signal(7) - NetBSD Manual Pages

SIGNAL(7)           NetBSD Miscellaneous Information Manual          SIGNAL(7)


NAME
signal -- signal facilities
DESCRIPTION
A signal is a system-level notification delivered to a process. Signals may be generated as the result of process activity, by certain user inputs, by kernel facilities or subsystems, or sent programmatically by other processes or by users. There is a small fixed set of signals, each with a symbolic name and a number. For historical reasons many of the numbers are ``well-known values'', which are in practice the same on all implementations and realistically can never be changed. (Nonetheless, compiled code should always use only the symbolic names.) Many/most sig- nals also have specific semantics, both in how they can be generated and in their effects. Some are special cases in ways that have quite far- reaching consequences. When a signal is posted (``sent'') to a process, in general any of sev- eral things can happen. If the process has elected to ignore the signal, it is discarded and nothing happens. (Some signals may not be ignored, however.) If the process has elected to block the signal temporarily, delivery is postponed until the process later unblocks that signal. Oth- erwise, the signal is delivered, meaning that whatever the process is doing is interrupted in order to react to the signal. (Note that pro- cesses that are waiting in the kernel must unwind what they are doing for signals to be delivered. This can sometimes be expensive. See sigaction(2) for further information.) If the process has elected to catch the signal, which means that the process has installed a handler to react to the signal in some process- specific way, the kernel arranges for the process's handler logic to be invoked. This is always done in a way that allows the process to resume if desired. (Note, however, that some signals may not be caught.) Oth- erwise, the default action for the signal is taken. For most signals the default action is to terminate the process and generate a core dump. See the table below. Note that the term delivery is also used for the spe- cific process of arranging for a signal handler to be invoked. In general, signals are delivered as soon as they are posted. (Some delays may occur due to scheduling.) However, in some cases a process that has been sleeping in the kernel may need to do slow things as part of unwinding its state; this can sometimes lead to human-perceptible delays. Also, some sleep states within the kernel are uninterruptible meaning that signals posted will have no effect until the state clears. These states are supposed to be short-term only, but sometimes kernel bugs make this not the case and one can end up with unkillable processes. Such processes appear in state "D" in ps(1). In general the only way to get rid of them is to reboot. (However, when the "wchan" reported is "tstile", it means the process is waiting for some other process to release resources; sometimes if one can find and kill that process the situation is recoverable.) Signal list The following signals are defined in NetBSD: SIGHUP 1 Hangup SIGINT 2 Interrupt SIGQUIT 3 Quit SIGILL 4 Illegal instruction SIGTRAP 5 Trace/BPT trap SIGABRT 6 Abort trap SIGEMT 7 EMT trap SIGFPE 8 Floating point exception SIGKILL 9 Killed SIGBUS 10 Bus error SIGSEGV 11 Segmentation fault SIGSYS 12 Bad system call SIGPIPE 13 Broken pipe SIGALRM 14 Alarm clock SIGTERM 15 Terminated SIGURG 16 Urgent I/O condition SIGSTOP 17 Suspended (signal) SIGTSTP 18 Suspended SIGCONT 19 Continued SIGCHLD 20 Child exited, stopped or continued SIGTTIN 21 Stopped (tty input) SIGTTOU 22 Stopped (tty output) SIGIO 23 I/O possible SIGXCPU 24 CPU time limit exceeded SIGXFSZ 25 File size limit exceeded SIGVTALRM 26 Virtual timer expired SIGPROF 27 Profiling timer expired SIGWINCH 28 Window size changed SIGINFO 29 Information request SIGUSR1 30 User defined signal 1 SIGUSR2 31 User defined signal 2 SIGPWR 32 Power fail/restart These are numbered 1 to 32. (There is no signal 0; 0 is a reserved value that can be used as a no-op with some signal operations.) Detailed descriptions of these signals follow. SIGHUP (Hangup) This signal is generated by the tty(4) driver to indicate a hangup condition on a process's controlling terminal: the user has discon- nected. Accordingly, the default action is to terminate the process. This signal is also used by many daemons, such as inetd(8), as a cue to reload configuration. The number for SIGHUP is 1, which is quite well known. SIGINT (Interrupt) This signal is generated by the tty(4) driver when the user presses the interrupt character, normally control-C. The default action is to terminate the process. The number for SIGINT is 2. SIGQUIT (Quit) This signal is generated by the tty(4) driver when the user presses the quit character, normally control-backspace. The default action is to terminate the process and dump core. The number for SIGQUIT is 3. SIGILL (Illegal instruction) This signal is generated synchronously by the kernel when the process executes an invalid instruction. The default action is to