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/* elt-dirs.c: Translate a path element to its corresponding director{y,ies}.
Copyright 1993, 1994, 1995, 1996, 1997, 2008, 2009, 2010, 2011 Karl Berry.
Copyright 1997, 1998, 1999, 2000, 2005 Olaf Weber.
This 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.
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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this library; if not, see <http://www.gnu.org/licenses/>. */
#include <kpathsea/config.h>
#include <kpathsea/c-pathch.h>
#include <kpathsea/expand.h>
#include <kpathsea/fn.h>
#include <kpathsea/pathsearch.h>
#include <kpathsea/xopendir.h>
/* To avoid giving prototypes for all the routines and then their real
definitions, we give all the subroutines first. The entry point is
the last routine in the file. */
/* Make a copy of DIR (unless it's null) and save it in L. Ensure that
DIR ends with a DIR_SEP for the benefit of later searches. */
static void
dir_list_add (str_llist_type *l, string dir)
{
char last_char = dir[strlen (dir) - 1];
string saved_dir
= IS_DIR_SEP_CH (last_char) || IS_DEVICE_SEP (last_char)
? xstrdup (dir)
: concat (dir, DIR_SEP_STRING);
str_llist_add (l, saved_dir);
}
/* If DIR is a directory, add it to the list L. */
static void
checked_dir_list_add (kpathsea kpse, str_llist_type *l, string dir)
{
if (kpathsea_dir_p (kpse, dir))
dir_list_add (l, dir);
}
/* The cache. Typically, several paths have the same element; for
example, /usr/local/lib/texmf/fonts//. We don't want to compute the
expansion of such a thing more than once. Even though we also cache
the dir_links call, that's not enough -- without this path element
caching as well, the execution time doubles. */
/* Associate KEY with VALUE. We implement the cache as a simple linear
list, since it's unlikely to ever be more than a dozen or so elements
long. We don't bother to check here if PATH has already been saved;
we always add it to our list. We copy KEY but not VALUE; not sure
that's right, but it seems to be all that's needed. */
static void
cache (kpathsea kpse, const_string key, str_llist_type *value)
{
kpse->cache_length++;
XRETALLOC (kpse->the_cache, kpse->cache_length, cache_entry);
kpse->the_cache[kpse->cache_length - 1].key = xstrdup (key);
kpse->the_cache[kpse->cache_length - 1].value = value;
}
/* To retrieve, just check the list in order. */
static str_llist_type *
cached (kpathsea kpse, const_string key)
{
unsigned p;
for (p = 0; p < kpse->cache_length; p++)
{
if (FILESTRCASEEQ (kpse->the_cache[p].key, key))
return kpse->the_cache[p].value;
}
return NULL;
}
/* Handle the magic path constructs. */
/* Declare recursively called routine. */
static void expand_elt (kpathsea, str_llist_type *, string, unsigned);
/* POST is a pointer into the original element (which may no longer be
ELT) to just after the doubled DIR_SEP, perhaps to the null. Append
subdirectories of ELT (up to ELT_LENGTH, which must be a /) to
STR_LIST_PTR. */
#ifdef WIN32
/* Shared across recursive calls, it acts like a stack. */
static char dirname[MAX_PATH];
#endif
static void
do_subdir (kpathsea kpse, str_llist_type *str_list_ptr, string elt,
unsigned elt_length, string post)
{
#ifdef WIN32
WIN32_FIND_DATA find_file_data;
HANDLE hnd;
int proceed;
int nlinks = 2;
#else
DIR *dir;
struct dirent *e;
#endif /* not WIN32 */
fn_type name;
/* Some old compilers don't allow aggregate initialization. */
name = fn_copy0 (elt, elt_length);
assert (IS_DIR_SEP_CH (elt[elt_length - 1])
|| IS_DEVICE_SEP (elt[elt_length - 1]));
#if defined (WIN32)
strcpy(dirname, FN_STRING(name));
strcat(dirname, "/*.*"); /* "*.*" or "*" -- seems equivalent. */
hnd = FindFirstFile(dirname, &find_file_data);
if (hnd == INVALID_HANDLE_VALUE) {
fn_free(&name);
return;
}
/* Include top level before subdirectories, if nothing to match. */
if (*post == 0)
dir_list_add (str_list_ptr, FN_STRING (name));
else {
/* If we do have something to match, see if it exists. For
example, POST might be `pk/ljfour', and they might have a
directory `$TEXMF/fonts/pk/ljfour' that we should find. */
fn_str_grow (&name, post);
expand_elt (kpse, str_list_ptr, FN_STRING (name), elt_length);
fn_shrink_to (&name, elt_length);
}
proceed = 1;
while (proceed) {
if (find_file_data.cFileName[0] != '.') {
int links;
/* Construct the potential subdirectory name. */
fn_str_grow (&name, find_file_data.cFileName);
/* Maybe we have cached the leafness of this directory.
