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path: root/litmus/sched_cedf.c
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/*
 * litmus/sched_cedf.c
 *
 * Implementation of the C-EDF scheduling algorithm.
 *
 * This implementation is based on G-EDF:
 * - CPUs are clustered around L2 or L3 caches.
 * - Clusters topology is automatically detected (this is arch dependent
 *   and is working only on x86 at the moment --- and only with modern
 *   cpus that exports cpuid4 information)
 * - The plugins _does not_ attempt to put tasks in the right cluster i.e.
 *   the programmer needs to be aware of the topology to place tasks
 *   in the desired cluster
 * - default clustering is around L2 cache (cache index = 2)
 *   supported clusters are: L1 (private cache: pedf), L2, L3
 *
 *   For details on functions, take a look at sched_gsn_edf.c
 *
 * This version uses the simple approach and serializes all scheduling
 * decisions by the use of a queue lock. This is probably not the
 * best way to do it, but it should suffice for now.
 */

#include <linux/spinlock.h>
#include <linux/percpu.h>
#include <linux/sched.h>

#include <litmus/litmus.h>
#include <litmus/jobs.h>
#include <litmus/sched_plugin.h>
#include <litmus/edf_common.h>
#include <litmus/sched_trace.h>

#include <litmus/bheap.h>

#include <linux/module.h>

/* forward declaration... a funny thing with C ;) */
struct clusterdomain;

/* cpu_entry_t - maintain the linked and scheduled state
 *
 * A cpu also contains a pointer to the cedf_domain_t cluster
 * that owns it (struct clusterdomain*)
 */
typedef struct  {
	int 			cpu;
	struct clusterdomain*	cluster;	/* owning cluster */
	struct task_struct*	linked;		/* only RT tasks */
	struct task_struct*	scheduled;	/* only RT tasks */
	atomic_t		will_schedule;	/* prevent unneeded IPIs */
	struct bheap_node*	hn;
} cpu_entry_t;

/* one cpu_entry_t per CPU */
DEFINE_PER_CPU(cpu_entry_t, cedf_cpu_entries);

#define set_will_schedule() \
	(atomic_set(&__get_cpu_var(cedf_cpu_entries).will_schedule, 1))
#define clear_will_schedule() \
	(atomic_set(&__get_cpu_var(cedf_cpu_entries).will_schedule, 0))
#define test_will_schedule(cpu) \
	(atomic_read(&per_cpu(cedf_cpu_entries, cpu).will_schedule))

/*
 * In C-EDF there is a cedf domain _per_ cluster
 * The number of clusters is dynamically determined accordingly to the
 * total cpu number and the cluster size
 */
typedef struct clusterdomain {
	/* rt_domain for this cluster */
	rt_domain_t	domain;
	/* cpus in this cluster */
	cpu_entry_t*	*cpus;
	/* map of this cluster cpus */
	cpumask_var_t	cpu_map;
	/* the cpus queue themselves according to priority in here */
	struct bheap_node *heap_node;
	struct bheap      cpu_heap;
	/* lock for this cluster */
#define lock domain.ready_lock
} cedf_domain_t;

/* a cedf_domain per cluster; allocation is done at init/activation time */
cedf_domain_t *cedf;

#define remote_cluster(cpu)	((cedf_domain_t *) per_cpu(cedf_cpu_entries, cpu).cluster)
#define task_cpu_cluster(task)	remote_cluster(get_partition(task))

/* Uncomment WANT_ALL_SCHED_EVENTS if you want to see all scheduling
 * decisions in the TRACE() log; uncomment VERBOSE_INIT for verbose
 * information during the initialization of the plugin (e.g., topology)
#define WANT_ALL_SCHED_EVENTS
 */
#define VERBOSE_INIT

static int cpu_lower_prio(struct bheap_node *_a, struct bheap_node *_b)
{
	cpu_entry_t *a, *b;
	a = _a->value;
	b = _b->value;
	/* Note that a and b are inverted: we want the lowest-priority CPU at
	 * the top of the heap.
	 */
	return edf_higher_prio(b->linked, a->linked);
}

