@@ -475,7 +475,7 @@ a653sched_item_sleep(const struct scheduler *ops, struct sched_item *item)
* If the VCPU being put to sleep is the same one that is currently
* running, raise a softirq to invoke the scheduler to switch domains.
*/
- if ( per_cpu(schedule_data, vc->processor).curr == item )
+ if ( per_cpu(sched_res, vc->processor)->curr == item )
cpu_raise_softirq(vc->processor, SCHEDULE_SOFTIRQ);
}
@@ -642,7 +642,7 @@ static void
a653_switch_sched(struct scheduler *new_ops, unsigned int cpu,
void *pdata, void *vdata)
{
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
arinc653_vcpu_t *svc = vdata;
ASSERT(!pdata && svc && is_idle_vcpu(svc->vc));
@@ -650,7 +650,7 @@ a653_switch_sched(struct scheduler *new_ops, unsigned int cpu,
idle_vcpu[cpu]->sched_item->priv = vdata;
per_cpu(scheduler, cpu) = new_ops;
- per_cpu(schedule_data, cpu).sched_priv = NULL; /* no pdata */
+ per_cpu(sched_res, cpu)->sched_priv = NULL; /* no pdata */
/*
* (Re?)route the lock to its default location. We actually do not use
@@ -82,7 +82,7 @@
#define CSCHED_PRIV(_ops) \
((struct csched_private *)((_ops)->sched_data))
#define CSCHED_PCPU(_c) \
- ((struct csched_pcpu *)per_cpu(schedule_data, _c).sched_priv)
+ ((struct csched_pcpu *)per_cpu(sched_res, _c)->sched_priv)
#define CSCHED_ITEM(item) ((struct csched_item *) (item)->priv)
#define CSCHED_DOM(_dom) ((struct csched_dom *) (_dom)->sched_priv)
#define RUNQ(_cpu) (&(CSCHED_PCPU(_cpu)->runq))
@@ -248,7 +248,7 @@ static inline bool_t is_runq_idle(unsigned int cpu)
/*
* We're peeking at cpu's runq, we must hold the proper lock.
*/
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
return list_empty(RUNQ(cpu)) ||
is_idle_vcpu(__runq_elem(RUNQ(cpu)->next)->vcpu);
@@ -257,7 +257,7 @@ static inline bool_t is_runq_idle(unsigned int cpu)
static inline void
inc_nr_runnable(unsigned int cpu)
{
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
CSCHED_PCPU(cpu)->nr_runnable++;
}
@@ -265,7 +265,7 @@ inc_nr_runnable(unsigned int cpu)
static inline void
dec_nr_runnable(unsigned int cpu)
{
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
ASSERT(CSCHED_PCPU(cpu)->nr_runnable >= 1);
CSCHED_PCPU(cpu)->nr_runnable--;
}
@@ -615,7 +615,7 @@ csched_init_pdata(const struct scheduler *ops, void *pdata, int cpu)
{
unsigned long flags;
struct csched_private *prv = CSCHED_PRIV(ops);
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
/*
* This is called either during during boot, resume or hotplug, in
@@ -635,7 +635,7 @@ static void
csched_switch_sched(struct scheduler *new_ops, unsigned int cpu,
void *pdata, void *vdata)
{
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
struct csched_private *prv = CSCHED_PRIV(new_ops);
struct csched_item *svc = vdata;
@@ -654,7 +654,7 @@ csched_switch_sched(struct scheduler *new_ops, unsigned int cpu,
spin_unlock(&prv->lock);
per_cpu(scheduler, cpu) = new_ops;
- per_cpu(schedule_data, cpu).sched_priv = pdata;
+ per_cpu(sched_res, cpu)->sched_priv = pdata;
/*
* (Re?)route the lock to the per pCPU lock as /last/ thing. In fact,
@@ -567,7 +567,7 @@ static inline struct csched2_private *csched2_priv(const struct scheduler *ops)
