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Message-ID: <170003909036.391.1992458122172559536.tip-bot2@tip-bot2>
Date:   Wed, 15 Nov 2023 09:04:50 -0000
From:   "tip-bot2 for Peter Zijlstra" <tip-bot2@...utronix.de>
To:     linux-tip-commits@...r.kernel.org
Cc:     "Peter Zijlstra (Intel)" <peterz@...radead.org>,
        Daniel Bristot de Oliveira <bristot@...nel.org>,
        Phil Auld <pauld@...hat.com>,
        Valentin Schneider <vschneid@...hat.com>, x86@...nel.org,
        linux-kernel@...r.kernel.org
Subject: [tip: sched/core] sched/deadline: Move bandwidth accounting into
 {en,de}queue_dl_entity

The following commit has been merged into the sched/core branch of tip:

Commit-ID:     2f7a0f58948d8231236e2facecc500f1930fb996
Gitweb:        https://git.kernel.org/tip/2f7a0f58948d8231236e2facecc500f1930fb996
Author:        Peter Zijlstra <peterz@...radead.org>
AuthorDate:    Sat, 04 Nov 2023 11:59:20 +01:00
Committer:     Peter Zijlstra <peterz@...radead.org>
CommitterDate: Wed, 15 Nov 2023 09:57:50 +01:00

sched/deadline: Move bandwidth accounting into {en,de}queue_dl_entity

In preparation of introducing !task sched_dl_entity; move the
bandwidth accounting into {en.de}queue_dl_entity().

Signed-off-by: Peter Zijlstra (Intel) <peterz@...radead.org>
Signed-off-by: Daniel Bristot de Oliveira <bristot@...nel.org>
Signed-off-by: Peter Zijlstra (Intel) <peterz@...radead.org>
Reviewed-by: Phil Auld <pauld@...hat.com>
Reviewed-by: Valentin Schneider <vschneid@...hat.com>
Link: https://lkml.kernel.org/r/a86dccbbe44e021b8771627e1dae01a69b73466d.1699095159.git.bristot@kernel.org
---
 kernel/sched/deadline.c | 130 +++++++++++++++++++++------------------
 kernel/sched/sched.h    |   6 ++-
 2 files changed, 78 insertions(+), 58 deletions(-)

diff --git a/kernel/sched/deadline.c b/kernel/sched/deadline.c
index e80bb88..81810f6 100644
--- a/kernel/sched/deadline.c
+++ b/kernel/sched/deadline.c
@@ -391,12 +391,12 @@ static void __dl_clear_params(struct sched_dl_entity *dl_se);
  * up, and checks if the task is still in the "ACTIVE non contending"
  * state or not (in the second case, it updates running_bw).
  */
-static void task_non_contending(struct task_struct *p)
+static void task_non_contending(struct sched_dl_entity *dl_se)
 {
-	struct sched_dl_entity *dl_se = &p->dl;
 	struct hrtimer *timer = &dl_se->inactive_timer;
 	struct dl_rq *dl_rq = dl_rq_of_se(dl_se);
 	struct rq *rq = rq_of_dl_rq(dl_rq);
+	struct task_struct *p = dl_task_of(dl_se);
 	s64 zerolag_time;
 
 	/*
@@ -428,13 +428,14 @@ static void task_non_contending(struct task_struct *p)
 	if ((zerolag_time < 0) || hrtimer_active(&dl_se->inactive_timer)) {
 		if (dl_task(p))
 			sub_running_bw(dl_se, dl_rq);
+
 		if (!dl_task(p) || READ_ONCE(p->__state) == TASK_DEAD) {
 			struct dl_bw *dl_b = dl_bw_of(task_cpu(p));
 
 			if (READ_ONCE(p->__state) == TASK_DEAD)
-				sub_rq_bw(&p->dl, &rq->dl);
+				sub_rq_bw(dl_se, &rq->dl);
 			raw_spin_lock(&dl_b->lock);
-			__dl_sub(dl_b, p->dl.dl_bw, dl_bw_cpus(task_cpu(p)));
+			__dl_sub(dl_b, dl_se->dl_bw, dl_bw_cpus(task_cpu(p)));
 			raw_spin_unlock(&dl_b->lock);
 			__dl_clear_params(dl_se);
 		}
@@ -1602,6 +1603,41 @@ enqueue_dl_entity(struct sched_dl_entity *dl_se, int flags)
 	update_stats_enqueue_dl(dl_rq_of_se(dl_se), dl_se, flags);
 