/* update_cpu_position - Move the cpu entry to the correct place to maintain
 *                       order in the cpu queue. Caller must hold cedf lock.
 */
static void update_cpu_position(cpu_entry_t *entry)
{
	cedf_domain_t *cluster = entry->cluster;

	if (likely(bheap_node_in_heap(entry->hn)))
		bheap_delete(cpu_lower_prio,
				&cluster->cpu_heap,
				entry->hn);

	bheap_insert(cpu_lower_prio, &cluster->cpu_heap, entry->hn);
}

/* caller must hold cedf lock */
static cpu_entry_t* lowest_prio_cpu(cedf_domain_t *cluster)
{
	struct bheap_node* hn;
	hn = bheap_peek(cpu_lower_prio, &cluster->cpu_heap);
	return hn->value;
}


/* link_task_to_cpu - Update the link of a CPU.
 *                    Handles the case where the to-be-linked task is already
 *                    scheduled on a different CPU.
 */
static noinline void link_task_to_cpu(struct task_struct* linked,
				      cpu_entry_t *entry)
{
	cpu_entry_t *sched;
	struct task_struct* tmp;
	int on_cpu;

	BUG_ON(linked && !is_realtime(linked));

	/* Currently linked task is set to be unlinked. */
	if (entry->linked) {
		entry->linked->rt_param.linked_on = NO_CPU;
	}

	/* Link new task to CPU. */
	if (linked) {
		set_rt_flags(linked, RT_F_RUNNING);
		/* handle task is already scheduled somewhere! */
		on_cpu = linked->rt_param.scheduled_on;
		if (on_cpu != NO_CPU) {
			sched = &per_cpu(cedf_cpu_entries, on_cpu);
			/* this should only happen if not linked already */
			BUG_ON(sched->linked == linked);

			/* If we are already scheduled on the CPU to which we
			 * wanted to link, we don't need to do the swap --
			 * we just link ourselves to the CPU and depend on
			 * the caller to get things right.
			 */
			if (entry != sched) {
				TRACE_TASK(linked,
					   "already scheduled on %d, updating link.\n",
					   sched->cpu);
				tmp = sched->linked;
				linked->rt_param.linked_on = sched->cpu;
				sched->linked = linked;
				update_cpu_position(sched);
				linked = tmp;
			}
		}
		if (linked) /* might be NULL due to swap */
			linked->rt_param.linked_on = entry->cpu;
	}
	entry->linked = linked;
#ifdef WANT_ALL_SCHED_EVENTS
	if (linked)
		TRACE_TASK(linked, "linked to %d.\n", entry->cpu);
	else
		TRACE("NULL linked to %d.\n", entry->cpu);
#endif
	update_cpu_position(entry);
}

/* unlink - Make sure a task is not linked any longer to an entry
 *          where it was linked before. Must hold cedf_lock.
 */
static noinline void unlink(struct task_struct* t)
{
    	cpu_entry_t *entry;

	if (unlikely(!t)) {
		TRACE_BUG_ON(!t);
		return;
	}


	if (t->rt_param.linked_on != NO_CPU) {
		/* unlink */
		entry = &per_cpu(cedf_cpu_entries, t->rt_param.linked_on);
		t->rt_param.linked_on = NO_CPU;
		link_task_to_cpu(NULL, entry);
	} else if (is_queued(t)) {
		/* This is an interesting situation: t is scheduled,
		 * but was just recently unlinked.  It cannot be
		 * linked anywhere else (because then it would have
		 * been relinked to this CPU), thus it must be in some
		 * queue. We must remove it from the list in this
		 * case.
		 *
		 * in C-EDF case is should be somewhere in the queue for
		 * its domain, therefore and we can get the domain using
		 * task_cpu_cluster
		 */
		remove(&(task_cpu_cluster(t))->domain, t);
	}
}


/* preempt - force a CPU to reschedule
 */
static void preempt(cpu_entry_t *entry)
{
	preempt_if_preemptable(entry->scheduled, entry->cpu);
}

/* requeue - Put an unlinked task into gsn-edf domain.
 *           Caller must hold cedf_lock.
 */
static noinline void requeue(struct task_struct* task)
{
	cedf_domain_t *cluster = task_cpu_cluster(task);
	BUG_ON(!task);
	/* sanity check before insertion */
	BUG_ON(is_queued(task));

	if (is_released(task, litmus_clock()))
		__add_ready(&cluster->domain, task);
	else {
		/* it has got to wait */
		add_release(&cluster->domain, task);
	}
}

