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Subject[RFC PATCH v2 5/5] sched: split find_busiest_group()
Date
Make use of the defined helper functions and data structures and
split the find_busiest_group() function into smaller modular functions.

Signed-off-by: Vaidyanathan Srinivasan <svaidy@linux.vnet.ibm.com>
---

kernel/sched.c | 328 +++++++++++---------------------------------------------
1 files changed, 67 insertions(+), 261 deletions(-)

diff --git a/kernel/sched.c b/kernel/sched.c
index cf1aae1..004c065 100644
--- a/kernel/sched.c
+++ b/kernel/sched.c
@@ -3398,7 +3398,6 @@ static struct sched_group *powersavings_balance_group(struct sd_loads *sdl,
return NULL;
}
#endif
-
/*
* find_busiest_group finds and returns the busiest CPU group within the
* domain. It calculates and returns the amount of weighted load which
@@ -3409,208 +3408,56 @@ find_busiest_group(struct sched_domain *sd, int this_cpu,
unsigned long *imbalance, enum cpu_idle_type idle,
int *sd_idle, const cpumask_t *cpus, int *balance)
{
- struct sched_group *busiest = NULL, *this = NULL, *group = sd->groups;
- unsigned long max_load, avg_load, total_load, this_load, total_pwr;
+ struct sched_group *group = sd->groups;
unsigned long max_pull;
- unsigned long busiest_load_per_task, busiest_nr_running;
- unsigned long this_load_per_task, this_nr_running;
- int load_idx, group_imb = 0;
-#if defined(CONFIG_SCHED_MC) || defined(CONFIG_SCHED_SMT)
- int power_savings_balance = 1;
- unsigned long leader_nr_running = 0, min_load_per_task = 0;
- unsigned long min_nr_running = ULONG_MAX;
- struct sched_group *group_min = NULL, *group_leader = NULL;
-#endif
+ int load_idx;
+ struct group_loads gl;
+ struct sd_loads sdl;

- max_load = this_load = total_load = total_pwr = 0;
- busiest_load_per_task = busiest_nr_running = 0;
- this_load_per_task = this_nr_running = 0;
+ memset(&sdl, 0, sizeof(sdl));
+ sdl.sd = sd;

- if (idle == CPU_NOT_IDLE)
- load_idx = sd->busy_idx;
- else if (idle == CPU_NEWLY_IDLE)
- load_idx = sd->newidle_idx;
- else
- load_idx = sd->idle_idx;
+ /* Get the load index corresponding to cpu idle state */
+ load_idx = get_load_idx(sd, idle);

do {
- unsigned long load, group_capacity, max_cpu_load, min_cpu_load;
- int local_group;
- int i;
- int __group_imb = 0;
- unsigned int balance_cpu = -1, first_idle_cpu = 0;
- unsigned long sum_nr_running, sum_weighted_load;
- unsigned long sum_avg_load_per_task;
- unsigned long avg_load_per_task;
-
- local_group = cpu_isset(this_cpu, group->cpumask);
-
- if (local_group)
- balance_cpu = first_cpu(group->cpumask);
+ int need_balance;

- /* Tally up the load of all CPUs in the group */
- sum_weighted_load = sum_nr_running = avg_load = 0;
- sum_avg_load_per_task = avg_load_per_task = 0;
-
- max_cpu_load = 0;
- min_cpu_load = ~0UL;
-
- for_each_cpu_mask_nr(i, group->cpumask) {
- struct rq *rq;
-
- if (!cpu_isset(i, *cpus))
- continue;
+ need_balance = get_group_loads(group, this_cpu, cpus, idle,
+ load_idx, &gl);

- rq = cpu_rq(i);
+ if (*sd_idle && gl.nr_running)
+ *sd_idle = 0;

- if (*sd_idle && rq->nr_running)
- *sd_idle = 0;
-
- /* Bias balancing toward cpus of our domain */
- if (local_group) {
- if (idle_cpu(i) && !first_idle_cpu) {
- first_idle_cpu = 1;
- balance_cpu = i;
- }
-
- load = target_load(i, load_idx);
- } else {
- load = source_load(i, load_idx);
- if (load > max_cpu_load)
- max_cpu_load = load;
- if (min_cpu_load > load)
- min_cpu_load = load;
- }
-
- avg_load += load;
- sum_nr_running += rq->nr_running;
- sum_weighted_load += weighted_cpuload(i);
-
- sum_avg_load_per_task += cpu_avg_load_per_task(i);
- }
-
- /*
- * First idle cpu or the first cpu(busiest) in this sched group
- * is eligible for doing load balancing at this and above
- * domains. In the newly idle case, we will allow all the cpu's
- * to do the newly idle load balance.
- */
- if (idle != CPU_NEWLY_IDLE && local_group &&
- balance_cpu != this_cpu && balance) {
+ if (!need_balance && balance) {
*balance = 0;
- goto ret;
+ *imbalance = 0;
+ return NULL;
}

