/*
* Copyright (C) Igor Sysoev
* Copyright (C) NGINX, Inc.
*/
#include <nxt_main.h>
/*
* Timer operations are batched in the changes array to improve instruction
* and data cache locality of rbtree operations.
*
* nxt_timer_add() adds or modify a timer.
*
* nxt_timer_disable() disables a timer.
*
* nxt_timer_delete() deletes a timer. It returns 1 if there are pending
* changes in the changes array or 0 otherwise.
*/
static intptr_t nxt_timer_rbtree_compare(nxt_rbtree_node_t *node1,
nxt_rbtree_node_t *node2);
static void nxt_timer_change(nxt_event_engine_t *engine, nxt_timer_t *timer,
nxt_timer_operation_t change, nxt_msec_t time);
static void nxt_timer_changes_commit(nxt_event_engine_t *engine);
static void nxt_timer_handler(nxt_task_t *task, void *obj, void *data);
nxt_int_t
nxt_timers_init(nxt_timers_t *timers, nxt_uint_t mchanges)
{
nxt_rbtree_init(&timers->tree, nxt_timer_rbtree_compare);
if (mchanges > NXT_TIMER_MAX_CHANGES) {
mchanges = NXT_TIMER_MAX_CHANGES;
}
timers->mchanges = mchanges;
timers->changes = nxt_malloc(sizeof(nxt_timer_change_t) * mchanges);
if (nxt_fast_path(timers->changes != NULL)) {
return NXT_OK;
}
return NXT_ERROR;
}
static intptr_t
nxt_timer_rbtree_compare(nxt_rbtree_node_t *node1, nxt_rbtree_node_t *node2)
{
nxt_timer_t *timer1, *timer2;
timer1 = (nxt_timer_t *) node1;
timer2 = (nxt_timer_t *) node2;
/*
* Timer values are distributed in small range, usually several minutes
* and overflow every 49 days if nxt_msec_t is stored in 32 bits.
* This signed comparison takes into account that overflow.
*/
/* timer1->time < timer2->time */
return nxt_msec_diff(timer1->time , timer2->time);
}
void
nxt_timer_add(nxt_event_engine_t *engine, nxt_timer_t *timer,
nxt_msec_t timeout)
{
int32_t diff;
uint32_t time;
time = engine->timers.now + timeout;
nxt_debug(timer->task, "timer add: %M±%d %M:%M",
timer->time, timer->bias, timeout, time);
timer->enabled = 1;
if (nxt_timer_is_in_tree(timer)) {
diff = nxt_msec_diff(time, timer->time);
/*
* Use the previous timer if difference between it and the
* new timer is within bias: this decreases number of rbtree
* operations for fast connections.
*/
if (nxt_abs(diff) <= timer->bias) {
nxt_debug(timer->task, "timer previous: %M±%d",
time, timer->bias);
nxt_timer_change(engine, timer, NXT_TIMER_NOPE, 0);
return;
}
}
nxt_timer_change(engine, timer, NXT_TIMER_ADD, time);
}
nxt_bool_t
nxt_timer_delete(nxt_event_engine_t *engine, nxt_timer_t *timer)
{
nxt_debug(timer->task, "timer delete: %M±%d",
timer->time, timer->bias);
timer->enabled = 0;
if (nxt_timer_is_in_tree(timer)) {
nxt_timer_change(engine, timer, NXT_TIMER_DELETE, 0);
return 1;
}
nxt_timer_change(engine, timer, NXT_TIMER_NOPE, 0);
return (timer->queued || timer->change != NXT_TIMER_NO_CHANGE);
}
static void
nxt_timer_change(nxt_event_engine_t *engine, nxt_timer_t *timer,
nxt_timer_operation_t change, nxt_msec_t time)
{
nxt_timers_t *timers;
nxt_timer_change_t *ch;
timers = &engine->timers;
if (timer->change == NXT_TIMER_NO_CHANGE) {
if (change == NXT_TIMER_NOPE) {
return;
}
if (timers->nchanges >= timers->mchanges) {
nxt_timer_changes_commit(engine);
}
timers->nchanges++;
timer->change = timers->nchanges;
}
nxt_debug(timer->task, "timer change: %M±%d:%d",
time, timer->bias, change);
ch = &timers->changes[timer->change - 1];
ch->change = change;
