by adding a flag for the caller to specify which one he cares about.
At the same time, enable the caller to get back the "effective affinity"
of the vCPU. That is the intersection between cpupool's cpus, the (new)
hard affinity and, for soft affinity, the (new) soft affinity. In fact,
despite what has been successfully set with the DOMCTL_setvcpuaffinity
hypercall, the Xen scheduler will never run a vCPU outside of its hard
affinity or of its domain's cpupool.
This happens by adding another cpumap to the interface and making both
the cpumaps IN/OUT parameters (for DOMCTL_setvcpuaffinity, they're of
course out-only for DOMCTL_getvcpuaffinity).
Signed-off-by: Dario Faggioli <dario.faggioli@citrix.com>
Reviewed-by: George Dunlap <george.dunlap@eu.citrix.com>
Acked-by: Jan Beulich <jbeulich@suse.com>
Acked-by: Ian Campbell <ian.campbell@citrix.com>
domctl.cmd = XEN_DOMCTL_setvcpuaffinity;
domctl.domain = (domid_t)domid;
- domctl.u.vcpuaffinity.vcpu = vcpu;
+ domctl.u.vcpuaffinity.vcpu = vcpu;
+ domctl.u.vcpuaffinity.flags = XEN_VCPUAFFINITY_HARD;
memcpy(local, cpumap, cpusize);
- set_xen_guest_handle(domctl.u.vcpuaffinity.cpumap.bitmap, local);
+ set_xen_guest_handle(domctl.u.vcpuaffinity.cpumap_hard.bitmap, local);
- domctl.u.vcpuaffinity.cpumap.nr_bits = cpusize * 8;
+ domctl.u.vcpuaffinity.cpumap_hard.nr_bits = cpusize * 8;
ret = do_domctl(xch, &domctl);
domctl.cmd = XEN_DOMCTL_getvcpuaffinity;
domctl.domain = (domid_t)domid;
domctl.u.vcpuaffinity.vcpu = vcpu;
+ domctl.u.vcpuaffinity.flags = XEN_VCPUAFFINITY_HARD;
- set_xen_guest_handle(domctl.u.vcpuaffinity.cpumap.bitmap, local);
- domctl.u.vcpuaffinity.cpumap.nr_bits = cpusize * 8;
+ set_xen_guest_handle(domctl.u.vcpuaffinity.cpumap_hard.bitmap, local);
+ domctl.u.vcpuaffinity.cpumap_hard.nr_bits = cpusize * 8;
ret = do_domctl(xch, &domctl);
* Make sure to wakeup the vcpu on the
* specified processor.
*/
- vcpu_set_affinity(st->vcpu, cpumask_of(st->processor));
+ vcpu_set_hard_affinity(st->vcpu, cpumask_of(st->processor));
/* Affinity is restored in the iret hypercall. */
}
if ( !cpumask_empty(curr->cpu_hard_affinity_tmp) &&
!cpumask_equal(curr->cpu_hard_affinity_tmp, curr->cpu_hard_affinity) )
{
- vcpu_set_affinity(curr, curr->cpu_hard_affinity_tmp);
+ vcpu_set_hard_affinity(curr, curr->cpu_hard_affinity_tmp);
cpumask_clear(curr->cpu_hard_affinity_tmp);
}
spin_unlock(¤t->domain->hypercall_deadlock_mutex);
}
+static inline
+int vcpuaffinity_params_invalid(const xen_domctl_vcpuaffinity_t *vcpuaff)
+{
+ return vcpuaff->flags == 0 ||
+ ((vcpuaff->flags & XEN_VCPUAFFINITY_HARD) &&
+ guest_handle_is_null(vcpuaff->cpumap_hard.bitmap)) ||
+ ((vcpuaff->flags & XEN_VCPUAFFINITY_SOFT) &&
+ guest_handle_is_null(vcpuaff->cpumap_soft.bitmap));
+}
+
long do_domctl(XEN_GUEST_HANDLE_PARAM(xen_domctl_t) u_domctl)
{
long ret = 0;
case XEN_DOMCTL_getvcpuaffinity:
{
struct vcpu *v;
+ xen_domctl_vcpuaffinity_t *vcpuaff = &op->u.vcpuaffinity;
ret = -EINVAL;
- if ( op->u.vcpuaffinity.vcpu >= d->max_vcpus )
+ if ( vcpuaff->vcpu >= d->max_vcpus )
break;
ret = -ESRCH;
- if ( (v = d->vcpu[op->u.vcpuaffinity.vcpu]) == NULL )
+ if ( (v = d->vcpu[vcpuaff->vcpu]) == NULL )
+ break;
+
+ ret = -EINVAL;
+ if ( vcpuaffinity_params_invalid(vcpuaff) )
break;
if ( op->cmd == XEN_DOMCTL_setvcpuaffinity )
{
- cpumask_var_t new_affinity;
+ cpumask_var_t new_affinity, old_affinity;
+ cpumask_t *online = cpupool_online_cpumask(v->domain->cpupool);;
+
+ /*
+ * We want to be able to restore hard affinity if we are trying
+ * setting both and changing soft affinity (which happens later,
+ * when hard affinity has been succesfully chaged already) fails.
