Add OPT_ALWAYS_UNICODE_LOCALE (Predrag Punosevac)..
[s-mailx.git] / signal.c
blobf04e16ebb8db9677715dea6d71983c6b27dfa282
1 /*@ S-nail - a mail user agent derived from Berkeley Mail.
2 *@ Signal related stuff as well as NotYetDead functions.
4 * Copyright (c) 2000-2004 Gunnar Ritter, Freiburg i. Br., Germany.
5 * Copyright (c) 2012 - 2016 Steffen (Daode) Nurpmeso <steffen@sdaoden.eu>.
6 */
7 /*
8 * Copyright (c) 1980, 1993
9 * The Regents of the University of California. All rights reserved.
11 * Redistribution and use in source and binary forms, with or without
12 * modification, are permitted provided that the following conditions
13 * are met:
14 * 1. Redistributions of source code must retain the above copyright
15 * notice, this list of conditions and the following disclaimer.
16 * 2. Redistributions in binary form must reproduce the above copyright
17 * notice, this list of conditions and the following disclaimer in the
18 * documentation and/or other materials provided with the distribution.
19 * 3. Neither the name of the University nor the names of its contributors
20 * may be used to endorse or promote products derived from this software
21 * without specific prior written permission.
23 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
24 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
25 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
26 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
27 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
28 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
29 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
30 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
31 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
32 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
33 * SUCH DAMAGE.
35 #undef n_FILE
36 #define n_FILE signal
38 #ifndef HAVE_AMALGAMATION
39 # include "nail.h"
40 #endif
43 * TODO At the beginning of November 2015 -- for v14.9 -- i've tried for one
44 * TODO and a half week to convert this codebase to SysV style signal handling,
45 * TODO meaning no SA_RESTART and EINTR in a lot of places and error reporting
46 * TODO up the chain. I failed miserably, not only because S/MIME / SSL but
47 * TODO also because of general frustration. Directly after v14.9 i will strip
48 * TODO ANYTHING off the codebase (socket stuff etc.) and keep only the very
49 * TODO core, doing namespace and type cleanup and convert this core to a clean
50 * TODO approach, from which i plan to start this thing anew.
51 * TODO For now i introduced the n_sigman, yet another hack, to be used in a
52 * TODO few places.
53 * TODO The real solution:
54 * TODO - No SA_RESTART. Just like for my C++ library: encapsulate EINTR in
55 * TODO userspace at the systemcall (I/O rewrite: drop stdio), normal
56 * TODO interface auto-restarts, special _intr() series return EINTR.
57 * TODO Do n_sigman_poll()/peek()/whatever whenever desired for the former,
58 * TODO report errors up the call chain, have places where operations can be
59 * TODO "properly" aborted.
60 * TODO - We save the initial signal settings upon program startup.
61 * TODO - We register our sigman handlers once, at program startup.
62 * TODO Maximally, and most likely only due to lack of atomic CAS, ignore
63 * TODO or block some signals temporarily. Best if not.
64 * TODO The signal handlers only set a flag. Block all signals for handler
65 * TODO execution, like this we are safe to "set the first signal was x".
66 * TODO - In interactive context, ignore SIGTERM.
67 * TODO I.e., see the POSIX standard for what a shell does.
68 * TODO - In non-interactive context, don't know anything about job control!?!
69 * TODO - Place child processes in their own process group. Restore the signal
70 * TODO mask back to the saved original one for them, before exec.
71 * TODO - Except for job control related (<-> interactive) ignore any signals
72 * TODO while we are "behind" a child that occupies the terminal. For those,
73 * TODO perform proper terminal attribute handling. For childs that don't
74 * TODO occupy the terminal we "are the shell" and should therefore manage
75 * TODO them accordingly, including termination request as necessary.
76 * TODO And if we have a worker in a pipeline, we need to manage it and deal
77 * TODO with it properly, WITHOUT temporary signal overwrites.
78 * TODO - No more jumps.
79 * TODO - (When sockets will be reintroduced, non-blocking.)
80 * TODO - (When SSL is reintroduced, memory BIO. It MAY be necessary to
81 * TODO temporarily block signals during a few SSL functions? Read SSL docu!
82 * TODO But i prefer blocking since it's a single syscall, not temporary
83 * TODO SA_RESTART setting, since that has to be done for every signal.)
