Run alternative decompression programs if the principal one is not available.
[tar.git] / src / names.c
blob6e214bfa71e5d0c7854618288ecd8f504078359b
1 /* Various processing of names.
3 Copyright (C) 1988, 1992, 1994, 1996, 1997, 1998, 1999, 2000, 2001,
4 2003, 2004, 2005, 2006, 2007, 2009 Free Software Foundation, Inc.
6 This program is free software; you can redistribute it and/or modify it
7 under the terms of the GNU General Public License as published by the
8 Free Software Foundation; either version 3, or (at your option) any later
9 version.
11 This program is distributed in the hope that it will be useful, but
12 WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
14 Public License for more details.
16 You should have received a copy of the GNU General Public License along
17 with this program; if not, write to the Free Software Foundation, Inc.,
18 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */
20 #include <system.h>
22 #include <fnmatch.h>
23 #include <hash.h>
24 #include <quotearg.h>
26 #include "common.h"
28 /* User and group names. */
30 /* Make sure you link with the proper libraries if you are running the
31 Yellow Peril (thanks for the good laugh, Ian J.!), or, euh... NIS.
32 This code should also be modified for non-UNIX systems to do something
33 reasonable. */
35 static char *cached_uname;
36 static char *cached_gname;
38 static uid_t cached_uid; /* valid only if cached_uname is not empty */
39 static gid_t cached_gid; /* valid only if cached_gname is not empty */
41 /* These variables are valid only if nonempty. */
42 static char *cached_no_such_uname;
43 static char *cached_no_such_gname;
45 /* These variables are valid only if nonzero. It's not worth optimizing
46 the case for weird systems where 0 is not a valid uid or gid. */
47 static uid_t cached_no_such_uid;
48 static gid_t cached_no_such_gid;
50 static void register_individual_file (char const *name);
52 /* Given UID, find the corresponding UNAME. */
53 void
54 uid_to_uname (uid_t uid, char **uname)
56 struct passwd *passwd;
58 if (uid != 0 && uid == cached_no_such_uid)
60 *uname = xstrdup ("");
61 return;
64 if (!cached_uname || uid != cached_uid)
66 passwd = getpwuid (uid);
67 if (passwd)
69 cached_uid = uid;
70 assign_string (&cached_uname, passwd->pw_name);
72 else
74 cached_no_such_uid = uid;
75 *uname = xstrdup ("");
76 return;
79 *uname = xstrdup (cached_uname);
82 /* Given GID, find the corresponding GNAME. */
83 void
84 gid_to_gname (gid_t gid, char **gname)
86 struct group *group;
88 if (gid != 0 && gid == cached_no_such_gid)
90 *gname = xstrdup ("");
91 return;
94 if (!cached_gname || gid != cached_gid)
96 group = getgrgid (gid);
97 if (group)
99 cached_gid = gid;
100 assign_string (&cached_gname, group->gr_name);
102 else
104 cached_no_such_gid = gid;
105 *gname = xstrdup ("");
106 return;
109 *gname = xstrdup (cached_gname);
112 /* Given UNAME, set the corresponding UID and return 1, or else, return 0. */
114 uname_to_uid (char const *uname, uid_t *uidp)
116 struct passwd *passwd;
118 if (cached_no_such_uname
119 && strcmp (uname, cached_no_such_uname) == 0)
120 return 0;
122 if (!cached_uname
123 || uname[0] != cached_uname[0]
124 || strcmp (uname, cached_uname) != 0)
126 passwd = getpwnam (uname);
127 if (passwd)
129 cached_uid = passwd->pw_uid;
130 assign_string (&cached_uname, passwd->pw_name);
132 else
134 assign_string (&cached_no_such_uname, uname);
135 return 0;
138 *uidp = cached_uid;
139 return 1;
142 /* Given GNAME, set the corresponding GID and return 1, or else, return 0. */
144 gname_to_gid (char const *gname, gid_t *gidp)
146 struct group *group;
148 if (cached_no_such_gname
149 && strcmp (gname, cached_no_such_gname) == 0)
150 return 0;
152 if (!cached_gname
153 || gname[0] != cached_gname[0]
154 || strcmp (gname, cached_gname) != 0)
156 group = getgrnam (gname);
157 if (group)
159 cached_gid = group->gr_gid;
160 assign_string (&cached_gname, gname);
162 else
164 assign_string (&cached_no_such_gname, gname);
165 return 0;
168 *gidp = cached_gid;
169 return 1;
173 static struct name *
174 make_name (const char *file_name)
176 struct name *p = xzalloc (sizeof (*p));
177 if (!file_name)
178 file_name = "";
179 p->name = xstrdup (file_name);
180 p->length = strlen (p->name);
181 return p;
184 static void
185 free_name (struct name *p)
187 if (p)
189 free (p->name);
190 free (p->caname);
191 free (p);
196 /* Names from the command call. */
198 static struct name *namelist; /* first name in list, if any */
199 static struct name *nametail; /* end of name list */
201 /* File name arguments are processed in two stages: first a
202 name_array (see below) is filled, then the names from it
203 are moved into the namelist.