The function will return 0 if unknown,
else the actual (Unix-like) value. */
links = kpathsea_dir_links (kpse, FN_STRING (name), 0);
if (find_file_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
unsigned potential_len = FN_LENGTH (name);
/* in any case, compute the leafness */
nlinks++;
/* It's a directory, so append the separator. */
fn_str_grow (&name, DIR_SEP_STRING);
if (*post != 0) {
fn_str_grow (&name, post);
/* Unfortunately we can't check if the new element is
a leaf directory, because we don't have a directory
name here, we just have a path spec. This means we
may descend into a leaf directory cm/pk, if the
spec is ...fonts//pk//. */
expand_elt (kpse, str_list_ptr, FN_STRING (name), potential_len);
fn_shrink_to (&name, potential_len);
}
/* Should we recurse? To see if the subdirectory is a
leaf, check if it has two links (one for . and one for
..). This means that symbolic links to directories do
not affect the leaf-ness. This is arguably wrong, but
the only alternative I know of is to stat every entry
in the directory, and that is unacceptably slow. */
if (links == 0 || links > 2)
/* All criteria are met; find subdirectories. */
do_subdir (kpse, str_list_ptr, FN_STRING (name),
potential_len, post);
else if (*post == 0)
/* Nothing to match, no recursive subdirectories to
look for: we're done with this branch. Add it. */
dir_list_add (str_list_ptr, FN_STRING (name));
}
fn_shrink_to (&name, elt_length);
}
proceed = FindNextFile (hnd, &find_file_data);
}
/* Update the leafness of name. */
kpathsea_dir_links(kpse, FN_STRING(name), nlinks);
fn_free (&name);
FindClose(hnd);
#else /* not WIN32 */
/* If we can't open it, quit. */
dir = opendir (FN_STRING (name));
if (dir == NULL)
{
fn_free (&name);
return;
}
/* Include top level before subdirectories, if nothing to match. */
if (*post == 0)
dir_list_add (str_list_ptr, FN_STRING (name));
else
{ /* If we do have something to match, see if it exists. For
example, POST might be `pk/ljfour', and they might have a
directory `$TEXMF/fonts/pk/ljfour' that we should find. */
fn_str_grow (&name, post);
expand_elt (kpse, str_list_ptr, FN_STRING (name), elt_length);
fn_shrink_to (&name, elt_length);
}
while ((e = readdir (dir)) != NULL)
{ /* If it begins with a `.', never mind. (This allows ``hidden''
directories that the algorithm won't find.) */
if (e->d_name[0] != '.')
{
int links;
/* Construct the potential subdirectory name. */
fn_str_grow (&name, e->d_name);
/* If we can't stat it, or if it isn't a directory, continue. */
links = kpathsea_dir_links (kpse, FN_STRING (name), 0);
if (links >= 0)
{
unsigned potential_len = FN_LENGTH (name);
/* It's a directory, so append the separator. */
fn_str_grow (&name, DIR_SEP_STRING);
if (*post != 0)
{
fn_str_grow (&name, post);
/* Unfortunately we can't check if the new element is
a leaf directory, because we don't have a directory
name here, we just have a path spec. This means we
may descend into a leaf directory cm/pk, if the
spec is ...fonts//pk//. */
expand_elt (kpse, str_list_ptr, FN_STRING (name),
potential_len);
fn_shrink_to (&name, potential_len);
}
/* Should we recurse? To see if the subdirectory is a
leaf, check if it has two links (one for . and one for
..). This means that symbolic links to directories do
not affect the leaf-ness. This is arguably wrong, but
the only alternative I know of is to stat every entry
in the directory, and that is unacceptably slow.
