/* Copyright (C) 1991-2017 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, see . */ #ifndef _LIBC # include #endif #include #include #include #include #include #include #include #include #include #if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__ # define WINDOWS32 #endif #ifndef WINDOWS32 # include #endif #include #ifndef __set_errno # define __set_errno(val) errno = (val) #endif #include #include #include #include #ifdef _LIBC # undef strdup # define strdup(str) __strdup (str) # define sysconf(id) __sysconf (id) # define closedir(dir) __closedir (dir) # define opendir(name) __opendir (name) # define readdir(str) __readdir64 (str) # define getpwnam_r(name, bufp, buf, len, res) \ __getpwnam_r (name, bufp, buf, len, res) # ifndef __stat64 # define __stat64(fname, buf) __xstat64 (_STAT_VER, fname, buf) # endif # define struct_stat64 struct stat64 # define FLEXIBLE_ARRAY_MEMBER #else /* !_LIBC */ # define __getlogin_r(buf, len) getlogin_r (buf, len) # define __stat64(fname, buf) stat (fname, buf) # define __fxstatat64(_, d, f, st, flag) fstatat (d, f, st, flag) # define struct_stat64 struct stat # ifndef __MVS__ # define __alloca alloca # endif # define __readdir readdir # define COMPILE_GLOB64 #endif /* _LIBC */ #include #include #include #ifdef _SC_GETPW_R_SIZE_MAX # define GETPW_R_SIZE_MAX() sysconf (_SC_GETPW_R_SIZE_MAX) #else # define GETPW_R_SIZE_MAX() (-1) #endif #ifdef _SC_LOGIN_NAME_MAX # define GET_LOGIN_NAME_MAX() sysconf (_SC_LOGIN_NAME_MAX) #else # define GET_LOGIN_NAME_MAX() (-1) #endif static const char *next_brace_sub (const char *begin, int flags) __THROWNL; typedef uint_fast8_t dirent_type; #if !defined _LIBC && !defined HAVE_STRUCT_DIRENT_D_TYPE /* Any distinct values will do here. Undef any existing macros out of the way. */ # undef DT_UNKNOWN # undef DT_DIR # undef DT_LNK # define DT_UNKNOWN 0 # define DT_DIR 1 # define DT_LNK 2 #endif /* A representation of a directory entry which does not depend on the layout of struct dirent, or the size of ino_t. */ struct readdir_result { const char *name; #if defined _DIRENT_HAVE_D_TYPE || defined HAVE_STRUCT_DIRENT_D_TYPE dirent_type type; #endif #if defined _LIBC || defined D_INO_IN_DIRENT bool skip_entry; #endif }; /* Initialize and return type member of struct readdir_result. */ static dirent_type readdir_result_type (struct readdir_result d) { #if defined _DIRENT_HAVE_D_TYPE || defined HAVE_STRUCT_DIRENT_D_TYPE # define D_TYPE_TO_RESULT(source) (source)->d_type, return d.type; #else # define D_TYPE_TO_RESULT(source) return DT_UNKNOWN; #endif } /* Initialize and return skip_entry member of struct readdir_result. */ static bool readdir_result_skip_entry (struct readdir_result d) { /* Initializer for skip_entry. POSIX does not require that the d_ino field be present, and some systems do not provide it. */ #if defined _LIBC || defined D_INO_IN_DIRENT # define D_INO_TO_RESULT(source) (source)->d_ino == 0, return d.skip_entry; #else # define D_INO_TO_RESULT(source) return false; #endif } /* Construct an initializer for a struct readdir_result object from a struct dirent *. No copy of the name is made. */ #define READDIR_RESULT_INITIALIZER(source) \ { \ source->d_name, \ D_TYPE_TO_RESULT (source) \ D_INO_TO_RESULT (source) \ } /* Call gl_readdir on STREAM. This macro can be overridden to reduce type safety if an old interface version needs to be supported. */ #ifndef GL_READDIR # define GL_READDIR(pglob, stream) ((pglob)->gl_readdir (stream)) #endif /* Extract name and type from directory entry. No copy of the name is made. If SOURCE is NULL, result name is NULL. Keep in sync with convert_dirent64 below. */ static struct readdir_result convert_dirent (const struct dirent *source) { if (source == NULL) { struct readdir_result result = { NULL, }; return result; } struct readdir_result result = READDIR_RESULT_INITIALIZER (source); return result; } #ifndef COMPILE_GLOB64 /* Like convert_dirent, but works on struct dirent64 instead. Keep in sync with convert_dirent above. */ static struct readdir_result convert_dirent64 (const struct dirent64 *source) { if (source == NULL) { struct readdir_result result = { NULL, }; return result; } struct readdir_result result = READDIR_RESULT_INITIALIZER (source); return result; } #endif #ifndef _LIBC /* The results of opendir() in this file are not used with dirfd and fchdir, and we do not leak fds to any single-threaded code that could use stdio, therefore save some unnecessary recursion in fchdir.c and opendir_safer.c. FIXME - if the kernel ever adds support for multi-thread safety for avoiding standard fds, then we should use opendir_safer. */ # ifdef