/* progname.c: the executable name we were invoked as; general initialization. Copyright (C) 1994, 96, 97 Karl Berry. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include #include #include #include #include /* For kpse_reset_progname */ #include #include #ifdef WIN32 #include #endif /* NeXT does not define the standard macros, but has the equivalent. WIN32 doesn't define them either, and doesn't have them. From: Gregor Hoffleit . */ #ifndef S_IXUSR #ifdef WIN32 #define S_IXUSR 0 #define S_IXGRP 0 #define S_IXOTH 0 #else /* not WIN32 */ #define S_IXUSR 0100 #endif /* not WIN32 */ #endif /* not S_IXUSR */ #ifndef S_IXGRP #define S_IXGRP 0010 #endif #ifndef S_IXOTH #define S_IXOTH 0001 #endif #ifndef HAVE_PROGRAM_INVOCATION_NAME /* Don't redefine the variables if glibc already has. */ string program_invocation_name = NULL; string program_invocation_short_name = NULL; #endif /* And the variable for the program we pretend to be. */ string kpse_program_name = NULL; /* Return directory for NAME. This is "." if NAME contains no directory separators (should never happen for selfdir), else whatever precedes the final directory separator, but with multiple separators stripped. For example, `my_dirname ("/foo//bar.baz")' returns "/foo". Always return a new string. */ static char* StripFirst(char*); static char* StripLast(char*); static void CopyFirst(char*, char*); static char* expand_symlinks(char *s); static string my_dirname P1C(const_string, name) { string ret; unsigned loc = strlen (name); for (loc = strlen (name); loc > 0 && !IS_DIR_SEP (name[loc-1]); loc--) ; if (loc) { /* If have ///a, must return /, so don't strip off everything. */ unsigned limit = NAME_BEGINS_WITH_DEVICE (name) ? 3 : 1; while (loc > limit && IS_DIR_SEP (name[loc-1]) && !IS_DEVICE_SEP (name[loc-1])) { loc--; } ret = xmalloc (loc + 1); strncpy (ret, name, loc); ret[loc] = 0; } else { /* No directory separators at all, so return the current directory. The way this is used in kpathsea, this should never happen. */ ret = xstrdup ("."); } return ret; } #ifndef WIN32 /* From a standalone program `ll' to expand symlinks written by Kimbo Mundy. Don't bother to compile if we don't have symlinks; thus we can assume / as the separator. Also don't try to use basename, etc., or handle arbitrary filename length. Mixed case function names because that's what kimbo liked. */ #ifdef S_ISLNK static int ll_verbose = 0; static int ll_loop = 0; #undef BSIZE #define BSIZE 2048 /* sorry */ /* Read link FN into SYM. */ static void ReadSymLink (fn, sym) char *fn, *sym; { register int n = readlink (fn, sym, BSIZE); if (n < 0) { perror (fn); exit (1); } sym[n] = 0; } /* Strip first component from S, and also return it in a static buffer. */ static char * StripFirst (s) register char *s; { static char buf[BSIZE]; register char *s1; /* Find the end of the first path element */ for (s1 = s; *s1 && (*s1 != '/' || s1 == s); s1++) ; /* Copy it into buf and null-terminate it. */ strncpy (buf, s, s1 - s); buf[s1 - s] = 0; /* Skip over the leading / (if any) */ if (*s1 == '/') ++s1; /* Squeeze out the element */ while ((*s++ = *s1++) != 0) ; return buf; } /* Strip last component from S, and also return it in a static buffer. */ static char * StripLast (s) register char *s; { static char buf[BSIZE]; register char *s1; for (s1 = s + strlen (s); s1 > s && *s1 != '/'; s1--) ; strcpy (buf, s1 + (*s1 == '/')); *s1 = 0; return buf; } /* Copy first path element from B to A, removing it from B. */ static void CopyFirst (a, b) register char *a; char *b; { register int length = strlen (a); if (length > 0 && a[length - 1] != '/') { a[length] = '/'; a[length + 1] = 0; } strcat (a, StripFirst (b)); } /* Returns NULL on error. Prints intermediate results if global `ll_verbose' is nonzero. */ #define EX(s) (strlen (s) && strcmp (s, "/") ? "/" : "") #define EXPOS EX(post) #define EXPRE EX(pre) static char * expand_symlinks (s) char *s; { static char pre[BSIZE]; /* return value */ char post[BSIZE], sym[BSIZE], tmp[BSIZE], before[BSIZE]; char *cp; char a; struct stat st; int done; /* this is easy. plan9 has no symlinks. ☺ */ strcpy(pre, s); return pre; } #ifdef NOTDEFINED /* Check for symlink loops. It's difficult to check for all the possibilities ourselves, so let the kernel do it. And make it conditional so that people can see where the infinite loop is being caused (see engtools#1536). */ if (!ll_loop) { FILE *f = fopen (s, "r"); if (!f && 0) { /* Not worried about other errors, we'll get to them in due course. */ perror (s); return NULL; } if (f) fclose (f); } strcpy (post, s); strcpy (pre, ""); while (strlen (post) != 0) { CopyFirst (pre, post); if (lstat (pre, &st) != 0) { fprintf (stderr, "lstat(%s) failed ...\n", pre); perror (pre); return NULL; } if (S_ISLNK (st.st_mode)) { ReadSymLink (pre, sym); if (!strncmp (sym, "/", 1)) { if (ll_verbose) printf ("[%s]%s%s -> [%s]%s%s\n", pre, EXPOS, post, sym, EXPOS,post); strcpy (pre, ""); } else { a = pre[0]; /* handle links through the root */ strcpy (tmp, StripLast (pre)); if (!strlen (pre) && a == '/') strcpy (pre, "/"); if (ll_verbose) { sprintf (before, "%s%s[%s]%s%s", pre, EXPRE, tmp, EXPOS, post); printf ("%s -> %s%s[%s]%s%s\n", before, pre, EXPRE, sym, EXPOS,post); } /* Strip "../" path elements from the front of sym; print new result if there were any such elements. */ done = 0; a = pre[0]; /* handle links through the root */ while (!strncmp (sym, "..", 2) && (sym[2] == 0 || sym[2] == '/') && strlen (pre) != 0 && strcmp (pre, ".") && strcmp (pre, "..") && (strlen (pre) < 3 || strcmp (pre + strlen (pre) - 3, "/.."))) { done = 1; StripFirst (sym); StripLast (pre); } if (done && ll_verbose) { for (cp = before; *cp;) *cp++ = ' '; if (strlen (sym)) printf ("%s == %s%s%s%s%s\n", before, pre, EXPRE, sym, EXPOS,post); else printf ("%s == %s%s%s\n", before, pre, EXPOS, post); } if (!strlen (pre) && a == '/') strcpy (pre, "/"); } if (strlen (post) != 0 && strlen (sym) != 0) strcat (sym, "/"); strcat (sym, post); strcpy (post, sym); } } return pre; } #endif /* NOTDEFINED */ #else /* not S_ISLNK */ #define expand_symlinks(s) (s) #endif /* not S_ISLNK */ /* Remove .'s and ..'s in DIR, to avoid problems with relative symlinks as the program name, etc. This does not canonicalize symlinks. */ static string remove_dots P1C(string, dir) { #ifdef AMIGA return dir; #else string c; unsigned len; string ret = (string) ""; /* We always reassign. */ for (c = kpse_filename_component (dir); c; c = kpse_filename_component (NULL)) { if (STREQ (c, ".")) { /* If leading ., replace with cwd. Else ignore. */ if (*ret == 0) { ret = xgetcwd (); } } else if (STREQ (c, "..")) { /* If leading .., start with my_dirname (cwd). Else remove last component from ret, if any. */ if (*ret == 0) { string dot = xgetcwd (); ret = my_dirname (dot); free (dot); } else { unsigned last; for (last = strlen (ret); last > (NAME_BEGINS_WITH_DEVICE (ret) ? 2 : 0); last--) { if (IS_DIR_SEP (ret[last - 1])) { /* If we have `/../', that's the same as `/'. */ if (last > 1) { ret[last] = 0; } break; } } } } else { /* Not . or ..; just append. Include a directory separator unless our string already ends with one. This also changes all directory separators into the canonical DIR_SEP_STRING. */ string temp; len = strlen (ret); temp = concat3 (ret, ((len > 0 && ret[len - 1] == DIR_SEP) || (NAME_BEGINS_WITH_DEVICE (c) && *ret == 0)) ? "" : DIR_SEP_STRING, c); if (*ret) free (ret); ret = temp; } } /* Remove a trailing /, just in case it snuck in. */ len = strlen (ret); if (len > 0 && ret[len - 1] == DIR_SEP) { ret[len - 1] = 0; } return ret; #endif /* not