xtimer_core.c
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/**
* Copyright (C) 2015 Kaspar Schleiser <kaspar@schleiser.de>
* Copyright (C) 2016 Eistec AB
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*
* @ingroup xtimer
* @{
* @file
* @brief xtimer core functionality
* @author Kaspar Schleiser <kaspar@schleiser.de>
* @author Joakim Nohlgård <joakim.nohlgard@eistec.se>
* @}
*/
#include <stdint.h>
#include <string.h>
#include "board.h"
#include "periph/timer.h"
#include "periph_conf.h"
#include "xtimer.h"
#include "irq.h"
/* WARNING! enabling this will have side effects and can lead to timer underflows. */
#define ENABLE_DEBUG 0
#include "debug.h"
static volatile int _in_handler = 0;
static volatile uint32_t _long_cnt = 0;
#if XTIMER_MASK
volatile uint32_t _xtimer_high_cnt = 0;
#endif
static inline void xtimer_spin_until(uint32_t value);
static xtimer_t *timer_list_head = NULL;
static xtimer_t *overflow_list_head = NULL;
static xtimer_t *long_list_head = NULL;
static void _add_timer_to_list(xtimer_t **list_head, xtimer_t *timer);
static void _add_timer_to_long_list(xtimer_t **list_head, xtimer_t *timer);
static void _shoot(xtimer_t *timer);
static void _remove(xtimer_t *timer);
static inline void _lltimer_set(uint32_t target);
static uint32_t _time_left(uint32_t target, uint32_t reference);
static void _timer_callback(void);
static void _periph_timer_callback(void *arg, int chan);
static inline int _this_high_period(uint32_t target);
static inline int _is_set(xtimer_t *timer)
{
return (timer->target || timer->long_target);
}
static inline void xtimer_spin_until(uint32_t target) {
#if XTIMER_MASK
target = _xtimer_lltimer_mask(target);
#endif
while (_xtimer_lltimer_now() > target);
while (_xtimer_lltimer_now() < target);
}
void xtimer_init(void)
{
/* initialize low-level timer */
timer_init(XTIMER_DEV, XTIMER_HZ, _periph_timer_callback, NULL);
/* register initial overflow tick */
_lltimer_set(0xFFFFFFFF);
}
static void _xtimer_now_internal(uint32_t *short_term, uint32_t *long_term)
{
uint32_t before, after, long_value;
/* loop to cope with possible overflow of _xtimer_now() */
do {
before = _xtimer_now();
long_value = _long_cnt;
after = _xtimer_now();
} while(before > after);
*short_term = after;
*long_term = long_value;
}
uint64_t _xtimer_now64(void)
{
uint32_t short_term, long_term;
_xtimer_now_internal(&short_term, &long_term);
return ((uint64_t)long_term<<32) + short_term;
}
void _xtimer_set64(xtimer_t *timer, uint32_t offset, uint32_t long_offset)
{
DEBUG(" _xtimer_set64() offset=%" PRIu32 " long_offset=%" PRIu32 "\n", offset, long_offset);
if (!long_offset) {
/* timer fits into the short timer */
_xtimer_set(timer, (uint32_t) offset);
}
else {
int state = irq_disable();
if (_is_set(timer)) {
_remove(timer);
}
_xtimer_now_internal(&timer->target, &timer->long_target);
timer->target += offset;
timer->long_target += long_offset;
if (timer->target < offset) {
timer->long_target++;
}
_add_timer_to_long_list(&long_list_head, timer);
irq_restore(state);
DEBUG("xtimer_set64(): added longterm timer (long_target=%" PRIu32 " target=%" PRIu32 ")\n",
timer->long_target, timer->target);
}
}
void _xtimer_set(xtimer_t *timer, uint32_t offset)
{
DEBUG("timer_set(): offset=%" PRIu32 " now=%" PRIu32 " (%" PRIu32 ")\n",
offset, xtimer_now().ticks32, _xtimer_lltimer_now());
if (!timer->callback) {
DEBUG("timer_set(): timer has no callback.\n");
return;
}
xtimer_remove(timer);
if (offset < XTIMER_BACKOFF) {
_xtimer_spin(offset);
_shoot(timer);
}
else {
uint32_t target = _xtimer_now() + offset;
