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Copyright 1989 AT&T
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#include <siginfo.h>
If a process is catching a signal, it might request information that tells why the system generated that signal. See sigaction(2). If a process is monitoring its children, it might receive information that tells why a child changed state. See waitid(2). In either case, the system returns the information in a structure of type siginfo_t, which includes the following information:
int si_signo /* signal number */ int si_errno /* error number */ int si_code /* signal code */ union sigval si_value /* signal value */
si_signo contains the system-generated signal number. For the waitid(2) function, si_signo is always SIGCHLD.
If si_errno is non-zero, it contains an error number associated with this signal, as defined in <errno.h>.
si_code contains a code identifying the cause of the signal.
If the value of the si_code member is SI_NOINFO, only the si_signo member of siginfo_t is meaningful, and the value of all other members is unspecified.
If the value of si_code is less than or equal to 0, then the signal was generated by a user process (see kill(2), _lwp_kill(2), sigqueue(3C), sigsend(2), abort(3C), and raise(3C)) and the siginfo structure contains the following additional information:
pid_t si_pid /* sending process ID */ uid_t si_uid /* sending user ID */ ctid_t si_ctid /* sending contract ID */ zoneid_t si_zoneid /* sending zone ID */S
If the signal was generated by a user process, the following values are defined for si_code:
SI_USER
The implementation sets si_code to SI_USER if the signal was sent by kill(2), sigsend(2), raise(3C) or abort(3C).
SI_LWP
The signal was sent by _lwp_kill(2).
SI_QUEUE
The signal was sent by sigqueue(3C).
SI_TIMER
The signal was generated by the expiration of a timer created by timer_settime(3C).
SI_ASYNCIO
The signal was generated by the completion of an asynchronous I/O request.
SI_MESGQ
The signal was generated by the arrival of a message on an empty message queue. See mq_notify(3C).
si_value contains the application specified value, which is passed to the application's signal-catching function at the time of the signal delivery if si_code is any of SI_QUEUE, SI_TIMER, SI_ASYNCHIO, or SI_MESGQ.
Non-user generated signals can arise for a number of reasons. For all of these cases, si_code contains a positive value reflecting the reason why the system generated the signal:
| Signal | Code | Reason |
| SIGILL | ILL_ILLOPC | illegal opcode |
| ILL_ILLOPN | illegal operand | |
| ILL_ILLADR | illegal addressing mode | |
| ILL_ILLTRP | illegal trap | |
| ILL_PRVOPC | privileged opcode | |
| ILL_PRVREG | privileged register | |
| ILL_COPROC | co-processor error | |
| ILL_BADSTK | internal stack error | |
| SIGFPE | FPE_INTDIV | integer divide by zero |
| FPE_INTOVF | integer overflow | |
| FPE_FLTDIV | floating point divide by zero | |
| FPE_FLTOVF | floating point overflow | |
| FPE_FLTUND | floating point underflow | |
| FPE_FLTRES | floating point inexact result | |
| FPE_FLTINV | invalid floating point operation | |
| FPE_FLTSUB | subscript out of range | |
| 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 | |
| SIGCHLD | CLD_EXITED | child has exited |
| CLD_KILLED | child was killed | |
| CLD_DUMPED | child terminated abnormally | |
| CLD_TRAPPED | traced child has trapped | |
| CLD_STOPPED | child has stopped | |
| CLD_CONTINUED | stopped child had continued | |
| SIGPOLL | POLL_IN | data input available |
| POLL_OUT | output buffers available | |
| POLL_MSG | input message available | |
| POLL_ERR | I/O error | |
| POLL_PRI | high priority input available | |
| POLL_HUP | device disconnected | |
Signals can also be generated from the resource control subsystem. Where these signals do not already possess kernel-level siginfo codes, the siginfo si_code will be filled with SI_RCTL to indicate a kernel-generated signal from an established resource control value.
| Signal | Code | Reason |
| SIGXRES | SI_RCTL | resource-control generated signal |
| SIGHUP | ||
| SIGTERM | ||
The uncatchable signals SIGSTOP and SIGKILL have undefined siginfo codes.
Signals sent with a siginfo code of SI_RCTL contain code-dependent information for kernel-generated signals:
| Code | Field | Value |
| SI_RCTL | hr_time si_entity | process-model entity of control |
In addition, the following signal-dependent information is available for kernel-generated signals:
| Signal | Field | Value |
| SIGILL | caddr_t si_addr | address of faulting instruction |
| SIGFPE | ||
| SIGSEGV | caddr_t si_addr | address of faulting memory reference |
| SIGBUS | ||
| SIGCHLD | pid_t si_pid | child process ID |
| int si_status | exit value or signal | |
| SIGPOLL | long si_band | |
| band event for POLL_IN, POLL_OUT, or POLL_MSG | ||
_lwp_kill(2), kill(2), setrctl(2), sigaction(2), sigsend(2), waitid(2), abort(3C), aio_read(3C), mq_notify(3C), raise(3C), signal.h(3HEAD), sigqueue(3C), timer_create(3C), timer_settime(3C)
For SIGCHLD signals, if si_code is equal to CLD_EXITED, then si_status is equal to the exit value of the process; otherwise, it is equal to the signal that caused the process to change state. For some implementations, the exact value of si_addr might not be available; in that case, si_addr is guaranteed to be on the same page as the faulting instruction or memory reference.