xref: /openbmc/linux/kernel/sched/sched.h (revision 78b6b157) 
1b2441318SGreg Kroah-Hartman /* SPDX-License-Identifier: GPL-2.0 */
297fb7a0aSIngo Molnar /*
397fb7a0aSIngo Molnar  * Scheduler internal types and methods:
497fb7a0aSIngo Molnar  */
595458477SIngo Molnar #ifndef _KERNEL_SCHED_SCHED_H
695458477SIngo Molnar #define _KERNEL_SCHED_SCHED_H
7325ea10cSIngo Molnar 
8801c1419SIngo Molnar #include <linux/sched/affinity.h>
9dfc3401aSIngo Molnar #include <linux/sched/autogroup.h>
1055687da1SIngo Molnar #include <linux/sched/cpufreq.h>
11325ea10cSIngo Molnar #include <linux/sched/deadline.h>
124ff8f2caSIngo Molnar #include <linux/sched.h>
13325ea10cSIngo Molnar #include <linux/sched/loadavg.h>
14325ea10cSIngo Molnar #include <linux/sched/mm.h>
15801c1419SIngo Molnar #include <linux/sched/rseq_api.h>
16325ea10cSIngo Molnar #include <linux/sched/signal.h>
17321a874aSThomas Gleixner #include <linux/sched/smt.h>
18325ea10cSIngo Molnar #include <linux/sched/stat.h>
19325ea10cSIngo Molnar #include <linux/sched/sysctl.h>
204ff8f2caSIngo Molnar #include <linux/sched/task_flags.h>
2129930025SIngo Molnar #include <linux/sched/task.h>
22325ea10cSIngo Molnar #include <linux/sched/topology.h>
23ef8bd77fSIngo Molnar 
244ff8f2caSIngo Molnar #include <linux/atomic.h>
254ff8f2caSIngo Molnar #include <linux/bitmap.h>
264ff8f2caSIngo Molnar #include <linux/bug.h>
274ff8f2caSIngo Molnar #include <linux/capability.h>
284ff8f2caSIngo Molnar #include <linux/cgroup_api.h>
294ff8f2caSIngo Molnar #include <linux/cgroup.h>
30325ea10cSIngo Molnar #include <linux/cpufreq.h>
314ff8f2caSIngo Molnar #include <linux/cpumask_api.h>
32325ea10cSIngo Molnar #include <linux/ctype.h>
334ff8f2caSIngo Molnar #include <linux/file.h>
344ff8f2caSIngo Molnar #include <linux/fs_api.h>
354ff8f2caSIngo Molnar #include <linux/hrtimer_api.h>
364ff8f2caSIngo Molnar #include <linux/interrupt.h>
374ff8f2caSIngo Molnar #include <linux/irq_work.h>
384ff8f2caSIngo Molnar #include <linux/jiffies.h>
394ff8f2caSIngo Molnar #include <linux/kref_api.h>
40325ea10cSIngo Molnar #include <linux/kthread.h>
414ff8f2caSIngo Molnar #include <linux/ktime_api.h>
424ff8f2caSIngo Molnar #include <linux/lockdep_api.h>
434ff8f2caSIngo Molnar #include <linux/lockdep.h>
444ff8f2caSIngo Molnar #include <linux/minmax.h>
454ff8f2caSIngo Molnar #include <linux/mm.h>
464ff8f2caSIngo Molnar #include <linux/module.h>
474ff8f2caSIngo Molnar #include <linux/mutex_api.h>
484ff8f2caSIngo Molnar #include <linux/plist.h>
494ff8f2caSIngo Molnar #include <linux/poll.h>
50325ea10cSIngo Molnar #include <linux/proc_fs.h>
51325ea10cSIngo Molnar #include <linux/profile.h>
52eb414681SJohannes Weiner #include <linux/psi.h>
534ff8f2caSIngo Molnar #include <linux/rcupdate.h>
544ff8f2caSIngo Molnar #include <linux/seq_file.h>
554ff8f2caSIngo Molnar #include <linux/seqlock.h>
564ff8f2caSIngo Molnar #include <linux/softirq.h>
574ff8f2caSIngo Molnar #include <linux/spinlock_api.h>
584ff8f2caSIngo Molnar #include <linux/static_key.h>
59391e43daSPeter Zijlstra #include <linux/stop_machine.h>
604ff8f2caSIngo Molnar #include <linux/syscalls_api.h>
61325ea10cSIngo Molnar #include <linux/syscalls.h>
624ff8f2caSIngo Molnar #include <linux/tick.h>
634ff8f2caSIngo Molnar #include <linux/topology.h>
644ff8f2caSIngo Molnar #include <linux/types.h>
654ff8f2caSIngo Molnar #include <linux/u64_stats_sync_api.h>
664ff8f2caSIngo Molnar #include <linux/uaccess.h>
674ff8f2caSIngo Molnar #include <linux/wait_api.h>
684ff8f2caSIngo Molnar #include <linux/wait_bit.h>
694ff8f2caSIngo Molnar #include <linux/workqueue_api.h>
70325ea10cSIngo Molnar 
714ff8f2caSIngo Molnar #include <trace/events/power.h>
72b9e9c6caSIngo Molnar #include <trace/events/sched.h>
73b9e9c6caSIngo Molnar 
744ff8f2caSIngo Molnar #include "../workqueue_internal.h"
754ff8f2caSIngo Molnar 
76b9e9c6caSIngo Molnar #ifdef CONFIG_CGROUP_SCHED
77b9e9c6caSIngo Molnar #include <linux/cgroup.h>
78b9e9c6caSIngo Molnar #include <linux/psi.h>
79b9e9c6caSIngo Molnar #endif
80b9e9c6caSIngo Molnar 
81b9e9c6caSIngo Molnar #ifdef CONFIG_SCHED_DEBUG
82b9e9c6caSIngo Molnar # include <linux/static_key.h>
83b9e9c6caSIngo Molnar #endif
84391e43daSPeter Zijlstra 
857fce777cSIngo Molnar #ifdef CONFIG_PARAVIRT
867fce777cSIngo Molnar # include <asm/paravirt.h>
874ff8f2caSIngo Molnar # include <asm/paravirt_api_clock.h>
887fce777cSIngo Molnar #endif
897fce777cSIngo Molnar 
90391e43daSPeter Zijlstra #include "cpupri.h"
916bfd6d72SJuri Lelli #include "cpudeadline.h"
92391e43daSPeter Zijlstra 
939148a3a1SPeter Zijlstra #ifdef CONFIG_SCHED_DEBUG
949148a3a1SPeter Zijlstra # define SCHED_WARN_ON(x)      WARN_ONCE(x, #x)
959148a3a1SPeter Zijlstra #else
966d3aed3dSIngo Molnar # define SCHED_WARN_ON(x)      ({ (void)(x), 0; })
979148a3a1SPeter Zijlstra #endif
989148a3a1SPeter Zijlstra 
9945ceebf7SPaul Gortmaker struct rq;
100442bf3aaSDaniel Lezcano struct cpuidle_state;
10145ceebf7SPaul Gortmaker 
102da0c1e65SKirill Tkhai /* task_struct::on_rq states: */
103da0c1e65SKirill Tkhai #define TASK_ON_RQ_QUEUED	1
104cca26e80SKirill Tkhai #define TASK_ON_RQ_MIGRATING	2
105da0c1e65SKirill Tkhai 
106391e43daSPeter Zijlstra extern __read_mostly int scheduler_running;
107391e43daSPeter Zijlstra 
10845ceebf7SPaul Gortmaker extern unsigned long calc_load_update;
10945ceebf7SPaul Gortmaker extern atomic_long_t calc_load_tasks;
11045ceebf7SPaul Gortmaker 
111a60707d7SZhen Ni extern unsigned int sysctl_sched_child_runs_first;
112a60707d7SZhen Ni 
1133289bdb4SPeter Zijlstra extern void calc_global_load_tick(struct rq *this_rq);
114d60585c5SThomas Gleixner extern long calc_load_fold_active(struct rq *this_rq, long adjust);
1153289bdb4SPeter Zijlstra 
1169d246053SPhil Auld extern void call_trace_sched_update_nr_running(struct rq *rq, int count);
117d9ab0e63SZhen Ni 
118d9ab0e63SZhen Ni extern unsigned int sysctl_sched_rt_period;
119d9ab0e63SZhen Ni extern int sysctl_sched_rt_runtime;
120dafd7a9dSZhen Ni extern int sched_rr_timeslice;
121d9ab0e63SZhen Ni 
122391e43daSPeter Zijlstra /*
123391e43daSPeter Zijlstra  * Helpers for converting nanosecond timing to jiffy resolution
124391e43daSPeter Zijlstra  */
125391e43daSPeter Zijlstra #define NS_TO_JIFFIES(TIME)	((unsigned long)(TIME) / (NSEC_PER_SEC / HZ))
126391e43daSPeter Zijlstra 
127cc1f4b1fSLi Zefan /*
128cc1f4b1fSLi Zefan  * Increase resolution of nice-level calculations for 64-bit architectures.
129cc1f4b1fSLi Zefan  * The extra resolution improves shares distribution and load balancing of
130cc1f4b1fSLi Zefan  * low-weight task groups (eg. nice +19 on an autogroup), deeper taskgroup
131cc1f4b1fSLi Zefan  * hierarchies, especially on larger systems. This is not a user-visible change
132cc1f4b1fSLi Zefan  * and does not change the user-interface for setting shares/weights.
133cc1f4b1fSLi Zefan  *
134cc1f4b1fSLi Zefan  * We increase resolution only if we have enough bits to allow this increased
13597fb7a0aSIngo Molnar  * resolution (i.e. 64-bit). The costs for increasing resolution when 32-bit
13697fb7a0aSIngo Molnar  * are pretty high and the returns do not justify the increased costs.
1372159197dSPeter Zijlstra  *
13897fb7a0aSIngo Molnar  * Really only required when CONFIG_FAIR_GROUP_SCHED=y is also set, but to
13997fb7a0aSIngo Molnar  * increase coverage and consistency always enable it on 64-bit platforms.
140cc1f4b1fSLi Zefan  */
1412159197dSPeter Zijlstra #ifdef CONFIG_64BIT
142172895e6SYuyang Du # define NICE_0_LOAD_SHIFT	(SCHED_FIXEDPOINT_SHIFT + SCHED_FIXEDPOINT_SHIFT)
1436ecdd749SYuyang Du # define scale_load(w)		((w) << SCHED_FIXEDPOINT_SHIFT)
14426cf5222SMichael Wang # define scale_load_down(w) \
14526cf5222SMichael Wang ({ \
14626cf5222SMichael Wang 	unsigned long __w = (w); \
14726cf5222SMichael Wang 	if (__w) \
14826cf5222SMichael Wang 		__w = max(2UL, __w >> SCHED_FIXEDPOINT_SHIFT); \
14926cf5222SMichael Wang 	__w; \
15026cf5222SMichael Wang })
151cc1f4b1fSLi Zefan #else
152172895e6SYuyang Du # define NICE_0_LOAD_SHIFT	(SCHED_FIXEDPOINT_SHIFT)
153cc1f4b1fSLi Zefan # define scale_load(w)		(w)
154cc1f4b1fSLi Zefan # define scale_load_down(w)	(w)
155cc1f4b1fSLi Zefan #endif
156cc1f4b1fSLi Zefan 
1576ecdd749SYuyang Du /*
158172895e6SYuyang Du  * Task weight (visible to users) and its load (invisible to users) have
159172895e6SYuyang Du  * independent resolution, but they should be well calibrated. We use
160172895e6SYuyang Du  * scale_load() and scale_load_down(w) to convert between them. The
161172895e6SYuyang Du  * following must be true:
162172895e6SYuyang Du  *
1639d061ba6SDietmar Eggemann  *  scale_load(sched_prio_to_weight[NICE_TO_PRIO(0)-MAX_RT_PRIO]) == NICE_0_LOAD
164172895e6SYuyang Du  *
1656ecdd749SYuyang Du  */
166172895e6SYuyang Du #define NICE_0_LOAD		(1L << NICE_0_LOAD_SHIFT)
167391e43daSPeter Zijlstra 
168391e43daSPeter Zijlstra /*
169332ac17eSDario Faggioli  * Single value that decides SCHED_DEADLINE internal math precision.
170332ac17eSDario Faggioli  * 10 -> just above 1us
171332ac17eSDario Faggioli  * 9  -> just above 0.5us
172332ac17eSDario Faggioli  */
17397fb7a0aSIngo Molnar #define DL_SCALE		10
174332ac17eSDario Faggioli 
175332ac17eSDario Faggioli /*
17697fb7a0aSIngo Molnar  * Single value that denotes runtime == period, ie unlimited time.
177391e43daSPeter Zijlstra  */
178391e43daSPeter Zijlstra #define RUNTIME_INF		((u64)~0ULL)
179391e43daSPeter Zijlstra 
18020f9cd2aSHenrik Austad static inline int idle_policy(int policy)
18120f9cd2aSHenrik Austad {
18220f9cd2aSHenrik Austad 	return policy == SCHED_IDLE;
18320f9cd2aSHenrik Austad }
184d50dde5aSDario Faggioli static inline int fair_policy(int policy)
185d50dde5aSDario Faggioli {
186d50dde5aSDario Faggioli 	return policy == SCHED_NORMAL || policy == SCHED_BATCH;
187d50dde5aSDario Faggioli }
188d50dde5aSDario Faggioli 
189391e43daSPeter Zijlstra static inline int rt_policy(int policy)
190391e43daSPeter Zijlstra {
191d50dde5aSDario Faggioli 	return policy == SCHED_FIFO || policy == SCHED_RR;
192391e43daSPeter Zijlstra }
193391e43daSPeter Zijlstra 
194aab03e05SDario Faggioli static inline int dl_policy(int policy)
195aab03e05SDario Faggioli {
196aab03e05SDario Faggioli 	return policy == SCHED_DEADLINE;
197aab03e05SDario Faggioli }
19820f9cd2aSHenrik Austad static inline bool valid_policy(int policy)
19920f9cd2aSHenrik Austad {
20020f9cd2aSHenrik Austad 	return idle_policy(policy) || fair_policy(policy) ||
20120f9cd2aSHenrik Austad 		rt_policy(policy) || dl_policy(policy);
20220f9cd2aSHenrik Austad }
203aab03e05SDario Faggioli 
2041da1843fSViresh Kumar static inline int task_has_idle_policy(struct task_struct *p)
2051da1843fSViresh Kumar {
2061da1843fSViresh Kumar 	return idle_policy(p->policy);
2071da1843fSViresh Kumar }
2081da1843fSViresh Kumar 
209391e43daSPeter Zijlstra static inline int task_has_rt_policy(struct task_struct *p)
210391e43daSPeter Zijlstra {
211391e43daSPeter Zijlstra 	return rt_policy(p->policy);
212391e43daSPeter Zijlstra }
213391e43daSPeter Zijlstra 
214aab03e05SDario Faggioli static inline int task_has_dl_policy(struct task_struct *p)
215aab03e05SDario Faggioli {
216aab03e05SDario Faggioli 	return dl_policy(p->policy);
217aab03e05SDario Faggioli }
218aab03e05SDario Faggioli 
21907881166SJuri Lelli #define cap_scale(v, s) ((v)*(s) >> SCHED_CAPACITY_SHIFT)
22007881166SJuri Lelli 
221d76343c6SValentin Schneider static inline void update_avg(u64 *avg, u64 sample)
222d76343c6SValentin Schneider {
223d76343c6SValentin Schneider 	s64 diff = sample - *avg;
224d76343c6SValentin Schneider 	*avg += diff / 8;
225d76343c6SValentin Schneider }
226d76343c6SValentin Schneider 
2272d3d891dSDario Faggioli /*
22839a2a6ebSValentin Schneider  * Shifting a value by an exponent greater *or equal* to the size of said value
22939a2a6ebSValentin Schneider  * is UB; cap at size-1.
23039a2a6ebSValentin Schneider  */
23139a2a6ebSValentin Schneider #define shr_bound(val, shift)							\
23239a2a6ebSValentin Schneider 	(val >> min_t(typeof(shift), shift, BITS_PER_TYPE(typeof(val)) - 1))
23339a2a6ebSValentin Schneider 
23439a2a6ebSValentin Schneider /*
235794a56ebSJuri Lelli  * !! For sched_setattr_nocheck() (kernel) only !!
236794a56ebSJuri Lelli  *
237794a56ebSJuri Lelli  * This is actually gross. :(
238794a56ebSJuri Lelli  *
239794a56ebSJuri Lelli  * It is used to make schedutil kworker(s) higher priority than SCHED_DEADLINE
240794a56ebSJuri Lelli  * tasks, but still be able to sleep. We need this on platforms that cannot
241794a56ebSJuri Lelli  * atomically change clock frequency. Remove once fast switching will be
242794a56ebSJuri Lelli  * available on such platforms.
243794a56ebSJuri Lelli  *
244794a56ebSJuri Lelli  * SUGOV stands for SchedUtil GOVernor.
245794a56ebSJuri Lelli  */
246794a56ebSJuri Lelli #define SCHED_FLAG_SUGOV	0x10000000
247794a56ebSJuri Lelli 
248f9509153SQuentin Perret #define SCHED_DL_FLAGS (SCHED_FLAG_RECLAIM | SCHED_FLAG_DL_OVERRUN | SCHED_FLAG_SUGOV)
249f9509153SQuentin Perret 
250794a56ebSJuri Lelli static inline bool dl_entity_is_special(struct sched_dl_entity *dl_se)
251794a56ebSJuri Lelli {
252794a56ebSJuri Lelli #ifdef CONFIG_CPU_FREQ_GOV_SCHEDUTIL
253794a56ebSJuri Lelli 	return unlikely(dl_se->flags & SCHED_FLAG_SUGOV);
254794a56ebSJuri Lelli #else
255794a56ebSJuri Lelli 	return false;
256794a56ebSJuri Lelli #endif
257794a56ebSJuri Lelli }
258794a56ebSJuri Lelli 
259794a56ebSJuri Lelli /*
2602d3d891dSDario Faggioli  * Tells if entity @a should preempt entity @b.
2612d3d891dSDario Faggioli  */
262332ac17eSDario Faggioli static inline bool
263332ac17eSDario Faggioli dl_entity_preempt(struct sched_dl_entity *a, struct sched_dl_entity *b)
2642d3d891dSDario Faggioli {
265794a56ebSJuri Lelli 	return dl_entity_is_special(a) ||
266794a56ebSJuri Lelli 	       dl_time_before(a->deadline, b->deadline);
2672d3d891dSDario Faggioli }
2682d3d891dSDario Faggioli 
269391e43daSPeter Zijlstra /*
270391e43daSPeter Zijlstra  * This is the priority-queue data structure of the RT scheduling class:
271391e43daSPeter Zijlstra  */
272391e43daSPeter Zijlstra struct rt_prio_array {
273391e43daSPeter Zijlstra 	DECLARE_BITMAP(bitmap, MAX_RT_PRIO+1); /* include 1 bit for delimiter */
274391e43daSPeter Zijlstra 	struct list_head queue[MAX_RT_PRIO];
275391e43daSPeter Zijlstra };
276391e43daSPeter Zijlstra 
277391e43daSPeter Zijlstra struct rt_bandwidth {
278391e43daSPeter Zijlstra 	/* nests inside the rq lock: */
279391e43daSPeter Zijlstra 	raw_spinlock_t		rt_runtime_lock;
280391e43daSPeter Zijlstra 	ktime_t			rt_period;
281391e43daSPeter Zijlstra 	u64			rt_runtime;
282391e43daSPeter Zijlstra 	struct hrtimer		rt_period_timer;
2834cfafd30SPeter Zijlstra 	unsigned int		rt_period_active;
284391e43daSPeter Zijlstra };
285a5e7be3bSJuri Lelli 
286a5e7be3bSJuri Lelli void __dl_clear_params(struct task_struct *p);
287a5e7be3bSJuri Lelli 
288332ac17eSDario Faggioli struct dl_bandwidth {
289332ac17eSDario Faggioli 	raw_spinlock_t		dl_runtime_lock;
290332ac17eSDario Faggioli 	u64			dl_runtime;
291332ac17eSDario Faggioli 	u64			dl_period;
292332ac17eSDario Faggioli };
293332ac17eSDario Faggioli 
294332ac17eSDario Faggioli static inline int dl_bandwidth_enabled(void)
295332ac17eSDario Faggioli {
2961724813dSPeter Zijlstra 	return sysctl_sched_rt_runtime >= 0;
297332ac17eSDario Faggioli }
298332ac17eSDario Faggioli 
299a57415f5SPeng Liu /*
300a57415f5SPeng Liu  * To keep the bandwidth of -deadline tasks under control
301a57415f5SPeng Liu  * we need some place where:
302a57415f5SPeng Liu  *  - store the maximum -deadline bandwidth of each cpu;
303a57415f5SPeng Liu  *  - cache the fraction of bandwidth that is currently allocated in
304a57415f5SPeng Liu  *    each root domain;
305a57415f5SPeng Liu  *
306a57415f5SPeng Liu  * This is all done in the data structure below. It is similar to the
307a57415f5SPeng Liu  * one used for RT-throttling (rt_bandwidth), with the main difference
308a57415f5SPeng Liu  * that, since here we are only interested in admission control, we
309a57415f5SPeng Liu  * do not decrease any runtime while the group "executes", neither we
310a57415f5SPeng Liu  * need a timer to replenish it.
311a57415f5SPeng Liu  *
312a57415f5SPeng Liu  * With respect to SMP, bandwidth is given on a per root domain basis,
313a57415f5SPeng Liu  * meaning that:
314a57415f5SPeng Liu  *  - bw (< 100%) is the deadline bandwidth of each CPU;
315a57415f5SPeng Liu  *  - total_bw is the currently allocated bandwidth in each root domain;
316a57415f5SPeng Liu  */
317332ac17eSDario Faggioli struct dl_bw {
318332ac17eSDario Faggioli 	raw_spinlock_t		lock;
31997fb7a0aSIngo Molnar 	u64			bw;
32097fb7a0aSIngo Molnar 	u64			total_bw;
321332ac17eSDario Faggioli };
322332ac17eSDario Faggioli 
323f2cb1360SIngo Molnar extern void init_dl_bw(struct dl_bw *dl_b);
32406a76fe0SNicolas Pitre extern int  sched_dl_global_validate(void);
32506a76fe0SNicolas Pitre extern void sched_dl_do_global(void);
32697fb7a0aSIngo Molnar extern int  sched_dl_overflow(struct task_struct *p, int policy, const struct sched_attr *attr);
32706a76fe0SNicolas Pitre extern void __setparam_dl(struct task_struct *p, const struct sched_attr *attr);
32806a76fe0SNicolas Pitre extern void __getparam_dl(struct task_struct *p, struct sched_attr *attr);
32906a76fe0SNicolas Pitre extern bool __checkparam_dl(const struct sched_attr *attr);
33006a76fe0SNicolas Pitre extern bool dl_param_changed(struct task_struct *p, const struct sched_attr *attr);
33197fb7a0aSIngo Molnar extern int  dl_cpuset_cpumask_can_shrink(const struct cpumask *cur, const struct cpumask *trial);
332772b6539SDietmar Eggemann extern int  dl_cpu_busy(int cpu, struct task_struct *p);
333391e43daSPeter Zijlstra 
334391e43daSPeter Zijlstra #ifdef CONFIG_CGROUP_SCHED
335391e43daSPeter Zijlstra 
336391e43daSPeter Zijlstra struct cfs_rq;
337391e43daSPeter Zijlstra struct rt_rq;
338391e43daSPeter Zijlstra 
33935cf4e50SMike Galbraith extern struct list_head task_groups;
340391e43daSPeter Zijlstra 
341391e43daSPeter Zijlstra struct cfs_bandwidth {
342391e43daSPeter Zijlstra #ifdef CONFIG_CFS_BANDWIDTH
343391e43daSPeter Zijlstra 	raw_spinlock_t		lock;
344391e43daSPeter Zijlstra 	ktime_t			period;
34597fb7a0aSIngo Molnar 	u64			quota;
34697fb7a0aSIngo Molnar 	u64			runtime;
347f4183717SHuaixin Chang 	u64			burst;
348bcb1704aSHuaixin Chang 	u64			runtime_snap;
3499c58c79aSZhihui Zhang 	s64			hierarchical_quota;
350391e43daSPeter Zijlstra 
35166567fcbSbsegall@google.com 	u8			idle;
35266567fcbSbsegall@google.com 	u8			period_active;
35366567fcbSbsegall@google.com 	u8			slack_started;
35497fb7a0aSIngo Molnar 	struct hrtimer		period_timer;
35597fb7a0aSIngo Molnar 	struct hrtimer		slack_timer;
356391e43daSPeter Zijlstra 	struct list_head	throttled_cfs_rq;
357391e43daSPeter Zijlstra 
35897fb7a0aSIngo Molnar 	/* Statistics: */
35997fb7a0aSIngo Molnar 	int			nr_periods;
36097fb7a0aSIngo Molnar 	int			nr_throttled;
361bcb1704aSHuaixin Chang 	int			nr_burst;
362391e43daSPeter Zijlstra 	u64			throttled_time;
363bcb1704aSHuaixin Chang 	u64			burst_time;
364391e43daSPeter Zijlstra #endif
365391e43daSPeter Zijlstra };
366391e43daSPeter Zijlstra 
36797fb7a0aSIngo Molnar /* Task group related information */
368391e43daSPeter Zijlstra struct task_group {
369391e43daSPeter Zijlstra 	struct cgroup_subsys_state css;
370391e43daSPeter Zijlstra 
371391e43daSPeter Zijlstra #ifdef CONFIG_FAIR_GROUP_SCHED
37297fb7a0aSIngo Molnar 	/* schedulable entities of this group on each CPU */
373391e43daSPeter Zijlstra 	struct sched_entity	**se;
37497fb7a0aSIngo Molnar 	/* runqueue "owned" by this group on each CPU */
375391e43daSPeter Zijlstra 	struct cfs_rq		**cfs_rq;
376391e43daSPeter Zijlstra 	unsigned long		shares;
377391e43daSPeter Zijlstra 
37830400039SJosh Don 	/* A positive value indicates that this is a SCHED_IDLE group. */
37930400039SJosh Don 	int			idle;
38030400039SJosh Don 
381fa6bddebSAlex Shi #ifdef	CONFIG_SMP
382b0367629SWaiman Long 	/*
383b0367629SWaiman Long 	 * load_avg can be heavily contended at clock tick time, so put
384b0367629SWaiman Long 	 * it in its own cacheline separated from the fields above which
385b0367629SWaiman Long 	 * will also be accessed at each tick.
386b0367629SWaiman Long 	 */
387b0367629SWaiman Long 	atomic_long_t		load_avg ____cacheline_aligned;
388391e43daSPeter Zijlstra #endif
389fa6bddebSAlex Shi #endif
390391e43daSPeter Zijlstra 
391391e43daSPeter Zijlstra #ifdef CONFIG_RT_GROUP_SCHED
392391e43daSPeter Zijlstra 	struct sched_rt_entity	**rt_se;
393391e43daSPeter Zijlstra 	struct rt_rq		**rt_rq;
394391e43daSPeter Zijlstra 
395391e43daSPeter Zijlstra 	struct rt_bandwidth	rt_bandwidth;
396391e43daSPeter Zijlstra #endif
397391e43daSPeter Zijlstra 
398391e43daSPeter Zijlstra 	struct rcu_head		rcu;
399391e43daSPeter Zijlstra 	struct list_head	list;
400391e43daSPeter Zijlstra 
401391e43daSPeter Zijlstra 	struct task_group	*parent;
402391e43daSPeter Zijlstra 	struct list_head	siblings;
403391e43daSPeter Zijlstra 	struct list_head	children;
404391e43daSPeter Zijlstra 
405391e43daSPeter Zijlstra #ifdef CONFIG_SCHED_AUTOGROUP
406391e43daSPeter Zijlstra 	struct autogroup	*autogroup;
407391e43daSPeter Zijlstra #endif
408391e43daSPeter Zijlstra 
409391e43daSPeter Zijlstra 	struct cfs_bandwidth	cfs_bandwidth;
4102480c093SPatrick Bellasi 
4112480c093SPatrick Bellasi #ifdef CONFIG_UCLAMP_TASK_GROUP
4122480c093SPatrick Bellasi 	/* The two decimal precision [%] value requested from user-space */
4132480c093SPatrick Bellasi 	unsigned int		uclamp_pct[UCLAMP_CNT];
4142480c093SPatrick Bellasi 	/* Clamp values requested for a task group */
4152480c093SPatrick Bellasi 	struct uclamp_se	uclamp_req[UCLAMP_CNT];
4160b60ba2dSPatrick Bellasi 	/* Effective clamp values used for a task group */
4170b60ba2dSPatrick Bellasi 	struct uclamp_se	uclamp[UCLAMP_CNT];
4182480c093SPatrick Bellasi #endif
4192480c093SPatrick Bellasi 
420391e43daSPeter Zijlstra };
421391e43daSPeter Zijlstra 
422391e43daSPeter Zijlstra #ifdef CONFIG_FAIR_GROUP_SCHED
423391e43daSPeter Zijlstra #define ROOT_TASK_GROUP_LOAD	NICE_0_LOAD
424391e43daSPeter Zijlstra 
425391e43daSPeter Zijlstra /*
426391e43daSPeter Zijlstra  * A weight of 0 or 1 can cause arithmetics problems.