/* check for any necessary preemptions */
static void check_for_preemptions(cedf_domain_t *cluster)
{
	struct task_struct *task;
	cpu_entry_t* last;

	for(last = lowest_prio_cpu(cluster);
	    edf_preemption_needed(&cluster->domain, last->linked);
	    last = lowest_prio_cpu(cluster)) {
		/* preemption necessary */
		task = __take_ready(&cluster->domain);
		TRACE("check_for_preemptions: attempting to link task %d to %d\n",
		      task->pid, last->cpu);
		if (last->linked)
			requeue(last->linked);
		link_task_to_cpu(task, last);
		preempt(last);
	}
}

/* cedf_job_arrival: task is either resumed or released */
static noinline void cedf_job_arrival(struct task_struct* task)
{
	cedf_domain_t *cluster = task_cpu_cluster(task);
	BUG_ON(!task);

	requeue(task);
	check_for_preemptions(cluster);
}

static void cedf_release_jobs(rt_domain_t* rt, struct bheap* tasks)
{
	cedf_domain_t* cluster = container_of(rt, cedf_domain_t, domain);
	unsigned long flags;

	spin_lock_irqsave(&cluster->lock, flags);

	__merge_ready(&cluster->domain, tasks);
	check_for_preemptions(cluster);

	spin_unlock_irqrestore(&cluster->lock, flags);
}

/* caller holds cedf_lock */
static noinline void job_completion(struct task_struct *t, int forced)
{
	BUG_ON(!t);

	sched_trace_task_completion(t, forced);

	TRACE_TASK(t, "job_completion().\n");

	/* set flags */
	set_rt_flags(t, RT_F_SLEEP);
	/* prepare for next period */
	prepare_for_next_period(t);
	if (is_released(t, litmus_clock()))
		sched_trace_task_release(t);
	/* unlink */
	unlink(t);
	/* requeue
	 * But don't requeue a blocking task. */
	if (is_running(t))
		cedf_job_arrival(t);
}

/* cedf_tick - this function is called for every local timer
 *                         interrupt.
 *
 *                   checks whether the current task has expired and checks
 *                   whether we need to preempt it if it has not expired
 */
static void cedf_tick(struct task_struct* t)
{
	if (is_realtime(t) && budget_exhausted(t)) {
		if (!is_np(t)) {
			/* np tasks will be preempted when they become
			 * preemptable again
			 */
			set_tsk_need_resched(t);
			set_will_schedule();
			TRACE("cedf_scheduler_tick: "
			      "%d is preemptable "
			      " => FORCE_RESCHED\n", t->pid);
		} else if (is_user_np(t)) {
			TRACE("cedf_scheduler_tick: "
			      "%d is non-preemptable, "
			      "preemption delayed.\n", t->pid);
			request_exit_np(t);
		}
	}
}

/* Getting schedule() right is a bit tricky. schedule() may not make any
 * assumptions on the state of the current task since it may be called for a
 * number of reasons. The reasons include a scheduler_tick() determined that it
 * was necessary, because sys_exit_np() was called, because some Linux
 * subsystem determined so, or even (in the worst case) because there is a bug
 * hidden somewhere. Thus, we must take extreme care to determine what the
 * current state is.
 *
 * The CPU could currently be scheduling a task (or not), be linked (or not).
 *
 * The following assertions for the scheduled task could hold:
 *
 *      - !is_running(scheduled)        // the job blocks
 *	- scheduled->timeslice == 0	// the job completed (forcefully)
 *	- get_rt_flag() == RT_F_SLEEP	// the job completed (by syscall)
 * 	- linked != scheduled		// we need to reschedule (for any reason)
 * 	- is_np(scheduled)		// rescheduling must be delayed,
 *					   sys_exit_np must be requested
 *
 * Any of these can occur together.
 */
static struct task_struct* cedf_schedule(struct task_struct * prev)
{
	cpu_entry_t* entry = &__get_cpu_var(cedf_cpu_entries);
	cedf_domain_t *cluster = entry->cluster;
	int out_of_time, sleep, preempt, np, exists, blocks;
	struct task_struct* next = NULL;

	spin_lock(&cluster->lock);
	clear_will_schedule();