86 #ifdef HAVE_NYD
87 struct nyd_info {
88 char const *ni_file;
89 char const *ni_fun;
90 ui32_t ni_chirp_line;
91 ui32_t ni_level;
93 #endif
95 /* {hold,rele}_all_sigs() */
96 static size_t _alls_depth;
97 static sigset_t _alls_nset, _alls_oset;
99 /* {hold,rele}_sigs() */
100 static size_t _hold_sigdepth;
101 static sigset_t _hold_nset, _hold_oset;
103 /* NYD, memory pool debug */
104 #ifdef HAVE_NYD
105 static ui32_t _nyd_curr, _nyd_level;
106 static struct nyd_info _nyd_infos[NYD_CALLS_MAX];
107 #endif
109 /* */
110 #ifdef HAVE_NYD
111 static void _nyd_print(int fd, struct nyd_info *nip);
112 #endif
114 #ifdef HAVE_NYD
115 static void
116 _nyd_print(int fd, struct nyd_info *nip)
118 char buf[80];
119 union {int i; size_t z;} u;
121 u.i = snprintf(buf, sizeof buf,
122 "%c [%2" PRIu32 "] %.25s (%.16s:%" PRIu32 ")\n",
123 "=><"[(nip->ni_chirp_line >> 29) & 0x3], nip->ni_level, nip->ni_fun,
124 nip->ni_file, (nip->ni_chirp_line & 0x1FFFFFFFu));
125 if (u.i > 0) {
126 u.z = u.i;
127 if (u.z > sizeof buf)
128 u.z = sizeof buf - 1; /* (Skip \0) */
129 write(fd, buf, u.z);
132 #endif
134 FL void
135 n_raise(int signo)
137 NYD2_ENTER;
138 kill(getpid(), signo);
139 NYD2_LEAVE;
142 FL sighandler_type
143 safe_signal(int signum, sighandler_type handler)
145 struct sigaction nact, oact;
146 sighandler_type rv;
147 NYD2_ENTER;
149 nact.sa_handler = handler;
150 sigemptyset(&nact.sa_mask);
151 nact.sa_flags = SA_RESTART;
152 rv = (sigaction(signum, &nact, &oact) != 0) ? SIG_ERR : oact.sa_handler;
153 NYD2_LEAVE;
154 return rv;
157 FL n_sighdl_t
158 n_signal(int signo, n_sighdl_t hdl){
159 struct sigaction nact, oact;
160 NYD2_ENTER;
162 nact.sa_handler = hdl;
163 sigemptyset(&nact.sa_mask);
164 nact.sa_flags = 0;
165 hdl = (sigaction(signo, &nact, &oact) != 0) ? SIG_ERR : oact.sa_handler;
166 NYD2_LEAVE;
167 return hdl;
170 FL void
171 hold_all_sigs(void)
173 NYD2_ENTER;
174 if (_alls_depth++ == 0) {
175 sigfillset(&_alls_nset);
176 sigdelset(&_alls_nset, SIGABRT);
177 #ifdef SIGBUS
178 sigdelset(&_alls_nset, SIGBUS);
179 #endif
180 sigdelset(&_alls_nset, SIGCHLD);
181 sigdelset(&_alls_nset, SIGFPE);
182 sigdelset(&_alls_nset, SIGILL);
183 sigdelset(&_alls_nset, SIGKILL);
184 sigdelset(&_alls_nset, SIGSEGV);
185 sigdelset(&_alls_nset, SIGSTOP);
186 sigprocmask(SIG_BLOCK, &_alls_nset, &_alls_oset);
188 NYD2_LEAVE;
191 FL void
192 rele_all_sigs(void)
194 NYD2_ENTER;
195 if (--_alls_depth == 0)
196 sigprocmask(SIG_SETMASK, &_alls_oset, (sigset_t*)NULL);
197 NYD2_LEAVE;
200 FL void
201 hold_sigs(void)
203 NYD2_ENTER;
204 if (_hold_sigdepth++ == 0) {
205 sigemptyset(&_hold_nset);
206 sigaddset(&_hold_nset, SIGHUP);
207 sigaddset(&_hold_nset, SIGINT);
208 sigaddset(&_hold_nset, SIGQUIT);
209 sigprocmask(SIG_BLOCK, &_hold_nset, &_hold_oset);
211 NYD2_LEAVE;
214 FL void
215 rele_sigs(void)
217 NYD2_ENTER;
