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/*
* litmus/rt_domain.c
*
* LITMUS real-time infrastructure. This file contains the
* functions that manipulate RT domains. RT domains are an abstraction
* of a ready queue and a release queue.
*/
#include <linux/percpu.h>
#include <linux/sched.h>
#include <linux/list.h>
#include <linux/slab.h>
#include <litmus/litmus.h>
#include <litmus/sched_plugin.h>
#include <litmus/sched_trace.h>
#include <litmus/rt_domain.h>
#include <litmus/trace.h>
#include <litmus/bheap.h>
/* Uncomment when debugging timer races... */
#if 0
#define VTRACE_TASK TRACE_TASK
#define VTRACE TRACE
#else
#define VTRACE_TASK(t, fmt, args...) /* shut up */
#define VTRACE(fmt, args...) /* be quiet already */
#endif
static int dummy_resched(rt_domain_t *rt)
{
return 0;
}
static int dummy_order(struct bheap_node* a, struct bheap_node* b)
{
return 0;
}
/* default implementation: use default lock */
static void default_release_jobs(rt_domain_t* rt, struct bheap* tasks)
{
merge_ready(rt, tasks);
}
static unsigned int time2slot(lt_t time)
{
return (unsigned int) time2quanta(time, FLOOR) % RELEASE_QUEUE_SLOTS;
}
static enum hrtimer_restart on_release_timer(struct hrtimer *timer)
{
unsigned long flags;
struct release_heap* rh;
rh = container_of(timer, struct release_heap, timer);
TS_RELEASE_LATENCY(rh->release_time);
VTRACE("on_release_timer(0x%p) starts.\n", timer);
TS_RELEASE_START;
raw_spin_lock_irqsave(&rh->dom->release_lock, flags);
VTRACE("CB has the release_lock 0x%p\n", &rh->dom->release_lock);
/* remove from release queue */
list_del(&rh->list);
raw_spin_unlock_irqrestore(&rh->dom->release_lock, flags);
VTRACE("CB returned release_lock 0x%p\n", &rh->dom->release_lock);
/* call release callback */
rh->dom->release_jobs(rh->dom, &rh->heap);
/* WARNING: rh can be referenced from other CPUs from now on. */
TS_RELEASE_END;
VTRACE("on_release_timer(0x%p) ends.\n", timer);
return HRTIMER_NORESTART;
}
/* allocated in litmus.c */
struct kmem_cache * release_heap_cache;
struct release_heap* release_heap_alloc(int gfp_flags)
{
struct release_heap* rh;
rh= kmem_cache_alloc(release_heap_cache, gfp_flags);
if (rh) {
/* initialize timer */
hrtimer_init(&rh->timer, CLOCK_MONOTONIC, HRTIMER_MODE_ABS);
rh->timer.function = on_release_timer;
}
return rh;
}
void release_heap_free(struct release_heap* rh)
{
/* make sure timer is no longer in use */
hrtimer_cancel(&rh->timer);
kmem_cache_free(release_heap_cache, rh);
}
/* Caller must hold release lock.
* Will return heap for given time. If no such heap exists prior to
* the invocation it will be created.
*/
static struct release_heap* get_release_heap(rt_domain_t *rt,
struct task_struct* t,
int use_task_heap)
{
struct list_head* pos;
struct release_heap* heap = NULL;
struct release_heap* rh;
lt_t release_time = get_release(t);
unsigned int slot = time2slot(release_time);
/* initialize pos for the case that the list is empty */
pos = rt->release_queue.slot[slot].next;
list_for_each(pos, &rt->release_queue.slot[slot]) {
rh = list_entry(pos, struct release_heap, list);
if (release_time == rh->release_time) {
/* perfect match -- this happens on hyperperiod
* boundaries
*/
heap = rh;
break;
} else if (lt_before(release_time, rh->release_time)) {
/* we need to insert a new node since rh is
* already in the future
*/
break;
}
}
if (!heap && use_task_heap) {
/* use pre-allocated release heap */
rh = tsk_rt(t)->rel_heap;
rh->dom = rt;
rh->release_time = release_time;
/* add to release queue */
list_add(&rh->list, pos->prev);
heap = rh;
}
return heap;
}
static void reinit_release_heap(struct task_struct* t)
{
struct release_heap* rh;
/* use pre-allocated release heap */
rh = tsk_rt(t)->rel_heap;
/* Make sure it is safe to use. The timer callback could still
* be executing on another CPU; hrtimer_cancel() will wait
* until the timer callback has completed. However, under no
* circumstances should the timer be active (= yet to be
* triggered).
*
* WARNING: If the CPU still holds the release_lock at this point,
* deadlock may occur!