- total_load += avg_load;
- total_pwr += group->__cpu_power;
+ /* Compare groups and find busiest non-local group */
+ update_sd_loads(&sdl, &gl);
+ /* Compare groups and find power saving candidates */
+ update_powersavings_group_loads(&sdl, &gl, idle);

- /* Adjust by relative CPU power of the group */
- avg_load = sg_div_cpu_power(group,
- avg_load * SCHED_LOAD_SCALE);
-
-
- /*
- * Consider the group unbalanced when the imbalance is larger
- * than the average weight of two tasks.
- *
- * APZ: with cgroup the avg task weight can vary wildly and
- * might not be a suitable number - should we keep a
- * normalized nr_running number somewhere that negates
- * the hierarchy?
- */
- avg_load_per_task = sg_div_cpu_power(group,
- sum_avg_load_per_task * SCHED_LOAD_SCALE);
-
- if ((max_cpu_load - min_cpu_load) > 2*avg_load_per_task)
- __group_imb = 1;
-
- group_capacity = group->__cpu_power / SCHED_LOAD_SCALE;
-
- if (local_group) {
- this_load = avg_load;
- this = group;
- this_nr_running = sum_nr_running;
- this_load_per_task = sum_weighted_load;
- } else if (avg_load > max_load &&
- (sum_nr_running > group_capacity || __group_imb)) {
- max_load = avg_load;
- busiest = group;
- busiest_nr_running = sum_nr_running;
- busiest_load_per_task = sum_weighted_load;
- group_imb = __group_imb;
- }
-
-#if defined(CONFIG_SCHED_MC) || defined(CONFIG_SCHED_SMT)
- /*
- * Busy processors will not participate in power savings
- * balance.
- */
- if (idle == CPU_NOT_IDLE ||
- !(sd->flags & SD_POWERSAVINGS_BALANCE))
- goto group_next;
-
- /*
- * If the local group is idle or completely loaded
- * no need to do power savings balance at this domain
- */
- if (local_group && (this_nr_running >= group_capacity ||
- !this_nr_running))
- power_savings_balance = 0;
-
- /*
- * If a group is already running at full capacity or idle,
- * don't include that group in power savings calculations
- */
- if (!power_savings_balance || sum_nr_running >= group_capacity
- || !sum_nr_running)
- goto group_next;
-
- /*
- * Calculate the group which has the least non-idle load.
- * This is the group from where we need to pick up the load
- * for saving power
- */
- if ((sum_nr_running < min_nr_running) ||
- (sum_nr_running == min_nr_running &&
- first_cpu(group->cpumask) <
- first_cpu(group_min->cpumask))) {
- group_min = group;
- min_nr_running = sum_nr_running;
- min_load_per_task = sum_weighted_load /
- sum_nr_running;
- }
-
- /*
- * Calculate the group which is almost near its
- * capacity but still has some space to pick up some load
- * from other group and save more power
- */
- if (sum_nr_running <= group_capacity - 1) {
- if (sum_nr_running > leader_nr_running ||
- (sum_nr_running == leader_nr_running &&
- first_cpu(group->cpumask) >
- first_cpu(group_leader->cpumask))) {
- group_leader = group;
- leader_nr_running = sum_nr_running;
- }
- }
-group_next:
-#endif
group = group->next;
} while (group != sd->groups);

- if (!busiest || this_load >= max_load || busiest_nr_running == 0)
+ if (!sdl.busiest.group ||
+ sdl.local.load_per_cpu >= sdl.max_load ||
+ sdl.busiest.nr_running == 0)
goto out_balanced;

- avg_load = (SCHED_LOAD_SCALE * total_load) / total_pwr;
+ sdl.load_per_cpu = (SCHED_LOAD_SCALE * sdl.load) / sdl.cpu_power;

- if (this_load >= avg_load ||
- 100*max_load <= sd->imbalance_pct*this_load)
+ if (sdl.local.load_per_cpu >= sdl.load_per_cpu ||
+ 100*sdl.busiest.load_per_cpu <=
+ sd->imbalance_pct*sdl.local.load_per_cpu)
goto out_balanced;

- busiest_load_per_task /= busiest_nr_running;
- if (group_imb)
- busiest_load_per_task = min(busiest_load_per_task, avg_load);
+ if (sdl.busiest.group_imbalance)
+ sdl.busiest.avg_load_per_task =
+ min(sdl.busiest.avg_load_per_task, sdl.load_per_cpu);

/*
* We're trying to get all the cpus to the average_load, so we don't
@@ -3623,104 +3470,63 @@ group_next:
* by pulling tasks to us. Be careful of negative numbers as they'll
* appear as very large values with unsigned longs.
*/
- if (max_load <= busiest_load_per_task)
+ if (sdl.busiest.load_per_cpu <= sdl.busiest.avg_load_per_task)
goto out_balanced;

