sigvec (2)
Leading comments
Copyright (c) 1980, 1991, 1993 The Regents of the University of California. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the fol...
NAME
sigvec - software signal facilitiesLIBRARY
Lb libcSYNOPSIS
In signal.hstruct sigvec { void (*sv_handler)(); int sv_mask; int sv_flags; };Ft int Fn sigvec int sig struct sigvec *vec struct sigvec *ovec
DESCRIPTION
Bf -symbolic This interface is made obsolete by sigaction(2). EfThe system defines a set of signals that may be delivered to a process. Signal delivery resembles the occurrence of a hardware interrupt: the signal is blocked from further occurrence, the current process context is saved, and a new one is built. A process may specify a handler to which a signal is delivered, or specify that a signal is to be blocked or ignored A process may also specify that a default action is to be taken by the system when a signal occurs. Normally, signal handlers execute on the current stack of the process. This may be changed, on a per-handler basis, so that signals are taken on a special signal stack
All signals have the same priority Signal routines execute with the signal that caused their invocation blocked but other signals may yet occur. A global signal mask defines the set of signals currently blocked from delivery to a process. The signal mask for a process is initialized from that of its parent (normally 0). It may be changed with a sigblock(2) or sigsetmask(2) call, or when a signal is delivered to the process.
When a signal condition arises for a process, the signal is added to a set of signals pending for the process. If the signal is not currently blocked by the process then it is delivered to the process. When a signal is delivered, the current state of the process is saved, a new signal mask is calculated (as described below), and the signal handler is invoked. The call to the handler is arranged so that if the signal handling routine returns normally the process will resume execution in the context from before the signal's delivery. If the process wishes to resume in a different context, then it must arrange to restore the previous context itself.
When a signal is delivered to a process a new signal mask is installed for the duration of the process' signal handler (or until a sigblock(2) or sigsetmask(2) call is made). This mask is formed by taking the current signal mask, adding the signal to be delivered, and or 'ing in the signal mask associated with the handler to be invoked.
The Fn sigvec function assigns a handler for a specific signal. If Fa vec is non-zero, it specifies a handler routine and mask to be used when delivering the specified signal. Further, if the SV_ONSTACK bit is set in Fa sv_flags , the system will deliver the signal to the process on a signal stack specified with sigaltstack(2). If Fa ovec is non-zero, the previous handling information for the signal is returned to the user.
The following is a list of all signals with names as in the include file In signal.h :
- NAME Default Action Description
- SIGHUP terminate process terminal line hangup
- SIGINT terminate process interrupt program
- SIGQUIT create core image quit program
- SIGILL create core image illegal instruction
- SIGTRAP create core image trace trap
- SIGABRT create core image Ta abort(3)
-
call (formerly
SIGIOT - SIGEMT create core image emulate instruction executed
- SIGFPE create core image floating-point exception
- SIGKILL terminate process kill program
- SIGBUS create core image bus error
- SIGSEGV create core image segmentation violation
- SIGSYS create core image non-existent system call invoked
- SIGPIPE terminate process write on a pipe with no reader
- SIGALRM terminate process real-time timer expired
- SIGTERM terminate process software termination signal
- SIGURG discard signal urgent condition present on socket
- SIGSTOP stop process stop (cannot be caught or ignored)
- SIGTSTP stop process stop signal generated from keyboard
- SIGCONT discard signal continue after stop
- SIGCHLD discard signal child status has changed
- SIGTTIN stop process background read attempted from control terminal
- SIGTTOU stop process background write attempted to control terminal
- SIGIO discard signal I/O
-
is possible on a descriptor (see
fcntl(2)) - SIGXCPU terminate process cpu time limit exceeded (see
-
setrlimit(2))
- SIGXFSZ terminate process file size limit exceeded (see
-
setrlimit(2))
- SIGVTALRM terminate process virtual time alarm (see
-
setitimer(2))
- SIGPROF terminate process profiling timer alarm (see
-
setitimer(2))
- SIGWINCH discard signal Window size change
- SIGINFO discard signal status request from keyboard
- SIGUSR1 terminate process User defined signal 1
- SIGUSR2 terminate process User defined signal 2
Once a signal handler is installed, it remains installed
until another
Fn sigvec
call is made, or an
execve(2)
is performed.
A signal-specific default action may be reset by
setting
Fa sv_handler
to
SIG_DFL
The defaults are process termination, possibly with core dump;
no action; stopping the process; or continuing the process.
See the above signal list for each signal's default action.
If
Fa sv_handler
is
SIG_IGN
current and pending instances
of the signal are ignored and discarded.
If a signal is caught during the system calls listed below, the call is normally restarted. The call can be forced to terminate prematurely with an Er EINTR error return by setting the SV_INTERRUPT bit in Fa sv_flags . The affected system calls include read(2), write(2), sendto(2), recvfrom(2), sendmsg(2) and recvmsg(2) on a communications channel or a slow device (such as a terminal, but not a regular file) and during a wait(2) or ioctl(2). However, calls that have already committed are not restarted, but instead return a partial success (for example, a short read count).
After a fork(2) or vfork(2) all signals, the signal mask, the signal stack, and the restart/interrupt flags are inherited by the child.
The execve(2) system call reinstates the default action for all signals which were caught and resets all signals to be caught on the user stack. Ignored signals remain ignored; the signal mask remains the same; signals that interrupt system calls continue to do so.
NOTES
The mask specified in Fa vec is not allowed to block SIGKILL or SIGSTOP This is done silently by the system.The SV_INTERRUPT flag is not available in BSD 4.2 hence it should not be used if backward compatibility is needed.
RETURN VALUES
Rv -std sigvecEXAMPLES
On the VAX-11 The handler routine can be declared:void handler(sig, code, scp) int sig, code; struct sigcontext *scp;
Here Fa sig is the signal number, into which the hardware faults and traps are mapped as defined below. The Fa code argument is either a constant as given below or, for compatibility mode faults, the code provided by the hardware (Compatibility mode faults are distinguished from the other SIGILL traps by having PSL_CM set in the psl). The Fa scp argument is a pointer to the Fa sigcontext structure (defined in In signal.h ) , used to restore the context from before the signal.
ERRORS
The Fn sigvec function will fail and no new signal handler will be installed if one of the following occurs:- Bq Er EFAULT
- Either Fa vec or Fa ovec points to memory that is not a valid part of the process address space.
- Bq Er EINVAL
- The Fa sig argument is not a valid signal number.
- Bq Er EINVAL
- An attempt is made to ignore or supply a handler for SIGKILL or SIGSTOP