diff options
Diffstat (limited to 'openwrt/package/nvram/src/linux_timer.c')
| -rw-r--r-- | openwrt/package/nvram/src/linux_timer.c | 738 |
1 files changed, 0 insertions, 738 deletions
diff --git a/openwrt/package/nvram/src/linux_timer.c b/openwrt/package/nvram/src/linux_timer.c deleted file mode 100644 index 0402e44378..0000000000 --- a/openwrt/package/nvram/src/linux_timer.c +++ /dev/null @@ -1,738 +0,0 @@ -/* - * Copyright 2004, Broadcom Corporation - * All Rights Reserved. - * - * THIS SOFTWARE IS OFFERED "AS IS", AND BROADCOM GRANTS NO WARRANTIES OF ANY - * KIND, EXPRESS OR IMPLIED, BY STATUTE, COMMUNICATION OR OTHERWISE. BROADCOM - * SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS - * FOR A SPECIFIC PURPOSE OR NONINFRINGEMENT CONCERNING THIS SOFTWARE. - * - * Low resolution timer interface linux specific implementation. - * - * $Id$ - */ - -/* -* debug facilities -*/ -#define TIMER_DEBUG 0 -#if TIMER_DEBUG -#define TIMERDBG(fmt, args...) printf("%s: " fmt "\n" , __FUNCTION__ , ## args) -#else -#define TIMERDBG(fmt, args...) -#endif - - -/* - * POSIX timer support for Linux. Taken from linux_timer.c in upnp - */ - -#define __USE_GNU - - -#include <stdlib.h> // for malloc, free, etc. -#include <string.h> // for memset, strncasecmp, etc. -#include <assert.h> // for assert, of course. -#include <signal.h> // for sigemptyset, etc. -#include <stdio.h> // for printf, etc. -#include <sys/time.h> -#include <time.h> - -/* define TIMER_PROFILE to enable code which guages how accurate the timer functions are. - For each expiring timer the code will print the expected time interval and the actual time interval. -#define TIMER_PROFILE -*/ -#undef TIMER_PROFILE - -/* -timer_cancel( ) - cancel a timer -timer_connect( ) - connect a user routine to the timer signal -timer_create( ) - allocate a timer using the specified clock for a timing base (POSIX) -timer_delete( ) - remove a previously created timer (POSIX) -timer_gettime( ) - get the remaining time before expiration and the reload value (POSIX) -timer_getoverrun( ) - return the timer expiration overrun (POSIX) -timer_settime( ) - set the time until the next expiration and arm timer (POSIX) -nanosleep( ) - suspend the current task until the time interval elapses (POSIX) -*/ - -#define MS_PER_SEC 1000 -#define US_PER_SEC 1000000 -#define US_PER_MS 1000 -#define UCLOCKS_PER_SEC 1000000 - -typedef void (*event_callback_t)(timer_t, int); - -#ifndef TIMESPEC_TO_TIMEVAL -# define TIMESPEC_TO_TIMEVAL(tv, ts) { \ - (tv)->tv_sec = (ts)->tv_sec; \ - (tv)->tv_usec = (ts)->tv_nsec / 1000; \ -} -#endif - -#ifndef TIMEVAL_TO_TIMESPEC -# define TIMEVAL_TO_TIMESPEC(tv, ts) { \ - (ts)->tv_sec = (tv)->tv_sec; \ - (ts)->tv_nsec = (tv)->tv_usec * 1000; \ -} -#endif - -#define ROUNDUP(x,y) ((((x)+(y)-1)/(y))*(y)) - -#define timerroundup(t,g) \ - do { \ - if (!timerisset(t)) (t)->tv_usec=1; \ - if ((t)->tv_sec == 0) (t)->tv_usec=ROUNDUP((t)->tv_usec, g); \ - } while (0) - -typedef long uclock_t; - -#define TFLAG_NONE 0 -#define TFLAG_CANCELLED (1<<0) -#define TFLAG_DELETED (1<<1) - -struct event { - struct timeval it_interval; - struct timeval it_value; - event_callback_t func; - int arg; - unsigned short flags; - struct event *next; -#ifdef TIMER_PROFILE - uint expected_ms; - uclock_t start; -#endif -}; - -void timer_cancel(timer_t timerid); - -static void alarm_handler(int i); -static void check_event_queue(); -static void print_event_queue(); -static void check_timer(); -#if THIS_FINDS_USE -static int count_queue(struct event *); -#endif -static int timer_change_settime(timer_t timer_id, const struct itimerspec *timer_spec); -void block_timer(); -void unblock_timer(); - -static struct event *event_queue = NULL; -static struct event *event_freelist; -static uint g_granularity; -static int g_maxevents = 0; - -uclock_t uclock() -{ - struct timeval tv; - - gettimeofday(&tv, NULL); - return ((tv.tv_sec * US_PER_SEC) + tv.tv_usec); -} - - -void