/*
* timer - event timer
*/
void
timer(void)
{
struct peer * p;
struct peer * next_peer;
l_fp now;
time_t tnow;
/*
* The basic timerevent is one second. This is used to adjust the
* system clock in time and frequency, implement the kiss-o'-death
* function and the association polling function.
*/
current_time++;
if (adjust_timer <= current_time) {
adjust_timer += 1;
adj_host_clock();
#ifdef REFCLOCK
for (p = peer_list; p != NULL; p = next_peer) {
next_peer = p->p_link;
if (FLAG_REFCLOCK & p->flags)
refclock_timer(p);
}
#endif /* REFCLOCK */
}
/*
* Now dispatch any peers whose event timer has expired. Be
* careful here, since the peer structure might go away as the
* result of the call.
*/
for (p = peer_list; p != NULL; p = next_peer) {
next_peer = p->p_link;
/*
* Restrain the non-burst packet rate not more
* than one packet every 16 seconds. This is
* usually tripped using iburst and minpoll of
* 128 s or less.
*/
if (p->throttle > 0)
p->throttle--;
if (p->nextdate <= current_time) {
#ifdef REFCLOCK
if (FLAG_REFCLOCK & p->flags)
refclock_transmit(p);
else
#endif /* REFCLOCK */
transmit(p);
}
}
/*
* Orphan mode is active when enabled and when no servers less
* than the orphan stratum are available. A server with no other
* synchronization source is an orphan. It shows offset zero and
* reference ID the loopback address.
*/
if (sys_orphan < STRATUM_UNSPEC && sys_peer == NULL &&
current_time > orphwait) {
if (sys_leap == LEAP_NOTINSYNC) {
set_sys_leap(LEAP_NOWARNING);
#ifdef AUTOKEY
if (crypto_flags)
crypto_update();
#endif /* AUTOKEY */
}
sys_stratum = (u_char)sys_orphan;
if (sys_stratum > 1)
sys_refid = htonl(LOOPBACKADR);
else
memcpy(&sys_refid, "LOOP", 4);
sys_offset = 0;
sys_rootdelay = 0;
sys_rootdisp = 0;
}
get_systime(&now);
time(&tnow);
/*
* Leapseconds. Get time and defer to worker if either something
* is imminent or every 8th second.
*/
if (leapsec > LSPROX_NOWARN || 0 == (current_time & 7))
check_leapsec(now.l_ui, &tnow,
(sys_leap == LEAP_NOTINSYNC));
if (sys_leap != LEAP_NOTINSYNC) {
if (leapsec >= LSPROX_ANNOUNCE && leapdif) {
if (leapdif > 0)
set_sys_leap(LEAP_ADDSECOND);
else
set_sys_leap(LEAP_DELSECOND);
} else {
set_sys_leap(LEAP_NOWARNING);
}
}
/*
* Update huff-n'-puff filter.
*/
if (huffpuff_timer <= current_time) {
huffpuff_timer += HUFFPUFF;
huffpuff();
}
#ifdef AUTOKEY
/*
* Garbage collect expired keys.
*/
if (keys_timer <= current_time) {
keys_timer += 1 << sys_automax;
auth_agekeys();
}
/*
* Generate new private value. This causes all associations
* to regenerate cookies.
*/
if (revoke_timer && revoke_timer <= current_time) {
revoke_timer += 1 << sys_revoke;
RAND_bytes((u_char *)&sys_private, 4);
}
#endif /* AUTOKEY */
/*
* Interface update timer
*/
if (interface_interval && interface_timer <= current_time) {
timer_interfacetimeout(current_time +
interface_interval);
DPRINTF(2, ("timer: interface update\n"));
interface_update(NULL, NULL);
}
if (worker_idle_timer && worker_idle_timer <= current_time)
worker_idle_timer_fired();
/*
* Finally, write hourly stats and do the hourly
* and daily leapfile checks.
*/
if (stats_timer <= current_time) {
stats_timer += SECSPERHR;
write_stats();
if (leapf_timer <= current_time) {
leapf_timer += SECSPERDAY;
check_leap_file(TRUE, now.l_ui, &tnow);
} else {
check_leap_file(FALSE, now.l_ui, &tnow);
}
}
}
/*
* timer - event timer
*/
void
timer(void)
{
register struct peer *peer, *next_peer;
u_int n;
long delta;
/*
* The basic timerevent is one second. This is used to adjust
* the system clock in time and frequency, implement the
* kiss-o'-deatch function and implement the association
* polling function..
