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The signal
function provides a simple interface for establishing
an action for a particular signal. The function and associated macros
are declared in the header file signal.h.
This is the type of signal handler functions. Signal handlers take one
integer argument specifying the signal number, and have return type
void
. So, you should define handler functions like this:
void handler (int signum
) { … }
The name sighandler_t
for this data type is a GNU extension.
Preliminary: | MT-Safe sigintr | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The signal
function establishes action as the action for
the signal signum.
The first argument, signum, identifies the signal whose behavior you want to control, and should be a signal number. The proper way to specify a signal number is with one of the symbolic signal names (see Standard Signals)—don’t use an explicit number, because the numerical code for a given kind of signal may vary from operating system to operating system.
The second argument, action, specifies the action to use for the signal signum. This can be one of the following:
SIG_DFL
¶SIG_DFL
specifies the default action for the particular signal.
The default actions for various kinds of signals are stated in
Standard Signals.
SIG_IGN
¶SIG_IGN
specifies that the signal should be ignored.
Your program generally should not ignore signals that represent serious
events or that are normally used to request termination. You cannot
ignore the SIGKILL
or SIGSTOP
signals at all. You can
ignore program error signals like SIGSEGV
, but ignoring the error
won’t enable the program to continue executing meaningfully. Ignoring
user requests such as SIGINT
, SIGQUIT
, and SIGTSTP
is unfriendly.
When you do not wish signals to be delivered during a certain part of the program, the thing to do is to block them, not ignore them. See Blocking Signals.
handler
Supply the address of a handler function in your program, to specify running this handler as the way to deliver the signal.
For more information about defining signal handler functions, see Defining Signal Handlers.
If you set the action for a signal to SIG_IGN
, or if you set it
to SIG_DFL
and the default action is to ignore that signal, then
any pending signals of that type are discarded (even if they are
blocked). Discarding the pending signals means that they will never be
delivered, not even if you subsequently specify another action and
unblock this kind of signal.
The signal
function returns the action that was previously in
effect for the specified signum. You can save this value and
restore it later by calling signal
again.
If signal
can’t honor the request, it returns SIG_ERR
instead. The following errno
error conditions are defined for
this function:
EINVAL
You specified an invalid signum; or you tried to ignore or provide
a handler for SIGKILL
or SIGSTOP
.
Compatibility Note: A problem encountered when working with the
signal
function is that it has different semantics on BSD and
SVID systems. The difference is that on SVID systems the signal handler
is deinstalled after signal delivery. On BSD systems the
handler must be explicitly deinstalled. In the GNU C Library we use the
BSD version by default. To use the SVID version you can either use the
function sysv_signal
(see below) or use the _XOPEN_SOURCE
feature select macro (see Feature Test Macros). In general, use of these
functions should be avoided because of compatibility problems. It
is better to use sigaction
if it is available since the results
are much more reliable.
Here is a simple example of setting up a handler to delete temporary files when certain fatal signals happen:
#include <signal.h> void termination_handler (int signum) { struct temp_file *p; for (p = temp_file_list; p; p = p->next) unlink (p->name); } int main (void) { … if (signal (SIGINT, termination_handler) == SIG_IGN) signal (SIGINT, SIG_IGN); if (signal (SIGHUP, termination_handler) == SIG_IGN) signal (SIGHUP, SIG_IGN); if (signal (SIGTERM, termination_handler) == SIG_IGN) signal (SIGTERM, SIG_IGN); … }
Note that if a given signal was previously set to be ignored, this code avoids altering that setting. This is because non-job-control shells often ignore certain signals when starting children, and it is important for the children to respect this.
We do not handle SIGQUIT
or the program error signals in this
example because these are designed to provide information for debugging
(a core dump), and the temporary files may give useful information.
Preliminary: | MT-Safe | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The sysv_signal
implements the behavior of the standard
signal
function as found on SVID systems. The difference to BSD
systems is that the handler is deinstalled after a delivery of a signal.
Compatibility Note: As said above for signal
, this
function should be avoided when possible. sigaction
is the
preferred method.
Preliminary: | MT-Safe sigintr | AS-Safe | AC-Safe | See POSIX Safety Concepts.
The ssignal
function does the same thing as signal
; it is
provided only for compatibility with SVID.
The value of this macro is used as the return value from signal
to indicate an error.
Next: Advanced Signal Handling, Up: Specifying Signal Actions [Contents][Index]