427391e43daSPeter Zijlstra  * A weight of a cfs_rq is the sum of weights of which entities
428391e43daSPeter Zijlstra  * are queued on this cfs_rq, so a weight of a entity should not be
429391e43daSPeter Zijlstra  * too large, so as the shares value of a task group.
430391e43daSPeter Zijlstra  * (The default weight is 1024 - so there's no practical
431391e43daSPeter Zijlstra  *  limitation from this.)
432391e43daSPeter Zijlstra  */
433391e43daSPeter Zijlstra #define MIN_SHARES		(1UL <<  1)
434391e43daSPeter Zijlstra #define MAX_SHARES		(1UL << 18)
435391e43daSPeter Zijlstra #endif
436391e43daSPeter Zijlstra 
437391e43daSPeter Zijlstra typedef int (*tg_visitor)(struct task_group *, void *);
438391e43daSPeter Zijlstra 
439391e43daSPeter Zijlstra extern int walk_tg_tree_from(struct task_group *from,
440391e43daSPeter Zijlstra 			     tg_visitor down, tg_visitor up, void *data);
441391e43daSPeter Zijlstra 
442391e43daSPeter Zijlstra /*
443391e43daSPeter Zijlstra  * Iterate the full tree, calling @down when first entering a node and @up when
444391e43daSPeter Zijlstra  * leaving it for the final time.
445391e43daSPeter Zijlstra  *
446391e43daSPeter Zijlstra  * Caller must hold rcu_lock or sufficient equivalent.
447391e43daSPeter Zijlstra  */
448391e43daSPeter Zijlstra static inline int walk_tg_tree(tg_visitor down, tg_visitor up, void *data)
449391e43daSPeter Zijlstra {
450391e43daSPeter Zijlstra 	return walk_tg_tree_from(&root_task_group, down, up, data);
451391e43daSPeter Zijlstra }
452391e43daSPeter Zijlstra 
453391e43daSPeter Zijlstra extern int tg_nop(struct task_group *tg, void *data);
454391e43daSPeter Zijlstra 
455391e43daSPeter Zijlstra extern void free_fair_sched_group(struct task_group *tg);
456391e43daSPeter Zijlstra extern int alloc_fair_sched_group(struct task_group *tg, struct task_group *parent);
4578663e24dSPeter Zijlstra extern void online_fair_sched_group(struct task_group *tg);
4586fe1f348SPeter Zijlstra extern void unregister_fair_sched_group(struct task_group *tg);
459391e43daSPeter Zijlstra extern void init_tg_cfs_entry(struct task_group *tg, struct cfs_rq *cfs_rq,
460391e43daSPeter Zijlstra 			struct sched_entity *se, int cpu,
461391e43daSPeter Zijlstra 			struct sched_entity *parent);
462391e43daSPeter Zijlstra extern void init_cfs_bandwidth(struct cfs_bandwidth *cfs_b);
463391e43daSPeter Zijlstra 
464391e43daSPeter Zijlstra extern void __refill_cfs_bandwidth_runtime(struct cfs_bandwidth *cfs_b);
46577a4d1a1SPeter Zijlstra extern void start_cfs_bandwidth(struct cfs_bandwidth *cfs_b);
466391e43daSPeter Zijlstra extern void unthrottle_cfs_rq(struct cfs_rq *cfs_rq);
467391e43daSPeter Zijlstra 
468b027789eSMathias Krause extern void unregister_rt_sched_group(struct task_group *tg);
469391e43daSPeter Zijlstra extern void free_rt_sched_group(struct task_group *tg);
470391e43daSPeter Zijlstra extern int alloc_rt_sched_group(struct task_group *tg, struct task_group *parent);
471391e43daSPeter Zijlstra extern void init_tg_rt_entry(struct task_group *tg, struct rt_rq *rt_rq,
472391e43daSPeter Zijlstra 		struct sched_rt_entity *rt_se, int cpu,
473391e43daSPeter Zijlstra 		struct sched_rt_entity *parent);
4748887cd99SNicolas Pitre extern int sched_group_set_rt_runtime(struct task_group *tg, long rt_runtime_us);
4758887cd99SNicolas Pitre extern int sched_group_set_rt_period(struct task_group *tg, u64 rt_period_us);
4768887cd99SNicolas Pitre extern long sched_group_rt_runtime(struct task_group *tg);
4778887cd99SNicolas Pitre extern long sched_group_rt_period(struct task_group *tg);
4788887cd99SNicolas Pitre extern int sched_rt_can_attach(struct task_group *tg, struct task_struct *tsk);
479391e43daSPeter Zijlstra 
48025cc7da7SLi Zefan extern struct task_group *sched_create_group(struct task_group *parent);
48125cc7da7SLi Zefan extern void sched_online_group(struct task_group *tg,
48225cc7da7SLi Zefan 			       struct task_group *parent);
48325cc7da7SLi Zefan extern void sched_destroy_group(struct task_group *tg);
484b027789eSMathias Krause extern void sched_release_group(struct task_group *tg);
48525cc7da7SLi Zefan 
48625cc7da7SLi Zefan extern void sched_move_task(struct task_struct *tsk);
48725cc7da7SLi Zefan 
48825cc7da7SLi Zefan #ifdef CONFIG_FAIR_GROUP_SCHED
48925cc7da7SLi Zefan extern int sched_group_set_shares(struct task_group *tg, unsigned long shares);
490ad936d86SByungchul Park 
49130400039SJosh Don extern int sched_group_set_idle(struct task_group *tg, long idle);
49230400039SJosh Don 
493ad936d86SByungchul Park #ifdef CONFIG_SMP
494ad936d86SByungchul Park extern void set_task_rq_fair(struct sched_entity *se,
495ad936d86SByungchul Park 			     struct cfs_rq *prev, struct cfs_rq *next);
496ad936d86SByungchul Park #else /* !CONFIG_SMP */
497ad936d86SByungchul Park static inline void set_task_rq_fair(struct sched_entity *se,
498ad936d86SByungchul Park 			     struct cfs_rq *prev, struct cfs_rq *next) { }
499ad936d86SByungchul Park #endif /* CONFIG_SMP */
500ad936d86SByungchul Park #endif /* CONFIG_FAIR_GROUP_SCHED */
50125cc7da7SLi Zefan 
502391e43daSPeter Zijlstra #else /* CONFIG_CGROUP_SCHED */
503391e43daSPeter Zijlstra 
504391e43daSPeter Zijlstra struct cfs_bandwidth { };
505391e43daSPeter Zijlstra 
506391e43daSPeter Zijlstra #endif	/* CONFIG_CGROUP_SCHED */
507391e43daSPeter Zijlstra 
508d05b4305SVincent Donnefort /*
509d05b4305SVincent Donnefort  * u64_u32_load/u64_u32_store
510d05b4305SVincent Donnefort  *
511d05b4305SVincent Donnefort  * Use a copy of a u64 value to protect against data race. This is only
512d05b4305SVincent Donnefort  * applicable for 32-bits architectures.
513d05b4305SVincent Donnefort  */
514d05b4305SVincent Donnefort #ifdef CONFIG_64BIT
515d05b4305SVincent Donnefort # define u64_u32_load_copy(var, copy)       var
516d05b4305SVincent Donnefort # define u64_u32_store_copy(var, copy, val) (var = val)
517d05b4305SVincent Donnefort #else
518d05b4305SVincent Donnefort # define u64_u32_load_copy(var, copy)					\
519d05b4305SVincent Donnefort ({									\
520d05b4305SVincent Donnefort 	u64 __val, __val_copy;						\
521d05b4305SVincent Donnefort 	do {								\
522d05b4305SVincent Donnefort 		__val_copy = copy;					\
523d05b4305SVincent Donnefort 		/*							\
524d05b4305SVincent Donnefort 		 * paired with u64_u32_store_copy(), ordering access	\
525d05b4305SVincent Donnefort 		 * to var and copy.					\
526d05b4305SVincent Donnefort 		 */							\
527d05b4305SVincent Donnefort 		smp_rmb();						\
528d05b4305SVincent Donnefort 		__val = var;						\
529d05b4305SVincent Donnefort 	} while (__val != __val_copy);					\
530d05b4305SVincent Donnefort 	__val;								\
531d05b4305SVincent Donnefort })
532d05b4305SVincent Donnefort # define u64_u32_store_copy(var, copy, val)				\
533d05b4305SVincent Donnefort do {									\
534d05b4305SVincent Donnefort 	typeof(val) __val = (val);					\
535d05b4305SVincent Donnefort 	var = __val;							\
536d05b4305SVincent Donnefort 	/*								\
537d05b4305SVincent Donnefort 	 * paired with u64_u32_load_copy(), ordering access to var and	\
538d05b4305SVincent Donnefort 	 * copy.							\
539d05b4305SVincent Donnefort 	 */								\
540d05b4305SVincent Donnefort 	smp_wmb();							\
541d05b4305SVincent Donnefort 	copy = __val;							\
542d05b4305SVincent Donnefort } while (0)
543d05b4305SVincent Donnefort #endif
544d05b4305SVincent Donnefort # define u64_u32_load(var)      u64_u32_load_copy(var, var##_copy)
545d05b4305SVincent Donnefort # define u64_u32_store(var, val) u64_u32_store_copy(var, var##_copy, val)
546d05b4305SVincent Donnefort 
547391e43daSPeter Zijlstra /* CFS-related fields in a runqueue */
548391e43daSPeter Zijlstra struct cfs_rq {
549391e43daSPeter Zijlstra 	struct load_weight	load;
55097fb7a0aSIngo Molnar 	unsigned int		nr_running;
55143e9f7f2SViresh Kumar 	unsigned int		h_nr_running;      /* SCHED_{NORMAL,BATCH,IDLE} */
552a480addeSJosh Don 	unsigned int		idle_nr_running;   /* SCHED_IDLE */
55343e9f7f2SViresh Kumar 	unsigned int		idle_h_nr_running; /* SCHED_IDLE */
554391e43daSPeter Zijlstra 
555391e43daSPeter Zijlstra 	u64			exec_clock;
556391e43daSPeter Zijlstra 	u64			min_vruntime;
557c6047c2eSJoel Fernandes (Google) #ifdef CONFIG_SCHED_CORE
558c6047c2eSJoel Fernandes (Google) 	unsigned int		forceidle_seq;
559c6047c2eSJoel Fernandes (Google) 	u64			min_vruntime_fi;
560c6047c2eSJoel Fernandes (Google) #endif
561c6047c2eSJoel Fernandes (Google) 
562391e43daSPeter Zijlstra #ifndef CONFIG_64BIT
563391e43daSPeter Zijlstra 	u64			min_vruntime_copy;
564391e43daSPeter Zijlstra #endif
565391e43daSPeter Zijlstra 
566bfb06889SDavidlohr Bueso 	struct rb_root_cached	tasks_timeline;
567391e43daSPeter Zijlstra 
568391e43daSPeter Zijlstra 	/*
569391e43daSPeter Zijlstra 	 * 'curr' points to currently running entity on this cfs_rq.
570391e43daSPeter Zijlstra 	 * It is set to NULL otherwise (i.e when none are currently running).
571391e43daSPeter Zijlstra 	 */
57297fb7a0aSIngo Molnar 	struct sched_entity	*curr;
57397fb7a0aSIngo Molnar 	struct sched_entity	*next;
57497fb7a0aSIngo Molnar 	struct sched_entity	*last;
57597fb7a0aSIngo Molnar 	struct sched_entity	*skip;
576391e43daSPeter Zijlstra 
577391e43daSPeter Zijlstra #ifdef	CONFIG_SCHED_DEBUG
578391e43daSPeter Zijlstra 	unsigned int		nr_spread_over;
579391e43daSPeter Zijlstra #endif
580391e43daSPeter Zijlstra 
5812dac754eSPaul Turner #ifdef CONFIG_SMP
5822dac754eSPaul Turner 	/*
5839d89c257SYuyang Du 	 * CFS load tracking
5842dac754eSPaul Turner 	 */
5859d89c257SYuyang Du 	struct sched_avg	avg;
5862a2f5d4eSPeter Zijlstra #ifndef CONFIG_64BIT
587d05b4305SVincent Donnefort 	u64			last_update_time_copy;
5882a2f5d4eSPeter Zijlstra #endif
5892a2f5d4eSPeter Zijlstra 	struct {
5902a2f5d4eSPeter Zijlstra 		raw_spinlock_t	lock ____cacheline_aligned;
5912a2f5d4eSPeter Zijlstra 		int		nr;
5922a2f5d4eSPeter Zijlstra 		unsigned long	load_avg;
5932a2f5d4eSPeter Zijlstra 		unsigned long	util_avg;
5949f683953SVincent Guittot 		unsigned long	runnable_avg;
5952a2f5d4eSPeter Zijlstra 	} removed;
596141965c7SAlex Shi 
597c566e8e9SPaul Turner #ifdef CONFIG_FAIR_GROUP_SCHED
5980e2d2aaaSPeter Zijlstra 	unsigned long		tg_load_avg_contrib;
5990e2d2aaaSPeter Zijlstra 	long			propagate;
6000e2d2aaaSPeter Zijlstra 	long			prop_runnable_sum;
6010e2d2aaaSPeter Zijlstra 
60282958366SPaul Turner 	/*
60382958366SPaul Turner 	 *   h_load = weight * f(tg)
60482958366SPaul Turner 	 *
60582958366SPaul Turner 	 * Where f(tg) is the recursive weight fraction assigned to
60682958366SPaul Turner 	 * this group.
60782958366SPaul Turner 	 */
60882958366SPaul Turner 	unsigned long		h_load;
60968520796SVladimir Davydov 	u64			last_h_load_update;
61068520796SVladimir Davydov 	struct sched_entity	*h_load_next;
61168520796SVladimir Davydov #endif /* CONFIG_FAIR_GROUP_SCHED */
61282958366SPaul Turner #endif /* CONFIG_SMP */
61382958366SPaul Turner 
614391e43daSPeter Zijlstra #ifdef CONFIG_FAIR_GROUP_SCHED
61597fb7a0aSIngo Molnar 	struct rq		*rq;	/* CPU runqueue to which this cfs_rq is attached */
616391e43daSPeter Zijlstra 
617391e43daSPeter Zijlstra 	/*
618391e43daSPeter Zijlstra 	 * leaf cfs_rqs are those that hold tasks (lowest schedulable entity in
619391e43daSPeter Zijlstra 	 * a hierarchy). Non-leaf lrqs hold other higher schedulable entities
620391e43daSPeter Zijlstra 	 * (like users, containers etc.)
621391e43daSPeter Zijlstra 	 *
62297fb7a0aSIngo Molnar 	 * leaf_cfs_rq_list ties together list of leaf cfs_rq's in a CPU.
62397fb7a0aSIngo Molnar 	 * This list is used during load balance.
624391e43daSPeter Zijlstra 	 */
625391e43daSPeter Zijlstra 	int			on_list;
626391e43daSPeter Zijlstra 	struct list_head	leaf_cfs_rq_list;
627391e43daSPeter Zijlstra 	struct task_group	*tg;	/* group that "owns" this runqueue */
628391e43daSPeter Zijlstra 
62930400039SJosh Don 	/* Locally cached copy of our task_group's idle value */
63030400039SJosh Don 	int			idle;
63130400039SJosh Don 
632391e43daSPeter Zijlstra #ifdef CONFIG_CFS_BANDWIDTH
633391e43daSPeter Zijlstra 	int			runtime_enabled;
634391e43daSPeter Zijlstra 	s64			runtime_remaining;
635391e43daSPeter Zijlstra 
636e2f3e35fSVincent Donnefort 	u64			throttled_pelt_idle;
637e2f3e35fSVincent Donnefort #ifndef CONFIG_64BIT
638e2f3e35fSVincent Donnefort 	u64                     throttled_pelt_idle_copy;
639e2f3e35fSVincent Donnefort #endif
64097fb7a0aSIngo Molnar 	u64			throttled_clock;
64164eaf507SChengming Zhou 	u64			throttled_clock_pelt;
64264eaf507SChengming Zhou 	u64			throttled_clock_pelt_time;
64397fb7a0aSIngo Molnar 	int			throttled;
64497fb7a0aSIngo Molnar 	int			throttle_count;
645391e43daSPeter Zijlstra 	struct list_head	throttled_list;
646391e43daSPeter Zijlstra #endif /* CONFIG_CFS_BANDWIDTH */
647391e43daSPeter Zijlstra #endif /* CONFIG_FAIR_GROUP_SCHED */
648391e43daSPeter Zijlstra };
649391e43daSPeter Zijlstra 
650391e43daSPeter Zijlstra static inline int rt_bandwidth_enabled(void)
651391e43daSPeter Zijlstra {
652391e43daSPeter Zijlstra 	return sysctl_sched_rt_runtime >= 0;
653391e43daSPeter Zijlstra }
654391e43daSPeter Zijlstra 
655b6366f04SSteven Rostedt /* RT IPI pull logic requires IRQ_WORK */
6564bdced5cSSteven Rostedt (Red Hat) #if defined(CONFIG_IRQ_WORK) && defined(CONFIG_SMP)
657b6366f04SSteven Rostedt # define HAVE_RT_PUSH_IPI
658b6366f04SSteven Rostedt #endif
659b6366f04SSteven Rostedt 
660391e43daSPeter Zijlstra /* Real-Time classes' related field in a runqueue: */
661391e43daSPeter Zijlstra struct rt_rq {
662391e43daSPeter Zijlstra 	struct rt_prio_array	active;
663c82513e5SPeter Zijlstra 	unsigned int		rt_nr_running;
66401d36d0aSFrederic Weisbecker 	unsigned int		rr_nr_running;
665391e43daSPeter Zijlstra #if defined CONFIG_SMP || defined CONFIG_RT_GROUP_SCHED
666391e43daSPeter Zijlstra 	struct {
667391e43daSPeter Zijlstra 		int		curr; /* highest queued rt task prio */
668391e43daSPeter Zijlstra #ifdef CONFIG_SMP
669391e43daSPeter Zijlstra 		int		next; /* next highest */
670391e43daSPeter Zijlstra #endif
671391e43daSPeter Zijlstra 	} highest_prio;
672391e43daSPeter Zijlstra #endif
673391e43daSPeter Zijlstra #ifdef CONFIG_SMP
674e6fe3f42SAlexey Dobriyan 	unsigned int		rt_nr_migratory;
675e6fe3f42SAlexey Dobriyan 	unsigned int		rt_nr_total;
676391e43daSPeter Zijlstra 	int			overloaded;
677391e43daSPeter Zijlstra 	struct plist_head	pushable_tasks;
678371bf427SVincent Guittot 
679b6366f04SSteven Rostedt #endif /* CONFIG_SMP */
680f4ebcbc0SKirill Tkhai 	int			rt_queued;
681f4ebcbc0SKirill Tkhai 
682391e43daSPeter Zijlstra 	int			rt_throttled;
683391e43daSPeter Zijlstra 	u64			rt_time;
684391e43daSPeter Zijlstra 	u64			rt_runtime;
685391e43daSPeter Zijlstra 	/* Nests inside the rq lock: */
686391e43daSPeter Zijlstra 	raw_spinlock_t		rt_runtime_lock;
687391e43daSPeter Zijlstra 
688391e43daSPeter Zijlstra #ifdef CONFIG_RT_GROUP_SCHED
689e6fe3f42SAlexey Dobriyan 	unsigned int		rt_nr_boosted;
690391e43daSPeter Zijlstra 
691391e43daSPeter Zijlstra 	struct rq		*rq;
692391e43daSPeter Zijlstra 	struct task_group	*tg;
693391e43daSPeter Zijlstra #endif
694391e43daSPeter Zijlstra };
695391e43daSPeter Zijlstra 
696296b2ffeSVincent Guittot static inline bool rt_rq_is_runnable(struct rt_rq *rt_rq)
697296b2ffeSVincent Guittot {
698296b2ffeSVincent Guittot 	return rt_rq->rt_queued && rt_rq->rt_nr_running;
699296b2ffeSVincent Guittot }
700296b2ffeSVincent Guittot 
701aab03e05SDario Faggioli /* Deadline class' related fields in a runqueue */
702aab03e05SDario Faggioli struct dl_rq {
703aab03e05SDario Faggioli 	/* runqueue is an rbtree, ordered by deadline */
7042161573eSDavidlohr Bueso 	struct rb_root_cached	root;
705aab03e05SDario Faggioli 
706e6fe3f42SAlexey Dobriyan 	unsigned int		dl_nr_running;
7071baca4ceSJuri Lelli 
7081baca4ceSJuri Lelli #ifdef CONFIG_SMP
7091baca4ceSJuri Lelli 	/*
7101baca4ceSJuri Lelli 	 * Deadline values of the currently executing and the
7111baca4ceSJuri Lelli 	 * earliest ready task on this rq. Caching these facilitates
712dfcb245eSIngo Molnar 	 * the decision whether or not a ready but not running task
7131baca4ceSJuri Lelli 	 * should migrate somewhere else.
7141baca4ceSJuri Lelli 	 */
7151baca4ceSJuri Lelli 	struct {
7161baca4ceSJuri Lelli 		u64		curr;
7171baca4ceSJuri Lelli 		u64		next;
7181baca4ceSJuri Lelli 	} earliest_dl;
7191baca4ceSJuri Lelli 
720e6fe3f42SAlexey Dobriyan 	unsigned int		dl_nr_migratory;
7211baca4ceSJuri Lelli 	int			overloaded;
7221baca4ceSJuri Lelli 
7231baca4ceSJuri Lelli 	/*
7241baca4ceSJuri Lelli 	 * Tasks on this rq that can be pushed away. They are kept in
7251baca4ceSJuri Lelli 	 * an rb-tree, ordered by tasks' deadlines, with caching
7261baca4ceSJuri Lelli 	 * of the leftmost (earliest deadline) element.
7271baca4ceSJuri Lelli 	 */
7282161573eSDavidlohr Bueso 	struct rb_root_cached	pushable_dl_tasks_root;
729332ac17eSDario Faggioli #else
730332ac17eSDario Faggioli 	struct dl_bw		dl_bw;
7311baca4ceSJuri Lelli #endif
732e36d8677SLuca Abeni 	/*
733e36d8677SLuca Abeni 	 * "Active utilization" for this runqueue: increased when a
734e36d8677SLuca Abeni 	 * task wakes up (becomes TASK_RUNNING) and decreased when a
735e36d8677SLuca Abeni 	 * task blocks
736e36d8677SLuca Abeni 	 */
737e36d8677SLuca Abeni 	u64			running_bw;
7384da3abceSLuca Abeni 
7394da3abceSLuca Abeni 	/*
7408fd27231SLuca Abeni 	 * Utilization of the tasks "assigned" to this runqueue (including
7418fd27231SLuca Abeni 	 * the tasks that are in runqueue and the tasks that executed on this
7428fd27231SLuca Abeni 	 * CPU and blocked). Increased when a task moves to this runqueue, and
7438fd27231SLuca Abeni 	 * decreased when the task moves away (migrates, changes scheduling
7448fd27231SLuca Abeni 	 * policy, or terminates).
7458fd27231SLuca Abeni 	 * This is needed to compute the "inactive utilization" for the
7468fd27231SLuca Abeni 	 * runqueue (inactive utilization = this_bw - running_bw).
7478fd27231SLuca Abeni 	 */
7488fd27231SLuca Abeni 	u64			this_bw;
749daec5798SLuca Abeni 	u64			extra_bw;
7508fd27231SLuca Abeni 
7518fd27231SLuca Abeni 	/*
7524da3abceSLuca Abeni 	 * Inverse of the fraction of CPU utilization that can be reclaimed
7534da3abceSLuca Abeni 	 * by the GRUB algorithm.
7544da3abceSLuca Abeni 	 */
7554da3abceSLuca Abeni 	u64			bw_ratio;
756aab03e05SDario Faggioli };
757aab03e05SDario Faggioli 
758c0796298SVincent Guittot #ifdef CONFIG_FAIR_GROUP_SCHED
759c0796298SVincent Guittot /* An entity is a task if it doesn't "own" a runqueue */
760c0796298SVincent Guittot #define entity_is_task(se)	(!se->my_q)
7610dacee1bSVincent Guittot 
7629f683953SVincent Guittot static inline void se_update_runnable(struct sched_entity *se)
7639f683953SVincent Guittot {
7649f683953SVincent Guittot 	if (!entity_is_task(se))
7659f683953SVincent Guittot 		se->runnable_weight = se->my_q->h_nr_running;
7669f683953SVincent Guittot }
7679f683953SVincent Guittot 
7689f683953SVincent Guittot static inline long se_runnable(struct sched_entity *se)
7699f683953SVincent Guittot {
7709f683953SVincent Guittot 	if (entity_is_task(se))
7719f683953SVincent Guittot 		return !!se->on_rq;
7729f683953SVincent Guittot 	else
7739f683953SVincent Guittot 		return se->runnable_weight;
7749f683953SVincent Guittot }
7759f683953SVincent Guittot 
776c0796298SVincent Guittot #else
777c0796298SVincent Guittot #define entity_is_task(se)	1
7780dacee1bSVincent Guittot 
7799f683953SVincent Guittot static inline void se_update_runnable(struct sched_entity *se) {}
7809f683953SVincent Guittot 
7819f683953SVincent Guittot static inline long se_runnable(struct sched_entity *se)
7829f683953SVincent Guittot {
7839f683953SVincent Guittot 	return !!se->on_rq;
7849f683953SVincent Guittot }
785c0796298SVincent Guittot #endif
786c0796298SVincent Guittot 
787391e43daSPeter Zijlstra #ifdef CONFIG_SMP
788c0796298SVincent Guittot /*
789c0796298SVincent Guittot  * XXX we want to get rid of these helpers and use the full load resolution.
790c0796298SVincent Guittot  */
791c0796298SVincent Guittot static inline long se_weight(struct sched_entity *se)
792c0796298SVincent Guittot {
793c0796298SVincent Guittot 	return scale_load_down(se->load.weight);
794c0796298SVincent Guittot }
795c0796298SVincent Guittot 
796391e43daSPeter Zijlstra 
797afe06efdSTim Chen static inline bool sched_asym_prefer(int a, int b)
798afe06efdSTim Chen {
799afe06efdSTim Chen 	return arch_asym_cpu_priority(a) > arch_asym_cpu_priority(b);
800afe06efdSTim Chen }
801afe06efdSTim Chen 
8026aa140faSQuentin Perret struct perf_domain {
8036aa140faSQuentin Perret 	struct em_perf_domain *em_pd;
8046aa140faSQuentin Perret 	struct perf_domain *next;
8056aa140faSQuentin Perret 	struct rcu_head rcu;
8066aa140faSQuentin Perret };
8076aa140faSQuentin Perret 
808630246a0SQuentin Perret /* Scheduling group status flags */
809630246a0SQuentin Perret #define SG_OVERLOAD		0x1 /* More than one runnable task on a CPU. */
8102802bf3cSMorten Rasmussen #define SG_OVERUTILIZED		0x2 /* One or more CPUs are over-utilized. */
811630246a0SQuentin Perret 
812391e43daSPeter Zijlstra /*
813391e43daSPeter Zijlstra  * We add the notion of a root-domain which will be used to define per-domain
814391e43daSPeter Zijlstra  * variables. Each exclusive cpuset essentially defines an island domain by
81597fb7a0aSIngo Molnar  * fully partitioning the member CPUs from any other cpuset. Whenever a new
816391e43daSPeter Zijlstra  * exclusive cpuset is created, we also create and attach a new root-domain
817391e43daSPeter Zijlstra  * object.