static inline struct csched2_pcpu *csched2_pcpu(unsigned int cpu)
{
- return per_cpu(schedule_data, cpu).sched_priv;
+ return per_cpu(sched_res, cpu)->sched_priv;
}
static inline struct csched2_item *csched2_item(const struct sched_item *item)
@@ -1276,7 +1276,7 @@ runq_insert(const struct scheduler *ops, struct csched2_item *svc)
struct list_head * runq = &c2rqd(ops, cpu)->runq;
int pos = 0;
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
ASSERT(!vcpu_on_runq(svc));
ASSERT(c2r(cpu) == c2r(svc->vcpu->processor));
@@ -1797,7 +1797,7 @@ static bool vcpu_grab_budget(struct csched2_item *svc)
struct csched2_dom *sdom = svc->sdom;
unsigned int cpu = svc->vcpu->processor;
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
if ( svc->budget > 0 )
return true;
@@ -1844,7 +1844,7 @@ vcpu_return_budget(struct csched2_item *svc, struct list_head *parked)
struct csched2_dom *sdom = svc->sdom;
unsigned int cpu = svc->vcpu->processor;
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
ASSERT(list_empty(parked));
/* budget_lock nests inside runqueue lock. */
@@ -2101,7 +2101,7 @@ csched2_item_wake(const struct scheduler *ops, struct sched_item *item)
unsigned int cpu = vc->processor;
s_time_t now;
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
ASSERT(!is_idle_vcpu(vc));
@@ -2229,7 +2229,7 @@ csched2_res_pick(const struct scheduler *ops, struct sched_item *item)
* just grab the prv lock. Instead, we'll have to trylock, and
* do something else reasonable if we fail.
*/
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
if ( !read_trylock(&prv->lock) )
{
@@ -2569,7 +2569,7 @@ static void balance_load(const struct scheduler *ops, int cpu, s_time_t now)
* on either side may be empty).
*/
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
st.lrqd = c2rqd(ops, cpu);
update_runq_load(ops, st.lrqd, 0, now);
@@ -3475,7 +3475,7 @@ csched2_schedule(
rqd = c2rqd(ops, cpu);
BUG_ON(!cpumask_test_cpu(cpu, &rqd->active));
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
BUG_ON(!is_idle_vcpu(scurr->vcpu) && scurr->rqd != rqd);
@@ -3864,7 +3864,7 @@ csched2_init_pdata(const struct scheduler *ops, void *pdata, int cpu)
rqi = init_pdata(prv, pdata, cpu);
/* Move the scheduler lock to the new runq lock. */
- per_cpu(schedule_data, cpu).schedule_lock = &prv->rqd[rqi].lock;
+ per_cpu(sched_res, cpu)->schedule_lock = &prv->rqd[rqi].lock;
/* _Not_ pcpu_schedule_unlock(): schedule_lock may have changed! */
spin_unlock(old_lock);
@@ -3903,10 +3903,10 @@ csched2_switch_sched(struct scheduler *new_ops, unsigned int cpu,
* this scheduler, and so it's safe to have taken it /before/ our
* private global lock.
*/
- ASSERT(per_cpu(schedule_data, cpu).schedule_lock != &prv->rqd[rqi].lock);
+ ASSERT(per_cpu(sched_res, cpu)->schedule_lock != &prv->rqd[rqi].lock);
per_cpu(scheduler, cpu) = new_ops;
- per_cpu(schedule_data, cpu).sched_priv = pdata;
+ per_cpu(sched_res, cpu)->sched_priv = pdata;
/*
* (Re?)route the lock to the per pCPU lock as /last/ thing. In fact,
@@ -3914,7 +3914,7 @@ csched2_switch_sched(struct scheduler *new_ops, unsigned int cpu,
* taking it, find all the initializations we've done above in place.
