1 files changed, 238 insertions, 6 deletions
diff --git a/litmus/sched_psn_edf.c b/litmus/sched_psn_edf.c
index fc64c1722ae9..801bc92c5835 100644
--- a/litmus/sched_psn_edf.c
+++ b/litmus/sched_psn_edf.c
@@ -71,6 +71,66 @@ static void preempt(psnedf_domain_t *pedf)
        preempt_if_preemptable(pedf->scheduled, pedf->cpu);
 }
+#ifdef CONFIG_LITMUS_LOCKING
+static void boost_priority(struct task_struct* t)
+{
+        unsigned long           flags;
+        psnedf_domain_t*        pedf = task_pedf(t);
+        lt_t                    now;
+        raw_spin_lock_irqsave(&pedf->slock, flags);
+        now = litmus_clock();
+        TRACE_TASK(t, "priority boosted at %llu\n", now);
+        tsk_rt(t)->priority_boosted = 1;
+        tsk_rt(t)->boost_start_time = now;
+        if (pedf->scheduled != t) {
+                /* holder may be queued: first stop queue changes */
+                raw_spin_lock(&pedf->domain.release_lock);
+                if (is_queued(t) &&
+                    /* If it is queued, then we need to re-order. */
+                    bheap_decrease(edf_ready_order, tsk_rt(t)->heap_node) &&
+                    /* If we bubbled to the top, then we need to check for preemptions. */
+                    edf_preemption_needed(&pedf->domain, pedf->scheduled))
+                                preempt(pedf);
+                raw_spin_unlock(&pedf->domain.release_lock);
+        } /* else: nothing to do since the job is not queued while scheduled */
+        raw_spin_unlock_irqrestore(&pedf->slock, flags);
+}
+static void unboost_priority(struct task_struct* t)
+{
+        unsigned long           flags;
+        psnedf_domain_t*        pedf = task_pedf(t);
+        lt_t                    now;
+        raw_spin_lock_irqsave(&pedf->slock, flags);
+        now = litmus_clock();
+        /* assumption: this only happens when the job is scheduled */
+        BUG_ON(pedf->scheduled != t);
+        TRACE_TASK(t, "priority restored at %llu\n", now);
+        /* priority boosted jobs must be scheduled */
+        BUG_ON(pedf->scheduled != t);
+        tsk_rt(t)->priority_boosted = 0;
+        tsk_rt(t)->boost_start_time = 0;
+        /* check if this changes anything */
+        if (edf_preemption_needed(&pedf->domain, pedf->scheduled))
+                preempt(pedf);
+        raw_spin_unlock_irqrestore(&pedf->slock, flags);
+}
+#endif
 /* This check is trivial in partioned systems as we only have to consider
 * the CPU of the partition.
 */
@@ -252,15 +312,16 @@ static void psnedf_task_wake_up(struct task_struct *task)
        TRACE_TASK(task, "wake_up at %llu\n", litmus_clock());
        raw_spin_lock_irqsave(&pedf->slock, flags);
        BUG_ON(is_queued(task));
+        now = litmus_clock();
+        if (is_tardy(task, now)
+#ifdef CONFIG_LITMUS_LOCKING
        /* We need to take suspensions because of semaphores into
         * account! If a job resumes after being suspended due to acquiring
         * a semaphore, it should never be treated as a new job release.
-         *
-         * FIXME: This should be done in some more predictable and userspace-controlled way.