_xtimer_set_absolute(timer, target);
}
}
static void _periph_timer_callback(void *arg, int chan)
{
(void)arg;
(void)chan;
_timer_callback();
}
static void _shoot(xtimer_t *timer)
{
timer->callback(timer->arg);
}
static inline void _lltimer_set(uint32_t target)
{
if (_in_handler) {
return;
}
DEBUG("_lltimer_set(): setting %" PRIu32 "\n", _xtimer_lltimer_mask(target));
timer_set_absolute(XTIMER_DEV, XTIMER_CHAN, _xtimer_lltimer_mask(target));
}
int _xtimer_set_absolute(xtimer_t *timer, uint32_t target)
{
uint32_t now = _xtimer_now();
int res = 0;
DEBUG("timer_set_absolute(): now=%" PRIu32 " target=%" PRIu32 "\n", now, target);
timer->next = NULL;
if ((target >= now) && ((target - XTIMER_BACKOFF) < now)) {
/* backoff */
xtimer_spin_until(target + XTIMER_BACKOFF);
_shoot(timer);
return 0;
}
unsigned state = irq_disable();
if (_is_set(timer)) {
_remove(timer);
}
timer->target = target;
timer->long_target = _long_cnt;
if (target < now) {
timer->long_target++;
}
if ( (timer->long_target > _long_cnt) || !_this_high_period(target) ) {
DEBUG("xtimer_set_absolute(): the timer doesn't fit into the low-level timer's mask.\n");
_add_timer_to_long_list(&long_list_head, timer);
}
else {
if (_xtimer_lltimer_mask(now) >= target) {
DEBUG("xtimer_set_absolute(): the timer will expire in the next timer period\n");
_add_timer_to_list(&overflow_list_head, timer);
}
else {
DEBUG("timer_set_absolute(): timer will expire in this timer period.\n");
_add_timer_to_list(&timer_list_head, timer);
if (timer_list_head == timer) {
DEBUG("timer_set_absolute(): timer is new list head. updating lltimer.\n");
_lltimer_set(target - XTIMER_OVERHEAD);
}
}
}
irq_restore(state);
return res;
}
static void _add_timer_to_list(xtimer_t **list_head, xtimer_t *timer)
{
while (*list_head && (*list_head)->target <= timer->target) {
list_head = &((*list_head)->next);
}
timer->next = *list_head;
*list_head = timer;
}
static void _add_timer_to_long_list(xtimer_t **list_head, xtimer_t *timer)
{
while (*list_head
&& (((*list_head)->long_target < timer->long_target)
|| (((*list_head)->long_target == timer->long_target) && ((*list_head)->target <= timer->target)))) {
list_head = &((*list_head)->next);
}
timer->next = *list_head;
*list_head = timer;
}
static int _remove_timer_from_list(xtimer_t **list_head, xtimer_t *timer)
{
while (*list_head) {
if (*list_head == timer) {
*list_head = timer->next;
return 1;
}
list_head = &((*list_head)->next);
}
return 0;
}
static void _remove(xtimer_t *timer)
{
if (timer_list_head == timer) {
uint32_t next;
timer_list_head = timer->next;
if (timer_list_head) {
/* schedule callback on next timer target time */
next = timer_list_head->target - XTIMER_OVERHEAD;
}
else {
next = _xtimer_lltimer_mask(0xFFFFFFFF);
}
_lltimer_set(next);
}
else {
if (!_remove_timer_from_list(&timer_list_head, timer)) {
if (!_remove_timer_from_list(&overflow_list_head, timer)) {
_remove_timer_from_list(&long_list_head, timer);
}
}
}
}
void xtimer_remove(xtimer_t *timer)
{
int state = irq_disable();
if (_is_set(timer)) {
_remove(timer);
}
irq_restore(state);
}
static uint32_t _time_left(uint32_t target, uint32_t reference)
{
uint32_t now = _xtimer_lltimer_now();
if (now < reference) {
return 0;
}
if (target > now) {
return target - now;
}
else {
return 0;
}
}
static inline int _this_high_period(uint32_t target) {
#if XTIMER_MASK
return (target & XTIMER_MASK) == _xtimer_high_cnt;
#else
(void)target;
return 1;
#endif
}
/**
* @brief compare two timers' target values, return the one with lower value.
*
* if either is NULL, return the other.
* if both are NULL, return NULL.