+ */
+ if ( !alloc_cpumask_var(&old_affinity) )
+ {
+ ret = -ENOMEM;
+ break;
+ }
+ cpumask_copy(old_affinity, v->cpu_hard_affinity);
+
+ if ( !alloc_cpumask_var(&new_affinity) )
+ {
+ free_cpumask_var(old_affinity);
+ ret = -ENOMEM;
+ break;
+ }
- ret = xenctl_bitmap_to_cpumask(
- &new_affinity, &op->u.vcpuaffinity.cpumap);
- if ( !ret )
+ /*
+ * We both set a new affinity and report back to the caller what
+ * the scheduler will be effectively using.
+ */
+ if ( vcpuaff->flags & XEN_VCPUAFFINITY_HARD )
+ {
+ ret = xenctl_bitmap_to_bitmap(cpumask_bits(new_affinity),
+ &vcpuaff->cpumap_hard,
+ nr_cpu_ids);
+ if ( !ret )
+ ret = vcpu_set_hard_affinity(v, new_affinity);
+ if ( ret )
+ goto setvcpuaffinity_out;
+
+ /*
+ * For hard affinity, what we return is the intersection of
+ * cpupool's online mask and the new hard affinity.
+ */
+ cpumask_and(new_affinity, online, v->cpu_hard_affinity);
+ ret = cpumask_to_xenctl_bitmap(&vcpuaff->cpumap_hard,
+ new_affinity);
+ }
+ if ( vcpuaff->flags & XEN_VCPUAFFINITY_SOFT )
{
- ret = vcpu_set_affinity(v, new_affinity);
- free_cpumask_var(new_affinity);
+ ret = xenctl_bitmap_to_bitmap(cpumask_bits(new_affinity),
+ &vcpuaff->cpumap_soft,
+ nr_cpu_ids);
+ if ( !ret)
+ ret = vcpu_set_soft_affinity(v, new_affinity);
+ if ( ret )
+ {
+ /*
+ * Since we're returning error, the caller expects nothing
+ * happened, so we rollback the changes to hard affinity
+ * (if any).
+ */
+ if ( vcpuaff->flags & XEN_VCPUAFFINITY_HARD )
+ vcpu_set_hard_affinity(v, old_affinity);
+ goto setvcpuaffinity_out;
+ }
+
+ /*
+ * For soft affinity, we return the intersection between the
+ * new soft affinity, the cpupool's online map and the (new)
+ * hard affinity.
+ */
+ cpumask_and(new_affinity, new_affinity, online);
+ cpumask_and(new_affinity, new_affinity, v->cpu_hard_affinity);
+ ret = cpumask_to_xenctl_bitmap(&vcpuaff->cpumap_soft,
+ new_affinity);
}
+
+ setvcpuaffinity_out:
+ free_cpumask_var(new_affinity);
+ free_cpumask_var(old_affinity);
}
else
{
- ret = cpumask_to_xenctl_bitmap(
- &op->u.vcpuaffinity.cpumap, v->cpu_hard_affinity);
+ if ( vcpuaff->flags & XEN_VCPUAFFINITY_HARD )
+ ret = cpumask_to_xenctl_bitmap(&vcpuaff->cpumap_hard,
+ v->cpu_hard_affinity);
+ if ( vcpuaff->flags & XEN_VCPUAFFINITY_SOFT )
+ ret = cpumask_to_xenctl_bitmap(&vcpuaff->cpumap_soft,
+ v->cpu_soft_affinity);
}
}
break;
return ret;
}
-int vcpu_set_affinity(struct vcpu *v, const cpumask_t *affinity)
+static int vcpu_set_affinity(
+ struct vcpu *v, const cpumask_t *affinity, cpumask_t *which)
{
- cpumask_t online_affinity;
- cpumask_t *online;
spinlock_t *lock;
- if ( v->domain->is_pinned )
- return -EINVAL;
- online = VCPU2ONLINE(v);
- cpumask_and(&online_affinity, affinity, online);
- if ( cpumask_empty(&online_affinity) )
- return -EINVAL;
-
lock = vcpu_schedule_lock_irq(v);
- cpumask_copy(v->cpu_hard_affinity, affinity);
+ cpumask_copy(which, affinity);
/* Always ask the scheduler to re-evaluate placement
* when changing the affinity */
return 0;
}
+int vcpu_set_hard_affinity(struct vcpu *v, const cpumask_t *affinity)
+{
+ cpumask_t online_affinity;
+ cpumask_t *online;
+
+ if ( v->domain->is_pinned )
+ return -EINVAL;
+
+ online = VCPU2ONLINE(v);
+ cpumask_and(&online_affinity, affinity, online);
+ if ( cpumask_empty(&online_affinity) )
