From 6c20c8ed2cb9ab69a1a57ccb2b9b79969a808321 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 17:38:56 +0200 Subject: Adding upstream version 5.2.15. Signed-off-by: Daniel Baumann --- lib/glob/glob.c | 1609 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1609 insertions(+) create mode 100644 lib/glob/glob.c (limited to 'lib/glob/glob.c') diff --git a/lib/glob/glob.c b/lib/glob/glob.c new file mode 100644 index 0000000..b66af85 --- /dev/null +++ b/lib/glob/glob.c @@ -0,0 +1,1609 @@ +/* glob.c -- file-name wildcard pattern matching for Bash. + + Copyright (C) 1985-2021 Free Software Foundation, Inc. + + This file is part of GNU Bash, the Bourne-Again SHell. + + Bash is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + Bash is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with Bash. If not, see . +*/ + +/* To whomever it may concern: I have never seen the code which most + Unix programs use to perform this function. I wrote this from scratch + based on specifications for the pattern matching. --RMS. */ + +#include + +#if !defined (__GNUC__) && !defined (HAVE_ALLOCA_H) && defined (_AIX) + #pragma alloca +#endif /* _AIX && RISC6000 && !__GNUC__ */ + +#include "bashtypes.h" + +#if defined (HAVE_UNISTD_H) +# include +#endif + +#include "bashansi.h" +#include "posixdir.h" +#include "posixstat.h" +#include "shmbutil.h" +#include "xmalloc.h" + +#include "filecntl.h" +#if !defined (F_OK) +# define F_OK 0 +#endif + +#include "stdc.h" +#include "memalloc.h" + +#include + +#include "shell.h" +#include "general.h" + +#include "glob.h" +#include "strmatch.h" + +#if !defined (HAVE_BCOPY) && !defined (bcopy) +# define bcopy(s, d, n) ((void) memcpy ((d), (s), (n))) +#endif /* !HAVE_BCOPY && !bcopy */ + +#if !defined (NULL) +# if defined (__STDC__) +# define NULL ((void *) 0) +# else +# define NULL 0x0 +# endif /* __STDC__ */ +#endif /* !NULL */ + +#if !defined (FREE) +# define FREE(x) if (x) free (x) +#endif + +/* Don't try to alloca() more than this much memory for `struct globval' + in glob_vector() */ +#ifndef ALLOCA_MAX +# define ALLOCA_MAX 100000 +#endif + +struct globval + { + struct globval *next; + char *name; + }; + +extern void throw_to_top_level PARAMS((void)); +extern int sh_eaccess PARAMS((const char *, int)); +extern char *sh_makepath PARAMS((const char *, const char *, int)); +extern int signal_is_pending PARAMS((int)); +extern void run_pending_traps PARAMS((void)); + +extern int extended_glob; + +/* Global variable which controls whether or not * matches .*. + Non-zero means don't match .*. */ +int noglob_dot_filenames = 1; + +/* Global variable which controls whether or not filename globbing + is done without regard to case. */ +int glob_ignore_case = 0; + +/* Global variable controlling whether globbing ever returns . or .. + regardless of the pattern. If set to 1, no glob pattern will ever + match `.' or `..'. Disabled by default. */ +int glob_always_skip_dot_and_dotdot = 1; + +/* Global variable to return to signify an error in globbing. */ +char *glob_error_return; + +static struct globval finddirs_error_return; + +/* Some forward declarations. */ +static int skipname PARAMS((char *, char *, int)); +#if HANDLE_MULTIBYTE +static int mbskipname PARAMS((char *, char *, int)); +#endif +void udequote_pathname PARAMS((char *)); +#if HANDLE_MULTIBYTE +void wcdequote_pathname PARAMS((wchar_t *)); +static void wdequote_pathname PARAMS((char *)); +static void dequote_pathname PARAMS((char *)); +#else +# define dequote_pathname(p) udequote_pathname(p) +#endif +static int glob_testdir PARAMS((char *, int)); +static char **glob_dir_to_array PARAMS((char *, char **, int)); + +/* Make sure these names continue to agree with what's in smatch.c */ +extern char *glob_patscan PARAMS((char *, char *, int)); +extern wchar_t *glob_patscan_wc PARAMS((wchar_t *, wchar_t *, int)); + +/* And this from gmisc.c/gm_loop.c */ +extern int wextglob_pattern_p PARAMS((wchar_t *)); + +extern char *glob_dirscan PARAMS((char *, int)); + +/* Compile `glob_loop.c' for single-byte characters. */ +#define GCHAR unsigned char +#define CHAR char +#define INT int +#define L(CS) CS +#define INTERNAL_GLOB_PATTERN_P internal_glob_pattern_p +#include "glob_loop.c" + +/* Compile `glob_loop.c' again for multibyte characters. */ +#if HANDLE_MULTIBYTE + +#define GCHAR wchar_t +#define CHAR wchar_t +#define INT wint_t +#define L(CS) L##CS +#define INTERNAL_GLOB_PATTERN_P internal_glob_wpattern_p +#include "glob_loop.c" + +#endif /* HANDLE_MULTIBYTE */ + +/* And now a function that calls either the single-byte or multibyte version + of internal_glob_pattern_p. */ +int +glob_pattern_p (pattern) + const char *pattern; +{ +#if HANDLE_MULTIBYTE + size_t n; + wchar_t *wpattern; + int r; + + if (MB_CUR_MAX == 1 || mbsmbchar (pattern) == 0) + return (internal_glob_pattern_p ((unsigned char *)pattern)); + + /* Convert strings to wide chars, and call the multibyte version. */ + n = xdupmbstowcs (&wpattern, NULL, pattern); + if (n == (size_t)-1) + /* Oops. Invalid multibyte sequence. Try it as single-byte sequence. */ + return (internal_glob_pattern_p ((unsigned char *)pattern)); + + r = internal_glob_wpattern_p (wpattern); + free (wpattern); + + return r; +#else + return (internal_glob_pattern_p ((unsigned char *)pattern)); +#endif +} + +#if EXTENDED_GLOB + +#if defined (HANDLE_MULTIBYTE) +# define XSKIPNAME(p, d, f) mbskipname(p, d, f) +#else +# define XSKIPNAME(p, d, f) skipname(p, d, f) +#endif + +/* Return 1 if all subpatterns in the extended globbing pattern PAT indicate + that the name should be skipped. XXX - doesn't handle pattern negation, + not sure if it should */ +static int +extglob_skipname (pat, dname, flags) + char *pat, *dname; + int flags; +{ + char *pp, *pe, *t, *se; + int n, r, negate, wild, nullpat, xflags; + + negate = *pat == '!'; + wild = *pat == '*' || *pat == '?'; + pp = pat + 2; + se = pp + strlen (pp); /* end of pattern string */ + pe = glob_patscan (pp, se, 0); /* end of extglob pattern */ + + /* if pe == 0, this is an invalid extglob pattern */ + if (pe == 0) + return 0; + + xflags = flags | ( negate ? GX_NEGATE : 0); + + /* if pe != se we have more of the pattern at the end of the extglob + pattern. Check the easy case first ( */ + if (pe == se && *pe == 0 && pe[-1] == ')' && (t = strchr (pp, '|')) == 0) + { + pe[-1] = '\0'; + /* This is where we check whether the pattern is being negated and + match all files beginning with `.' if the pattern begins with a + literal `.'. */ + r = XSKIPNAME (pp, dname, xflags); /*(*/ + pe[-1] = ')'; + return r; + } + + /* Is the extglob pattern between the parens the null pattern? The null + pattern can match nothing, so should we check any remaining portion of + the pattern? */ + nullpat = pe >= (pat + 2) && pe[-2] == '(' && pe[-1] == ')'; + + /* check every subpattern */ + while (t = glob_patscan (pp, pe, '|')) + { + /* If T == PE and *T == 0 (&& PE[-1] == RPAREN), we have hit the end + of a pattern with no trailing characters. */ + n = t[-1]; /* ( */ + if (extglob_pattern_p (pp) && n == ')') /* nested extglob? */ + t[-1] = n; /* no-op for now */ + else + t[-1] = '\0'; + r = XSKIPNAME (pp, dname, xflags); + t[-1] = n; + if (r == 0) /* if any pattern says not skip, we don't skip */ + return r; + pp = t; + if (pp == pe) + break; + } + + /* glob_patscan might find end of string */ + if (pp == se) + return r; + + /* but if it doesn't then we didn't match a leading dot */ + if (wild && *pe) /* if we can match zero instances, check further */ + return (XSKIPNAME (pe, dname, flags)); + + return 1; +} +#endif + +/* Return 1 if DNAME should be skipped according to PAT. Mostly concerned + with matching leading `.'. */ +static int +skipname (pat, dname, flags) + char *pat; + char *dname; + int flags; +{ + int i; + +#if EXTENDED_GLOB + if (extglob_pattern_p (pat)) /* XXX */ + return (extglob_skipname (pat, dname, flags)); +#endif + + if (glob_always_skip_dot_and_dotdot && DOT_OR_DOTDOT (dname)) + return 1; + + /* If a leading dot need not be explicitly matched, and the pattern + doesn't start with a `.', don't match `.' or `..' */ + if (noglob_dot_filenames == 0 && pat[0] != '.' && + (pat[0] != '\\' || pat[1] != '.') && + DOT_OR_DOTDOT (dname)) + return 1; + +#if 0 + /* This is where we check whether the pattern is being negated and + match all files beginning with `.' if the pattern begins with a + literal `.'. This is the negation of the next clause. */ + else if ((flags & GX_NEGATE) && noglob_dot_filenames == 0 && + dname[0] == '.' && + (pat[0] == '.' || (pat[0] == '\\' && pat[1] == '.'))) + return 0; +#endif + + /* If a dot must be explicitly matched, check to see if they do. */ + else if (noglob_dot_filenames && dname[0] == '.' && + pat[0] != '.' && (pat[0] != '\\' || pat[1] != '.')) + return 1; + + return 0; +} + +#if HANDLE_MULTIBYTE + +static int +wskipname (pat, dname, flags) + wchar_t *pat, *dname; + int flags; +{ + int i; + + if (glob_always_skip_dot_and_dotdot && WDOT_OR_DOTDOT (dname)) + return 1; + + /* If a leading dot need not be explicitly matched, and the + pattern doesn't start with a `.', don't match `.' or `..' */ + if (noglob_dot_filenames == 0 && pat[0] != L'.' && + (pat[0] != L'\\' || pat[1] != L'.') && + WDOT_OR_DOTDOT (dname)) + return 1; + +#if 0 + /* This is where we check whether the pattern is being negated and + match all files beginning with `.' if the pattern begins with a + literal `.'. This is the negation of the next clause. */ + else if ((flags & GX_NEGATE) && noglob_dot_filenames == 0 && + dname[0] == L'.' && + (pat[0] == L'.' || (pat[0] == L'\\' && pat[1] == L'.'))) + return 0; +#endif + + /* If a leading dot must be explicitly matched, check to see if the + pattern and dirname both have one. */ + else if (noglob_dot_filenames && dname[0] == L'.' && + pat[0] != L'.' && (pat[0] != L'\\' || pat[1] != L'.')) + return 1; + + return 0; +} + +static int +wextglob_skipname (pat, dname, flags) + wchar_t *pat, *dname; + int flags; +{ +#if EXTENDED_GLOB + wchar_t *pp, *pe, *t, *se, n; + int r, negate, wild, nullpat, xflags; + + negate = *pat == L'!'; + wild = *pat == L'*' || *pat == L'?'; + pp = pat + 2; + se = pp + wcslen (pp); + pe = glob_patscan_wc (pp, se, 0); + + /* if pe == 0, this is an invalid extglob pattern */ + if (pe == 0) + return 0; + + xflags = flags | ( negate ? GX_NEGATE : 0); + + /* if