*/
current_time += nap_time;
get_systime(&sys_time);
nap_time = (u_long)-1;
if (do_adjtime) {
if (adjust_timer <= current_time) {
adjust_timer += 1;
adj_host_clock();
#ifdef REFCLOCK
for (n = 0; n < NTP_HASH_SIZE; n++) {
for (peer = peer_hash[n]; peer != 0; peer = next_peer) {
next_peer = peer->next;
if (peer->flags & FLAG_REFCLOCK)
refclock_timer(peer);
}
}
#endif /* REFCLOCK */
}
nap_time = 1;
}
if (awake_timer) {
if (awake_timer <= current_time) {
for (n = 0; n < NTP_HASH_SIZE; n++) {
for (peer = peer_hash[n]; peer != 0; peer = peer->next) {
peer->burst = NSTAGE;
peer->nextdate = current_time;
peer->throttle = 0;
}
}
allow_panic = TRUE; /* Allow for large time offsets */
init_loopfilter();
state = EVNT_NSET;
awake_timer = 0;
} else {
delta = awake_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
}
/*
* Now dispatch any peers whose event timer has expired. Be
* careful here, since the peer structure might go away as the
* result of the call.
*/
for (n = 0; n < NTP_HASH_SIZE; n++) {
for (peer = peer_hash[n]; peer != 0; peer = next_peer) {
next_peer = peer->next;
if (peer->action && peer->nextaction <= current_time)
peer->action(peer);
/*
* Restrain the non-burst packet rate not more
* than one packet every 16 seconds. This is
* usually tripped using iburst and minpoll of
* 128 s or less.
*/
if (peer->throttle > 0)
peer->throttle--;
if (peer->nextdate <= current_time) {
#ifdef REFCLOCK
if (peer->flags & FLAG_REFCLOCK)
refclock_transmit(peer);
else
transmit(peer);
#else /* REFCLOCK */
transmit(peer);
#endif /* REFCLOCK */
}
if (peer->action && peer->nextaction >= current_time) {
delta = peer->nextaction - current_time;
if (delta < nap_time) {
nap_time = delta;
}
} else if (peer->nextdate >= current_time) {
delta = peer->nextdate - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
}
}
/*
* Orphan mode is active when enabled and when no servers less
* than the orphan statum are available. A server with no other
* synchronization source is an orphan It shows offset zero and
* reference ID the loopback address.
*/
if (sys_orphan < STRATUM_UNSPEC && sys_peer == NULL) {
if (sys_leap == LEAP_NOTINSYNC) {
sys_leap = LEAP_NOWARNING;
#ifdef OPENSSL
if (crypto_flags)
crypto_update();
#endif /* OPENSSL */
}
sys_stratum = (u_char)sys_orphan;
if (sys_stratum > 1)
sys_refid = htonl(LOOPBACKADR);
else
memcpy(&sys_refid, "LOOP", 4);
sys_offset = 0;
sys_rootdelay = 0;
sys_rootdisp = 0;
}
/*
* Leapseconds. If a leap is pending, decrement the time
* remaining. If less than one day remains, set the leap bits.
* When no time remains, clear the leap bits and increment the
* TAI. If kernel suppport is not available, do the leap
* crudely. Note a leap cannot be pending unless the clock is
* set.
*/
if (leapsec > 0) {
leapsec--;
if (leapsec == 0) {
sys_leap = LEAP_NOWARNING;
sys_tai = leap_tai;
#ifdef KERNEL_PLL
if (!(pll_control && kern_enable))
step_systime(-1.0);
#else /* KERNEL_PLL */
#ifndef SYS_WINNT /* WinNT port has its own leap second handling */
step_systime(-1.0);
#endif /* SYS_WINNT */
#endif /* KERNEL_PLL */
report_event(EVNT_LEAP, NULL, NULL);
} else {
if (leapsec < DAY)
sys_leap = LEAP_ADDSECOND;
if (leap_tai > 0)
sys_tai = leap_tai - 1;
}
}
/*
* Update huff-n'-puff filter.
*/
if (huffpuff_timer <= current_time) {
huffpuff_timer += HUFFPUFF;
huffpuff();
}
if (huffpuff_timer >= current_time) {
delta = huffpuff_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
#ifdef OPENSSL
/*
* Garbage collect expired keys.
*/
if (keys_timer <= current_time) {
keys_timer += 1 << sys_automax;
auth_agekeys();
}
if (keys_timer >= current_time) {
delta = keys_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
/*
* Garbage collect key list and generate new private value. The
* timer runs only after initial synchronization and fires about
* once per day.