	/* sanity checking */
	BUG_ON(entry->scheduled && entry->scheduled != prev);
	BUG_ON(entry->scheduled && !is_realtime(prev));
	BUG_ON(is_realtime(prev) && !entry->scheduled);

	/* (0) Determine state */
	exists      = entry->scheduled != NULL;
	blocks      = exists && !is_running(entry->scheduled);
	out_of_time = exists && budget_exhausted(entry->scheduled);
	np 	    = exists && is_np(entry->scheduled);
	sleep	    = exists && get_rt_flags(entry->scheduled) == RT_F_SLEEP;
	preempt     = entry->scheduled != entry->linked;

#ifdef WANT_ALL_SCHED_EVENTS
	TRACE_TASK(prev, "invoked cedf_schedule.\n");
#endif

	if (exists)
		TRACE_TASK(prev,
			   "blocks:%d out_of_time:%d np:%d sleep:%d preempt:%d "
			   "state:%d sig:%d\n",
			   blocks, out_of_time, np, sleep, preempt,
			   prev->state, signal_pending(prev));
	if (entry->linked && preempt)
		TRACE_TASK(prev, "will be preempted by %s/%d\n",
			   entry->linked->comm, entry->linked->pid);


	/* If a task blocks we have no choice but to reschedule.
	 */
	if (blocks)
		unlink(entry->scheduled);

	/* Request a sys_exit_np() call if we would like to preempt but cannot.
	 * We need to make sure to update the link structure anyway in case
	 * that we are still linked. Multiple calls to request_exit_np() don't
	 * hurt.
	 */
	if (np && (out_of_time || preempt || sleep)) {
		unlink(entry->scheduled);
		request_exit_np(entry->scheduled);
	}

	/* Any task that is preemptable and either exhausts its execution
	 * budget or wants to sleep completes. We may have to reschedule after
	 * this. Don't do a job completion if we block (can't have timers running
	 * for blocked jobs). Preemption go first for the same reason.
	 */
	if (!np && (out_of_time || sleep) && !blocks && !preempt)
		job_completion(entry->scheduled, !sleep);

	/* Link pending task if we became unlinked.
	 */
	if (!entry->linked)
		link_task_to_cpu(__take_ready(&cluster->domain), entry);

	/* The final scheduling decision. Do we need to switch for some reason?
	 * If linked is different from scheduled, then select linked as next.
	 */
	if ((!np || blocks) &&
	    entry->linked != entry->scheduled) {
		/* Schedule a linked job? */
		if (entry->linked) {
			entry->linked->rt_param.scheduled_on = entry->cpu;
			next = entry->linked;
		}
		if (entry->scheduled) {
			/* not gonna be scheduled soon */
			entry->scheduled->rt_param.scheduled_on = NO_CPU;
			TRACE_TASK(entry->scheduled, "scheduled_on = NO_CPU\n");
		}
	} else
		/* Only override Linux scheduler if we have a real-time task
		 * scheduled that needs to continue.
		 */
		if (exists)
			next = prev;

	spin_unlock(&cluster->lock);

#ifdef WANT_ALL_SCHED_EVENTS
	TRACE("cedf_lock released, next=0x%p\n", next);

	if (next)
		TRACE_TASK(next, "scheduled at %llu\n", litmus_clock());
	else if (exists && !next)
		TRACE("becomes idle at %llu.\n", litmus_clock());
#endif


	return next;
}


/* _finish_switch - we just finished the switch away from prev
 */
static void cedf_finish_switch(struct task_struct *prev)
{
	cpu_entry_t* 	entry = &__get_cpu_var(cedf_cpu_entries);

	entry->scheduled = is_realtime(current) ? current : NULL;
#ifdef WANT_ALL_SCHED_EVENTS
	TRACE_TASK(prev, "switched away from\n");
#endif
}


/*	Prepare a task for running in RT mode
 */
static void cedf_task_new(struct task_struct * t, int on_rq, int running)
{
	unsigned long 		flags;
	cpu_entry_t* 		entry;
	cedf_domain_t*		cluster;