init_event_queue(int n) -{ - int i; - struct itimerval tv; - - g_maxevents = n; - event_freelist = (struct event *) malloc(n * sizeof(struct event)); - memset(event_freelist, 0, n * sizeof(struct event)); - - for (i = 0; i < (n-1); i++) - event_freelist[i].next = &event_freelist[i+1]; - - event_freelist[i].next = NULL; - - tv.it_interval.tv_sec = 0; - tv.it_interval.tv_usec = 1; - tv.it_value.tv_sec = 0; - tv.it_value.tv_usec = 0; - setitimer (ITIMER_REAL, &tv, 0); - setitimer (ITIMER_REAL, 0, &tv); - g_granularity = tv.it_interval.tv_usec; - - signal(SIGALRM, alarm_handler); -} - - -int clock_gettime( - clockid_t clock_id, /* clock ID (always CLOCK_REALTIME) */ - struct timespec * tp /* where to store current time */ -) -{ - struct timeval tv; - int n; - - - n = gettimeofday(&tv, NULL); - TIMEVAL_TO_TIMESPEC(&tv, tp); - - return n; -} - - -int timer_create( - clockid_t clock_id, /* clock ID (always CLOCK_REALTIME) */ - struct sigevent * evp, /* user event handler */ - timer_t * pTimer /* ptr to return value */ -) -{ - struct event *event; - - if (clock_id != CLOCK_REALTIME) { - TIMERDBG("timer_create can only support clock id CLOCK_REALTIME"); - exit(1); - } - - if (evp != NULL) { - if (evp->sigev_notify != SIGEV_SIGNAL || evp->sigev_signo != SIGALRM) { - TIMERDBG("timer_create can only support signalled alarms using SIGALRM"); - exit(1); - } - } - - event = event_freelist; - if (event == NULL) { - print_event_queue(); - } - assert(event != NULL); - - event->flags = TFLAG_NONE; - - event_freelist = event->next; - event->next = NULL; - - check_event_queue(); - - *pTimer = (timer_t) event; - - return 0; -} - -int timer_delete( - timer_t timerid /* timer ID */ -) -{ - struct event *event = (struct event *) timerid; - - if (event->flags & TFLAG_DELETED) { - TIMERDBG("Cannot delete a deleted event"); - return 1; - } - - timer_cancel(timerid); - - event->flags |= TFLAG_DELETED; - - event->next = event_freelist; - event_freelist = event; - - return 0; -} - -int timer_connect -( - timer_t timerid, /* timer ID */ - void (*routine)(timer_t, int), /* user routine */ - int arg /* user argument */ -) -{ - struct event *event = (struct event *) timerid; - - assert(routine != NULL); - event->func = routine; - event->arg = arg; - - return 0; -} - -/* - * Please Call this function only from the call back functions of the alarm_handler. - * This is just a hack -*/ -int timer_change_settime -( - timer_t timerid, /* timer ID */ - const struct itimerspec * value /* time to be set */ -) -{ - struct event *event = (struct event *) timerid; - - TIMESPEC_TO_TIMEVAL(&event->it_interval, &value->it_interval); - TIMESPEC_TO_TIMEVAL(&event->it_value, &value->it_value); - - return 1; -} - -int timer_settime -( - timer_t timerid, /* timer ID */ - int flags, /* absolute or relative */ - const struct itimerspec * value, /* time to be set */ - struct itimerspec * ovalue /* previous time set (NULL=no result) */ -) -{ - struct itimerval itimer; - struct event *event = (struct event *) timerid; - struct event **ppevent; - - TIMESPEC_TO_TIMEVAL(&event->it_interval, &value->it_interval); - TIMESPEC_TO_TIMEVAL(&event->it_value, &value->it_value); - - /* if .it_value is zero, the timer is disarmed */ - if (!timerisset(&event->it_value)) { - timer_cancel(timerid); - return 0; - } - - block_timer(); - -#ifdef TIMER_PROFILE - event->expected_ms = (event->it_value.tv_sec * MS_PER_SEC) + (event->it_value.tv_usec / US_PER_MS); - event->start = uclock(); -#endif - if (event->next) { - TIMERDBG("calling timer_settime with a timer that is already on the queue."); - } - - - /* We always want to make sure that the event at the head of the - queue has a timeout greater than the itimer granularity. - Otherwise we end up with the situation that the time remaining - on an itimer is greater than the time at the head of the queue - in the first place. */ - timerroundup(&event->it_value, g_granularity); - - timerclear(&itimer.it_value); - getitimer(ITIMER_REAL, &itimer); - if (timerisset(&itimer.it_value)) { - // reset the top timer to have an interval equal to the remaining interval - // when the timer was cancelled. - if (event_queue) { - if (timercmp(&(itimer.it_value), &(event_queue->it_value), >)) { - // it is an error if the amount of time remaining is more than the amount of time - // requested by the top event. - // - TIMERDBG("timer_settime: TIMER ERROR!"); - - } else { - // some portion of the top event has already expired. - // Reset the interval of the top event to remaining - // time left in that interval. - // - event_queue->it_value = itimer.it_value; - - // if we were the earliest timer before now, we are still the earliest timer now. - // we do not need to reorder the list. - } - } - } - - // Now, march down the list, decrementing the new timer by the - // current it_value of each event on the queue. - ppevent = &event_queue; - while (*ppevent) { - if ( timercmp(&(event->it_value), &((*ppevent)->it_value), <) ) { - // if the proposed event will trigger sooner than the next event - // in the queue, we will insert the new event just before the next one. - // - // we also need to adjust the delta value to the next event. - timersub(&((*ppevent)->it_value), &(event->it_value), &((*ppevent)->it_value)); - break; - } - // subtract the interval of the next event from the proposed interval. - timersub(&(event->it_value), &((*ppevent)->it_value), &(event->it_value)); - - ppevent = &((*ppevent)->next); - } - - // we have found our proper place in the queue, - // link our new event into the pending event queue. - event->next = *ppevent; - *ppevent = event; - - check_event_queue(); - - // if our new event ended up at the front of the queue, reissue the timer. - if (event == event_queue) { - timerroundup(&event_queue->it_value, g_granularity); - timerclear(&itimer.it_interval); - itimer.it_value = event_queue->it_value; - - // we want to be sure to never turn off the timer completely, - // so if the next interval is zero, set it to some small value. - if (!timerisset(&(itimer.it_value))) - itimer.it_value = (struct timeval) { 0, 1 }; - - assert(!timerisset(&itimer.it_interval)); - assert(itimer.it_value.tv_sec > 0 || itimer.it_value.tv_usec >= g_granularity); - assert(event_queue->it_value.tv_sec > 0 || event_queue->it_value.tv_usec >= g_granularity); - setitimer(ITIMER_REAL, &itimer, NULL); - check_timer(); - } - - event->flags &= ~TFLAG_CANCELLED; - - unblock_timer(); - - return 0; -} - -static void check_timer() -{ - struct itimerval itimer; - - getitimer(ITIMER_REAL, &itimer); - if (timerisset(&itimer.it_interval)) { - TIMERDBG("ERROR timer interval is set."); - } - if (timercmp(&(itimer.it_value), &(event_queue->it_value), >)) { - TIMERDBG("ERROR timer expires later than top event."); - } -} - - -static void check_event_queue() -{ - struct timeval sum; - struct event *event; - int i = 0; - -#ifdef notdef - int nfree = 0; - struct event *p; - for (p = event_freelist; p; p = p->next) - nfree++; - printf("%d free events\n", nfree); -#endif - - timerclear(&sum); - for (event = event_queue; event; event = event->next) { - if (i > g_maxevents) { - TIMERDBG("timer queue looks like it loops back on itself!"); - print_event_queue(); - exit(1); - } - i++; - } -} - -#if THIS_FINDS_USE -/* The original upnp version has this unused function, so I left it in - to maintain the resemblance. */ -static int count_queue(struct event *event_queue) -{ - struct event *event; - int i = 0; - for (event = event_queue; event; event = event->next) - i++; - return i; -} -#endif - -static void print_event_queue() -{ - struct event *event; - int i = 0; - - for (event = event_queue; event; event = event->next) { - printf("#%d (0x%x)->0x%x: \t%d sec %d usec\t%p\n", - i++, (unsigned int) event, (unsigned int) event->next, (int) event->it_value.tv_sec, (int) event->it_value.tv_usec, event->func); - if (i > g_maxevents) { - printf("...