pe != se we have more of the pattern at the end of the extglob + pattern. Check the easy case first ( */ + if (pe == se && *pe == L'\0' && pe[-1] == L')' && (t = wcschr (pp, L'|')) == 0) + { + pe[-1] = L'\0'; + r = wskipname (pp, dname, xflags); /*(*/ + pe[-1] = L')'; + return r; + } + + /* Is the extglob pattern between the parens the null pattern? The null + pattern can match nothing, so should we check any remaining portion of + the pattern? */ + nullpat = pe >= (pat + 2) && pe[-2] == L'(' && pe[-1] == L')'; + + /* check every subpattern */ + while (t = glob_patscan_wc (pp, pe, '|')) + { + n = t[-1]; /* ( */ + if (wextglob_pattern_p (pp) && n == L')') /* nested extglob? */ + t[-1] = n; /* no-op for now */ + else + t[-1] = L'\0'; + r = wskipname (pp, dname, xflags); + t[-1] = n; + if (r == 0) + return 0; + pp = t; + if (pp == pe) + break; + } + + /* glob_patscan_wc might find end of string */ + if (pp == se) + return r; + + /* but if it doesn't then we didn't match a leading dot */ + if (wild && *pe != L'\0') + return (wskipname (pe, dname, flags)); + + return 1; +#else + return (wskipname (pat, dname, flags)); +#endif +} + +/* Return 1 if DNAME should be skipped according to PAT. Handles multibyte + characters in PAT and DNAME. Mostly concerned with matching leading `.'. */ +static int +mbskipname (pat, dname, flags) + char *pat, *dname; + int flags; +{ + int ret, ext; + wchar_t *pat_wc, *dn_wc; + size_t pat_n, dn_n; + + if (mbsmbchar (dname) == 0 && mbsmbchar (pat) == 0) + return (skipname (pat, dname, flags)); + + ext = 0; +#if EXTENDED_GLOB + ext = extglob_pattern_p (pat); +#endif + + pat_wc = dn_wc = (wchar_t *)NULL; + + pat_n = xdupmbstowcs (&pat_wc, NULL, pat); + if (pat_n != (size_t)-1) + dn_n = xdupmbstowcs (&dn_wc, NULL, dname); + + ret = 0; + if (pat_n != (size_t)-1 && dn_n !=(size_t)-1) + ret = ext ? wextglob_skipname (pat_wc, dn_wc, flags) : wskipname (pat_wc, dn_wc, flags); + else + ret = skipname (pat, dname, flags); + + FREE (pat_wc); + FREE (dn_wc); + + return ret; +} +#endif /* HANDLE_MULTIBYTE */ + +/* Remove backslashes quoting characters in PATHNAME by modifying PATHNAME. */ +void +udequote_pathname (pathname) + char *pathname; +{ + register int i, j; + + for (i = j = 0; pathname && pathname[i]; ) + { + if (pathname[i] == '\\') + i++; + + pathname[j++] = pathname[i++]; + + if (pathname[i - 1] == 0) + break; + } + if (pathname) + pathname[j] = '\0'; +} + +#if HANDLE_MULTIBYTE +/* Remove backslashes quoting characters in PATHNAME by modifying PATHNAME. */ +void +wcdequote_pathname (wpathname) + wchar_t *wpathname; +{ + int i, j; + + for (i = j = 0; wpathname && wpathname[i]; ) + { + if (wpathname[i] == L'\\') + i++; + + wpathname[j++] = wpathname[i++]; + + if (wpathname[i - 1] == L'\0') + break; + } + if (wpathname) + wpathname[j] = L'\0'; +} + +static void +wdequote_pathname (pathname) + char *pathname; +{ + mbstate_t ps; + size_t len, n; + wchar_t *wpathname; + int i, j; + wchar_t *orig_wpathname; + + if (mbsmbchar (pathname) == 0) + { + udequote_pathname (pathname); + return; + } + + len = strlen (pathname); + /* Convert the strings into wide characters. */ + n = xdupmbstowcs (&wpathname, NULL, pathname); + if (n == (size_t) -1) + { + /* Something wrong. Fall back to single-byte */ + udequote_pathname (pathname); + return; + } + orig_wpathname = wpathname; + + wcdequote_pathname (wpathname); + + /* Convert the wide character string into unibyte character set. */ + memset (&ps, '\0', sizeof(mbstate_t)); + n = wcsrtombs(pathname, (const wchar_t **)&wpathname, len, &ps); + if (n == (size_t)-1 || (wpathname && *wpathname != 0)) /* what? now you tell me? */ + { + wpathname = orig_wpathname; + memset (&ps, '\0', sizeof(mbstate_t)); + n = xwcsrtombs (pathname, (const wchar_t **)&wpathname, len, &ps); + } + pathname[len] = '\0'; + + /* Can't just free wpathname here; wcsrtombs changes it in many cases. */ + free (orig_wpathname); +} + +static void +dequote_pathname (pathname) + char *pathname; +{ + if (MB_CUR_MAX > 1) + wdequote_pathname (pathname); + else + udequote_pathname (pathname); +} +#endif /* HANDLE_MULTIBYTE */ + +/* Test whether NAME exists. */ + +#if defined (HAVE_LSTAT) +# define GLOB_TESTNAME(name) (lstat (name, &finfo)) +#else /* !HAVE_LSTAT */ +# if !defined (AFS) +# define GLOB_TESTNAME(name) (sh_eaccess (name, F_OK)) +# else /* AFS */ +# define GLOB_TESTNAME(name) (access (name, F_OK)) +# endif /* AFS */ +#endif /* !HAVE_LSTAT */ + +/* Return 0 if DIR is a directory, -2 if DIR is a symlink, -1 otherwise. */ +static int +glob_testdir (dir, flags) + char *dir; + int flags; +{ + struct stat finfo; + int r; + +/*itrace("glob_testdir: testing %s" flags = %d, dir, flags);*/ +#if defined (HAVE_LSTAT) + r = (flags & GX_ALLDIRS) ? lstat (dir, &finfo) : stat (dir, &finfo); +#else + r = stat (dir, &finfo); +#endif + if (r < 0) + return (-1); + +#if defined (S_ISLNK) + if (S_ISLNK (finfo.st_mode)) + return (-2); +#endif + + if (S_ISDIR (finfo.st_mode) == 0) + return (-1); + + return (0); +} + +/* Recursively scan SDIR for directories matching PAT (PAT is always `**'). + FLAGS is simply passed down to the recursive call to glob_vector. Returns + a