818391e43daSPeter Zijlstra  *
819391e43daSPeter Zijlstra  */
820391e43daSPeter Zijlstra struct root_domain {
821391e43daSPeter Zijlstra 	atomic_t		refcount;
822391e43daSPeter Zijlstra 	atomic_t		rto_count;
823391e43daSPeter Zijlstra 	struct rcu_head		rcu;
824391e43daSPeter Zijlstra 	cpumask_var_t		span;
825391e43daSPeter Zijlstra 	cpumask_var_t		online;
826391e43daSPeter Zijlstra 
827757ffdd7SValentin Schneider 	/*
828757ffdd7SValentin Schneider 	 * Indicate pullable load on at least one CPU, e.g:
829757ffdd7SValentin Schneider 	 * - More than one runnable task
830757ffdd7SValentin Schneider 	 * - Running task is misfit
831757ffdd7SValentin Schneider 	 */
832575638d1SValentin Schneider 	int			overload;
8334486edd1STim Chen 
8342802bf3cSMorten Rasmussen 	/* Indicate one or more cpus over-utilized (tipping point) */
8352802bf3cSMorten Rasmussen 	int			overutilized;
8362802bf3cSMorten Rasmussen 
837391e43daSPeter Zijlstra 	/*
8381baca4ceSJuri Lelli 	 * The bit corresponding to a CPU gets set here if such CPU has more
8391baca4ceSJuri Lelli 	 * than one runnable -deadline task (as it is below for RT tasks).
8401baca4ceSJuri Lelli 	 */
8411baca4ceSJuri Lelli 	cpumask_var_t		dlo_mask;
8421baca4ceSJuri Lelli 	atomic_t		dlo_count;
843332ac17eSDario Faggioli 	struct dl_bw		dl_bw;
8446bfd6d72SJuri Lelli 	struct cpudl		cpudl;
8451baca4ceSJuri Lelli 
84626762423SPeng Liu 	/*
84726762423SPeng Liu 	 * Indicate whether a root_domain's dl_bw has been checked or
84826762423SPeng Liu 	 * updated. It's monotonously increasing value.
84926762423SPeng Liu 	 *
85026762423SPeng Liu 	 * Also, some corner cases, like 'wrap around' is dangerous, but given
85126762423SPeng Liu 	 * that u64 is 'big enough'. So that shouldn't be a concern.
85226762423SPeng Liu 	 */
85326762423SPeng Liu 	u64 visit_gen;
85426762423SPeng Liu 
8554bdced5cSSteven Rostedt (Red Hat) #ifdef HAVE_RT_PUSH_IPI
8564bdced5cSSteven Rostedt (Red Hat) 	/*
8574bdced5cSSteven Rostedt (Red Hat) 	 * For IPI pull requests, loop across the rto_mask.
8584bdced5cSSteven Rostedt (Red Hat) 	 */
8594bdced5cSSteven Rostedt (Red Hat) 	struct irq_work		rto_push_work;
8604bdced5cSSteven Rostedt (Red Hat) 	raw_spinlock_t		rto_lock;
8614bdced5cSSteven Rostedt (Red Hat) 	/* These are only updated and read within rto_lock */
8624bdced5cSSteven Rostedt (Red Hat) 	int			rto_loop;
8634bdced5cSSteven Rostedt (Red Hat) 	int			rto_cpu;
8644bdced5cSSteven Rostedt (Red Hat) 	/* These atomics are updated outside of a lock */
8654bdced5cSSteven Rostedt (Red Hat) 	atomic_t		rto_loop_next;
8664bdced5cSSteven Rostedt (Red Hat) 	atomic_t		rto_loop_start;
8674bdced5cSSteven Rostedt (Red Hat) #endif
8681baca4ceSJuri Lelli 	/*
869391e43daSPeter Zijlstra 	 * The "RT overload" flag: it gets set if a CPU has more than
870391e43daSPeter Zijlstra 	 * one runnable RT task.
871391e43daSPeter Zijlstra 	 */
872391e43daSPeter Zijlstra 	cpumask_var_t		rto_mask;
873391e43daSPeter Zijlstra 	struct cpupri		cpupri;
874cd92bfd3SDietmar Eggemann 
875cd92bfd3SDietmar Eggemann 	unsigned long		max_cpu_capacity;
8766aa140faSQuentin Perret 
8776aa140faSQuentin Perret 	/*
8786aa140faSQuentin Perret 	 * NULL-terminated list of performance domains intersecting with the
8796aa140faSQuentin Perret 	 * CPUs of the rd. Protected by RCU.
8806aa140faSQuentin Perret 	 */
8817ba7319fSJoel Fernandes (Google) 	struct perf_domain __rcu *pd;
882391e43daSPeter Zijlstra };
883391e43daSPeter Zijlstra 
884f2cb1360SIngo Molnar extern void init_defrootdomain(void);
8858d5dc512SPeter Zijlstra extern int sched_init_domains(const struct cpumask *cpu_map);
886f2cb1360SIngo Molnar extern void rq_attach_root(struct rq *rq, struct root_domain *rd);
887364f5665SSteven Rostedt (VMware) extern void sched_get_rd(struct root_domain *rd);
888364f5665SSteven Rostedt (VMware) extern void sched_put_rd(struct root_domain *rd);
889391e43daSPeter Zijlstra 
8904bdced5cSSteven Rostedt (Red Hat) #ifdef HAVE_RT_PUSH_IPI
8914bdced5cSSteven Rostedt (Red Hat) extern void rto_push_irq_work_func(struct irq_work *work);
8924bdced5cSSteven Rostedt (Red Hat) #endif
893391e43daSPeter Zijlstra #endif /* CONFIG_SMP */
894391e43daSPeter Zijlstra 
89569842cbaSPatrick Bellasi #ifdef CONFIG_UCLAMP_TASK
89669842cbaSPatrick Bellasi /*
89769842cbaSPatrick Bellasi  * struct uclamp_bucket - Utilization clamp bucket
89869842cbaSPatrick Bellasi  * @value: utilization clamp value for tasks on this clamp bucket
89969842cbaSPatrick Bellasi  * @tasks: number of RUNNABLE tasks on this clamp bucket
90069842cbaSPatrick Bellasi  *
90169842cbaSPatrick Bellasi  * Keep track of how many tasks are RUNNABLE for a given utilization
90269842cbaSPatrick Bellasi  * clamp value.
90369842cbaSPatrick Bellasi  */
90469842cbaSPatrick Bellasi struct uclamp_bucket {
90569842cbaSPatrick Bellasi 	unsigned long value : bits_per(SCHED_CAPACITY_SCALE);
90669842cbaSPatrick Bellasi 	unsigned long tasks : BITS_PER_LONG - bits_per(SCHED_CAPACITY_SCALE);
90769842cbaSPatrick Bellasi };
90869842cbaSPatrick Bellasi 
90969842cbaSPatrick Bellasi /*
91069842cbaSPatrick Bellasi  * struct uclamp_rq - rq's utilization clamp
91169842cbaSPatrick Bellasi  * @value: currently active clamp values for a rq
91269842cbaSPatrick Bellasi  * @bucket: utilization clamp buckets affecting a rq
91369842cbaSPatrick Bellasi  *
91469842cbaSPatrick Bellasi  * Keep track of RUNNABLE tasks on a rq to aggregate their clamp values.
91569842cbaSPatrick Bellasi  * A clamp value is affecting a rq when there is at least one task RUNNABLE
91669842cbaSPatrick Bellasi  * (or actually running) with that value.
91769842cbaSPatrick Bellasi  *
91869842cbaSPatrick Bellasi  * There are up to UCLAMP_CNT possible different clamp values, currently there
91969842cbaSPatrick Bellasi  * are only two: minimum utilization and maximum utilization.
92069842cbaSPatrick Bellasi  *
92169842cbaSPatrick Bellasi  * All utilization clamping values are MAX aggregated, since:
92269842cbaSPatrick Bellasi  * - for util_min: we want to run the CPU at least at the max of the minimum
92369842cbaSPatrick Bellasi  *   utilization required by its currently RUNNABLE tasks.
92469842cbaSPatrick Bellasi  * - for util_max: we want to allow the CPU to run up to the max of the
92569842cbaSPatrick Bellasi  *   maximum utilization allowed by its currently RUNNABLE tasks.
92669842cbaSPatrick Bellasi  *
92769842cbaSPatrick Bellasi  * Since on each system we expect only a limited number of different
92869842cbaSPatrick Bellasi  * utilization clamp values (UCLAMP_BUCKETS), use a simple array to track
92969842cbaSPatrick Bellasi  * the metrics required to compute all the per-rq utilization clamp values.
93069842cbaSPatrick Bellasi  */
93169842cbaSPatrick Bellasi struct uclamp_rq {
93269842cbaSPatrick Bellasi 	unsigned int value;
93369842cbaSPatrick Bellasi 	struct uclamp_bucket bucket[UCLAMP_BUCKETS];
93469842cbaSPatrick Bellasi };
93546609ce2SQais Yousef 
93646609ce2SQais Yousef DECLARE_STATIC_KEY_FALSE(sched_uclamp_used);
93769842cbaSPatrick Bellasi #endif /* CONFIG_UCLAMP_TASK */
93869842cbaSPatrick Bellasi 
939391e43daSPeter Zijlstra /*
940391e43daSPeter Zijlstra  * This is the main, per-CPU runqueue data structure.
941391e43daSPeter Zijlstra  *
942391e43daSPeter Zijlstra  * Locking rule: those places that want to lock multiple runqueues
943391e43daSPeter Zijlstra  * (such as the load balancing or the thread migration code), lock
944391e43daSPeter Zijlstra  * acquire operations must be ordered by ascending &runqueue.
945391e43daSPeter Zijlstra  */
946391e43daSPeter Zijlstra struct rq {
947391e43daSPeter Zijlstra 	/* runqueue lock: */
9485cb9eaa3SPeter Zijlstra 	raw_spinlock_t		__lock;
949391e43daSPeter Zijlstra 
950391e43daSPeter Zijlstra 	/*
951391e43daSPeter Zijlstra 	 * nr_running and cpu_load should be in the same cacheline because
952391e43daSPeter Zijlstra 	 * remote CPUs use both these fields when doing load calculation.
953391e43daSPeter Zijlstra 	 */
954c82513e5SPeter Zijlstra 	unsigned int		nr_running;
9550ec8aa00SPeter Zijlstra #ifdef CONFIG_NUMA_BALANCING
9560ec8aa00SPeter Zijlstra 	unsigned int		nr_numa_running;
9570ec8aa00SPeter Zijlstra 	unsigned int		nr_preferred_running;
958a4739ecaSSrikar Dronamraju 	unsigned int		numa_migrate_on;
9590ec8aa00SPeter Zijlstra #endif
9603451d024SFrederic Weisbecker #ifdef CONFIG_NO_HZ_COMMON
9619fd81dd5SFrederic Weisbecker #ifdef CONFIG_SMP
962e022e0d3SPeter Zijlstra 	unsigned long		last_blocked_load_update_tick;
963f643ea22SVincent Guittot 	unsigned int		has_blocked_load;
96490b5363aSPeter Zijlstra (Intel) 	call_single_data_t	nohz_csd;
9659fd81dd5SFrederic Weisbecker #endif /* CONFIG_SMP */
96600357f5eSPeter Zijlstra 	unsigned int		nohz_tick_stopped;
967a22e47a4SPeter Zijlstra 	atomic_t		nohz_flags;
9689fd81dd5SFrederic Weisbecker #endif /* CONFIG_NO_HZ_COMMON */
969dcdedb24SFrederic Weisbecker 
970126c2092SPeter Zijlstra #ifdef CONFIG_SMP
971126c2092SPeter Zijlstra 	unsigned int		ttwu_pending;
972126c2092SPeter Zijlstra #endif
973391e43daSPeter Zijlstra 	u64			nr_switches;
974391e43daSPeter Zijlstra 
97569842cbaSPatrick Bellasi #ifdef CONFIG_UCLAMP_TASK
97669842cbaSPatrick Bellasi 	/* Utilization clamp values based on CPU's RUNNABLE tasks */
97769842cbaSPatrick Bellasi 	struct uclamp_rq	uclamp[UCLAMP_CNT] ____cacheline_aligned;
978e496187dSPatrick Bellasi 	unsigned int		uclamp_flags;
979e496187dSPatrick Bellasi #define UCLAMP_FLAG_IDLE 0x01
98069842cbaSPatrick Bellasi #endif
98169842cbaSPatrick Bellasi 
982391e43daSPeter Zijlstra 	struct cfs_rq		cfs;
983391e43daSPeter Zijlstra 	struct rt_rq		rt;
984aab03e05SDario Faggioli 	struct dl_rq		dl;
985391e43daSPeter Zijlstra 
986391e43daSPeter Zijlstra #ifdef CONFIG_FAIR_GROUP_SCHED
98797fb7a0aSIngo Molnar 	/* list of leaf cfs_rq on this CPU: */
988391e43daSPeter Zijlstra 	struct list_head	leaf_cfs_rq_list;
9899c2791f9SVincent Guittot 	struct list_head	*tmp_alone_branch;
990a35b6466SPeter Zijlstra #endif /* CONFIG_FAIR_GROUP_SCHED */
991a35b6466SPeter Zijlstra 
992391e43daSPeter Zijlstra 	/*
993391e43daSPeter Zijlstra 	 * This is part of a global counter where only the total sum
994391e43daSPeter Zijlstra 	 * over all CPUs matters. A task can increase this counter on
995391e43daSPeter Zijlstra 	 * one CPU and if it got migrated afterwards it may decrease
996391e43daSPeter Zijlstra 	 * it on another CPU. Always updated under the runqueue lock:
997391e43daSPeter Zijlstra 	 */
998e6fe3f42SAlexey Dobriyan 	unsigned int		nr_uninterruptible;
999391e43daSPeter Zijlstra 
10004104a562SMadhuparna Bhowmik 	struct task_struct __rcu	*curr;
100197fb7a0aSIngo Molnar 	struct task_struct	*idle;
100297fb7a0aSIngo Molnar 	struct task_struct	*stop;
1003391e43daSPeter Zijlstra 	unsigned long		next_balance;
1004391e43daSPeter Zijlstra 	struct mm_struct	*prev_mm;
1005391e43daSPeter Zijlstra 
1006cb42c9a3SMatt Fleming 	unsigned int		clock_update_flags;
1007391e43daSPeter Zijlstra 	u64			clock;
100823127296SVincent Guittot 	/* Ensure that all clocks are in the same cache line */
100923127296SVincent Guittot 	u64			clock_task ____cacheline_aligned;
101023127296SVincent Guittot 	u64			clock_pelt;
101123127296SVincent Guittot 	unsigned long		lost_idle_time;
1012e2f3e35fSVincent Donnefort 	u64			clock_pelt_idle;
1013e2f3e35fSVincent Donnefort 	u64			clock_idle;
1014e2f3e35fSVincent Donnefort #ifndef CONFIG_64BIT
1015e2f3e35fSVincent Donnefort 	u64			clock_pelt_idle_copy;
1016e2f3e35fSVincent Donnefort 	u64			clock_idle_copy;
1017e2f3e35fSVincent Donnefort #endif
1018391e43daSPeter Zijlstra 
1019391e43daSPeter Zijlstra 	atomic_t		nr_iowait;
1020391e43daSPeter Zijlstra 
1021c006fac5SPaul Turner #ifdef CONFIG_SCHED_DEBUG
1022c006fac5SPaul Turner 	u64 last_seen_need_resched_ns;
1023c006fac5SPaul Turner 	int ticks_without_resched;
1024c006fac5SPaul Turner #endif
1025c006fac5SPaul Turner 
1026227a4aadSMathieu Desnoyers #ifdef CONFIG_MEMBARRIER
1027227a4aadSMathieu Desnoyers 	int membarrier_state;
1028227a4aadSMathieu Desnoyers #endif
1029227a4aadSMathieu Desnoyers 
1030391e43daSPeter Zijlstra #ifdef CONFIG_SMP
1031391e43daSPeter Zijlstra 	struct root_domain		*rd;
1032994aeb7aSJoel Fernandes (Google) 	struct sched_domain __rcu	*sd;
1033391e43daSPeter Zijlstra 
1034ced549faSNicolas Pitre 	unsigned long		cpu_capacity;
1035ca6d75e6SVincent Guittot 	unsigned long		cpu_capacity_orig;
1036391e43daSPeter Zijlstra 
1037e3fca9e7SPeter Zijlstra 	struct callback_head	*balance_callback;
1038e3fca9e7SPeter Zijlstra 
103919a1f5ecSPeter Zijlstra 	unsigned char		nohz_idle_balance;
1040391e43daSPeter Zijlstra 	unsigned char		idle_balance;
104197fb7a0aSIngo Molnar 
10423b1baa64SMorten Rasmussen 	unsigned long		misfit_task_load;
10433b1baa64SMorten Rasmussen 
1044391e43daSPeter Zijlstra 	/* For active balancing */
1045391e43daSPeter Zijlstra 	int			active_balance;
1046391e43daSPeter Zijlstra 	int			push_cpu;
1047391e43daSPeter Zijlstra 	struct cpu_stop_work	active_balance_work;
104897fb7a0aSIngo Molnar 
104997fb7a0aSIngo Molnar 	/* CPU of this runqueue: */
1050391e43daSPeter Zijlstra 	int			cpu;
1051391e43daSPeter Zijlstra 	int			online;
1052391e43daSPeter Zijlstra 
1053367456c7SPeter Zijlstra 	struct list_head cfs_tasks;
1054367456c7SPeter Zijlstra 
1055371bf427SVincent Guittot 	struct sched_avg	avg_rt;
10563727e0e1SVincent Guittot 	struct sched_avg	avg_dl;
105711d4afd4SVincent Guittot #ifdef CONFIG_HAVE_SCHED_AVG_IRQ
105891c27493SVincent Guittot 	struct sched_avg	avg_irq;
105991c27493SVincent Guittot #endif
106076504793SThara Gopinath #ifdef CONFIG_SCHED_THERMAL_PRESSURE
106176504793SThara Gopinath 	struct sched_avg	avg_thermal;
106276504793SThara Gopinath #endif
1063391e43daSPeter Zijlstra 	u64			idle_stamp;
1064391e43daSPeter Zijlstra 	u64			avg_idle;
10659bd721c5SJason Low 
106694aafc3eSPeter Zijlstra 	unsigned long		wake_stamp;
106794aafc3eSPeter Zijlstra 	u64			wake_avg_idle;
106894aafc3eSPeter Zijlstra 
10699bd721c5SJason Low 	/* This is used to determine avg_idle's max value */
10709bd721c5SJason Low 	u64			max_idle_balance_cost;
1071f2469a1fSThomas Gleixner 
1072f2469a1fSThomas Gleixner #ifdef CONFIG_HOTPLUG_CPU
1073f2469a1fSThomas Gleixner 	struct rcuwait		hotplug_wait;
1074f2469a1fSThomas Gleixner #endif
107590b5363aSPeter Zijlstra (Intel) #endif /* CONFIG_SMP */
1076391e43daSPeter Zijlstra 
1077391e43daSPeter Zijlstra #ifdef CONFIG_IRQ_TIME_ACCOUNTING
1078391e43daSPeter Zijlstra 	u64			prev_irq_time;
1079391e43daSPeter Zijlstra #endif
1080391e43daSPeter Zijlstra #ifdef CONFIG_PARAVIRT
1081391e43daSPeter Zijlstra 	u64			prev_steal_time;
1082391e43daSPeter Zijlstra #endif
1083391e43daSPeter Zijlstra #ifdef CONFIG_PARAVIRT_TIME_ACCOUNTING
1084391e43daSPeter Zijlstra 	u64			prev_steal_time_rq;
1085391e43daSPeter Zijlstra #endif
1086391e43daSPeter Zijlstra 
1087391e43daSPeter Zijlstra 	/* calc_load related fields */
1088391e43daSPeter Zijlstra 	unsigned long		calc_load_update;
1089391e43daSPeter Zijlstra 	long			calc_load_active;
1090391e43daSPeter Zijlstra 
1091391e43daSPeter Zijlstra #ifdef CONFIG_SCHED_HRTICK
1092391e43daSPeter Zijlstra #ifdef CONFIG_SMP
1093966a9671SYing Huang 	call_single_data_t	hrtick_csd;
1094391e43daSPeter Zijlstra #endif
1095391e43daSPeter Zijlstra 	struct hrtimer		hrtick_timer;
1096156ec6f4SJuri Lelli 	ktime_t 		hrtick_time;
1097391e43daSPeter Zijlstra #endif
1098391e43daSPeter Zijlstra 
1099391e43daSPeter Zijlstra #ifdef CONFIG_SCHEDSTATS
1100391e43daSPeter Zijlstra 	/* latency stats */
1101391e43daSPeter Zijlstra 	struct sched_info	rq_sched_info;
1102391e43daSPeter Zijlstra 	unsigned long long	rq_cpu_time;
1103391e43daSPeter Zijlstra 	/* could above be rq->cfs_rq.exec_clock + rq->rt_rq.rt_runtime ? */
1104391e43daSPeter Zijlstra 
1105391e43daSPeter Zijlstra 	/* sys_sched_yield() stats */
1106391e43daSPeter Zijlstra 	unsigned int		yld_count;
1107391e43daSPeter Zijlstra 
1108391e43daSPeter Zijlstra 	/* schedule() stats */
1109391e43daSPeter Zijlstra 	unsigned int		sched_count;
1110391e43daSPeter Zijlstra 	unsigned int		sched_goidle;
1111391e43daSPeter Zijlstra 
1112391e43daSPeter Zijlstra 	/* try_to_wake_up() stats */
1113391e43daSPeter Zijlstra 	unsigned int		ttwu_count;
1114391e43daSPeter Zijlstra 	unsigned int		ttwu_local;
1115391e43daSPeter Zijlstra #endif
1116391e43daSPeter Zijlstra 
1117442bf3aaSDaniel Lezcano #ifdef CONFIG_CPU_IDLE
1118442bf3aaSDaniel Lezcano 	/* Must be inspected within a rcu lock section */
1119442bf3aaSDaniel Lezcano 	struct cpuidle_state	*idle_state;
1120442bf3aaSDaniel Lezcano #endif
11213015ef4bSThomas Gleixner 
112274d862b6SThomas Gleixner #ifdef CONFIG_SMP
11233015ef4bSThomas Gleixner 	unsigned int		nr_pinned;
11243015ef4bSThomas Gleixner #endif
1125a7c81556SPeter Zijlstra 	unsigned int		push_busy;
1126a7c81556SPeter Zijlstra 	struct cpu_stop_work	push_work;
11279edeaea1SPeter Zijlstra 
11289edeaea1SPeter Zijlstra #ifdef CONFIG_SCHED_CORE
11299edeaea1SPeter Zijlstra 	/* per rq */
11309edeaea1SPeter Zijlstra 	struct rq		*core;
1131539f6512SPeter Zijlstra 	struct task_struct	*core_pick;
11329edeaea1SPeter Zijlstra 	unsigned int		core_enabled;
1133539f6512SPeter Zijlstra 	unsigned int		core_sched_seq;
11348a311c74SPeter Zijlstra 	struct rb_root		core_tree;
11358a311c74SPeter Zijlstra 
11363c474b32SPeter Zijlstra 	/* shared state -- careful with sched_core_cpu_deactivate() */
11378a311c74SPeter Zijlstra 	unsigned int		core_task_seq;
1138539f6512SPeter Zijlstra 	unsigned int		core_pick_seq;
1139539f6512SPeter Zijlstra 	unsigned long		core_cookie;
11404feee7d1SJosh Don 	unsigned int		core_forceidle_count;
1141c6047c2eSJoel Fernandes (Google) 	unsigned int		core_forceidle_seq;
11424feee7d1SJosh Don 	unsigned int		core_forceidle_occupation;
11434feee7d1SJosh Don 	u64			core_forceidle_start;
11449edeaea1SPeter Zijlstra #endif
1145391e43daSPeter Zijlstra };
1146391e43daSPeter Zijlstra 
114762478d99SVincent Guittot #ifdef CONFIG_FAIR_GROUP_SCHED
114862478d99SVincent Guittot 
114962478d99SVincent Guittot /* CPU runqueue to which this cfs_rq is attached */
115062478d99SVincent Guittot static inline struct rq *rq_of(struct cfs_rq *cfs_rq)
115162478d99SVincent Guittot {
115262478d99SVincent Guittot 	return cfs_rq->rq;
115362478d99SVincent Guittot }
115462478d99SVincent Guittot 
115562478d99SVincent Guittot #else
115662478d99SVincent Guittot 
115762478d99SVincent Guittot static inline struct rq *rq_of(struct cfs_rq *cfs_rq)
115862478d99SVincent Guittot {
115962478d99SVincent Guittot 	return container_of(cfs_rq, struct rq, cfs);
116062478d99SVincent Guittot }
116162478d99SVincent Guittot #endif
116262478d99SVincent Guittot 
1163391e43daSPeter Zijlstra static inline int cpu_of(struct rq *rq)
1164391e43daSPeter Zijlstra {
1165391e43daSPeter Zijlstra #ifdef CONFIG_SMP
1166391e43daSPeter Zijlstra 	return rq->cpu;
1167391e43daSPeter Zijlstra #else
1168391e43daSPeter Zijlstra 	return 0;
1169391e43daSPeter Zijlstra #endif
1170391e43daSPeter Zijlstra }
1171391e43daSPeter Zijlstra 
1172a7c81556SPeter Zijlstra #define MDF_PUSH	0x01
1173a7c81556SPeter Zijlstra 
1174a7c81556SPeter Zijlstra static inline bool is_migration_disabled(struct task_struct *p)
1175a7c81556SPeter Zijlstra {
117674d862b6SThomas Gleixner #ifdef CONFIG_SMP
1177a7c81556SPeter Zijlstra 	return p->migration_disabled;
1178a7c81556SPeter Zijlstra #else
1179a7c81556SPeter Zijlstra 	return false;
1180a7c81556SPeter Zijlstra #endif
1181a7c81556SPeter Zijlstra }
11821b568f0aSPeter Zijlstra 
118397886d9dSAubrey Li struct sched_group;
11849edeaea1SPeter Zijlstra #ifdef CONFIG_SCHED_CORE
118597886d9dSAubrey Li static inline struct cpumask *sched_group_span(struct sched_group *sg);
11869edeaea1SPeter Zijlstra 
11879edeaea1SPeter Zijlstra DECLARE_STATIC_KEY_FALSE(__sched_core_enabled);
11889edeaea1SPeter Zijlstra 
11899edeaea1SPeter Zijlstra static inline bool sched_core_enabled(struct rq *rq)
11909edeaea1SPeter Zijlstra {
11919edeaea1SPeter Zijlstra 	return static_branch_unlikely(&__sched_core_enabled) && rq->core_enabled;
11929edeaea1SPeter Zijlstra }
11939edeaea1SPeter Zijlstra 
11949edeaea1SPeter Zijlstra static inline bool sched_core_disabled(void)
11959edeaea1SPeter Zijlstra {
11969edeaea1SPeter Zijlstra 	return !static_branch_unlikely(&__sched_core_enabled);
11979edeaea1SPeter Zijlstra }
11989edeaea1SPeter Zijlstra 
11999ef7e7e3SPeter Zijlstra /*
12009ef7e7e3SPeter Zijlstra  * Be careful with this function; not for general use. The return value isn't
12019ef7e7e3SPeter Zijlstra  * stable unless you actually hold a relevant rq->__lock.
