.TH NOTIFY 3 .SH NAME notify, noted, atnotify, noteenable, notedisable, notifyon, notifyoff \- handle asynchronous process notification .SH SYNOPSIS .B #include .br .B #include .PP .B int notify(void (*f)(void*, char*)) .PP .B int noted(int v) .PP .B int atnotify(int (*f)(void*, char*), int in) .PP .B int noteenable(char *msg) .br .B int notedisable(char *msg) .PP .B int notifyon(char *msg) .br .B int notifyoff(char *msg) .SH DESCRIPTION When a process raises an exceptional condition such as dividing by zero or writing on a closed pipe, a .I note is posted to communicate the exception. A note may also be posted by another process via .MR postnote (3) . On Unix, notes are implemented as signals. .PP When a note is received, the action taken depends on the note. See .MR signal (7) for the full description of the defaults. .PP The default actions may be overridden. The .I notify function registers a .I "notification handler to be called within the process when a note is received. The argument to .I notify replaces the previous handler, if any. An argument of zero cancels a previous handler, restoring the default action. A .MR fork (2) system call leaves the handler registered in both the parent and the child; .MR exec (3) restores the default behavior. Handlers may not perform floating point operations. .PP After a note is posted, the handler is called with two arguments: the first is unimplemented and should not be used (on Plan 9 it is a .B Ureg structure giving the current values of registers); the second is a pointer to the note itself, a null-terminated string. .\" The .\" .B Ureg .\" argument is usually not needed; it is provided to help recover from traps such .\" as floating point exceptions. .\" Its use and layout are machine- and system-specific. .PP A notification handler must finish either by exiting the program or by calling .IR noted ; if the handler returns the behavior is undefined and probably erroneous. Until the program calls .IR noted , any further externally-generated notes (e.g., .B hangup or .BR alarm ) will be held off, and any further notes generated by erroneous behavior by the program (such as divide by zero) will kill the program. The argument to .I noted defines the action to take: .B NDFLT instructs the system to perform the default action as if the handler had never been registered; .B NCONT instructs the system to resume the process at the point it was notified. In neither case does .I noted return to the handler. If the note interrupted an incomplete system call, that call returns an error (with error string .BR interrupted ) after the process resumes. A notification handler can also jump out to an environment set up with .I setjmp using the .I notejmp function (see .MR setjmp (3) ). .PP Unix provides a fixed set of notes (typically there are 32) called .IR signals . It also allows a process to block certain notes from being delivered (see .MR sigprocmask (2) ) and to ignore certain notes by setting the signal hander to the special value .B SIG_IGN (see .MR signal (2) ). .I Noteenable and .I notedisable enable or disable receipt of a particular note by changing the current process's blocked signal mask. Receipt of a disabled note will be postponed until it is reenabled. .I Notifyon and .I notifyoff enable or disable whether the notification handler is called upon receipt of the note; if the handler is not called, the note is discarded. .PP Regardless of the origin of the note or the presence of a handler, if the process is being debugged (see .MR ptrace (2) ) the arrival of a note puts the process in the .B Stopped state and awakens the debugger. .PP Rather than using the system calls .I notify and .IR noted , most programs should use .I atnotify to register notification handlers. The parameter .I in is non-zero to register the function .IR f , and zero to cancel registration. A handler must return a non-zero number if the note was recognized (and resolved); otherwise it must return zero. When the system posts a note to the process, each handler registered with .I atnotify is called with arguments as described above until one of the handlers returns non-zero. Then .I noted is called with argument .BR NCONT . If no registered function returns non-zero, .I atnotify calls .I noted with argument .BR NDFLT . .\" .PP .\" .I Noted .\" has two other possible values for its argument. .\" .B NSAVE .\" returns from the handler and clears the note, enabling the receipt of another, .\" but does not return to the program. .\" Instead it starts a new handler with the same stack, stack pointer, .\" and arguments as the .\" original, at the address recorded in the program counter of the .\" .B Ureg .\" structure. Typically, the program counter will be overridden by the .\" first note handler to be the address of a separate function; .\" .B NSAVE .\" is then a `trampoline' to that handler. .\" That handler may executed .\" .B noted(NRSTR) .\" to return to the original program, usually after restoring the original program .\" counter. .\" .B NRSTR .\" is identical to .\" .BR NCONT .\" except that it can only be executed after an .\" .BR NSAVE . .\" .B NSAVE .\" and .\" .B NRSTR .\" are designed to improve the emulation of signals by the ANSI C/POSIX .\" environment; their use elsewhere is discouraged. .PP .I Notify and .I atnotify return \-1 on error and 0 on success. .I Noted returns \-1 on error; successful calls to .I noted do not return. .I Noteenable and .I notedisable .RI ( notitfyon and .IR notifyoff ) return \-1 on error, 0 if the note was previously disabled (not notified), and 1 if the note was previously enabled (notified). .PP The set of notes a process may receive is system-dependent, but there is a common set that includes: .PP .RS 3n .nf .ta \w'\fLsys: segmentation violation \fP'u +\w'process requested to exit 'u \fINote\fP \fIMeaning\fP \fIUnix signal\fP \fLinterrupt\fP user interrupt (DEL key) SIGINTR \fLhangup\fP I/O connection closed SIGHUP \fLalarm\fP alarm expired SIGLARM \fLquit\fP quit from keyboard SIGQUIT \fLkill\fP process requested to exit SIGTERM \fLsys: kill\fP process forced to exit SIGKILL \fLsys: bus error\fP bus error SIGBUS \fLsys: segmentation violation\fP segmentation violation SIGSEGV \fLsys: write on closed pipe\fP write on closed pipe SIGPIPE \fLsys: child\fP child wait status change SIGCHLD .fi .RE .PP See .B \*9/src/lib9/await.c (sic) for the full list. .PP The notes prefixed .B sys: are usually generated by the operating system. .SH SOURCE .B \*9/src/lib9/notify.c .br .B \*9/src/lib9/atnotify.c .SH SEE ALSO .MR intro (3) , .I notejmp in .MR setjmp (3)