GNULIB_defined_opendir # undef opendir # endif # ifdef GNULIB_defined_closedir # undef closedir # endif /* Just use malloc. */ # define __libc_use_alloca(n) false # define alloca_account(len, avar) ((void) (len), (void) (avar), (void *) 0) # define extend_alloca_account(buf, len, newlen, avar) \ ((void) (buf), (void) (len), (void) (newlen), (void) (avar), (void *) 0) #endif /* Set *R = A + B. Return true if the answer is mathematically incorrect due to overflow; in this case, *R is the low order bits of the correct answer. */ static bool size_add_wrapv (size_t a, size_t b, size_t *r) { #if 5 <= __GNUC__ && !defined __ICC return __builtin_add_overflow (a, b, r); #else *r = a + b; return *r < a; #endif } static bool glob_use_alloca (size_t alloca_used, size_t len) { size_t size; return (!size_add_wrapv (alloca_used, len, &size) && __libc_use_alloca (size)); } static int glob_in_dir (const char *pattern, const char *directory, int flags, int (*errfunc) (const char *, int), glob_t *pglob, size_t alloca_used); extern int __glob_pattern_type (const char *pattern, int quote) attribute_hidden; static int prefix_array (const char *prefix, char **array, size_t n) __THROWNL; static int collated_compare (const void *, const void *) __THROWNL; /* Find the end of the sub-pattern in a brace expression. */ static const char * next_brace_sub (const char *cp, int flags) { size_t depth = 0; while (*cp != '\0') if ((flags & GLOB_NOESCAPE) == 0 && *cp == '\\') { if (*++cp == '\0') break; ++cp; } else { if ((*cp == '}' && depth-- == 0) || (*cp == ',' && depth == 0)) break; if (*cp++ == '{') depth++; } return *cp != '\0' ? cp : NULL; } /* Do glob searching for PATTERN, placing results in PGLOB. The bits defined above may be set in FLAGS. If a directory cannot be opened or read and ERRFUNC is not nil, it is called with the pathname that caused the error, and the 'errno' value from the failing call; if it returns non-zero 'glob' returns GLOB_ABORTED; if it returns zero, the error is ignored. If memory cannot be allocated for PGLOB, GLOB_NOSPACE is returned. Otherwise, 'glob' returns zero. */ int #ifdef GLOB_ATTRIBUTE GLOB_ATTRIBUTE #endif glob (const char *pattern, int flags, int (*errfunc) (const char *, int), glob_t *pglob) { const char *filename; char *dirname = NULL; size_t dirlen; int status; size_t oldcount; int meta; int dirname_modified; int malloc_dirname = 0; glob_t dirs; int retval = 0; size_t alloca_used = 0; if (pattern == NULL || pglob == NULL || (flags & ~__GLOB_FLAGS) != 0) { __set_errno (EINVAL); return -1; } /* POSIX requires all slashes to be matched. This means that with a trailing slash we must match only directories. */ if (pattern[0] && pattern[strlen (pattern) - 1] == '/') flags |= GLOB_ONLYDIR; if (!(flags & GLOB_DOOFFS)) /* Have to do this so 'globfree' knows where to start freeing. It also makes all the code that uses gl_offs simpler. */ pglob->gl_offs = 0; if (!(flags & GLOB_APPEND)) { pglob->gl_pathc = 0; if (!(flags & GLOB_DOOFFS)) pglob->gl_pathv = NULL; else { size_t i; if (pglob->gl_offs >= ~((size_t) 0) / sizeof (char *)) return GLOB_NOSPACE; pglob->gl_pathv = (char **) malloc ((pglob->gl_offs + 1) * sizeof (char *)); if (pglob->gl_pathv == NULL) return GLOB_NOSPACE; for (i = 0; i <= pglob->gl_offs; ++i) pglob->gl_pathv[i] = NULL; } } if (flags & GLOB_BRACE) { const char *begin; if (flags & GLOB_NOESCAPE) begin = strchr (pattern, '{'); else { begin = pattern; while (1) { if (*begin == '\0') { begin = NULL; break; } if (*begin == '\\' && begin[1] != '\0') ++begin; else if (*begin == '{') break; ++begin; } } if (begin != NULL) { /* Allocate working buffer large enough for our work. Note that we have at least an opening and closing brace. */ size_t firstc; char *alt_start; const char *p; const char *next; const char *rest; size_t rest_len; char *onealt; size_t pattern_len = strlen (pattern) - 1; int alloca_onealt = glob_use_alloca (alloca_used, pattern_len); if (alloca_onealt) onealt = alloca_account (pattern_len, alloca_used); else { onealt = malloc (pattern_len); if (onealt == NULL) return GLOB_NOSPACE; } /* We know the prefix for all sub-patterns. */ alt_start = mempcpy (onealt, pattern, begin - pattern); /* Find the first sub-pattern and at the same time find the rest after the closing brace. */ next = next_brace_sub (begin + 1, flags); if (next == NULL) { /* It is an invalid expression. */ illegal_brace: if (__glibc_unlikely (!alloca_onealt)) free (onealt); flags &= ~GLOB_BRACE; goto no_brace; } /* Now find the end of the whole brace expression. */ rest = next; while (*rest != '}') { rest = next_brace_sub (rest + 1, flags); if (rest == NULL) /* It is an