205 This awkward process is needed only to implement --same-order option,
206 which is meant to help process large archives on machines with
207 limited memory. With this option on, namelist contains at most one
208 entry, which diminishes the memory consumption.
210 However, I very much doubt if we still need this -- Sergey */
212 /* A name_array element contains entries of three types: */
214 #define NELT_NAME 0 /* File name */
215 #define NELT_CHDIR 1 /* Change directory request */
216 #define NELT_FMASK 2 /* Change fnmatch options request */
218 struct name_elt /* A name_array element. */
220 char type; /* Element type, see NELT_* constants above */
221 union
223 const char *name; /* File or directory name */
224 int matching_flags;/* fnmatch options if type == NELT_FMASK */
225 } v;
228 static struct name_elt *name_array; /* store an array of names */
229 static size_t allocated_entries; /* how big is the array? */
230 static size_t entries; /* how many entries does it have? */
231 static size_t scanned; /* how many of the entries have we scanned? */
232 size_t name_count; /* how many of the entries are names? */
234 /* Check the size of name_array, reallocating it as necessary. */
235 static void
236 check_name_alloc (void)
238 if (entries == allocated_entries)
240 if (allocated_entries == 0)
241 allocated_entries = 10; /* Set initial allocation */
242 name_array = x2nrealloc (name_array, &allocated_entries,
243 sizeof (name_array[0]));
247 /* Add to name_array the file NAME with fnmatch options MATCHING_FLAGS */
248 void
249 name_add_name (const char *name, int matching_flags)
251 static int prev_flags = 0; /* FIXME: Or EXCLUDE_ANCHORED? */
252 struct name_elt *ep;
254 check_name_alloc ();
255 ep = &name_array[entries++];
256 if (prev_flags != matching_flags)
258 ep->type = NELT_FMASK;
259 ep->v.matching_flags = matching_flags;
260 prev_flags = matching_flags;
261 check_name_alloc ();
262 ep = &name_array[entries++];
264 ep->type = NELT_NAME;
265 ep->v.name = name;
266 name_count++;
269 /* Add to name_array a chdir request for the directory NAME */
270 void
271 name_add_dir (const char *name)
273 struct name_elt *ep;
274 check_name_alloc ();
275 ep = &name_array[entries++];
276 ep->type = NELT_CHDIR;
277 ep->v.name = name;
281 /* Names from external name file. */
283 static char *name_buffer; /* buffer to hold the current file name */
284 static size_t name_buffer_length; /* allocated length of name_buffer */
286 /* Set up to gather file names for tar. They can either come from a
287 file or were saved from decoding arguments. */
288 void
289 name_init (void)
291 name_buffer = xmalloc (NAME_FIELD_SIZE + 2);
292 name_buffer_length = NAME_FIELD_SIZE;
295 void
296 name_term (void)
298 free (name_buffer);
299 free (name_array);
302 static int matching_flags; /* exclude_fnmatch options */
304 /* Get the next NELT_NAME element from name_array. Result is in
305 static storage and can't be relied upon across two calls.