The #ifdef here makes all this configurable at
compile-time, so that if we're using VMS directories or
some such, we can still find subdirectories, even if it
is much slower. */
#ifdef ST_NLINK_TRICK
/* With SAS/C++ 6.55 on the Amiga, stat sets the st_nlink
field to -1 for a file, or to 1 for a directory.
Cygwin 1.7 also leaves st_nlink as 1:
http://cygwin.com/ml/cygwin-developers/2008-04/msg00110.html
*/
if (links != 2)
#endif /* ST_NLINK_TRICK */
/* All criteria are met; find subdirectories. */
do_subdir (kpse, str_list_ptr, FN_STRING (name),
potential_len, post);
#ifdef ST_NLINK_TRICK
else if (*post == 0)
/* Nothing to match, no recursive subdirectories to
look for: we're done with this branch. Add it. */
dir_list_add (str_list_ptr, FN_STRING (name));
#endif
}
/* Remove the directory entry we just checked from `name'. */
fn_shrink_to (&name, elt_length);
}
}
fn_free (&name);
xclosedir (dir);
#endif /* not WIN32 */
}
/* Assume ELT is non-empty and non-NULL. Return list of corresponding
directories (with no terminating NULL entry) in STR_LIST_PTR. Start
looking for magic constructs at START. */
static void
expand_elt (kpathsea kpse, str_llist_type * str_list_ptr, string elt,
unsigned start)
{
string dir = elt + start, post;
while (*dir != 0)
{
if (IS_DIR_SEP_CH (*dir))
{
/* If two or more consecutive /'s, find subdirectories. */
if (IS_DIR_SEP_CH (dir[1]))
{
for (post = dir + 1; IS_DIR_SEP_CH (*post); post++) ;
do_subdir (kpse, str_list_ptr, elt, dir - elt + 1, post);
return;
}
/* No special stuff at this slash. Keep going. */
}
dir++;
}
/* When we reach the end of ELT, it will be a normal filename. */
checked_dir_list_add (kpse, str_list_ptr, elt);
}
/* On win32 we slashify ELT, i.e., change '\\' to '/', and then can use
IS_DIR_SEP_CH instead of IS_DIR_SEP and need not test for the presence
of 2-Byte Kanji (CP 932, SJIS) codes. */
/* The first bits of a path element can be problematic because they
look like a request to expand a whole disk, rather than a subtree.
- It can contain a drive specification.
- It can be a UNC path (w32, but they are part of the single
Unix specification as well).
The argument is a string as the function can diddle into the argument
to canonicalize it, which tends to matter on windows platforms.
- Always lower-case drive letters a-z, even those filesystem that
preserve case in filenames do not care about the case of the drive
letters.
- Remove unneeded double slashes. The problem is Windows does not
handle well filenames like c://dir/foo. So canonicalize the names.
The resulting name will always be shorter than the one passed, so no
problem.