illegal expression. */ goto illegal_brace; } /* Please note that we now can be sure the brace expression is well-formed. */ rest_len = strlen (++rest) + 1; /* We have a brace expression. BEGIN points to the opening {, NEXT points past the terminator of the first element, and END points past the final }. We will accumulate result names from recursive runs for each brace alternative in the buffer using GLOB_APPEND. */ firstc = pglob->gl_pathc; p = begin + 1; while (1) { int result; /* Construct the new glob expression. */ mempcpy (mempcpy (alt_start, p, next - p), rest, rest_len); result = glob (onealt, ((flags & ~(GLOB_NOCHECK | GLOB_NOMAGIC)) | GLOB_APPEND), errfunc, pglob); /* If we got an error, return it. */ if (result && result != GLOB_NOMATCH) { if (__glibc_unlikely (!alloca_onealt)) free (onealt); if (!(flags & GLOB_APPEND)) { globfree (pglob); pglob->gl_pathc = 0; } return result; } if (*next == '}') /* We saw the last entry. */ break; p = next + 1; next = next_brace_sub (p, flags); assert (next != NULL); } if (__glibc_unlikely (!alloca_onealt)) free (onealt); if (pglob->gl_pathc != firstc) /* We found some entries. */ return 0; else if (!(flags & (GLOB_NOCHECK|GLOB_NOMAGIC))) return GLOB_NOMATCH; } } no_brace: oldcount = pglob->gl_pathc + pglob->gl_offs; /* Find the filename. */ filename = strrchr (pattern, '/'); #if defined __MSDOS__ || defined WINDOWS32 /* The case of "d:pattern". Since ':' is not allowed in file names, we can safely assume that wherever it happens in pattern, it signals the filename part. This is so we could some day support patterns like "[a-z]:foo". */ if (filename == NULL) filename = strchr (pattern, ':'); #endif /* __MSDOS__ || WINDOWS32 */ dirname_modified = 0; if (filename == NULL) { /* This can mean two things: a simple name or "~name". The latter case is nothing but a notation for a directory. */ if ((flags & (GLOB_TILDE|GLOB_TILDE_CHECK)) && pattern[0] == '~') { dirname = (char *) pattern; dirlen = strlen (pattern); /* Set FILENAME to NULL as a special flag. This is ugly but other solutions would require much more code. We test for this special case below. */ filename = NULL; } else { if (__glibc_unlikely (pattern[0] == '\0')) { dirs.gl_pathv = NULL; goto no_matches; } filename = pattern; dirname = (char *) "."; dirlen = 0; } } else if (filename == pattern || (filename == pattern + 1 && pattern[0] == '\\' && (flags & GLOB_NOESCAPE) == 0)) { /* "/pattern" or "\\/pattern". */ dirname = (char *) "/"; dirlen = 1; ++filename; } else { char *newp; dirlen = filename - pattern; #if defined __MSDOS__ || defined WINDOWS32 if (*filename == ':' || (filename > pattern + 1 && filename[-1] == ':')) { char *drive_spec; ++dirlen; drive_spec = __alloca (dirlen + 1); *((char *) mempcpy (drive_spec, pattern, dirlen)) = '\0'; /* For now, disallow wildcards in the drive spec, to prevent infinite recursion in glob. */ if (__glob_pattern_p (drive_spec, !(flags & GLOB_NOESCAPE))) return GLOB_NOMATCH; /* If this is "d:pattern", we need to copy ':' to DIRNAME as well. If it's "d:/pattern", don't remove the slash from "d:/", since "d:" and "d:/" are not the same.*/ } #endif if (glob_use_alloca (alloca_used, dirlen + 1)) newp = alloca_account (dirlen + 1, alloca_used); else { newp = malloc (dirlen + 1); if (newp == NULL) return GLOB_NOSPACE; malloc_dirname = 1; } *((char *) mempcpy (newp, pattern, dirlen)) = '\0'; dirname = newp; ++filename; #if defined __MSDOS__ || defined WINDOWS32 bool drive_root = (dirlen > 1 && (dirname[dirlen - 1] == ':' || (dirlen > 2 && dirname[dirlen - 2] == ':' && dirname[dirlen - 1] == '/'))); #else bool drive_root = false; #endif if (filename[0] == '\0' && dirlen > 1 && !drive_root) /* "pattern/". Expand "pattern", appending slashes. */ { int orig_flags = flags; if (!(flags & GLOB_NOESCAPE) && dirname[dirlen - 1] == '\\') { /* "pattern\\/". Remove the final backslash if it hasn't been quoted. */ char *p = (char *) &dirname[dirlen - 1]; while (p > dirname && p[-1] == '\\') --p; if ((&dirname[dirlen] - p) & 1) { *(char *) &dirname[--dirlen] = '\0'; flags &= ~(GLOB_NOCHECK | GLOB_NOMAGIC); } } int val = glob (dirname, flags | GLOB_MARK, errfunc, pglob); if (val == 0) pglob->gl_flags = ((pglob->gl_flags & ~GLOB_MARK) | (flags & GLOB_MARK)); else if (val == GLOB_NOMATCH && flags != orig_flags) { /* Make sure globfree (&dirs); is a nop. */ dirs.gl_pathv = NULL; flags = orig_flags; oldcount = pglob->gl_pathc + pglob->gl_offs; goto no_matches; } retval = val; goto out; } } if ((flags & (GLOB_TILDE|GLOB_TILDE_CHECK)) && dirname[0] == '~') { if (dirname[1] == '\0' || dirname[1] == '/' || (!