12029ef7e7e3SPeter Zijlstra  */
12039edeaea1SPeter Zijlstra static inline raw_spinlock_t *rq_lockp(struct rq *rq)
12049edeaea1SPeter Zijlstra {
12059edeaea1SPeter Zijlstra 	if (sched_core_enabled(rq))
12069edeaea1SPeter Zijlstra 		return &rq->core->__lock;
12079edeaea1SPeter Zijlstra 
12089edeaea1SPeter Zijlstra 	return &rq->__lock;
12099edeaea1SPeter Zijlstra }
12109edeaea1SPeter Zijlstra 
12119ef7e7e3SPeter Zijlstra static inline raw_spinlock_t *__rq_lockp(struct rq *rq)
12129ef7e7e3SPeter Zijlstra {
12139ef7e7e3SPeter Zijlstra 	if (rq->core_enabled)
12149ef7e7e3SPeter Zijlstra 		return &rq->core->__lock;
12159ef7e7e3SPeter Zijlstra 
12169ef7e7e3SPeter Zijlstra 	return &rq->__lock;
12179ef7e7e3SPeter Zijlstra }
12189ef7e7e3SPeter Zijlstra 
1219c6047c2eSJoel Fernandes (Google) bool cfs_prio_less(struct task_struct *a, struct task_struct *b, bool fi);
1220c6047c2eSJoel Fernandes (Google) 
122197886d9dSAubrey Li /*
122297886d9dSAubrey Li  * Helpers to check if the CPU's core cookie matches with the task's cookie
122397886d9dSAubrey Li  * when core scheduling is enabled.
122497886d9dSAubrey Li  * A special case is that the task's cookie always matches with CPU's core
122597886d9dSAubrey Li  * cookie if the CPU is in an idle core.
122697886d9dSAubrey Li  */
122797886d9dSAubrey Li static inline bool sched_cpu_cookie_match(struct rq *rq, struct task_struct *p)
122897886d9dSAubrey Li {
122997886d9dSAubrey Li 	/* Ignore cookie match if core scheduler is not enabled on the CPU. */
123097886d9dSAubrey Li 	if (!sched_core_enabled(rq))
123197886d9dSAubrey Li 		return true;
123297886d9dSAubrey Li 
123397886d9dSAubrey Li 	return rq->core->core_cookie == p->core_cookie;
123497886d9dSAubrey Li }
123597886d9dSAubrey Li 
123697886d9dSAubrey Li static inline bool sched_core_cookie_match(struct rq *rq, struct task_struct *p)
123797886d9dSAubrey Li {
123897886d9dSAubrey Li 	bool idle_core = true;
123997886d9dSAubrey Li 	int cpu;
124097886d9dSAubrey Li 
124197886d9dSAubrey Li 	/* Ignore cookie match if core scheduler is not enabled on the CPU. */
124297886d9dSAubrey Li 	if (!sched_core_enabled(rq))
124397886d9dSAubrey Li 		return true;
124497886d9dSAubrey Li 
124597886d9dSAubrey Li 	for_each_cpu(cpu, cpu_smt_mask(cpu_of(rq))) {
124697886d9dSAubrey Li 		if (!available_idle_cpu(cpu)) {
124797886d9dSAubrey Li 			idle_core = false;
124897886d9dSAubrey Li 			break;
124997886d9dSAubrey Li 		}
125097886d9dSAubrey Li 	}
125197886d9dSAubrey Li 
125297886d9dSAubrey Li 	/*
125397886d9dSAubrey Li 	 * A CPU in an idle core is always the best choice for tasks with
125497886d9dSAubrey Li 	 * cookies.
125597886d9dSAubrey Li 	 */
125697886d9dSAubrey Li 	return idle_core || rq->core->core_cookie == p->core_cookie;
125797886d9dSAubrey Li }
125897886d9dSAubrey Li 
125997886d9dSAubrey Li static inline bool sched_group_cookie_match(struct rq *rq,
126097886d9dSAubrey Li 					    struct task_struct *p,
126197886d9dSAubrey Li 					    struct sched_group *group)
126297886d9dSAubrey Li {
126397886d9dSAubrey Li 	int cpu;
126497886d9dSAubrey Li 
126597886d9dSAubrey Li 	/* Ignore cookie match if core scheduler is not enabled on the CPU. */
126697886d9dSAubrey Li 	if (!sched_core_enabled(rq))
126797886d9dSAubrey Li 		return true;
126897886d9dSAubrey Li 
126997886d9dSAubrey Li 	for_each_cpu_and(cpu, sched_group_span(group), p->cpus_ptr) {
127097886d9dSAubrey Li 		if (sched_core_cookie_match(rq, p))
127197886d9dSAubrey Li 			return true;
127297886d9dSAubrey Li 	}
127397886d9dSAubrey Li 	return false;
127497886d9dSAubrey Li }
127597886d9dSAubrey Li 
12766e33cad0SPeter Zijlstra static inline bool sched_core_enqueued(struct task_struct *p)
12776e33cad0SPeter Zijlstra {
12786e33cad0SPeter Zijlstra 	return !RB_EMPTY_NODE(&p->core_node);
12796e33cad0SPeter Zijlstra }
12806e33cad0SPeter Zijlstra 
12816e33cad0SPeter Zijlstra extern void sched_core_enqueue(struct rq *rq, struct task_struct *p);
12824feee7d1SJosh Don extern void sched_core_dequeue(struct rq *rq, struct task_struct *p, int flags);
12836e33cad0SPeter Zijlstra 
12846e33cad0SPeter Zijlstra extern void sched_core_get(void);
12856e33cad0SPeter Zijlstra extern void sched_core_put(void);
12866e33cad0SPeter Zijlstra 
12879edeaea1SPeter Zijlstra #else /* !CONFIG_SCHED_CORE */
12889edeaea1SPeter Zijlstra 
12899edeaea1SPeter Zijlstra static inline bool sched_core_enabled(struct rq *rq)
12909edeaea1SPeter Zijlstra {
12919edeaea1SPeter Zijlstra 	return false;
12929edeaea1SPeter Zijlstra }
12939edeaea1SPeter Zijlstra 
1294d66f1b06SPeter Zijlstra static inline bool sched_core_disabled(void)
1295d66f1b06SPeter Zijlstra {
1296d66f1b06SPeter Zijlstra 	return true;
1297d66f1b06SPeter Zijlstra }
1298d66f1b06SPeter Zijlstra 
129939d371b7SPeter Zijlstra static inline raw_spinlock_t *rq_lockp(struct rq *rq)
130039d371b7SPeter Zijlstra {
13015cb9eaa3SPeter Zijlstra 	return &rq->__lock;
130239d371b7SPeter Zijlstra }
130339d371b7SPeter Zijlstra 
13049ef7e7e3SPeter Zijlstra static inline raw_spinlock_t *__rq_lockp(struct rq *rq)
13059ef7e7e3SPeter Zijlstra {
13069ef7e7e3SPeter Zijlstra 	return &rq->__lock;
13079ef7e7e3SPeter Zijlstra }
13089ef7e7e3SPeter Zijlstra 
130997886d9dSAubrey Li static inline bool sched_cpu_cookie_match(struct rq *rq, struct task_struct *p)
131097886d9dSAubrey Li {
131197886d9dSAubrey Li 	return true;
131297886d9dSAubrey Li }
131397886d9dSAubrey Li 
131497886d9dSAubrey Li static inline bool sched_core_cookie_match(struct rq *rq, struct task_struct *p)
131597886d9dSAubrey Li {
131697886d9dSAubrey Li 	return true;
131797886d9dSAubrey Li }
131897886d9dSAubrey Li 
131997886d9dSAubrey Li static inline bool sched_group_cookie_match(struct rq *rq,
132097886d9dSAubrey Li 					    struct task_struct *p,
132197886d9dSAubrey Li 					    struct sched_group *group)
132297886d9dSAubrey Li {
132397886d9dSAubrey Li 	return true;
132497886d9dSAubrey Li }
13259edeaea1SPeter Zijlstra #endif /* CONFIG_SCHED_CORE */
13269edeaea1SPeter Zijlstra 
132739d371b7SPeter Zijlstra static inline void lockdep_assert_rq_held(struct rq *rq)
132839d371b7SPeter Zijlstra {
13299ef7e7e3SPeter Zijlstra 	lockdep_assert_held(__rq_lockp(rq));
133039d371b7SPeter Zijlstra }
133139d371b7SPeter Zijlstra 
133239d371b7SPeter Zijlstra extern void raw_spin_rq_lock_nested(struct rq *rq, int subclass);
133339d371b7SPeter Zijlstra extern bool raw_spin_rq_trylock(struct rq *rq);
133439d371b7SPeter Zijlstra extern void raw_spin_rq_unlock(struct rq *rq);
133539d371b7SPeter Zijlstra 
133639d371b7SPeter Zijlstra static inline void raw_spin_rq_lock(struct rq *rq)
133739d371b7SPeter Zijlstra {
133839d371b7SPeter Zijlstra 	raw_spin_rq_lock_nested(rq, 0);
133939d371b7SPeter Zijlstra }
134039d371b7SPeter Zijlstra 
134139d371b7SPeter Zijlstra static inline void raw_spin_rq_lock_irq(struct rq *rq)
134239d371b7SPeter Zijlstra {
134339d371b7SPeter Zijlstra 	local_irq_disable();
134439d371b7SPeter Zijlstra 	raw_spin_rq_lock(rq);
134539d371b7SPeter Zijlstra }
134639d371b7SPeter Zijlstra 
134739d371b7SPeter Zijlstra static inline void raw_spin_rq_unlock_irq(struct rq *rq)
134839d371b7SPeter Zijlstra {
134939d371b7SPeter Zijlstra 	raw_spin_rq_unlock(rq);
135039d371b7SPeter Zijlstra 	local_irq_enable();
135139d371b7SPeter Zijlstra }
135239d371b7SPeter Zijlstra 
135339d371b7SPeter Zijlstra static inline unsigned long _raw_spin_rq_lock_irqsave(struct rq *rq)
135439d371b7SPeter Zijlstra {
135539d371b7SPeter Zijlstra 	unsigned long flags;
135639d371b7SPeter Zijlstra 	local_irq_save(flags);
135739d371b7SPeter Zijlstra 	raw_spin_rq_lock(rq);
135839d371b7SPeter Zijlstra 	return flags;
135939d371b7SPeter Zijlstra }
136039d371b7SPeter Zijlstra 
136139d371b7SPeter Zijlstra static inline void raw_spin_rq_unlock_irqrestore(struct rq *rq, unsigned long flags)
136239d371b7SPeter Zijlstra {
136339d371b7SPeter Zijlstra 	raw_spin_rq_unlock(rq);
136439d371b7SPeter Zijlstra 	local_irq_restore(flags);
136539d371b7SPeter Zijlstra }
136639d371b7SPeter Zijlstra 
136739d371b7SPeter Zijlstra #define raw_spin_rq_lock_irqsave(rq, flags)	\
136839d371b7SPeter Zijlstra do {						\
136939d371b7SPeter Zijlstra 	flags = _raw_spin_rq_lock_irqsave(rq);	\
137039d371b7SPeter Zijlstra } while (0)
137139d371b7SPeter Zijlstra 
13721b568f0aSPeter Zijlstra #ifdef CONFIG_SCHED_SMT
13731b568f0aSPeter Zijlstra extern void __update_idle_core(struct rq *rq);
13741b568f0aSPeter Zijlstra 
13751b568f0aSPeter Zijlstra static inline void update_idle_core(struct rq *rq)
13761b568f0aSPeter Zijlstra {
13771b568f0aSPeter Zijlstra 	if (static_branch_unlikely(&sched_smt_present))
13781b568f0aSPeter Zijlstra 		__update_idle_core(rq);
13791b568f0aSPeter Zijlstra }
13801b568f0aSPeter Zijlstra 
13811b568f0aSPeter Zijlstra #else
13821b568f0aSPeter Zijlstra static inline void update_idle_core(struct rq *rq) { }
13831b568f0aSPeter Zijlstra #endif
13841b568f0aSPeter Zijlstra 
13858b06c55bSPranith Kumar DECLARE_PER_CPU_SHARED_ALIGNED(struct rq, runqueues);
1386391e43daSPeter Zijlstra 
1387518cd623SPeter Zijlstra #define cpu_rq(cpu)		(&per_cpu(runqueues, (cpu)))
13884a32fea9SChristoph Lameter #define this_rq()		this_cpu_ptr(&runqueues)
1389518cd623SPeter Zijlstra #define task_rq(p)		cpu_rq(task_cpu(p))
1390518cd623SPeter Zijlstra #define cpu_curr(cpu)		(cpu_rq(cpu)->curr)
13914a32fea9SChristoph Lameter #define raw_rq()		raw_cpu_ptr(&runqueues)
1392518cd623SPeter Zijlstra 
13938a311c74SPeter Zijlstra #ifdef CONFIG_FAIR_GROUP_SCHED
13948a311c74SPeter Zijlstra static inline struct task_struct *task_of(struct sched_entity *se)
13958a311c74SPeter Zijlstra {
13968a311c74SPeter Zijlstra 	SCHED_WARN_ON(!entity_is_task(se));
13978a311c74SPeter Zijlstra 	return container_of(se, struct task_struct, se);
13988a311c74SPeter Zijlstra }
13998a311c74SPeter Zijlstra 
14008a311c74SPeter Zijlstra static inline struct cfs_rq *task_cfs_rq(struct task_struct *p)
14018a311c74SPeter Zijlstra {
14028a311c74SPeter Zijlstra 	return p->se.cfs_rq;
14038a311c74SPeter Zijlstra }
14048a311c74SPeter Zijlstra 
14058a311c74SPeter Zijlstra /* runqueue on which this entity is (to be) queued */
14068a311c74SPeter Zijlstra static inline struct cfs_rq *cfs_rq_of(struct sched_entity *se)
14078a311c74SPeter Zijlstra {
14088a311c74SPeter Zijlstra 	return se->cfs_rq;
14098a311c74SPeter Zijlstra }
14108a311c74SPeter Zijlstra 
14118a311c74SPeter Zijlstra /* runqueue "owned" by this group */
14128a311c74SPeter Zijlstra static inline struct cfs_rq *group_cfs_rq(struct sched_entity *grp)
14138a311c74SPeter Zijlstra {
14148a311c74SPeter Zijlstra 	return grp->my_q;
14158a311c74SPeter Zijlstra }
14168a311c74SPeter Zijlstra 
14178a311c74SPeter Zijlstra #else
14188a311c74SPeter Zijlstra 
14198a311c74SPeter Zijlstra static inline struct task_struct *task_of(struct sched_entity *se)
14208a311c74SPeter Zijlstra {
14218a311c74SPeter Zijlstra 	return container_of(se, struct task_struct, se);
14228a311c74SPeter Zijlstra }
14238a311c74SPeter Zijlstra 
14248a311c74SPeter Zijlstra static inline struct cfs_rq *task_cfs_rq(struct task_struct *p)
14258a311c74SPeter Zijlstra {
14268a311c74SPeter Zijlstra 	return &task_rq(p)->cfs;
14278a311c74SPeter Zijlstra }
14288a311c74SPeter Zijlstra 
14298a311c74SPeter Zijlstra static inline struct cfs_rq *cfs_rq_of(struct sched_entity *se)
14308a311c74SPeter Zijlstra {
14318a311c74SPeter Zijlstra 	struct task_struct *p = task_of(se);
14328a311c74SPeter Zijlstra 	struct rq *rq = task_rq(p);
14338a311c74SPeter Zijlstra 
14348a311c74SPeter Zijlstra 	return &rq->cfs;
14358a311c74SPeter Zijlstra }
14368a311c74SPeter Zijlstra 
14378a311c74SPeter Zijlstra /* runqueue "owned" by this group */
14388a311c74SPeter Zijlstra static inline struct cfs_rq *group_cfs_rq(struct sched_entity *grp)
14398a311c74SPeter Zijlstra {
14408a311c74SPeter Zijlstra 	return NULL;
14418a311c74SPeter Zijlstra }
14428a311c74SPeter Zijlstra #endif
14438a311c74SPeter Zijlstra 
14441f351d7fSJohannes Weiner extern void update_rq_clock(struct rq *rq);
14451f351d7fSJohannes Weiner 
1446cb42c9a3SMatt Fleming /*
1447cb42c9a3SMatt Fleming  * rq::clock_update_flags bits
1448cb42c9a3SMatt Fleming  *
1449cb42c9a3SMatt Fleming  * %RQCF_REQ_SKIP - will request skipping of clock update on the next
1450cb42c9a3SMatt Fleming  *  call to __schedule(). This is an optimisation to avoid
1451cb42c9a3SMatt Fleming  *  neighbouring rq clock updates.
1452cb42c9a3SMatt Fleming  *
1453cb42c9a3SMatt Fleming  * %RQCF_ACT_SKIP - is set from inside of __schedule() when skipping is
1454cb42c9a3SMatt Fleming  *  in effect and calls to update_rq_clock() are being ignored.
1455cb42c9a3SMatt Fleming  *
1456cb42c9a3SMatt Fleming  * %RQCF_UPDATED - is a debug flag that indicates whether a call has been
1457cb42c9a3SMatt Fleming  *  made to update_rq_clock() since the last time rq::lock was pinned.
1458cb42c9a3SMatt Fleming  *
1459cb42c9a3SMatt Fleming  * If inside of __schedule(), clock_update_flags will have been
1460cb42c9a3SMatt Fleming  * shifted left (a left shift is a cheap operation for the fast path
1461cb42c9a3SMatt Fleming  * to promote %RQCF_REQ_SKIP to %RQCF_ACT_SKIP), so you must use,
1462cb42c9a3SMatt Fleming  *
1463cb42c9a3SMatt Fleming  *	if (rq-clock_update_flags >= RQCF_UPDATED)
1464cb42c9a3SMatt Fleming  *
14653b03706fSIngo Molnar  * to check if %RQCF_UPDATED is set. It'll never be shifted more than
1466cb42c9a3SMatt Fleming  * one position though, because the next rq_unpin_lock() will shift it
1467cb42c9a3SMatt Fleming  * back.
1468cb42c9a3SMatt Fleming  */
1469cb42c9a3SMatt Fleming #define RQCF_REQ_SKIP		0x01
1470cb42c9a3SMatt Fleming #define RQCF_ACT_SKIP		0x02
1471cb42c9a3SMatt Fleming #define RQCF_UPDATED		0x04
1472cb42c9a3SMatt Fleming 
1473cb42c9a3SMatt Fleming static inline void assert_clock_updated(struct rq *rq)
1474cb42c9a3SMatt Fleming {
1475cb42c9a3SMatt Fleming 	/*
1476cb42c9a3SMatt Fleming 	 * The only reason for not seeing a clock update since the
1477cb42c9a3SMatt Fleming 	 * last rq_pin_lock() is if we're currently skipping updates.
1478cb42c9a3SMatt Fleming 	 */
1479cb42c9a3SMatt Fleming 	SCHED_WARN_ON(rq->clock_update_flags < RQCF_ACT_SKIP);
1480cb42c9a3SMatt Fleming }
1481cb42c9a3SMatt Fleming 
148278becc27SFrederic Weisbecker static inline u64 rq_clock(struct rq *rq)
148378becc27SFrederic Weisbecker {
14845cb9eaa3SPeter Zijlstra 	lockdep_assert_rq_held(rq);
1485cb42c9a3SMatt Fleming 	assert_clock_updated(rq);
1486cb42c9a3SMatt Fleming 
148778becc27SFrederic Weisbecker 	return rq->clock;
148878becc27SFrederic Weisbecker }
148978becc27SFrederic Weisbecker 
149078becc27SFrederic Weisbecker static inline u64 rq_clock_task(struct rq *rq)
149178becc27SFrederic Weisbecker {
14925cb9eaa3SPeter Zijlstra 	lockdep_assert_rq_held(rq);
1493cb42c9a3SMatt Fleming 	assert_clock_updated(rq);
1494cb42c9a3SMatt Fleming 
149578becc27SFrederic Weisbecker 	return rq->clock_task;
149678becc27SFrederic Weisbecker }
149778becc27SFrederic Weisbecker 
149805289b90SThara Gopinath /**
149905289b90SThara Gopinath  * By default the decay is the default pelt decay period.
150005289b90SThara Gopinath  * The decay shift can change the decay period in
150105289b90SThara Gopinath  * multiples of 32.
150205289b90SThara Gopinath  *  Decay shift		Decay period(ms)
150305289b90SThara Gopinath  *	0			32
150405289b90SThara Gopinath  *	1			64
150505289b90SThara Gopinath  *	2			128
150605289b90SThara Gopinath  *	3			256
150705289b90SThara Gopinath  *	4			512
150805289b90SThara Gopinath  */
150905289b90SThara Gopinath extern int sched_thermal_decay_shift;
151005289b90SThara Gopinath 
151105289b90SThara Gopinath static inline u64 rq_clock_thermal(struct rq *rq)
151205289b90SThara Gopinath {
151305289b90SThara Gopinath 	return rq_clock_task(rq) >> sched_thermal_decay_shift;
151405289b90SThara Gopinath }
151505289b90SThara Gopinath 
1516adcc8da8SDavidlohr Bueso static inline void rq_clock_skip_update(struct rq *rq)
15179edfbfedSPeter Zijlstra {
15185cb9eaa3SPeter Zijlstra 	lockdep_assert_rq_held(rq);
1519cb42c9a3SMatt Fleming 	rq->clock_update_flags |= RQCF_REQ_SKIP;
1520adcc8da8SDavidlohr Bueso }
1521adcc8da8SDavidlohr Bueso 
1522adcc8da8SDavidlohr Bueso /*
1523595058b6SDavidlohr Bueso  * See rt task throttling, which is the only time a skip
15243b03706fSIngo Molnar  * request is canceled.
1525adcc8da8SDavidlohr Bueso  */
1526adcc8da8SDavidlohr Bueso static inline void rq_clock_cancel_skipupdate(struct rq *rq)
1527adcc8da8SDavidlohr Bueso {
15285cb9eaa3SPeter Zijlstra 	lockdep_assert_rq_held(rq);
1529cb42c9a3SMatt Fleming 	rq->clock_update_flags &= ~RQCF_REQ_SKIP;
15309edfbfedSPeter Zijlstra }
15319edfbfedSPeter Zijlstra 
1532d8ac8971SMatt Fleming struct rq_flags {
1533d8ac8971SMatt Fleming 	unsigned long flags;
1534d8ac8971SMatt Fleming 	struct pin_cookie cookie;
1535cb42c9a3SMatt Fleming #ifdef CONFIG_SCHED_DEBUG
1536cb42c9a3SMatt Fleming 	/*
1537cb42c9a3SMatt Fleming 	 * A copy of (rq::clock_update_flags & RQCF_UPDATED) for the
1538cb42c9a3SMatt Fleming 	 * current pin context is stashed here in case it needs to be
1539cb42c9a3SMatt Fleming 	 * restored in rq_repin_lock().
1540cb42c9a3SMatt Fleming 	 */
1541cb42c9a3SMatt Fleming 	unsigned int clock_update_flags;
1542cb42c9a3SMatt Fleming #endif
1543d8ac8971SMatt Fleming };
1544d8ac8971SMatt Fleming 
1545ae792702SPeter Zijlstra extern struct callback_head balance_push_callback;
1546ae792702SPeter Zijlstra 
154758877d34SPeter Zijlstra /*
154858877d34SPeter Zijlstra  * Lockdep annotation that avoids accidental unlocks; it's like a
154958877d34SPeter Zijlstra  * sticky/continuous lockdep_assert_held().
155058877d34SPeter Zijlstra  *
155158877d34SPeter Zijlstra  * This avoids code that has access to 'struct rq *rq' (basically everything in
155258877d34SPeter Zijlstra  * the scheduler) from accidentally unlocking the rq if they do not also have a
155358877d34SPeter Zijlstra  * copy of the (on-stack) 'struct rq_flags rf'.
155458877d34SPeter Zijlstra  *
155558877d34SPeter Zijlstra  * Also see Documentation/locking/lockdep-design.rst.
155658877d34SPeter Zijlstra  */
1557d8ac8971SMatt Fleming static inline void rq_pin_lock(struct rq *rq, struct rq_flags *rf)
1558d8ac8971SMatt Fleming {
15599ef7e7e3SPeter Zijlstra 	rf->cookie = lockdep_pin_lock(__rq_lockp(rq));
1560cb42c9a3SMatt Fleming 
1561cb42c9a3SMatt Fleming #ifdef CONFIG_SCHED_DEBUG
1562cb42c9a3SMatt Fleming 	rq->clock_update_flags &= (RQCF_REQ_SKIP|RQCF_ACT_SKIP);
1563cb42c9a3SMatt Fleming 	rf->clock_update_flags = 0;
1564565790d2SPeter Zijlstra #ifdef CONFIG_SMP
1565ae792702SPeter Zijlstra 	SCHED_WARN_ON(rq->balance_callback && rq->balance_callback != &balance_push_callback);
1566ae792702SPeter Zijlstra #endif
1567565790d2SPeter Zijlstra #endif
1568d8ac8971SMatt Fleming }
1569d8ac8971SMatt Fleming 
1570d8ac8971SMatt Fleming static inline void rq_unpin_lock(struct rq *rq, struct rq_flags *rf)
1571d8ac8971SMatt Fleming {
1572cb42c9a3SMatt Fleming #ifdef CONFIG_SCHED_DEBUG
1573cb42c9a3SMatt Fleming 	if (rq->clock_update_flags > RQCF_ACT_SKIP)
1574cb42c9a3SMatt Fleming 		rf->clock_update_flags = RQCF_UPDATED;
1575cb42c9a3SMatt Fleming #endif
1576cb42c9a3SMatt Fleming 
15779ef7e7e3SPeter Zijlstra 	lockdep_unpin_lock(__rq_lockp(rq), rf->cookie);
1578d8ac8971SMatt Fleming }
1579d8ac8971SMatt Fleming 
1580d8ac8971SMatt Fleming static inline void rq_repin_lock(struct rq *rq, struct rq_flags *rf)
1581d8ac8971SMatt Fleming {
15829ef7e7e3SPeter Zijlstra 	lockdep_repin_lock(__rq_lockp(rq), rf->cookie);
1583cb42c9a3SMatt Fleming 
1584cb42c9a3SMatt Fleming #ifdef CONFIG_SCHED_DEBUG
1585cb42c9a3SMatt Fleming 	/*
1586cb42c9a3SMatt Fleming 	 * Restore the value we stashed in @rf for this pin context.