         */
-        now = litmus_clock();
+            && !is_priority_boosted(task)
-        if (is_tardy(task, now) &&
+#endif
-            get_rt_flags(task) != RT_F_EXIT_SEM) {
+                ) {
                /* new sporadic release */
                release_at(task, now);
                sched_trace_task_release(task);
@@ -314,6 +375,8 @@ static void psnedf_task_exit(struct task_struct * t)
 #include <litmus/fdso.h>
 #include <litmus/srp.h>
+/* ******************** SRP support ************************ */
 static unsigned int psnedf_get_srp_prio(struct task_struct* t)
 {
        /* assumes implicit deadlines */
@@ -326,14 +389,183 @@ static long psnedf_activate_plugin(void)
        return 0;
 }
+/* ******************** FMLP support ********************** */
+/* struct for semaphore with priority inheritance */
+struct fmlp_semaphore {
+        struct litmus_lock litmus_lock;
+        /* current resource holder */
+        struct task_struct *owner;
+        /* FIFO queue of waiting tasks */
+        wait_queue_head_t wait;
+};
+static inline struct fmlp_semaphore* fmlp_from_lock(struct litmus_lock* lock)
+{
+        return container_of(lock, struct fmlp_semaphore, litmus_lock);
+}
+int psnedf_fmlp_lock(struct litmus_lock* l)
+{
+        struct task_struct* t = current;
+        struct fmlp_semaphore *sem = fmlp_from_lock(l);
+        wait_queue_t wait;
+        unsigned long flags;
+        if (!is_realtime(t))
+                return -EPERM;
+        spin_lock_irqsave(&sem->wait.lock, flags);
+        if (sem->owner) {
+                /* resource is not free => must suspend and wait */
+                init_waitqueue_entry(&wait, t);
+                /* FIXME: interruptible would be nice some day */
+                set_task_state(t, TASK_UNINTERRUPTIBLE);
+                __add_wait_queue_tail_exclusive(&sem->wait, &wait);
+                /* release lock before sleeping */
+                spin_unlock_irqrestore(&sem->wait.lock, flags);
+                /* We depend on the FIFO order.  Thus, we don't need to recheck
+                 * when we wake up; we are guaranteed to have the lock since
+                 * there is only one wake up per release.
+                 */
+                schedule();
+                /* Since we hold the lock, no other task will change
+                 * ->owner. We can thus check it without acquiring the spin
+                 * lock. */
+                BUG_ON(sem->owner != t);
+                /* FIXME: could we punt the dequeuing to the previous job,
+                 * which is holding the spinlock anyway? */
+                remove_wait_queue(&sem->wait, &wait);
+        } else {
+                /* it's ours now */
+                sem->owner = t;
+                /* mark the task as priority-boosted. */
+                boost_priority(t);
+                spin_unlock_irqrestore(&sem->wait.lock, flags);
+        }
+        return 0;
+}
+int psnedf_fmlp_unlock(struct litmus_lock* l)
+{
+        struct task_struct *t = current, *next;
+        struct fmlp_semaphore *sem = fmlp_from_lock(l);
+        unsigned long flags;
+        int err = 0;
+        spin_lock_irqsave(&sem->wait.lock, flags);
+        if (sem->owner != t) {
+                err = -EINVAL;
+                goto out;
+        }
+        /* we lose the benefit of priority boosting */
+        unboost_priority(t);
+        /* check if there are jobs waiting for this resource */
+        next = waitqueue_first(&sem->wait);
+        if (next) {
+                /* boost next job */
+                boost_priority(next);
+                /* next becomes the resouce holder */
+                sem->owner = next;
+                /* wake up next */
+                wake_up_process(next);
+        } else
+                /* resource becomes available */
+                sem->owner = NULL;
+out:
+        spin_unlock_irqrestore(&sem->wait.lock, flags);
+        return err;
+}
+int psnedf_fmlp_close(struct litmus_lock* l)
+{
+        struct task_struct *t = current;
+        struct fmlp_semaphore *sem = fmlp_from_lock(l);
+        unsigned long flags;
+        int owner;