(flags & GLOB_NOESCAPE) && dirname[1] == '\\' && (dirname[2] == '\0' || dirname[2] == '/'))) { /* Look up home directory. */ char *home_dir = getenv ("HOME"); int malloc_home_dir = 0; if (home_dir == NULL || home_dir[0] == '\0') { #ifdef WINDOWS32 /* Windows NT defines HOMEDRIVE and HOMEPATH. But give preference to HOME, because the user can change HOME. */ const char *home_drive = getenv ("HOMEDRIVE"); const char *home_path = getenv ("HOMEPATH"); if (home_drive != NULL && home_path != NULL) { size_t home_drive_len = strlen (home_drive); size_t home_path_len = strlen (home_path); char *mem = alloca (home_drive_len + home_path_len + 1); memcpy (mem, home_drive, home_drive_len); memcpy (mem + home_drive_len, home_path, home_path_len + 1); home_dir = mem; } else home_dir = "c:/users/default"; /* poor default */ #else int success; char *name; int malloc_name = 0; size_t buflen = GET_LOGIN_NAME_MAX () + 1; if (buflen == 0) /* 'sysconf' does not support _SC_LOGIN_NAME_MAX. Try a moderate value. */ buflen = 20; if (glob_use_alloca (alloca_used, buflen)) name = alloca_account (buflen, alloca_used); else { name = malloc (buflen); if (name == NULL) { retval = GLOB_NOSPACE; goto out; } malloc_name = 1; } success = __getlogin_r (name, buflen) == 0; if (success) { struct passwd *p; char *malloc_pwtmpbuf = NULL; char *pwtmpbuf; # if defined HAVE_GETPWNAM_R || defined _LIBC long int pwbuflenmax = GETPW_R_SIZE_MAX (); size_t pwbuflen = pwbuflenmax; struct passwd pwbuf; int save = errno; # ifndef _LIBC if (! (0 < pwbuflenmax && pwbuflenmax <= SIZE_MAX)) /* 'sysconf' does not support _SC_GETPW_R_SIZE_MAX. Try a moderate value. */ pwbuflen = 1024; # endif if (glob_use_alloca (alloca_used, pwbuflen)) pwtmpbuf = alloca_account (pwbuflen, alloca_used); else { pwtmpbuf = malloc (pwbuflen); if (pwtmpbuf == NULL) { if (__glibc_unlikely (malloc_name)) free (name); retval = GLOB_NOSPACE; goto out; } malloc_pwtmpbuf = pwtmpbuf; } while (getpwnam_r (name, &pwbuf, pwtmpbuf, pwbuflen, &p) != 0) { size_t newlen; bool v; if (errno != ERANGE) { p = NULL; break; } v = size_add_wrapv (pwbuflen, pwbuflen, &newlen); if (!v && malloc_pwtmpbuf == NULL && glob_use_alloca (alloca_used, newlen)) pwtmpbuf = extend_alloca_account (pwtmpbuf, pwbuflen, newlen, alloca_used); else { char *newp = (v ? NULL : realloc (malloc_pwtmpbuf, newlen)); if (newp == NULL) { free (malloc_pwtmpbuf); if (__glibc_unlikely (malloc_name)) free (name); retval = GLOB_NOSPACE; goto out; } malloc_pwtmpbuf = pwtmpbuf = newp; } pwbuflen = newlen; __set_errno (save); } # else p = getpwnam (name); # endif if (__glibc_unlikely (malloc_name)) free (name); if (p != NULL) { if (malloc_pwtmpbuf == NULL) home_dir = p->pw_dir; else { size_t home_dir_len = strlen (p->pw_dir) + 1; if (glob_use_alloca (alloca_used, home_dir_len)) home_dir = alloca_account (home_dir_len, alloca_used); else { home_dir = malloc (home_dir_len); if (home_dir == NULL) { free (pwtmpbuf); retval = GLOB_NOSPACE; goto out; } malloc_home_dir = 1; } memcpy (home_dir, p->pw_dir, home_dir_len); } } free (malloc_pwtmpbuf); } else { if (__glibc_unlikely (malloc_name)) free (name); } #endif /* WINDOWS32 */ } if (home_dir == NULL || home_dir[0] == '\0') { if (__glibc_unlikely (malloc_home_dir)) free (home_dir); if (flags & GLOB_TILDE_CHECK) { retval = GLOB_NOMATCH; goto out; } else { home_dir = (char *) "~"; /* No luck. */ malloc_home_dir = 0; } } /* Now construct the full directory. */ if (dirname[1] == '\0') { if (__glibc_unlikely (malloc_dirname)) free (dirname); dirname = home_dir; dirlen = strlen (dirname); malloc_dirname = malloc_home_dir; } else { char *newp; size_t home_len = strlen (home_dir); int use_alloca = glob_use_alloca (alloca_used, home_len + dirlen); if (use_alloca) newp = alloca_account (home_len + dirlen, alloca_used); else { newp = malloc (home_len + dirlen); if (newp == NULL) { if (__glibc_unlikely (malloc_home_dir)) free (home_dir); retval = GLOB_NOSPACE; goto out; } } mempcpy (mempcpy (newp, home_dir, home_len), &dirname[1], dirlen); if (__glibc_unlikely (malloc_dirname)) free (dirname); dirname = newp; dirlen += home_len - 1; malloc_dirname = !use_alloca; if (__glibc_unlikely (malloc_home_dir)) free (home_dir); } dirname_modified = 1; } else { #ifndef WINDOWS32 char *end_name = strchr (dirname, '/'); char *user_name; int malloc_user_name = 0; char *unescape = NULL; if (!