/* $OpenBSD: glob.c,v 1.18 2015/06/17 03:48:21 deraadt Exp $ */ /* $NetBSD: glob.c,v 1.10 1995/03/21 09:03:01 cgd Exp $ */ /*- * Copyright (c) 1980, 1991, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include "csh.h" #include "extern.h" static int noglob; static int pargsiz, gargsiz; /* * Values for gflag */ #define G_NONE 0 /* No globbing needed */ #define G_GLOB 1 /* string contains *?[] characters */ #define G_CSH 2 /* string contains ~`{ characters */ #define GLOBSPACE 100 /* Alloc increment */ #define LBRC '{' #define RBRC '}' #define LBRK '[' #define RBRK ']' #define EOS '\0' Char **gargv = NULL; long gargc = 0; Char **pargv = NULL; long pargc = 0; /* * globbing is now done in two stages. In the first pass we expand * csh globbing idioms ~`{ and then we proceed doing the normal * globbing if needed ?*[ * * Csh type globbing is handled in globexpand() and the rest is * handled in glob() which is part of the 4.4BSD libc. * */ static Char *globtilde(Char **, Char *); static Char **libglob(Char **); static Char **globexpand(Char **); static int globbrace(Char *, Char *, Char ***); static void expbrace(Char ***, Char ***, int); static int pmatch(Char *, Char *); static void pword(void); static void psave(int); static void backeval(Char *, bool); static Char * globtilde(Char **nv, Char *s) { Char gbuf[PATH_MAX], *gstart, *b, *u, *e; gstart = gbuf; *gstart++ = *s++; u = s; for (b = gstart, e = &gbuf[PATH_MAX - 1]; *s && *s != '/' && *s != ':' && b < e; *b++ = *s++) continue; *b = EOS; if (gethdir(gstart, &gbuf[sizeof(gbuf)/sizeof(Char)] - gstart)) { blkfree(nv); if (*gstart) stderror(ERR_UNKUSER, vis_str(gstart)); else stderror(ERR_NOHOME); } b = &gstart[Strlen(gstart)]; while (*s) *b++ = *s++; *b = EOS; --u; xfree(u); return (Strsave(gstart)); } static int globbrace(Char *s, Char *p, Char ***bl) { int i, len; Char *pm, *pe, *lm, *pl; Char **nv, **vl; Char gbuf[PATH_MAX]; int size = GLOBSPACE; nv = vl = xreallocarray(NULL, size, sizeof(Char *)); *vl = NULL; len = 0; /* copy part up to the brace */ for (lm = gbuf, p = s; *p != LBRC; *lm++ = *p++) continue; /* check for balanced braces */ for (i = 0, pe = ++p; *pe; pe++) if (*pe == LBRK) { /* Ignore everything between [] */ for (++pe; *pe != RBRK && *pe != EOS; pe++) continue; if (*pe == EOS) { blkfree(nv); return (-RBRK); } } else if (*pe == LBRC) i++; else if (*pe == RBRC) { if (i == 0) break; i--; } if (i != 0 || *pe == '\0') { blkfree(nv); return (-RBRC); } for (i = 0, pl = pm = p; pm <= pe; pm++) switch (*pm) { case LBRK: for (++pm; *pm != RBRK && *pm != EOS; pm++) continue; if (*pm == EOS) { *vl = NULL; blkfree(nv); return (-RBRK); } break; case LBRC: i++; break; case RBRC: if (i) { i--; break; } /* FALLTHROUGH */ case ',': if (i && *pm == ',') break; else { Char savec = *pm; *pm = EOS; (void) Strlcpy(lm, pl, &gbuf[sizeof(gbuf)/sizeof(Char)] - lm); (void) Strlcat(gbuf, pe + 1, PATH_MAX); *pm = savec; *vl++ = Strsave(gbuf); len++; pl = pm + 1; if (vl == &nv[size]) { size += GLOBSPACE; nv = xreallocarray(nv, size, sizeof(Char *)); vl = &nv[size - GLOBSPACE]; } } break; default: break; } *vl = NULL; *bl = nv; return (len); } static void expbrace(Char ***nvp, Char ***elp, int size) { Char **vl, **el, **nv, *s; vl = nv = *nvp; if (elp != NULL) el = *elp; else for (el = vl; *el; el++) continue; for (s = *vl; s; s = *++vl) { Char *b; Char **vp, **bp; /* leave {} untouched for find */ if (s[0] == '{' && (s[1] == '\0' || (s[1] == '}' && s[2] == '\0'))) continue; if ((b = Strchr(s, '{')) != NULL) { Char **bl; int len; if ((len = globbrace(s, b, &bl)) < 