sigaction() | 易学教程

NAME
　　　　sigaction - examine and change a signal action

SYNOPSIS
　　　　#include <signal.h>

　　　　int sigaction(int signum, const struct sigaction *act, struct sigaction *oldact);

DESCRIPTION
　　　　The sigaction() system call is used to change the action taken by a process on receipt of a specific signal.

　　　　signum specifies the signal and can be any valid signal except SIGKILL and SIGSTOP.

　　　　If act is non-null, the new action for signal signum is installed from act. If oldact is non-null, the previous action is saved in oldact.

　　　　The sigaction structure is defined as something like

　　　　　　struct sigaction {
　　　　　　　　　　void (*sa_handler)(int);
　　　　　　　　　　void (*sa_sigaction)(int, siginfo_t *, void *);
　　　　　　　　　　sigset_t sa_mask;
　　　　　　　　　　int sa_flags;
　　　　　　　　　　void (*sa_restorer)(void);
　　　　　　}

　　　　On some architectures a union is involved: do not assign to both sa_handler and sa_sigaction.

　　　　The sa_restorer element is obsolete and should not be used. POSIX does not specify a sa_restorer element.

　　　　sa_handler specifies the action to be associated with signum and may be SIG_DFL for the default action, SIG_IGN to ignore this signal, or a
　　　　pointer to a signal handling function. This function receives the signal number as its only argument.

　　　　If SA_SIGINFO is specified in sa_flags, then sa_sigaction (instead of sa_handler) specifies the signal-handling function for signum. This func-
　　　　tion receives the signal number as its first argument, a pointer to a siginfo_t as its second argument and a pointer to a ucontext_t (cast to
　　　　void *) as its third argument.

　　　　sa_mask gives a mask of signals which should be blocked during execution of the signal handler. In addition, the signal which triggered the
　　　　handler will be blocked, unless the SA_NODEFER flag is used.

　　　　sa_flags specifies a set of flags which modify the behaviour of the signal handling process. It is formed by the bitwise OR of zero or more of
　　　　the following:

　　　　　　SA_NOCLDSTOP
　　　　　　　　　　If signum is SIGCHLD, do not receive notification when child processes stop (i.e., when they receive one of SIGSTOP, SIGTSTP,
　　　　　　　　　　SIGTTIN or SIGTTOU) or resume (i.e., they receive SIGCONT) (see wait(2)).

　　　　　　SA_NOCLDWAIT
　　　　　　　　　　(Linux 2.6 and later) If signum is SIGCHLD, do not transform children into zombies when they terminate. See also waitpid(2).

　　　　　　SA_RESETHAND
　　　　　　　　　　Restore the signal action to the default state once the signal handler has been called. SA_ONESHOT is an obsolete, non-standard
　　　　　　　　　　synonym for this flag.

　　　　　　SA_ONSTACK
　　　　　　　　　　Call the signal handler on an alternate signal stack provided by sigaltstack(2). If an alternate stack is not available, the
　　　　　　　　　　default stack will be used.

　　　　　　SA_RESTART
　　　　　　　　　　Provide behaviour compatible with BSD signal semantics by making certain system calls restartable across signals.

　　　　　　SA_NODEFER
　　　　　　　　　　Do not prevent the signal from being received from within its own signal handler. SA_NOMASK is an obsolete, non-standard synonym
　　　　　　　　　　for this flag.

　　　　　　SA_SIGINFO
　　　　　　　　　　The signal handler takes 3 arguments, not one. In this case, sa_sigaction should be set instead of sa_handler. (The sa_sigaction
　　　　　　　　　　field was added in Linux 2.1.86.)

　　The siginfo_t parameter to sa_sigaction is a struct with the following elements

　　　　　　siginfo_t {
　　　　　　　　int si_signo; /* Signal number */
　　　　　　　　int si_errno; /* An errno value */
　　　　　　　　int si_code; /* Signal code */
　　　　　　　　pid_t si_pid; /* Sending process ID */
　　　　　　　　uid_t si_uid; /* Real user ID of sending process */
　　　　　　　　int si_status; /* Exit value or signal */
　　　　　　　　clock_t si_utime; /* User time consumed */
　　　　　　　　clock_t si_stime; /* System time consumed */
　　　　　　　　sigval_t si_value; /* Signal value */
　　　　　　　　int si_int; /* POSIX.1b signal */
　　　　　　　　void * si_ptr; /* POSIX.1b signal */
　　　　　　　　void * si_addr; /* Memory location which caused fault */
　　　　　　　　int si_band; /* Band event */
　　　　　　　　int si_fd; /* File descriptor */
　　　　　　}