(flags & GLOB_NOESCAPE)) { if (end_name == NULL) { unescape = strchr (dirname, '\\'); if (unescape) end_name = strchr (unescape, '\0'); } else unescape = memchr (dirname, '\\', end_name - dirname); } if (end_name == NULL) user_name = dirname + 1; else { char *newp; if (glob_use_alloca (alloca_used, end_name - dirname)) newp = alloca_account (end_name - dirname, alloca_used); else { newp = malloc (end_name - dirname); if (newp == NULL) { retval = GLOB_NOSPACE; goto out; } malloc_user_name = 1; } if (unescape != NULL) { char *p = mempcpy (newp, dirname + 1, unescape - dirname - 1); char *q = unescape; while (*q != '\0') { if (*q == '\\') { if (q[1] == '\0') { /* "~fo\\o\\" unescape to user_name "foo\\", but "~fo\\o\\/" unescape to user_name "foo". */ if (filename == NULL) *p++ = '\\'; break; } ++q; } *p++ = *q++; } *p = '\0'; } else *((char *) mempcpy (newp, dirname + 1, end_name - dirname)) = '\0'; user_name = newp; } /* Look up specific user's home directory. */ { struct passwd *p; char *malloc_pwtmpbuf = NULL; # if defined HAVE_GETPWNAM_R || defined _LIBC long int buflenmax = GETPW_R_SIZE_MAX (); size_t buflen = buflenmax; char *pwtmpbuf; struct passwd pwbuf; int save = errno; # ifndef _LIBC if (! (0 <= buflenmax && buflenmax <= SIZE_MAX)) /* Perhaps 'sysconf' does not support _SC_GETPW_R_SIZE_MAX. Try a moderate value. */ buflen = 1024; # endif if (glob_use_alloca (alloca_used, buflen)) pwtmpbuf = alloca_account (buflen, alloca_used); else { pwtmpbuf = malloc (buflen); if (pwtmpbuf == NULL) { nomem_getpw: if (__glibc_unlikely (malloc_user_name)) free (user_name); retval = GLOB_NOSPACE; goto out; } malloc_pwtmpbuf = pwtmpbuf; } while (getpwnam_r (user_name, &pwbuf, pwtmpbuf, buflen, &p) != 0) { size_t newlen; bool v; if (errno != ERANGE) { p = NULL; break; } v = size_add_wrapv (buflen, buflen, &newlen); if (!v && malloc_pwtmpbuf == NULL && glob_use_alloca (alloca_used, newlen)) pwtmpbuf = extend_alloca_account (pwtmpbuf, buflen, newlen, alloca_used); else { char *newp = v ? NULL : realloc (malloc_pwtmpbuf, newlen); if (newp == NULL) { free (malloc_pwtmpbuf); goto nomem_getpw; } malloc_pwtmpbuf = pwtmpbuf = newp; } __set_errno (save); } # else p = getpwnam (user_name); # endif if (__glibc_unlikely (malloc_user_name)) free (user_name); /* If we found a home directory use this. */ if (p != NULL) { size_t home_len = strlen (p->pw_dir); size_t rest_len = end_name == NULL ? 0 : strlen (end_name); if (__glibc_unlikely (malloc_dirname)) free (dirname); malloc_dirname = 0; if (glob_use_alloca (alloca_used, home_len + rest_len + 1)) dirname = alloca_account (home_len + rest_len + 1, alloca_used); else { dirname = malloc (home_len + rest_len + 1); if (dirname == NULL) { free (malloc_pwtmpbuf); retval = GLOB_NOSPACE; goto out; } malloc_dirname = 1; } *((char *) mempcpy (mempcpy (dirname, p->pw_dir, home_len), end_name, rest_len)) = '\0'; dirlen = home_len + rest_len; dirname_modified = 1; free (malloc_pwtmpbuf); } else { free (malloc_pwtmpbuf); if (flags & GLOB_TILDE_CHECK) { /* We have to regard it as an error if we cannot find the home directory. */ retval = GLOB_NOMATCH; goto out; } } } #endif /* !WINDOWS32 */ } } /* Now test whether we looked for "~" or "~NAME". In this case we can give the answer now. */ if (filename == NULL) { struct stat st; struct_stat64 st64; /* Return the directory if we don't check for error or if it exists. */ if ((flags & GLOB_NOCHECK) || (((__builtin_expect (flags & GLOB_ALTDIRFUNC, 0)) ? ((*pglob->gl_stat) (dirname, &st) == 0 && S_ISDIR (st.st_mode)) : (__stat64 (dirname, &st64) == 0 && S_ISDIR (st64.st_mode))))) { size_t newcount = pglob->gl_pathc + pglob->gl_offs; char **new_gl_pathv; if (newcount > SIZE_MAX / sizeof (char *) - 2) { nospace: free (pglob->gl_pathv); pglob->gl_pathv = NULL; pglob->gl_pathc = 0; retval = GLOB_NOSPACE; goto out; } new_gl_pathv = realloc (pglob->gl_pathv, (newcount + 2) * sizeof (char *)); if (new_gl_pathv == NULL) goto nospace; pglob->gl_pathv = new_gl_pathv; if (flags & GLOB_MARK) { char *p; pglob->gl_pathv[newcount] = malloc (dirlen + 2); if (pglob->gl_pathv[newcount] == NULL) goto nospace; p = mempcpy (pglob->gl_pathv[newcount], dirname, dirlen); p[0] = '/'; p[1] = '\0'; if (__glibc_unlikely (malloc_dirname)) free (dirname); } else { if (__glibc_unlikely (malloc_dirname)) pglob->gl_pathv[newcount] = dirname; else { pglob->gl_pathv[newcount] = strdup (dirname); if (pglob->gl_pathv[newcount] == NULL) goto nospace; } } pglob->gl_pathv[++newcount] = NULL; ++pglob->gl_pathc; pglob->gl_flags = flags; return 0; } /* Not found. */ retval = GLOB_NOMATCH; goto out; } meta = __glob_pattern_type (dirname, !(flags & GLOB_NOESCAPE)); /* meta is 1 if correct glob pattern containing metacharacters. If meta has bit (1 << 2) set, it means there was an unterminated [ which we handle the same, using fnmatch. Broken unterminated pattern bracket expressions ought to be rare enough that it is not worth special casing them, fnmatch will do the right thing. */ if (meta & 5) { /* The directory name contains metacharacters, so we have to glob for the directory, and then glob for the pattern in each directory found. */ size_t i; if (!