/* $OpenBSD: history.c,v 1.40 2014/11/20 15:22:39 tedu Exp $ */ /* $OpenBSD: trap.c,v 1.23 2010/05/19 17:36:08 jasper Exp $ */ /*- * Copyright (c) 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, * 2011, 2012, 2014, 2015 * Thorsten Glaser * * Provided that these terms and disclaimer and all copyright notices * are retained or reproduced in an accompanying document, permission * is granted to deal in this work without restriction, including un- * limited rights to use, publicly perform, distribute, sell, modify, * merge, give away, or sublicence. * * This work is provided "AS IS" and WITHOUT WARRANTY of any kind, to * the utmost extent permitted by applicable law, neither express nor * implied; without malicious intent or gross negligence. In no event * may a licensor, author or contributor be held liable for indirect, * direct, other damage, loss, or other issues arising in any way out * of dealing in the work, even if advised of the possibility of such * damage or existence of a defect, except proven that it results out * of said person's immediate fault when using the work as intended. */ #include "sh.h" #if HAVE_SYS_FILE_H #include #endif __RCSID("$MirOS: src/bin/mksh/histrap.c,v 1.149 2015/07/09 20:52:40 tg Exp $"); Trap sigtraps[ksh_NSIG + 1]; static struct sigaction Sigact_ign; #if HAVE_PERSISTENT_HISTORY static int histload(Source *, unsigned char *, size_t); static int writehistline(int, int, const char *); static void writehistfile(int, const char *); #endif static int hist_execute(char *, Area *); static char **hist_get(const char *, bool, bool); static char **hist_get_oldest(void); static bool hstarted; /* set after hist_init() called */ static Source *hist_source; #if HAVE_PERSISTENT_HISTORY /*XXX imake style */ #if defined(__linux) #define caddr_cast(x) ((void *)(x)) #else #define caddr_cast(x) ((caddr_t)(x)) #endif /* several OEs do not have these constants */ #ifndef MAP_FAILED #define MAP_FAILED caddr_cast(-1) #endif /* some OEs need the default mapping type specified */ #ifndef MAP_FILE #define MAP_FILE 0 #endif /* current history file: name, fd, size */ static char *hname; static int histfd = -1; static off_t histfsize; #endif static const char Tnot_in_history[] = "not in history"; #define Thistory (Tnot_in_history + 7) static const char TFCEDIT_dollaru[] = "${FCEDIT:-/bin/ed} $_"; #define Tspdollaru (TFCEDIT_dollaru + 18) /* HISTSIZE default: size of saved history, persistent or standard */ #ifdef MKSH_SMALL #define MKSH_DEFHISTSIZE 255 #else #define MKSH_DEFHISTSIZE 2047 #endif /* maximum considered size of persistent history file */ #define MKSH_MAXHISTFSIZE ((off_t)1048576 * 96) /* hidden option */ #define HIST_DISCARD 5 int c_fc(const char **wp) { struct shf *shf; struct temp *tf; bool gflag = false, lflag = false, nflag = false, rflag = false, sflag = false; int optc; const char *p, *first = NULL, *last = NULL; char **hfirst, **hlast, **hp, *editor = NULL; if (!Flag(FTALKING_I)) { bi_errorf("history %ss not available", Tfunction); return (1); } while ((optc = ksh_getopt(wp, &builtin_opt, "e:glnrs0,1,2,3,4,5,6,7,8,9,")) != -1) switch (optc) { case 'e': p = builtin_opt.optarg; if (ksh_isdash(p)) sflag = true; else { size_t len = strlen(p); /* almost certainly not overflowing */ editor = alloc(len + 4, ATEMP); memcpy(editor, p, len); memcpy(editor + len, Tspdollaru, 4); } break; /* non-AT&T ksh */ case 'g': gflag = true; break; case 'l': lflag = true; break; case 'n': nflag = true; break; case 'r': rflag = true; break; /* POSIX version of -e - */ case 's': sflag = true; break; /* kludge city - accept -num as -- -num (kind of) */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': p = shf_smprintf("-%c%s", optc, builtin_opt.optarg); if (!first) first = p; else if (!last) last = p; else { bi_errorf("too many arguments"); return (1); } break; case '?': return (1); } wp += builtin_opt.optind; /* Substitute and execute command */ if (sflag) { char *pat = NULL, *rep = NULL, *line; if (editor || lflag || nflag || rflag) { bi_errorf("can't use -e, -l, -n, -r with -s (-e -)"); return (1); } /* Check for pattern replacement