+        spin_lock_irqsave(&sem->wait.lock, flags);
+        owner = sem->owner == t;
+        spin_unlock_irqrestore(&sem->wait.lock, flags);
+        if (owner)
+                psnedf_fmlp_unlock(l);
+        return 0;
+}
+void psnedf_fmlp_free(struct litmus_lock* lock)
+{
+        kfree(fmlp_from_lock(lock));
+}
+static struct litmus_lock_ops psnedf_fmlp_lock_ops = {
+        .close  = psnedf_fmlp_close,
+        .lock   = psnedf_fmlp_lock,
+        .unlock = psnedf_fmlp_unlock,
+        .deallocate = psnedf_fmlp_free,
+};
+static struct litmus_lock* psnedf_new_fmlp(void)
+{
+        struct fmlp_semaphore* sem;
+        sem = kmalloc(sizeof(*sem), GFP_KERNEL);
+        if (!sem)
+                return NULL;
+        sem->owner   = NULL;
+        init_waitqueue_head(&sem->wait);
+        sem->litmus_lock.ops = &psnedf_fmlp_lock_ops;
+        return &sem->litmus_lock;
+}
+/* **** lock constructor **** */
 static long psnedf_allocate_lock(struct litmus_lock **lock, int type)
 {
        int err = -ENXIO;
        struct srp_semaphore* srp;
+        /* PSN-EDF currently supports the SRP for local resources and the FMLP
+         * for global resources. */
        switch (type) {
+        case FMLP_SEM:
+                /* Flexible Multiprocessor Locking Protocol */
+                *lock = psnedf_new_fmlp();
+                if (*lock)
+                        err = 0;
+                else
+                        err = -ENOMEM;
+                break;
        case SRP_SEM:
-                /* Baker's SRP */
+                /* Baker's Stack Resource Policy */
                srp = allocate_srp_semaphore();
                if (srp) {
                        *lock = &srp->litmus_lock;

diff --git a/litmus/sched_psn_edf.c b/litmus/sched_psn_edf.c index fc64c1722ae9..801bc92c5835 100644 --- a/litmus/sched_psn_edf.c +++ b/litmus/sched_psn_edf.c
@@ -71,6 +71,66 @@ static void preempt(psnedf_domain_t *pedf)
71	preempt_if_preemptable(pedf->scheduled, pedf->cpu);	71	preempt_if_preemptable(pedf->scheduled, pedf->cpu);
72	}	72	}
73		73
		74	#ifdef CONFIG_LITMUS_LOCKING
		75
		76	static void boost_priority(struct task_struct* t)
		77	{
		78	unsigned long flags;
		79	psnedf_domain_t* pedf = task_pedf(t);
		80	lt_t now;
		81
		82	raw_spin_lock_irqsave(&pedf->slock, flags);
		83	now = litmus_clock();
		84
		85	TRACE_TASK(t, "priority boosted at %llu\n", now);
		86
		87	tsk_rt(t)->priority_boosted = 1;
		88	tsk_rt(t)->boost_start_time = now;
		89
		90	if (pedf->scheduled != t) {
		91	/* holder may be queued: first stop queue changes */
		92	raw_spin_lock(&pedf->domain.release_lock);
		93	if (is_queued(t) &&
		94	/* If it is queued, then we need to re-order. */
		95	bheap_decrease(edf_ready_order, tsk_rt(t)->heap_node) &&
		96	/* If we bubbled to the top, then we need to check for preemptions. */
		97	edf_preemption_needed(&pedf->domain, pedf->scheduled))
		98	preempt(pedf);
		99	raw_spin_unlock(&pedf->domain.release_lock);
		100	} /* else: nothing to do since the job is not queued while scheduled */
		101
		102	raw_spin_unlock_irqrestore(&pedf->slock, flags);
		103	}
		104
		105	static void unboost_priority(struct task_struct* t)
		106	{
		107	unsigned long flags;
		108	psnedf_domain_t* pedf = task_pedf(t);
		109	lt_t now;
		110
		111	raw_spin_lock_irqsave(&pedf->slock, flags);
		112	now = litmus_clock();
		113
		114	/* assumption: this only happens when the job is scheduled */
		115	BUG_ON(pedf->scheduled != t);
		116
		117	TRACE_TASK(t, "priority restored at %llu\n", now);
		118
		119	/* priority boosted jobs must be scheduled */
		120	BUG_ON(pedf->scheduled != t);
		121
		122	tsk_rt(t)->priority_boosted = 0;
		123	tsk_rt(t)->boost_start_time = 0;
		124
		125	/* check if this changes anything */
		126	if (edf_preemption_needed(&pedf->domain, pedf->scheduled))
		127	preempt(pedf);
		128
		129	raw_spin_unlock_irqrestore(&pedf->slock, flags);
		130	}
		131
		132	#endif
		133
74	/* This check is trivial in partioned systems as we only have to consider	134	/* This check is trivial in partioned systems as we only have to consider
75	* the CPU of the partition.	135	* the CPU of the partition.