(flags & GLOB_NOESCAPE) && dirlen > 0 && dirname[dirlen - 1] == '\\') { /* "foo\\/bar". Remove the final backslash from dirname if it has not been quoted. */ char *p = (char *) &dirname[dirlen - 1]; while (p > dirname && p[-1] == '\\') --p; if ((&dirname[dirlen] - p) & 1) *(char *) &dirname[--dirlen] = '\0'; } if (__glibc_unlikely ((flags & GLOB_ALTDIRFUNC) != 0)) { /* Use the alternative access functions also in the recursive call. */ dirs.gl_opendir = pglob->gl_opendir; dirs.gl_readdir = pglob->gl_readdir; dirs.gl_closedir = pglob->gl_closedir; dirs.gl_stat = pglob->gl_stat; dirs.gl_lstat = pglob->gl_lstat; } status = glob (dirname, ((flags & (GLOB_ERR | GLOB_NOESCAPE | GLOB_ALTDIRFUNC)) | GLOB_NOSORT | GLOB_ONLYDIR), errfunc, &dirs); if (status != 0) { if ((flags & GLOB_NOCHECK) == 0 || status != GLOB_NOMATCH) { retval = status; goto out; } goto no_matches; } /* We have successfully globbed the preceding directory name. For each name we found, call glob_in_dir on it and FILENAME, appending the results to PGLOB. */ for (i = 0; i < dirs.gl_pathc; ++i) { size_t old_pathc; old_pathc = pglob->gl_pathc; status = glob_in_dir (filename, dirs.gl_pathv[i], ((flags | GLOB_APPEND) & ~(GLOB_NOCHECK | GLOB_NOMAGIC)), errfunc, pglob, alloca_used); if (status == GLOB_NOMATCH) /* No matches in this directory. Try the next. */ continue; if (status != 0) { globfree (&dirs); globfree (pglob); pglob->gl_pathc = 0; retval = status; goto out; } /* Stick the directory on the front of each name. */ if (prefix_array (dirs.gl_pathv[i], &pglob->gl_pathv[old_pathc + pglob->gl_offs], pglob->gl_pathc - old_pathc)) { globfree (&dirs); globfree (pglob); pglob->gl_pathc = 0; retval = GLOB_NOSPACE; goto out; } } flags |= GLOB_MAGCHAR; /* We have ignored the GLOB_NOCHECK flag in the 'glob_in_dir' calls. But if we have not found any matching entry and the GLOB_NOCHECK flag was set we must return the input pattern itself. */ if (pglob->gl_pathc + pglob->gl_offs == oldcount) { no_matches: /* No matches. */ if (flags & GLOB_NOCHECK) { size_t newcount = pglob->gl_pathc + pglob->gl_offs; char **new_gl_pathv; if (newcount > SIZE_MAX / sizeof (char *) - 2) { nospace2: globfree (&dirs); retval = GLOB_NOSPACE; goto out; } new_gl_pathv = realloc (pglob->gl_pathv, (newcount + 2) * sizeof (char *)); if (new_gl_pathv == NULL) goto nospace2; pglob->gl_pathv = new_gl_pathv; pglob->gl_pathv[newcount] = strdup (pattern); if (pglob->gl_pathv[newcount] == NULL) { globfree (&dirs); globfree (pglob); pglob->gl_pathc = 0; retval = GLOB_NOSPACE; goto out; } ++pglob->gl_pathc; ++newcount; pglob->gl_pathv[newcount] = NULL; pglob->gl_flags = flags; } else { globfree (&dirs); retval = GLOB_NOMATCH; goto out; } } globfree (&dirs); } else { size_t old_pathc = pglob->gl_pathc; int orig_flags = flags; if (meta & 2) { char *p = strchr (dirname, '\\'), *q; /* We need to unescape the dirname string. It is certainly allocated by alloca, as otherwise filename would be NULL or dirname wouldn't contain backslashes. */ q = p; do { if (*p == '\\') { *q = *++p; --dirlen; } else *q = *p; ++q; } while (*p++ != '\0'); dirname_modified = 1; } if (dirname_modified) flags &= ~(GLOB_NOCHECK | GLOB_NOMAGIC); status = glob_in_dir (filename, dirname, flags, errfunc, pglob, alloca_used); if (status != 0) { if (status == GLOB_NOMATCH && flags != orig_flags && pglob->gl_pathc + pglob->gl_offs == oldcount) { /* Make sure globfree (&dirs); is a nop. */ dirs.gl_pathv = NULL; flags = orig_flags; goto no_matches; } retval = status; goto out; } if (dirlen > 0) { /* Stick the directory on the front of each name. */ if (prefix_array (dirname, &pglob->gl_pathv[old_pathc + pglob->gl_offs], pglob->gl_pathc - old_pathc)) { globfree (pglob); pglob->gl_pathc = 0; retval = GLOB_NOSPACE; goto out; } } } if (flags & GLOB_MARK) { /* Append slashes to directory names. */ size_t i; struct stat st; struct_stat64 st64; for (i = oldcount; i < pglob->gl_pathc + pglob->gl_offs; ++i) if ((__builtin_expect (flags & GLOB_ALTDIRFUNC, 0) ? ((*pglob->gl_stat) (pglob->gl_pathv[i], &st) == 0 && S_ISDIR (st.st_mode)) : (__stat64 (pglob->gl_pathv[i], &st64) == 0 && S_ISDIR (st64.st_mode)))) { size_t len = strlen (pglob->gl_pathv[i]) + 2; char *new = realloc (pglob->gl_pathv[i], len); if (new == NULL) { globfree (pglob); pglob->gl_pathc = 0; retval = GLOB_NOSPACE; goto out; } strcpy (&new[len - 2], "/"); pglob->gl_pathv[i] = new; } } if (!