*/
static inline xtimer_t *_compare(xtimer_t *a, xtimer_t *b)
{
if (a && b) {
return ((a->target <= b->target) ? a : b);
}
else {
return (a ? a : b);
}
}
/**
* @brief merge two timer lists, return head of new list
*/
static xtimer_t *_merge_lists(xtimer_t *head_a, xtimer_t *head_b)
{
xtimer_t *result_head = _compare(head_a, head_b);
xtimer_t *pos = result_head;
while(1) {
head_a = head_a->next;
head_b = head_b->next;
if (!head_a) {
pos->next = head_b;
break;
}
if (!head_b) {
pos->next = head_a;
break;
}
pos->next = _compare(head_a, head_b);
pos = pos->next;
}
return result_head;
}
/**
* @brief parse long timers list and copy those that will expire in the current
* short timer period
*/
static void _select_long_timers(void)
{
xtimer_t *select_list_start = long_list_head;
xtimer_t *select_list_last = NULL;
/* advance long_list head so it points to the first timer of the next (not
* just started) "long timer period" */
while (long_list_head) {
if ((long_list_head->long_target <= _long_cnt) && _this_high_period(long_list_head->target)) {
select_list_last = long_list_head;
long_list_head = long_list_head->next;
}
else {
/* remaining long_list timers belong to later long periods */
break;
}
}
/* cut the "selected long timer list" at the end */
if (select_list_last) {
select_list_last->next = NULL;
}
/* merge "current timer list" and "selected long timer list" */
if (timer_list_head) {
if (select_list_last) {
/* both lists are non-empty. merge. */
timer_list_head = _merge_lists(timer_list_head, select_list_start);
}
else {
/* "selected long timer list" is empty, nothing to do */
}
}
else { /* current timer list is empty */
if (select_list_last) {
/* there's no current timer list, but a non-empty "selected long
* timer list". So just use that list as the new current timer
* list.*/
timer_list_head = select_list_start;
}
}
}
/**
* @brief handle low-level timer overflow, advance to next short timer period
*/
static void _next_period(void)
{
#if XTIMER_MASK
/* advance <32bit mask register */
_xtimer_high_cnt += ~XTIMER_MASK + 1;
if (_xtimer_high_cnt == 0) {
/* high_cnt overflowed, so advance >32bit counter */
_long_cnt++;
}
#else
/* advance >32bit counter */
_long_cnt++;
#endif
/* swap overflow list to current timer list */
timer_list_head = overflow_list_head;
overflow_list_head = NULL;
_select_long_timers();
}
/**
* @brief main xtimer callback function
*/
static void _timer_callback(void)
{
uint32_t next_target;
uint32_t reference;
_in_handler = 1;
DEBUG("_timer_callback() now=%" PRIu32 " (%" PRIu32 ")pleft=%" PRIu32 "\n",
xtimer_now().ticks32, _xtimer_lltimer_mask(xtimer_now().ticks32),
_xtimer_lltimer_mask(0xffffffff - xtimer_now().ticks32));
if (!timer_list_head) {
DEBUG("_timer_callback(): tick\n");
/* there's no timer for this timer period,
* so this was a timer overflow callback.
*
* In this case, we advance to the next timer period.
*/
_next_period();
reference = 0;
/* make sure the timer counter also arrived
* in the next timer period */
while (_xtimer_lltimer_now() == _xtimer_lltimer_mask(0xFFFFFFFF)) {}
}
else {
/* we ended up in _timer_callback and there is
* a timer waiting.
*/
/* set our period reference to the current time. */
reference = _xtimer_lltimer_now();
}
overflow:
/* check if next timers are close to expiring */
while (timer_list_head && (_time_left(_xtimer_lltimer_mask(timer_list_head->target), reference) < XTIMER_ISR_BACKOFF)) {
/* make sure we don't fire too early */
while (_time_left(_xtimer_lltimer_mask(timer_list_head->target), reference)) {}
/* pick first timer in list */
xtimer_t *timer = timer_list_head;
/* advance list */
timer_list_head = timer->next;
/* make sure timer is recognized as being already fired */
timer->target = 0;
timer->long_target = 0;
/* fire timer */
_shoot(timer);
}
/* possibly executing all callbacks took enough
* time to overflow. In that case we advance to
* next timer period and check again for expired
* timers.*/
if (reference > _xtimer_lltimer_now()) {
DEBUG("_timer_callback: overflowed while executing callbacks. %i\n",
timer_list_head != NULL);
_next_period();
reference = 0;
goto overflow;
}
if (timer_list_head) {
/* schedule callback on next timer target time */
next_target = timer_list_head->target - XTIMER_OVERHEAD;
/* make sure we're not setting a time in the past */
if (next_target < (_xtimer_lltimer_now() + XTIMER_ISR_BACKOFF)) {
goto overflow;
}
}
else {
/* there's no timer planned for this timer period */
/* schedule callback on next overflow */
next_target = _xtimer_lltimer_mask(0xFFFFFFFF);
uint32_t now = _xtimer_lltimer_now();
/* check for overflow again */
if (now < reference) {
_next_period();
reference = 0;
goto overflow;
}
else {
/* check if the end of this period is very soon */
if (_xtimer_lltimer_mask(now + XTIMER_ISR_BACKOFF) < now) {
/* spin until next period, then advance */
while (_xtimer_lltimer_now() >= now) {}
_next_period();
reference = 0;
goto overflow;
}
}
}
_in_handler = 0;
/* set low level timer */
_lltimer_set(next_target);
}