*/
smp_mb();
- per_cpu(schedule_data, cpu).schedule_lock = &prv->rqd[rqi].lock;
+ per_cpu(sched_res, cpu)->schedule_lock = &prv->rqd[rqi].lock;
write_unlock(&prv->lock);
}
@@ -168,7 +168,7 @@ static void init_pdata(struct null_private *prv, unsigned int cpu)
static void null_init_pdata(const struct scheduler *ops, void *pdata, int cpu)
{
struct null_private *prv = null_priv(ops);
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
/* alloc_pdata is not implemented, so we want this to be NULL. */
ASSERT(!pdata);
@@ -277,7 +277,7 @@ pick_res(struct null_private *prv, struct sched_item *item)
unsigned int cpu = v->processor, new_cpu;
cpumask_t *cpus = cpupool_domain_cpumask(v->domain);
- ASSERT(spin_is_locked(per_cpu(schedule_data, cpu).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, cpu)->schedule_lock));
for_each_affinity_balance_step( bs )
{
@@ -388,7 +388,7 @@ static void vcpu_deassign(struct null_private *prv, struct vcpu *v,
static void null_switch_sched(struct scheduler *new_ops, unsigned int cpu,
void *pdata, void *vdata)
{
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
struct null_private *prv = null_priv(new_ops);
struct null_item *nvc = vdata;
@@ -406,7 +406,7 @@ static void null_switch_sched(struct scheduler *new_ops, unsigned int cpu,
init_pdata(prv, cpu);
per_cpu(scheduler, cpu) = new_ops;
- per_cpu(schedule_data, cpu).sched_priv = pdata;
+ per_cpu(sched_res, cpu)->sched_priv = pdata;
/*
* (Re?)route the lock to the per pCPU lock as /last/ thing. In fact,
@@ -75,7 +75,7 @@
/*
* Locking:
* A global system lock is used to protect the RunQ and DepletedQ.
- * The global lock is referenced by schedule_data.schedule_lock
+ * The global lock is referenced by sched_res->schedule_lock
* from all physical cpus.
*
* The lock is already grabbed when calling wake/sleep/schedule/ functions
@@ -176,7 +176,7 @@ static void repl_timer_handler(void *data);
/*
* System-wide private data, include global RunQueue/DepletedQ
- * Global lock is referenced by schedule_data.schedule_lock from all
+ * Global lock is referenced by sched_res->schedule_lock from all
* physical cpus. It can be grabbed via vcpu_schedule_lock_irq()
*/
struct rt_private {
@@ -723,7 +723,7 @@ rt_init_pdata(const struct scheduler *ops, void *pdata, int cpu)
}
/* Move the scheduler lock to our global runqueue lock. */
- per_cpu(schedule_data, cpu).schedule_lock = &prv->lock;
+ per_cpu(sched_res, cpu)->schedule_lock = &prv->lock;
/* _Not_ pcpu_schedule_unlock(): per_cpu().schedule_lock changed! */
spin_unlock_irqrestore(old_lock, flags);
@@ -745,7 +745,7 @@ rt_switch_sched(struct scheduler *new_ops, unsigned int cpu,
* another scheduler, but that is how things need to be, for
* preventing races.
*/
- ASSERT(per_cpu(schedule_data, cpu).schedule_lock != &prv->lock);
+ ASSERT(per_cpu(sched_res, cpu)->schedule_lock != &prv->lock);
/*
* If we are the absolute first cpu being switched toward this
@@ -763,7 +763,7 @@ rt_switch_sched(struct scheduler *new_ops, unsigned int cpu,
idle_vcpu[cpu]->sched_item->priv = vdata;
per_cpu(scheduler, cpu) = new_ops;
- per_cpu(schedule_data, cpu).sched_priv = NULL; /* no pdata */
+ per_cpu(sched_res, cpu)->sched_priv = NULL; /* no pdata */
/*
* (Re?)route the lock to the per pCPU lock as /last/ thing. In fact,
@@ -771,7 +771,7 @@ rt_switch_sched(struct scheduler *new_ops, unsigned int cpu,
* taking it, find all the initializations we've done above in place.