307 If CHANGE_DIRS is true, treat any entries of type NELT_CHDIR as
308 the request to change to the given directory.
310 Entries of type NELT_FMASK cause updates of the matching_flags
311 value. */
312 static struct name_elt *
313 name_next_elt (int change_dirs)
315 static struct name_elt entry;
316 const char *source;
317 char *cursor;
319 while (scanned != entries)
321 struct name_elt *ep;
322 size_t source_len;
324 ep = &name_array[scanned++];
325 if (ep->type == NELT_FMASK)
327 matching_flags = ep->v.matching_flags;
328 continue;
331 source = ep->v.name;
332 source_len = strlen (source);
333 if (name_buffer_length < source_len)
337 name_buffer_length *= 2;
338 if (! name_buffer_length)
339 xalloc_die ();
341 while (name_buffer_length < source_len);
343 free (name_buffer);
344 name_buffer = xmalloc (name_buffer_length + 2);
346 strcpy (name_buffer, source);
348 /* Zap trailing slashes. */
350 cursor = name_buffer + strlen (name_buffer) - 1;
351 while (cursor > name_buffer && ISSLASH (*cursor))
352 *cursor-- = '\0';
354 if (change_dirs && ep->type == NELT_CHDIR)
356 if (chdir (name_buffer) < 0)
357 chdir_fatal (name_buffer);
359 else
361 if (unquote_option)
362 unquote_string (name_buffer);
363 if (incremental_option)
364 register_individual_file (name_buffer);
365 entry.type = ep->type;
366 entry.v.name = name_buffer;
367 return &entry;
371 return NULL;
374 const char *
375 name_next (int change_dirs)
377 struct name_elt *nelt = name_next_elt (change_dirs);
378 return nelt ? nelt->v.name : NULL;
381 /* Gather names in a list for scanning. Could hash them later if we
382 really care.
384 If the names are already sorted to match the archive, we just read
385 them one by one. name_gather reads the first one, and it is called
386 by name_match as appropriate to read the next ones. At EOF, the
387 last name read is just left in the buffer. This option lets users
388 of small machines extract an arbitrary number of files by doing
389 "tar t" and editing down the list of files. */
391 void
392 name_gather (void)
394 /* Buffer able to hold a single name. */
395 static struct name *buffer = NULL;
397 struct name_elt *ep;
399 if (same_order_option)
401 static int change_dir;
403 while ((ep = name_next_elt (0)) && ep->type == NELT_CHDIR)
404 change_dir = chdir_arg (xstrdup (ep->v.name));
406 if (ep)
408 free_name (buffer);
409 buffer = make_name (ep->v.name);
410 buffer->change_dir = change_dir;
411 buffer->next = 0;
412 buffer->found_count = 0;
413 buffer->matching_flags = matching_flags;
414 buffer->directory = NULL;
415 buffer->parent = NULL;
416 buffer->cmdline = true;
418 namelist = nametail = buffer;
420 else if (change_dir)
421 addname (0, change_dir, false, NULL);
423 else
425 /* Non sorted names -- read them all in. */
426 int change_dir = 0;
428 for (;;)
430 int change_dir0 = change_dir;
431 while ((ep = name_next_elt (0)) && ep->type == NELT_CHDIR)
432 change_dir = chdir_arg (xstrdup (ep->v.name));
434 if (ep)
435 addname (ep->v.name, change_dir, true, NULL);
436 else
438 if (change_dir != change_dir0)
439 addname (NULL, change_dir, false, NULL);
440 break;
446 /* Add a name to the namelist. */
447 struct name *
448 addname (char const *string, int change_dir, bool cmdline, struct name *parent)
450 struct name *name = make_name (string);
452 name->prev = nametail;
453 name->next = NULL;
454 name->found_count = 0;
455 name->matching_flags = matching_flags;
456 name->change_dir = change_dir;
457 name->directory = NULL;
458 name->parent = parent;
459 name->cmdline = cmdline;
461 if (nametail)
462 nametail->next = name;
