prom_gettime
mem_term->tm_cprboot_end.tv_sec = prom_gettime() / 1000;
cb_msec = prom_gettime();
prog, prom_gettime() - cb_msec);
aup.aup_time = prom_gettime() / 1000;
aup.aup_time = (prom_gettime() / 1000);
call_msg.rm_xid = (uint_t)prom_gettime() + 1;
start = prom_gettime();
diff = (uint_t)(prom_gettime() - start);
call_msg.rm_xid = (uint_t)prom_gettime() + 1;
wait_time += prom_gettime();
if (prom_gettime() >= wait_time) {
xid = (uint_t)(prom_gettime() / 1000) + 1;
wait_time += prom_gettime();
prom_gettime() < wait_time);
dhcp_start_time = prom_gettime();
s->secs = htons((uint16_t)((prom_gettime() - dhcp_start_time)/1000));
wait_time = prom_gettime() + tol;
now = prom_gettime();
if (wait_time < prom_gettime())
} while (prom_gettime() < init_timeout);
pkt->secs = htons((uint16_t)((prom_gettime() - dhcp_start_time)/1000));
wait_time = prom_gettime() + timeout;
for (count = 0; timeout == ~0U || prom_gettime() < wait_time; count++) {
time = prom_gettime() + (delay * 1000); /* broadcast delay */
while (prom_gettime() <= time) {
timeout = prom_gettime() + reltime;
pre_pr = prom_gettime();
post_pr = prom_gettime();
pre_pc = prom_gettime();
tot_pc += prom_gettime() - pre_pc;
(now = prom_gettime()) < timeout);
prom_gettime() < timeout);
wait_time = prom_gettime() + timeout;
for (count = 0; timeout == ~0U || prom_gettime() < wait_time; count++) {
time = prom_gettime() + (delay * 1000); /* broadcast delay */
while (prom_gettime() <= time) {
timeout = prom_gettime() + reltime;
pre_pr = prom_gettime();
post_pr = prom_gettime();
pre_pc = prom_gettime();
tot_pc += prom_gettime() - pre_pc;
(now = prom_gettime()) < timeout);
prom_gettime() < timeout);
secs_since_boot = prom_gettime() / 1000;
time_now = start_time + ((prom_gettime() / 1000) - secs_since_boot);
uint_t end = (secs * 1000) + prom_gettime();
while (prom_gettime() < end)
start = prom_gettime();
diff = (uint_t)((prom_gettime() - start) + 500) / 1000;
timeout = prom_gettime() + sockets[sock_id].in_timeout;
timeout = prom_gettime() + tcp_accept_timeout;
timeout > prom_gettime()) {
if (timeout <= prom_gettime() && listener->tcp_eager_next_q == NULL) {
tcp->tcp_last_rcv_lbolt = prom_gettime();
if (prom_gettime() > tcp->tcp_rto_timeout)
tcp->tcp_last_rcv_lbolt = prom_gettime();
if (TSTMP_LT(prom_gettime(),
snxt_mp->b_prev = (mblk_t *)(uintptr_t)prom_gettime();
tcp->tcp_last_recv_time = prom_gettime();
(tcp)->tcp_rto_timeout = prom_gettime() + intvl; \
tcp->tcp_last_rcv_lbolt = prom_gettime();
if (prom_gettime() > tcp_time_wait_runtime) \
tcp_set_rto(tcp, (int32_t)(prom_gettime() -
tcp_set_rto(tcp, (int32_t)(prom_gettime() -
tcp_time_wait_runtime = prom_gettime() + tcp_time_wait_interval;
(mblk_t *)(uintptr_t)prom_gettime();
(mblk_t *)(uintptr_t)prom_gettime();
time_to_wait = (int32_t)(prom_gettime() -
((prom_gettime() - tcp->tcp_last_recv_time) >
mp->b_prev = (mblk_t *)(uintptr_t)prom_gettime();
(prom_gettime() - tcp->tcp_last_recv_time) >= tcp->tcp_rto) {
local_time = (mblk_t *)(uintptr_t)prom_gettime();
new_iss += (prom_gettime() >> ISS_NSEC_SHT) + 1;
tcp->tcp_last_rcv_lbolt = prom_gettime();
tcp->tcp_last_recv_time = prom_gettime();
uint32_t now = prom_gettime();
uint32_t llbolt = (uint32_t)prom_gettime();
llbolt = prom_gettime();
uint32_t llbolt = prom_gettime();
hrt = prom_gettime();
tcp->tcp_iss += (prom_gettime() >> ISS_NSEC_SHT) + tcp_random();
tcp->tcp_time_wait_expire = prom_gettime() + tcp_time_wait_interval;
now = prom_gettime();
tcp_time_wait_runtime = prom_gettime() + 10000;
printf("Current time %u\n", prom_gettime());
stoptime = prom_gettime() +
((int32_t)(stoptime - prom_gettime()) > 0)) {
extern uint_t prom_gettime(void);
extern uint_t prom_gettime(void);