/* Implementation of pattern-matching file search paths for GNU Make. Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc. This file is part of GNU Make. GNU Make 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 2, or (at your option) any later version. GNU Make 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 GNU Make; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "make.h" #include "filedef.h" #include "variable.h" #ifdef WINDOWS32 #include "pathstuff.h" #endif /* Structure used to represent a selective VPATH searchpath. */ struct vpath { struct vpath *next; /* Pointer to next struct in the linked list. */ const char *pattern;/* The pattern to match. */ const char *percent;/* Pointer into `pattern' where the `%' is. */ unsigned int patlen;/* Length of the pattern. */ const char **searchpath; /* Null-terminated list of directories. */ unsigned int maxlen;/* Maximum length of any entry in the list. */ }; /* Linked-list of all selective VPATHs. */ static struct vpath *vpaths; /* Structure for the general VPATH given in the variable. */ static struct vpath *general_vpath; /* Structure for GPATH given in the variable. */ static struct vpath *gpaths; /* Reverse the chain of selective VPATH lists so they will be searched in the order given in the makefiles and construct the list from the VPATH variable. */ void build_vpath_lists () { register struct vpath *new = 0; register struct vpath *old, *nexto; register char *p; #ifdef CONFIG_WITH_OPTIMIZATION_HACKS char expr[64]; #endif /* Reverse the chain. */ for (old = vpaths; old != 0; old = nexto) { nexto = old->next; old->next = new; new = old; } vpaths = new; /* If there is a VPATH variable with a nonnull value, construct the general VPATH list from it. We use variable_expand rather than just calling lookup_variable so that it will be recursively expanded. */ { /* Turn off --warn-undefined-variables while we expand SHELL and IFS. */ int save = warn_undefined_variables_flag; warn_undefined_variables_flag = 0; #ifdef CONFIG_WITH_OPTIMIZATION_HACKS p = variable_expand (strcpy (expr, "$(strip $(VPATH))")); #else p = variable_expand ("$(strip $(VPATH))"); #endif warn_undefined_variables_flag = save; } if (*p != '\0') { /* Save the list of vpaths. */ struct vpath *save_vpaths = vpaths; char gp[] = "%"; /* Empty `vpaths' so the new one will have no next, and `vpaths' will still be nil if P contains no existing directories. */ vpaths = 0; /* Parse P. */ construct_vpath_list (gp, p); /* Store the created path as the general path, and restore the old list of vpaths. */ general_vpath = vpaths; vpaths = save_vpaths; } /* If there is a GPATH variable with a nonnull value, construct the GPATH list from it. We use variable_expand rather than just calling lookup_variable so that it will be recursively expanded. */ { /* Turn off --warn-undefined-variables while we expand SHELL and IFS. */ int save = warn_undefined_variables_flag; warn_undefined_variables_flag = 0; #ifdef CONFIG_WITH_OPTIMIZATION_HACKS p = variable_expand (strcpy (expr, "$(strip $(GPATH))")); #else p = variable_expand ("$(strip $(GPATH))"); #endif warn_undefined_variables_flag = save; } if (*p != '\0') { /* Save the list of vpaths. */ struct vpath *save_vpaths = vpaths; char gp[] = "%"; /* Empty `vpaths' so the new one will have no next, and `vpaths' will still be nil if P contains no existing directories. */ vpaths = 0; /* Parse P. */ construct_vpath_list (gp, p); /* Store the created path as the GPATH, and restore the old list of vpaths. */ gpaths = vpaths; vpaths = save_vpaths; } } /* Construct the VPATH listing for the pattern and searchpath given. This function is called to generate selective VPATH lists and also for the general VPATH list (which is in fact just a selective VPATH that is applied to everything). The returned pointer is either put in the linked list of all selective VPATH lists or in the GENERAL_VPATH variable. If SEARCHPATH is nil, remove all previous listings with the same pattern. If PATTERN is nil, remove all VPATH listings. Existing and readable directories that are not "." given in the searchpath separated by the path element separator (defined in make.h) are loaded into the directory hash table if they are not there already and put in the VPATH searchpath for the given pattern with trailing slashes stripped off if present (and if the directory is not the root, "/"). The length of the longest entry in the list is put in the structure as well. The new entry will be at the head of the VPATHS chain. */ void construct_vpath_list (char *pattern, char *dirpath) { unsigned int elem; char *p; const char **vpath; unsigned int maxvpath; unsigned int maxelem; const char *percent = NULL; if (pattern != 0) percent = find_percent (pattern); if (dirpath == 0) { /* Remove matching listings. */ struct vpath *path, *lastpath; lastpath = 