463 else
464 namelist = name;
465 nametail = name;
466 return name;
469 /* Find a match for FILE_NAME (whose string length is LENGTH) in the name
470 list. */
471 static struct name *
472 namelist_match (char const *file_name, size_t length)
474 struct name *p;
476 for (p = namelist; p; p = p->next)
478 if (p->name[0]
479 && exclude_fnmatch (p->name, file_name, p->matching_flags))
480 return p;
483 return NULL;
486 void
487 remname (struct name *name)
489 struct name *p;
491 if ((p = name->prev) != NULL)
492 p->next = name->next;
493 else
494 namelist = name->next;
496 if ((p = name->next) != NULL)
497 p->prev = name->prev;
498 else
499 nametail = name->prev;
502 /* Return true if and only if name FILE_NAME (from an archive) matches any
503 name from the namelist. */
504 bool
505 name_match (const char *file_name)
507 size_t length = strlen (file_name);
509 while (1)
511 struct name *cursor = namelist;
513 if (!cursor)
514 return true;
516 if (cursor->name[0] == 0)
518 chdir_do (cursor->change_dir);
519 namelist = NULL;
520 nametail = NULL;
521 return true;
524 cursor = namelist_match (file_name, length);
525 if (cursor)
527 if (!(ISSLASH (file_name[cursor->length]) && recursion_option)
528 || cursor->found_count == 0)
529 cursor->found_count++; /* remember it matched */
530 if (starting_file_option)
532 free (namelist);
533 namelist = NULL;
534 nametail = NULL;
536 chdir_do (cursor->change_dir);
538 /* We got a match. */
539 return ISFOUND (cursor);
542 /* Filename from archive not found in namelist. If we have the whole
543 namelist here, just return 0. Otherwise, read the next name in and
544 compare it. If this was the last name, namelist->found_count will
545 remain on. If not, we loop to compare the newly read name. */
547 if (same_order_option && namelist->found_count)
549 name_gather (); /* read one more */
550 if (namelist->found_count)
551 return false;
553 else
554 return false;
558 /* Returns true if all names from the namelist were processed.
559 P is the stat_info of the most recently processed entry.
560 The decision is postponed until the next entry is read if:
562 1) P ended with a slash (i.e. it was a directory)
563 2) P matches any entry from the namelist *and* represents a subdirectory
564 or a file lying under this entry (in the terms of directory structure).
566 This is necessary to handle contents of directories. */
567 bool
568 all_names_found (struct tar_stat_info *p)
570 struct name const *cursor;
571 size_t len;
573 if (!p->file_name || occurrence_option == 0 || p->had_trailing_slash)
574 return false;
575 len = strlen (p->file_name);
576 for (cursor = namelist; cursor; cursor = cursor->next)
578 if ((cursor->name[0] && !WASFOUND (cursor))
579 || (len >= cursor->length && ISSLASH (p->file_name[cursor->length])))
580 return false;
582 return true;
585 static int
586 regex_usage_warning (const char *name)
588 static int warned_once = 0;
590 if (warn_regex_usage && fnmatch_pattern_has_wildcards (name, 0))
592 warned_once = 1;
593 WARN ((0, 0,
594 _("Pattern matching characters used in file names")));
595 WARN ((0, 0,
596 _("Use --wildcards to enable pattern matching,"
597 " or --no-wildcards to suppress this warning")));
599 return warned_once;
602 /* Print the names of things in the namelist that were not matched. */
603 void
604 names_notfound (void)
606 struct name const *cursor;
608 for (cursor = namelist; cursor; cursor = cursor->next)
609 if (!WASFOUND (cursor) && cursor->name[0])
611 regex_usage_warning (cursor->name);
612 ERROR ((0, 0,
613 (cursor->found_count == 0) ?