terminate the process and dump core. Note: the results of executing an illegal instruction when SIGILL is blocked or ignored are for- mally unspecified. The number for SIGILL is 4. SIGTRAP (Trace/BPT trap) This signal is used when a process is being traced (see ptrace(2)) to indicate that the process has stopped at a breakpoint or after single-stepping. It is normally intercepted by the debugger and not exposed to the debuggee. The default action is to terminate the process and dump core. The number for SIGTRAP is 5. SIGABRT (Abort trap) This signal is generated when the abort(3) standard library function is called. The default action is to terminate the process and dump core. The number for SIGABRT is 6. This number was also formerly used for SIGIOT, which is no longer defined, as it was specific to the PDP-11 instruction iot. SIGEMT (EMT trap) In theory this signal is generated when an instruction needs to be emulated. The default action is to terminate the process and dump core. The number for SIGEMT is 7. SIGFPE (Floating point exception) This signal is generated when an invalid floating point operation is detected by hardware or by a soft-float library. The default action is to terminate the process and dump core. The number for SIGFPE is 8. SIGKILL (Killed) This signal cannot be caught or ignored. The (unconditional) action is to terminate the process. It is most often sent by system admin- istrators, but is also generated by the kernel in response to run- ning completely out of memory and swap space. Note that because many processes need to perform cleanup before exiting, it is usually best (as a user or administrator) to not deploy SIGKILL until a process has failed to respond to other signals. The number for SIGKILL is 9, which is extremely well known. SIGBUS (Bus error) This signal is generated synchronously by the kernel when the process performs certain kinds of invalid memory accesses. The most common cause of SIGBUS is an unaligned memory access; however, on some architectures it may cover other memory conditions, such as attempts to access memory belonging to the kernel. The default action is to terminate the process and dump core. Note: the results of performing such invalid accesses when SIGBUS is blocked or ignored are formally unspecified. The number for SIGBUS is 10. SIGSEGV (Segmentation fault) This signal is generated synchronously by the kernel when the process attempts to access unmapped memory, or access memory in a manner that the protection settings for that memory region do not permit. On some architectures other assorted permission or protec- tion errors also yield SIGSEGV. On NetBSD, passing invalid pointers to system calls will yield failure with EFAULT but not also SIGSEGV. The default action is to terminate the process and dump core. Note: the results of an invalid memory access when SIGSEGV is blocked or ignored are formally unspecified. The number for SIGSEGV is 11, which is very well known. SIGSYS (Bad system call) This signal is generated by the kernel, in addition to failing with ENOSYS, when a system call is made using an invalid system call num- ber. The default action is to terminate the process and dump core. The number for SIGSYS is 12. SIGPIPE (Broken pipe) This signal is generated by the kernel, in addition to failing with EPIPE, when a write(2) call or similar is made on a pipe or socket that has been closed and has no readers. The default action is to terminate the process. The number for SIGPIPE is 13. SIGALRM (Alarm clock) This signal is generated by the kernel when a real-time timer expires. See alarm(3), setitimer(2), and timer_settime(2). The default action is to terminate the process. The number for SIGALRM is 14. SIGTERM (Terminated) This signal is the default signal sent by kill(1) and represents a user or administrator request that a program shut down. It is sent to all processes as part of the shutdown(8) procedure. The default action is to terminate the process. The number for SIGTERM is 15. SIGURG (Urgent I/O condition) This signal is generated when an ``urgent condition'' exists on a socket. In practice this means when tcp(4) out-of-band data has arrived. The default action is to do nothing. The number for SIGURG is 16. SIGSTOP (Suspended (signal)) This signal cannot be caught or ignored. The (unconditional) action is to stop the process. Note that like with SIGKILL (and for simi- lar reasons) it is best to not send this signal until a process has failed to respond to SIGTSTP. It can also be used by processes to stop themselves after catching SIGTSTP. A process that is explic- itly stopped will not run again until told to with SIGCONT. The number for SIGSTOP is 17. SIGTSTP (Suspended) This signal is generated by the tty(4) driver when the user presses the stop character, normally control-Z. The default action is to stop the process. The number for SIGTSTP is 18. SIGCONT (Continued) This signal is generated by the job-control feature of shells to manage processes. It causes the target process to start executing again after previously being stopped. This happens as a magic extra effect before