　　si_signo, si_errno and si_code are defined for all signals. (si_signo is unused on Linux.) The rest of the struct may be a union, so that one
　　should only read the fields that are meaningful for the given signal. POSIX.1b signals and SIGCHLD fill in si_pid and si_uid. SIGCHLD also
　　fills in si_status, si_utime and si_stime. si_int and si_ptr are specified by the sender of the POSIX.1b signal. SIGILL, SIGFPE, SIGSEGV, and
　　SIGBUS fill in si_addr with the address of the fault. SIGPOLL fills in si_band and si_fd.

　　si_code indicates why this signal was sent. It is a value, not a bitmask. The values which are possible for any signal are listed in this ta-
　　ble:

+----------------------------------------------------+
| 　　　　　　 SIGSEGV　　　　　　　　　　　　|
+------------+---------------------------------------+
|SEGV_MAPERR | address not mapped to object |
+------------+---------------------------------------+
|SEGV_ACCERR | invalid permissions for mapped object |
+------------+---------------------------------------+

+--------------------------------------------+
| 　　　　　　　　 SIGBUS　　　　　　 |
+-----------+--------------------------------+
|BUS_ADRALN | invalid address alignment |
+-----------+--------------------------------+
|BUS_ADRERR | non-existent physical address |
+-----------+--------------------------------+
|BUS_OBJERR | object specific hardware error |
+-----------+--------------------------------+

+--------------------------------+
| 　　　　 SIGTRAP 　　　　 |
+-----------+--------------------+
|TRAP_BRKPT | process breakpoint |
+-----------+--------------------+
|TRAP_TRACE | process trace trap |
+-----------+--------------------+

RETURN VALUE
　　sigaction() returns 0 on success and -1 on error.

ERRORS
　　EFAULT act or oldact points to memory which is not a valid part of the process address space.

　　EINVAL An invalid signal was specified. This will also be generated if an attempt is made to change the action for SIGKILL or SIGSTOP, which
　　cannot be caught or ignored.

NOTES
　　According to POSIX, the behaviour of a process is undefined after it ignores a SIGFPE, SIGILL, or SIGSEGV signal that was not generated by
kill() or raise(). Integer division by zero has undefined result. On some architectures it will generate a SIGFPE signal. (Also dividing the
most negative integer by -1 may generate SIGFPE.) Ignoring this signal might lead to an endless loop.

POSIX.1-1990 disallowed setting the action for SIGCHLD to SIG_IGN. POSIX.1-2001 allows this possibility, so that ignoring SIGCHLD can be used
to prevent the creation of zombies (see wait(2)). Nevertheless, the historical BSD and System V behaviours for ignoring SIGCHLD differ, so that
the only completely portable method of ensuring that terminated children do not become zombies is to catch the SIGCHLD signal and perform a wait(2) or similar.

POSIX.1-1990 only specified SA_NOCLDSTOP. POSIX.1-2001 added SA_NOCLDWAIT, SA_RESETHAND, SA_NODEFER, and SA_SIGINFO. Use of these latter values in sa_flags may be less portable in applications intended for older Unix implementations.

Support for SA_SIGINFO was added in Linux 2.2.

The SA_RESETHAND flag is compatible with the SVr4 flag of the same name.

The SA_NODEFER flag is compatible with the SVr4 flag of the same name under kernels 1.3.9 and newer. On older kernels the Linux implementation
allowed the receipt of any signal, not just the one we are installing (effectively overriding any sa_mask settings).

sigaction() can be called with a null second argument to query the current signal handler. It can also be used to check whether a given signal is valid for the current machine by calling it with null second and third arguments.

It is not possible to block SIGKILL or SIGSTOP (by specifying them in sa_mask). Attempts to do so are silently ignored.

See sigsetops(3) for details on manipulating signal sets.

　　CONFORMING TO
　　POSIX.1-2001, SVr4.

来源：https://www.cnblogs.com/black-mamba/p/6876221.html

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sigaction

signal