614 _("%s: Not found in archive") :
615 _("%s: Required occurrence not found in archive"),
616 quotearg_colon (cursor->name)));
619 /* Don't bother freeing the name list; we're about to exit. */
620 namelist = NULL;
621 nametail = NULL;
623 if (same_order_option)
625 const char *name;
627 while ((name = name_next (1)) != NULL)
629 regex_usage_warning (name);
630 ERROR ((0, 0, _("%s: Not found in archive"),
631 quotearg_colon (name)));
636 void
637 label_notfound (void)
639 struct name const *cursor;
641 if (!namelist)
642 return;
644 for (cursor = namelist; cursor; cursor = cursor->next)
645 if (WASFOUND (cursor))
646 return;
648 if (verbose_option)
649 error (0, 0, _("Archive label mismatch"));
650 set_exit_status (TAREXIT_DIFFERS);
652 for (cursor = namelist; cursor; cursor = cursor->next)
654 if (regex_usage_warning (cursor->name))
655 break;
658 /* Don't bother freeing the name list; we're about to exit. */
659 namelist = NULL;
660 nametail = NULL;
662 if (same_order_option)
664 const char *name;
666 while ((name = name_next (1)) != NULL
667 && regex_usage_warning (name) == 0)
672 /* Sorting name lists. */
674 /* Sort *singly* linked LIST of names, of given LENGTH, using COMPARE
675 to order names. Return the sorted list. Note that after calling
676 this function, the `prev' links in list elements are messed up.
678 Apart from the type `struct name' and the definition of SUCCESSOR,
679 this is a generic list-sorting function, but it's too painful to
680 make it both generic and portable
681 in C. */
683 static struct name *
684 merge_sort_sll (struct name *list, int length,
685 int (*compare) (struct name const*, struct name const*))
687 struct name *first_list;
688 struct name *second_list;
689 int first_length;
690 int second_length;
691 struct name *result;
692 struct name **merge_point;
693 struct name *cursor;
694 int counter;
696 # define SUCCESSOR(name) ((name)->next)
698 if (length == 1)
699 return list;
701 if (length == 2)
703 if ((*compare) (list, SUCCESSOR (list)) > 0)
705 result = SUCCESSOR (list);
706 SUCCESSOR (result) = list;
707 SUCCESSOR (list) = 0;
708 return result;
710 return list;
713 first_list = list;
714 first_length = (length + 1) / 2;
715 second_length = length / 2;
716 for (cursor = list, counter = first_length - 1;
717 counter;
718 cursor = SUCCESSOR (cursor), counter--)
719 continue;
720 second_list = SUCCESSOR (cursor);
721 SUCCESSOR (cursor) = 0;
723 first_list = merge_sort_sll (first_list, first_length, compare);
724 second_list = merge_sort_sll (second_list, second_length, compare);
726 merge_point = &result;
727 while (first_list && second_list)
728 if ((*compare) (first_list, second_list) < 0)
730 cursor = SUCCESSOR (first_list);
731 *merge_point = first_list;
732 merge_point = &SUCCESSOR (first_list);
733 first_list = cursor;
735 else
737 cursor = SUCCESSOR (second_list);
738 *merge_point = second_list;
739 merge_point = &SUCCESSOR (second_list);
740 second_list = cursor;
742 if (first_list)
743 *merge_point = first_list;
744 else
745 *merge_point = second_list;
747 return result;
749 #undef SUCCESSOR
752 /* Sort doubly linked LIST of names, of given LENGTH, using COMPARE
753 to order names. Return the sorted list. */
754 static struct name *
755 merge_sort (struct name *list, int length,
756 int (*compare) (struct name const*, struct name const*))
758 struct name *head, *p, *prev;
759 head = merge_sort_sll (list, length, compare);
760 /* Fixup prev pointers */
761 for (prev = NULL, p = head; p; prev = p, p = p->next)
762 p->prev = prev;