	TRACE("gsn edf: task new %d\n", t->pid);

	/* the cluster doesn't change even if t is running */
	cluster = task_cpu_cluster(t);

	spin_lock_irqsave(&cluster->domain.ready_lock, flags);

	/* setup job params */
	release_at(t, litmus_clock());

	if (running) {
		entry = &per_cpu(cedf_cpu_entries, task_cpu(t));
		BUG_ON(entry->scheduled);

		entry->scheduled = t;
		tsk_rt(t)->scheduled_on = task_cpu(t);
	} else {
		t->rt_param.scheduled_on = NO_CPU;
	}
	t->rt_param.linked_on          = NO_CPU;

	cedf_job_arrival(t);
	spin_unlock_irqrestore(&(cluster->domain.ready_lock), flags);
}

static void cedf_task_wake_up(struct task_struct *task)
{
	unsigned long flags;
	lt_t now;
	cedf_domain_t *cluster;

	TRACE_TASK(task, "wake_up at %llu\n", litmus_clock());

	cluster = task_cpu_cluster(task);

	spin_lock_irqsave(&cluster->lock, flags);
	/* 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.
	 */
	if (get_rt_flags(task) == RT_F_EXIT_SEM) {
		set_rt_flags(task, RT_F_RUNNING);
	} else {
		now = litmus_clock();
		if (is_tardy(task, now)) {
			/* new sporadic release */
			release_at(task, now);
			sched_trace_task_release(task);
		}
		else {
			if (task->rt.time_slice) {
				/* came back in time before deadline
				*/
				set_rt_flags(task, RT_F_RUNNING);
			}
		}
	}
	cedf_job_arrival(task);
	spin_unlock_irqrestore(&cluster->lock, flags);
}

static void cedf_task_block(struct task_struct *t)
{
	unsigned long flags;
	cedf_domain_t *cluster;

	TRACE_TASK(t, "block at %llu\n", litmus_clock());

	cluster = task_cpu_cluster(t);

	/* unlink if necessary */
	spin_lock_irqsave(&cluster->lock, flags);
	unlink(t);
	spin_unlock_irqrestore(&cluster->lock, flags);

	BUG_ON(!is_realtime(t));
}


static void cedf_task_exit(struct task_struct * t)
{
	unsigned long flags;
	cedf_domain_t *cluster = task_cpu_cluster(t);

	/* unlink if necessary */
	spin_lock_irqsave(&cluster->lock, flags);
	unlink(t);
	if (tsk_rt(t)->scheduled_on != NO_CPU) {
		cluster->cpus[tsk_rt(t)->scheduled_on]->scheduled = NULL;
		tsk_rt(t)->scheduled_on = NO_CPU;
	}
	spin_unlock_irqrestore(&cluster->lock, flags);

	BUG_ON(!is_realtime(t));
        TRACE_TASK(t, "RIP\n");
}

static long cedf_admit_task(struct task_struct* tsk)
{
	return 0;
}

/* total number of cluster */
static int num_clusters;
/* we do not support cluster of different sizes */
static unsigned int cluster_size;

#ifdef VERBOSE_INIT
static void print_cluster_topology(cpumask_var_t mask, int cpu)
{
	int chk;
	char buf[255];

	chk = cpulist_scnprintf(buf, 254, mask);
	buf[chk] = '\0';
	printk(KERN_INFO "CPU = %d, shared cpu(s) = %s\n", cpu, buf);

}
#endif

static void cleanup_cedf(void)
{
	int i;
	for (i = 0; i < num_clusters; i++) {
		kfree(cedf[i].cpus);
		kfree(cedf[i].heap_node);
		free_cpumask_var(cedf[i].cpu_map);
	}

	kfree(cedf);
}

static long cedf_deactivate_plugin(void)
{
	cleanup_cedf();
	printk(KERN_INFO "C-EDF: Deactivate Plugin\n");

	return 0;
}

static long cedf_activate_plugin(void)
{
	int i, j, cpu, ccpu, cpu_count;
	cpu_entry_t *entry;

	cpumask_var_t mask;
	int chk = 0;

	printk(KERN_INFO "C-EDF: Activate Plugin, cache index = %d\n",
			cluster_cache_index);

