return 1;
}
- fprintf(stderr, "wating timer ...\n");
+ fprintf(stderr, "waiting timer ...\n");
ticks = waittmr(tfd, -1);
ttmr = getustime(clks[i].id);
if (ticks <= 0)
return 1;
}
- fprintf(stderr, "wating timer ...\n");
+ fprintf(stderr, "waiting timer ...\n");
ticks = waittmr(tfd, -1);
ttmr = getustime(clks[i].id);
if (ticks <= 0)
fprintf(stderr, "sleeping 1 second ...\n");
sleep(1);
- fprintf(stderr, "wating timer ...\n");
+ fprintf(stderr, "waiting timer ...\n");
ticks = waittmr(tfd, -1);
ttmr = getustime(clks[i].id);
if (ticks <= 0)
fprintf(stderr, "timerfd = %d\n", tfd);
#endif
- fprintf(stderr, "wating timer (flush the single tick) ...\n");
+ fprintf(stderr, "waiting timer (flush the single tick) ...\n");
ticks = waittmr(tfd, -1);
ttmr = getustime(clks[i].id);
if (ticks <= 0)
---------------------------------------
relative timer test (at 500 ms) ...
-wating timer ...
+waiting timer ...
got timer ticks (1) after 0.5 s
absolute timer test (at 500 ms) ...
-wating timer ...
+waiting timer ...
got timer ticks (1) after 0.5 s
sequential timer test (100 ms clock) ...
sleeping one second ...
timerfd_gettime returned:
it_value = 0.1 it_interval = 0.1
sleeping 1 second ...
-wating timer ...
+waiting timer ...
got timer ticks (20) after 2.0 s
O_NONBLOCK test ...
-wating timer (flush the single tick) ...
+waiting timer (flush the single tick) ...
got timer ticks (1) after 0.1 s
success
---------------------------------------
relative timer test (at 500 ms) ...
-wating timer ...
+waiting timer ...
got timer ticks (1) after 0.5 s
absolute timer test (at 500 ms) ...
-wating timer ...
+waiting timer ...
got timer ticks (1) after 0.5 s
sequential timer test (100 ms clock) ...
sleeping one second ...
timerfd_gettime returned:
it_value = 0.1 it_interval = 0.1
sleeping 1 second ...
-wating timer ...
+waiting timer ...
got timer ticks (20) after 2.0 s
O_NONBLOCK test ...
-wating timer (flush the single tick) ...
+waiting timer (flush the single tick) ...
got timer ticks (1) after 0.1 s
success