The alarm
and setitimer
functions provide a mechanism for a
process to interrupt itself in the future. They do this by setting a
timer; when the timer expires, the process receives a signal.
Each process has three independent interval timers available:
SIGALRM
signal to the process when it expires.
SIGVTALRM
signal to the process when it expires.
SIGPROF
signal to the process when it expires.
This timer is useful for profiling in interpreters. The interval timer mechanism does not have the fine granularity necessary for profiling native code.
You can only have one timer of each kind set at any given time. If you set a timer that has not yet expired, that timer is simply reset to the new value.
You should establish a handler for the appropriate alarm signal using
signal
or sigaction
before issuing a call to
setitimer
or alarm
. Otherwise, an unusual chain of events
could cause the timer to expire before your program establishes the
handler. In this case it would be terminated, since termination is the
default action for the alarm signals. See Signal Handling.
To be able to use the alarm function to interrupt a system call which
might block otherwise indefinitely it is important to not set the
SA_RESTART
flag when registering the signal handler using
sigaction
. When not using sigaction
things get even
uglier: the signal
function has fixed semantics with respect
to restarts. The BSD semantics for this function is to set the flag.
Therefore, if sigaction
for whatever reason cannot be used, it is
necessary to use sysv_signal
and not signal
.
The setitimer
function is the primary means for setting an alarm.
This facility is declared in the header file sys/time.h. The
alarm
function, declared in unistd.h, provides a somewhat
simpler interface for setting the real-time timer.
This structure is used to specify when a timer should expire. It contains the following members:
struct timeval it_interval
This is the period between successive timer interrupts. If zero, the alarm will only be sent once.
struct timeval it_value
This is the period between now and the first timer interrupt. If zero, the alarm is disabled.
The struct timeval
data type is described in Time Types.
int
setitimer (int which, const struct itimerval *new, struct itimerval *old)
¶Preliminary: | MT-Safe timer | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The setitimer
function sets the timer specified by which
according to new. The which argument can have a value of
ITIMER_REAL
, ITIMER_VIRTUAL
, or ITIMER_PROF
.
If old is not a null pointer, setitimer
returns information
about any previous unexpired timer of the same kind in the structure it
points to.
The return value is 0
on success and -1
on failure. The
following errno
error conditions are defined for this function:
EINVAL
The timer period is too large.
int
getitimer (int which, struct itimerval *old)
¶Preliminary: | MT-Safe | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The getitimer
function stores information about the timer specified
by which in the structure pointed at by old.
The return value and error conditions are the same as for setitimer
.
ITIMER_REAL
¶This constant can be used as the which argument to the
setitimer
and getitimer
functions to specify the real-time
timer.
ITIMER_VIRTUAL
¶This constant can be used as the which argument to the
setitimer
and getitimer
functions to specify the virtual
timer.
ITIMER_PROF
¶This constant can be used as the which argument to the
setitimer
and getitimer
functions to specify the profiling
timer.
unsigned int
alarm (unsigned int seconds)
¶Preliminary: | MT-Safe timer | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The alarm
function sets the real-time timer to expire in
seconds seconds. If you want to cancel any existing alarm, you
can do this by calling alarm
with a seconds argument of
zero.
The return value indicates how many seconds remain before the previous
alarm would have been sent. If there was no previous alarm, alarm
returns zero.
The alarm
function could be defined in terms of setitimer
like this:
unsigned int alarm (unsigned int seconds) { struct itimerval old, new; new.it_interval.tv_usec = 0; new.it_interval.tv_sec = 0; new.it_value.tv_usec = 0; new.it_value.tv_sec = (long int) seconds; if (setitimer (ITIMER_REAL, &new, &old) < 0) return 0; else return old.it_value.tv_sec; }
There is an example showing the use of the alarm
function in
Signal Handlers that Return.
If you simply want your process to wait for a given number of seconds,
you should use the sleep
function. See Sleeping.
You shouldn’t count on the signal arriving precisely when the timer expires. In a multiprocessing environment there is typically some amount of delay involved.
Portability Note: The setitimer
and getitimer
functions are derived from BSD Unix, while the alarm
function is
specified by the POSIX.1 standard. setitimer
is more powerful than
alarm
, but alarm
is more widely used.