argument */ if (*wp && **wp && (p = cstrchr(*wp + 1, '='))) { strdupx(pat, *wp, ATEMP); rep = pat + (p - *wp); *rep++ = '\0'; wp++; } /* Check for search prefix */ if (!first && (first = *wp)) wp++; if (last || *wp) { bi_errorf("too many arguments"); return (1); } hp = first ? hist_get(first, false, false) : hist_get_newest(false); if (!hp) return (1); /* hist_replace */ if (!pat) strdupx(line, *hp, ATEMP); else { char *s, *s1; size_t len, pat_len, rep_len; XString xs; char *xp; bool any_subst = false; pat_len = strlen(pat); rep_len = strlen(rep); Xinit(xs, xp, 128, ATEMP); for (s = *hp; (s1 = strstr(s, pat)) && (!any_subst || gflag); s = s1 + pat_len) { any_subst = true; len = s1 - s; XcheckN(xs, xp, len + rep_len); /*; first part */ memcpy(xp, s, len); xp += len; /* replacement */ memcpy(xp, rep, rep_len); xp += rep_len; } if (!any_subst) { bi_errorf("bad substitution"); return (1); } len = strlen(s) + 1; XcheckN(xs, xp, len); memcpy(xp, s, len); xp += len; line = Xclose(xs, xp); } return (hist_execute(line, ATEMP)); } if (editor && (lflag || nflag)) { bi_errorf("can't use -l, -n with -e"); return (1); } if (!first && (first = *wp)) wp++; if (!last && (last = *wp)) wp++; if (*wp) { bi_errorf("too many arguments"); return (1); } if (!first) { hfirst = lflag ? hist_get("-16", true, true) : hist_get_newest(false); if (!hfirst) return (1); /* can't fail if hfirst didn't fail */ hlast = hist_get_newest(false); } else { /* * POSIX says not an error if first/last out of bounds * when range is specified; AT&T ksh and pdksh allow out * of bounds for -l as well. */ hfirst = hist_get(first, tobool(lflag || last), lflag); if (!hfirst) return (1); hlast = last ? hist_get(last, true, lflag) : (lflag ? hist_get_newest(false) : hfirst); if (!hlast) return (1); } if (hfirst > hlast) { char **temp; temp = hfirst; hfirst = hlast; hlast = temp; /* POSIX */ rflag = !rflag; } /* List history */ if (lflag) { char *s, *t; for (hp = rflag ? hlast : hfirst; hp >= hfirst && hp <= hlast; hp += rflag ? -1 : 1) { if (!nflag) shf_fprintf(shl_stdout, "%lu", (unsigned long)hist_source->line - (unsigned long)(histptr - hp)); shf_putc('\t', shl_stdout); /* print multi-line commands correctly */ s = *hp; while ((t = strchr(s, '\n'))) { *t = '\0'; shf_fprintf(shl_stdout, "%s\n\t", s); *t++ = '\n'; s = t; } shf_fprintf(shl_stdout, "%s\n", s); } shf_flush(shl_stdout); return (0); } /* Run editor on selected lines, then run resulting commands */ tf = maketemp(ATEMP, TT_HIST_EDIT, &e->temps); if (!(shf = tf->shf)) { bi_errorf("can't %s temporary file %s: %s", "create", tf->tffn, cstrerror(errno)); return (1); } for (hp = rflag ? hlast : hfirst; hp >= hfirst && hp <= hlast; hp += rflag ? -1 : 1) shf_fprintf(shf, "%s\n", *hp); if (shf_close(shf) == -1) { bi_errorf("can't %s temporary file %s: %s", "write", tf->tffn, cstrerror(errno)); return (1); } /* Ignore setstr errors here (arbitrary) */ setstr(local("_", false), tf->tffn, KSH_RETURN_ERROR); /* XXX: source should not get trashed by this.. */ { Source *sold = source; int ret; ret = command(editor ? editor : TFCEDIT_dollaru, 0); source = sold; if (ret) return (ret); } { struct stat statb; XString xs; char *xp; ssize_t n; if (!(shf = shf_open(tf->tffn, O_RDONLY, 0, 0))) { bi_errorf("can't %s temporary file %s: %s", "open", tf->tffn, cstrerror(errno)); return (1); } if (stat(tf->tffn, &statb) < 0) n = 128; else if ((off_t)statb.st_size > MKSH_MAXHISTFSIZE) { bi_errorf("%s %s too large: %lu", Thistory, "file", (unsigned long)statb.st_size); goto errout; } else n = (size_t)statb.st_size + 1; Xinit(xs, xp, n, hist_source->areap); while ((n = shf_read(xp, Xnleft(xs, xp), shf)) > 0) { xp += n; if (Xnleft(xs, xp) <= 0) XcheckN(xs, xp, Xlength(xs, xp)); } if (n < 0) { bi_errorf("can't %s temporary file %s: %s", "read", tf->tffn, cstrerror(shf_errno(shf))); errout: shf_close(shf); return (1); } shf_close(shf); *xp = '\0'; strip_nuls(Xstring(xs, xp), Xlength(xs, xp)); return (hist_execute(Xstring(xs, xp), hist_source->areap)); } } /* save cmd in history, execute cmd (cmd gets afree’d) */ static int hist_execute(char *cmd, Area *areap) { static int last_line = -1; Source *sold; int ret; /* Back up over last histsave */ if (histptr >= history && last_line != hist_source->line) { hist_source->line--; afree(*histptr, APERM); histptr--; last_line = hist_source->line; } histsave(&hist_source->line, cmd, HIST_STORE, true); /* now *histptr == cmd without all trailing newlines */ afree(cmd, areap); cmd = *histptr; /* pdksh says POSIX doesn’t say this is done, testsuite needs it */ shellf("%s\n", cmd); /*- * Commands are executed here instead of pushing them onto the * input 'cause POSIX says the redirection and variable assignments * in * X=y fc -e - 42 2> /dev/null * are to effect the repeated commands environment. */ /* XXX: source should not get trashed by this.. */ sold = source; ret = command(cmd, 0); source = sold; return (ret); } /* * get pointer to history given pattern * pattern is a number or string */ static char ** hist_get(const char *str, bool approx, bool allow_cur) { char **hp = NULL; int n; if (getn(str, &n)) { hp = histptr + (n < 0 ? n : (n - hist_source->line)); if ((size_t)hp < (size_t)history) { if (approx) hp = hist_get_oldest(); else { bi_errorf("%s: %s", str, Tnot_in_history); hp = NULL; } } else if ((size_t)hp > (size_t)histptr) { if (approx) hp = hist_get_newest(allow_cur); else { bi_errorf("%s: %s", str, Tnot_in_history); hp = NULL; } } else if (!allow_cur && hp == histptr) { bi_errorf("%s: %s", str, "invalid range"); hp = NULL; } } else { bool anchored = *str == '?' ? (++str, false) : true; /* the -1 is to avoid the current fc command */ if ((n = findhist(histptr - history - 1, 0, str, anchored)) < 0) bi_errorf("%s: %s", str, Tnot_in_history); else hp = &history[n]; } return (hp); } /* Return a pointer to the newest command in the history */ char ** hist_get_newest(bool allow_cur) { if (histptr < history || (!allow_cur && histptr == history)) { bi_errorf("no history (yet)"); return (NULL); } return (allow_cur ? histptr : histptr - 1); } /* Return a pointer to the oldest command in the history */ static char ** hist_get_oldest(void) { if (histptr <= history) { bi_errorf("no history (yet)"); return (NULL); } return (history); } #if !defined(MKSH_NO_CMDLINE_EDITING) && !MKSH_S_NOVI /* current position in history[] */ static char **current; /* * Return the current position. */ char ** histpos(void) { return (current); } int histnum(int n) { int last = histptr - history; if (n < 0 || n >= last) { current = histptr; return (last); } else { current = &history[n]; return (n); } } #endif /* * This will become unnecessary if hist_get is modified to allow * searching from positions other than the end, and in either * direction. */ int findhist(int start, int fwd, const char *str, bool anchored) { char **hp; int maxhist = histptr - history; int incr = fwd ? 1 : -1; size_t len = strlen(str); if (start < 0 || start >= maxhist) start = maxhist; hp = &history[start]; for (; hp >= history && hp <= histptr; hp += incr) if ((anchored && strncmp(*hp, str, len) == 0) || (!anchored && strstr(*hp, str))) return (hp - history); return (-1); } /* * set history; this means reallocating the dataspace */ void sethistsize(mksh_ari_t n) { if (n > 0 && n != histsize) { int cursize = histptr - history; /* save most recent history */ if (n < cursize) { memmove(history, histptr - n + 1, n * sizeof(char *)); cursize = n - 1; } history = aresize2(history, n, sizeof(char *), APERM); histsize = n; histptr = history + cursize; } } #if HAVE_PERSISTENT_HISTORY /* * set history file; this can mean reloading/resetting/starting * history file maintenance */ void sethistfile(const char *name) { /* if not started then nothing to do */ if (hstarted == false) return; /* if the name is the same as the name we have */ if (hname && name && !strcmp(hname, name)) return; /* * it's a new name - possibly */ if (histfd != -1) { /* yes the file is open */ (void)close(histfd); histfd = -1; histfsize = 0; afree(hname, APERM); hname = NULL; /* let's reset the history */ histsave(NULL, NULL, HIST_DISCARD, true); histptr = history - 1; hist_source->line = 0; } if (name) hist_init(hist_source); } #endif /* * initialise