1587cb42c9a3SMatt Fleming 	 */
1588cb42c9a3SMatt Fleming 	rq->clock_update_flags |= rf->clock_update_flags;
1589cb42c9a3SMatt Fleming #endif
1590d8ac8971SMatt Fleming }
1591d8ac8971SMatt Fleming 
15921f351d7fSJohannes Weiner struct rq *__task_rq_lock(struct task_struct *p, struct rq_flags *rf)
15931f351d7fSJohannes Weiner 	__acquires(rq->lock);
15941f351d7fSJohannes Weiner 
15951f351d7fSJohannes Weiner struct rq *task_rq_lock(struct task_struct *p, struct rq_flags *rf)
15961f351d7fSJohannes Weiner 	__acquires(p->pi_lock)
15971f351d7fSJohannes Weiner 	__acquires(rq->lock);
15981f351d7fSJohannes Weiner 
15991f351d7fSJohannes Weiner static inline void __task_rq_unlock(struct rq *rq, struct rq_flags *rf)
16001f351d7fSJohannes Weiner 	__releases(rq->lock)
16011f351d7fSJohannes Weiner {
16021f351d7fSJohannes Weiner 	rq_unpin_lock(rq, rf);
16035cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock(rq);
16041f351d7fSJohannes Weiner }
16051f351d7fSJohannes Weiner 
16061f351d7fSJohannes Weiner static inline void
16071f351d7fSJohannes Weiner task_rq_unlock(struct rq *rq, struct task_struct *p, struct rq_flags *rf)
16081f351d7fSJohannes Weiner 	__releases(rq->lock)
16091f351d7fSJohannes Weiner 	__releases(p->pi_lock)
16101f351d7fSJohannes Weiner {
16111f351d7fSJohannes Weiner 	rq_unpin_lock(rq, rf);
16125cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock(rq);
16131f351d7fSJohannes Weiner 	raw_spin_unlock_irqrestore(&p->pi_lock, rf->flags);
16141f351d7fSJohannes Weiner }
16151f351d7fSJohannes Weiner 
16161f351d7fSJohannes Weiner static inline void
16171f351d7fSJohannes Weiner rq_lock_irqsave(struct rq *rq, struct rq_flags *rf)
16181f351d7fSJohannes Weiner 	__acquires(rq->lock)
16191f351d7fSJohannes Weiner {
16205cb9eaa3SPeter Zijlstra 	raw_spin_rq_lock_irqsave(rq, rf->flags);
16211f351d7fSJohannes Weiner 	rq_pin_lock(rq, rf);
16221f351d7fSJohannes Weiner }
16231f351d7fSJohannes Weiner 
16241f351d7fSJohannes Weiner static inline void
16251f351d7fSJohannes Weiner rq_lock_irq(struct rq *rq, struct rq_flags *rf)
16261f351d7fSJohannes Weiner 	__acquires(rq->lock)
16271f351d7fSJohannes Weiner {
16285cb9eaa3SPeter Zijlstra 	raw_spin_rq_lock_irq(rq);
16291f351d7fSJohannes Weiner 	rq_pin_lock(rq, rf);
16301f351d7fSJohannes Weiner }
16311f351d7fSJohannes Weiner 
16321f351d7fSJohannes Weiner static inline void
16331f351d7fSJohannes Weiner rq_lock(struct rq *rq, struct rq_flags *rf)
16341f351d7fSJohannes Weiner 	__acquires(rq->lock)
16351f351d7fSJohannes Weiner {
16365cb9eaa3SPeter Zijlstra 	raw_spin_rq_lock(rq);
16371f351d7fSJohannes Weiner 	rq_pin_lock(rq, rf);
16381f351d7fSJohannes Weiner }
16391f351d7fSJohannes Weiner 
16401f351d7fSJohannes Weiner static inline void
16411f351d7fSJohannes Weiner rq_unlock_irqrestore(struct rq *rq, struct rq_flags *rf)
16421f351d7fSJohannes Weiner 	__releases(rq->lock)
16431f351d7fSJohannes Weiner {
16441f351d7fSJohannes Weiner 	rq_unpin_lock(rq, rf);
16455cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock_irqrestore(rq, rf->flags);
16461f351d7fSJohannes Weiner }
16471f351d7fSJohannes Weiner 
16481f351d7fSJohannes Weiner static inline void
16491f351d7fSJohannes Weiner rq_unlock_irq(struct rq *rq, struct rq_flags *rf)
16501f351d7fSJohannes Weiner 	__releases(rq->lock)
16511f351d7fSJohannes Weiner {
16521f351d7fSJohannes Weiner 	rq_unpin_lock(rq, rf);
16535cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock_irq(rq);
16541f351d7fSJohannes Weiner }
16551f351d7fSJohannes Weiner 
16561f351d7fSJohannes Weiner static inline void
16571f351d7fSJohannes Weiner rq_unlock(struct rq *rq, struct rq_flags *rf)
16581f351d7fSJohannes Weiner 	__releases(rq->lock)
16591f351d7fSJohannes Weiner {
16601f351d7fSJohannes Weiner 	rq_unpin_lock(rq, rf);
16615cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock(rq);
16621f351d7fSJohannes Weiner }
16631f351d7fSJohannes Weiner 
1664246b3b33SJohannes Weiner static inline struct rq *
1665246b3b33SJohannes Weiner this_rq_lock_irq(struct rq_flags *rf)
1666246b3b33SJohannes Weiner 	__acquires(rq->lock)
1667246b3b33SJohannes Weiner {
1668246b3b33SJohannes Weiner 	struct rq *rq;
1669246b3b33SJohannes Weiner 
1670246b3b33SJohannes Weiner 	local_irq_disable();
1671246b3b33SJohannes Weiner 	rq = this_rq();
1672246b3b33SJohannes Weiner 	rq_lock(rq, rf);
1673246b3b33SJohannes Weiner 	return rq;
1674246b3b33SJohannes Weiner }
1675246b3b33SJohannes Weiner 
16769942f79bSRik van Riel #ifdef CONFIG_NUMA
1677e3fe70b1SRik van Riel enum numa_topology_type {
1678e3fe70b1SRik van Riel 	NUMA_DIRECT,
1679e3fe70b1SRik van Riel 	NUMA_GLUELESS_MESH,
1680e3fe70b1SRik van Riel 	NUMA_BACKPLANE,
1681e3fe70b1SRik van Riel };
1682e3fe70b1SRik van Riel extern enum numa_topology_type sched_numa_topology_type;
16839942f79bSRik van Riel extern int sched_max_numa_distance;
16849942f79bSRik van Riel extern bool find_numa_distance(int distance);
16850fb3978bSHuang Ying extern void sched_init_numa(int offline_node);
16860fb3978bSHuang Ying extern void sched_update_numa(int cpu, bool online);
1687f2cb1360SIngo Molnar extern void sched_domains_numa_masks_set(unsigned int cpu);
1688f2cb1360SIngo Molnar extern void sched_domains_numa_masks_clear(unsigned int cpu);
1689e0e8d491SWanpeng Li extern int sched_numa_find_closest(const struct cpumask *cpus, int cpu);
1690f2cb1360SIngo Molnar #else
16910fb3978bSHuang Ying static inline void sched_init_numa(int offline_node) { }
16920fb3978bSHuang Ying static inline void sched_update_numa(int cpu, bool online) { }
1693f2cb1360SIngo Molnar static inline void sched_domains_numa_masks_set(unsigned int cpu) { }
1694f2cb1360SIngo Molnar static inline void sched_domains_numa_masks_clear(unsigned int cpu) { }
1695e0e8d491SWanpeng Li static inline int sched_numa_find_closest(const struct cpumask *cpus, int cpu)
1696e0e8d491SWanpeng Li {
1697e0e8d491SWanpeng Li 	return nr_cpu_ids;
1698e0e8d491SWanpeng Li }
1699f2cb1360SIngo Molnar #endif
1700f2cb1360SIngo Molnar 
1701f809ca9aSMel Gorman #ifdef CONFIG_NUMA_BALANCING
170244dba3d5SIulia Manda /* The regions in numa_faults array from task_struct */
170344dba3d5SIulia Manda enum numa_faults_stats {
170444dba3d5SIulia Manda 	NUMA_MEM = 0,
170544dba3d5SIulia Manda 	NUMA_CPU,
170644dba3d5SIulia Manda 	NUMA_MEMBUF,
170744dba3d5SIulia Manda 	NUMA_CPUBUF
170844dba3d5SIulia Manda };
17090ec8aa00SPeter Zijlstra extern void sched_setnuma(struct task_struct *p, int node);
1710e6628d5bSMel Gorman extern int migrate_task_to(struct task_struct *p, int cpu);
17110ad4e3dfSSrikar Dronamraju extern int migrate_swap(struct task_struct *p, struct task_struct *t,
17120ad4e3dfSSrikar Dronamraju 			int cpu, int scpu);
171313784475SMel Gorman extern void init_numa_balancing(unsigned long clone_flags, struct task_struct *p);
171413784475SMel Gorman #else
171513784475SMel Gorman static inline void
171613784475SMel Gorman init_numa_balancing(unsigned long clone_flags, struct task_struct *p)
171713784475SMel Gorman {
171813784475SMel Gorman }
1719f809ca9aSMel Gorman #endif /* CONFIG_NUMA_BALANCING */
1720f809ca9aSMel Gorman 
1721518cd623SPeter Zijlstra #ifdef CONFIG_SMP
1722518cd623SPeter Zijlstra 
1723e3fca9e7SPeter Zijlstra static inline void
1724e3fca9e7SPeter Zijlstra queue_balance_callback(struct rq *rq,
1725e3fca9e7SPeter Zijlstra 		       struct callback_head *head,
1726e3fca9e7SPeter Zijlstra 		       void (*func)(struct rq *rq))
1727e3fca9e7SPeter Zijlstra {
17285cb9eaa3SPeter Zijlstra 	lockdep_assert_rq_held(rq);
1729e3fca9e7SPeter Zijlstra 
173004193d59SPeter Zijlstra 	/*
173104193d59SPeter Zijlstra 	 * Don't (re)queue an already queued item; nor queue anything when
173204193d59SPeter Zijlstra 	 * balance_push() is active, see the comment with
173304193d59SPeter Zijlstra 	 * balance_push_callback.
173404193d59SPeter Zijlstra 	 */
1735ae792702SPeter Zijlstra 	if (unlikely(head->next || rq->balance_callback == &balance_push_callback))
1736e3fca9e7SPeter Zijlstra 		return;
1737e3fca9e7SPeter Zijlstra 
1738e3fca9e7SPeter Zijlstra 	head->func = (void (*)(struct callback_head *))func;
1739e3fca9e7SPeter Zijlstra 	head->next = rq->balance_callback;
1740e3fca9e7SPeter Zijlstra 	rq->balance_callback = head;
1741e3fca9e7SPeter Zijlstra }
1742e3fca9e7SPeter Zijlstra 
1743391e43daSPeter Zijlstra #define rcu_dereference_check_sched_domain(p) \
1744391e43daSPeter Zijlstra 	rcu_dereference_check((p), \
1745391e43daSPeter Zijlstra 			      lockdep_is_held(&sched_domains_mutex))
1746391e43daSPeter Zijlstra 
1747391e43daSPeter Zijlstra /*
1748391e43daSPeter Zijlstra  * The domain tree (rq->sd) is protected by RCU's quiescent state transition.
1749337e9b07SPaul E. McKenney  * See destroy_sched_domains: call_rcu for details.
1750391e43daSPeter Zijlstra  *
1751391e43daSPeter Zijlstra  * The domain tree of any CPU may only be accessed from within
1752391e43daSPeter Zijlstra  * preempt-disabled sections.
1753391e43daSPeter Zijlstra  */
1754391e43daSPeter Zijlstra #define for_each_domain(cpu, __sd) \
1755518cd623SPeter Zijlstra 	for (__sd = rcu_dereference_check_sched_domain(cpu_rq(cpu)->sd); \
1756518cd623SPeter Zijlstra 			__sd; __sd = __sd->parent)
1757391e43daSPeter Zijlstra 
1758518cd623SPeter Zijlstra /**
1759518cd623SPeter Zijlstra  * highest_flag_domain - Return highest sched_domain containing flag.
176097fb7a0aSIngo Molnar  * @cpu:	The CPU whose highest level of sched domain is to
1761518cd623SPeter Zijlstra  *		be returned.
1762518cd623SPeter Zijlstra  * @flag:	The flag to check for the highest sched_domain
176397fb7a0aSIngo Molnar  *		for the given CPU.
1764518cd623SPeter Zijlstra  *
176597fb7a0aSIngo Molnar  * Returns the highest sched_domain of a CPU which contains the given flag.
1766518cd623SPeter Zijlstra  */
1767518cd623SPeter Zijlstra static inline struct sched_domain *highest_flag_domain(int cpu, int flag)
1768518cd623SPeter Zijlstra {
1769518cd623SPeter Zijlstra 	struct sched_domain *sd, *hsd = NULL;
1770518cd623SPeter Zijlstra 
1771518cd623SPeter Zijlstra 	for_each_domain(cpu, sd) {
1772518cd623SPeter Zijlstra 		if (!(sd->flags & flag))
1773518cd623SPeter Zijlstra 			break;
1774518cd623SPeter Zijlstra 		hsd = sd;
1775518cd623SPeter Zijlstra 	}
1776518cd623SPeter Zijlstra 
1777518cd623SPeter Zijlstra 	return hsd;
1778518cd623SPeter Zijlstra }
1779518cd623SPeter Zijlstra 
1780fb13c7eeSMel Gorman static inline struct sched_domain *lowest_flag_domain(int cpu, int flag)
1781fb13c7eeSMel Gorman {
1782fb13c7eeSMel Gorman 	struct sched_domain *sd;
1783fb13c7eeSMel Gorman 
1784fb13c7eeSMel Gorman 	for_each_domain(cpu, sd) {
1785fb13c7eeSMel Gorman 		if (sd->flags & flag)
1786fb13c7eeSMel Gorman 			break;
1787fb13c7eeSMel Gorman 	}
1788fb13c7eeSMel Gorman 
1789fb13c7eeSMel Gorman 	return sd;
1790fb13c7eeSMel Gorman }
1791fb13c7eeSMel Gorman 
1792994aeb7aSJoel Fernandes (Google) DECLARE_PER_CPU(struct sched_domain __rcu *, sd_llc);
17937d9ffa89SPeter Zijlstra DECLARE_PER_CPU(int, sd_llc_size);
1794518cd623SPeter Zijlstra DECLARE_PER_CPU(int, sd_llc_id);
1795994aeb7aSJoel Fernandes (Google) DECLARE_PER_CPU(struct sched_domain_shared __rcu *, sd_llc_shared);
1796994aeb7aSJoel Fernandes (Google) DECLARE_PER_CPU(struct sched_domain __rcu *, sd_numa);
1797994aeb7aSJoel Fernandes (Google) DECLARE_PER_CPU(struct sched_domain __rcu *, sd_asym_packing);
1798994aeb7aSJoel Fernandes (Google) DECLARE_PER_CPU(struct sched_domain __rcu *, sd_asym_cpucapacity);
1799df054e84SMorten Rasmussen extern struct static_key_false sched_asym_cpucapacity;
1800518cd623SPeter Zijlstra 
1801740cf8a7SDietmar Eggemann static __always_inline bool sched_asym_cpucap_active(void)
1802740cf8a7SDietmar Eggemann {
1803740cf8a7SDietmar Eggemann 	return static_branch_unlikely(&sched_asym_cpucapacity);
1804740cf8a7SDietmar Eggemann }
1805740cf8a7SDietmar Eggemann 
180663b2ca30SNicolas Pitre struct sched_group_capacity {
18075e6521eaSLi Zefan 	atomic_t		ref;
18085e6521eaSLi Zefan 	/*
1809172895e6SYuyang Du 	 * CPU capacity of this group, SCHED_CAPACITY_SCALE being max capacity
181063b2ca30SNicolas Pitre 	 * for a single CPU.
18115e6521eaSLi Zefan 	 */
1812bf475ce0SMorten Rasmussen 	unsigned long		capacity;
1813bf475ce0SMorten Rasmussen 	unsigned long		min_capacity;		/* Min per-CPU capacity in group */
1814e3d6d0cbSMorten Rasmussen 	unsigned long		max_capacity;		/* Max per-CPU capacity in group */
18155e6521eaSLi Zefan 	unsigned long		next_update;
181663b2ca30SNicolas Pitre 	int			imbalance;		/* XXX unrelated to capacity but shared group state */
18175e6521eaSLi Zefan 
1818005f874dSPeter Zijlstra #ifdef CONFIG_SCHED_DEBUG
1819005f874dSPeter Zijlstra 	int			id;
1820005f874dSPeter Zijlstra #endif
1821005f874dSPeter Zijlstra 
1822eba9f082Szhuguangqing 	unsigned long		cpumask[];		/* Balance mask */
18235e6521eaSLi Zefan };
18245e6521eaSLi Zefan 
18255e6521eaSLi Zefan struct sched_group {
18265e6521eaSLi Zefan 	struct sched_group	*next;			/* Must be a circular list */
18275e6521eaSLi Zefan 	atomic_t		ref;
18285e6521eaSLi Zefan 
18295e6521eaSLi Zefan 	unsigned int		group_weight;
183063b2ca30SNicolas Pitre 	struct sched_group_capacity *sgc;
183197fb7a0aSIngo Molnar 	int			asym_prefer_cpu;	/* CPU of highest priority in group */
183216d364baSRicardo Neri 	int			flags;
18335e6521eaSLi Zefan 
18345e6521eaSLi Zefan 	/*
18355e6521eaSLi Zefan 	 * The CPUs this group covers.
18365e6521eaSLi Zefan 	 *
18375e6521eaSLi Zefan 	 * NOTE: this field is variable length. (Allocated dynamically
18385e6521eaSLi Zefan 	 * by attaching extra space to the end of the structure,
18395e6521eaSLi Zefan 	 * depending on how many CPUs the kernel has booted up with)
18405e6521eaSLi Zefan 	 */
184104f5c362SGustavo A. R. Silva 	unsigned long		cpumask[];
18425e6521eaSLi Zefan };
18435e6521eaSLi Zefan 
1844ae4df9d6SPeter Zijlstra static inline struct cpumask *sched_group_span(struct sched_group *sg)
18455e6521eaSLi Zefan {
18465e6521eaSLi Zefan 	return to_cpumask(sg->cpumask);
18475e6521eaSLi Zefan }
18485e6521eaSLi Zefan 
18495e6521eaSLi Zefan /*
1850e5c14b1fSPeter Zijlstra  * See build_balance_mask().
18515e6521eaSLi Zefan  */
1852e5c14b1fSPeter Zijlstra static inline struct cpumask *group_balance_mask(struct sched_group *sg)
18535e6521eaSLi Zefan {
185463b2ca30SNicolas Pitre 	return to_cpumask(sg->sgc->cpumask);
18555e6521eaSLi Zefan }
18565e6521eaSLi Zefan 
1857c1174876SPeter Zijlstra extern int group_balance_cpu(struct sched_group *sg);
1858c1174876SPeter Zijlstra 
18593b87f136SPeter Zijlstra #ifdef CONFIG_SCHED_DEBUG
18603b87f136SPeter Zijlstra void update_sched_domain_debugfs(void);
1861bbdacdfeSPeter Zijlstra void dirty_sched_domain_sysctl(int cpu);
18623866e845SSteven Rostedt (Red Hat) #else
18633b87f136SPeter Zijlstra static inline void update_sched_domain_debugfs(void)
18643866e845SSteven Rostedt (Red Hat) {
18653866e845SSteven Rostedt (Red Hat) }
1866bbdacdfeSPeter Zijlstra static inline void dirty_sched_domain_sysctl(int cpu)
1867bbdacdfeSPeter Zijlstra {
1868bbdacdfeSPeter Zijlstra }
18693866e845SSteven Rostedt (Red Hat) #endif
18703866e845SSteven Rostedt (Red Hat) 
18718a99b683SPeter Zijlstra extern int sched_update_scaling(void);
1872d664e399SThomas Gleixner #endif /* CONFIG_SMP */
1873391e43daSPeter Zijlstra 
1874391e43daSPeter Zijlstra #include "stats.h"
1875391e43daSPeter Zijlstra 
18764feee7d1SJosh Don #if defined(CONFIG_SCHED_CORE) && defined(CONFIG_SCHEDSTATS)
18774feee7d1SJosh Don 
18784feee7d1SJosh Don extern void __sched_core_account_forceidle(struct rq *rq);
18794feee7d1SJosh Don 
18804feee7d1SJosh Don static inline void sched_core_account_forceidle(struct rq *rq)
18814feee7d1SJosh Don {
18824feee7d1SJosh Don 	if (schedstat_enabled())
18834feee7d1SJosh Don 		__sched_core_account_forceidle(rq);
18844feee7d1SJosh Don }
18854feee7d1SJosh Don 
18864feee7d1SJosh Don extern void __sched_core_tick(struct rq *rq);
18874feee7d1SJosh Don 
18884feee7d1SJosh Don static inline void sched_core_tick(struct rq *rq)
18894feee7d1SJosh Don {
18904feee7d1SJosh Don 	if (sched_core_enabled(rq) && schedstat_enabled())
18914feee7d1SJosh Don 		__sched_core_tick(rq);
18924feee7d1SJosh Don }
18934feee7d1SJosh Don 
18944feee7d1SJosh Don #else
18954feee7d1SJosh Don 
18964feee7d1SJosh Don static inline void sched_core_account_forceidle(struct rq *rq) {}
18974feee7d1SJosh Don 
18984feee7d1SJosh Don static inline void sched_core_tick(struct rq *rq) {}
18994feee7d1SJosh Don 
19004feee7d1SJosh Don #endif /* CONFIG_SCHED_CORE && CONFIG_SCHEDSTATS */
19014feee7d1SJosh Don 
1902391e43daSPeter Zijlstra #ifdef CONFIG_CGROUP_SCHED
1903391e43daSPeter Zijlstra 
1904391e43daSPeter Zijlstra /*
1905391e43daSPeter Zijlstra  * Return the group to which this tasks belongs.
1906391e43daSPeter Zijlstra  *
19078af01f56STejun Heo  * We cannot use task_css() and friends because the cgroup subsystem
19088af01f56STejun Heo  * changes that value before the cgroup_subsys::attach() method is called,
19098af01f56STejun Heo  * therefore we cannot pin it and might observe the wrong value.
19108323f26cSPeter Zijlstra  *
19118323f26cSPeter Zijlstra  * The same is true for autogroup's p->signal->autogroup->tg, the autogroup
19128323f26cSPeter Zijlstra  * core changes this before calling sched_move_task().
19138323f26cSPeter Zijlstra  *
19148323f26cSPeter Zijlstra  * Instead we use a 'copy' which is updated from sched_move_task() while
19158323f26cSPeter Zijlstra  * holding both task_struct::pi_lock and rq::lock.
1916391e43daSPeter Zijlstra  */
1917391e43daSPeter Zijlstra static inline struct task_group *task_group(struct task_struct *p)
1918391e43daSPeter Zijlstra {
19198323f26cSPeter Zijlstra 	return p->sched_task_group;
1920391e43daSPeter Zijlstra }
1921391e43daSPeter Zijlstra 
1922391e43daSPeter Zijlstra /* Change a task's cfs_rq and parent entity if it moves across CPUs/groups */
1923391e43daSPeter Zijlstra static inline void set_task_rq(struct task_struct *p, unsigned int cpu)
1924391e43daSPeter Zijlstra {
1925391e43daSPeter Zijlstra #if defined(CONFIG_FAIR_GROUP_SCHED) || defined(CONFIG_RT_GROUP_SCHED)
1926391e43daSPeter Zijlstra 	struct task_group *tg = task_group(p);
1927391e43daSPeter Zijlstra #endif
1928391e43daSPeter Zijlstra 
1929391e43daSPeter Zijlstra #ifdef CONFIG_FAIR_GROUP_SCHED
1930ad936d86SByungchul Park 	set_task_rq_fair(&p->se, p->se.cfs_rq, tg->cfs_rq[cpu]);
1931391e43daSPeter Zijlstra 	p->se.cfs_rq = tg->cfs_rq[cpu];
1932391e43daSPeter Zijlstra 	p->se.parent = tg->se[cpu];
1933*78b6b157SChengming Zhou 	p->se.depth = tg->se[cpu] ? tg->se[cpu]->depth + 1 : 0;
1934391e43daSPeter Zijlstra #endif
1935391e43daSPeter Zijlstra 
1936391e43daSPeter Zijlstra #ifdef CONFIG_RT_GROUP_SCHED
1937391e43daSPeter Zijlstra 	p->rt.rt_rq  = tg->rt_rq[cpu];
1938391e43daSPeter Zijlstra 	p->rt.parent = tg->rt_se[cpu];
1939391e43daSPeter Zijlstra #endif
1940391e43daSPeter Zijlstra }
1941391e43daSPeter Zijlstra 
1942391e43daSPeter Zijlstra #else /* CONFIG_CGROUP_SCHED */
1943391e43daSPeter Zijlstra 
1944391e43daSPeter Zijlstra static inline void set_task_rq(struct task_struct *p, unsigned int cpu) { }
1945391e43daSPeter Zijlstra static inline struct task_group *task_group(struct task_struct *p)
1946391e43daSPeter Zijlstra {
1947391e43daSPeter Zijlstra 	return NULL;
1948391e43daSPeter Zijlstra }
1949391e43daSPeter Zijlstra 
1950391e43daSPeter Zijlstra #endif /* CONFIG_CGROUP_SCHED */
1951391e43daSPeter Zijlstra 
1952391e43daSPeter Zijlstra static inline void __set_task_cpu(struct task_struct *p, unsigned int cpu)
1953391e43daSPeter Zijlstra {
1954391e43daSPeter Zijlstra 	set_task_rq(p, cpu);
1955391e43daSPeter Zijlstra #ifdef CONFIG_SMP
1956391e43daSPeter Zijlstra 	/*
1957391e43daSPeter Zijlstra 	 * After ->cpu is set up to a new value, task_rq_lock(p, ...) can be
1958dfcb245eSIngo Molnar 	 * successfully executed on another CPU. We must ensure that updates of
1959391e43daSPeter Zijlstra 	 * per-task data have been completed by this moment.
1960391e43daSPeter Zijlstra 	 */
1961391e43daSPeter Zijlstra 	smp_wmb();
1962c546951dSAndrea Parri 	WRITE_ONCE(task_thread_info(p)->cpu, cpu);
1963ac66f547SPeter Zijlstra 	p->wake_cpu = cpu;
1964391e43daSPeter Zijlstra #endif
1965391e43daSPeter Zijlstra }
1966391e43daSPeter Zijlstra 
1967391e43daSPeter Zijlstra /*
1968391e43daSPeter Zijlstra  * Tunables that become constants when CONFIG_SCHED_DEBUG is off:
1969391e43daSPeter Zijlstra  */
1970391e43daSPeter Zijlstra #ifdef CONFIG_SCHED_DEBUG
1971391e43daSPeter Zijlstra # define const_debug __read_mostly
1972391e43daSPeter Zijlstra #else
1973391e43daSPeter Zijlstra # define const_debug const
1974391e43daSPeter Zijlstra #endif
1975391e43daSPeter Zijlstra 
1976391e43daSPeter Zijlstra #define SCHED_FEAT(name, enabled)	\
1977391e43daSPeter Zijlstra 	__SCHED_FEAT_##name ,
1978391e43daSPeter Zijlstra 
1979391e43daSPeter Zijlstra enum {
1980391e43daSPeter Zijlstra #include "features.h"
1981f8b6d1ccSPeter Zijlstra 	__SCHED_FEAT_NR,
1982391e43daSPeter Zijlstra };
1983391e43daSPeter Zijlstra 
1984391e43daSPeter Zijlstra #undef SCHED_FEAT
1985391e43daSPeter Zijlstra 
1986a73f863aSJuri Lelli #ifdef CONFIG_SCHED_DEBUG
1987765cc3a4SPatrick Bellasi 
1988765cc3a4SPatrick Bellasi /*
1989765cc3a4SPatrick Bellasi  * To support run-time toggling of sched features, all the translation units
1990765cc3a4SPatrick Bellasi  * (but core.c) reference the sysctl_sched_features defined in core.c.
1991765cc3a4SPatrick Bellasi  */
1992765cc3a4SPatrick Bellasi extern const_debug unsigned int sysctl_sched_features;
1993765cc3a4SPatrick Bellasi 
1994a73f863aSJuri Lelli #ifdef CONFIG_JUMP_LABEL
1995f8b6d1ccSPeter Zijlstra #define SCHED_FEAT(name, enabled)					\
1996c5905afbSIngo Molnar static __always_inline bool static_branch_##name(struct static_key *key) \
1997f8b6d1ccSPeter Zijlstra {									\
19986e76ea8aSJason Baron 	return static_key_##enabled(key);				\
1999f8b6d1ccSPeter Zijlstra }
2000f8b6d1ccSPeter Zijlstra 
2001f8b6d1ccSPeter Zijlstra #include "features.h"
2002f8b6d1ccSPeter Zijlstra #undef SCHED_FEAT
2003f8b6d1ccSPeter Zijlstra 
2004c5905afbSIngo Molnar extern struct static_key sched_feat_keys[__SCHED_FEAT_NR];
2005f8b6d1ccSPeter Zijlstra #define sched_feat(x) (static_branch_##x(&sched_feat_keys[__SCHED_FEAT_##x]))
2006765cc3a4SPatrick Bellasi 
2007a73f863aSJuri Lelli #else /* !CONFIG_JUMP_LABEL */
2008a73f863aSJuri Lelli 
2009a73f863aSJuri Lelli #define sched_feat(x) (sysctl_sched_features & (1UL << __SCHED_FEAT_##x))
2010a73f863aSJuri Lelli 
2011a73f863aSJuri Lelli #endif /* CONFIG_JUMP_LABEL */
2012a73f863aSJuri Lelli 
2013a73f863aSJuri Lelli #else /* !SCHED_DEBUG */
2014765cc3a4SPatrick Bellasi 
2015765cc3a4SPatrick Bellasi /*
2016765cc3a4SPatrick Bellasi  * Each translation unit has its own copy of sysctl_sched_features to allow
2017765cc3a4SPatrick Bellasi  * constants propagation at compile time and compiler optimization based on
2018765cc3a4SPatrick Bellasi  * features default.