+ return -EINVAL;
+
+ return vcpu_set_affinity(v, affinity, v->cpu_hard_affinity);
+}
+
+int vcpu_set_soft_affinity(struct vcpu *v, const cpumask_t *affinity)
+{
+ return vcpu_set_affinity(v, affinity, v->cpu_soft_affinity);
+}
+
/* Block the currently-executing domain until a pertinent event occurs. */
void vcpu_block(void)
{
/* Save current VCPU affinity; force wakeup on *this* CPU only. */
wqv->wakeup_cpu = smp_processor_id();
cpumask_copy(&wqv->saved_affinity, curr->cpu_hard_affinity);
- if ( vcpu_set_affinity(curr, cpumask_of(wqv->wakeup_cpu)) )
+ if ( vcpu_set_hard_affinity(curr, cpumask_of(wqv->wakeup_cpu)) )
{
gdprintk(XENLOG_ERR, "Unable to set vcpu affinity\n");
domain_crash_synchronous();
static void __finish_wait(struct waitqueue_vcpu *wqv)
{
wqv->esp = NULL;
- (void)vcpu_set_affinity(current, &wqv->saved_affinity);
+ (void)vcpu_set_hard_affinity(current, &wqv->saved_affinity);
}
void check_wakeup_from_wait(void)
/* Re-set VCPU affinity and re-enter the scheduler. */
struct vcpu *curr = current;
cpumask_copy(&wqv->saved_affinity, curr->cpu_hard_affinity);
- if ( vcpu_set_affinity(curr, cpumask_of(wqv->wakeup_cpu)) )
+ if ( vcpu_set_hard_affinity(curr, cpumask_of(wqv->wakeup_cpu)) )
{
gdprintk(XENLOG_ERR, "Unable to set vcpu affinity\n");
domain_crash_synchronous();
/* XEN_DOMCTL_setvcpuaffinity */
/* XEN_DOMCTL_getvcpuaffinity */
struct xen_domctl_vcpuaffinity {
- uint32_t vcpu; /* IN */
- struct xenctl_bitmap cpumap; /* IN/OUT */
+ /* IN variables. */
+ uint32_t vcpu;
+ /* Set/get the hard affinity for vcpu */
+#define _XEN_VCPUAFFINITY_HARD 0
+#define XEN_VCPUAFFINITY_HARD (1U<<_XEN_VCPUAFFINITY_HARD)
+ /* Set/get the soft affinity for vcpu */
+#define _XEN_VCPUAFFINITY_SOFT 1
+#define XEN_VCPUAFFINITY_SOFT (1U<<_XEN_VCPUAFFINITY_SOFT)
+ uint32_t flags;
+ /*
+ * IN/OUT variables.
+ *
+ * Both are IN/OUT for XEN_DOMCTL_setvcpuaffinity, in which case they
+ * contain effective hard or/and soft affinity. That is, upon successful
+ * return, cpumap_soft, contains the intersection of the soft affinity,
+ * hard affinity and the cpupool's online CPUs for the domain (if
+ * XEN_VCPUAFFINITY_SOFT was set in flags). cpumap_hard contains the
+ * intersection between hard affinity and the cpupool's online CPUs (if
+ * XEN_VCPUAFFINITY_HARD was set in flags).
+ *
+ * Both are OUT-only for XEN_DOMCTL_getvcpuaffinity, in which case they
+ * contain the plain hard and/or soft affinity masks that were set during
+ * previous successful calls to XEN_DOMCTL_setvcpuaffinity (or the
+ * default values), without intersecting or altering them in any way.
+ */
+ struct xenctl_bitmap cpumap_hard;
+ struct xenctl_bitmap cpumap_soft;
};
typedef struct xen_domctl_vcpuaffinity xen_domctl_vcpuaffinity_t;
DEFINE_XEN_GUEST_HANDLE(xen_domctl_vcpuaffinity_t);
int schedule_cpu_switch(unsigned int cpu, struct cpupool *c);
void vcpu_force_reschedule(struct vcpu *v);
int cpu_disable_scheduler(unsigned int cpu);
-int vcpu_set_affinity(struct vcpu *v, const cpumask_t *affinity);
+int vcpu_set_hard_affinity(struct vcpu *v, const cpumask_t *affinity);
+int vcpu_set_soft_affinity(struct vcpu *v, const cpumask_t *affinity);
void restore_vcpu_affinity(struct domain *d);
void vcpu_runstate_get(struct vcpu *v, struct vcpu_runstate_info *runstate);
projects / xen.git / commitdiff