the signal is actually delivered. The default action when the signal is delivered is to do nothing (else). The number for SIGCONT is 19. SIGCHLD (Child exited, stopped or continued) This signal is generated by the kernel when one of a process's imme- diate children exits and can be waited for using one of the wait(2) family of functions. The default action is to do nothing. As a special case, if a child exits when its parent process has SIGCHLD ignored (not merely blocked) by having its signal handler set to SIG_IGN, or if the signal action has the SA_NOCLDWAIT flag set (sigaction(2)), then the child is detached so that wait(2) in the parent will wait for all children to exit and then fail with ECHILD without returning any information about any specific child processes. The number for SIGCHLD is 20. This signal was spelled SIGCLD in old System V versions and today many systems provide both spellings. SIGTTIN (Stopped (tty input)) This signal is generated by the tty(4) driver when a process that is not in the foreground of its controlling terminal attempts to read from this terminal. The default action is to stop the process. The number for SIGTTIN is 21. SIGTTOU (Stopped (tty output)) This signal is generated by the tty(4) driver when a process that is not in the foreground of its controlling terminal attempts to write to this terminal, if the terminal is configured accordingly, which is not the default. (See termios(4).) The default action is to stop the process. The number for SIGTTOU is 22. SIGIO (I/O possible) This signal is sent by the kernel when I/O becomes possible on a file handle opened for asynchronous access with O_ASYNC. See open(2) and fcntl(2). The default action is to do nothing. The number for SIGIO is 23. SIGXCPU (CPU time limit exceeded) This signal is sent by the kernel when the amount of CPU time con- sumed exceeds the configured limit. See setrlimit(2) and the ulimit and rlimit builtins of sh(1) and csh(1) respectively. The default action is to terminate the process. The number for SIGXCPU is 24. SIGXFSZ (File size limit exceeded) This signal is sent by the kernel when a write causes the size of a file to exceed the configured limit. See setrlimit(2) and the ulimit and rlimit builtins of sh(1) and csh(1) respectively. The default action is to terminate the process. The number for SIGXFSZ is 25. SIGVTALRM (Virtual timer expired) This signal is generated by the kernel when a virtual-time (process execution time) timer expires. See setitimer(2) and timer_settime(2). The default action is to terminate the process. The number for SIGVTALRM is 26. SIGPROF (Profiling timer expired) This signal is generated by the kernel when a profiling timer expires. See setitimer(2) and timer_settime(2). The default action is to terminate the process. The number for SIGPROF is 27. SIGWINCH (Window size changed) This signal is generated by the tty(4) driver when the stored window size of the process's controlling terminal has changed. The default action is to do nothing. The number for SIGWINCH is 28. SIGINFO (Information request) This signal is generated by the tty(4) driver when the user presses the status request character, normally control-T. The default action is to do nothing. The number for SIGINFO is 29. SIGUSR1 (User defined signal 1) This signal is not generated by the system and is made available for applications to use for their own purposes. Many daemons use it for restart or reload requests of various types. The default action is to terminate the process. The number for SIGUSR1 is 30. SIGUSR2 (User defined signal 2) This signal is not generated by the system and is made available for applications to use for their own purposes. The default action is to terminate the process. The number for SIGUSR2 is 31. SIGPWR (Power fail/restart) This signal is notionally sent by the kernel or by a privileged mon- itor process when an external power failure is detected, and again when power has been restored. Currently NetBSD does not in fact send SIGPWR, although it is possible to prepare a custom configura- tion for powerd(8) that does so. The default action is to do noth- ing. The number for SIGPWR is 32. Shell Interface Signals may be sent with the kill(1) utility, either by number or the symbolic name without the ``SIG'' part. This utility is built into many shells to allow addressing job control jobs. Program Interface In C code signals may be sent using raise(3), kill(2), pthread_kill(3), and some other related functions. Signals may be caught or ignored using sigaction(2) or the simpler signal(3), and blocked using sigprocmask(2).
STANDARDS
The SIGTRAP, SIGEMT, SIGBUS, SIGSYS, SIGURG, SIGIO, SIGXCPU, SIGXFSZ, SIGVTALRM, SIGPROF, SIGWINCH, and SIGINFO signals are long-existing Berkeley extensions, available on most BSD-derived systems. The SIGPWR signal comes from System V. The remaining signals conform to ISO/IEC 9945-1:1990 (``POSIX.1'').
HISTORY
SIGPWR was introduced in NetBSD 1.4. NetBSD 10.1 August 24, 2018 NetBSD 10.1

Powered by man-cgi (2024-08-26). Maintained for NetBSD by Kimmo Suominen. Based on man-cgi by Panagiotis Christias.