the history vector */ void init_histvec(void) { if (history == (char **)NULL) { histsize = MKSH_DEFHISTSIZE; history = alloc2(histsize, sizeof(char *), APERM); histptr = history - 1; } } /* * It turns out that there is a lot of ghastly hackery here */ #if !defined(MKSH_SMALL) && HAVE_PERSISTENT_HISTORY /* do not save command in history but possibly sync */ bool histsync(void) { bool changed = false; /* called by histsave(), may not HIST_DISCARD, caller should flush */ if (histfd != -1) { int lno = hist_source->line; hist_source->line++; writehistfile(0, NULL); hist_source->line--; if (lno != hist_source->line) changed = true; } return (changed); } #endif /* * save command in history */ void histsave(int *lnp, const char *cmd, int svmode, bool ignoredups) { static char *enqueued = NULL; char **hp, *c; const char *ccp; if (svmode == HIST_DISCARD) { afree(enqueued, APERM); enqueued = NULL; return; } if (svmode == HIST_APPEND) { if (!enqueued) svmode = HIST_STORE; } else if (enqueued) { c = enqueued; enqueued = NULL; --*lnp; histsave(lnp, c, HIST_STORE, true); afree(c, APERM); } if (svmode == HIST_FLUSH) return; ccp = cmd + strlen(cmd); while (ccp > cmd && ccp[-1] == '\n') --ccp; strndupx(c, cmd, ccp - cmd, APERM); if (svmode != HIST_APPEND) { if (ignoredups && !strcmp(c, *histptr) #if !defined(MKSH_SMALL) && HAVE_PERSISTENT_HISTORY && !histsync() #endif ) { afree(c, APERM); return; } ++*lnp; } #if HAVE_PERSISTENT_HISTORY if (svmode == HIST_STORE && histfd != -1) writehistfile(*lnp, c); #endif if (svmode == HIST_QUEUE || svmode == HIST_APPEND) { size_t nenq, ncmd; if (!enqueued) { if (*c) enqueued = c; else afree(c, APERM); return; } nenq = strlen(enqueued); ncmd = strlen(c); enqueued = aresize(enqueued, nenq + 1 + ncmd + 1, APERM); enqueued[nenq] = '\n'; memcpy(enqueued + nenq + 1, c, ncmd + 1); afree(c, APERM); return; } hp = histptr; if (++hp >= history + histsize) { /* remove oldest command */ afree(*history, APERM); for (hp = history; hp < history + histsize - 1; hp++) hp[0] = hp[1]; } *hp = c; histptr = hp; } /* * Write history data to a file nominated by HISTFILE; * if HISTFILE is unset then history still happens, but * the data is not written to a file. All copies of ksh * looking at the file will maintain the same history. * This is ksh behaviour. * * This stuff uses mmap() * * This stuff is so totally broken it must eventually be * redesigned, without mmap, better checks, support for * larger files, etc. and handle partially corrupted files */ /*- * Open a history file * Format is: * Bytes 1, 2: * HMAGIC - just to check that we are dealing with the correct object * Then follows a number of stored commands * Each command is * */ #define HMAGIC1 0xAB #define HMAGIC2 0xCD #define COMMAND 0xFF #if HAVE_PERSISTENT_HISTORY static const unsigned char sprinkle[2] = { HMAGIC1, HMAGIC2 }; #endif void hist_init(Source *s) { #if HAVE_PERSISTENT_HISTORY unsigned char *base; int lines, fd; enum { hist_init_first, hist_init_retry, hist_init_restore } hs; #endif histsave(NULL, NULL, HIST_DISCARD, true); if (Flag(FTALKING) == 0) return; hstarted = true; hist_source = s; #if HAVE_PERSISTENT_HISTORY if (((hname = str_val(global("HISTFILE"))) == NULL) || !*hname) { hname = NULL; return; } strdupx(hname, hname, APERM); hs = hist_init_first; retry: /* we have a file and are interactive */ if ((fd = binopen3(hname, O_RDWR | O_CREAT | O_APPEND, 0600)) < 0) return; histfd = savefd(fd); if (histfd != fd) close(fd); mksh_lockfd(histfd); histfsize = lseek(histfd, (off_t)0, SEEK_END); if (histfsize > MKSH_MAXHISTFSIZE || hs == hist_init_restore) { /* we ignore too large files but still append to them */ /* we also don't need to re-read after truncation */ goto hist_init_tail; } else if (histfsize > 2) { /* we have some data, check its validity */ base = (void *)mmap(NULL, (size_t)histfsize, PROT_READ, MAP_FILE | MAP_PRIVATE, histfd, (off_t)0); if (base == (unsigned char *)MAP_FAILED) goto hist_init_fail; if (base[0] != HMAGIC1 || base[1] != HMAGIC2) { munmap(caddr_cast(base), (size_t)histfsize); goto hist_init_fail; } /* load _all_ data */ lines = histload(hist_source, base + 2, (size_t)histfsize - 2); munmap(caddr_cast(base), (size_t)histfsize); /* check if the file needs to be truncated */ if (lines > histsize && histptr >= history) { /* you're fucked up with the current code, trust me */ char *nhname, **hp; struct stat sb; /* create temporary file */ nhname = shf_smprintf("%s.