2019765cc3a4SPatrick Bellasi  */
2020765cc3a4SPatrick Bellasi #define SCHED_FEAT(name, enabled)	\
2021765cc3a4SPatrick Bellasi 	(1UL << __SCHED_FEAT_##name) * enabled |
2022765cc3a4SPatrick Bellasi static const_debug __maybe_unused unsigned int sysctl_sched_features =
2023765cc3a4SPatrick Bellasi #include "features.h"
2024765cc3a4SPatrick Bellasi 	0;
2025765cc3a4SPatrick Bellasi #undef SCHED_FEAT
2026765cc3a4SPatrick Bellasi 
20277e6f4c5dSPeter Zijlstra #define sched_feat(x) !!(sysctl_sched_features & (1UL << __SCHED_FEAT_##x))
2028765cc3a4SPatrick Bellasi 
2029a73f863aSJuri Lelli #endif /* SCHED_DEBUG */
2030391e43daSPeter Zijlstra 
20312a595721SSrikar Dronamraju extern struct static_key_false sched_numa_balancing;
2032cb251765SMel Gorman extern struct static_key_false sched_schedstats;
2033cbee9f88SPeter Zijlstra 
2034391e43daSPeter Zijlstra static inline u64 global_rt_period(void)
2035391e43daSPeter Zijlstra {
2036391e43daSPeter Zijlstra 	return (u64)sysctl_sched_rt_period * NSEC_PER_USEC;
2037391e43daSPeter Zijlstra }
2038391e43daSPeter Zijlstra 
2039391e43daSPeter Zijlstra static inline u64 global_rt_runtime(void)
2040391e43daSPeter Zijlstra {
2041391e43daSPeter Zijlstra 	if (sysctl_sched_rt_runtime < 0)
2042391e43daSPeter Zijlstra 		return RUNTIME_INF;
2043391e43daSPeter Zijlstra 
2044391e43daSPeter Zijlstra 	return (u64)sysctl_sched_rt_runtime * NSEC_PER_USEC;
2045391e43daSPeter Zijlstra }
2046391e43daSPeter Zijlstra 
2047391e43daSPeter Zijlstra static inline int task_current(struct rq *rq, struct task_struct *p)
2048391e43daSPeter Zijlstra {
2049391e43daSPeter Zijlstra 	return rq->curr == p;
2050391e43daSPeter Zijlstra }
2051391e43daSPeter Zijlstra 
2052391e43daSPeter Zijlstra static inline int task_running(struct rq *rq, struct task_struct *p)
2053391e43daSPeter Zijlstra {
2054391e43daSPeter Zijlstra #ifdef CONFIG_SMP
2055391e43daSPeter Zijlstra 	return p->on_cpu;
2056391e43daSPeter Zijlstra #else
2057391e43daSPeter Zijlstra 	return task_current(rq, p);
2058391e43daSPeter Zijlstra #endif
2059391e43daSPeter Zijlstra }
2060391e43daSPeter Zijlstra 
2061da0c1e65SKirill Tkhai static inline int task_on_rq_queued(struct task_struct *p)
2062da0c1e65SKirill Tkhai {
2063da0c1e65SKirill Tkhai 	return p->on_rq == TASK_ON_RQ_QUEUED;
2064da0c1e65SKirill Tkhai }
2065391e43daSPeter Zijlstra 
2066cca26e80SKirill Tkhai static inline int task_on_rq_migrating(struct task_struct *p)
2067cca26e80SKirill Tkhai {
2068c546951dSAndrea Parri 	return READ_ONCE(p->on_rq) == TASK_ON_RQ_MIGRATING;
2069cca26e80SKirill Tkhai }
2070cca26e80SKirill Tkhai 
207117770579SValentin Schneider /* Wake flags. The first three directly map to some SD flag value */
207217770579SValentin Schneider #define WF_EXEC     0x02 /* Wakeup after exec; maps to SD_BALANCE_EXEC */
207317770579SValentin Schneider #define WF_FORK     0x04 /* Wakeup after fork; maps to SD_BALANCE_FORK */
207417770579SValentin Schneider #define WF_TTWU     0x08 /* Wakeup;            maps to SD_BALANCE_WAKE */
207517770579SValentin Schneider 
207617770579SValentin Schneider #define WF_SYNC     0x10 /* Waker goes to sleep after wakeup */
207717770579SValentin Schneider #define WF_MIGRATED 0x20 /* Internal use, task got migrated */
207817770579SValentin Schneider 
207917770579SValentin Schneider #ifdef CONFIG_SMP
208017770579SValentin Schneider static_assert(WF_EXEC == SD_BALANCE_EXEC);
208117770579SValentin Schneider static_assert(WF_FORK == SD_BALANCE_FORK);
208217770579SValentin Schneider static_assert(WF_TTWU == SD_BALANCE_WAKE);
208317770579SValentin Schneider #endif
2084b13095f0SLi Zefan 
2085391e43daSPeter Zijlstra /*
2086391e43daSPeter Zijlstra  * To aid in avoiding the subversion of "niceness" due to uneven distribution
2087391e43daSPeter Zijlstra  * of tasks with abnormal "nice" values across CPUs the contribution that
2088391e43daSPeter Zijlstra  * each task makes to its run queue's load is weighted according to its
2089391e43daSPeter Zijlstra  * scheduling class and "nice" value. For SCHED_NORMAL tasks this is just a
2090391e43daSPeter Zijlstra  * scaled version of the new time slice allocation that they receive on time
2091391e43daSPeter Zijlstra  * slice expiry etc.
2092391e43daSPeter Zijlstra  */
2093391e43daSPeter Zijlstra 
2094391e43daSPeter Zijlstra #define WEIGHT_IDLEPRIO		3
2095391e43daSPeter Zijlstra #define WMULT_IDLEPRIO		1431655765
2096391e43daSPeter Zijlstra 
2097ed82b8a1SAndi Kleen extern const int		sched_prio_to_weight[40];
2098ed82b8a1SAndi Kleen extern const u32		sched_prio_to_wmult[40];
2099391e43daSPeter Zijlstra 
2100ff77e468SPeter Zijlstra /*
2101ff77e468SPeter Zijlstra  * {de,en}queue flags:
2102ff77e468SPeter Zijlstra  *
2103ff77e468SPeter Zijlstra  * DEQUEUE_SLEEP  - task is no longer runnable
2104ff77e468SPeter Zijlstra  * ENQUEUE_WAKEUP - task just became runnable
2105ff77e468SPeter Zijlstra  *
2106ff77e468SPeter Zijlstra  * SAVE/RESTORE - an otherwise spurious dequeue/enqueue, done to ensure tasks
2107ff77e468SPeter Zijlstra  *                are in a known state which allows modification. Such pairs
2108ff77e468SPeter Zijlstra  *                should preserve as much state as possible.
2109ff77e468SPeter Zijlstra  *
2110ff77e468SPeter Zijlstra  * MOVE - paired with SAVE/RESTORE, explicitly does not preserve the location
2111ff77e468SPeter Zijlstra  *        in the runqueue.
2112ff77e468SPeter Zijlstra  *
2113ff77e468SPeter Zijlstra  * ENQUEUE_HEAD      - place at front of runqueue (tail if not specified)
2114ff77e468SPeter Zijlstra  * ENQUEUE_REPLENISH - CBS (replenish runtime and postpone deadline)
211559efa0baSPeter Zijlstra  * ENQUEUE_MIGRATED  - the task was migrated during wakeup
2116ff77e468SPeter Zijlstra  *
2117ff77e468SPeter Zijlstra  */
2118ff77e468SPeter Zijlstra 
2119ff77e468SPeter Zijlstra #define DEQUEUE_SLEEP		0x01
212097fb7a0aSIngo Molnar #define DEQUEUE_SAVE		0x02 /* Matches ENQUEUE_RESTORE */
212197fb7a0aSIngo Molnar #define DEQUEUE_MOVE		0x04 /* Matches ENQUEUE_MOVE */
212297fb7a0aSIngo Molnar #define DEQUEUE_NOCLOCK		0x08 /* Matches ENQUEUE_NOCLOCK */
2123ff77e468SPeter Zijlstra 
21241de64443SPeter Zijlstra #define ENQUEUE_WAKEUP		0x01
2125ff77e468SPeter Zijlstra #define ENQUEUE_RESTORE		0x02
2126ff77e468SPeter Zijlstra #define ENQUEUE_MOVE		0x04
21270a67d1eeSPeter Zijlstra #define ENQUEUE_NOCLOCK		0x08
2128ff77e468SPeter Zijlstra 
21290a67d1eeSPeter Zijlstra #define ENQUEUE_HEAD		0x10
21300a67d1eeSPeter Zijlstra #define ENQUEUE_REPLENISH	0x20
2131c82ba9faSLi Zefan #ifdef CONFIG_SMP
21320a67d1eeSPeter Zijlstra #define ENQUEUE_MIGRATED	0x40
2133c82ba9faSLi Zefan #else
213459efa0baSPeter Zijlstra #define ENQUEUE_MIGRATED	0x00
2135c82ba9faSLi Zefan #endif
2136c82ba9faSLi Zefan 
213737e117c0SPeter Zijlstra #define RETRY_TASK		((void *)-1UL)
213837e117c0SPeter Zijlstra 
2139c82ba9faSLi Zefan struct sched_class {
2140c82ba9faSLi Zefan 
214169842cbaSPatrick Bellasi #ifdef CONFIG_UCLAMP_TASK
214269842cbaSPatrick Bellasi 	int uclamp_enabled;
214369842cbaSPatrick Bellasi #endif
214469842cbaSPatrick Bellasi 
2145c82ba9faSLi Zefan 	void (*enqueue_task) (struct rq *rq, struct task_struct *p, int flags);
2146c82ba9faSLi Zefan 	void (*dequeue_task) (struct rq *rq, struct task_struct *p, int flags);
2147c82ba9faSLi Zefan 	void (*yield_task)   (struct rq *rq);
21480900acf2SDietmar Eggemann 	bool (*yield_to_task)(struct rq *rq, struct task_struct *p);
2149c82ba9faSLi Zefan 
2150c82ba9faSLi Zefan 	void (*check_preempt_curr)(struct rq *rq, struct task_struct *p, int flags);
2151c82ba9faSLi Zefan 
215298c2f700SPeter Zijlstra 	struct task_struct *(*pick_next_task)(struct rq *rq);
215398c2f700SPeter Zijlstra 
21546e2df058SPeter Zijlstra 	void (*put_prev_task)(struct rq *rq, struct task_struct *p);
2155a0e813f2SPeter Zijlstra 	void (*set_next_task)(struct rq *rq, struct task_struct *p, bool first);
2156c82ba9faSLi Zefan 
2157c82ba9faSLi Zefan #ifdef CONFIG_SMP
21586e2df058SPeter Zijlstra 	int (*balance)(struct rq *rq, struct task_struct *prev, struct rq_flags *rf);
21593aef1551SValentin Schneider 	int  (*select_task_rq)(struct task_struct *p, int task_cpu, int flags);
216021f56ffeSPeter Zijlstra 
216121f56ffeSPeter Zijlstra 	struct task_struct * (*pick_task)(struct rq *rq);
216221f56ffeSPeter Zijlstra 
21631327237aSSrikar Dronamraju 	void (*migrate_task_rq)(struct task_struct *p, int new_cpu);
2164c82ba9faSLi Zefan 
2165c82ba9faSLi Zefan 	void (*task_woken)(struct rq *this_rq, struct task_struct *task);
2166c82ba9faSLi Zefan 
2167c82ba9faSLi Zefan 	void (*set_cpus_allowed)(struct task_struct *p,
21689cfc3e18SPeter Zijlstra 				 const struct cpumask *newmask,
21699cfc3e18SPeter Zijlstra 				 u32 flags);
2170c82ba9faSLi Zefan 
2171c82ba9faSLi Zefan 	void (*rq_online)(struct rq *rq);
2172c82ba9faSLi Zefan 	void (*rq_offline)(struct rq *rq);
2173a7c81556SPeter Zijlstra 
2174a7c81556SPeter Zijlstra 	struct rq *(*find_lock_rq)(struct task_struct *p, struct rq *rq);
2175c82ba9faSLi Zefan #endif
2176c82ba9faSLi Zefan 
2177c82ba9faSLi Zefan 	void (*task_tick)(struct rq *rq, struct task_struct *p, int queued);
2178c82ba9faSLi Zefan 	void (*task_fork)(struct task_struct *p);
2179e6c390f2SDario Faggioli 	void (*task_dead)(struct task_struct *p);
2180c82ba9faSLi Zefan 
218167dfa1b7SKirill Tkhai 	/*
218267dfa1b7SKirill Tkhai 	 * The switched_from() call is allowed to drop rq->lock, therefore we
21833b03706fSIngo Molnar 	 * cannot assume the switched_from/switched_to pair is serialized by
218467dfa1b7SKirill Tkhai 	 * rq->lock. They are however serialized by p->pi_lock.
218567dfa1b7SKirill Tkhai 	 */
2186c82ba9faSLi Zefan 	void (*switched_from)(struct rq *this_rq, struct task_struct *task);
2187c82ba9faSLi Zefan 	void (*switched_to)  (struct rq *this_rq, struct task_struct *task);
2188c82ba9faSLi Zefan 	void (*prio_changed) (struct rq *this_rq, struct task_struct *task,
2189c82ba9faSLi Zefan 			      int oldprio);
2190c82ba9faSLi Zefan 
2191c82ba9faSLi Zefan 	unsigned int (*get_rr_interval)(struct rq *rq,
2192c82ba9faSLi Zefan 					struct task_struct *task);
2193c82ba9faSLi Zefan 
21946e998916SStanislaw Gruszka 	void (*update_curr)(struct rq *rq);
21956e998916SStanislaw Gruszka 
2196ea86cb4bSVincent Guittot #define TASK_SET_GROUP		0
2197ea86cb4bSVincent Guittot #define TASK_MOVE_GROUP		1
2198ea86cb4bSVincent Guittot 
2199c82ba9faSLi Zefan #ifdef CONFIG_FAIR_GROUP_SCHED
2200ea86cb4bSVincent Guittot 	void (*task_change_group)(struct task_struct *p, int type);
2201c82ba9faSLi Zefan #endif
220243c31ac0SPeter Zijlstra };
2203391e43daSPeter Zijlstra 
22043f1d2a31SPeter Zijlstra static inline void put_prev_task(struct rq *rq, struct task_struct *prev)
22053f1d2a31SPeter Zijlstra {
220610e7071bSPeter Zijlstra 	WARN_ON_ONCE(rq->curr != prev);
22076e2df058SPeter Zijlstra 	prev->sched_class->put_prev_task(rq, prev);
22083f1d2a31SPeter Zijlstra }
22093f1d2a31SPeter Zijlstra 
221003b7fad1SPeter Zijlstra static inline void set_next_task(struct rq *rq, struct task_struct *next)
2211b2bf6c31SPeter Zijlstra {
2212a0e813f2SPeter Zijlstra 	next->sched_class->set_next_task(rq, next, false);
2213b2bf6c31SPeter Zijlstra }
2214b2bf6c31SPeter Zijlstra 
221543c31ac0SPeter Zijlstra 
221643c31ac0SPeter Zijlstra /*
221743c31ac0SPeter Zijlstra  * Helper to define a sched_class instance; each one is placed in a separate
221843c31ac0SPeter Zijlstra  * section which is ordered by the linker script:
221943c31ac0SPeter Zijlstra  *
222043c31ac0SPeter Zijlstra  *   include/asm-generic/vmlinux.lds.h
222143c31ac0SPeter Zijlstra  *
2222546a3feeSPeter Zijlstra  * *CAREFUL* they are laid out in *REVERSE* order!!!
2223546a3feeSPeter Zijlstra  *
222443c31ac0SPeter Zijlstra  * Also enforce alignment on the instance, not the type, to guarantee layout.
222543c31ac0SPeter Zijlstra  */
222643c31ac0SPeter Zijlstra #define DEFINE_SCHED_CLASS(name) \
222743c31ac0SPeter Zijlstra const struct sched_class name##_sched_class \
222843c31ac0SPeter Zijlstra 	__aligned(__alignof__(struct sched_class)) \
222943c31ac0SPeter Zijlstra 	__section("__" #name "_sched_class")
223043c31ac0SPeter Zijlstra 
2231c3a340f7SSteven Rostedt (VMware) /* Defined in include/asm-generic/vmlinux.lds.h */
2232546a3feeSPeter Zijlstra extern struct sched_class __sched_class_highest[];
2233546a3feeSPeter Zijlstra extern struct sched_class __sched_class_lowest[];
22346e2df058SPeter Zijlstra 
22356e2df058SPeter Zijlstra #define for_class_range(class, _from, _to) \
2236546a3feeSPeter Zijlstra 	for (class = (_from); class < (_to); class++)
22376e2df058SPeter Zijlstra 
2238391e43daSPeter Zijlstra #define for_each_class(class) \
2239546a3feeSPeter Zijlstra 	for_class_range(class, __sched_class_highest, __sched_class_lowest)
2240546a3feeSPeter Zijlstra 
2241546a3feeSPeter Zijlstra #define sched_class_above(_a, _b)	((_a) < (_b))
2242391e43daSPeter Zijlstra 
2243391e43daSPeter Zijlstra extern const struct sched_class stop_sched_class;
2244aab03e05SDario Faggioli extern const struct sched_class dl_sched_class;
2245391e43daSPeter Zijlstra extern const struct sched_class rt_sched_class;
2246391e43daSPeter Zijlstra extern const struct sched_class fair_sched_class;
2247391e43daSPeter Zijlstra extern const struct sched_class idle_sched_class;
2248391e43daSPeter Zijlstra 
22496e2df058SPeter Zijlstra static inline bool sched_stop_runnable(struct rq *rq)
22506e2df058SPeter Zijlstra {
22516e2df058SPeter Zijlstra 	return rq->stop && task_on_rq_queued(rq->stop);
22526e2df058SPeter Zijlstra }
22536e2df058SPeter Zijlstra 
22546e2df058SPeter Zijlstra static inline bool sched_dl_runnable(struct rq *rq)
22556e2df058SPeter Zijlstra {
22566e2df058SPeter Zijlstra 	return rq->dl.dl_nr_running > 0;
22576e2df058SPeter Zijlstra }
22586e2df058SPeter Zijlstra 
22596e2df058SPeter Zijlstra static inline bool sched_rt_runnable(struct rq *rq)
22606e2df058SPeter Zijlstra {
22616e2df058SPeter Zijlstra 	return rq->rt.rt_queued > 0;
22626e2df058SPeter Zijlstra }
22636e2df058SPeter Zijlstra 
22646e2df058SPeter Zijlstra static inline bool sched_fair_runnable(struct rq *rq)
22656e2df058SPeter Zijlstra {
22666e2df058SPeter Zijlstra 	return rq->cfs.nr_running > 0;
22676e2df058SPeter Zijlstra }
2268391e43daSPeter Zijlstra 
22695d7d6056SPeter Zijlstra extern struct task_struct *pick_next_task_fair(struct rq *rq, struct task_struct *prev, struct rq_flags *rf);
227098c2f700SPeter Zijlstra extern struct task_struct *pick_next_task_idle(struct rq *rq);
22715d7d6056SPeter Zijlstra 
2272af449901SPeter Zijlstra #define SCA_CHECK		0x01
2273af449901SPeter Zijlstra #define SCA_MIGRATE_DISABLE	0x02
2274af449901SPeter Zijlstra #define SCA_MIGRATE_ENABLE	0x04
227507ec77a1SWill Deacon #define SCA_USER		0x08
2276af449901SPeter Zijlstra 
2277391e43daSPeter Zijlstra #ifdef CONFIG_SMP
2278391e43daSPeter Zijlstra 
227963b2ca30SNicolas Pitre extern void update_group_capacity(struct sched_domain *sd, int cpu);
2280b719203bSLi Zefan 
22817caff66fSDaniel Lezcano extern void trigger_load_balance(struct rq *rq);
2282391e43daSPeter Zijlstra 
22839cfc3e18SPeter Zijlstra extern void set_cpus_allowed_common(struct task_struct *p, const struct cpumask *new_mask, u32 flags);
2284c5b28038SPeter Zijlstra 
2285a7c81556SPeter Zijlstra static inline struct task_struct *get_push_task(struct rq *rq)
2286a7c81556SPeter Zijlstra {
2287a7c81556SPeter Zijlstra 	struct task_struct *p = rq->curr;
2288a7c81556SPeter Zijlstra 
22895cb9eaa3SPeter Zijlstra 	lockdep_assert_rq_held(rq);
2290a7c81556SPeter Zijlstra 
2291a7c81556SPeter Zijlstra 	if (rq->push_busy)
2292a7c81556SPeter Zijlstra 		return NULL;
2293a7c81556SPeter Zijlstra 
2294a7c81556SPeter Zijlstra 	if (p->nr_cpus_allowed == 1)
2295a7c81556SPeter Zijlstra 		return NULL;
2296a7c81556SPeter Zijlstra 
2297e681dcbaSSebastian Andrzej Siewior 	if (p->migration_disabled)
2298e681dcbaSSebastian Andrzej Siewior 		return NULL;
2299e681dcbaSSebastian Andrzej Siewior 
2300a7c81556SPeter Zijlstra 	rq->push_busy = true;
2301a7c81556SPeter Zijlstra 	return get_task_struct(p);
2302a7c81556SPeter Zijlstra }
2303a7c81556SPeter Zijlstra 
2304a7c81556SPeter Zijlstra extern int push_cpu_stop(void *arg);
2305dc877341SPeter Zijlstra 
2306391e43daSPeter Zijlstra #endif
2307391e43daSPeter Zijlstra 
2308442bf3aaSDaniel Lezcano #ifdef CONFIG_CPU_IDLE
2309442bf3aaSDaniel Lezcano static inline void idle_set_state(struct rq *rq,
2310442bf3aaSDaniel Lezcano 				  struct cpuidle_state *idle_state)
2311442bf3aaSDaniel Lezcano {
2312442bf3aaSDaniel Lezcano 	rq->idle_state = idle_state;
2313442bf3aaSDaniel Lezcano }
2314442bf3aaSDaniel Lezcano 
2315442bf3aaSDaniel Lezcano static inline struct cpuidle_state *idle_get_state(struct rq *rq)
2316442bf3aaSDaniel Lezcano {
23179148a3a1SPeter Zijlstra 	SCHED_WARN_ON(!rcu_read_lock_held());
231897fb7a0aSIngo Molnar 
2319442bf3aaSDaniel Lezcano 	return rq->idle_state;
2320442bf3aaSDaniel Lezcano }
2321442bf3aaSDaniel Lezcano #else
2322442bf3aaSDaniel Lezcano static inline void idle_set_state(struct rq *rq,
2323442bf3aaSDaniel Lezcano 				  struct cpuidle_state *idle_state)
2324442bf3aaSDaniel Lezcano {
2325442bf3aaSDaniel Lezcano }
2326442bf3aaSDaniel Lezcano 
2327442bf3aaSDaniel Lezcano static inline struct cpuidle_state *idle_get_state(struct rq *rq)
2328442bf3aaSDaniel Lezcano {
2329442bf3aaSDaniel Lezcano 	return NULL;
2330442bf3aaSDaniel Lezcano }
2331442bf3aaSDaniel Lezcano #endif
2332442bf3aaSDaniel Lezcano 
23338663effbSSteven Rostedt (VMware) extern void schedule_idle(void);
23348663effbSSteven Rostedt (VMware) 
2335391e43daSPeter Zijlstra extern void sysrq_sched_debug_show(void);
2336391e43daSPeter Zijlstra extern void sched_init_granularity(void);
2337391e43daSPeter Zijlstra extern void update_max_interval(void);
23381baca4ceSJuri Lelli 
23391baca4ceSJuri Lelli extern void init_sched_dl_class(void);
2340391e43daSPeter Zijlstra extern void init_sched_rt_class(void);
2341391e43daSPeter Zijlstra extern void init_sched_fair_class(void);
2342391e43daSPeter Zijlstra 
23439059393eSVincent Guittot extern void reweight_task(struct task_struct *p, int prio);
23449059393eSVincent Guittot 
23458875125eSKirill Tkhai extern void resched_curr(struct rq *rq);
2346391e43daSPeter Zijlstra extern void resched_cpu(int cpu);
2347391e43daSPeter Zijlstra 
2348391e43daSPeter Zijlstra extern struct rt_bandwidth def_rt_bandwidth;
2349391e43daSPeter Zijlstra extern void init_rt_bandwidth(struct rt_bandwidth *rt_b, u64 period, u64 runtime);
2350d664e399SThomas Gleixner extern bool sched_rt_bandwidth_account(struct rt_rq *rt_rq);
2351391e43daSPeter Zijlstra 
2352332ac17eSDario Faggioli extern void init_dl_bandwidth(struct dl_bandwidth *dl_b, u64 period, u64 runtime);
2353aab03e05SDario Faggioli extern void init_dl_task_timer(struct sched_dl_entity *dl_se);
2354209a0cbdSLuca Abeni extern void init_dl_inactive_task_timer(struct sched_dl_entity *dl_se);
2355aab03e05SDario Faggioli 
2356c52f14d3SLuca Abeni #define BW_SHIFT		20
2357c52f14d3SLuca Abeni #define BW_UNIT			(1 << BW_SHIFT)
23584da3abceSLuca Abeni #define RATIO_SHIFT		8
2359d505b8afSHuaixin Chang #define MAX_BW_BITS		(64 - BW_SHIFT)
2360d505b8afSHuaixin Chang #define MAX_BW			((1ULL << MAX_BW_BITS) - 1)
2361332ac17eSDario Faggioli unsigned long to_ratio(u64 period, u64 runtime);
2362332ac17eSDario Faggioli 
2363540247fbSYuyang Du extern void init_entity_runnable_average(struct sched_entity *se);
2364d0fe0b9cSDietmar Eggemann extern void post_init_entity_util_avg(struct task_struct *p);
2365a75cdaa9SAlex Shi 
236676d92ac3SFrederic Weisbecker #ifdef CONFIG_NO_HZ_FULL
236776d92ac3SFrederic Weisbecker extern bool sched_can_stop_tick(struct rq *rq);
2368d84b3131SFrederic Weisbecker extern int __init sched_tick_offload_init(void);
236976d92ac3SFrederic Weisbecker 
237076d92ac3SFrederic Weisbecker /*
237176d92ac3SFrederic Weisbecker  * Tick may be needed by tasks in the runqueue depending on their policy and
237276d92ac3SFrederic Weisbecker  * requirements. If tick is needed, lets send the target an IPI to kick it out of
237376d92ac3SFrederic Weisbecker  * nohz mode if necessary.