763 return head;
766 /* A comparison function for sorting names. Put found names last;
767 break ties by string comparison. */
769 static int
770 compare_names_found (struct name const *n1, struct name const *n2)
772 int found_diff = WASFOUND (n2) - WASFOUND (n1);
773 return found_diff ? found_diff : strcmp (n1->name, n2->name);
776 /* Simple comparison by names. */
777 static int
778 compare_names (struct name const *n1, struct name const *n2)
780 return strcmp (n1->name, n2->name);
784 /* Add all the dirs under ST to the namelist NAME, descending the
785 directory hierarchy recursively. */
787 static void
788 add_hierarchy_to_namelist (struct tar_stat_info *st, struct name *name)
790 const char *buffer;
792 name->directory = scan_directory (st);
793 buffer = directory_contents (name->directory);
794 if (buffer)
796 struct name *child_head = NULL, *child_tail = NULL;
797 size_t name_length = name->length;
798 size_t allocated_length = (name_length >= NAME_FIELD_SIZE
799 ? name_length + NAME_FIELD_SIZE
800 : NAME_FIELD_SIZE);
801 char *namebuf = xmalloc (allocated_length + 1);
802 /* FIXME: + 2 above? */
803 const char *string;
804 size_t string_length;
805 int change_dir = name->change_dir;
807 strcpy (namebuf, name->name);
808 if (! ISSLASH (namebuf[name_length - 1]))
810 namebuf[name_length++] = '/';
811 namebuf[name_length] = '\0';
814 for (string = buffer; *string; string += string_length + 1)
816 string_length = strlen (string);
817 if (*string == 'D')
819 struct name *np;
820 struct tar_stat_info subdir;
821 int subfd;
823 if (allocated_length <= name_length + string_length)
827 allocated_length *= 2;
828 if (! allocated_length)
829 xalloc_die ();
831 while (allocated_length <= name_length + string_length);
833 namebuf = xrealloc (namebuf, allocated_length + 1);
835 strcpy (namebuf + name_length, string + 1);
836 np = addname (namebuf, change_dir, false, name);
837 if (!child_head)
838 child_head = np;
839 else
840 child_tail->sibling = np;
841 child_tail = np;
843 tar_stat_init (&subdir);
844 subdir.parent = st;
845 if (st->fd < 0)
847 subfd = -1;
848 errno = - st->fd;
850 else
851 subfd = subfile_open (st, string + 1,
852 open_read_flags | O_DIRECTORY);
853 if (subfd < 0)
854 open_diag (namebuf);
855 else
857 subdir.fd = subfd;
858 if (fstat (subfd, &subdir.stat) != 0)
859 stat_diag (namebuf);
860 else if (! (O_DIRECTORY || S_ISDIR (subdir.stat.st_mode)))
862 errno = ENOTDIR;
863 open_diag (namebuf);
865 else
867 subdir.orig_file_name = xstrdup (namebuf);
868 add_hierarchy_to_namelist (&subdir, np);
869 restore_parent_fd (&subdir);
873 tar_stat_destroy (&subdir);
877 free (namebuf);
878 name->child = child_head;
882 /* Auxiliary functions for hashed table of struct name's. */
884 static size_t
885 name_hash (void const *entry, size_t n_buckets)
887 struct name const *name = entry;
888 return hash_string (name->caname, n_buckets);
891 /* Compare two directories for equality of their names. */
892 static bool
893 name_compare (void const *entry1, void const *entry2)
895 struct name const *name1 = entry1;
896 struct name const *name2 = entry2;
897 return strcmp (name1->caname, name2->caname) == 0;
901 /* Rebase `name' member of CHILD and all its siblings to
902 the new PARENT. */
903 static void
904 rebase_child_list (struct name *child, struct name *parent)
906 size_t old_prefix_len = child->parent->length;
907 size_t new_prefix_len = parent->length;
908 char *new_prefix = parent->name;
910 for (; child; child = child->sibling)
912 size_t size = child->length - old_prefix_len + new_prefix_len;