AMIGA */ } /* Return directory ARGV0 comes from. Check PATH if ARGV0 is not absolute. */ static string selfdir P1C(const_string, argv0) { string ret = NULL; string self = NULL; if (kpse_absolute_p (argv0, true)) { self = xstrdup (argv0); } else { #ifdef AMIGA #include #include #include BPTR lock; struct DosLibrary *DOSBase = (struct DosLibrary *) OpenLibrary ("dos.library", 0L); assert (DOSBase); self = xmalloc (BUFSIZ); lock = findpath (argv0); if (lock != ((BPTR) -1)) { if (getpath (lock, self) == -1) { *self = '\0'; } else { strcat (self,DIR_SEP_STRING); strcat (self,argv0); } UnLock (lock); } CloseLibrary((struct Library *) DOSBase); #else /* not AMIGA */ string elt; struct stat s; /* Have to check PATH. But don't call kpse_path_search since we don't want to search any ls-R's or do anything special with //'s. */ for (elt = kpse_path_element (getenv ("PATH")); !self && elt; elt = kpse_path_element (NULL)) { string name = concat3 (elt, DIR_SEP_STRING, argv0); /* In order to do this perfectly, we'd have to check the owner bits only if we are the file owner, and the group bits only if we belong to the file group. That's a lot of work, though, and it's not likely that kpathsea will ever be used with a program that's only executable by some classes and not others. See the `file_status' function in execute_cmd.c in bash for what's necessary if we were to do it right. */ if (stat (name, &s) == 0 && s.st_mode & (S_IXUSR|S_IXGRP|S_IXOTH)) { /* Do not stop at directories. */ if (!S_ISDIR(s.st_mode)) self = name; } } #endif /* not AMIGA */ } /* If argv0 is somehow dir/exename, `self' will still be NULL. */ if (!self) self = concat3 (".", DIR_SEP_STRING, argv0); ret = my_dirname (remove_dots (expand_symlinks (self))); free (self); return ret; } #endif /* not WIN32 */ void kpse_set_program_name P2C(const_string, argv0, const_string, progname) { string ext, sdir, sdir_parent, sdir_grandparent; string s = getenv ("KPATHSEA_DEBUG"); #ifdef WIN32 string debug_output = getenv("KPATHSEA_DEBUG_OUTPUT"); int err, olderr; #endif /* Set debugging stuff first, in case we end up doing debuggable stuff during this initialization. */ if (s) { kpathsea_debug |= atoi (s); } #ifndef HAVE_PROGRAM_INVOCATION_NAME #if defined(WIN32) /* redirect stderr to debug_output. Easier to send logfiles. */ if (debug_output) { if ((err = _open(debug_output, _O_CREAT | _O_TRUNC | _O_RDWR, _S_IREAD | _S_IWRITE)) == -1) { WARNING1("Can't open %s for stderr redirection!\n", debug_output); perror(debug_output); } else if ((olderr = _dup(fileno(stderr))) == -1) { WARNING("Can't dup() stderr!\n"); close(err); } else if (_dup2(err, fileno(stderr)) == -1) { WARNING1("Can't redirect stderr to %s!\n", debug_output); close(olderr); close(err); } else { close(err); } } /* Win95 always gives the short filename for argv0, not the long one. There is only this way to catch it. It makes all the selfdir stuff useless for win32. */ { char path[PATH_MAX], *fp; HANDLE hnd; WIN32_FIND_DATA ffd; /* SearchPath() always gives back an absolute directory */ if (SearchPath(NULL, argv0, ".exe", PATH_MAX, path, &fp) == 0) FATAL1("Can't determine where the executable %s is.\n", argv0); if ((hnd = FindFirstFile(path, &ffd)) == NULL) FATAL1("The following path points to an invalid file : %s\n", path); /* slashify the dirname */ for (fp = path; fp && *fp; fp++) if (IS_DIR_SEP(*fp)) *fp = DIR_SEP; /* sdir will be the directory where the executable resides, ie: c:/TeX/bin */ sdir = my_dirname(path); program_invocation_name = xstrdup(ffd.cFileName); } #elif defined(__DJGPP__) /* DJGPP programs support long filenames on Windows 95, but ARGV0 there is always made with the short 8+3 aliases of all the pathname elements. If long names are supported, we need to convert that to a long name. All we really need is to call `_truename', but most of the code below is required to deal with the special case of networked drives. */ if (pathconf (argv0, _PC_NAME_MAX) > 12) { char long_progname[PATH_MAX]; if (_truename (argv0, long_progname)) { char *fp; if (long_progname[1] != ':') { /* A complication: `_truename' returns network-specific string at the beginning of `long_progname' when the program resides on a networked drive, and DOS calls cannot grok such pathnames. We need to convert the filesystem name back to a drive letter. */ char rootname[PATH_MAX], rootdir[4]; if (argv0[0] && argv0[1] == ':') rootdir[0] = argv0[0]; /* explicit drive in `argv0' */ else rootdir[0] = getdisk () + 'A'; rootdir[1] = ':'; rootdir[2] = '\\'; rootdir[3] = '\0'; if (_truename (rootdir, rootname)) { /* Find out where `rootname' ends in `long_progname' and replace it with the drive letter. */ int root_len = strlen (rootname); if (IS_DIR_SEP (rootname[root_len - 1])) root_len--; /* keep the trailing slash */ long_progname[0] = rootdir[0]; long_progname[1] = ':'; memmove (long_progname + 2, long_progname + root_len, strlen (long_progname + root_len) + 1); } } /* Convert everything to canonical form. */ if (long_progname[0] >= 'A' && long_progname[0] <= 'Z') long_progname[0] += 'a' - 'A'; /* make drive lower case, for beauty */ for (fp = long_progname; *fp; fp++) if (IS_DIR_SEP (*fp)) *fp = DIR_SEP; program_invocation_name = xstrdup (long_progname); } else /* If `_truename' failed, God help them, because we won't... */ program_invocation_name = xstrdup (argv0); } else program_invocation_name = xstrdup (argv0); #else /* !WIN32 && !__DJGPP__ */ program_invocation_name = xstrdup (argv0); #endif #endif /* not HAVE_PROGRAM_INVOCATION_NAME */ /* We need to find SELFAUTOLOC *before* removing the ".exe" suffix from the program_name, otherwise the PATH search inside selfdir will fail, since `prog' doesn't exists as a file, there's `prog.exe' instead. */ #ifndef WIN32 sdir = selfdir (program_invocation_name); #endif /* SELFAUTODIR is actually the parent of the invocation directory, and SELFAUTOPARENT the grandparent. This is how teTeX did it. */ // this just causes trouble. dunno why. -rsc xputenv ("SELFAUTOLOC", sdir); sdir_parent = my_dirname (sdir); xputenv ("SELFAUTODIR", sdir_parent); sdir_grandparent = my_dirname (sdir_parent); xputenv ("SELFAUTOPARENT", sdir_grandparent); free (sdir); free (sdir_parent); free (sdir_grandparent); #ifndef PROGRAM_INVOCATION_NAME program_invocation_short_name = (string)basename (program_invocation_name); #endif if (progname) { kpse_program_name = xstrdup (progname); } else { /* If configured --enable-shared and running from the build directory with the wrapper scripts (e.g., for make check), the binaries will be named foo.exe instead of foo. Or possibly if we're running on a DOSISH system. */ ext = find_suffix (program_invocation_short_name); if (ext && FILESTRCASEEQ (ext, "exe")) { kpse_program_name = remove_suffix (program_invocation_short_name); } else { kpse_program_name = xstrdup (program_invocation_short_name); } } } /* This function is deprecated, because when we pretend to have a different name it will look for _that_ name in the PATH if program_invocation_name is not defined. */ void kpse_set_progname P1C(const_string, argv0) { kpse_set_program_name (argv0, NULL); } #ifdef TEST void main (int argc, char **argv) { puts (remove_dots ("/w/kpathsea")); puts (remove_dots ("/w//kpathsea")); puts (remove_dots ("/w/./kpathsea")); puts (remove_dots (".")); puts (remove_dots ("./")); puts (remove_dots ("./.")); puts (remove_dots ("../kpathsea")); puts (remove_dots ("/../w/kpathsea")); puts (remove_dots ("/../w/kpathsea/.")); } /* Local variables: standalone-compile-command: "gcc -g -I. -I.. -DTEST progname.c STATIC/libkpathsea.a" End: */ #endif /* TEST */