*/
smp_mb();
- per_cpu(schedule_data, cpu).schedule_lock = &prv->lock;
+ per_cpu(sched_res, cpu)->schedule_lock = &prv->lock;
}
static void
@@ -61,7 +61,6 @@ static void vcpu_singleshot_timer_fn(void *data);
static void poll_timer_fn(void *data);
/* This is global for now so that private implementations can reach it */
-DEFINE_PER_CPU(struct schedule_data, schedule_data);
DEFINE_PER_CPU(struct scheduler *, scheduler);
DEFINE_PER_CPU(struct sched_resource *, sched_res);
@@ -161,7 +160,7 @@ static inline void vcpu_urgent_count_update(struct vcpu *v)
!test_bit(v->vcpu_id, v->domain->poll_mask) )
{
v->is_urgent = 0;
- atomic_dec(&per_cpu(schedule_data,v->processor).urgent_count);
+ atomic_dec(&per_cpu(sched_res, v->processor)->urgent_count);
}
}
else
@@ -170,7 +169,7 @@ static inline void vcpu_urgent_count_update(struct vcpu *v)
unlikely(test_bit(v->vcpu_id, v->domain->poll_mask)) )
{
v->is_urgent = 1;
- atomic_inc(&per_cpu(schedule_data,v->processor).urgent_count);
+ atomic_inc(&per_cpu(sched_res, v->processor)->urgent_count);
}
}
}
@@ -181,7 +180,7 @@ static inline void vcpu_runstate_change(
s_time_t delta;
ASSERT(v->runstate.state != new_state);
- ASSERT(spin_is_locked(per_cpu(schedule_data,v->processor).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, v->processor)->schedule_lock));
vcpu_urgent_count_update(v);
@@ -338,7 +337,7 @@ int sched_init_vcpu(struct vcpu *v, unsigned int processor)
/* Idle VCPUs are scheduled immediately, so don't put them in runqueue. */
if ( is_idle_domain(d) )
{
- per_cpu(schedule_data, v->processor).curr = item;
+ per_cpu(sched_res, v->processor)->curr = item;
v->is_running = 1;
}
else
@@ -463,7 +462,7 @@ void sched_destroy_vcpu(struct vcpu *v)
kill_timer(&v->singleshot_timer);
kill_timer(&v->poll_timer);
if ( test_and_clear_bool(v->is_urgent) )
- atomic_dec(&per_cpu(schedule_data, v->processor).urgent_count);
+ atomic_dec(&per_cpu(sched_res, v->processor)->urgent_count);
SCHED_OP(vcpu_scheduler(v), remove_item, item);
SCHED_OP(vcpu_scheduler(v), free_vdata, item->priv);
sched_free_item(item);
@@ -510,7 +509,7 @@ void sched_destroy_domain(struct domain *d)
void vcpu_sleep_nosync_locked(struct vcpu *v)
{
- ASSERT(spin_is_locked(per_cpu(schedule_data,v->processor).schedule_lock));
+ ASSERT(spin_is_locked(per_cpu(sched_res, v->processor)->schedule_lock));
if ( likely(!vcpu_runnable(v)) )
{
@@ -605,8 +604,8 @@ static void vcpu_move_locked(struct vcpu *v, unsigned int new_cpu)
*/
if ( unlikely(v->is_urgent) && (old_cpu != new_cpu) )
{
- atomic_inc(&per_cpu(schedule_data, new_cpu).urgent_count);
- atomic_dec(&per_cpu(schedule_data, old_cpu).urgent_count);
+ atomic_inc(&per_cpu(sched_res, new_cpu)->urgent_count);
+ atomic_dec(&per_cpu(sched_res, old_cpu)->urgent_count);
}
/*
@@ -678,20 +677,20 @@ static void vcpu_migrate_finish(struct vcpu *v)
* are not correct any longer after evaluating old and new cpu holding
* the locks.
*/
- old_lock = per_cpu(schedule_data, old_cpu).schedule_lock;
- new_lock = per_cpu(schedule_data, new_cpu).schedule_lock;
+ old_lock = per_cpu(sched_res, old_cpu)->schedule_lock;
+ new_lock = per_cpu(sched_res, new_cpu)->schedule_lock;
sched_spin_lock_double(old_lock, new_lock, &flags);
old_cpu = v->processor;
- if ( old_lock == per_cpu(schedule_data, old_cpu).schedule_lock )
+ if ( old_lock == per_cpu(sched_res, old_cpu)->schedule_lock )
{
/*
* If we selected a CPU on the previosu iteration, check if it
* remains suitable for running this vCPU.