 	/*
+	 * Check if a constrained deadline task was activated
+	 * after the deadline but before the next period.
+	 * If that is the case, the task will be throttled and
+	 * the replenishment timer will be set to the next period.
+	 */
+	if (!dl_se->dl_throttled && !dl_is_implicit(dl_se))
+		dl_check_constrained_dl(dl_se);
+
+	if (flags & (ENQUEUE_RESTORE|ENQUEUE_MIGRATING)) {
+		struct dl_rq *dl_rq = dl_rq_of_se(dl_se);
+
+		add_rq_bw(dl_se, dl_rq);
+		add_running_bw(dl_se, dl_rq);
+	}
+
+	/*
+	 * If p is throttled, we do not enqueue it. In fact, if it exhausted
+	 * its budget it needs a replenishment and, since it now is on
+	 * its rq, the bandwidth timer callback (which clearly has not
+	 * run yet) will take care of this.
+	 * However, the active utilization does not depend on the fact
+	 * that the task is on the runqueue or not (but depends on the
+	 * task's state - in GRUB parlance, "inactive" vs "active contending").
+	 * In other words, even if a task is throttled its utilization must
+	 * be counted in the active utilization; hence, we need to call
+	 * add_running_bw().
+	 */
+	if (dl_se->dl_throttled && !(flags & ENQUEUE_REPLENISH)) {
+		if (flags & ENQUEUE_WAKEUP)
+			task_contending(dl_se, flags);
+
+		return;
+	}
+
+	/*
 	 * If this is a wakeup or a new instance, the scheduling
 	 * parameters of the task might need updating. Otherwise,
 	 * we want a replenishment of its runtime.
@@ -1620,9 +1656,28 @@ enqueue_dl_entity(struct sched_dl_entity *dl_se, int flags)
 	__enqueue_dl_entity(dl_se);
 }
 
-static void dequeue_dl_entity(struct sched_dl_entity *dl_se)
+static void dequeue_dl_entity(struct sched_dl_entity *dl_se, int flags)
 {
 	__dequeue_dl_entity(dl_se);
+
+	if (flags & (DEQUEUE_SAVE|DEQUEUE_MIGRATING)) {
+		struct dl_rq *dl_rq = dl_rq_of_se(dl_se);
+
+		sub_running_bw(dl_se, dl_rq);
+		sub_rq_bw(dl_se, dl_rq);
+	}
+
+	/*
+	 * This check allows to start the inactive timer (or to immediately
+	 * decrease the active utilization, if needed) in two cases:
+	 * when the task blocks and when it is terminating
+	 * (p->state == TASK_DEAD). We can handle the two cases in the same
+	 * way, because from GRUB's point of view the same thing is happening
+	 * (the task moves from "active contending" to "active non contending"
+	 * or "inactive")
+	 */
+	if (flags & DEQUEUE_SLEEP)
+		task_non_contending(dl_se);
 }
 
 static void enqueue_task_dl(struct rq *rq, struct task_struct *p, int flags)
@@ -1667,76 +1722,35 @@ static void enqueue_task_dl(struct rq *rq, struct task_struct *p, int flags)
 		return;
 	}
 
-	/*
-	 * Check if a constrained deadline task was activated
-	 * after the deadline but before the next period.
-	 * If that is the case, the task will be throttled and
-	 * the replenishment timer will be set to the next period.
-	 */
-	if (!p->dl.dl_throttled && !dl_is_implicit(&p->dl))
-		dl_check_constrained_dl(&p->dl);
-
-	if (p->on_rq == TASK_ON_RQ_MIGRATING || flags & ENQUEUE_RESTORE) {
-		add_rq_bw(&p->dl, &rq->dl);
-		add_running_bw(&p->dl, &rq->dl);
-	}
-
-	/*
-	 * If p is throttled, we do not enqueue it. In fact, if it exhausted
-	 * its budget it needs a replenishment and, since it now is on
-	 * its rq, the bandwidth timer callback (which clearly has not
-	 * run yet) will take care of this.
-	 * However, the active utilization does not depend on the fact
-	 * that the task is on the runqueue or not (but depends on the
-	 * task's state - in GRUB parlance, "inactive" vs "active contending").
-	 * In other words, even if a task is throttled its utilization must
-	 * be counted in the active utilization; hence, we need to call
-	 * add_running_bw().
-	 */
-	if (p->dl.dl_throttled && !(flags & ENQUEUE_REPLENISH)) {
-		if (flags & ENQUEUE_WAKEUP)
-			task_contending(&p->dl, flags);
-
-		return;
-	}
-
 	check_schedstat_required();
 	update_stats_wait_start_dl(dl_rq_of_se(&p->dl), &p->dl);
 
