Re: [PATCH v3 04/10] sched/fair: rework load_balance
From: Vincent Guittot
Date: Wed Oct 02 2019 - 02:45:25 EST
On Tue, 1 Oct 2019 at 18:53, Dietmar Eggemann <dietmar.eggemann@xxxxxxx> wrote:
>
> On 01/10/2019 10:14, Vincent Guittot wrote:
> > On Mon, 30 Sep 2019 at 18:24, Dietmar Eggemann <dietmar.eggemann@xxxxxxx> wrote:
> >>
> >> Hi Vincent,
> >>
> >> On 19/09/2019 09:33, Vincent Guittot wrote:
>
> [...]
>
> >>> @@ -7347,7 +7362,7 @@ static int detach_tasks(struct lb_env *env)
> >>> {
> >>> struct list_head *tasks = &env->src_rq->cfs_tasks;
> >>> struct task_struct *p;
> >>> - unsigned long load;
> >>> + unsigned long util, load;
> >>
> >> Minor: Order by length or reduce scope to while loop ?
> >
> > I don't get your point here
>
> Nothing dramatic here! Just
>
> diff --git a/kernel/sched/fair.c b/kernel/sched/fair.c
> index d0c3aa1dc290..a08f342ead89 100644
> --- a/kernel/sched/fair.c
> +++ b/kernel/sched/fair.c
> @@ -7333,8 +7333,8 @@ static const unsigned int sched_nr_migrate_break = 32;
> static int detach_tasks(struct lb_env *env)
> {
> struct list_head *tasks = &env->src_rq->cfs_tasks;
> - struct task_struct *p;
> unsigned long load, util;
> + struct task_struct *p;
hmm... I still don't get this.
We usually gather pointers instead of interleaving them with other varaiables
> int detached = 0;
>
> lockdep_assert_held(&env->src_rq->lock);
>
> or
>
> diff --git a/kernel/sched/fair.c b/kernel/sched/fair.c
> index d0c3aa1dc290..4d1864d43ed7 100644
> --- a/kernel/sched/fair.c
> +++ b/kernel/sched/fair.c
> @@ -7334,7 +7334,6 @@ static int detach_tasks(struct lb_env *env)
> {
> struct list_head *tasks = &env->src_rq->cfs_tasks;
> struct task_struct *p;
> - unsigned long load, util;
> int detached = 0;
>
> lockdep_assert_held(&env->src_rq->lock);
> @@ -7343,6 +7342,8 @@ static int detach_tasks(struct lb_env *env)
> return 0;
>
> while (!list_empty(tasks)) {
> + unsigned long load, util;
> +
> /*
>
> [...]
>
> >>> @@ -8042,14 +8104,24 @@ static inline void update_sg_lb_stats(struct lb_env *env,
> >>> }
> >>> }
> >>>
> >>> - /* Adjust by relative CPU capacity of the group */
> >>> + /* Check if dst cpu is idle and preferred to this group */
> >>
> >> s/preferred to/preferred by ? or the preferred CPU of this group ?
> >
> > dst cpu doesn't belong to this group. We compare asym_prefer_cpu of
> > this group vs dst_cpu which belongs to another group
>
> Ah, in the sense of 'preferred over'. Got it now!
>
> [...]
>
> >>> + if (busiest->group_type == group_imbalanced) {
> >>> + /*
> >>> + * In the group_imb case we cannot rely on group-wide averages
> >>> + * to ensure CPU-load equilibrium, try to move any task to fix
> >>> + * the imbalance. The next load balance will take care of
> >>> + * balancing back the system.
> >>
> >> balancing back ?
> >
> > In case of imbalance, we don't try to balance the system but only try
> > to get rid of the pinned tasks problem. The system will still be
> > unbalanced after the migration and the next load balance will take
> > care of balancing the system
>
> OK.
>
> [...]
>
> >>> /*
> >>> - * Avg load of busiest sg can be less and avg load of local sg can
> >>> - * be greater than avg load across all sgs of sd because avg load
> >>> - * factors in sg capacity and sgs with smaller group_type are
> >>> - * skipped when updating the busiest sg:
> >>> + * Try to use spare capacity of local group without overloading it or
> >>> + * emptying busiest
> >>> */
> >>> - if (busiest->group_type != group_misfit_task &&
> >>> - (busiest->avg_load <= sds->avg_load ||
> >>> - local->avg_load >= sds->avg_load)) {
> >>> - env->imbalance = 0;
> >>> + if (local->group_type == group_has_spare) {
> >>> + if (busiest->group_type > group_fully_busy) {
> >>
> >> So this could be 'busiest->group_type == group_overloaded' here to match
> >> the comment below? Since you handle group_misfit_task,
> >> group_asym_packing, group_imbalanced above and return.
