcnt;
+ unsigned int granularity;
+ enum sched_gran opt_granularity;
};
#define cpupool_online_cpumask(_pool) \
On- and offlining cpus with core scheduling is rather complicated as the cpus are taken on- or offline one by one, but scheduling wants them rather to be handled per core. As the future plan is to be able to select scheduling granularity per cpupool prepare that by storing the granularity in struct cpupool and struct sched_resource (we need it there for free cpus which are not associated to any cpupool). Free cpus will always use granularity 1. Store the selected granularity option (cpu, core or socket) in the cpupool as well, as we will need it to select the appropriate cpu mask when populating the cpupool with cpus. This will make on- and offlining of cpus much easier and avoids writing code which would needed to be thrown away later. Signed-off-by: Juergen Gross <jgross@suse.com> --- V1: new patch --- xen/common/cpupool.c | 2 ++ xen/common/schedule.c | 23 +++++++++++++++-------- xen/include/xen/sched-if.h | 12 ++++++++++++ 3 files changed, 29 insertions(+), 8 deletions(-)