*/
if ( pick_called &&
- (new_lock == per_cpu(schedule_data, new_cpu).schedule_lock) &&
+ (new_lock == per_cpu(sched_res, new_cpu)->schedule_lock) &&
cpumask_test_cpu(new_cpu, v->cpu_hard_affinity) &&
cpumask_test_cpu(new_cpu, v->domain->cpupool->cpu_valid) )
break;
@@ -699,7 +698,7 @@ static void vcpu_migrate_finish(struct vcpu *v)
/* Select a new CPU. */
new_cpu = SCHED_OP(vcpu_scheduler(v), pick_resource,
v->sched_item)->processor;
- if ( (new_lock == per_cpu(schedule_data, new_cpu).schedule_lock) &&
+ if ( (new_lock == per_cpu(sched_res, new_cpu)->schedule_lock) &&
cpumask_test_cpu(new_cpu, v->domain->cpupool->cpu_valid) )
break;
pick_called = 1;
@@ -1492,7 +1491,7 @@ static void schedule(void)
struct scheduler *sched;
unsigned long *tasklet_work = &this_cpu(tasklet_work_to_do);
bool_t tasklet_work_scheduled = 0;
- struct schedule_data *sd;
+ struct sched_resource *sd;
spinlock_t *lock;
struct task_slice next_slice;
int cpu = smp_processor_id();
@@ -1501,7 +1500,7 @@ static void schedule(void)
SCHED_STAT_CRANK(sched_run);
- sd = &this_cpu(schedule_data);
+ sd = this_cpu(sched_res);
/* Update tasklet scheduling status. */
switch ( *tasklet_work )
@@ -1643,15 +1642,14 @@ static void poll_timer_fn(void *data)
static int cpu_schedule_up(unsigned int cpu)
{
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd;
void *sched_priv;
- struct sched_resource *res;
- res = xmalloc(struct sched_resource);
- if ( res == NULL )
+ sd = xmalloc(struct sched_resource);
+ if ( sd == NULL )
return -ENOMEM;
- res->processor = cpu;
- per_cpu(sched_res, cpu) = res;
+ sd->processor = cpu;
+ per_cpu(sched_res, cpu) = sd;
per_cpu(scheduler, cpu) = &ops;
spin_lock_init(&sd->_lock);
@@ -1707,7 +1705,7 @@ static int cpu_schedule_up(unsigned int cpu)
static void cpu_schedule_down(unsigned int cpu)
{
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
struct scheduler *sched = per_cpu(scheduler, cpu);
SCHED_OP(sched, free_pdata, sd->sched_priv, cpu);
@@ -1727,7 +1725,7 @@ static int cpu_schedule_callback(
{
unsigned int cpu = (unsigned long)hcpu;
struct scheduler *sched = per_cpu(scheduler, cpu);
- struct schedule_data *sd = &per_cpu(schedule_data, cpu);
+ struct sched_resource *sd = per_cpu(sched_res, cpu);
int rc = 0;
/*
@@ -1860,10 +1858,10 @@ void __init scheduler_init(void)
idle_domain->max_vcpus = nr_cpu_ids;
if ( vcpu_create(idle_domain, 0, 0) == NULL )
BUG();
- this_cpu(schedule_data).curr = idle_vcpu[0]->sched_item;
- this_cpu(schedule_data).sched_priv = SCHED_OP(&ops, alloc_pdata, 0);
- BUG_ON(IS_ERR(this_cpu(schedule_data).sched_priv));
- SCHED_OP(&ops, init_pdata, this_cpu(schedule_data).sched_priv, 0);
+ this_cpu(sched_res)->curr = idle_vcpu[0]->sched_item;
+ this_cpu(sched_res)->sched_priv = SCHED_OP(&ops, alloc_pdata, 0);
+ BUG_ON(IS_ERR(this_cpu(sched_res)->sched_priv));
+ SCHED_OP(&ops, init_pdata, this_cpu(sched_res)->sched_priv, 0);
}
/*
@@ -1943,7 +1941,7 @@ int schedule_cpu_switch(unsigned int cpu, struct cpupool *c)
old_lock = pcpu_schedule_lock_irq(cpu);
vpriv_old = idle->sched_item->priv;
- ppriv_old = per_cpu(schedule_data, cpu).sched_priv;
+ ppriv_old = per_cpu(sched_res, cpu)->sched_priv;
SCHED_OP(new_ops, switch_sched, cpu, ppriv, vpriv);
/* _Not_ pcpu_schedule_unlock(): schedule_lock may have changed! */