*/
if (revoke_timer <= current_time && sys_leap !=
LEAP_NOTINSYNC) {
revoke_timer += 1 << sys_revoke;
RAND_bytes((u_char *)&sys_private, 4);
}
if (revoke_timer >= current_time) {
delta = revoke_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
#endif /* OPENSSL */
/*
* Interface update timer
*/
if (interface_interval && interface_timer <= current_time) {
timer_interfacetimeout(current_time +
interface_interval);
DPRINTF(2, ("timer: interface update\n"));
interface_update(NULL, NULL);
}
if (interface_interval && interface_timer >= current_time) {
delta = interface_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
if (dns_timer && (dns_timer <= current_time)) {
dns_timer = update_dns_peers();
}
if (dns_timer >= current_time) {
delta = dns_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
/*
* Finally, write hourly stats.
*/
if (stats_timer <= current_time) {
stats_timer += HOUR;
write_stats();
if (sys_tai != 0 && sys_time.l_ui > leap_expire)
report_event(EVNT_LEAPVAL, NULL, NULL);
} else if (!do_adjtime && drift_file_sw) {
write_stats(); /* update more frequently for pacemaker */
}
if (stats_timer >= current_time) {
delta = stats_timer - current_time;
if (delta < nap_time) {
nap_time = delta;
}
}
if (nap_time == 0) {
nap_time = 1;
}
if (debug) {
msyslog(LOG_INFO, "%s: current_time: %ld, nap_time: %ld", __FUNCTION__,
current_time, nap_time);
}
itimer.it_interval.tv_sec = itimer.it_value.tv_sec = nap_time;
setitimer(ITIMER_REAL, &itimer, (struct itimerval *)0);
}
/*
* timer - dispatch anyone who needs to be
*/
void
timer(void)
{
register struct peer *peer, *next_peer;
#ifdef OPENSSL
char statstr[NTP_MAXSTRLEN]; /* statistics for filegen */
#endif /* OPENSSL */
u_int n;
current_time += (1<<EVENT_TIMEOUT);
/*
* Adjustment timeout first.
*/
if (adjust_timer <= current_time) {
adjust_timer += 1;
adj_host_clock();
kod_proto();
#ifdef REFCLOCK
for (n = 0; n < NTP_HASH_SIZE; n++) {
for (peer = peer_hash[n]; peer != 0; peer = next_peer) {
next_peer = peer->next;
if (peer->flags & FLAG_REFCLOCK)
refclock_timer(peer);
}
}
#endif /* REFCLOCK */
}
/*
* Now dispatch any peers whose event timer has expired. Be careful
* here, since the peer structure might go away as the result of
* the call.
*/
for (n = 0; n < NTP_HASH_SIZE; n++) {
for (peer = peer_hash[n]; peer != 0; peer = next_peer) {
next_peer = peer->next;
if (peer->action && peer->nextaction <= current_time)
peer->action(peer);
if (peer->nextdate <= current_time) {
#ifdef REFCLOCK
if (peer->flags & FLAG_REFCLOCK)
refclock_transmit(peer);
else
transmit(peer);
#else /* REFCLOCK */
transmit(peer);
#endif /* REFCLOCK */
}
}
}
/*
* Garbage collect expired keys.
*/
if (keys_timer <= current_time) {
keys_timer += MINUTE;
auth_agekeys();
}
/*
* Huff-n'-puff filter
*/
if (huffpuff_timer <= current_time) {
huffpuff_timer += HUFFPUFF;
huffpuff();
}
#ifdef OPENSSL
/*
* Garbage collect old keys and generate new private value
*/
if (revoke_timer <= current_time) {
revoke_timer += RANDPOLL(sys_revoke);
expire_all();
sprintf(statstr, "refresh ts %u", ntohl(hostval.tstamp));
record_crypto_stats(NULL, statstr);
#ifdef DEBUG
if (debug)
printf("timer: %s\n", statstr);
#endif
}
#endif /* OPENSSL */
/*
* interface update timer
*/
if (interface_interval && interface_timer <= current_time) {
timer_interfacetimeout(current_time + interface_interval);
DPRINTF(1, ("timer: interface update\n"));
interface_update(NULL, NULL);
}
/*
* Finally, periodically write stats.
*/
if (stats_timer <= current_time) {
if (stats_timer != 0)
write_stats();
stats_timer += stats_write_period;
}
}