struct list_head list[PER_LEVEL];
};
-static uint64_t time_to_grains(struct timespec ts)
+static uint64_t time_to_grains(struct timeabs t)
{
- return ts.tv_sec * ((uint64_t)1000000000 / TIMER_GRANULARITY)
- + (ts.tv_nsec / TIMER_GRANULARITY);
+ return t.ts.tv_sec * ((uint64_t)1000000000 / TIMER_GRANULARITY)
+ + (t.ts.tv_nsec / TIMER_GRANULARITY);
}
-static struct timespec grains_to_time(uint64_t grains)
+static struct timeabs grains_to_time(uint64_t grains)
{
- struct timespec ts;
+ struct timeabs t;
- ts.tv_sec = grains / (1000000000 / TIMER_GRANULARITY);
- ts.tv_nsec = (grains % (1000000000 / TIMER_GRANULARITY))
+ t.ts.tv_sec = grains / (1000000000 / TIMER_GRANULARITY);
+ t.ts.tv_nsec = (grains % (1000000000 / TIMER_GRANULARITY))
* TIMER_GRANULARITY;
- return ts;
+ return t;
}
-void timers_init(struct timers *timers, struct timespec start)
+void timers_init(struct timers *timers, struct timeabs start)
{
unsigned int i;
list_add_tail(l, &t->list);
}
-void timer_add(struct timers *timers, struct timer *t, struct timespec when)
+void timer_init(struct timer *t)
{
+ list_node_init(&t->list);
+}
+
+static bool list_node_initted(const struct list_node *n)
+{
+ return n->prev == n;
+}
+
+void timer_add(struct timers *timers, struct timer *t, struct timeabs when)
+{
+ assert(list_node_initted(&t->list));
+
t->time = time_to_grains(when);
/* Added in the past? Treat it as imminent. */
/* FIXME: inline */
void timer_del(struct timers *timers, struct timer *t)
{
- list_del(&t->list);
+ list_del_init(&t->list);
}
static void timers_far_get(struct timers *timers,
timer_add_raw(timers, t);
}
-/* Take timers from level and distribute them down one. */
-static void cascade(struct timers *timers, unsigned int level)
-{
- struct timer *i;
- struct list_head from_far, *list;
-
- if (level == ARRAY_SIZE(timers->level) || !timers->level[level]) {
- list_head_init(&from_far);
- timers_far_get(timers, &from_far,
- timers->base
- + (1ULL << (level*TIMER_LEVEL_BITS))-1);
- list = &from_far;
- if (level != ARRAY_SIZE(timers->level))
- add_level(timers, level);
- } else {
- unsigned src;
-
- src = (timers->base >> (level * TIMER_LEVEL_BITS)) % PER_LEVEL;
- if (src == 0)
- cascade(timers, level + 1);
- list = &timers->level[level]->list[src];
- }
-
- while ((i = list_pop(list, struct timer, list)) != NULL) {
- unsigned dst;
-
- assert(i->time >= timers->base);
- assert(i->time < (timers->base
- + (1ULL << ((level+1)*TIMER_LEVEL_BITS))));
-
- dst = (i->time >> ((level-1)*TIMER_LEVEL_BITS)) % PER_LEVEL;
- list_add_tail(&timers->level[level-1]->list[dst], &i->list);
- }
-}
-
static const struct timer *find_first(const struct list_head *list,
const struct timer *prev)
{
return true;
}
-bool timer_earliest(struct timers *timers, struct timespec *first)
+bool timer_earliest(struct timers *timers, struct timeabs *first)
{
if (!update_first(timers))
return false;
timer_add_raw(timers, i);
}
-/* Fills list of expired timers. */
-void timers_expire(struct timers *timers,
- struct timespec expire,
- struct list_head *list)
+/* Returns an expired timer. */
+struct timer *timers_expire(struct timers *timers, struct timeabs expire)
{
uint64_t now = time_to_grains(expire);
unsigned int off;
+ struct timer *t;
assert(now >= timers->base);
- list_head_init(list);
-
if (!timers->level[0]) {
if (list_empty(&timers->far))
- return;
+ return NULL;
add_level(timers, 0);
}
do {
if (timers->first > now) {
timer_fast_forward(timers, now);
- break;
+ return NULL;
}
timer_fast_forward(timers, timers->first);
off = timers->base % PER_LEVEL;
- list_append_list(list, &timers->level[0]->list[off]);
- if (timers->base == now)
- break;
- } while (update_first(timers));
+ /* This *may* be NULL, if we deleted the first timer */
+ t = list_pop(&timers->level[0]->list[off], struct timer, list);
+ if (t)
+ list_node_init(&t->list);
+ } while (!t && update_first(timers));
+
+ return t;
}
static bool timer_list_check(const struct list_head *l,
if (abortstr) {
fprintf(stderr,
"%s: timer %p %llu not %llu-%llu\n",
- abortstr, t, t->time, min, max);
+ abortstr, t, (long long)t->time,
+ (long long)min, (long long)max);
abort();
}
return false;
if (abortstr) {
fprintf(stderr,
"%s: timer %p %llu < minimum %llu\n",
- abortstr, t, t->time, first);
+ abortstr, t, (long long)t->time,
+ (long long)first);
abort();
}
return false;
return (struct timers *)timers;
}
-//#ifdef CCAN_TIMER_DEBUG
+#ifdef CCAN_TIMER_DEBUG
void timers_dump(const struct timers *timers, FILE *fp)
{
unsigned int l, i;
}
fprintf(stderr, "Far: %llu (%llu-%llu)\n", num, min, max);
}
-//#endif
+#endif
void timers_cleanup(struct timers *timers)
{