@@ -33,7 +33,7 @@ void update_last_cx_stat(struct acpi_processor_power *,
*/
static inline int sched_has_urgent_vcpu(void)
{
- return atomic_read(&this_cpu(schedule_data).urgent_count);
+ return atomic_read(&this_cpu(sched_res)->urgent_count);
}
#endif /* __X86_ASM_CPUIDLE_H__ */
@@ -33,22 +33,18 @@ extern int sched_ratelimit_us;
* For cache betterness, keep the actual lock in the same cache area
* as the rest of the struct. Just have the scheduler point to the
* one it wants (This may be the one right in front of it).*/
-struct schedule_data {
+struct sched_resource {
spinlock_t *schedule_lock,
_lock;
struct sched_item *curr; /* current task */
void *sched_priv;
struct timer s_timer; /* scheduling timer */
atomic_t urgent_count; /* how many urgent vcpus */
+ unsigned processor;
};
-#define curr_on_cpu(c) (per_cpu(schedule_data, c).curr)
-
-struct sched_resource {
- unsigned processor;
-};
+#define curr_on_cpu(c) (per_cpu(sched_res, c)->curr)
-DECLARE_PER_CPU(struct schedule_data, schedule_data);
DECLARE_PER_CPU(struct scheduler *, scheduler);
DECLARE_PER_CPU(struct cpupool *, cpupool);
DECLARE_PER_CPU(struct sched_resource *, sched_res);
@@ -83,7 +79,7 @@ static inline spinlock_t *kind##_schedule_lock##irq(param EXTRA_TYPE(arg)) \
{ \
for ( ; ; ) \
{ \
- spinlock_t *lock = per_cpu(schedule_data, cpu).schedule_lock; \
+ spinlock_t *lock = per_cpu(sched_res, cpu)->schedule_lock; \
/* \
* v->processor may change when grabbing the lock; but \
* per_cpu(v->processor) may also change, if changing cpu pool \
@@ -93,7 +89,7 @@ static inline spinlock_t *kind##_schedule_lock##irq(param EXTRA_TYPE(arg)) \
* lock may be the same; this will succeed in that case. \
*/ \
spin_lock##irq(lock, ## arg); \
- if ( likely(lock == per_cpu(schedule_data, cpu).schedule_lock) ) \
+ if ( likely(lock == per_cpu(sched_res, cpu)->schedule_lock) ) \
return lock; \
spin_unlock##irq(lock, ## arg); \
} \
@@ -103,7 +99,7 @@ static inline spinlock_t *kind##_schedule_lock##irq(param EXTRA_TYPE(arg)) \
static inline void kind##_schedule_unlock##irq(spinlock_t *lock \
EXTRA_TYPE(arg), param) \
{ \
- ASSERT(lock == per_cpu(schedule_data, cpu).schedule_lock); \
+ ASSERT(lock == per_cpu(sched_res, cpu)->schedule_lock); \
spin_unlock##irq(lock, ## arg); \
}
@@ -132,11 +128,11 @@ sched_unlock(vcpu, const struct vcpu *v, v->processor, _irqrestore, flags)
static inline spinlock_t *pcpu_schedule_trylock(unsigned int cpu)
{
- spinlock_t *lock = per_cpu(schedule_data, cpu).schedule_lock;
+ spinlock_t *lock = per_cpu(sched_res, cpu)->schedule_lock;
if ( !spin_trylock(lock) )
return NULL;
- if ( lock == per_cpu(schedule_data, cpu).schedule_lock )
+ if ( lock == per_cpu(sched_res, cpu)->schedule_lock )
return lock;
spin_unlock(lock);
return NULL;
This prepares support of larger scheduling granularities, e.g. core scheduling. Signed-off-by: Juergen Gross <jgross@suse.com> --- xen/common/sched_arinc653.c | 6 ++--- xen/common/sched_credit.c | 14 +++++------ xen/common/sched_credit2.c | 24 +++++++++---------- xen/common/sched_null.c | 8 +++---- xen/common/sched_rt.c | 12 +++++----- xen/common/schedule.c | 56 +++++++++++++++++++++---------------------- xen/include/asm-x86/cpuidle.h | 2 +- xen/include/xen/sched-if.h | 20 +++++++--------- 8 files changed, 68 insertions(+), 74 deletions(-)