(giving up)\n"); - break; - } - } -} - -// The top element of the event queue must have expired. -// Remove that element, run its function, and reset the timer. -// if there is no interval, recycle the event structure. -static void alarm_handler(int i) -{ - struct event *event, **ppevent; - struct itimerval itimer; - struct timeval small_interval = { 0, g_granularity/2 }; -#ifdef TIMER_PROFILE - uint junk; - uclock_t end; - uint actual; -#endif - - block_timer(); - - // Loop through the event queue and remove the first event plus any - // subsequent events that will expire very soon thereafter (within 'small_interval'}. - // - do { - // remove the top event. - event = event_queue; - event_queue = event_queue->next; - event->next = NULL; - -#ifdef TIMER_PROFILE - end = uclock(); - actual = ((end-event->start)/((uclock_t)UCLOCKS_PER_SEC/1000)); - if (actual < 0) - junk = end; - TIMERDBG("expected %d ms actual %d ms", event->expected_ms, ((end-event->start)/((uclock_t)UCLOCKS_PER_SEC/1000))); -#endif - - // call the event callback function - (*(event->func))((timer_t) event, (int)event->arg); - - /* If the event has been cancelled, do NOT put it back on the queue. */ - if ( !(event->flags & TFLAG_CANCELLED) ) { - - // if the event is a recurring event, reset the timer and - // find its correct place in the sorted list of events. - // - if (timerisset(&event->it_interval)) { - // event is recurring... - // - event->it_value = event->it_interval; -#ifdef TIMER_PROFILE - event->expected_ms = (event->it_value.tv_sec * MS_PER_SEC) + (event->it_value.tv_usec / US_PER_MS); - event->start = uclock(); -#endif - timerroundup(&event->it_value, g_granularity); - - // Now, march down the list, decrementing the new timer by the - // current delta of each event on the queue. - ppevent = &event_queue; - while (*ppevent) { - if ( timercmp(&(event->it_value), &((*ppevent)->it_value), <) ) { - // if the proposed event will trigger sooner than the next event - // in the queue, we will insert the new event just before the next one. - // - // we also need to adjust the delta value to the next event. - timersub(&((*ppevent)->it_value), &(event->it_value), &((*ppevent)->it_value)); - break; - } - timersub(&(event->it_value), &((*ppevent)->it_value), &(event->it_value)); - ppevent = &((*ppevent)->next); - } - - // we have found our proper place in the queue, - // link our new event into the pending event queue. - event->next = *ppevent; - *ppevent = event; - } else { - // there is no interval, so recycle the event structure. - //timer_delete((timer_t) event); - } - } - - check_event_queue(); - - } while (event_queue && timercmp(&event_queue->it_value, &small_interval, <)); - - // re-issue the timer... - if (event_queue) { - timerroundup(&event_queue->it_value, g_granularity); - - timerclear(&itimer.it_interval); - itimer.it_value = event_queue->it_value; - // we want to be sure to never turn off the timer completely, - // so if the next interval is zero, set it to some small value. - if (!timerisset(&(itimer.it_value))) - itimer.it_value = (struct timeval) { 0, 1 }; - - setitimer(ITIMER_REAL, &itimer, NULL); - check_timer(); - } else { - TIMERDBG("There are no events in the queue - timer not reset."); - } - - unblock_timer(); -} - -static int block_count = 0; - -void block_timer() -{ - sigset_t set; - - if (block_count++ == 0) { - sigemptyset(&set); - sigaddset(&set, SIGALRM); - sigprocmask(SIG_BLOCK, &set, NULL); - } -} - -void unblock_timer() -{ - sigset_t set; - - if (--block_count == 0) { - sigemptyset(&set); - sigaddset(&set, SIGALRM); - sigprocmask(SIG_UNBLOCK, &set, NULL); - } -} - -void timer_cancel_all() -{ - struct itimerval timeroff = { { 0, 0 }, { 0, 0} }; - struct event *event; - struct event **ppevent; - - setitimer(ITIMER_REAL, &timeroff, NULL); - - ppevent = &event_queue; - while (*ppevent) { - event = *ppevent; - *ppevent = event->next; - event->next = NULL; - } -} - - - -void timer_cancel(timer_t timerid) -{ - struct itimerval itimer; - struct itimerval timeroff = { { 0, 0 }, { 0, 0} }; - struct event *event = (struct event *) timerid; - struct event **ppevent; - - if (event->flags & TFLAG_CANCELLED) { - TIMERDBG("Cannot cancel a cancelled event"); - return; - } - - block_timer(); - - ppevent = &event_queue; - while (*ppevent) { - if ( *ppevent == event ) { - - /* RACE CONDITION - if the alarm goes off while we are in - this loop, and if the timer we want to cancel is the - next to expire, the alarm will end up firing - after this routine is complete, causing it to go off early. */ - - /* If the cancelled timer is the next to expire, - we need to do something special to clean up correctly. */ - if (event == event_queue && event->next != NULL) { - timerclear(&itimer.it_value); - getitimer(ITIMER_REAL, &itimer); - - /* subtract the time that has already passed while waiting for this timer... */ - timersub(&(event->it_value), &(itimer.it_value), &(event->it_value)); - - /* and add any remainder to the next timer in the list */ - timeradd(&(event->next->it_value), &(event->it_value), &(event->next->it_value)); - } - - *ppevent = event->next; - event->next = NULL; - - if (event_queue) { - timerroundup(&event_queue->it_value, g_granularity); - timerclear(&itimer.it_interval); - itimer.it_value = event_queue->it_value; - - /* We want to be sure to never turn off the timer - completely if there are more events on the queue, - so if the next interval is zero, set it to some - small value. */ - - if (!timerisset(&(itimer.it_value))) - itimer.it_value = (struct timeval) { 0, 1 }; - - assert(itimer.it_value.tv_sec > 0 || itimer.it_value.tv_usec >= g_granularity); - assert(event_queue->it_value.tv_sec > 0 || event_queue->it_value.tv_usec >= g_granularity); - setitimer(ITIMER_REAL, &itimer, NULL); - check_timer(); - } else { - setitimer(ITIMER_REAL, &timeroff, NULL); - } - break; - } - ppevent = &((*ppevent)->next); - } - - event->flags |= TFLAG_CANCELLED; - - unblock_timer(); -} - -/* -* timer related headers -*/ -#include "bcmtimer.h" - -/* -* locally used global variables and constants -*/ - -/* -* Initialize internal resources used in the timer module. It must be called -* before any other timer function calls. The param 'timer_entries' is used -* to pre-allocate fixed number of timer entries. -*/ -int bcm_timer_module_init(int timer_entries, bcm_timer_module_id *module_id) -{ - init_event_queue(timer_entries); - *module_id = (bcm_timer_module_id)event_freelist; - return 0; -} - -/* -* Cleanup internal resources used by this timer module. It deletes all -* pending timer entries from the backend timer system as well. -*/ -int bcm_timer_module_cleanup(bcm_timer_module_id module_id) -{ - module_id = 0; - return 0; -} - -/* Enable/Disable timer module */ -int bcm_timer_module_enable(bcm_timer_module_id module_id, int enable) -{ - if (enable) - unblock_timer(); - else - block_timer(); - return 0; -} - -int bcm_timer_create(bcm_timer_module_id module_id, bcm_timer_id *timer_id) -{ - module_id = 0; - return timer_create(CLOCK_REALTIME, NULL, (timer_t *)timer_id); -} - -int bcm_timer_delete(bcm_timer_id timer_id) -{ - return timer_delete((timer_t)timer_id); -} - -int bcm_timer_gettime(bcm_timer_id timer_id, struct itimerspec *timer_spec) -{ - return -1; -} - -int bcm_timer_settime(bcm_timer_id timer_id, const struct itimerspec *timer_spec) -{ - return timer_settime((timer_t)timer_id, 0, timer_spec, NULL); -} - -int bcm_timer_connect(bcm_timer_id timer_id, bcm_timer_cb func, int data) -{ - return timer_connect((timer_t)timer_id, (void *)func, data); -} - -int bcm_timer_cancel(bcm_timer_id timer_id) -{ - timer_cancel((timer_t)timer_id); - return 0; -} -int bcm_timer_change_expirytime(bcm_timer_id timer_id, const struct itimerspec *timer_spec) -{ - timer_change_settime((timer_t)timer_id, timer_spec); - return 1; -} |