TIMER_INFINITY
next = TIMER_INFINITY;
if (next_event_time != TIMER_INFINITY && next_event_time < next)
timer_next = getcurrenttime() + TIMER_INFINITY;
assert(delay <= TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
timer_next = TIMER_INFINITY;
next = TIMER_INFINITY;
if (nexti != TIMER_INFINITY && nexti < next)
if (nexti != TIMER_INFINITY && nexti < next)
if (nexti != TIMER_INFINITY && nexti < next)
if (nexti != TIMER_INFINITY && nexti < next)
if (nexti != TIMER_INFINITY && nexti < next)
if (next == TIMER_INFINITY)
timer_next = TIMER_INFINITY;
if (delay != TIMER_INFINITY) {
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);
if (delay != TIMER_INFINITY) {
pi->pi_TmpRegenCountdown = TIMER_INFINITY;
uint_t next = TIMER_INFINITY;
return (TIMER_INFINITY);
uint_t next = TIMER_INFINITY;
uint_t next = TIMER_INFINITY;
(pi->pi_TmpRegenCountdown == TIMER_INFINITY))
return (TIMER_INFINITY);
return (TIMER_INFINITY);
return (TIMER_INFINITY);