0) { xfree(nv); stderror(ERR_MISSING, -len); } xfree(s); if (len == 1) { *vl-- = *bl; xfree(bl); continue; } len = blklen(bl); if (&el[len] >= &nv[size]) { int l, e; l = &el[len] - &nv[size]; size += GLOBSPACE > l ? GLOBSPACE : l; l = vl - nv; e = el - nv; nv = xreallocarray(nv, size, sizeof(Char *)); vl = nv + l; el = nv + e; } vp = vl--; *vp = *bl; len--; for (bp = el; bp != vp; bp--) bp[len] = *bp; el += len; vp++; for (bp = bl + 1; *bp; *vp++ = *bp++) continue; xfree(bl); } } if (elp != NULL) *elp = el; *nvp = nv; } static Char ** globexpand(Char **v) { Char *s; Char **nv, **vl, **el; int size = GLOBSPACE; nv = vl = xreallocarray(NULL, size, sizeof(Char *)); *vl = NULL; /* * Step 1: expand backquotes. */ while ((s = *v++) != NULL) { if (Strchr(s, '`')) { int i; (void) dobackp(s, 0); for (i = 0; i < pargc; i++) { *vl++ = pargv[i]; if (vl == &nv[size]) { size += GLOBSPACE; nv = xreallocarray(nv, size, sizeof(Char *)); vl = &nv[size - GLOBSPACE]; } } xfree(pargv); pargv = NULL; } else { *vl++ = Strsave(s); if (vl == &nv[size]) { size += GLOBSPACE; nv = xreallocarray(nv, size, sizeof(Char *)); vl = &nv[size - GLOBSPACE]; } } } *vl = NULL; if (noglob) return (nv); /* * Step 2: expand braces */ el = vl; expbrace(&nv, &el, size); /* * Step 3: expand ~ */ vl = nv; for (s = *vl; s; s = *++vl) if (*s == '~') *vl = globtilde(nv, s); vl = nv; return (vl); } static Char * handleone(Char *str, Char **vl, int action) { Char *cp, **vlp = vl; switch (action) { case G_ERROR: setname(vis_str(str)); blkfree(vl); stderror(ERR_NAME | ERR_AMBIG); break; case G_APPEND: trim(vlp); str = Strsave(*vlp++); do { cp = Strspl(str, STRspace); xfree(str); str = Strspl(cp, *vlp); xfree(cp); } while (*++vlp) ; blkfree(vl); break; case G_IGNORE: str = Strsave(strip(*vlp)); blkfree(vl); break; default: break; } return (str); } static Char ** libglob(Char **vl) { int gflgs = GLOB_QUOTE | GLOB_NOMAGIC; glob_t globv; char *ptr; int nonomatch = adrof(STRnonomatch) != 0, magic = 0, match = 0; if (!vl || !vl[0]) return (vl); globv.gl_offs = 0; globv.gl_pathv = 0; globv.gl_pathc = 0; if (nonomatch) gflgs |= GLOB_NOCHECK; do { ptr = short2qstr(*vl); switch (glob(ptr, gflgs, 0, &globv)) { case GLOB_ABORTED: setname(vis_str(*vl)); stderror(ERR_NAME | ERR_GLOB); /* NOTREACHED */ case GLOB_NOSPACE: stderror(ERR_NOMEM); /* NOTREACHED */ default: break; } if (globv.gl_flags & GLOB_MAGCHAR) { match |= (globv.gl_matchc != 0); magic = 1; } gflgs |= GLOB_APPEND; } while (*++vl) ; vl = (globv.gl_pathc == 0 || (magic && !match && !nonomatch)) ? NULL : blk2short(globv.gl_pathv); globfree(&globv); return (vl); } Char * globone(Char *str, int action) { Char *v[2], **vl, **vo; int gflg; noglob = adrof(STRnoglob) != 0; gflag = 0; v[0] = str; v[1] = 0; tglob(v); gflg = gflag; if (gflg == G_NONE) return (strip(Strsave(str))); if (gflg & G_CSH) { /* * Expand back-quote, tilde and brace */ vo = globexpand(v); if (noglob || (gflg & G_GLOB) == 0) { if (vo[0] == NULL) { xfree(vo); return (Strsave(STRNULL)); } if (vo[1] != NULL) return (handleone(str, vo, action)); else { str = strip(vo[0]); xfree(vo); return (str); } } } else if (noglob || (gflg & G_GLOB) == 0) return (strip(Strsave(str))); else vo = v; vl = libglob(vo); if ((gflg & G_CSH) && vl != vo) blkfree(vo); if (vl == NULL) { setname(vis_str(str)); stderror(ERR_NAME | ERR_NOMATCH); } if (vl[0] == NULL) { xfree(vl); return (Strsave(STRNULL)); } if (vl[1] != NULL) return (handleone(str, vl, action)); else { str = strip(*vl); xfree(vl); return (str); } } Char ** globall(Char **v) { Char **vl, **vo; int gflg = gflag; if (!v || !v[0]) { gargv = saveblk(v); gargc = blklen(gargv); return (gargv); } noglob = adrof(STRnoglob) != 0; if (gflg & G_CSH) /* * Expand back-quote, tilde and brace */ vl = vo = globexpand(v); else vl = vo = saveblk(v); if (!noglob && (gflg & G_GLOB)) { vl = libglob(vo); if ((gflg & G_CSH) && vl != vo) blkfree(vo); } else trim(vl); gargc = vl ? blklen(vl) : 0; return (gargv = vl); } void ginit(void) { gargsiz = GLOBSPACE; gargv = xreallocarray(NULL, gargsiz, sizeof(Char *)); gargv[0] = 0; gargc = 0; } void rscan(Char **t, void (*f)(int)) { Char *p; while ((p = *t++) != NULL) while (*p) (*f) (*p++); } void trim(Char **t) { Char *p; while ((p = *t++) != NULL) while (*p) *p++ &= TRIM; } void tglob(Char **t) { Char *p, c; while ((p = *t++) != NULL) { if (*p == '~' || *p == '=') gflag |= G_CSH; else if (*p == '{' && (p[1] == '\0' || (p[1] == '}' && p[2] == '\0'))) continue; while ((c = *p++) != '\0') { /* * eat everything inside the matching backquotes */ if (c == '`') { gflag |= G_CSH; while (*p && *p != '`') if (*p++ == '\\') { if (*p) /* Quoted chars */ p++; else break; } if (*p) /* The matching ` */ p++; else break; } else if (c == '{') gflag |= G_CSH; else if (isglob(c)) gflag |= G_GLOB; } } } /* * Command substitute cp. If literal, then this is a substitution from a * << redirection, and so we should not crunch blanks and tabs, separating * words only at newlines. */ Char ** dobackp(Char *cp, bool literal) { Char *lp, *rp; Char *ep, word[PATH_MAX]; if (pargv) { #ifdef notdef abort(); #endif blkfree(pargv); } pargsiz = GLOBSPACE; pargv = xreallocarray(NULL, pargsiz, sizeof(Char *)); pargv[0] = NULL; pargcp = pargs = word; pargc = 0; pnleft = PATH_MAX - 4; for (;;) { for (lp = cp; *lp != '`'; lp++) { if (*lp == 0) { if (pargcp != pargs) pword(); return (pargv); } psave(*lp); } lp++; for (rp = lp; *rp && *rp != '`'; rp++) if (*rp == '\\') { rp++; if (!*rp) goto oops; } if (!*rp) oops: stderror(ERR_UNMATCHED, '`'); ep = Strsave(lp); ep[rp - lp] = 0; backeval(ep, literal); cp = rp + 1; } } static void backeval(Char *cp, bool literal) { int icnt, c; Char *ip; struct command faket; bool hadnl; int pvec[2], quoted; Char *fakecom[2], ibuf[BUFSIZ]; char tibuf[BUFSIZ]; hadnl = 0; icnt = 0; quoted = (literal || (cp[0] & QUOTE)) ? QUOTE : 0; faket.t_dtyp = NODE_COMMAND; faket.t_dflg = 0; faket.t_dlef = 0; faket.t_drit = 0; faket.t_dspr = 0; faket.t_dcom = fakecom; fakecom[0] = STRfakecom1; fakecom[1] = 0; /* * We do the psave job to temporarily change the current job so that the * following fork is considered a separate job. This is so that when * backquotes are used in a builtin function that calls glob the "current * job" is not corrupted. We only need one level of pushed jobs as long as * we are sure to fork here. */ psavejob(); /* * It would be nicer if we could integrate this redirection more with the * routines in sh.sem.c by doing a fake execute on a builtin function that * was piped out. */ mypipe(pvec); if (pfork(&faket, -1) == 0) { struct wordent paraml; struct command *t; (void) close(pvec[0]); (void) dmove(pvec[1], 1); (void) dmove(SHERR, 2); initdesc(); /* * Bugfix for nested backquotes by Michael Greim , * posted to comp.bugs.4bsd 12 Sep. 1989. */ if (pargv) /* mg, 21.dec.88 */ blkfree(pargv), pargv = 0, pargsiz = 0; /* mg, 21.dec.88 */ arginp = cp; while (*cp) *cp++ &= TRIM; /* * In the child ``forget'' everything about current aliases or * eval vectors. */ alvec = NULL; evalvec = NULL; alvecp = NULL; evalp = NULL; (void) lex(¶ml); if (seterr) stderror(ERR_OLD); alias(¶ml); t = syntax(paraml.next, ¶ml, 0); if (seterr) stderror(ERR_OLD); if (t) t->t_dflg |= F_NOFORK; (void) signal(SIGTSTP, SIG_IGN); (void) signal(SIGTTIN, SIG_IGN); (void) signal(SIGTTOU, SIG_IGN); execute(t, -1, NULL, NULL); exitstat(); } xfree(cp); (void) close(pvec[1]); c = 0; ip = NULL; do { int cnt = 0; for (;;) { if (icnt == 0) { int i; ip = ibuf; do icnt = read(pvec[0], tibuf, BUFSIZ); while (icnt == -1 && errno == EINTR); if (icnt <= 0) { c = -1; break; } for (i = 0; i < icnt; i++) ip[i] = (unsigned char) tibuf[i]; } if (hadnl) break; --icnt; c = (*ip++ & TRIM); if (c == 0) break; if (c == '\n') { /* * Continue around the loop one more time, so that we can eat * the last newline without terminating this word. */ hadnl = 1; continue; } if (!quoted && (c == ' ' || c == '\t')) break; cnt++; psave(c | quoted); } /* * Unless at end-of-file, we will form a new word here if there were * characters in the word, or in any case when we take text literally. * If we didn't make empty words here when literal was set then we * would lose blank lines. */ if (c != -1 && (cnt || literal)) pword(); hadnl = 0; } while (c >= 0); (void) close(pvec[0]); pwait(); prestjob(); } static void psave(int c) { if (--pnleft <= 0) stderror(ERR_WTOOLONG); *pargcp++ = c; } static void pword(void) { psave(0); if (pargc == pargsiz - 1) { pargsiz += GLOBSPACE; pargv = xreallocarray(pargv, pargsiz, sizeof(Char *)); } pargv[pargc++] = Strsave(pargs); pargv[pargc] = NULL; pargcp = pargs; pnleft = PATH_MAX - 4; } int Gmatch(Char *string, Char *pattern) { Char **blk, **p; int gpol = 1, gres = 0; if (*pattern == '^') { gpol = 0; pattern++; } blk = xreallocarray(NULL, GLOBSPACE, sizeof(Char *)); blk[0] = Strsave(pattern); blk[1] = NULL; expbrace(&blk, NULL, GLOBSPACE); for (p = blk; *p; p++) gres |= pmatch(string, *p); blkfree(blk); return(gres == gpol); } static int pmatch(Char *string, Char *pattern) { Char stringc, patternc; int match, negate_range; Char rangec; for (;; ++string) { stringc = *string & TRIM; patternc = *pattern++; switch (patternc) { case 0: return (stringc == 0); case '?': if (stringc == 0) return (0); break; case '*': if (!*pattern) return (1); while (*string) if (Gmatch(string++, pattern)) return (1); return (0); case '[': match = 0; if ((negate_range = (*pattern == '^')) != 0) pattern++; while ((rangec = *pattern++) != '\0') { if (rangec == ']') break; if (match) continue; if (rangec == '-' && *(pattern-2) != '[' && *pattern != ']') { match = (stringc <= (*pattern & TRIM) && (*(pattern-2) & TRIM) <= stringc); pattern++; } else match = (stringc == (rangec & TRIM)); } if (rangec == 0) stderror(ERR_NAME | ERR_MISSING, ']'); if (match == negate_range) return (0); break; default: if ((patternc & TRIM) != stringc) return (0); break; } } } void Gcat(Char *s1, Char *s2) { Char *p, *q; int n; for (p = s1; *p++;) continue; for (q = s2; *q++;) continue; n = (p - s1) + (q - s2) - 1; if (++gargc >= gargsiz) { gargsiz += GLOBSPACE; gargv = xreallocarray(gargv, gargsiz, sizeof(Char *)); } gargv[gargc] = 0; p = gargv[gargc - 1] = (Char *) xreallocarray(NULL, n, sizeof(Char)); for (q = s1; (*p++ = *q++) != '\0';) continue; for (p--, q = s2; (*p++ = *q++) != '\0';) continue; } int sortscmp(const void *a, const void *b) { #if defined(NLS) && !defined(NOSTRCOLL) char buf[2048]; #endif if (!a) /* check for NULL */ return (b ? 1 : 0); if (!b) return (-1); if (!*(Char **)a) /* check for NULL */ return (*(Char **)b ? 1 : 0); if (!*(Char **)b) return (-1); #if defined(NLS) && !defined(NOSTRCOLL) (void) strlcpy(buf, short2str(*(Char **)a), sizeof buf); return ((int) strcoll(buf, short2str(*(Char **)b))); #else return ((int) Strcmp(*(Char **)a, *(Char **)b)); #endif }