76	*/	136	*/
@@ -252,15 +312,16 @@ static void psnedf_task_wake_up(struct task_struct *task)
252	TRACE_TASK(task, "wake_up at %llu\n", litmus_clock());	312	TRACE_TASK(task, "wake_up at %llu\n", litmus_clock());
253	raw_spin_lock_irqsave(&pedf->slock, flags);	313	raw_spin_lock_irqsave(&pedf->slock, flags);
254	BUG_ON(is_queued(task));	314	BUG_ON(is_queued(task));
		315	now = litmus_clock();
		316	if (is_tardy(task, now)
		317	#ifdef CONFIG_LITMUS_LOCKING
255	/* We need to take suspensions because of semaphores into	318	/* We need to take suspensions because of semaphores into
256	* account! If a job resumes after being suspended due to acquiring	319	* account! If a job resumes after being suspended due to acquiring
257	* a semaphore, it should never be treated as a new job release.	320	* a semaphore, it should never be treated as a new job release.
258	*
259	* FIXME: This should be done in some more predictable and userspace-controlled way.
260	*/	321	*/
261	now = litmus_clock();	322	&& !is_priority_boosted(task)
262	if (is_tardy(task, now) &&	323	#endif
263	get_rt_flags(task) != RT_F_EXIT_SEM) {	324	) {
264	/* new sporadic release */	325	/* new sporadic release */
265	release_at(task, now);	326	release_at(task, now);
266	sched_trace_task_release(task);	327	sched_trace_task_release(task);
@@ -314,6 +375,8 @@ static void psnedf_task_exit(struct task_struct * t)
314	#include <litmus/fdso.h>	375	#include <litmus/fdso.h>
315	#include <litmus/srp.h>	376	#include <litmus/srp.h>
316		377
		378	/* ****************** SRP support ********************** */
		379
317	static unsigned int psnedf_get_srp_prio(struct task_struct* t)	380	static unsigned int psnedf_get_srp_prio(struct task_struct* t)
318	{	381	{
319	/* assumes implicit deadlines */	382	/* assumes implicit deadlines */
@@ -326,14 +389,183 @@ static long psnedf_activate_plugin(void)
326	return 0;	389	return 0;
327	}	390	}
328		391
		392	/* ****************** FMLP support ******************** */
		393
		394	/* struct for semaphore with priority inheritance */
		395	struct fmlp_semaphore {
		396	struct litmus_lock litmus_lock;
		397
		398	/* current resource holder */
		399	struct task_struct *owner;
		400
		401	/* FIFO queue of waiting tasks */
		402	wait_queue_head_t wait;
		403	};
		404
		405	static inline struct fmlp_semaphore* fmlp_from_lock(struct litmus_lock* lock)
		406	{
		407	return container_of(lock, struct fmlp_semaphore, litmus_lock);
		408	}
		409	int psnedf_fmlp_lock(struct litmus_lock* l)
		410	{
		411	struct task_struct* t = current;
		412	struct fmlp_semaphore *sem = fmlp_from_lock(l);
		413	wait_queue_t wait;
		414	unsigned long flags;
		415
		416	if (!is_realtime(t))
		417	return -EPERM;
		418
		419	spin_lock_irqsave(&sem->wait.lock, flags);
		420
		421	if (sem->owner) {
		422	/* resource is not free => must suspend and wait */
		423
		424	init_waitqueue_entry(&wait, t);
		425
		426	/* FIXME: interruptible would be nice some day */
		427	set_task_state(t, TASK_UNINTERRUPTIBLE);
		428
		429	__add_wait_queue_tail_exclusive(&sem->wait, &wait);
		430
		431	/* release lock before sleeping */
		432	spin_unlock_irqrestore(&sem->wait.lock, flags);
		433
		434	/* We depend on the FIFO order. Thus, we don't need to recheck
		435	* when we wake up; we are guaranteed to have the lock since
		436	* there is only one wake up per release.