%d", hname, (int)procpid); if ((fd = binopen3(nhname, O_RDWR | O_CREAT | O_TRUNC | O_EXCL, 0600)) < 0) { /* just don't truncate then, meh. */ goto hist_trunc_dont; } if (fstat(histfd, &sb) >= 0 && chown(nhname, sb.st_uid, sb.st_gid)) { /* abort the truncation then, meh. */ goto hist_trunc_abort; } /* we definitively want some magic in that file */ if (write(fd, sprinkle, 2) != 2) goto hist_trunc_abort; /* and of course the entries */ hp = history; while (hp < histptr) { if (!writehistline(fd, s->line - (histptr - hp), *hp)) goto hist_trunc_abort; ++hp; } /* now unlock, close both, rename, rinse, repeat */ close(fd); fd = -1; hist_finish(); if (rename(nhname, hname) < 0) { hist_trunc_abort: if (fd != -1) close(fd); unlink(nhname); if (fd != -1) goto hist_trunc_dont; /* darn! restore histfd and pray */ } hs = hist_init_restore; hist_trunc_dont: afree(nhname, ATEMP); if (hs == hist_init_restore) goto retry; } } else if (histfsize != 0) { /* negative or too small... */ hist_init_fail: /* ... or mmap failed or illegal */ hist_finish(); /* nuke the bogus file then retry, at most once */ if (!unlink(hname) && hs != hist_init_retry) { hs = hist_init_retry; goto retry; } if (hs != hist_init_retry) bi_errorf("can't %s %s: %s", "unlink HISTFILE", hname, cstrerror(errno)); histfsize = 0; return; } else { /* size 0, add magic to the history file */ if (write(histfd, sprinkle, 2) != 2) { hist_finish(); return; } } histfsize = lseek(histfd, (off_t)0, SEEK_END); hist_init_tail: mksh_unlkfd(histfd); #endif } #if HAVE_PERSISTENT_HISTORY /* * load the history structure from the stored data */ static int histload(Source *s, unsigned char *base, size_t bytes) { int lno = 0, lines = 0; unsigned char *cp; histload_loop: /* !bytes check as some systems (older FreeBSDs) have buggy memchr */ if (!bytes || (cp = memchr(base, COMMAND, bytes)) == NULL) return (lines); /* advance base pointer past COMMAND byte */ bytes -= ++cp - base; base = cp; /* if there is no full string left, don't bother with the rest */ if (bytes < 5 || (cp = memchr(base + 4, '\0', bytes - 4)) == NULL) return (lines); /* load the stored line number */ lno = ((base[0] & 0xFF) << 24) | ((base[1] & 0xFF) << 16) | ((base[2] & 0xFF) << 8) | (base[3] & 0xFF); /* store away the found line (@base[4]) */ ++lines; if (histptr >= history && lno - 1 != s->line) { /* a replacement? */ char **hp; if (lno >= s->line - (histptr - history) && lno <= s->line) { hp = &histptr[lno - s->line]; if (*hp) afree(*hp, APERM); strdupx(*hp, (char *)(base + 4), APERM); } } else { s->line = lno--; histsave(&lno, (char *)(base + 4), HIST_NOTE, false); } /* advance base pointer past NUL */ bytes -= ++cp - base; base = cp; /* repeat until no more */ goto histload_loop; } /* * write a command to the end of the history file * * This *MAY* seem easy but it's also necessary to check * that the history file has not changed in size. * If it has - then some other shell has written to it and * we should (re)read those commands to update our history */ static void writehistfile(int lno, const char *cmd) { off_t sizenow; size_t bytes; unsigned char *base, *news; mksh_lockfd(histfd); sizenow = lseek(histfd, (off_t)0, SEEK_END); if (sizenow < histfsize) { /* the file has shrunk; give up */ goto bad; } if ( /* ignore changes when the file is too large */ sizenow <= MKSH_MAXHISTFSIZE && /* the size has changed, we need to do read updates */ sizenow > histfsize ) { /* both sizenow and histfsize are <= MKSH_MAXHISTFSIZE */ bytes = (size_t)(sizenow - histfsize); base = (void *)mmap(NULL, (size_t)sizenow, PROT_READ, MAP_FILE | MAP_PRIVATE, histfd, (off_t)0); if (base == (unsigned char *)MAP_FAILED) goto bad; news = base + (size_t)histfsize; if (*news == COMMAND) { hist_source->line--; histload(hist_source, news, bytes); hist_source->line++; lno = hist_source->line; } else bytes = 0; munmap(caddr_cast(base), (size_t)sizenow); if (!bytes) goto bad; } if (cmd && !writehistline(histfd, lno, cmd)) { bad: hist_finish(); return; } histfsize = lseek(histfd, (off_t)0, SEEK_END); mksh_unlkfd(histfd); } static int writehistline(int fd, int lno, const char *cmd) { ssize_t n; unsigned char hdr[5]; hdr[0] = COMMAND; hdr[1] = (lno >> 24) & 0xFF; hdr[2] = (lno >> 16) & 0xFF; hdr[3] = (lno >> 8) & 0xFF; hdr[4] = lno & 0xFF; n = strlen(cmd) + 1; return (write(fd, hdr, 5) == 5 && write(fd, cmd, n) == n); } void hist_finish(void) { if (histfd >= 0) { mksh_unlkfd(histfd); (void)close(histfd); } histfd = -1; } #endif #if !HAVE_SYS_SIGNAME static const struct mksh_sigpair { const char * const name; int nr; } mksh_sigpairs[] = { #include "signames.inc" { NULL, 0 } }; #endif #if HAVE_SYS_SIGLIST #if !HAVE_SYS_SIGLIST_DECL extern const char * const sys_siglist[]; #endif #endif void inittraps(void) { int i; const char *cs; trap_exstat = -1; /* Populate sigtraps based on sys_signame and sys_siglist. */ for (i = 1; i < ksh_NSIG; i++) { sigtraps[i].signal = i; #if HAVE_SYS_SIGNAME cs = sys_signame[i]; #else const struct mksh_sigpair *pair = mksh_sigpairs; while ((pair->nr != i) && (pair->name != NULL)) ++pair; cs = pair->name; #endif if ((cs == NULL) || (cs[0] == '\0')) sigtraps[i].name = shf_smprintf("%d", i); else { char *s; /* this is not optimal, what about SIGSIG1? */ if (ksh_eq(cs[0], 'S', 's') && ksh_eq(cs[1], 'I', 'i') && ksh_eq(cs[2], 'G', 'g') && cs[3] != '\0') { /* skip leading "SIG" */ cs += 3; } strdupx(s, cs, APERM); sigtraps[i].name = s; while ((*s = ksh_toupper(*s))) ++s; } #if HAVE_SYS_SIGLIST sigtraps[i].mess = sys_siglist[i]; #elif HAVE_STRSIGNAL sigtraps[i].mess = strsignal(i); #else sigtraps[i].mess = NULL; #endif if ((sigtraps[i].mess == NULL) || (sigtraps[i].mess[0] == '\0')) sigtraps[i].mess = shf_smprintf("%s %d", "Signal", i); } sigtraps[ksh_SIGEXIT].signal = ksh_SIGEXIT; sigtraps[ksh_SIGEXIT].name = "EXIT"; sigtraps[ksh_SIGEXIT].mess = "Exit trap"; sigtraps[ksh_SIGERR].signal = ksh_SIGERR; sigtraps[ksh_SIGERR].name = "ERR"; sigtraps[ksh_SIGERR].mess = "Error handler"; (void)sigemptyset(&Sigact_ign.sa_mask); Sigact_ign.sa_flags = 0; /* interruptible */ Sigact_ign.sa_handler = SIG_IGN; sigtraps[SIGINT].flags |= TF_DFL_INTR | TF_TTY_INTR; sigtraps[SIGQUIT].flags |= TF_DFL_INTR | TF_TTY_INTR; /* SIGTERM is not fatal for interactive */ sigtraps[SIGTERM].flags |= TF_DFL_INTR; sigtraps[SIGHUP].flags |= TF_FATAL; sigtraps[SIGCHLD].flags |= TF_SHELL_USES; /* these are always caught so we can clean up any temporary files. */ setsig(&sigtraps[SIGINT], trapsig, SS_RESTORE_ORIG); setsig(&sigtraps[SIGQUIT], trapsig, SS_RESTORE_ORIG); setsig(&sigtraps[SIGTERM], trapsig, SS_RESTORE_ORIG); setsig(&sigtraps[SIGHUP], trapsig, SS_RESTORE_ORIG); } static void alarm_catcher(int sig); void alarm_init(void) { sigtraps[SIGALRM].flags |= TF_SHELL_USES; setsig(&sigtraps[SIGALRM], alarm_catcher, SS_RESTORE_ORIG|SS_FORCE|SS_SHTRAP); } /* ARGSUSED */ static void alarm_catcher(int sig MKSH_A_UNUSED) { /* this runs inside interrupt context, with errno saved */ if (ksh_tmout_state == TMOUT_READING) { int left = alarm(0); if (left == 0) { ksh_tmout_state = TMOUT_LEAVING; intrsig = 1; } else alarm(left); } } Trap * gettrap(const char *cs, bool igncase, bool allsigs) { int i; Trap *p; char *as; /* signal number (1..ksh_NSIG) or 0? */ if (ksh_isdigit(*cs)) return ((getn(cs, &i) && 0 <= i && i < ksh_NSIG) ? (&sigtraps[i]) : NULL); /* do a lookup by name then */ /* this breaks SIGSIG1, but we do that above anyway */ if (ksh_eq(cs[0], 'S', 's') && ksh_eq(cs[1], 'I', 'i') && ksh_eq(cs[2], 'G', 'g') && cs[3] != '\0') { /* skip leading "SIG" */ cs += 3; } if (igncase) { char *s; strdupx(as, cs, ATEMP); cs = s = as; while ((*s = ksh_toupper(*s))) ++s; } else as = NULL; /* this is idiotic, we really want a hashtable here */ p = sigtraps; i = ksh_NSIG + 1; do { if (!strcmp(p->name, cs)) goto found; ++p; } while (--i); goto notfound; found: if (!allsigs) { if (p->signal == ksh_SIGEXIT || p->signal == ksh_SIGERR) { notfound: p = NULL; } } afree(as, ATEMP); return (p); } /* * trap signal handler */ void trapsig(int i) { Trap *p = &sigtraps[i]; int eno = errno; trap = p->set = 1; if (p->flags & TF_DFL_INTR) intrsig = 1; if ((p->flags & TF_FATAL) && !p->trap) { fatal_trap = 1; intrsig = 1; } if (p->shtrap) (*p->shtrap)(i); errno = eno; } /* * called when we want to allow the user to ^C out of something - won't * work if user has trapped SIGINT. */ void intrcheck(void) { if (intrsig) runtraps(TF_DFL_INTR|TF_FATAL); } /* * called after EINTR to check if a signal with normally causes process * termination has been received. */ int fatal_trap_check(void) { Trap *p = sigtraps; int i = ksh_NSIG + 1; /* todo: should check if signal is fatal, not the TF_DFL_INTR flag */ do { if (p->set && (p->flags & (TF_DFL_INTR|TF_FATAL))) /* return value is used as an exit code */ return (128 + p->signal); ++p; } while (--i); return (0); } /* * Returns the signal number of any pending traps: ie, a signal which has * occurred for which a trap has been set or for which the TF_DFL_INTR flag * is set. */ int trap_pending(void) { Trap *p = sigtraps; int i = ksh_NSIG + 1; do { if (p->set && ((p->trap && p->trap[0]) || ((p->flags & (TF_DFL_INTR|TF_FATAL)) && !p->trap))) return (p->signal); ++p; } while (--i); return (0); } /* * run any pending traps. If intr is set, only run traps that * can interrupt commands. */ void runtraps(int flag) { Trap *p = sigtraps; int i = ksh_NSIG + 1; if (ksh_tmout_state == TMOUT_LEAVING) { ksh_tmout_state = TMOUT_EXECUTING; warningf(false, "timed out waiting for input"); unwind(LEXIT); } else /* * XXX: this means the alarm will have no effect if a trap * is caught after the alarm() was started...not good. */ ksh_tmout_state = TMOUT_EXECUTING; if (!flag) trap = 0; if (flag & TF_DFL_INTR) intrsig = 0; if (flag & TF_FATAL) fatal_trap = 0; ++trap_nested; do { if (p->set && (!flag || ((p->flags & flag) && p->trap == NULL))) runtrap(p, false); ++p; } while (--i); if (!--trap_nested) runtrap(NULL, true); } void runtrap(Trap *p, bool is_last) { int old_changed = 0, i; char *trapstr; if (p == NULL) /* just clean up, see runtraps() above */ goto donetrap; i = p->signal; trapstr = p->trap; p->set = 0; if (trapstr == NULL) { /* SIG_DFL */ if (p->flags & (TF_FATAL | TF_DFL_INTR)) { exstat = (int)(128U + (unsigned)i); if ((unsigned)exstat > 255U) exstat = 255; } /* e.g. SIGHUP */ if (p->flags & TF_FATAL) unwind(LLEAVE); /* e.g. SIGINT, SIGQUIT, SIGTERM, etc. */ if (p->flags & TF_DFL_INTR) unwind(LINTR); goto donetrap; } if (trapstr[0] == '\0') /* SIG_IGN */ goto donetrap; if (i == ksh_SIGEXIT || i == ksh_SIGERR) { /* avoid recursion on these */ old_changed = p->flags & TF_CHANGED; p->flags &= ~TF_CHANGED; p->trap = NULL; } if (trap_exstat == -1) trap_exstat = exstat & 0xFF; /* * Note: trapstr is fully parsed before anything is executed, thus * no problem with afree(p->trap) in settrap() while still in use. */ command(trapstr, current_lineno); if (i == ksh_SIGEXIT || i == ksh_SIGERR) { if (p->flags & TF_CHANGED) /* don't clear TF_CHANGED */ afree(trapstr, APERM); else p->trap = trapstr; p->flags |= old_changed; } donetrap: /* we're the last trap of a sequence executed */ if (is_last && trap_exstat != -1) { exstat = trap_exstat; trap_exstat = -1; } } /* clear pending traps and reset user's trap handlers; used after fork(2) */ void cleartraps(void) { Trap *p = sigtraps; int i = ksh_NSIG + 1; trap = 0; intrsig = 0; fatal_trap = 0; do { p->set = 0; if ((p->flags & TF_USER_SET) && (p->trap && p->trap[0])) settrap(p, NULL); ++p; } while (--i); } /* restore signals just before an exec(2) */ void restoresigs(void) { Trap *p = sigtraps; int i = ksh_NSIG + 1; do { if (p->flags & (TF_EXEC_IGN|TF_EXEC_DFL)) setsig(p, (p->flags & TF_EXEC_IGN) ? SIG_IGN : SIG_DFL, SS_RESTORE_CURR|SS_FORCE); ++p; } while (--i); } void settrap(Trap *p, const char *s) { sig_t f; if (p->trap) afree(p->trap, APERM); /* handles s == NULL */ strdupx(p->trap, s, APERM); p->flags |= TF_CHANGED; f = !s ? SIG_DFL : s[0] ? trapsig : SIG_IGN; p->flags |= TF_USER_SET; if ((p->flags & (TF_DFL_INTR|TF_FATAL)) && f == SIG_DFL) f = trapsig; else if (p->flags & TF_SHELL_USES) { if (!