Copyright (C) 1994, Digital Equipment Corp.
ow 03.10.1994
INTERFACE** <signal.h> **Usignal ; FROM Ctypes IMPORT int, unsigned_int;
I don't know about all the indented values below from the Linux implementation
CONST
SIGHUP = 1; (* hangup *)
SIGINT = 2; (* interrupt *)
SIGQUIT = 3; (* quit *)
SIGILL = 4; (* illegal instruction (not reset when caught) *)
SIGTRAP = 5; (* trace trap (not reset when caught) *)
SIGIOT = 6; (* IOT instruction *)
SIGEMT = 7; (* EMT instruction *)
SIGFPE = 8; (* floating point exception *)
FPE_INTDIV_TRAP = 20; (* integer divide by zero *)
FPE_INTOVF_TRAP = 21; (* integer overflow *)
FPE_FLTOPERR_TRAP = 1; (* [floating operand error] *)
FPE_FLTDEN_TRAP = 2; (* [floating denormalized operand] *)
FPE_FLTDIV_TRAP = 3; (* [floating divide by zero] *)
FPE_FLTOVF_TRAP = 4; (* [floating overflow] *)
FPE_FLTUND_TRAP = 5; (* [floating underflow] *)
FPE_FLTINEX_TRAP = 6; (* [floating inexact result] *)
FPE_UUOP_TRAP = 7; (* [floating undefined opcode] *)
FPE_DATACH_TRAP = 8; (* [floating data chain exception] *)
FPE_FLTSTK_TRAP = 16; (* [floating stack fault] *)
FPE_FPA_ENABLE = 17; (* [FPA not enabled] *)
FPE_FPA_ERROR = 18; (* [FPA arithmetic exception] *)
SIGKILL = 9; (* kill (cannot be caught or ignored) *)
SIGBUS = 10; (* bus error *)
BUS_HWERR = 1; (* misc hardware error (e.g. timeout) *)
BUS_ALIGN = 2; (* hardware alignment error *)
SIGSEGV = 11; (* segmentation violation *)
SEGV_NOMAP = 3; (* no mapping at the fault address *)
SEGV_PROT = 4; (* access exceeded protections *)
SEGV_OBJERR = 5; (* object returned errno value *)
SIGSYS = 12; (* bad argument to system call *)
SIGPIPE = 13; (* write on a pipe with no one to read it *)
SIGALRM = 14; (* alarm clock *)
SIGTERM = 15; (* software termination signal from kill *)
SIGURG = 16; (* urgent condition on IO channel *)
SIGSTOP = 17; (* sendable stop signal not from tty *)
SIGTSTP = 18; (* stop signal from tty *)
SIGCONT = 19; (* continue a stopped process *)
SIGCHLD = 20; (* to parent on child stop or exit *)
SIGTTIN = 21; (* to readers pgrp upon background tty read *)
SIGTTOU = 22; (* like TTIN for output if (tp->t_local<OSTOP) *)
SIGIO = 23; (* input/output possible signal *)
SIGXCPU = 24; (* exceeded CPU time limit *)
SIGXFSZ = 25; (* exceeded file size limit *)
SIGVTALRM = 26; (* virtual time alarm *)
SIGPROF = 27; (* profiling time alarm *)
SIGWINCH = 28; (* window size changes *)
SIGLOST = 29; (* Sys-V rec lock: notify user upon server crash *)
SIGUSR1 = 30; (* User signal 1 (from SysV) *)
SIGUSR2 = 31; (* User signal 2 (from SysV) *)
(* System V definitions *)
SIGCLD = SIGCHLD;
SIGABRT = SIGIOT;
Signal vector template used in sigaction call.