237476d92ac3SFrederic Weisbecker  */
237576d92ac3SFrederic Weisbecker static inline void sched_update_tick_dependency(struct rq *rq)
237676d92ac3SFrederic Weisbecker {
237721a6ee14SMiaohe Lin 	int cpu = cpu_of(rq);
237876d92ac3SFrederic Weisbecker 
237976d92ac3SFrederic Weisbecker 	if (!tick_nohz_full_cpu(cpu))
238076d92ac3SFrederic Weisbecker 		return;
238176d92ac3SFrederic Weisbecker 
238276d92ac3SFrederic Weisbecker 	if (sched_can_stop_tick(rq))
238376d92ac3SFrederic Weisbecker 		tick_nohz_dep_clear_cpu(cpu, TICK_DEP_BIT_SCHED);
238476d92ac3SFrederic Weisbecker 	else
238576d92ac3SFrederic Weisbecker 		tick_nohz_dep_set_cpu(cpu, TICK_DEP_BIT_SCHED);
238676d92ac3SFrederic Weisbecker }
238776d92ac3SFrederic Weisbecker #else
2388d84b3131SFrederic Weisbecker static inline int sched_tick_offload_init(void) { return 0; }
238976d92ac3SFrederic Weisbecker static inline void sched_update_tick_dependency(struct rq *rq) { }
239076d92ac3SFrederic Weisbecker #endif
239176d92ac3SFrederic Weisbecker 
239272465447SKirill Tkhai static inline void add_nr_running(struct rq *rq, unsigned count)
2393391e43daSPeter Zijlstra {
239472465447SKirill Tkhai 	unsigned prev_nr = rq->nr_running;
239572465447SKirill Tkhai 
239672465447SKirill Tkhai 	rq->nr_running = prev_nr + count;
23979d246053SPhil Auld 	if (trace_sched_update_nr_running_tp_enabled()) {
23989d246053SPhil Auld 		call_trace_sched_update_nr_running(rq, count);
23999d246053SPhil Auld 	}
24009f3660c2SFrederic Weisbecker 
24014486edd1STim Chen #ifdef CONFIG_SMP
24023e184501SViresh Kumar 	if (prev_nr < 2 && rq->nr_running >= 2) {
2403e90c8fe1SValentin Schneider 		if (!READ_ONCE(rq->rd->overload))
2404e90c8fe1SValentin Schneider 			WRITE_ONCE(rq->rd->overload, 1);
240576d92ac3SFrederic Weisbecker 	}
24063e184501SViresh Kumar #endif
24074486edd1STim Chen 
240876d92ac3SFrederic Weisbecker 	sched_update_tick_dependency(rq);
24094486edd1STim Chen }
2410391e43daSPeter Zijlstra 
241172465447SKirill Tkhai static inline void sub_nr_running(struct rq *rq, unsigned count)
2412391e43daSPeter Zijlstra {
241372465447SKirill Tkhai 	rq->nr_running -= count;
24149d246053SPhil Auld 	if (trace_sched_update_nr_running_tp_enabled()) {
2415a1bd0685SPhil Auld 		call_trace_sched_update_nr_running(rq, -count);
24169d246053SPhil Auld 	}
24179d246053SPhil Auld 
241876d92ac3SFrederic Weisbecker 	/* Check if we still need preemption */
241976d92ac3SFrederic Weisbecker 	sched_update_tick_dependency(rq);
2420391e43daSPeter Zijlstra }
2421391e43daSPeter Zijlstra 
2422391e43daSPeter Zijlstra extern void activate_task(struct rq *rq, struct task_struct *p, int flags);
2423391e43daSPeter Zijlstra extern void deactivate_task(struct rq *rq, struct task_struct *p, int flags);
2424391e43daSPeter Zijlstra 
2425391e43daSPeter Zijlstra extern void check_preempt_curr(struct rq *rq, struct task_struct *p, int flags);
2426391e43daSPeter Zijlstra 
2427391e43daSPeter Zijlstra extern const_debug unsigned int sysctl_sched_nr_migrate;
2428391e43daSPeter Zijlstra extern const_debug unsigned int sysctl_sched_migration_cost;
2429391e43daSPeter Zijlstra 
243018765447SHailong Liu #ifdef CONFIG_SCHED_DEBUG
243118765447SHailong Liu extern unsigned int sysctl_sched_latency;
243218765447SHailong Liu extern unsigned int sysctl_sched_min_granularity;
243351ce83edSJosh Don extern unsigned int sysctl_sched_idle_min_granularity;
243418765447SHailong Liu extern unsigned int sysctl_sched_wakeup_granularity;
243518765447SHailong Liu extern int sysctl_resched_latency_warn_ms;
243618765447SHailong Liu extern int sysctl_resched_latency_warn_once;
243718765447SHailong Liu 
243818765447SHailong Liu extern unsigned int sysctl_sched_tunable_scaling;
243918765447SHailong Liu 
244018765447SHailong Liu extern unsigned int sysctl_numa_balancing_scan_delay;
244118765447SHailong Liu extern unsigned int sysctl_numa_balancing_scan_period_min;
244218765447SHailong Liu extern unsigned int sysctl_numa_balancing_scan_period_max;
244318765447SHailong Liu extern unsigned int sysctl_numa_balancing_scan_size;
244418765447SHailong Liu #endif
244518765447SHailong Liu 
2446391e43daSPeter Zijlstra #ifdef CONFIG_SCHED_HRTICK
2447391e43daSPeter Zijlstra 
2448391e43daSPeter Zijlstra /*
2449391e43daSPeter Zijlstra  * Use hrtick when:
2450391e43daSPeter Zijlstra  *  - enabled by features
2451391e43daSPeter Zijlstra  *  - hrtimer is actually high res
2452391e43daSPeter Zijlstra  */
2453391e43daSPeter Zijlstra static inline int hrtick_enabled(struct rq *rq)
2454391e43daSPeter Zijlstra {
2455391e43daSPeter Zijlstra 	if (!cpu_active(cpu_of(rq)))
2456391e43daSPeter Zijlstra 		return 0;
2457391e43daSPeter Zijlstra 	return hrtimer_is_hres_active(&rq->hrtick_timer);
2458391e43daSPeter Zijlstra }
2459391e43daSPeter Zijlstra 
2460e0ee463cSJuri Lelli static inline int hrtick_enabled_fair(struct rq *rq)
2461e0ee463cSJuri Lelli {
2462e0ee463cSJuri Lelli 	if (!sched_feat(HRTICK))
2463e0ee463cSJuri Lelli 		return 0;
2464e0ee463cSJuri Lelli 	return hrtick_enabled(rq);
2465e0ee463cSJuri Lelli }
2466e0ee463cSJuri Lelli 
2467e0ee463cSJuri Lelli static inline int hrtick_enabled_dl(struct rq *rq)
2468e0ee463cSJuri Lelli {
2469e0ee463cSJuri Lelli 	if (!sched_feat(HRTICK_DL))
2470e0ee463cSJuri Lelli 		return 0;
2471e0ee463cSJuri Lelli 	return hrtick_enabled(rq);
2472e0ee463cSJuri Lelli }
2473e0ee463cSJuri Lelli 
2474391e43daSPeter Zijlstra void hrtick_start(struct rq *rq, u64 delay);
2475391e43daSPeter Zijlstra 
2476b39e66eaSMike Galbraith #else
2477b39e66eaSMike Galbraith 
2478e0ee463cSJuri Lelli static inline int hrtick_enabled_fair(struct rq *rq)
2479e0ee463cSJuri Lelli {
2480e0ee463cSJuri Lelli 	return 0;
2481e0ee463cSJuri Lelli }
2482e0ee463cSJuri Lelli 
2483e0ee463cSJuri Lelli static inline int hrtick_enabled_dl(struct rq *rq)
2484e0ee463cSJuri Lelli {
2485e0ee463cSJuri Lelli 	return 0;
2486e0ee463cSJuri Lelli }
2487e0ee463cSJuri Lelli 
2488b39e66eaSMike Galbraith static inline int hrtick_enabled(struct rq *rq)
2489b39e66eaSMike Galbraith {
2490b39e66eaSMike Galbraith 	return 0;
2491b39e66eaSMike Galbraith }
2492b39e66eaSMike Galbraith 
2493391e43daSPeter Zijlstra #endif /* CONFIG_SCHED_HRTICK */
2494391e43daSPeter Zijlstra 
24951567c3e3SGiovanni Gherdovich #ifndef arch_scale_freq_tick
24961567c3e3SGiovanni Gherdovich static __always_inline
24971567c3e3SGiovanni Gherdovich void arch_scale_freq_tick(void)
24981567c3e3SGiovanni Gherdovich {
24991567c3e3SGiovanni Gherdovich }
25001567c3e3SGiovanni Gherdovich #endif
25011567c3e3SGiovanni Gherdovich 
2502dfbca41fSPeter Zijlstra #ifndef arch_scale_freq_capacity
2503f4470cdfSValentin Schneider /**
2504f4470cdfSValentin Schneider  * arch_scale_freq_capacity - get the frequency scale factor of a given CPU.
2505f4470cdfSValentin Schneider  * @cpu: the CPU in question.
2506f4470cdfSValentin Schneider  *
2507f4470cdfSValentin Schneider  * Return: the frequency scale factor normalized against SCHED_CAPACITY_SCALE, i.e.
2508f4470cdfSValentin Schneider  *
2509f4470cdfSValentin Schneider  *     f_curr
2510f4470cdfSValentin Schneider  *     ------ * SCHED_CAPACITY_SCALE
2511f4470cdfSValentin Schneider  *     f_max
2512f4470cdfSValentin Schneider  */
2513dfbca41fSPeter Zijlstra static __always_inline
25147673c8a4SJuri Lelli unsigned long arch_scale_freq_capacity(int cpu)
2515dfbca41fSPeter Zijlstra {
2516dfbca41fSPeter Zijlstra 	return SCHED_CAPACITY_SCALE;
2517dfbca41fSPeter Zijlstra }
2518dfbca41fSPeter Zijlstra #endif
2519b5b4860dSVincent Guittot 
25202679a837SHao Jia #ifdef CONFIG_SCHED_DEBUG
25212679a837SHao Jia /*
25222679a837SHao Jia  * In double_lock_balance()/double_rq_lock(), we use raw_spin_rq_lock() to
25232679a837SHao Jia  * acquire rq lock instead of rq_lock(). So at the end of these two functions
25242679a837SHao Jia  * we need to call double_rq_clock_clear_update() to clear RQCF_UPDATED of
25252679a837SHao Jia  * rq->clock_update_flags to avoid the WARN_DOUBLE_CLOCK warning.
25262679a837SHao Jia  */
25272679a837SHao Jia static inline void double_rq_clock_clear_update(struct rq *rq1, struct rq *rq2)
25282679a837SHao Jia {
25292679a837SHao Jia 	rq1->clock_update_flags &= (RQCF_REQ_SKIP|RQCF_ACT_SKIP);
25302679a837SHao Jia 	/* rq1 == rq2 for !CONFIG_SMP, so just clear RQCF_UPDATED once. */
25312679a837SHao Jia #ifdef CONFIG_SMP
25322679a837SHao Jia 	rq2->clock_update_flags &= (RQCF_REQ_SKIP|RQCF_ACT_SKIP);
25332679a837SHao Jia #endif
25342679a837SHao Jia }
25352679a837SHao Jia #else
25362679a837SHao Jia static inline void double_rq_clock_clear_update(struct rq *rq1, struct rq *rq2) {}
25372679a837SHao Jia #endif
2538391e43daSPeter Zijlstra 
2539d66f1b06SPeter Zijlstra #ifdef CONFIG_SMP
2540d66f1b06SPeter Zijlstra 
2541d66f1b06SPeter Zijlstra static inline bool rq_order_less(struct rq *rq1, struct rq *rq2)
2542d66f1b06SPeter Zijlstra {
25439edeaea1SPeter Zijlstra #ifdef CONFIG_SCHED_CORE
25449edeaea1SPeter Zijlstra 	/*
25459edeaea1SPeter Zijlstra 	 * In order to not have {0,2},{1,3} turn into into an AB-BA,
25469edeaea1SPeter Zijlstra 	 * order by core-id first and cpu-id second.
25479edeaea1SPeter Zijlstra 	 *
25489edeaea1SPeter Zijlstra 	 * Notably:
25499edeaea1SPeter Zijlstra 	 *
25509edeaea1SPeter Zijlstra 	 *	double_rq_lock(0,3); will take core-0, core-1 lock
25519edeaea1SPeter Zijlstra 	 *	double_rq_lock(1,2); will take core-1, core-0 lock
25529edeaea1SPeter Zijlstra 	 *
25539edeaea1SPeter Zijlstra 	 * when only cpu-id is considered.
25549edeaea1SPeter Zijlstra 	 */
25559edeaea1SPeter Zijlstra 	if (rq1->core->cpu < rq2->core->cpu)
25569edeaea1SPeter Zijlstra 		return true;
25579edeaea1SPeter Zijlstra 	if (rq1->core->cpu > rq2->core->cpu)
25589edeaea1SPeter Zijlstra 		return false;
25599edeaea1SPeter Zijlstra 
25609edeaea1SPeter Zijlstra 	/*
25619edeaea1SPeter Zijlstra 	 * __sched_core_flip() relies on SMT having cpu-id lock order.
25629edeaea1SPeter Zijlstra 	 */
25639edeaea1SPeter Zijlstra #endif
2564d66f1b06SPeter Zijlstra 	return rq1->cpu < rq2->cpu;
2565d66f1b06SPeter Zijlstra }
2566d66f1b06SPeter Zijlstra 
2567d66f1b06SPeter Zijlstra extern void double_rq_lock(struct rq *rq1, struct rq *rq2);
2568d66f1b06SPeter Zijlstra 
2569d66f1b06SPeter Zijlstra #ifdef CONFIG_PREEMPTION
2570391e43daSPeter Zijlstra 
2571391e43daSPeter Zijlstra /*
2572391e43daSPeter Zijlstra  * fair double_lock_balance: Safely acquires both rq->locks in a fair
2573391e43daSPeter Zijlstra  * way at the expense of forcing extra atomic operations in all
2574391e43daSPeter Zijlstra  * invocations.  This assures that the double_lock is acquired using the
2575391e43daSPeter Zijlstra  * same underlying policy as the spinlock_t on this architecture, which
2576391e43daSPeter Zijlstra  * reduces latency compared to the unfair variant below.  However, it
2577391e43daSPeter Zijlstra  * also adds more overhead and therefore may reduce throughput.
2578391e43daSPeter Zijlstra  */
2579391e43daSPeter Zijlstra static inline int _double_lock_balance(struct rq *this_rq, struct rq *busiest)
2580391e43daSPeter Zijlstra 	__releases(this_rq->lock)
2581391e43daSPeter Zijlstra 	__acquires(busiest->lock)
2582391e43daSPeter Zijlstra 	__acquires(this_rq->lock)
2583391e43daSPeter Zijlstra {
25845cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock(this_rq);
2585391e43daSPeter Zijlstra 	double_rq_lock(this_rq, busiest);
2586391e43daSPeter Zijlstra 
2587391e43daSPeter Zijlstra 	return 1;
2588391e43daSPeter Zijlstra }
2589391e43daSPeter Zijlstra 
2590391e43daSPeter Zijlstra #else
2591391e43daSPeter Zijlstra /*
2592391e43daSPeter Zijlstra  * Unfair double_lock_balance: Optimizes throughput at the expense of
2593391e43daSPeter Zijlstra  * latency by eliminating extra atomic operations when the locks are
259497fb7a0aSIngo Molnar  * already in proper order on entry.  This favors lower CPU-ids and will
259597fb7a0aSIngo Molnar  * grant the double lock to lower CPUs over higher ids under contention,
2596391e43daSPeter Zijlstra  * regardless of entry order into the function.
2597391e43daSPeter Zijlstra  */
2598391e43daSPeter Zijlstra static inline int _double_lock_balance(struct rq *this_rq, struct rq *busiest)
2599391e43daSPeter Zijlstra 	__releases(this_rq->lock)
2600391e43daSPeter Zijlstra 	__acquires(busiest->lock)
2601391e43daSPeter Zijlstra 	__acquires(this_rq->lock)
2602391e43daSPeter Zijlstra {
26032679a837SHao Jia 	if (__rq_lockp(this_rq) == __rq_lockp(busiest) ||
26042679a837SHao Jia 	    likely(raw_spin_rq_trylock(busiest))) {
26052679a837SHao Jia 		double_rq_clock_clear_update(this_rq, busiest);
26065cb9eaa3SPeter Zijlstra 		return 0;
26072679a837SHao Jia 	}
26085cb9eaa3SPeter Zijlstra 
2609d66f1b06SPeter Zijlstra 	if (rq_order_less(this_rq, busiest)) {
26105cb9eaa3SPeter Zijlstra 		raw_spin_rq_lock_nested(busiest, SINGLE_DEPTH_NESTING);
26112679a837SHao Jia 		double_rq_clock_clear_update(this_rq, busiest);
26125cb9eaa3SPeter Zijlstra 		return 0;
2613391e43daSPeter Zijlstra 	}
26145cb9eaa3SPeter Zijlstra 
26155cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock(this_rq);
2616d66f1b06SPeter Zijlstra 	double_rq_lock(this_rq, busiest);
26175cb9eaa3SPeter Zijlstra 
26185cb9eaa3SPeter Zijlstra 	return 1;
2619391e43daSPeter Zijlstra }
2620391e43daSPeter Zijlstra 
2621c1a280b6SThomas Gleixner #endif /* CONFIG_PREEMPTION */
2622391e43daSPeter Zijlstra 
2623391e43daSPeter Zijlstra /*
2624391e43daSPeter Zijlstra  * double_lock_balance - lock the busiest runqueue, this_rq is locked already.
2625391e43daSPeter Zijlstra  */
2626391e43daSPeter Zijlstra static inline int double_lock_balance(struct rq *this_rq, struct rq *busiest)
2627391e43daSPeter Zijlstra {
26285cb9eaa3SPeter Zijlstra 	lockdep_assert_irqs_disabled();
2629391e43daSPeter Zijlstra 
2630391e43daSPeter Zijlstra 	return _double_lock_balance(this_rq, busiest);
2631391e43daSPeter Zijlstra }
2632391e43daSPeter Zijlstra 
2633391e43daSPeter Zijlstra static inline void double_unlock_balance(struct rq *this_rq, struct rq *busiest)
2634391e43daSPeter Zijlstra 	__releases(busiest->lock)
2635391e43daSPeter Zijlstra {
26369ef7e7e3SPeter Zijlstra 	if (__rq_lockp(this_rq) != __rq_lockp(busiest))
26375cb9eaa3SPeter Zijlstra 		raw_spin_rq_unlock(busiest);
26389ef7e7e3SPeter Zijlstra 	lock_set_subclass(&__rq_lockp(this_rq)->dep_map, 0, _RET_IP_);
2639391e43daSPeter Zijlstra }
2640391e43daSPeter Zijlstra 
264174602315SPeter Zijlstra static inline void double_lock(spinlock_t *l1, spinlock_t *l2)
264274602315SPeter Zijlstra {
264374602315SPeter Zijlstra 	if (l1 > l2)
264474602315SPeter Zijlstra 		swap(l1, l2);
264574602315SPeter Zijlstra 
264674602315SPeter Zijlstra 	spin_lock(l1);
264774602315SPeter Zijlstra 	spin_lock_nested(l2, SINGLE_DEPTH_NESTING);
264874602315SPeter Zijlstra }
264974602315SPeter Zijlstra 
265060e69eedSMike Galbraith static inline void double_lock_irq(spinlock_t *l1, spinlock_t *l2)
265160e69eedSMike Galbraith {
265260e69eedSMike Galbraith 	if (l1 > l2)
265360e69eedSMike Galbraith 		swap(l1, l2);
265460e69eedSMike Galbraith 
265560e69eedSMike Galbraith 	spin_lock_irq(l1);
265660e69eedSMike Galbraith 	spin_lock_nested(l2, SINGLE_DEPTH_NESTING);
265760e69eedSMike Galbraith }
265860e69eedSMike Galbraith 
265974602315SPeter Zijlstra static inline void double_raw_lock(raw_spinlock_t *l1, raw_spinlock_t *l2)
266074602315SPeter Zijlstra {
266174602315SPeter Zijlstra 	if (l1 > l2)
266274602315SPeter Zijlstra 		swap(l1, l2);
266374602315SPeter Zijlstra 
266474602315SPeter Zijlstra 	raw_spin_lock(l1);
266574602315SPeter Zijlstra 	raw_spin_lock_nested(l2, SINGLE_DEPTH_NESTING);
266674602315SPeter Zijlstra }
266774602315SPeter Zijlstra 
2668391e43daSPeter Zijlstra /*
2669391e43daSPeter Zijlstra  * double_rq_unlock - safely unlock two runqueues
2670391e43daSPeter Zijlstra  *
2671391e43daSPeter Zijlstra  * Note this does not restore interrupts like task_rq_unlock,
2672391e43daSPeter Zijlstra  * you need to do so manually after calling.
2673391e43daSPeter Zijlstra  */
2674391e43daSPeter Zijlstra static inline void double_rq_unlock(struct rq *rq1, struct rq *rq2)
2675391e43daSPeter Zijlstra 	__releases(rq1->lock)
2676391e43daSPeter Zijlstra 	__releases(rq2->lock)
2677391e43daSPeter Zijlstra {
26789ef7e7e3SPeter Zijlstra 	if (__rq_lockp(rq1) != __rq_lockp(rq2))
26795cb9eaa3SPeter Zijlstra 		raw_spin_rq_unlock(rq2);
2680391e43daSPeter Zijlstra 	else
2681391e43daSPeter Zijlstra 		__release(rq2->lock);
2682d66f1b06SPeter Zijlstra 	raw_spin_rq_unlock(rq1);
2683391e43daSPeter Zijlstra }
2684391e43daSPeter Zijlstra 
2685f2cb1360SIngo Molnar extern void set_rq_online (struct rq *rq);
2686f2cb1360SIngo Molnar extern void set_rq_offline(struct rq *rq);
2687f2cb1360SIngo Molnar extern bool sched_smp_initialized;
2688f2cb1360SIngo Molnar 
2689391e43daSPeter Zijlstra #else /* CONFIG_SMP */
2690391e43daSPeter Zijlstra 
2691391e43daSPeter Zijlstra /*
2692391e43daSPeter Zijlstra  * double_rq_lock - safely lock two runqueues
2693391e43daSPeter Zijlstra  *
2694391e43daSPeter Zijlstra  * Note this does not disable interrupts like task_rq_lock,
2695391e43daSPeter Zijlstra  * you need to do so manually before calling.
2696391e43daSPeter Zijlstra  */
2697391e43daSPeter Zijlstra static inline void double_rq_lock(struct rq *rq1, struct rq *rq2)
2698391e43daSPeter Zijlstra 	__acquires(rq1->lock)
2699391e43daSPeter Zijlstra 	__acquires(rq2->lock)
2700391e43daSPeter Zijlstra {
2701391e43daSPeter Zijlstra 	BUG_ON(!irqs_disabled());
2702391e43daSPeter Zijlstra 	BUG_ON(rq1 != rq2);
27035cb9eaa3SPeter Zijlstra 	raw_spin_rq_lock(rq1);
2704391e43daSPeter Zijlstra 	__acquire(rq2->lock);	/* Fake it out ;) */
27052679a837SHao Jia 	double_rq_clock_clear_update(rq1, rq2);
2706391e43daSPeter Zijlstra }
2707391e43daSPeter Zijlstra 
2708391e43daSPeter Zijlstra /*
2709391e43daSPeter Zijlstra  * double_rq_unlock - safely unlock two runqueues
2710391e43daSPeter Zijlstra  *
2711391e43daSPeter Zijlstra  * Note this does not restore interrupts like task_rq_unlock,
2712391e43daSPeter Zijlstra  * you need to do so manually after calling.
2713391e43daSPeter Zijlstra  */
2714391e43daSPeter Zijlstra static inline void double_rq_unlock(struct rq *rq1, struct rq *rq2)
2715391e43daSPeter Zijlstra 	__releases(rq1->lock)
2716391e43daSPeter Zijlstra 	__releases(rq2->lock)
2717391e43daSPeter Zijlstra {
2718391e43daSPeter Zijlstra 	BUG_ON(rq1 != rq2);
27195cb9eaa3SPeter Zijlstra 	raw_spin_rq_unlock(rq1);
2720391e43daSPeter Zijlstra 	__release(rq2->lock);
2721391e43daSPeter Zijlstra }
2722391e43daSPeter Zijlstra 
2723391e43daSPeter Zijlstra #endif
2724391e43daSPeter Zijlstra 
2725391e43daSPeter Zijlstra extern struct sched_entity *__pick_first_entity(struct cfs_rq *cfs_rq);
2726391e43daSPeter Zijlstra extern struct sched_entity *__pick_last_entity(struct cfs_rq *cfs_rq);
27276b55c965SSrikar Dronamraju 
27286b55c965SSrikar Dronamraju #ifdef	CONFIG_SCHED_DEBUG
27299406415fSPeter Zijlstra extern bool sched_debug_verbose;
27309469eb01SPeter Zijlstra 
2731391e43daSPeter Zijlstra extern void print_cfs_stats(struct seq_file *m, int cpu);
2732391e43daSPeter Zijlstra extern void print_rt_stats(struct seq_file *m, int cpu);
2733acb32132SWanpeng Li extern void print_dl_stats(struct seq_file *m, int cpu);
2734f6a34630SMathieu Malaterre extern void print_cfs_rq(struct seq_file *m, int cpu, struct cfs_rq *cfs_rq);
2735f6a34630SMathieu Malaterre extern void print_rt_rq(struct seq_file *m, int cpu, struct rt_rq *rt_rq);
2736f6a34630SMathieu Malaterre extern void print_dl_rq(struct seq_file *m, int cpu, struct dl_rq *dl_rq);
2737c006fac5SPaul Turner 
2738c006fac5SPaul Turner extern void resched_latency_warn(int cpu, u64 latency);
2739397f2378SSrikar Dronamraju #ifdef CONFIG_NUMA_BALANCING
2740397f2378SSrikar Dronamraju extern void
2741397f2378SSrikar Dronamraju show_numa_stats(struct task_struct *p, struct seq_file *m);
2742397f2378SSrikar Dronamraju extern void
2743397f2378SSrikar Dronamraju print_numa_stats(struct seq_file *m, int node, unsigned long tsf,
2744397f2378SSrikar Dronamraju 	unsigned long tpf, unsigned long gsf, unsigned long gpf);
2745397f2378SSrikar Dronamraju #endif /* CONFIG_NUMA_BALANCING */
2746c006fac5SPaul Turner #else
2747c006fac5SPaul Turner static inline void resched_latency_warn(int cpu, u64 latency) {}
2748397f2378SSrikar Dronamraju #endif /* CONFIG_SCHED_DEBUG */
2749391e43daSPeter Zijlstra 
2750391e43daSPeter Zijlstra extern void init_cfs_rq(struct cfs_rq *cfs_rq);
275107c54f7aSAbel Vesa extern void init_rt_rq(struct rt_rq *rt_rq);
275207c54f7aSAbel Vesa extern void init_dl_rq(struct dl_rq *dl_rq);
2753391e43daSPeter Zijlstra 
27541ee14e6cSBen Segall extern void cfs_bandwidth_usage_inc(void);
27551ee14e6cSBen Segall extern void cfs_bandwidth_usage_dec(void);
27561c792db7SSuresh Siddha 
27573451d024SFrederic Weisbecker #ifdef CONFIG_NO_HZ_COMMON
275800357f5eSPeter Zijlstra #define NOHZ_BALANCE_KICK_BIT	0
275900357f5eSPeter Zijlstra #define NOHZ_STATS_KICK_BIT	1
2760c6f88654SVincent Guittot #define NOHZ_NEWILB_KICK_BIT	2
2761efd984c4SValentin Schneider #define NOHZ_NEXT_KICK_BIT	3
2762a22e47a4SPeter Zijlstra 
2763efd984c4SValentin Schneider /* Run rebalance_domains() */
2764a22e47a4SPeter Zijlstra #define NOHZ_BALANCE_KICK	BIT(NOHZ_BALANCE_KICK_BIT)
2765efd984c4SValentin Schneider /* Update blocked load */
2766b7031a02SPeter Zijlstra #define NOHZ_STATS_KICK		BIT(NOHZ_STATS_KICK_BIT)
2767efd984c4SValentin Schneider /* Update blocked load when entering idle */
2768c6f88654SVincent Guittot #define NOHZ_NEWILB_KICK	BIT(NOHZ_NEWILB_KICK_BIT)
2769efd984c4SValentin Schneider /* Update nohz.next_balance */
2770efd984c4SValentin Schneider #define NOHZ_NEXT_KICK		BIT(NOHZ_NEXT_KICK_BIT)
2771b7031a02SPeter Zijlstra 
2772efd984c4SValentin Schneider #define NOHZ_KICK_MASK	(NOHZ_BALANCE_KICK | NOHZ_STATS_KICK | NOHZ_NEXT_KICK)
27731c792db7SSuresh Siddha 
27741c792db7SSuresh Siddha #define nohz_flags(cpu)	(&cpu_rq(cpu)->nohz_flags)
277520a5c8ccSThomas Gleixner 
277600357f5eSPeter Zijlstra extern void nohz_balance_exit_idle(struct rq *rq);
277720a5c8ccSThomas Gleixner #else
277800357f5eSPeter Zijlstra static inline void nohz_balance_exit_idle(struct rq *rq) { }
27791c792db7SSuresh Siddha #endif
278073fbec60SFrederic Weisbecker 
2781c6f88654SVincent Guittot #if defined(CONFIG_SMP) && defined(CONFIG_NO_HZ_COMMON)
2782c6f88654SVincent Guittot extern void nohz_run_idle_balance(int cpu);
2783c6f88654SVincent Guittot #else
2784c6f88654SVincent Guittot static inline void nohz_run_idle_balance(int cpu) { }
2785c6f88654SVincent Guittot #endif
2786daec5798SLuca Abeni 
278773fbec60SFrederic Weisbecker #ifdef CONFIG_IRQ_TIME_ACCOUNTING
278819d23dbfSFrederic Weisbecker struct irqtime {
278925e2d8c1SFrederic Weisbecker 	u64			total;
2790a499a5a1SFrederic Weisbecker 	u64			tick_delta;
279119d23dbfSFrederic Weisbecker 	u64			irq_start_time;
279219d23dbfSFrederic Weisbecker 	struct u64_stats_sync	sync;
279319d23dbfSFrederic Weisbecker };
279473fbec60SFrederic Weisbecker 
279519d23dbfSFrederic Weisbecker DECLARE_PER_CPU(struct irqtime, cpu_irqtime);
279673fbec60SFrederic Weisbecker 
279725e2d8c1SFrederic Weisbecker /*
279825e2d8c1SFrederic Weisbecker  * Returns the irqtime minus the softirq time computed by ksoftirqd.