(flags & GLOB_NOSORT)) { /* Sort the vector. */ qsort (&pglob->gl_pathv[oldcount], pglob->gl_pathc + pglob->gl_offs - oldcount, sizeof (char *), collated_compare); } out: if (__glibc_unlikely (malloc_dirname)) free (dirname); return retval; } #if defined _LIBC && !defined glob libc_hidden_def (glob) #endif /* Do a collated comparison of A and B. */ static int collated_compare (const void *a, const void *b) { char *const *ps1 = a; char *s1 = *ps1; char *const *ps2 = b; char *s2 = *ps2; if (s1 == s2) return 0; if (s1 == NULL) return 1; if (s2 == NULL) return -1; return strcoll (s1, s2); } /* Prepend DIRNAME to each of N members of ARRAY, replacing ARRAY's elements in place. Return nonzero if out of memory, zero if successful. A slash is inserted between DIRNAME and each elt of ARRAY, unless DIRNAME is just "/". Each old element of ARRAY is freed. */ static int prefix_array (const char *dirname, char **array, size_t n) { size_t i; size_t dirlen = strlen (dirname); char dirsep_char = '/'; if (dirlen == 1 && dirname[0] == '/') /* DIRNAME is just "/", so normal prepending would get us "//foo". We want "/foo" instead, so don't prepend any chars from DIRNAME. */ dirlen = 0; #if defined __MSDOS__ || defined WINDOWS32 if (dirlen > 1) { if (dirname[dirlen - 1] == '/' && dirname[dirlen - 2] == ':') /* DIRNAME is "d:/". Don't prepend the slash from DIRNAME. */ --dirlen; else if (dirname[dirlen - 1] == ':') { /* DIRNAME is "d:". Use ':' instead of '/'. */ --dirlen; dirsep_char = ':'; } } #endif for (i = 0; i < n; ++i) { size_t eltlen = strlen (array[i]) + 1; char *new = malloc (dirlen + 1 + eltlen); if (new == NULL) { while (i > 0) free (array[--i]); return 1; } { char *endp = mempcpy (new, dirname, dirlen); *endp++ = dirsep_char; mempcpy (endp, array[i], eltlen); } free (array[i]); array[i] = new; } return 0; } /* We put this in a separate function mainly to allow the memory allocated with alloca to be recycled. */ static int __attribute_noinline__ link_stat (const char *dir, size_t dirlen, const char *fname, glob_t *pglob # if !defined _LIBC && !HAVE_FSTATAT , int flags # endif ) { size_t fnamelen = strlen (fname); char *fullname = __alloca (dirlen + 1 + fnamelen + 1); struct stat st; mempcpy (mempcpy (mempcpy (fullname, dir, dirlen), "/", 1), fname, fnamelen + 1); # if !defined _LIBC && !HAVE_FSTATAT if (__builtin_expect ((flags & GLOB_ALTDIRFUNC) == 0, 1)) { struct_stat64 st64; return __stat64 (fullname, &st64); } # endif return (*pglob->gl_stat) (fullname, &st); } /* Return true if DIR/FNAME exists. */ static int link_exists_p (int dfd, const char *dir, size_t dirlen, const char *fname, glob_t *pglob, int flags) { int status; # if defined _LIBC || HAVE_FSTATAT if (__builtin_expect (flags & GLOB_ALTDIRFUNC, 0)) status = link_stat (dir, dirlen, fname, pglob); else { /* dfd cannot be -1 here, because dirfd never returns -1 on glibc, or on hosts that have fstatat. */ struct_stat64 st64; status = __fxstatat64 (_STAT_VER, dfd, fname, &st64, 0); } # else status = link_stat (dir, dirlen, fname, pglob, flags); # endif return status == 0 || errno == EOVERFLOW; } /* Like 'glob', but PATTERN is a final pathname component, and matches are searched for in DIRECTORY. The GLOB_NOSORT bit in FLAGS is ignored. No sorting is ever done. The GLOB_APPEND flag is assumed to be set (always appends). */ static int glob_in_dir (const char *pattern, const char *directory, int flags, int (*errfunc) (const char *, int), glob_t *pglob, size_t alloca_used) { size_t dirlen = strlen (directory); void *stream = NULL; # define GLOBNAMES_MEMBERS(nnames) \ struct globnames *next; size_t count; char *name[nnames]; struct globnames { GLOBNAMES_MEMBERS (FLEXIBLE_ARRAY_MEMBER) }; struct { GLOBNAMES_MEMBERS (64) } init_names_buf; struct globnames *init_names = (struct globnames *) &init_names_buf; struct globnames *names = init_names; struct globnames *names_alloca = init_names; size_t nfound = 0; size_t cur = 0; int meta; int save; int result; alloca_used += sizeof init_names_buf; init_names->next = NULL; init_names->count = ((sizeof init_names_buf - offsetof (struct globnames, name)) / sizeof init_names->name[0]); meta = __glob_pattern_type (pattern, !