913 char *newp = xmalloc (size + 1);
914 strcpy (newp, new_prefix);
915 strcat (newp, child->name + old_prefix_len);
916 free (child->name);
917 child->name = newp;
918 child->length = size;
920 rebase_directory (child->directory,
921 child->parent->name, old_prefix_len,
922 new_prefix, new_prefix_len);
926 /* Collect all the names from argv[] (or whatever), expand them into a
927 directory tree, and sort them. This gets only subdirectories, not
928 all files. */
930 void
931 collect_and_sort_names (void)
933 struct name *name;
934 struct name *next_name, *prev_name = NULL;
935 int num_names;
936 Hash_table *nametab;
938 name_gather ();
940 if (!namelist)
941 addname (".", 0, false, NULL);
943 if (listed_incremental_option)
945 switch (chdir_count ())
947 case 0:
948 break;
950 case 1:
951 if (namelist->change_dir == 0)
952 USAGE_ERROR ((0, 0,
953 _("Using -C option inside file list is not "
954 "allowed with --listed-incremental")));
955 break;
957 default:
958 USAGE_ERROR ((0, 0,
959 _("Only one -C option is allowed with "
960 "--listed-incremental")));
963 read_directory_file ();
966 num_names = 0;
967 for (name = namelist; name; name = name->next, num_names++)
969 struct tar_stat_info st;
971 if (name->found_count || name->directory)
972 continue;
973 if (name->matching_flags & EXCLUDE_WILDCARDS)
974 /* NOTE: EXCLUDE_ANCHORED is not relevant here */
975 /* FIXME: just skip regexps for now */
976 continue;
977 chdir_do (name->change_dir);
979 if (name->name[0] == 0)
980 continue;
982 tar_stat_init (&st);
984 if (deref_stat (name->name, &st.stat) != 0)
986 stat_diag (name->name);
987 continue;
989 if (S_ISDIR (st.stat.st_mode))
991 int dir_fd = openat (chdir_fd, name->name,
992 open_read_flags | O_DIRECTORY);
993 if (dir_fd < 0)
994 open_diag (name->name);
995 else
997 st.fd = dir_fd;
998 if (fstat (dir_fd, &st.stat) != 0)
999 stat_diag (name->name);
1000 else if (O_DIRECTORY || S_ISDIR (st.stat.st_mode))
1002 st.orig_file_name = xstrdup (name->name);
1003 name->found_count++;
1004 add_hierarchy_to_namelist (&st, name);
1009 tar_stat_destroy (&st);
1012 namelist = merge_sort (namelist, num_names, compare_names);
1014 num_names = 0;
1015 nametab = hash_initialize (0, 0,
1016 name_hash,
1017 name_compare, NULL);
1018 for (name = namelist; name; name = next_name)
1020 next_name = name->next;
1021 name->caname = normalize_filename (name->name);
1022 if (prev_name)
1024 struct name *p = hash_lookup (nametab, name);
1025 if (p)
1027 /* Keep the one listed in the command line */
1028 if (!name->parent)
1030 if (p->child)
1031 rebase_child_list (p->child, name);
1032 hash_delete (nametab, name);
1033 /* FIXME: remove_directory (p->caname); ? */
1034 remname (p);
1035 free_name (p);
1036 num_names--;
1038 else
1040 if (name->child)
1041 rebase_child_list (name->child, p);
1042 /* FIXME: remove_directory (name->caname); ? */
1043 remname (name);
1044 free_name (name);
1045 continue;
1049 name->found_count = 0;
1050 if (!hash_insert (nametab, name))
1051 xalloc_die ();
1052 prev_name = name;
1053 num_names++;
1055 nametail = prev_name;
1056 hash_free (nametab);
1058 namelist = merge_sort (namelist, num_names, compare_names_found);
1060 if (listed_incremental_option)
1062 for (name = namelist; name && name->name[0] == 0; name++)
1064 if (name)
1065 append_incremental_renames (name->directory);
1069 /* This is like name_match, except that
1070 1. It returns a pointer to the name it matched, and doesn't set FOUND
1071 in structure. The caller will have to do that if it wants to.