*/
BUG_ON(hrtimer_cancel(&rh->timer));
/* initialize */
bheap_init(&rh->heap);
#ifdef CONFIG_RELEASE_MASTER
atomic_set(&rh->info.state, HRTIMER_START_ON_INACTIVE);
#endif
}
/* arm_release_timer() - start local release timer or trigger
* remote timer (pull timer)
*
* Called by add_release() with:
* - tobe_lock taken
* - IRQ disabled
*/
#ifdef CONFIG_RELEASE_MASTER
#define arm_release_timer(t) arm_release_timer_on((t), NO_CPU)
static void arm_release_timer_on(rt_domain_t *_rt , int target_cpu)
#else
static void arm_release_timer(rt_domain_t *_rt)
#endif
{
rt_domain_t *rt = _rt;
struct list_head list;
struct list_head *pos, *safe;
struct task_struct* t;
struct release_heap* rh;
VTRACE("arm_release_timer() at %llu\n", litmus_clock());
list_replace_init(&rt->tobe_released, &list);
list_for_each_safe(pos, safe, &list) {
/* pick task of work list */
t = list_entry(pos, struct task_struct, rt_param.list);
sched_trace_task_release(t);
list_del(pos);
/* put into release heap while holding release_lock */
raw_spin_lock(&rt->release_lock);
VTRACE_TASK(t, "I have the release_lock 0x%p\n", &rt->release_lock);
rh = get_release_heap(rt, t, 0);
if (!rh) {
/* need to use our own, but drop lock first */
raw_spin_unlock(&rt->release_lock);
VTRACE_TASK(t, "Dropped release_lock 0x%p\n",
&rt->release_lock);
reinit_release_heap(t);
VTRACE_TASK(t, "release_heap ready\n");
raw_spin_lock(&rt->release_lock);
VTRACE_TASK(t, "Re-acquired release_lock 0x%p\n",
&rt->release_lock);
rh = get_release_heap(rt, t, 1);
}
bheap_insert(rt->order, &rh->heap, tsk_rt(t)->heap_node);
VTRACE_TASK(t, "arm_release_timer(): added to release heap\n");
raw_spin_unlock(&rt->release_lock);
VTRACE_TASK(t, "Returned the release_lock 0x%p\n", &rt->release_lock);
/* To avoid arming the timer multiple times, we only let the
* owner do the arming (which is the "first" task to reference
* this release_heap anyway).
*/
if (rh == tsk_rt(t)->rel_heap) {
VTRACE_TASK(t, "arming timer 0x%p\n", &rh->timer);
/* we cannot arm the timer using hrtimer_start()
* as it may deadlock on rq->lock
*
* PINNED mode is ok on both local and remote CPU
*/
#ifdef CONFIG_RELEASE_MASTER
if (rt->release_master == NO_CPU &&
target_cpu == NO_CPU)
#endif
__hrtimer_start_range_ns(&rh->timer,
ns_to_ktime(rh->release_time),
0, HRTIMER_MODE_ABS_PINNED, 0);
#ifdef CONFIG_RELEASE_MASTER
else
hrtimer_start_on(
/* target_cpu overrides release master */
(target_cpu != NO_CPU ?
target_cpu : rt->release_master),
&rh->info, &rh->timer,
ns_to_ktime(rh->release_time),
HRTIMER_MODE_ABS_PINNED);
#endif
} else
VTRACE_TASK(t, "0x%p is not my timer\n", &rh->timer);
}
}
void rt_domain_init(rt_domain_t *rt,
bheap_prio_t order,
check_resched_needed_t check,
release_jobs_t release
)
{
int i;
BUG_ON(!rt);
if (!check)
check = dummy_resched;
if (!release)
release = default_release_jobs;
if (!order)
order = dummy_order;
#ifdef CONFIG_RELEASE_MASTER
rt->release_master = NO_CPU;
#endif
bheap_init(&rt->ready_queue);
INIT_LIST_HEAD(&rt->tobe_released);
for (i = 0; i < RELEASE_QUEUE_SLOTS; i++)
INIT_LIST_HEAD(&rt->release_queue.slot[i]);
raw_spin_lock_init(&rt->ready_lock);
raw_spin_lock_init(&rt->release_lock);
raw_spin_lock_init(&rt->tobe_lock);
rt->check_resched = check;
rt->release_jobs = release;
rt->order = order;
}
/* add_ready - add a real-time task to the rt ready queue. It must be runnable.
* @new: the newly released task
*/
void __add_ready(rt_domain_t* rt, struct task_struct *new)
{
TRACE("rt: adding %s/%d (%llu, %llu, %llu) "
"[inh_task: %s/%d (%llu, %llu %llu)] "
"rel=%llu to ready queue at %llu\n",
new->comm, new->pid, get_exec_cost(new), get_rt_period(new), get_rt_relative_deadline(new),
(tsk_rt(new)->inh_task) ? tsk_rt(new)->inh_task->comm : "(nil)",
(tsk_rt(new)->inh_task) ? tsk_rt(new)->inh_task->pid : 0,
(tsk_rt(new)->inh_task) ? get_exec_cost(tsk_rt(new)->inh_task) : 0,
(tsk_rt(new)->inh_task) ? get_rt_period(tsk_rt(new)->inh_task) : 0,
(tsk_rt(new)->inh_task) ? get_rt_relative_deadline(tsk_rt(new)->inh_task) : 0,
get_release(new), litmus_clock());
BUG_ON(bheap_node_in_heap(tsk_rt(new)->heap_node));
bheap_insert(rt->order, &rt->ready_queue, tsk_rt(new)->heap_node);
rt->check_resched(rt);
}
/* merge_ready - Add a sorted set of tasks to the rt ready queue. They must be runnable.
* @tasks - the newly released tasks
*/
void __merge_ready(rt_domain_t* rt, struct bheap* tasks)
{
bheap_union(rt->order, &rt->ready_queue, tasks);
rt->check_resched(rt);
}
#ifdef CONFIG_RELEASE_MASTER
void __add_release_on(rt_domain_t* rt, struct task_struct *task,
int target_cpu)
{
TRACE_TASK(task, "add_release_on(), rel=%llu, target=%d\n",
get_release(task), target_cpu);
list_add(&tsk_rt(task)->list, &rt->tobe_released);
task->rt_param.domain = rt;
arm_release_timer_on(rt, target_cpu);
}
#endif
/* add_release - add a real-time task to the rt release queue.
* @task: the sleeping task
*/
void __add_release(rt_domain_t* rt, struct task_struct *task)
{
TRACE_TASK(task, "add_release(), rel=%llu\n", get_release(task));
list_add(&tsk_rt(task)->list, &rt->tobe_released);
task->rt_param.domain = rt;
arm_release_timer(rt);
}
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