/* * BIRD -- Timers * * (c) 2013--2017 Ondrej Zajicek * (c) 2013--2017 CZ.NIC z.s.p.o. * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_TIMER_H_ #define _BIRD_TIMER_H_ #include "nest/bird.h" #include "lib/buffer.h" #include "lib/io-loop.h" #include "lib/locking.h" #include "lib/resource.h" #include extern _Atomic btime last_time; extern _Atomic btime real_time; typedef struct timer { resource r; void (*hook)(struct timer *); void *data; btime expires; /* 0=inactive */ uint randomize; /* Amount of randomization */ uint recurrent; /* Timer recurrence */ struct timeloop *loop; /* Loop where the timer is active */ int index; } timer; struct timeloop { BUFFER_(timer *) timers; struct domain_generic *domain; struct birdloop *loop; }; #define TLOCK_TIMER_ASSERT(loop) ASSERT_DIE((loop)->domain && DG_IS_LOCKED((loop)->domain)) #define TLOCK_LOCAL_ASSERT(loop) ASSERT_DIE(!(loop)->domain || DG_IS_LOCKED((loop)->domain)) static inline uint timers_count(struct timeloop *loop) { TLOCK_TIMER_ASSERT(loop); return loop->timers.used - 1; } static inline timer *timers_first(struct timeloop *loop) { TLOCK_TIMER_ASSERT(loop); return (loop->timers.used > 1) ? loop->timers.data[1] : NULL; } #define current_time() atomic_load_explicit(&last_time, memory_order_acquire) #define current_real_time() atomic_load_explicit(&real_time, memory_order_acquire) //#define now (current_time() TO_S) //#define now_real (current_real_time() TO_S) extern btime boot_time; timer *tm_new(pool *p); #define tm_set(t, when) tm_set_in((t), (when), &main_birdloop) #define tm_start(t, after) tm_start_in((t), (after), &main_birdloop) void tm_stop(timer *t); void tm_set_in(timer *t, btime when, struct birdloop *loop); #define tm_start_in(t, after, loop) tm_set_in((t), (current_time() + MAX_((after), 0)), loop) static inline int tm_active(timer *t) { return t->expires != 0; } static inline btime tm_remains(timer *t) { btime now_ = current_time(); return (t->expires > now_) ? (t->expires - now_) : 0; } static inline timer * tm_new_init(pool *p, void (*hook)(struct timer *), void *data, uint rec, uint rand) { timer *t = tm_new(p); t->hook = hook; t->data = data; t->recurrent = rec; t->randomize = rand; return t; } static inline void tm_set_max(timer *t, btime when) { if (when > t->expires) tm_set(t, when); } static inline void tm_start_max(timer *t, btime after) { btime rem = tm_remains(t); tm_start(t, MAX_(rem, after)); } /* In sysdep code */ void times_update(void); /* For I/O loop */ void timers_init(struct timeloop *loop, pool *p); void timers_fire(struct timeloop *loop, int io_log); struct timeformat { const char *fmt1, *fmt2; btime limit; }; #define TM_ISO_SHORT_S (struct timeformat){"%T", "%F", (s64) (20*3600) S_} #define TM_ISO_SHORT_MS (struct timeformat){"%T.%3f", "%F", (s64) (20*3600) S_} #define TM_ISO_SHORT_US (struct timeformat){"%T.%6f", "%F", (s64) (20*3600) S_} #define TM_ISO_LONG_S (struct timeformat){"%F %T", NULL, 0} #define TM_ISO_LONG_MS (struct timeformat){"%F %T.%3f", NULL, 0} #define TM_ISO_LONG_US (struct timeformat){"%F %T.%6f", NULL, 0} #define TM_DATETIME_BUFFER_SIZE 32 /* Buffer size required by tm_format_time() */ btime tm_parse_time(const char *x); void tm_format_time(char *x, struct timeformat *fmt, btime t); int tm_format_real_time(char *x, size_t max, const char *fmt, btime t); #endif