ch->time = time;
ch->timer = timer;
}
static void
nxt_timer_changes_commit(nxt_event_engine_t *engine)
{
nxt_timer_t *timer;
nxt_timers_t *timers;
nxt_timer_change_t *ch, *end, *add, *add_end;
timers = &engine->timers;
nxt_debug(&engine->task, "timers changes: %ui", timers->nchanges);
ch = timers->changes;
end = ch + timers->nchanges;
add = ch;
add_end = add;
while (ch < end) {
timer = ch->timer;
switch (ch->change) {
case NXT_TIMER_NOPE:
break;
case NXT_TIMER_ADD:
timer->time = ch->time;
add_end->timer = timer;
add_end++;
if (!nxt_timer_is_in_tree(timer)) {
break;
}
/* Fall through. */
case NXT_TIMER_DELETE:
nxt_debug(timer->task, "timer rbtree delete: %M±%d",
timer->time, timer->bias);
nxt_rbtree_delete(&timers->tree, &timer->node);
nxt_timer_in_tree_clear(timer);
break;
}
timer->change = NXT_TIMER_NO_CHANGE;
ch++;
}
while (add < add_end) {
timer = add->timer;
nxt_debug(timer->task, "timer rbtree insert: %M±%d",
timer->time, timer->bias);
nxt_rbtree_insert(&timers->tree, &timer->node);
nxt_timer_in_tree_set(timer);
add++;
}
timers->nchanges = 0;
}
nxt_msec_t
nxt_timer_find(nxt_event_engine_t *engine)
{
int32_t delta;
nxt_msec_t time;
nxt_timer_t *timer;
nxt_timers_t *timers;
nxt_rbtree_t *tree;
nxt_rbtree_node_t *node, *next;
timers = &engine->timers;
if (timers->nchanges != 0) {
nxt_timer_changes_commit(engine);
}
tree = &timers->tree;
for (node = nxt_rbtree_min(tree);
nxt_rbtree_is_there_successor(tree, node);
node = next)
{
next = nxt_rbtree_node_successor(tree, node);
timer = (nxt_timer_t *) node;
/*
* Disabled timers are not deleted here since the minimum active
* timer may be larger than a disabled timer, but event poll may
* return much earlier and the disabled timer can be reactivated.
*/
if (timer->enabled) {
time = timer->time;
timers->minimum = time - timer->bias;
nxt_debug(timer->task, "timer found minimum: %M±%d:%M",
time, timer->bias, timers->now);
delta = nxt_msec_diff(time, timers->now);
return (nxt_msec_t) nxt_max(delta, 0);
}
}
/* Set minimum time one day ahead. */
timers->minimum = timers->now + 24 * 60 * 60 * 1000;
return NXT_INFINITE_MSEC;
}
void
nxt_timer_expire(nxt_event_engine_t *engine, nxt_msec_t now)
{
nxt_timer_t *timer;
nxt_timers_t *timers;
nxt_rbtree_t *tree;
nxt_rbtree_node_t *node, *next;
timers = &engine->timers;
timers->now = now;
nxt_debug(&engine->task, "timer expire minimum: %M:%M",
timers->minimum, now);
/* timers->minimum > now */
if (nxt_msec_diff(timers->minimum , now) > 0) {
return;
}
tree = &timers->tree;
for (node = nxt_rbtree_min(tree);
nxt_rbtree_is_there_successor(tree, node);
node = next)
{
timer = (nxt_timer_t *) node;
/* timer->time > now + timer->bias */
if (nxt_msec_diff(timer->time , now) > (int32_t) timer->bias) {
return;
}
next = nxt_rbtree_node_successor(tree, node);
nxt_debug(timer->task, "timer expire delete: %M±%d",
timer->time, timer->bias);
nxt_rbtree_delete(tree, &timer->node);
nxt_timer_in_tree_clear(timer);
if (timer->enabled) {
timer->queued = 1;
nxt_work_queue_add(timer->work_queue, nxt_timer_handler,
timer->task, timer, NULL);
}
}
}
static void
nxt_timer_handler(nxt_task_t *task, void *obj, void *data)
{
nxt_timer_t *timer;
timer = obj;
timer->queued = 0;
if (timer->enabled && timer->change == NXT_TIMER_NO_CHANGE) {
timer->enabled = 0;
timer->handler(task, timer, NULL);
}
}