list of matching directory names. EP, if non-null, is set to the last + element of the returned list. NP, if non-null, is set to the number of + directories in the returned list. These two variables exist for the + convenience of the caller (always glob_vector). */ +static struct globval * +finddirs (pat, sdir, flags, ep, np) + char *pat; + char *sdir; + int flags; + struct globval **ep; + int *np; +{ + char **r, *n; + int ndirs; + struct globval *ret, *e, *g; + +/*itrace("finddirs: pat = `%s' sdir = `%s' flags = 0x%x", pat, sdir, flags);*/ + e = ret = 0; + r = glob_vector (pat, sdir, flags); + if (r == 0 || r[0] == 0) + { + if (np) + *np = 0; + if (ep) + *ep = 0; + if (r && r != &glob_error_return) + free (r); + return (struct globval *)0; + } + for (ndirs = 0; r[ndirs] != 0; ndirs++) + { + g = (struct globval *) malloc (sizeof (struct globval)); + if (g == 0) + { + while (ret) /* free list built so far */ + { + g = ret->next; + free (ret); + ret = g; + } + + free (r); + if (np) + *np = 0; + if (ep) + *ep = 0; + return (&finddirs_error_return); + } + if (e == 0) + e = g; + + g->next = ret; + ret = g; + + g->name = r[ndirs]; + } + + free (r); + if (ep) + *ep = e; + if (np) + *np = ndirs; + + return ret; +} + +/* Return a vector of names of files in directory DIR + whose names match glob pattern PAT. + The names are not in any particular order. + Wildcards at the beginning of PAT do not match an initial period. + + The vector is terminated by an element that is a null pointer. + + To free the space allocated, first free the vector's elements, + then free the vector. + + Return 0 if cannot get enough memory to hold the pointer + and the names. + + Return -1 if cannot access directory DIR. + Look in errno for more information. */ + +char ** +glob_vector (pat, dir, flags) + char *pat; + char *dir; + int flags; +{ + DIR *d; + register struct dirent *dp; + struct globval *lastlink, *e, *dirlist; + register struct globval *nextlink; + register char *nextname, *npat, *subdir; + unsigned int count; + int lose, skip, ndirs, isdir, sdlen, add_current, patlen; + register char **name_vector; + register unsigned int i; + int mflags; /* Flags passed to strmatch (). */ + int pflags; /* flags passed to sh_makepath () */ + int hasglob; /* return value from glob_pattern_p */ + int nalloca; + struct globval *firstmalloc, *tmplink; + char *convfn; + + lastlink = 0; + count = lose = skip = add_current = 0; + + firstmalloc = 0; + nalloca = 0; + + name_vector = NULL; + +/*itrace("glob_vector: pat = `%s' dir = `%s' flags = 0x%x", pat, dir, flags);*/ + /* If PAT is empty, skip the loop, but return one (empty) filename. */ + if (pat == 0 || *pat == '\0') + { + if (glob_testdir (dir, 0) < 0) + return ((char **) &glob_error_return); + + nextlink = (struct globval *)alloca (sizeof (struct globval)); + if (nextlink == NULL) + return ((char **) NULL); + + nextlink->next = (struct globval *)0; + nextname = (char *) malloc (1); + if (nextname == 0) + lose = 1; + else + { + lastlink = nextlink; + nextlink->name = nextname; + nextname[0] = '\0'; + count = 1; + } + + skip = 1; + } + + patlen = (pat && *pat) ? strlen (pat) : 0; + + /* If the filename pattern (PAT) does not contain any globbing characters, + or contains a pattern with only backslash escapes (hasglob == 2), + we can dispense with reading the directory, and just see if there is + a filename `DIR/PAT'. If there is, and we can access it, just make the + vector to return and bail immediately. */ + hasglob = 0; + if (skip == 0 && ((hasglob = glob_pattern_p (pat)) == 0 || hasglob == 2)) + { + int dirlen; + struct stat finfo; + + if (glob_testdir (dir, 0) < 0) + return ((char **) &glob_error_return); + + dirlen = strlen (dir); + nextname = (char *)malloc (dirlen + patlen + 2); + npat = (char *)malloc (patlen + 1); + if (nextname == 0 || npat == 0) + { + FREE (nextname); + FREE (npat); + lose = 1; + } + else + { + strcpy (npat, pat); + dequote_pathname (npat); + + strcpy (nextname, dir); + nextname[dirlen++] = '/'; + strcpy (nextname + dirlen, npat); + + if (GLOB_TESTNAME (nextname) >= 0) + { + free (nextname); + nextlink = (struct globval *)alloca (sizeof (struct globval)); + if (nextlink) + { + nextlink->next = (struct globval *)0; + lastlink = nextlink; + nextlink->name = npat; + count = 1; + } + else + { + free (npat); + lose = 1; + } + } + else + { + free (nextname); + free (npat); + } + } + + skip = 1; + } + + if (skip == 0) + { + /* Open the directory, punting immediately if we cannot. If opendir + is not robust (i.e., it opens non-directories successfully), test + that DIR is a directory and punt if it's not. */ +#if defined (OPENDIR_NOT_ROBUST) + if (glob_testdir (dir, 0) < 0) + return ((char **) &glob_error_return); +#endif + + d = opendir (dir); + if (d == NULL) + return ((char **) &glob_error_return); + + /* Compute the flags that will be passed to strmatch(). We don't + need to do this every time through the loop. */ + mflags = (noglob_dot_filenames ? FNM_PERIOD : FNM_DOTDOT) | FNM_PATHNAME; + +#ifdef FNM_CASEFOLD + if (glob_ignore_case) + mflags |= FNM_CASEFOLD; +#endif + + if (extended_glob) + mflags |= FNM_EXTMATCH; + + add_current = ((flags & (GX_ALLDIRS|GX_ADDCURDIR)) == (GX_ALLDIRS|GX_ADDCURDIR)); + + /* Scan the directory, finding all names that match For each name that matches, allocate a struct globval + on the stack and store the name in it. + Chain those structs together; lastlink is the front of the chain. */ + while (1) + { + /* Make globbing interruptible in the shell. */ + if (interrupt_state || terminating_signal) + { + lose = 1; + break; + } + else if (signal_is_pending (SIGINT)) /* XXX - make SIGINT traps responsive */ + { + lose = 1; + break; + } + + dp = readdir (d); + if (dp == NULL) + break; + + /* If this directory entry is not to be used, try again. */ + if (REAL_DIR_ENTRY (dp) == 0) + continue; + +#if 0 + if (dp->d_name == 0 || *dp->d_name == 0) + continue; +#endif + +#if HANDLE_MULTIBYTE + if (MB_CUR_MAX > 1 && mbskipname (pat, dp->d_name, flags)) + continue; + else +#endif + if (skipname (pat, dp->d_name, flags)) + continue; + + /* If we're only interested in directories, don't bother with files */ + if (flags & (GX_MATCHDIRS|GX_ALLDIRS)) + { + pflags = (flags & GX_ALLDIRS) ? MP_RMDOT : 0; + if (flags & GX_NULLDIR) + pflags |= MP_IGNDOT; + subdir = sh_makepath (dir, dp->d_name, pflags); + isdir = glob_testdir (subdir, flags); + if (isdir < 0 && (flags & GX_MATCHDIRS)) + { + free (subdir); + continue; + } + } + + if (flags & GX_ALLDIRS) + { + if (isdir == 0) + { + dirlist = finddirs (pat, subdir, (flags & ~GX_ADDCURDIR), &e, &ndirs); + if (dirlist == &finddirs_error_return) + { + free (subdir); + lose = 1; + break; + } + if (ndirs) /* add recursive directories to list */ + { + if (firstmalloc == 0) + firstmalloc = e; + e->next = lastlink; + lastlink = dirlist; + count += ndirs; + } + } + + /* XXX - should we even add this if it's not a directory? */ + nextlink = (struct globval *) malloc (sizeof (struct globval)); + if (firstmalloc == 0) + firstmalloc = nextlink; + sdlen = strlen (subdir); + nextname = (char *) malloc (sdlen + 1); + if (nextlink == 0 || nextname == 0) + { + if (firstmalloc && firstmalloc == nextlink) + firstmalloc = 0; + /* If we reset FIRSTMALLOC we can free this here. */ + FREE (nextlink); + FREE (nextname); + free (subdir); + lose = 1; + break; + } + nextlink->next = lastlink; + lastlink = nextlink; + nextlink->name = nextname; + bcopy (subdir, nextname, sdlen + 1); + free (subdir); + ++count; + continue; + } + else if (flags & GX_MATCHDIRS) + free (subdir); + + convfn = fnx_fromfs (dp->d_name, D_NAMLEN (dp)); + if (strmatch (pat, convfn, mflags) != FNM_NOMATCH) + { + if (nalloca < ALLOCA_MAX) + { + nextlink = (struct globval *) alloca (sizeof (struct globval)); + nalloca += sizeof (struct globval); + } + else + { + nextlink = (struct globval *) malloc (sizeof (struct globval)); + if (firstmalloc == 0) + firstmalloc = nextlink; + } + + nextname = (char *) malloc (D_NAMLEN (dp) + 1); + if (nextlink == 0 || nextname == 0) + { + /* We free NEXTLINK here, since it won't be added to the + LASTLINK chain. If we used malloc, and it returned non- + NULL, firstmalloc will be set to something valid. If it's + NEXTLINK, reset it before we free NEXTLINK to avoid + duplicate frees. If not, it will be taken care of by the + loop below with TMPLINK. */ + if (firstmalloc) + { + if (firstmalloc == nextlink) + firstmalloc = 0; + FREE (nextlink); + } + FREE (nextname); + lose = 1; + break; + } + nextlink->next = lastlink; + lastlink = nextlink; + nextlink->name = nextname; + bcopy (dp->d_name, nextname, D_NAMLEN (dp) + 1); + ++count; + } + } + + (void) closedir (d); + } + + /* compat: if GX_ADDCURDIR, add the passed directory also. Add an empty + directory name as a placeholder if GX_NULLDIR (in which case the passed + directory name is "."). */ + if (add_current && lose == 0) + { + sdlen = strlen (dir); + nextname = (char *)malloc (sdlen + 1); + nextlink = (struct globval *) malloc (sizeof (struct globval)); + if (nextlink == 0 || nextname == 0) + { + FREE (nextlink); + FREE (nextname); + lose = 1; + } + else + { + nextlink->name = nextname; + nextlink->next = lastlink; + lastlink = nextlink; + if (flags & GX_NULLDIR) + nextname[0] = '\0'; + else + bcopy (dir, nextname, sdlen + 1); + ++count; + } + } + + if (lose == 0) + { + name_vector = (char **) malloc ((count + 1) * sizeof (char *)); + lose |= name_vector == NULL; + } + + /* Have we run out of memory or been interrupted? */ + if (lose) + { + tmplink = 0; + + /* Here free the strings we have got. */ + while (lastlink) + { + /* Since we build the list in reverse order, the first N entries + will be allocated with malloc, if firstmalloc is set, from + lastlink to firstmalloc. */ + if (firstmalloc) + { + if (lastlink == firstmalloc) + firstmalloc = 0; + tmplink = lastlink; + } + else + tmplink = 0; + free (lastlink->name); + lastlink = lastlink->next; + FREE (tmplink); + } + + /* Don't call QUIT; here; let higher layers deal with it. */ + + return ((char **)NULL); + } + + /* Copy the name pointers from the linked list into the vector. */ + for (tmplink = lastlink, i = 0; i < count; ++i) + { + name_vector[i] = tmplink->name; + tmplink = tmplink->next; + } + + name_vector[count] = NULL; + + /* If we allocated some of the struct