TYPE
SignalHandler = PROCEDURE (sig, code: int;
scp: UNTRACED REF struct_sigcontext);
sigset_t = int;
struct_sigvec = RECORD
sv_handler: SignalHandler; (* signal handler *)
sv_mask: sigset_t; (* signal mask to apply *)
sv_flags: int; (* see signal options below *) END;
CONST
empty_sigset_t : sigset_t = 0;
empty_sv_mask : sigset_t = 0;
CONST
(* Valid flags defined for sv_flags field of sigvec structure. *)
SV_ONSTACK = 16_0001; (* run on special signal stack *)
SV_RESTART = 16_0002; (* restart system calls on sigs *)
SV_RESETHAND = 16_0004; (* reset to SIG_DFL when taking signal *)
SV_NOCLDSTOP = 16_0008; (* do not generate SIGCHLD on child stop *)
SV_NODEFER = 16_0010; (* don't mask the signal we're delivering *)
(* Defines for sigprocmask() call. POSIX. *)
SIG_BLOCK = 1; (* Add these signals to block mask *)
SIG_UNBLOCK = 2; (* Remove these signals from block mask *)
SIG_SETMASK = 3; (* Set block mask to this mask *)
TYPE
SignalActionHandler = PROCEDURE (sig: int);
SignalRestoreHandler = PROCEDURE ();
struct_sigaction = RECORD
sa_handler : SignalActionHandler; (* signal handler *)
sa_mask : sigset_t; (* signals to block while in handler *)
sa_flags : int; (* signal action flags *)
(* ow
sa_restorer : SignalRestoreHandler; (* restores interrupted state *)
*)
END;
struct_sigaction_star = UNTRACED REF struct_sigaction;
CONST
(* Valid flags defined for sa_flags field of sigaction structure. *)
SA_ONSTACK = 16_0001; (* run on special signal stack *)
SA_RESTART = 16_0002; (* restart system calls on sigs *)
SA_RESETHAND = 16_0004; (* reset to SIG_DFL when taking signal *)
SA_NOCLDSTOP = 16_0008; (* do not generate SIGCHLD on child stop *)
SA_NODEFER = 16_0010; (* don't mask the signal we're delivering *)
TYPE
struct_sigstack = RECORD
ss_sp: ADDRESS; (* signal stack pointer *)
ss_onstack: int; (* current status *)
END;
* Information pushed on stack when a signal is delivered. * This is used by the kernel to restore state following * execution of the signal handler. It is also made available * to the handler to allow it to properly restore state if * a non-standard exit is performed. * * WARNING: THE sigcontext MUST BE KEPT CONSISTENT WITH /usr/include/setjmp.h * AND THE LIBC ROUTINES setjmp() AND longjmp() * ???? (ow)
TYPE
struct_sigcontext = RECORD
sc_onstack: int; (* sigstack state to restore *)
sc_mask: int; (* signal mask to restore *)
sc_esp: int; (* stack pinter *)
sc_ebp: int; (* frame pointer *)
sc_isp: int;
sc_eip: int; (* program counter *)
sc_efl: int; (* program status word *)
sc_es: int;
sc_ds: int;
sc_cs: int;
sc_ss: int;
sc_edi: int;
sc_esi: int;
sc_ebx: int;
sc_edx: int;
sc_ecx: int;
sc_eax: int;
END;
Do not modifiy these variables
VAR (*CONST*) BADSIG, SIG_ERR, SIG_DFL, SIG_IGN, SIG_HOLD: SignalHandler;Convert a signal number to a mask suitable for sigblock().
<*INLINE*> PROCEDURE sigmask (n: int): int;** kill(2) - send signal to a process **
<*EXTERNAL*> PROCEDURE kill (pid, sig: int): int;** killpg(2) - send signal to a process or process group **
<*EXTERNAL*> PROCEDURE killpg (pgrp, sig: int): int;** sigblock(2) - block signals **
<*EXTERNAL*> PROCEDURE sigblock (mask: int): int;** sigpause(2) - atomically release blocked signals and wait for interrupt **
<*EXTERNAL*> PROCEDURE sigpause (sigmask: int): int;** sigpending(2) - examine pending signals **
<*EXTERNAL*> PROCEDURE sigpending (VAR set: sigset_t): int;** sigsetmask(2) - set current signal mask **
<*EXTERNAL*> PROCEDURE sigsetmask (mask: int): unsigned_int;** sigstack(2) - set and/or get signal stack context **
<*EXTERNAL*> PROCEDURE sigstack (VAR ss, oss: struct_sigstack): int;** sigaction(2) - software signal facilities **
<*EXTERNAL*> PROCEDURE sigaction (sig: int; act, oact: struct_sigaction_star): int;** sigvec(2) - software signal facilities **
<*EXTERNAL*> PROCEDURE sigvec (sig: int; VAR vec, ovec: struct_sigvec): int; <*EXTERNAL*> PROCEDURE sigprocmask (how: int; VAR set, oldset: sigset_t) : int; END Usignal.