/*
* In the presence of smp nice balancing, certain scenarios can have
* max load less than avg load(as we skip the groups at or below
* its cpu_power, while calculating max_load..)
+ * In this condition attempt to adjust the imbalance parameter
+ * in the small_imbalance functions.
+ *
+ * Now if max_load is more than avg load, balancing is needed,
+ * find the exact number of tasks to be moved.
*/
- if (max_load < avg_load) {
- *imbalance = 0;
- goto small_imbalance;
- }
+ if (sdl.busiest.load_per_cpu >= sdl.load_per_cpu) {
+
+ /* Don't want to pull so many tasks that
+ * a group would go idle
+ */
+ max_pull = min(sdl.busiest.load_per_cpu - sdl.load_per_cpu,
+ sdl.busiest.load_per_cpu -
+ sdl.busiest.avg_load_per_task);
+
+ /* How much load to actually move to equalise the imbalance */
+ *imbalance = min(max_pull * sdl.busiest.group->__cpu_power,
+ (sdl.load_per_cpu - sdl.local.load_per_cpu) *
+ sdl.local.group->__cpu_power) /
+ SCHED_LOAD_SCALE;

- /* Don't want to pull so many tasks that a group would go idle */
- max_pull = min(max_load - avg_load, max_load - busiest_load_per_task);
+ /* If we have adjusted the required imbalance, then return */
+ if (*imbalance >= sdl.busiest.avg_load_per_task)
+ return sdl.busiest.group;

- /* How much load to actually move to equalise the imbalance */
- *imbalance = min(max_pull * busiest->__cpu_power,
- (avg_load - this_load) * this->__cpu_power)
- / SCHED_LOAD_SCALE;
+ }

/*
* if *imbalance is less than the average load per runnable task
- * there is no gaurantee that any tasks will be moved so we'll have
+ * there is no guarantee that any tasks will be moved so we'll have
* a think about bumping its value to force at least one task to be
* moved
*/
- if (*imbalance < busiest_load_per_task) {
- unsigned long tmp, pwr_now, pwr_move;
- unsigned int imbn;
-
-small_imbalance:
- pwr_move = pwr_now = 0;
- imbn = 2;
- if (this_nr_running) {
- this_load_per_task /= this_nr_running;
- if (busiest_load_per_task > this_load_per_task)
- imbn = 1;
- } else
- this_load_per_task = cpu_avg_load_per_task(this_cpu);
-
- if (max_load - this_load + 2*busiest_load_per_task >=
- busiest_load_per_task * imbn) {
- *imbalance = busiest_load_per_task;
- return busiest;
- }
+ *imbalance = 0; /* Will be adjusted below */

- /*
- * OK, we don't have enough imbalance to justify moving tasks,
- * however we may be able to increase total CPU power used by
- * moving them.
- */
+ if (small_imbalance_one_task(&sdl, imbalance))
+ return sdl.busiest.group;

- pwr_now += busiest->__cpu_power *
- min(busiest_load_per_task, max_load);
- pwr_now += this->__cpu_power *
- min(this_load_per_task, this_load);
- pwr_now /= SCHED_LOAD_SCALE;
-
- /* Amount of load we'd subtract */
- tmp = sg_div_cpu_power(busiest,
- busiest_load_per_task * SCHED_LOAD_SCALE);
- if (max_load > tmp)
- pwr_move += busiest->__cpu_power *
- min(busiest_load_per_task, max_load - tmp);
-
- /* Amount of load we'd add */
- if (max_load * busiest->__cpu_power <
- busiest_load_per_task * SCHED_LOAD_SCALE)
- tmp = sg_div_cpu_power(this,
- max_load * busiest->__cpu_power);
- else
- tmp = sg_div_cpu_power(this,
- busiest_load_per_task * SCHED_LOAD_SCALE);
- pwr_move += this->__cpu_power *
- min(this_load_per_task, this_load + tmp);
- pwr_move /= SCHED_LOAD_SCALE;
+ /* Further look for effective cpu power utilisation */
+ small_imbalance_optimize_cpu_power(&sdl, imbalance);

- /* Move if we gain throughput */
- if (pwr_move > pwr_now)
- *imbalance = busiest_load_per_task;
- }
-
- return busiest;
+ /*
+ * Unconditional return, we have tries all possible means to adjust
+ * the imbalance for effective task move
+ */
+ return sdl.busiest.group;

out_balanced:
-#if defined(CONFIG_SCHED_MC) || defined(CONFIG_SCHED_SMT)
- if (idle == CPU_NOT_IDLE || !(sd->flags & SD_POWERSAVINGS_BALANCE))
- goto ret;
-
- if (this == group_leader && group_leader != group_min) {
- *imbalance = min_load_per_task;
- return group_min;
- }
-#endif
-ret:
- *imbalance = 0;
- return NULL;
+ /* Try opportunity for power save balance */
+ return powersavings_balance_group(&sdl, &gl, idle, imbalance);
}

/*


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