- Remove multiple leading slashes to prevent expanding from the root
of a UNIX filesystem tree. */
unsigned
kpathsea_normalize_path (kpathsea kpse, string elt)
{
unsigned ret;
unsigned i;
#if defined(WIN32)
for (i = 0; elt[i]; i++) {
if (elt[i] == '\\')
elt[i] = '/';
else if (IS_KANJI(elt + i))
i++;
}
#endif
if (NAME_BEGINS_WITH_DEVICE(elt)) {
if (*elt >= 'A' && *elt <= 'Z')
*elt += 'a' - 'A';
ret = 2;
} else if (IS_UNC_NAME(elt)) {
for (ret = 2; elt[ret] && !IS_DIR_SEP_CH(elt[ret]); ret++)
;
} else
ret = 0;
for (i = ret; IS_DIR_SEP_CH(elt[i]); ++i)
;
if (i > ret + 1) {
#ifdef KPSE_DEBUG
if (KPATHSEA_DEBUG_P (KPSE_DEBUG_STAT))
DEBUGF2 ("kpse_normalize_path (%s) => %u\n", elt, ret);
#endif /* KPSE_DEBUG */
memmove (elt + ret + 1, elt + i, strlen (elt + i) + 1);
}
return ret;
}
/* Here is the entry point. Returns directory list for ELT. */
str_llist_type *
kpathsea_element_dirs (kpathsea kpse, string elt)
{
str_llist_type *ret;
unsigned i;
/* If given nothing, return nothing. */
if (!elt || !*elt)
return NULL;
/* Normalize ELT before looking for a cached value. */
i = kpathsea_normalize_path (kpse, elt);
/* If we've already cached the answer for ELT, return it. */
ret = cached (kpse, elt);
if (ret)
return ret;
/* We're going to have a real directory list to return. */
ret = XTALLOC1 (str_llist_type);
*ret = NULL;
/* We handle the hard case in a subroutine. */
expand_elt (kpse, ret, elt, i);
/* Remember the directory list we just found, in case future calls are
made with the same ELT. */
cache (kpse, elt, ret);
#ifdef KPSE_DEBUG
if (KPATHSEA_DEBUG_P (KPSE_DEBUG_EXPAND))
{
DEBUGF1 ("path element %s =>", elt);
if (ret)
{
str_llist_elt_type *e;
for (e = *ret; e; e = STR_LLIST_NEXT (*e))
fprintf (stderr, " %s", STR_LLIST (*e));
}
putc ('\n', stderr);
fflush (stderr);
}
#endif /* KPSE_DEBUG */
return ret;
}
#ifdef TEST
void
print_element_dirs (const_string elt)
{
str_llist_type *dirs;
printf ("Directories of %s:\t", elt ? elt : "(nil)");
fflush (stdout);
dirs = kpathsea_element_dirs (kpse_def, elt);
if (!dirs)
printf ("(nil)");
else
{
str_llist_elt_type *dir;
for (dir = *dirs; dir; dir = STR_LLIST_NEXT (*dir))
{
string d = STR_LLIST (*dir);
printf ("%s ", *d ? d : "`'");
}
}
putchar ('\n');
}
int
main ()
{
/* DEBUG_SET (DEBUG_STAT); */
/* All lists end with NULL. */
print_element_dirs (NULL); /* */
print_element_dirs (""); /* ./ */
print_element_dirs ("/k"); /* */
print_element_dirs (".//"); /* ./ ./archive/ */
print_element_dirs (".//archive"); /* ./ ./archive/ */
#ifdef AMIGA
print_element_dirs ("TeXMF:AmiWeb2c/texmf/fonts//"); /* lots */
print_element_dirs ("TeXMF:AmiWeb2c/share/texmf/fonts//bakoma"); /*just one*/
print_element_dirs ("TeXMF:AmiWeb2c/texmf/fonts//"); /* lots again [cache] */
print_element_dirs ("TeXMF:"); /* TeXMF: */
print_element_dirs ("TeXMF:/"); /* TeXMF: and all subdirs */
#else /* not AMIGA */
print_element_dirs ("/tmp/fonts//"); /* no need to stat anything */
print_element_dirs ("/usr/local/lib/tex/fonts//"); /* lots */
print_element_dirs ("/usr/local/lib/tex/fonts//times"); /* just one */
print_element_dirs ("/usr/local/lib/tex/fonts//"); /* lots again [cache] */
print_element_dirs ("~karl"); /* tilde expansion */
print_element_dirs ("$karl"); /* variable expansion */
print_element_dirs ("~${LOGNAME}"); /* both */
#endif /* not AMIGA */
return 0;
}
#endif /* TEST */
/*
Local variables:
standalone-compile-command: "gcc -g -I. -I.. -DTEST elt-dirs.c kpathsea.a"
End:
*/
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