218 if (--_hold_sigdepth == 0)
219 sigprocmask(SIG_SETMASK, &_hold_oset, NULL);
220 NYD2_LEAVE;
223 /* TODO This is temporary gracyness */
224 static struct n_sigman *n__sigman;
225 static void n__sigman_hdl(int signo);
226 static void
227 n__sigman_hdl(int signo){
228 NYD_X; /* Signal handler */
229 n__sigman->sm_signo = signo;
230 siglongjmp(n__sigman->sm_jump, 1);
233 FL int
234 n__sigman_enter(struct n_sigman *self, int flags){
235 /* TODO no error checking when installing sighdls */
236 int rv;
237 NYD2_ENTER;
239 if((int)flags >= 0){
240 self->sm_flags = (enum n_sigman_flags)flags;
241 self->sm_signo = 0;
242 self->sm_outer = n__sigman;
243 if(flags & n_SIGMAN_HUP)
244 self->sm_ohup = safe_signal(SIGHUP, &n__sigman_hdl);
245 if(flags & n_SIGMAN_INT)
246 self->sm_oint = safe_signal(SIGINT, &n__sigman_hdl);
247 if(flags & n_SIGMAN_QUIT)
248 self->sm_oquit = safe_signal(SIGQUIT, &n__sigman_hdl);
249 if(flags & n_SIGMAN_PIPE)
250 self->sm_opipe = safe_signal(SIGPIPE, &n__sigman_hdl);
251 n__sigman = self;
252 rv = 0;
253 }else{
254 flags = self->sm_flags;
256 /* Just in case of a race (signal while holding and ignoring? really?) */
257 if(!(flags & n__SIGMAN_PING)){
258 if(flags & n_SIGMAN_HUP)
259 safe_signal(SIGHUP, SIG_IGN);
260 if(flags & n_SIGMAN_INT)
261 safe_signal(SIGINT, SIG_IGN);
262 if(flags & n_SIGMAN_QUIT)
263 safe_signal(SIGQUIT, SIG_IGN);
264 if(flags & n_SIGMAN_PIPE)
265 safe_signal(SIGPIPE, SIG_IGN);
267 rv = self->sm_signo;
269 rele_sigs();
270 NYD2_LEAVE;
271 return rv;
274 FL void
275 n_sigman_cleanup_ping(struct n_sigman *self){
276 ui32_t f;
277 NYD2_ENTER;
279 hold_sigs();
281 f = self->sm_flags;
282 f |= n__SIGMAN_PING;
283 self->sm_flags = f;
285 if(f & n_SIGMAN_HUP)
286 safe_signal(SIGHUP, SIG_IGN);
287 if(f & n_SIGMAN_INT)
288 safe_signal(SIGINT, SIG_IGN);
289 if(f & n_SIGMAN_QUIT)
290 safe_signal(SIGQUIT, SIG_IGN);
291 if(f & n_SIGMAN_PIPE)
292 safe_signal(SIGPIPE, SIG_IGN);
294 rele_sigs();
295 NYD2_LEAVE;
298 FL void
299 n_sigman_leave(struct n_sigman *self,
300 enum n_sigman_flags reraise_flags){
301 ui32_t f;
302 int sig;
303 NYD2_ENTER;
305 hold_sigs();
306 n__sigman = self->sm_outer;
308 f = self->sm_flags;
309 if(f & n_SIGMAN_HUP)
310 safe_signal(SIGHUP, self->sm_ohup);
311 if(f & n_SIGMAN_INT)
312 safe_signal(SIGINT, self->sm_oint);
313 if(f & n_SIGMAN_QUIT)
314 safe_signal(SIGQUIT, self->sm_oquit);
315 if(f & n_SIGMAN_PIPE)
316 safe_signal(SIGPIPE, self->sm_opipe);
318 rele_sigs();
320 sig = 0;
321 switch(self->sm_signo){
322 case SIGPIPE:
323 if((reraise_flags & n_SIGMAN_PIPE) ||
324 ((reraise_flags & n_SIGMAN_NTTYOUT_PIPE) &&
325 !(options & OPT_TTYOUT)))
326 sig = SIGPIPE;
327 break;
328 case SIGHUP:
329 if(reraise_flags & n_SIGMAN_HUP)
330 sig = SIGHUP;
331 break;
332 case SIGINT:
333 if(reraise_flags & n_SIGMAN_INT)
334 sig = SIGINT;
335 break;
336 case SIGQUIT:
337 if(reraise_flags & n_SIGMAN_QUIT)
338 sig = SIGQUIT;
339 break;
340 default:
341 break;
344 NYD2_LEAVE;
345 if(sig != 0){
346 sigset_t cset;
348 sigemptyset(&cset);
349 sigaddset(&cset, sig);
350 sigprocmask(SIG_UNBLOCK, &cset, NULL);
351 n_raise(sig);
355 FL int
356 n_sigman_peek(void){
357 int rv;
358 NYD2_ENTER;
359 rv = 0;
360 NYD2_LEAVE;
361 return rv;
364 FL void
365 n_sigman_consume(void){
366 NYD2_ENTER;
367 NYD2_LEAVE;
370 #ifdef HAVE_NYD
371 FL void
372 _nyd_chirp(ui8_t act, char const *file, ui32_t line, char const *fun)
374 struct nyd_info *nip = _nyd_infos;
376 if (_nyd_curr != NELEM(_nyd_infos))
377 nip += _nyd_curr++;
378 else
379 _nyd_curr = 1;
380 nip->ni_file = file;
381 nip->ni_fun = fun;
382 nip->ni_chirp_line = ((ui32_t)(act & 0x3) << 29) | (line & 0x1FFFFFFFu);
383 nip->ni_level = ((act == 0) ? _nyd_level
384 : (act == 1) ? ++_nyd_level : _nyd_level--);
387 FL void
388 _nyd_oncrash(int signo)
390 char pathbuf[PATH_MAX], s2ibuf[32], *cp;
391 struct sigaction xact;
392 sigset_t xset;
393 struct nyd_info *nip;
394 int fd;
395 size_t i, fnl;
396 char const *tmpdir;
398 LCTA(sizeof("./") -1 + sizeof(VAL_UAGENT) -1 + sizeof(".dat") < PATH_MAX);
400 xact.sa_handler = SIG_DFL;
401 sigemptyset(&xact.sa_mask);
402 xact.sa_flags = 0;
403 sigaction(signo, &xact, NULL);
405 i = strlen(tmpdir = ok_vlook(TMPDIR));
406 fnl = sizeof(VAL_UAGENT) -1;
408 if (i + 1 + fnl + 1 + sizeof(".dat") > sizeof(pathbuf)) {
409 (cp = pathbuf)[0] = '.';
410 i = 1;
411 } else
412 memcpy(cp = pathbuf, tmpdir, i);
413 cp[i++] = '/'; /* xxx pathsep */
414 memcpy(cp += i, VAL_UAGENT, fnl);
415 i += fnl;
416 memcpy(cp += fnl, ".dat", sizeof(".dat"));
417 fnl = i + sizeof(".dat") -1;
419 if ((fd = open(pathbuf, O_WRONLY | O_CREAT | O_EXCL, 0666)) == -1)
420 fd = STDERR_FILENO;
422 # undef _X
423 # define _X(X) (X), sizeof(X) -1
424 write(fd, _X("\n\nNYD: program dying due to signal "));
426 cp = s2ibuf + sizeof(s2ibuf) -1;
427 *cp = '\0';
428 i = signo;
429 do {
430 *--cp = "0123456789"[i % 10];
431 i /= 10;
432 } while (i != 0);
433 write(fd, cp, PTR2SIZE((s2ibuf + sizeof(s2ibuf) -1) - cp));
435 write(fd, _X(":\n"));
437 if (_nyd_infos[NELEM(_nyd_infos) - 1].ni_file != NULL)
438 for (i = _nyd_curr, nip = _nyd_infos + i; i < NELEM(_nyd_infos); ++i)
439 _nyd_print(fd, nip++);
440 for (i = 0, nip = _nyd_infos; i < _nyd_curr; ++i)
441 _nyd_print(fd, nip++);
443 write(fd, _X("----------\nCome up to the lab and see what's on the slab\n"));
445 if (fd != STDERR_FILENO) {
446 write(STDERR_FILENO, _X("Crash NYD listing written to "));
447 write(STDERR_FILENO, pathbuf, fnl);
448 write(STDERR_FILENO, _X("\n"));
449 # undef _X
451 close(fd);
454 sigemptyset(&xset);
455 sigaddset(&xset, signo);
456 sigprocmask(SIG_UNBLOCK, &xset, NULL);
457 n_raise(signo);
458 for (;;)
459 _exit(EXIT_ERR);
461 #endif /* HAVE_NYD */
463 /* s-it-mode */