(p->flags & TF_ORIG_IGN) || Flag(FTALKING)) { /* do what user wants at exec time */ p->flags &= ~(TF_EXEC_IGN|TF_EXEC_DFL); if (f == SIG_IGN) p->flags |= TF_EXEC_IGN; else p->flags |= TF_EXEC_DFL; } /* * assumes handler already set to what shell wants it * (normally trapsig, but could be j_sigchld() or SIG_IGN) */ return; } /* todo: should we let user know signal is ignored? how? */ setsig(p, f, SS_RESTORE_CURR|SS_USER); } /* * Called by c_print() when writing to a co-process to ensure SIGPIPE won't * kill shell (unless user catches it and exits) */ int block_pipe(void) { int restore_dfl = 0; Trap *p = &sigtraps[SIGPIPE]; if (!(p->flags & (TF_ORIG_IGN|TF_ORIG_DFL))) { setsig(p, SIG_IGN, SS_RESTORE_CURR); if (p->flags & TF_ORIG_DFL) restore_dfl = 1; } else if (p->cursig == SIG_DFL) { setsig(p, SIG_IGN, SS_RESTORE_CURR); /* restore to SIG_DFL */ restore_dfl = 1; } return (restore_dfl); } /* Called by c_print() to undo whatever block_pipe() did */ void restore_pipe(int restore_dfl) { if (restore_dfl) setsig(&sigtraps[SIGPIPE], SIG_DFL, SS_RESTORE_CURR); } /* * Set action for a signal. Action may not be set if original * action was SIG_IGN, depending on the value of flags and FTALKING. */ int setsig(Trap *p, sig_t f, int flags) { struct sigaction sigact; if (p->signal == ksh_SIGEXIT || p->signal == ksh_SIGERR) return (1); memset(&sigact, 0, sizeof(sigact)); /* * First time setting this signal? If so, get and note the current * setting. */ if (!(p->flags & (TF_ORIG_IGN|TF_ORIG_DFL))) { sigaction(p->signal, &Sigact_ign, &sigact); p->flags |= sigact.sa_handler == SIG_IGN ? TF_ORIG_IGN : TF_ORIG_DFL; p->cursig = SIG_IGN; } /*- * Generally, an ignored signal stays ignored, except if * - the user of an interactive shell wants to change it * - the shell wants for force a change */ if ((p->flags & TF_ORIG_IGN) && !(flags & SS_FORCE) && (!(flags & SS_USER) || !Flag(FTALKING))) return (0); setexecsig(p, flags & SS_RESTORE_MASK); /* * This is here 'cause there should be a way of clearing * shtraps, but don't know if this is a sane way of doing * it. At the moment, all users of shtrap are lifetime * users (SIGALRM, SIGCHLD, SIGWINCH). */ if (!(flags & SS_USER)) p->shtrap = (sig_t)NULL; if (flags & SS_SHTRAP) { p->shtrap = f; f = trapsig; } if (p->cursig != f) { p->cursig = f; (void)sigemptyset(&sigact.sa_mask); /* interruptible */ sigact.sa_flags = 0; sigact.sa_handler = f; sigaction(p->signal, &sigact, NULL); } return (1); } /* control what signal is set to before an exec() */ void setexecsig(Trap *p, int restore) { /* XXX debugging */ if (!(p->flags & (TF_ORIG_IGN|TF_ORIG_DFL))) internal_errorf("setexecsig: unset signal %d(%s)", p->signal, p->name); /* restore original value for exec'd kids */ p->flags &= ~(TF_EXEC_IGN|TF_EXEC_DFL); switch (restore & SS_RESTORE_MASK) { case SS_RESTORE_CURR: /* leave things as they currently are */ break; case SS_RESTORE_ORIG: p->flags |= p->flags & TF_ORIG_IGN ? TF_EXEC_IGN : TF_EXEC_DFL; break; case SS_RESTORE_DFL: p->flags |= TF_EXEC_DFL; break; case SS_RESTORE_IGN: p->flags |= TF_EXEC_IGN; break; } } #if HAVE_PERSISTENT_HISTORY || defined(DF) /* * File descriptor locking and unlocking functions. * Could use some error handling, but hey, this is only * advisory locking anyway, will often not work over NFS, * and you are SOL if this fails... */ void mksh_lockfd(int fd) { #if defined(__OpenBSD__) /* flock is not interrupted by signals */ (void)flock(fd, LOCK_EX); #elif HAVE_FLOCK int rv; /* e.g. on Linux */ do { rv = flock(fd, LOCK_EX); } while (rv == 1 && errno == EINTR); #elif HAVE_LOCK_FCNTL int rv; struct flock lks; memset(&lks, 0, sizeof(lks)); lks.l_type = F_WRLCK; do { rv = fcntl(fd, F_SETLKW, &lks); } while (rv == 1 && errno == EINTR); #endif } /* designed to not define mksh_unlkfd if none triggered */ #if HAVE_FLOCK void mksh_unlkfd(int fd) { (void)flock(fd, LOCK_UN); } #elif HAVE_LOCK_FCNTL void mksh_unlkfd(int fd) { struct flock lks; memset(&lks, 0, sizeof(lks)); lks.l_type = F_UNLCK; (void)fcntl(fd, F_SETLKW, &lks); } #endif #endif