1072 2. If the namelist is empty, it returns null, unlike name_match, which
1073 returns TRUE. */
1074 struct name *
1075 name_scan (const char *file_name)
1077 size_t length = strlen (file_name);
1079 while (1)
1081 struct name *cursor = namelist_match (file_name, length);
1082 if (cursor)
1083 return cursor;
1085 /* Filename from archive not found in namelist. If we have the whole
1086 namelist here, just return 0. Otherwise, read the next name in and
1087 compare it. If this was the last name, namelist->found_count will
1088 remain on. If not, we loop to compare the newly read name. */
1090 if (same_order_option && namelist && namelist->found_count)
1092 name_gather (); /* read one more */
1093 if (namelist->found_count)
1094 return 0;
1096 else
1097 return 0;
1101 /* This returns a name from the namelist which doesn't have ->found
1102 set. It sets ->found before returning, so successive calls will
1103 find and return all the non-found names in the namelist. */
1104 struct name *gnu_list_name;
1106 struct name const *
1107 name_from_list ()
1109 if (!gnu_list_name)
1110 gnu_list_name = namelist;
1111 while (gnu_list_name
1112 && (gnu_list_name->found_count || gnu_list_name->name[0] == 0))
1113 gnu_list_name = gnu_list_name->next;
1114 if (gnu_list_name)
1116 gnu_list_name->found_count++;
1117 chdir_do (gnu_list_name->change_dir);
1118 return gnu_list_name;
1120 return NULL;
1123 void
1124 blank_name_list (void)
1126 struct name *name;
1128 gnu_list_name = 0;
1129 for (name = namelist; name; name = name->next)
1130 name->found_count = 0;
1133 /* Yield a newly allocated file name consisting of FILE_NAME concatenated to
1134 NAME, with an intervening slash if FILE_NAME does not already end in one. */
1135 char *
1136 new_name (const char *file_name, const char *name)
1138 size_t file_name_len = strlen (file_name);
1139 size_t namesize = strlen (name) + 1;
1140 int slash = file_name_len && ! ISSLASH (file_name[file_name_len - 1]);
1141 char *buffer = xmalloc (file_name_len + slash + namesize);
1142 memcpy (buffer, file_name, file_name_len);
1143 buffer[file_name_len] = '/';
1144 memcpy (buffer + file_name_len + slash, name, namesize);
1145 return buffer;
1148 /* Return nonzero if file NAME is excluded. */
1149 bool
1150 excluded_name (char const *name)
1152 return excluded_file_name (excluded, name + FILE_SYSTEM_PREFIX_LEN (name));
1155 static Hash_table *individual_file_table;
1157 static void
1158 register_individual_file (char const *name)
1160 struct stat st;
1162 if (deref_stat (name, &st) != 0)
1163 return; /* Will be complained about later */
1164 if (S_ISDIR (st.st_mode))
1165 return;
1167 hash_string_insert (&individual_file_table, name);
1170 bool
1171 is_individual_file (char const *name)
1173 return hash_string_lookup (individual_file_table, name);
1178 /* Return the size of the prefix of FILE_NAME that is removed after
1179 stripping NUM leading file name components. NUM must be
1180 positive. */
1182 size_t
1183 stripped_prefix_len (char const *file_name, size_t num)
1185 char const *p = file_name + FILE_SYSTEM_PREFIX_LEN (file_name);
1186 while (ISSLASH (*p))
1187 p++;
1188 while (*p)
1190 bool slash = ISSLASH (*p);
1191 p++;
1192 if (slash)
1194 if (--num == 0)
1195 return p - file_name;
1196 while (ISSLASH (*p))
1197 p++;
1200 return -1;
1203 /* Return nonzero if NAME contains ".." as a file name component. */
1204 bool
1205 contains_dot_dot (char const *name)
1207 char const *p = name + FILE_SYSTEM_PREFIX_LEN (name);
1209 for (;; p++)
1211 if (p[0] == '.' && p[1] == '.' && (ISSLASH (p[2]) || !p[2]))
1212 return 1;
1214 while (! ISSLASH (*p))
1216 if (! *p++)
1217 return 0;