globvals, free them now. */ + if (firstmalloc) + { + tmplink = 0; + while (lastlink) + { + tmplink = lastlink; + if (lastlink == firstmalloc) + lastlink = firstmalloc = 0; + else + lastlink = lastlink->next; + free (tmplink); + } + } + + return (name_vector); +} + +/* Return a new array which is the concatenation of each string in ARRAY + to DIR. This function expects you to pass in an allocated ARRAY, and + it takes care of free()ing that array. Thus, you might think of this + function as side-effecting ARRAY. This should handle GX_MARKDIRS. */ +static char ** +glob_dir_to_array (dir, array, flags) + char *dir, **array; + int flags; +{ + register unsigned int i, l; + int add_slash; + char **result, *new; + struct stat sb; + + l = strlen (dir); + if (l == 0) + { + if (flags & GX_MARKDIRS) + for (i = 0; array[i]; i++) + { + if ((stat (array[i], &sb) == 0) && S_ISDIR (sb.st_mode)) + { + l = strlen (array[i]); + new = (char *)realloc (array[i], l + 2); + if (new == 0) + return NULL; + new[l] = '/'; + new[l+1] = '\0'; + array[i] = new; + } + } + return (array); + } + + add_slash = dir[l - 1] != '/'; + + i = 0; + while (array[i] != NULL) + ++i; + + result = (char **) malloc ((i + 1) * sizeof (char *)); + if (result == NULL) + return (NULL); + + for (i = 0; array[i] != NULL; i++) + { + /* 3 == 1 for NUL, 1 for slash at end of DIR, 1 for GX_MARKDIRS */ + result[i] = (char *) malloc (l + strlen (array[i]) + 3); + + if (result[i] == NULL) + { + int ind; + for (ind = 0; ind < i; ind++) + free (result[ind]); + free (result); + return (NULL); + } + + strcpy (result[i], dir); + if (add_slash) + result[i][l] = '/'; + if (array[i][0]) + { + strcpy (result[i] + l + add_slash, array[i]); + if (flags & GX_MARKDIRS) + { + if ((stat (result[i], &sb) == 0) && S_ISDIR (sb.st_mode)) + { + size_t rlen; + rlen = strlen (result[i]); + result[i][rlen] = '/'; + result[i][rlen+1] = '\0'; + } + } + } + else + result[i][l+add_slash] = '\0'; + } + result[i] = NULL; + + /* Free the input array. */ + for (i = 0; array[i] != NULL; i++) + free (array[i]); + free ((char *) array); + + return (result); +} + +/* Do globbing on PATHNAME. Return an array of pathnames that match, + marking the end of the array with a null-pointer as an element. + If no pathnames match, then the array is empty (first element is null). + If there isn't enough memory, then return NULL. + If a file system error occurs, return -1; `errno' has the error code. */ +char ** +glob_filename (pathname, flags) + char *pathname; + int flags; +{ + char **result, **new_result; + unsigned int result_size; + char *directory_name, *filename, *dname, *fn; + unsigned int directory_len; + int free_dirname; /* flag */ + int dflags, hasglob; + + result = (char **) malloc (sizeof (char *)); + result_size = 1; + if (result == NULL) + return (NULL); + + result[0] = NULL; + + directory_name = NULL; + + /* Find the filename. */ + filename = strrchr (pathname, '/'); +#if defined (EXTENDED_GLOB) + if (filename && extended_glob) + { + fn = glob_dirscan (pathname, '/'); +#if DEBUG_MATCHING + if (fn != filename) + fprintf (stderr, "glob_filename: glob_dirscan: fn (%s) != filename (%s)\n", fn ? fn : "(null)", filename); +#endif + filename = fn; + } +#endif + + if (filename == NULL) + { + filename = pathname; + directory_name = ""; + directory_len = 0; + free_dirname = 0; + } + else + { + directory_len = (filename - pathname) + 1; + directory_name = (char *) malloc (directory_len + 1); + + if (directory_name == 0) /* allocation failed? */ + { + free (result); + return (NULL); + } + + bcopy (pathname, directory_name, directory_len); + directory_name[directory_len] = '\0'; + ++filename; + free_dirname = 1; + } + + hasglob = 0; + /* If directory_name contains globbing characters, then we + have to expand the previous levels. Just recurse. + If glob_pattern_p returns != [0,1] we have a pattern that has backslash + quotes but no unquoted glob pattern characters. We dequote it below. */ + if (directory_len > 0 && (hasglob = glob_pattern_p (directory_name)) == 1) + { + char **directories, *d, *p; + register unsigned int i; + int all_starstar, last_starstar; + + all_starstar = last_starstar = 0; + d = directory_name; + dflags = flags & ~GX_MARKDIRS; + /* Collapse a sequence of ** patterns separated by one or more slashes + to a single ** terminated by a slash or NUL */ + if ((flags & GX_GLOBSTAR) && d[0] == '*' && d[1] == '*' && (d[2] == '/' || d[2] == '\0')) + { + p = d; + while (d[0] == '*' && d[1] == '*' && (d[2] == '/' || d[2] == '\0')) + { + p = d; + if (d[2]) + { + d += 3; + while (*d == '/') + d++; + if (*d == 0) + break; + } + } + if (*d == 0) + all_starstar = 1; + d = p; + dflags |= GX_ALLDIRS|GX_ADDCURDIR; + directory_len = strlen (d); + } + + /* If there is a non [star][star]/ component in directory_name, we + still need to collapse trailing sequences of [star][star]/ into + a single one and note that the directory name ends with [star][star], + so we can compensate if filename is [star][star] */ + if ((flags & GX_GLOBSTAR) && all_starstar == 0) + { + int dl, prev; + prev = dl = directory_len; + while (dl >= 4 && d[dl - 1] == '/' && + d[dl - 2] == '*' && + d[dl - 