		437	*/
		438
		439	schedule();
		440
		441	/* Since we hold the lock, no other task will change
		442	* ->owner. We can thus check it without acquiring the spin
		443	* lock. */
		444	BUG_ON(sem->owner != t);
		445
		446	/* FIXME: could we punt the dequeuing to the previous job,
		447	* which is holding the spinlock anyway? */
		448	remove_wait_queue(&sem->wait, &wait);
		449	} else {
		450	/* it's ours now */
		451	sem->owner = t;
		452
		453	/* mark the task as priority-boosted. */
		454	boost_priority(t);
		455
		456	spin_unlock_irqrestore(&sem->wait.lock, flags);
		457	}
		458
		459	return 0;
		460	}
		461
		462	int psnedf_fmlp_unlock(struct litmus_lock* l)
		463	{
		464	struct task_struct t = current, next;
		465	struct fmlp_semaphore *sem = fmlp_from_lock(l);
		466	unsigned long flags;
		467	int err = 0;
		468
		469	spin_lock_irqsave(&sem->wait.lock, flags);
		470
		471	if (sem->owner != t) {
		472	err = -EINVAL;
		473	goto out;
		474	}
		475
		476	/* we lose the benefit of priority boosting */
		477
		478	unboost_priority(t);
		479
		480	/* check if there are jobs waiting for this resource */
		481	next = waitqueue_first(&sem->wait);
		482	if (next) {
		483	/* boost next job */
		484	boost_priority(next);
		485
		486	/* next becomes the resouce holder */
		487	sem->owner = next;
		488
		489	/* wake up next */
		490	wake_up_process(next);
		491	} else
		492	/* resource becomes available */
		493	sem->owner = NULL;
		494
		495	out:
		496	spin_unlock_irqrestore(&sem->wait.lock, flags);
		497	return err;
		498	}
		499
		500	int psnedf_fmlp_close(struct litmus_lock* l)
		501	{
		502	struct task_struct *t = current;
		503	struct fmlp_semaphore *sem = fmlp_from_lock(l);
		504	unsigned long flags;
		505
		506	int owner;
		507
		508	spin_lock_irqsave(&sem->wait.lock, flags);
		509
		510	owner = sem->owner == t;
		511
		512	spin_unlock_irqrestore(&sem->wait.lock, flags);
		513
		514	if (owner)
		515	psnedf_fmlp_unlock(l);
		516
		517	return 0;
		518	}
		519
		520	void psnedf_fmlp_free(struct litmus_lock* lock)
		521	{
		522	kfree(fmlp_from_lock(lock));
		523	}
		524
		525	static struct litmus_lock_ops psnedf_fmlp_lock_ops = {
		526	.close = psnedf_fmlp_close,
		527	.lock = psnedf_fmlp_lock,
		528	.unlock = psnedf_fmlp_unlock,
		529	.deallocate = psnedf_fmlp_free,
		530	};
		531
		532	static struct litmus_lock* psnedf_new_fmlp(void)
		533	{
		534	struct fmlp_semaphore* sem;
		535
		536	sem = kmalloc(sizeof(*sem), GFP_KERNEL);
		537	if (!sem)
		538	return NULL;
		539
		540	sem->owner = NULL;
		541	init_waitqueue_head(&sem->wait);
		542	sem->litmus_lock.ops = &psnedf_fmlp_lock_ops;
		543
		544	return &sem->litmus_lock;
		545	}
		546
		547	/* ** lock constructor ** */
		548
		549
329	static long psnedf_allocate_lock(struct litmus_lock **lock, int type)	550	static long psnedf_allocate_lock(struct litmus_lock **lock, int type)
330	{	551	{
331	int err = -ENXIO;	552	int err = -ENXIO;
332	struct srp_semaphore* srp;	553	struct srp_semaphore* srp;
333		554
		555	/* PSN-EDF currently supports the SRP for local resources and the FMLP
		556	* for global resources. */
334	switch (type) {	557	switch (type) {
		558	case FMLP_SEM:
		559	/* Flexible Multiprocessor Locking Protocol */
		560	*lock = psnedf_new_fmlp();
		561	if (*lock)
		562	err = 0;
		563	else
		564	err = -ENOMEM;
		565	break;
		566
335	case SRP_SEM:	567	case SRP_SEM:
336	/* Baker's SRP */	568	/* Baker's Stack Resource Policy */
337	srp = allocate_srp_semaphore();	569	srp = allocate_srp_semaphore();
338	if (srp) {	570	if (srp) {
339	*lock = &srp->litmus_lock;	571	*lock = &srp->litmus_lock;