27993b03706fSIngo Molnar  * Otherwise ksoftirqd's sum_exec_runtime is subtracted its own runtime
280025e2d8c1SFrederic Weisbecker  * and never move forward.
280125e2d8c1SFrederic Weisbecker  */
280273fbec60SFrederic Weisbecker static inline u64 irq_time_read(int cpu)
280373fbec60SFrederic Weisbecker {
280419d23dbfSFrederic Weisbecker 	struct irqtime *irqtime = &per_cpu(cpu_irqtime, cpu);
280519d23dbfSFrederic Weisbecker 	unsigned int seq;
280619d23dbfSFrederic Weisbecker 	u64 total;
280773fbec60SFrederic Weisbecker 
280873fbec60SFrederic Weisbecker 	do {
280919d23dbfSFrederic Weisbecker 		seq = __u64_stats_fetch_begin(&irqtime->sync);
281025e2d8c1SFrederic Weisbecker 		total = irqtime->total;
281119d23dbfSFrederic Weisbecker 	} while (__u64_stats_fetch_retry(&irqtime->sync, seq));
281273fbec60SFrederic Weisbecker 
281319d23dbfSFrederic Weisbecker 	return total;
281473fbec60SFrederic Weisbecker }
281573fbec60SFrederic Weisbecker #endif /* CONFIG_IRQ_TIME_ACCOUNTING */
2816adaf9fcdSRafael J. Wysocki 
2817adaf9fcdSRafael J. Wysocki #ifdef CONFIG_CPU_FREQ
2818b10abd0aSJoel Fernandes (Google) DECLARE_PER_CPU(struct update_util_data __rcu *, cpufreq_update_util_data);
2819adaf9fcdSRafael J. Wysocki 
2820adaf9fcdSRafael J. Wysocki /**
2821adaf9fcdSRafael J. Wysocki  * cpufreq_update_util - Take a note about CPU utilization changes.
282212bde33dSRafael J. Wysocki  * @rq: Runqueue to carry out the update for.
282358919e83SRafael J. Wysocki  * @flags: Update reason flags.
2824adaf9fcdSRafael J. Wysocki  *
282558919e83SRafael J. Wysocki  * This function is called by the scheduler on the CPU whose utilization is
282658919e83SRafael J. Wysocki  * being updated.
2827adaf9fcdSRafael J. Wysocki  *
2828adaf9fcdSRafael J. Wysocki  * It can only be called from RCU-sched read-side critical sections.
2829adaf9fcdSRafael J. Wysocki  *
2830adaf9fcdSRafael J. Wysocki  * The way cpufreq is currently arranged requires it to evaluate the CPU
2831adaf9fcdSRafael J. Wysocki  * performance state (frequency/voltage) on a regular basis to prevent it from
2832adaf9fcdSRafael J. Wysocki  * being stuck in a completely inadequate performance level for too long.
2833e0367b12SJuri Lelli  * That is not guaranteed to happen if the updates are only triggered from CFS
2834e0367b12SJuri Lelli  * and DL, though, because they may not be coming in if only RT tasks are
2835e0367b12SJuri Lelli  * active all the time (or there are RT tasks only).
2836adaf9fcdSRafael J. Wysocki  *
2837e0367b12SJuri Lelli  * As a workaround for that issue, this function is called periodically by the
2838e0367b12SJuri Lelli  * RT sched class to trigger extra cpufreq updates to prevent it from stalling,
2839adaf9fcdSRafael J. Wysocki  * but that really is a band-aid.  Going forward it should be replaced with
2840e0367b12SJuri Lelli  * solutions targeted more specifically at RT tasks.
2841adaf9fcdSRafael J. Wysocki  */
284212bde33dSRafael J. Wysocki static inline void cpufreq_update_util(struct rq *rq, unsigned int flags)
2843adaf9fcdSRafael J. Wysocki {
284458919e83SRafael J. Wysocki 	struct update_util_data *data;
284558919e83SRafael J. Wysocki 
2846674e7541SViresh Kumar 	data = rcu_dereference_sched(*per_cpu_ptr(&cpufreq_update_util_data,
2847674e7541SViresh Kumar 						  cpu_of(rq)));
284858919e83SRafael J. Wysocki 	if (data)
284912bde33dSRafael J. Wysocki 		data->func(data, rq_clock(rq), flags);
285012bde33dSRafael J. Wysocki }
2851adaf9fcdSRafael J. Wysocki #else
285212bde33dSRafael J. Wysocki static inline void cpufreq_update_util(struct rq *rq, unsigned int flags) {}
2853adaf9fcdSRafael J. Wysocki #endif /* CONFIG_CPU_FREQ */
2854be53f58fSLinus Torvalds 
28559bdcb44eSRafael J. Wysocki #ifdef arch_scale_freq_capacity
28569bdcb44eSRafael J. Wysocki # ifndef arch_scale_freq_invariant
285797fb7a0aSIngo Molnar #  define arch_scale_freq_invariant()	true
28589bdcb44eSRafael J. Wysocki # endif
285997fb7a0aSIngo Molnar #else
286097fb7a0aSIngo Molnar # define arch_scale_freq_invariant()	false
28619bdcb44eSRafael J. Wysocki #endif
2862d4edd662SJuri Lelli 
286310a35e68SVincent Guittot #ifdef CONFIG_SMP
286410a35e68SVincent Guittot static inline unsigned long capacity_orig_of(int cpu)
286510a35e68SVincent Guittot {
286610a35e68SVincent Guittot 	return cpu_rq(cpu)->cpu_capacity_orig;
286710a35e68SVincent Guittot }
286810a35e68SVincent Guittot 
2869938e5e4bSQuentin Perret /**
2870a5418be9SViresh Kumar  * enum cpu_util_type - CPU utilization type
2871938e5e4bSQuentin Perret  * @FREQUENCY_UTIL:	Utilization used to select frequency
2872938e5e4bSQuentin Perret  * @ENERGY_UTIL:	Utilization used during energy calculation
2873938e5e4bSQuentin Perret  *
2874938e5e4bSQuentin Perret  * The utilization signals of all scheduling classes (CFS/RT/DL) and IRQ time
2875938e5e4bSQuentin Perret  * need to be aggregated differently depending on the usage made of them. This
2876a5418be9SViresh Kumar  * enum is used within effective_cpu_util() to differentiate the types of
2877938e5e4bSQuentin Perret  * utilization expected by the callers, and adjust the aggregation accordingly.
2878938e5e4bSQuentin Perret  */
2879a5418be9SViresh Kumar enum cpu_util_type {
2880938e5e4bSQuentin Perret 	FREQUENCY_UTIL,
2881938e5e4bSQuentin Perret 	ENERGY_UTIL,
2882938e5e4bSQuentin Perret };
2883938e5e4bSQuentin Perret 
2884a5418be9SViresh Kumar unsigned long effective_cpu_util(int cpu, unsigned long util_cfs,
2885bb447999SDietmar Eggemann 				 enum cpu_util_type type,
2886af24bde8SPatrick Bellasi 				 struct task_struct *p);
2887938e5e4bSQuentin Perret 
2888b3f53daaSDietmar Eggemann /*
2889b3f53daaSDietmar Eggemann  * Verify the fitness of task @p to run on @cpu taking into account the
2890b3f53daaSDietmar Eggemann  * CPU original capacity and the runtime/deadline ratio of the task.
2891b3f53daaSDietmar Eggemann  *
2892b3f53daaSDietmar Eggemann  * The function will return true if the original capacity of @cpu is
2893b3f53daaSDietmar Eggemann  * greater than or equal to task's deadline density right shifted by
2894b3f53daaSDietmar Eggemann  * (BW_SHIFT - SCHED_CAPACITY_SHIFT) and false otherwise.
2895b3f53daaSDietmar Eggemann  */
2896b3f53daaSDietmar Eggemann static inline bool dl_task_fits_capacity(struct task_struct *p, int cpu)
2897b3f53daaSDietmar Eggemann {
2898b3f53daaSDietmar Eggemann 	unsigned long cap = arch_scale_cpu_capacity(cpu);
2899b3f53daaSDietmar Eggemann 
2900b3f53daaSDietmar Eggemann 	return cap >= p->dl.dl_density >> (BW_SHIFT - SCHED_CAPACITY_SHIFT);
2901b3f53daaSDietmar Eggemann }
2902b3f53daaSDietmar Eggemann 
29038cc90515SVincent Guittot static inline unsigned long cpu_bw_dl(struct rq *rq)
2904d4edd662SJuri Lelli {
2905d4edd662SJuri Lelli 	return (rq->dl.running_bw * SCHED_CAPACITY_SCALE) >> BW_SHIFT;
2906d4edd662SJuri Lelli }
2907d4edd662SJuri Lelli 
29088cc90515SVincent Guittot static inline unsigned long cpu_util_dl(struct rq *rq)
29098cc90515SVincent Guittot {
29108cc90515SVincent Guittot 	return READ_ONCE(rq->avg_dl.util_avg);
29118cc90515SVincent Guittot }
29128cc90515SVincent Guittot 
291382762d2aSDietmar Eggemann /**
291482762d2aSDietmar Eggemann  * cpu_util_cfs() - Estimates the amount of CPU capacity used by CFS tasks.
291582762d2aSDietmar Eggemann  * @cpu: the CPU to get the utilization for.
291682762d2aSDietmar Eggemann  *
291782762d2aSDietmar Eggemann  * The unit of the return value must be the same as the one of CPU capacity
291882762d2aSDietmar Eggemann  * so that CPU utilization can be compared with CPU capacity.
291982762d2aSDietmar Eggemann  *
292082762d2aSDietmar Eggemann  * CPU utilization is the sum of running time of runnable tasks plus the
292182762d2aSDietmar Eggemann  * recent utilization of currently non-runnable tasks on that CPU.
292282762d2aSDietmar Eggemann  * It represents the amount of CPU capacity currently used by CFS tasks in
292382762d2aSDietmar Eggemann  * the range [0..max CPU capacity] with max CPU capacity being the CPU
292482762d2aSDietmar Eggemann  * capacity at f_max.
292582762d2aSDietmar Eggemann  *
292682762d2aSDietmar Eggemann  * The estimated CPU utilization is defined as the maximum between CPU
292782762d2aSDietmar Eggemann  * utilization and sum of the estimated utilization of the currently
292882762d2aSDietmar Eggemann  * runnable tasks on that CPU. It preserves a utilization "snapshot" of
292982762d2aSDietmar Eggemann  * previously-executed tasks, which helps better deduce how busy a CPU will
293082762d2aSDietmar Eggemann  * be when a long-sleeping task wakes up. The contribution to CPU utilization
293182762d2aSDietmar Eggemann  * of such a task would be significantly decayed at this point of time.
293282762d2aSDietmar Eggemann  *
293382762d2aSDietmar Eggemann  * CPU utilization can be higher than the current CPU capacity
293482762d2aSDietmar Eggemann  * (f_curr/f_max * max CPU capacity) or even the max CPU capacity because
293582762d2aSDietmar Eggemann  * of rounding errors as well as task migrations or wakeups of new tasks.
293682762d2aSDietmar Eggemann  * CPU utilization has to be capped to fit into the [0..max CPU capacity]
293782762d2aSDietmar Eggemann  * range. Otherwise a group of CPUs (CPU0 util = 121% + CPU1 util = 80%)
293882762d2aSDietmar Eggemann  * could be seen as over-utilized even though CPU1 has 20% of spare CPU
293982762d2aSDietmar Eggemann  * capacity. CPU utilization is allowed to overshoot current CPU capacity
294082762d2aSDietmar Eggemann  * though since this is useful for predicting the CPU capacity required
294182762d2aSDietmar Eggemann  * after task migrations (scheduler-driven DVFS).
294282762d2aSDietmar Eggemann  *
294382762d2aSDietmar Eggemann  * Return: (Estimated) utilization for the specified CPU.
294482762d2aSDietmar Eggemann  */
294582762d2aSDietmar Eggemann static inline unsigned long cpu_util_cfs(int cpu)
2946d4edd662SJuri Lelli {
294782762d2aSDietmar Eggemann 	struct cfs_rq *cfs_rq;
294882762d2aSDietmar Eggemann 	unsigned long util;
294982762d2aSDietmar Eggemann 
295082762d2aSDietmar Eggemann 	cfs_rq = &cpu_rq(cpu)->cfs;
295182762d2aSDietmar Eggemann 	util = READ_ONCE(cfs_rq->avg.util_avg);
2952a07630b8SPatrick Bellasi 
2953a07630b8SPatrick Bellasi 	if (sched_feat(UTIL_EST)) {
2954a07630b8SPatrick Bellasi 		util = max_t(unsigned long, util,
295582762d2aSDietmar Eggemann 			     READ_ONCE(cfs_rq->avg.util_est.enqueued));
2956a07630b8SPatrick Bellasi 	}
2957a07630b8SPatrick Bellasi 
295882762d2aSDietmar Eggemann 	return min(util, capacity_orig_of(cpu));
2959d4edd662SJuri Lelli }
2960371bf427SVincent Guittot 
2961371bf427SVincent Guittot static inline unsigned long cpu_util_rt(struct rq *rq)
2962371bf427SVincent Guittot {
2963dfa444dcSVincent Guittot 	return READ_ONCE(rq->avg_rt.util_avg);
2964371bf427SVincent Guittot }
29657d6a905fSViresh Kumar #endif
29669033ea11SVincent Guittot 
29677a17e1dbSQais Yousef #ifdef CONFIG_UCLAMP_TASK
29687a17e1dbSQais Yousef unsigned long uclamp_eff_value(struct task_struct *p, enum uclamp_id clamp_id);
29697a17e1dbSQais Yousef 
29707a17e1dbSQais Yousef /**
29717a17e1dbSQais Yousef  * uclamp_rq_util_with - clamp @util with @rq and @p effective uclamp values.
29727a17e1dbSQais Yousef  * @rq:		The rq to clamp against. Must not be NULL.
29737a17e1dbSQais Yousef  * @util:	The util value to clamp.
29747a17e1dbSQais Yousef  * @p:		The task to clamp against. Can be NULL if you want to clamp
29757a17e1dbSQais Yousef  *		against @rq only.
29767a17e1dbSQais Yousef  *
29777a17e1dbSQais Yousef  * Clamps the passed @util to the max(@rq, @p) effective uclamp values.
29787a17e1dbSQais Yousef  *
29797a17e1dbSQais Yousef  * If sched_uclamp_used static key is disabled, then just return the util
29807a17e1dbSQais Yousef  * without any clamping since uclamp aggregation at the rq level in the fast
29817a17e1dbSQais Yousef  * path is disabled, rendering this operation a NOP.
29827a17e1dbSQais Yousef  *
29837a17e1dbSQais Yousef  * Use uclamp_eff_value() if you don't care about uclamp values at rq level. It
29847a17e1dbSQais Yousef  * will return the correct effective uclamp value of the task even if the
29857a17e1dbSQais Yousef  * static key is disabled.
29867a17e1dbSQais Yousef  */
29877a17e1dbSQais Yousef static __always_inline
29887a17e1dbSQais Yousef unsigned long uclamp_rq_util_with(struct rq *rq, unsigned long util,
29897a17e1dbSQais Yousef 				  struct task_struct *p)
29907a17e1dbSQais Yousef {
29917a17e1dbSQais Yousef 	unsigned long min_util = 0;
29927a17e1dbSQais Yousef 	unsigned long max_util = 0;
29937a17e1dbSQais Yousef 
29947a17e1dbSQais Yousef 	if (!static_branch_likely(&sched_uclamp_used))
29957a17e1dbSQais Yousef 		return util;
29967a17e1dbSQais Yousef 
29977a17e1dbSQais Yousef 	if (p) {
29987a17e1dbSQais Yousef 		min_util = uclamp_eff_value(p, UCLAMP_MIN);
29997a17e1dbSQais Yousef 		max_util = uclamp_eff_value(p, UCLAMP_MAX);
30007a17e1dbSQais Yousef 
30017a17e1dbSQais Yousef 		/*
30027a17e1dbSQais Yousef 		 * Ignore last runnable task's max clamp, as this task will
30037a17e1dbSQais Yousef 		 * reset it. Similarly, no need to read the rq's min clamp.
30047a17e1dbSQais Yousef 		 */
30057a17e1dbSQais Yousef 		if (rq->uclamp_flags & UCLAMP_FLAG_IDLE)
30067a17e1dbSQais Yousef 			goto out;
30077a17e1dbSQais Yousef 	}
30087a17e1dbSQais Yousef 
30097a17e1dbSQais Yousef 	min_util = max_t(unsigned long, min_util, READ_ONCE(rq->uclamp[UCLAMP_MIN].value));
30107a17e1dbSQais Yousef 	max_util = max_t(unsigned long, max_util, READ_ONCE(rq->uclamp[UCLAMP_MAX].value));
30117a17e1dbSQais Yousef out:
30127a17e1dbSQais Yousef 	/*
30137a17e1dbSQais Yousef 	 * Since CPU's {min,max}_util clamps are MAX aggregated considering
30147a17e1dbSQais Yousef 	 * RUNNABLE tasks with _different_ clamps, we can end up with an
30157a17e1dbSQais Yousef 	 * inversion. Fix it now when the clamps are applied.
30167a17e1dbSQais Yousef 	 */
30177a17e1dbSQais Yousef 	if (unlikely(min_util >= max_util))
30187a17e1dbSQais Yousef 		return min_util;
30197a17e1dbSQais Yousef 
30207a17e1dbSQais Yousef 	return clamp(util, min_util, max_util);
30217a17e1dbSQais Yousef }
30227a17e1dbSQais Yousef 
30237a17e1dbSQais Yousef /* Is the rq being capped/throttled by uclamp_max? */
30247a17e1dbSQais Yousef static inline bool uclamp_rq_is_capped(struct rq *rq)
30257a17e1dbSQais Yousef {
30267a17e1dbSQais Yousef 	unsigned long rq_util;
30277a17e1dbSQais Yousef 	unsigned long max_util;
30287a17e1dbSQais Yousef 
30297a17e1dbSQais Yousef 	if (!static_branch_likely(&sched_uclamp_used))
30307a17e1dbSQais Yousef 		return false;
30317a17e1dbSQais Yousef 
30327a17e1dbSQais Yousef 	rq_util = cpu_util_cfs(cpu_of(rq)) + cpu_util_rt(rq);
30337a17e1dbSQais Yousef 	max_util = READ_ONCE(rq->uclamp[UCLAMP_MAX].value);
30347a17e1dbSQais Yousef 
30357a17e1dbSQais Yousef 	return max_util != SCHED_CAPACITY_SCALE && rq_util >= max_util;
30367a17e1dbSQais Yousef }
30377a17e1dbSQais Yousef 
30387a17e1dbSQais Yousef /*
30397a17e1dbSQais Yousef  * When uclamp is compiled in, the aggregation at rq level is 'turned off'
30407a17e1dbSQais Yousef  * by default in the fast path and only gets turned on once userspace performs
30417a17e1dbSQais Yousef  * an operation that requires it.
30427a17e1dbSQais Yousef  *
30437a17e1dbSQais Yousef  * Returns true if userspace opted-in to use uclamp and aggregation at rq level
30447a17e1dbSQais Yousef  * hence is active.
30457a17e1dbSQais Yousef  */
30467a17e1dbSQais Yousef static inline bool uclamp_is_used(void)
30477a17e1dbSQais Yousef {
30487a17e1dbSQais Yousef 	return static_branch_likely(&sched_uclamp_used);
30497a17e1dbSQais Yousef }
30507a17e1dbSQais Yousef #else /* CONFIG_UCLAMP_TASK */
30517a17e1dbSQais Yousef static inline
30527a17e1dbSQais Yousef unsigned long uclamp_rq_util_with(struct rq *rq, unsigned long util,
30537a17e1dbSQais Yousef 				  struct task_struct *p)
30547a17e1dbSQais Yousef {
30557a17e1dbSQais Yousef 	return util;
30567a17e1dbSQais Yousef }
30577a17e1dbSQais Yousef 
30587a17e1dbSQais Yousef static inline bool uclamp_rq_is_capped(struct rq *rq) { return false; }
30597a17e1dbSQais Yousef 
30607a17e1dbSQais Yousef static inline bool uclamp_is_used(void)
30617a17e1dbSQais Yousef {
30627a17e1dbSQais Yousef 	return false;
30637a17e1dbSQais Yousef }
30647a17e1dbSQais Yousef #endif /* CONFIG_UCLAMP_TASK */
30657a17e1dbSQais Yousef 
306611d4afd4SVincent Guittot #ifdef CONFIG_HAVE_SCHED_AVG_IRQ
30679033ea11SVincent Guittot static inline unsigned long cpu_util_irq(struct rq *rq)
30689033ea11SVincent Guittot {
30699033ea11SVincent Guittot 	return rq->avg_irq.util_avg;
30709033ea11SVincent Guittot }
30712e62c474SVincent Guittot 
30722e62c474SVincent Guittot static inline
30732e62c474SVincent Guittot unsigned long scale_irq_capacity(unsigned long util, unsigned long irq, unsigned long max)
30742e62c474SVincent Guittot {
30752e62c474SVincent Guittot 	util *= (max - irq);
30762e62c474SVincent Guittot 	util /= max;
30772e62c474SVincent Guittot 
30782e62c474SVincent Guittot 	return util;
30792e62c474SVincent Guittot 
30802e62c474SVincent Guittot }
30819033ea11SVincent Guittot #else
30829033ea11SVincent Guittot static inline unsigned long cpu_util_irq(struct rq *rq)
30839033ea11SVincent Guittot {
30849033ea11SVincent Guittot 	return 0;
30859033ea11SVincent Guittot }
30869033ea11SVincent Guittot 
30872e62c474SVincent Guittot static inline
30882e62c474SVincent Guittot unsigned long scale_irq_capacity(unsigned long util, unsigned long irq, unsigned long max)
30892e62c474SVincent Guittot {
30902e62c474SVincent Guittot 	return util;
30912e62c474SVincent Guittot }
3092794a56ebSJuri Lelli #endif
30936aa140faSQuentin Perret 
3094531b5c9fSQuentin Perret #if defined(CONFIG_ENERGY_MODEL) && defined(CONFIG_CPU_FREQ_GOV_SCHEDUTIL)
30951f74de87SQuentin Perret 
3096f8a696f2SPeter Zijlstra #define perf_domain_span(pd) (to_cpumask(((pd)->em_pd->cpus)))
3097f8a696f2SPeter Zijlstra 
3098f8a696f2SPeter Zijlstra DECLARE_STATIC_KEY_FALSE(sched_energy_present);
3099f8a696f2SPeter Zijlstra 
3100f8a696f2SPeter Zijlstra static inline bool sched_energy_enabled(void)
3101f8a696f2SPeter Zijlstra {
3102f8a696f2SPeter Zijlstra 	return static_branch_unlikely(&sched_energy_present);
3103f8a696f2SPeter Zijlstra }
3104f8a696f2SPeter Zijlstra 
3105f8a696f2SPeter Zijlstra #else /* ! (CONFIG_ENERGY_MODEL && CONFIG_CPU_FREQ_GOV_SCHEDUTIL) */
3106f8a696f2SPeter Zijlstra 
3107f8a696f2SPeter Zijlstra #define perf_domain_span(pd) NULL
3108f8a696f2SPeter Zijlstra static inline bool sched_energy_enabled(void) { return false; }
3109f8a696f2SPeter Zijlstra 
3110f8a696f2SPeter Zijlstra #endif /* CONFIG_ENERGY_MODEL && CONFIG_CPU_FREQ_GOV_SCHEDUTIL */
3111227a4aadSMathieu Desnoyers 
3112227a4aadSMathieu Desnoyers #ifdef CONFIG_MEMBARRIER
3113227a4aadSMathieu Desnoyers /*
3114227a4aadSMathieu Desnoyers  * The scheduler provides memory barriers required by membarrier between:
3115227a4aadSMathieu Desnoyers  * - prior user-space memory accesses and store to rq->membarrier_state,
3116227a4aadSMathieu Desnoyers  * - store to rq->membarrier_state and following user-space memory accesses.
3117227a4aadSMathieu Desnoyers  * In the same way it provides those guarantees around store to rq->curr.
3118227a4aadSMathieu Desnoyers  */
3119227a4aadSMathieu Desnoyers static inline void membarrier_switch_mm(struct rq *rq,
3120227a4aadSMathieu Desnoyers 					struct mm_struct *prev_mm,
3121227a4aadSMathieu Desnoyers 					struct mm_struct *next_mm)
3122227a4aadSMathieu Desnoyers {
3123227a4aadSMathieu Desnoyers 	int membarrier_state;
3124227a4aadSMathieu Desnoyers 
3125227a4aadSMathieu Desnoyers 	if (prev_mm == next_mm)
3126227a4aadSMathieu Desnoyers 		return;
3127227a4aadSMathieu Desnoyers 
3128227a4aadSMathieu Desnoyers 	membarrier_state = atomic_read(&next_mm->membarrier_state);
3129227a4aadSMathieu Desnoyers 	if (READ_ONCE(rq->membarrier_state) == membarrier_state)
3130227a4aadSMathieu Desnoyers 		return;
3131227a4aadSMathieu Desnoyers 
3132227a4aadSMathieu Desnoyers 	WRITE_ONCE(rq->membarrier_state, membarrier_state);
3133227a4aadSMathieu Desnoyers }
3134227a4aadSMathieu Desnoyers #else
3135227a4aadSMathieu Desnoyers static inline void membarrier_switch_mm(struct rq *rq,
3136227a4aadSMathieu Desnoyers 					struct mm_struct *prev_mm,
3137227a4aadSMathieu Desnoyers 					struct mm_struct *next_mm)
3138227a4aadSMathieu Desnoyers {
3139227a4aadSMathieu Desnoyers }
3140227a4aadSMathieu Desnoyers #endif
314152262ee5SMel Gorman 
314252262ee5SMel Gorman #ifdef CONFIG_SMP
314352262ee5SMel Gorman static inline bool is_per_cpu_kthread(struct task_struct *p)
314452262ee5SMel Gorman {
314552262ee5SMel Gorman 	if (!(p->flags & PF_KTHREAD))
314652262ee5SMel Gorman 		return false;
314752262ee5SMel Gorman 
314852262ee5SMel Gorman 	if (p->nr_cpus_allowed != 1)
314952262ee5SMel Gorman 		return false;
315052262ee5SMel Gorman 
315152262ee5SMel Gorman 	return true;
315252262ee5SMel Gorman }
315352262ee5SMel Gorman #endif
3154b3212fe2SThomas Gleixner 
31551011dcceSPeter Zijlstra extern void swake_up_all_locked(struct swait_queue_head *q);
31561011dcceSPeter Zijlstra extern void __prepare_to_swait(struct swait_queue_head *q, struct swait_queue *wait);
31571011dcceSPeter Zijlstra 
31581011dcceSPeter Zijlstra #ifdef CONFIG_PREEMPT_DYNAMIC
31591011dcceSPeter Zijlstra extern int preempt_dynamic_mode;
31601011dcceSPeter Zijlstra extern int sched_dynamic_mode(const char *str);
31611011dcceSPeter Zijlstra extern void sched_dynamic_update(int mode);
31621011dcceSPeter Zijlstra #endif
31631011dcceSPeter Zijlstra 
316495458477SIngo Molnar #endif /* _KERNEL_SCHED_SCHED_H */
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