3] == '*' && + d[dl - 4] == '/') + prev = dl, dl -= 3; + if (dl != directory_len) + last_starstar = 1; + directory_len = prev; + } + + /* If the directory name ends in [star][star]/ but the filename is + [star][star], just remove the final [star][star] from the directory + so we don't have to scan everything twice. */ + if (last_starstar && directory_len > 4 && + filename[0] == '*' && filename[1] == '*' && filename[2] == 0) + { + directory_len -= 3; + } + + if (d[directory_len - 1] == '/') + d[directory_len - 1] = '\0'; + + directories = glob_filename (d, dflags|GX_RECURSE); + + if (free_dirname) + { + free (directory_name); + directory_name = NULL; + } + + if (directories == NULL) + goto memory_error; + else if (directories == (char **)&glob_error_return) + { + free ((char *) result); + return ((char **) &glob_error_return); + } + else if (*directories == NULL) + { + free ((char *) directories); + free ((char *) result); + return ((char **) &glob_error_return); + } + + /* If we have something like [star][star]/[star][star], it's no use to + glob **, then do it again, and throw half the results away. */ + if (all_starstar && filename[0] == '*' && filename[1] == '*' && filename[2] == 0) + { + free ((char *) directories); + free (directory_name); + directory_name = NULL; + directory_len = 0; + goto only_filename; + } + + /* We have successfully globbed the preceding directory name. + For each name in DIRECTORIES, call glob_vector on it and + FILENAME. Concatenate the results together. */ + for (i = 0; directories[i] != NULL; ++i) + { + char **temp_results; + int shouldbreak; + + shouldbreak = 0; + /* XXX -- we've recursively scanned any directories resulting from + a `**', so turn off the flag. We turn it on again below if + filename is `**' */ + /* Scan directory even on a NULL filename. That way, `*h/' + returns only directories ending in `h', instead of all + files ending in `h' with a `/' appended. */ + dname = directories[i]; + dflags = flags & ~(GX_MARKDIRS|GX_ALLDIRS|GX_ADDCURDIR); + /* last_starstar? */ + if ((flags & GX_GLOBSTAR) && filename[0] == '*' && filename[1] == '*' && filename[2] == '\0') + dflags |= GX_ALLDIRS|GX_ADDCURDIR; + if (dname[0] == '\0' && filename[0]) + { + dflags |= GX_NULLDIR; + dname = "."; /* treat null directory name and non-null filename as current directory */ + } + + /* Special handling for symlinks to directories with globstar on */ + if (all_starstar && (dflags & GX_NULLDIR) == 0) + { + int dlen; + + /* If we have a directory name that is not null (GX_NULLDIR above) + and is a symlink to a directory, we return the symlink if + we're not `descending' into it (filename[0] == 0) and return + glob_error_return (which causes the code below to skip the + name) otherwise. I should fold this into a test that does both + checks instead of calling stat twice. */ + if (glob_testdir (dname, flags|GX_ALLDIRS) == -2 && glob_testdir (dname, 0) == 0) + { + if (filename[0] != 0) + temp_results = (char **)&glob_error_return; /* skip */ + else + { + /* Construct array to pass to glob_dir_to_array */ + temp_results = (char **)malloc (2 * sizeof (char *)); + if (temp_results == NULL) + goto memory_error; + temp_results[0] = (char *)malloc (1); + if (temp_results[0] == 0) + { + free (temp_results); + goto memory_error; + } + **temp_results = '\0'; + temp_results[1] = NULL; + dflags |= GX_SYMLINK; /* mostly for debugging */ + } + } + else + temp_results = glob_vector (filename, dname, dflags); + } + else + temp_results = glob_vector (filename, dname, dflags); + + /* Handle error cases. */ + if (temp_results == NULL) + goto memory_error; + else if (temp_results == (char **)&glob_error_return) + /* This filename is probably not a directory. Ignore it. */ + ; + else + { + char **array; + register unsigned int l; + + /* If we're expanding **, we don't need to glue the directory + name to the results; we've already done it in glob_vector */ + if ((dflags & GX_ALLDIRS) && filename[0] == '*' && filename[1] == '*' && (filename[2] == '\0' || filename[2] == '/')) + { + /* When do we remove null elements from temp_results? And + how to avoid duplicate elements in the final result? */ + /* If (dflags & GX_NULLDIR) glob_filename potentially left a + NULL placeholder in the temp results just in case + glob_vector/glob_dir_to_array did something with it, but + if it didn't, and we're not supposed to be passing them + through for some reason ((flags & GX_NULLDIR) == 0) we + need to remove all the NULL elements from the beginning + of TEMP_RESULTS. */ + /* If we have a null directory name and ** as the filename, + we have just searched for everything from the current + directory on down. Break now (shouldbreak = 1) to avoid + duplicate entries in the final result. */ +#define NULL_PLACEHOLDER(x) ((x) && *(x) && **(x) == 0) + if ((dflags & GX_NULLDIR) && (flags & GX_NULLDIR) == 0 && + NULL_PLACEHOLDER (temp_results)) +#undef NULL_PLACEHOLDER + { + register int i, n; + for (n = 0; temp_results[n] && *temp_results[n] == 0; n++) + ; + i = n; + do + temp_results[i - n] = temp_results[i]; + while (temp_results[i++] != 0); + array = temp_results; + shouldbreak = 1; + } + else + array = temp_results; + } + else if (dflags & GX_SYMLINK) + array = glob_dir_to_array (directories[i], temp_results, flags); + else + array = glob_dir_to_array (directories[i], temp_results, flags); + l = 0; + while (array[l] != NULL) + ++l; + + new_result = (char **)realloc (result, (result_size + l) * sizeof (char *)); + + if (new_result == NULL) + { + for (l = 0; array[l]; ++l) + free (array[l]); + free ((char *)array); + goto memory_error; + } + result = new_result; + + for (l = 0; array[l] != NULL; ++l) + result[result_size++ - 1] = array[l]; + + result[result_size - 1] = NULL; + + /* Note that the elements of ARRAY are not freed. */ + if (array != temp_results) + free ((char *) array); + else if ((dflags & GX_ALLDIRS) && filename[0] == '*' && filename[1] == '*' && filename[2] == '\0') + free (temp_results); /* expanding ** case above */ + + if (shouldbreak) + break; + } + } + /* Free the directories. */ + for (i = 0; directories[i]; i++) + free (directories[i]); + + free ((char *) directories); + + return (result); + } + +only_filename: + /* If there is only a directory name, return it. */ + if (*filename == '\0') + { + result = (char **) realloc ((char *) result, 2 * sizeof (char *)); + if (result == NULL) + { + if (free_dirname) + free (directory_name); + return (NULL); + } + /* If we have a directory name with quoted characters, and we are + being called recursively to glob the directory portion of a pathname, + we need to dequote the directory name before returning it so the + caller can read the directory */ + if (directory_len > 0 && hasglob == 2 && (flags & GX_RECURSE) != 0) + { + dequote_pathname (directory_name); + directory_len = strlen (directory_name); + } + + /* We could check whether or not the dequoted directory_name is a + directory and return it here, returning the original directory_name + if not, but we don't do that. We do return the dequoted directory + name if we're not being called recursively and the dequoted name + corresponds to an actual directory. For better backwards compatibility, + we can return &glob_error_return unconditionally in this case. */ + + if (directory_len > 0 && hasglob == 2 && (flags & GX_RECURSE) == 0) + { + dequote_pathname (directory_name); + if (glob_testdir (directory_name, 0) < 0) + { + if (free_dirname) + free (directory_name); + free ((char *) result); + return ((char **)&glob_error_return); + } + } + + /* Handle GX_MARKDIRS here. */ + result[0] = (char *) malloc (directory_len + 1); + if (result[0] == NULL) + goto memory_error; + bcopy (directory_name, result[0], directory_len + 1); + if (free_dirname) + free (directory_name); + result[1] = NULL; + return (result); + } + else + { + char **temp_results; + + /* There are no unquoted globbing characters in DIRECTORY_NAME. + Dequote it before we try to open the directory since there may + be quoted globbing characters which should be treated verbatim. */ + if (directory_len > 0) + dequote_pathname (directory_name); + + /* We allocated a small array called RESULT, which we won't be using. + Free that memory now. */ + free (result); + + /* Just return what glob_vector () returns appended to the + directory name. */ + /* If flags & GX_ALLDIRS, we're called recursively */ + dflags = flags & ~GX_MARKDIRS; + if (directory_len == 0) + dflags |= GX_NULLDIR; + if ((flags & GX_GLOBSTAR) && filename[0] == '*' && filename[1] == '*' && filename[2] == '\0') + { + dflags |= GX_ALLDIRS|GX_ADDCURDIR; +#if 0 + /* If we want all directories (dflags & GX_ALLDIRS) and we're not + being called recursively as something like `echo [star][star]/[star].o' + ((flags & GX_ALLDIRS) == 0), we want to prevent glob_vector from + adding a null directory name to the front of the temp_results + array. We turn off ADDCURDIR if not called recursively and + dlen == 0 */ +#endif + if (directory_len == 0 && (flags & GX_ALLDIRS) == 0) + dflags &= ~GX_ADDCURDIR; + } + temp_results = glob_vector (filename, + (directory_len == 0 ? "." : directory_name), + dflags); + + if (temp_results == NULL || temp_results == (char **)&glob_error_return) + { + if (free_dirname) + free (directory_name); + QUIT; /* XXX - shell */ + run_pending_traps (); + return (temp_results); + } + + result = glob_dir_to_array ((dflags & GX_ALLDIRS) ? "" : directory_name, temp_results, flags); + + if (free_dirname) + free (directory_name); + return (result); + } + + /* We get to memory_error if the program has run out of memory, or + if this is the shell, and we have been interrupted. */ + memory_error: + if (result != NULL) + { + register unsigned int i; + for (i = 0; result[i] != NULL; ++i) + free (result[i]); + free ((char *) result); + } + + if (free_dirname && directory_name) + free (directory_name); + + QUIT; + run_pending_traps (); + + return (NULL); +} + +#if defined (TEST) + +main (argc, argv) + int argc; + char **argv; +{ + unsigned int i; + + for (i = 1; i < argc; ++i) + { + char **value = glob_filename (argv[i], 0); + if (value == NULL) + puts ("Out of memory."); + else if (value == &glob_error_return) + perror (argv[i]); + else + for (i = 0; value[i] != NULL; i++) + puts (value[i]); + } + + exit (0); +} +#endif /* TEST. */ -- cgit v1.2.3