	/* need to get cluster_size first */
	if(!zalloc_cpumask_var(&mask, GFP_ATOMIC))
		return -ENOMEM;

	chk = get_shared_cpu_map(mask, 0, cluster_cache_index);
	if (chk) {
		/* if chk != 0 then it is the max allowed index */
		printk(KERN_INFO "C-EDF: Cannot support cache index = %d\n",
				cluster_cache_index);
		printk(KERN_INFO "C-EDF: Using cache index = %d\n",
				chk);
		cluster_cache_index = chk;
	}

	cluster_size = cpumask_weight(mask);

	if ((num_online_cpus() % cluster_size) != 0) {
		/* this can't be right, some cpus are left out */
		printk(KERN_ERR "C-EDF: Trying to group %d cpus in %d!\n",
				num_online_cpus(), cluster_size);
		return -1;
	}

	num_clusters = num_online_cpus() / cluster_size;
	printk(KERN_INFO "C-EDF: %d cluster(s) of size = %d\n",
			num_clusters, cluster_size);

	/* initialize clusters */
	cedf = kmalloc(num_clusters * sizeof(cedf_domain_t), GFP_ATOMIC);
	for (i = 0; i < num_clusters; i++) {

		cedf[i].cpus = kmalloc(cluster_size * sizeof(cpu_entry_t),
				GFP_ATOMIC);
		cedf[i].heap_node = kmalloc(
				cluster_size * sizeof(struct bheap_node),
				GFP_ATOMIC);
		bheap_init(&(cedf[i].cpu_heap));
		edf_domain_init(&(cedf[i].domain), NULL, cedf_release_jobs);

		if(!zalloc_cpumask_var(&cedf[i].cpu_map, GFP_ATOMIC))
			return -ENOMEM;
	}

	/* cycle through cluster and add cpus to them */
	for (i = 0; i < num_clusters; i++) {

		for_each_online_cpu(cpu) {
			/* check if the cpu is already in a cluster */
			for (j = 0; j < num_clusters; j++)
				if (cpumask_test_cpu(cpu, cedf[j].cpu_map))
					break;
			/* if it is in a cluster go to next cpu */
			if (cpumask_test_cpu(cpu, cedf[j].cpu_map))
				continue;

			/* this cpu isn't in any cluster */
			/* get the shared cpus */
			get_shared_cpu_map(mask, cpu, cluster_cache_index);
			cpumask_copy(cedf[i].cpu_map, mask);
#ifdef VERBOSE_INIT
			print_cluster_topology(mask, cpu);
#endif
			/* add cpus to current cluster and init cpu_entry_t */
			cpu_count = 0;
			for_each_cpu(ccpu, cedf[i].cpu_map) {

				entry = &per_cpu(cedf_cpu_entries, ccpu);
				cedf[i].cpus[cpu_count] = entry;
				atomic_set(&entry->will_schedule, 0);
				entry->cpu = ccpu;
				entry->cluster = &cedf[i];
				entry->hn = &(cedf[i].heap_node[cpu_count]);
				bheap_node_init(&entry->hn, entry);

				cpu_count++;

				entry->linked = NULL;
				entry->scheduled = NULL;
				update_cpu_position(entry);
			}
			/* done with this cluster */
			break;
		}
	}

	free_cpumask_var(mask);
	return 0;
}

/*	Plugin object	*/
static struct sched_plugin cedf_plugin __cacheline_aligned_in_smp = {
	.plugin_name		= "C-EDF",
	.finish_switch		= cedf_finish_switch,
	.tick			= cedf_tick,
	.task_new		= cedf_task_new,
	.complete_job		= complete_job,
	.task_exit		= cedf_task_exit,
	.schedule		= cedf_schedule,
	.task_wake_up		= cedf_task_wake_up,
	.task_block		= cedf_task_block,
	.admit_task		= cedf_admit_task,
	.activate_plugin	= cedf_activate_plugin,
	.deactivate_plugin	= cedf_deactivate_plugin,
};


static int __init init_cedf(void)
{
	return register_sched_plugin(&cedf_plugin);
}

static void clean_cedf(void)
{
	cleanup_cedf();
}

module_init(init_cedf);
module_exit(clean_cedf);