0; path = vpaths; while (path != 0) { struct vpath *next = path->next; if (pattern == 0 || (((percent == 0 && path->percent == 0) || (percent - pattern == path->percent - path->pattern)) && streq (pattern, path->pattern))) { /* Remove it from the linked list. */ if (lastpath == 0) vpaths = path->next; else lastpath->next = next; /* Free its unused storage. */ free (path->searchpath); free (path); } else lastpath = path; path = next; } return; } #ifdef WINDOWS32 convert_vpath_to_windows32(dirpath, ';'); #endif /* Skip over any initial separators and blanks. */ while (*dirpath == PATH_SEPARATOR_CHAR || isblank ((unsigned char)*dirpath)) ++dirpath; /* Figure out the maximum number of VPATH entries and put it in MAXELEM. We start with 2, one before the first separator and one nil (the list terminator) and increment our estimated number for each separator or blank we find. */ maxelem = 2; p = dirpath; while (*p != '\0') if (*p++ == PATH_SEPARATOR_CHAR || isblank ((unsigned char)*p)) ++maxelem; vpath = xmalloc (maxelem * sizeof (const char *)); maxvpath = 0; elem = 0; p = dirpath; while (*p != '\0') { char *v; unsigned int len; /* Find the end of this entry. */ v = p; while (*p != '\0' && *p != PATH_SEPARATOR_CHAR && !isblank ((unsigned char)*p)) ++p; len = p - v; /* Make sure there's no trailing slash, but still allow "/" as a directory. */ #if defined(__MSDOS__) || defined(__EMX__) /* We need also to leave alone a trailing slash in "d:/". */ if (len > 3 || (len > 1 && v[1] != ':')) #endif if (len > 1 && p[-1] == '/') --len; /* Put the directory on the vpath list. */ if (len > 1 || *v != '.') { vpath[elem++] = dir_name (strcache_add_len (v, len)); if (len > maxvpath) maxvpath = len; } /* Skip over separators and blanks between entries. */ while (*p == PATH_SEPARATOR_CHAR || isblank ((unsigned char)*p)) ++p; } if (elem > 0) { struct vpath *path; /* ELEM is now incremented one element past the last entry, to where the nil-pointer terminator goes. Usually this is maxelem - 1. If not, shrink down. */ if (elem < (maxelem - 1)) vpath = xrealloc (vpath, (elem+1) * sizeof (const char *)); /* Put the nil-pointer terminator on the end of the VPATH list. */ vpath[elem] = NULL; /* Construct the vpath structure and put it into the linked list. */ path = xmalloc (sizeof (struct vpath)); path->searchpath = vpath; path->maxlen = maxvpath; path->next = vpaths; vpaths = path; /* Set up the members. */ path->pattern = strcache_add (pattern); path->patlen = strlen (pattern); path->percent = percent ? path->pattern + (percent - pattern) : 0; } else /* There were no entries, so free whatever space we allocated. */ free (vpath); } /* Search the GPATH list for a pathname string that matches the one passed in. If it is found, return 1. Otherwise we return 0. */ int gpath_search (const char *file, unsigned int len) { const char **gp; if (gpaths && (len <= gpaths->maxlen)) for (gp = gpaths->searchpath; *gp != NULL; ++gp) if (strneq (*gp, file, len) && (*gp)[len] == '\0') return 1; return 0; } /* Search the given VPATH list for a directory where the name pointed to by FILE exists. If it is found, we return a cached name of the existing file and set *MTIME_PTR (if MTIME_PTR is not NULL) to its modtime (or zero if no stat call was done). Otherwise we return NULL. */ static const char * selective_vpath_search (struct vpath *path, const char *file, FILE_TIMESTAMP *mtime_ptr) { int not_target; char *name; const char *n; const char *filename; const char **vpath = path->searchpath; unsigned int maxvpath = path->maxlen; unsigned int i; unsigned int flen, vlen, name_dplen; int exists = 0; /* Find out if *FILE is a target. If and only if it is NOT a target, we will accept prospective files that don't exist but are mentioned in a makefile. */ { struct file *f = lookup_file (file); not_target = f == 0 || !f->is_target; } flen = strlen (file); /* Split *FILE into a directory prefix and a name-within-directory. NAME_DPLEN gets the length of the prefix; FILENAME gets the pointer to the name-within-directory and FLEN is its length. */ n = strrchr (file, '/'); #ifdef HAVE_DOS_PATHS /* We need the rightmost slash or backslash. */ { const char *bslash = strrchr(file, '\\'); if (!n || bslash > n) n = bslash; } #endif name_dplen = n != 0 ? n - file : 0; filename = name_dplen > 0 ? n + 1 : file; if (name_dplen > 0) flen -= name_dplen + 1; /* Get enough space for the biggest VPATH entry, a slash, the directory prefix that came with FILE, another slash (although this one may not always be necessary), the filename, and a null terminator. */ name = alloca (maxvpath + 1 + name_dplen + 1 + flen + 1); /* Try each VPATH entry. */ for (i = 0; vpath[i] != 0; ++i) { int exists_in_cache = 0; char *p; p = name; /* Put the next VPATH entry into NAME at P and increment P past it. */ vlen = strlen (vpath[i]); memcpy (p, vpath[i], vlen); p += vlen; /* Add the directory prefix already in *FILE. */ if (name_dplen > 0) { #ifndef VMS *p++ = '/'; #endif memcpy (p, file, name_dplen); p += name_dplen; } #ifdef HAVE_DOS_PATHS /* Cause the next if to treat backslash and slash alike. */ if (p != name && p[-1] == '\\' ) p[-1] = '/'; #endif /* Now add the name-within-directory at the end of NAME. */ #ifndef VMS if (p != name && p[-1] != '/') { *p = '/'; memcpy (p + 1, filename, flen + 1); } else #endif memcpy (p, filename, flen + 1); /* Check if the file is mentioned in a makefile. If *FILE is not a target, that is enough for us to decide this file exists. If *FILE is a target, then the file must be mentioned in the makefile also as a target to be chosen. The restriction that *FILE must not be a target for a makefile-mentioned file to be chosen was added by an inadequately commented change in July 1990; I am not sure off hand what problem it fixes. In December 1993 I loosened this restriction to allow a file to be chosen if it is mentioned as a target in a makefile. This seem logical. Special handling for -W / -o: make sure we preserve the special values here. Actually this whole thing is a little bogus: I think we should ditch the name/hname thing and look into the renamed capability that already exists for files: that is, have a new struct file* entry for the VPATH-found file, and set the renamed field if we use it. */ { struct file *f = lookup_file (name); if (f != 0) { exists = not_target || f->is_target; if (exists && mtime_ptr && (f->last_mtime == OLD_MTIME || f->last_mtime == NEW_MTIME)) { *mtime_ptr = f->last_mtime; mtime_ptr = 0; } } } if (!exists) { /* That file wasn't mentioned in the makefile. See if it actually exists. */ #ifdef VMS exists_in_cache = exists = dir_file_exists_p (vpath[i], filename); #else /* Clobber a null into the name at the last slash. Now NAME is the name of the directory to look in. */ *p = '\0'; /* We know the directory is in the hash table now because either construct_vpath_list or the code just above put it there. Does the file we seek exist in it? */ exists_in_cache = exists = dir_file_exists_p (name, filename); #endif } if (exists) { /* The file is in the directory cache. Now check that it actually exists in the filesystem. The cache may be out of date. When vpath thinks a file exists, but stat fails for it, confusion results in the higher levels. */ struct stat st; #ifndef VMS /* Put the slash back in NAME. */ *p = '/'; #endif if (exists_in_cache) /* Makefile-mentioned file need not exist. */ { int e; EINTRLOOP (e, stat (name, &st)); /* Does it really exist? */ if (e != 0) { exists = 0; continue; } /* Store the modtime into *MTIME_PTR for the caller. */ if (mtime_ptr != 0) { *mtime_ptr = FILE_TIMESTAMP_STAT_MODTIME (name, st); mtime_ptr = 0; } } /* We have found a file. If we get here and mtime_ptr hasn't been set, record UNKNOWN_MTIME to indicate this. */ if (mtime_ptr != 0) *mtime_ptr = UNKNOWN_MTIME; /* Store the name we found and return it. */ return strcache_add_len (name, (p + 1 - name) + flen); } } return 0; } /* Search the VPATH list whose pattern matches FILE for a directory where FILE exists. If it is found, return the cached name of an existing file, and set *MTIME_PTR (if MTIME_PTR is not NULL) to its modtime (or zero if no stat call was done). Otherwise we return 0. */ const char * vpath_search (const char *file, FILE_TIMESTAMP *mtime_ptr) { struct vpath *v; /* If there are no VPATH entries or FILENAME starts at the root, there is nothing we can do. */ if (file[0] == '/' #ifdef HAVE_DOS_PATHS || file[0] == '\\' || file[1] == ':' #endif || (vpaths == 0 && general_vpath == 0)) return 0; for (v = vpaths; v != 0; v = v->next) if (pattern_matches (v->pattern, v->percent, file)) { const char *p = selective_vpath_search (v, file, mtime_ptr); if (p) return p; } if (general_vpath != 0) { const char *p = selective_vpath_search (general_vpath, file, mtime_ptr); if (p) return p; } return 0; } /* Print the data base of VPATH search paths. */ void print_vpath_data_base (void) { unsigned int nvpaths; struct vpath *v; puts (_("\n# VPATH Search Paths\n")); nvpaths = 0; for (v = vpaths; v != 0; v = v->next) { register unsigned int i; ++nvpaths; printf ("vpath %s ", v->pattern); for (i = 0; v->searchpath[i] != 0; ++i) printf ("%s%c", v->searchpath[i], v->searchpath[i + 1] == 0 ? '\n' : PATH_SEPARATOR_CHAR); } if (vpaths == 0) puts (_("# No `vpath' search paths.")); else printf (_("\n# %u `vpath' search paths.\n"), nvpaths); if (general_vpath == 0) puts (_("\n# No general (`VPATH' variable) search path.")); else { const char **path = general_vpath->searchpath; unsigned int i; fputs (_("\n# General (`VPATH' variable) search path:\n# "), stdout); for (i = 0; path[i] != 0; ++i) printf ("%s%c", path[i], path[i + 1] == 0 ? '\n' : PATH_SEPARATOR_CHAR); } }