+	if (p->on_rq == TASK_ON_RQ_MIGRATING)
+		flags |= ENQUEUE_MIGRATING;
+
 	enqueue_dl_entity(&p->dl, flags);
 
-	if (!task_current(rq, p) && p->nr_cpus_allowed > 1)
+	if (!task_current(rq, p) && !p->dl.dl_throttled && p->nr_cpus_allowed > 1)
 		enqueue_pushable_dl_task(rq, p);
 }
 
 static void __dequeue_task_dl(struct rq *rq, struct task_struct *p, int flags)
 {
 	update_stats_dequeue_dl(&rq->dl, &p->dl, flags);
-	dequeue_dl_entity(&p->dl);
-	dequeue_pushable_dl_task(rq, p);
+	dequeue_dl_entity(&p->dl, flags);
+
+	if (!p->dl.dl_throttled)
+		dequeue_pushable_dl_task(rq, p);
 }
 
 static void dequeue_task_dl(struct rq *rq, struct task_struct *p, int flags)
 {
 	update_curr_dl(rq);
-	__dequeue_task_dl(rq, p, flags);
 
-	if (p->on_rq == TASK_ON_RQ_MIGRATING || flags & DEQUEUE_SAVE) {
-		sub_running_bw(&p->dl, &rq->dl);
-		sub_rq_bw(&p->dl, &rq->dl);
-	}
+	if (p->on_rq == TASK_ON_RQ_MIGRATING)
+		flags |= DEQUEUE_MIGRATING;
 
-	/*
-	 * This check allows to start the inactive timer (or to immediately
-	 * decrease the active utilization, if needed) in two cases:
-	 * when the task blocks and when it is terminating
-	 * (p->state == TASK_DEAD). We can handle the two cases in the same
-	 * way, because from GRUB's point of view the same thing is happening
-	 * (the task moves from "active contending" to "active non contending"
-	 * or "inactive")
-	 */
-	if (flags & DEQUEUE_SLEEP)
-		task_non_contending(p);
+	__dequeue_task_dl(rq, p, flags);
 }
 
 /*
@@ -2551,7 +2565,7 @@ static void switched_from_dl(struct rq *rq, struct task_struct *p)
 	 * will reset the task parameters.
 	 */
 	if (task_on_rq_queued(p) && p->dl.dl_runtime)
-		task_non_contending(p);
+		task_non_contending(&p->dl);
 
 	/*
 	 * In case a task is setscheduled out from SCHED_DEADLINE we need to
diff --git a/kernel/sched/sched.h b/kernel/sched/sched.h
index 3c62df1..1cda787 100644
--- a/kernel/sched/sched.h
+++ b/kernel/sched/sched.h
@@ -2177,6 +2177,10 @@ extern const u32		sched_prio_to_wmult[40];
  * MOVE - paired with SAVE/RESTORE, explicitly does not preserve the location
  *        in the runqueue.
  *
+ * NOCLOCK - skip the update_rq_clock() (avoids double updates)
+ *
+ * MIGRATION - p->on_rq == TASK_ON_RQ_MIGRATING (used for DEADLINE)
+ *
  * ENQUEUE_HEAD      - place at front of runqueue (tail if not specified)
  * ENQUEUE_REPLENISH - CBS (replenish runtime and postpone deadline)
  * ENQUEUE_MIGRATED  - the task was migrated during wakeup
@@ -2187,6 +2191,7 @@ extern const u32		sched_prio_to_wmult[40];
 #define DEQUEUE_SAVE		0x02 /* Matches ENQUEUE_RESTORE */
 #define DEQUEUE_MOVE		0x04 /* Matches ENQUEUE_MOVE */
 #define DEQUEUE_NOCLOCK		0x08 /* Matches ENQUEUE_NOCLOCK */
+#define DEQUEUE_MIGRATING	0x100 /* Matches ENQUEUE_MIGRATING */
 
 #define ENQUEUE_WAKEUP		0x01
 #define ENQUEUE_RESTORE		0x02
@@ -2201,6 +2206,7 @@ extern const u32		sched_prio_to_wmult[40];
 #define ENQUEUE_MIGRATED	0x00
 #endif
 #define ENQUEUE_INITIAL		0x80
+#define ENQUEUE_MIGRATING	0x100
 
 #define RETRY_TASK		((void *)-1UL)
 

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