(flags & GLOB_NOESCAPE)); if (meta == 0 && (flags & (GLOB_NOCHECK|GLOB_NOMAGIC))) { /* We need not do any tests. The PATTERN contains no meta characters and we must not return an error therefore the result will always contain exactly one name. */ flags |= GLOB_NOCHECK; } else if (meta == 0) { /* Since we use the normal file functions we can also use stat() to verify the file is there. */ union { struct stat st; struct_stat64 st64; } ust; size_t patlen = strlen (pattern); size_t fullsize; bool alloca_fullname = (! size_add_wrapv (dirlen + 1, patlen + 1, &fullsize) && glob_use_alloca (alloca_used, fullsize)); char *fullname; if (alloca_fullname) fullname = alloca_account (fullsize, alloca_used); else { fullname = malloc (fullsize); if (fullname == NULL) return GLOB_NOSPACE; } mempcpy (mempcpy (mempcpy (fullname, directory, dirlen), "/", 1), pattern, patlen + 1); if (((__builtin_expect (flags & GLOB_ALTDIRFUNC, 0) ? (*pglob->gl_stat) (fullname, &ust.st) : __stat64 (fullname, &ust.st64)) == 0) || errno == EOVERFLOW) /* We found this file to be existing. Now tell the rest of the function to copy this name into the result. */ flags |= GLOB_NOCHECK; if (__glibc_unlikely (!alloca_fullname)) free (fullname); } else { stream = (__builtin_expect (flags & GLOB_ALTDIRFUNC, 0) ? (*pglob->gl_opendir) (directory) : opendir (directory)); if (stream == NULL) { if (errno != ENOTDIR && ((errfunc != NULL && (*errfunc) (directory, errno)) || (flags & GLOB_ERR))) return GLOB_ABORTED; } else { int dfd = (__builtin_expect (flags & GLOB_ALTDIRFUNC, 0) ? -1 : dirfd ((DIR *) stream)); int fnm_flags = ((!(flags & GLOB_PERIOD) ? FNM_PERIOD : 0) | ((flags & GLOB_NOESCAPE) ? FNM_NOESCAPE : 0)); flags |= GLOB_MAGCHAR; while (1) { struct readdir_result d; { if (__builtin_expect (flags & GLOB_ALTDIRFUNC, 0)) d = convert_dirent (GL_READDIR (pglob, stream)); else { #ifdef COMPILE_GLOB64 d = convert_dirent (__readdir (stream)); #else d = convert_dirent64 (__readdir64 (stream)); #endif } } if (d.name == NULL) break; if (readdir_result_skip_entry (d)) continue; /* If we shall match only directories use the information provided by the dirent call if possible. */ if (flags & GLOB_ONLYDIR) switch (readdir_result_type (d)) { case DT_DIR: case DT_LNK: case DT_UNKNOWN: break; default: continue; } if (fnmatch (pattern, d.name, fnm_flags) == 0) { /* If the file we found is a symlink we have to make sure the target file exists. */ dirent_type type = readdir_result_type (d); if (! (type == DT_LNK || type == DT_UNKNOWN) || link_exists_p (dfd, directory, dirlen, d.name, pglob, flags)) { if (cur == names->count) { struct globnames *newnames; size_t count = names->count * 2; size_t nameoff = offsetof (struct globnames, name); size_t size = FLEXSIZEOF (struct globnames, name, count * sizeof (char *)); if ((SIZE_MAX - nameoff) / 2 / sizeof (char *) < names->count) goto memory_error; if (glob_use_alloca (alloca_used, size)) newnames = names_alloca = alloca_account (size, alloca_used); else if ((newnames = malloc (size)) == NULL) goto memory_error; newnames->count = count; newnames->next = names; names = newnames; cur = 0; } names->name[cur] = strdup (d.name); if (names->name[cur] == NULL) goto memory_error; ++cur; ++nfound; if (SIZE_MAX - pglob->gl_offs <= nfound) goto memory_error; } } } } } if (nfound == 0 && (flags & GLOB_NOCHECK)) { size_t len = strlen (pattern); nfound = 1; names->name[cur] = malloc (len + 1); if (names->name[cur] == NULL) goto memory_error; *((char *) mempcpy (names->name[cur++], pattern, len)) = '\0'; } result = GLOB_NOMATCH; if (nfound != 0) { char **new_gl_pathv; result = 0; if (SIZE_MAX / sizeof (char *) - pglob->gl_pathc < pglob->gl_offs + nfound + 1) goto memory_error; new_gl_pathv = realloc (pglob->gl_pathv, (pglob->gl_pathc + pglob->gl_offs + nfound + 1) * sizeof (char *)); if (new_gl_pathv == NULL) { memory_error: while (1) { struct globnames *old = names; for (size_t i = 0; i < cur; ++i) free (names->name[i]); names = names->next; /* NB: we will not leak memory here if we exit without freeing the current block assigned to OLD. At least the very first block is always allocated on the stack and this is the block assigned to OLD here. */ if (names == NULL) { assert (old == init_names); break; } cur = names->count; if (old == names_alloca) names_alloca = names; else free (old); } result = GLOB_NOSPACE; } else { while (1) { struct globnames *old = names; for (size_t i = 0; i < cur; ++i) new_gl_pathv[pglob->gl_offs + pglob->gl_pathc++] = names->name[i]; names = names->next; /* NB: we will not leak memory here if we exit without freeing the current block assigned to OLD. At least the very first block is always allocated on the stack and this is the block assigned to OLD here. */ if (names == NULL) { assert (old == init_names); break; } cur = names->count; if (old == names_alloca) names_alloca = names; else free (old); } pglob->gl_pathv = new_gl_pathv; pglob->gl_pathv[pglob->gl_offs + pglob->gl_pathc] = NULL; pglob->gl_flags = flags; } } if (stream != NULL) { save = errno; if (__glibc_unlikely (flags & GLOB_ALTDIRFUNC)) (*pglob->gl_closedir) (stream); else closedir (stream); __set_errno (save); } return result; }