> >
> > This is just to be more robust in case some new states are added later
>
> OK, although I doubt that additional states can be added easily w/o
> carefully auditing the entire lb code ;-)
>
> [...]
>
> >>> + if (busiest->group_weight == 1 || sds->prefer_sibling) {
> >>> + /*
> >>> + * When prefer sibling, evenly spread running tasks on
> >>> + * groups.
> >>> + */
> >>> + env->balance_type = migrate_task;
> >>> + env->imbalance = (busiest->sum_h_nr_running - local->sum_h_nr_running) >> 1;
> >>> + return;
> >>> + }
> >>> +
> >>> + /*
> >>> + * If there is no overload, we just want to even the number of
> >>> + * idle cpus.
> >>> + */
> >>> + env->balance_type = migrate_task;
> >>> + env->imbalance = max_t(long, 0, (local->idle_cpus - busiest->idle_cpus) >> 1);
> >>
> >> Why do we need a max_t(long, 0, ...) here and not for the 'if
> >> (busiest->group_weight == 1 || sds->prefer_sibling)' case?
> >
> > For env->imbalance = (busiest->sum_h_nr_running - local->sum_h_nr_running) >> 1;
> >
> > either we have sds->prefer_sibling && busiest->sum_nr_running >
> > local->sum_nr_running + 1
>
> I see, this corresponds to
>
> /* Try to move all excess tasks to child's sibling domain */
> if (sds.prefer_sibling && local->group_type == group_has_spare &&
> busiest->sum_h_nr_running > local->sum_h_nr_running + 1)
> goto force_balance;
>
> in find_busiest_group, I assume.
yes, it is
>
> Haven't been able to recreate this yet on my arm64 platform since there
> is no prefer_sibling and in case local and busiest have
You probably have a b.L platform for which the flag is cleared because
the hikey (dual quad cores arm64) takes advantage of prefer sibling
at DIE level to spread tasks
> group_type=group_has_spare they bailout in
>
> if (busiest->group_type != group_overloaded &&
> (env->idle == CPU_NOT_IDLE ||
> local->idle_cpus <= (busiest->idle_cpus + 1)))
> goto out_balanced;
>
>
> [...]
>
> >>> - if (busiest->group_type == group_overloaded &&
> >>> - local->group_type == group_overloaded) {
> >>> - load_above_capacity = busiest->sum_h_nr_running * SCHED_CAPACITY_SCALE;
> >>> - if (load_above_capacity > busiest->group_capacity) {
> >>> - load_above_capacity -= busiest->group_capacity;
> >>> - load_above_capacity *= scale_load_down(NICE_0_LOAD);
> >>> - load_above_capacity /= busiest->group_capacity;
> >>> - } else
> >>> - load_above_capacity = ~0UL;
> >>> + if (local->group_type < group_overloaded) {
> >>> + /*
> >>> + * Local will become overloaded so the avg_load metrics are
> >>> + * finally needed.
> >>> + */
> >>
> >> How does this relate to the decision_matrix[local, busiest] (dm[])? E.g.
> >> dm[overload, overload] == avg_load or dm[fully_busy, overload] == force.
> >> It would be nice to be able to match all allowed fields of dm to code sections.
> >
> > decision_matrix describes how it decides between balanced or unbalanced.
> > In case of dm[overload, overload], we use the avg_load to decide if it
> > is balanced or not
>
> OK, that's why you calculate sgs->avg_load in update_sg_lb_stats() only
> for 'sgs->group_type == group_overloaded'.
>
> > In case of dm[fully_busy, overload], the groups are unbalanced because
> > fully_busy < overload and we force the balance. Then
> > calculate_imbalance() uses the avg_load to decide how much will be
> > moved
>
> And in this case 'local->group_type < group_overloaded' in
> calculate_imbalance(), 'local->avg_load' and 'sds->avg_load' have to be
> calculated before using them in env->imbalance = min(...).
>
> OK, got it now.
>
> > dm[overload, overload]=force means that we force the balance and we
> > will compute later the imbalance. avg_load may be used to calculate
> > the imbalance
> > dm[overload, overload]=avg_load means that we compare the avg_load to
> > decide whether we need to balance load between groups
> > dm[overload, overload]=nr_idle means that we compare the number of
> > idle cpus to decide whether we need to balance. In fact this is no
> > more true with patch 7 because we also take into account the number of
> > nr_h_running when weight =1
>
> This becomes clearer now ... slowly.
>
> [...]