Improve handling of --test-label.
[tar/ericb.git] / src / names.c
blobef011b70d0ea56315ea99090a43066ab0bda2bf1
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 struct group *getgrnam ();
31 struct passwd *getpwnam ();
32 #if ! HAVE_DECL_GETPWUID
33 struct passwd *getpwuid ();
34 #endif
35 #if ! HAVE_DECL_GETGRGID
36 struct group *getgrgid ();
37 #endif
39 /* Make sure you link with the proper libraries if you are running the
40 Yellow Peril (thanks for the good laugh, Ian J.!), or, euh... NIS.
41 This code should also be modified for non-UNIX systems to do something
42 reasonable. */
44 static char *cached_uname;
45 static char *cached_gname;
47 static uid_t cached_uid; /* valid only if cached_uname is not empty */
48 static gid_t cached_gid; /* valid only if cached_gname is not empty */
50 /* These variables are valid only if nonempty. */
51 static char *cached_no_such_uname;
52 static char *cached_no_such_gname;
54 /* These variables are valid only if nonzero. It's not worth optimizing
55 the case for weird systems where 0 is not a valid uid or gid. */
56 static uid_t cached_no_such_uid;
57 static gid_t cached_no_such_gid;
59 static void register_individual_file (char const *name);
61 /* Given UID, find the corresponding UNAME. */
62 void
63 uid_to_uname (uid_t uid, char **uname)
65 struct passwd *passwd;
67 if (uid != 0 && uid == cached_no_such_uid)
69 *uname = xstrdup ("");
70 return;
73 if (!cached_uname || uid != cached_uid)
75 passwd = getpwuid (uid);
76 if (passwd)
78 cached_uid = uid;
79 assign_string (&cached_uname, passwd->pw_name);
81 else
83 cached_no_such_uid = uid;
84 *uname = xstrdup ("");
85 return;
88 *uname = xstrdup (cached_uname);
91 /* Given GID, find the corresponding GNAME. */
92 void
93 gid_to_gname (gid_t gid, char **gname)
95 struct group *group;
97 if (gid != 0 && gid == cached_no_such_gid)
99 *gname = xstrdup ("");
100 return;
103 if (!cached_gname || gid != cached_gid)
105 group = getgrgid (gid);
106 if (group)
108 cached_gid = gid;
109 assign_string (&cached_gname, group->gr_name);
111 else
113 cached_no_such_gid = gid;
114 *gname = xstrdup ("");
115 return;
118 *gname = xstrdup (cached_gname);
121 /* Given UNAME, set the corresponding UID and return 1, or else, return 0. */
123 uname_to_uid (char const *uname, uid_t *uidp)
125 struct passwd *passwd;
127 if (cached_no_such_uname
128 && strcmp (uname, cached_no_such_uname) == 0)
129 return 0;
131 if (!cached_uname
132 || uname[0] != cached_uname[0]
133 || strcmp (uname, cached_uname) != 0)
135 passwd = getpwnam (uname);
136 if (passwd)
138 cached_uid = passwd->pw_uid;
139 assign_string (&cached_uname, passwd->pw_name);
141 else
143 assign_string (&cached_no_such_uname, uname);
144 return 0;
147 *uidp = cached_uid;
148 return 1;
151 /* Given GNAME, set the corresponding GID and return 1, or else, return 0. */
153 gname_to_gid (char const *gname, gid_t *gidp)
155 struct group *group;
157 if (cached_no_such_gname
158 && strcmp (gname, cached_no_such_gname) == 0)
159 return 0;
161 if (!cached_gname
162 || gname[0] != cached_gname[0]
163 || strcmp (gname, cached_gname) != 0)
165 group = getgrnam (gname);
166 if (group)
168 cached_gid = group->gr_gid;
169 assign_string (&cached_gname, gname);
171 else
173 assign_string (&cached_no_such_gname, gname);
174 return 0;
177 *gidp = cached_gid;
178 return 1;
182 struct name *
183 make_name (const char *file_name)
185 struct name *p = xzalloc (sizeof (*p));
186 if (!file_name)
187 file_name = "";
188 p->name = xstrdup (file_name);
189 p->length = strlen (p->name);
190 return p;
193 void
194 free_name (struct name *p)
196 if (p)
198 free (p->name);
199 free (p->caname);
200 free (p);
205 /* Names from the command call. */
207 static struct name *namelist; /* first name in list, if any */
208 static struct name *nametail; /* end of name list */
210 /* File name arguments are processed in two stages: first a
211 name_array (see below) is filled, then the names from it
212 are moved into the namelist.
214 This awkward process is needed only to implement --same-order option,
215 which is meant to help process large archives on machines with
216 limited memory. With this option on, namelist contains at most one
217 entry, which diminishes the memory consumption.
219 However, I very much doubt if we still need this -- Sergey */
221 /* A name_array element contains entries of three types: */
223 #define NELT_NAME 0 /* File name */
224 #define NELT_CHDIR 1 /* Change directory request */
225 #define NELT_FMASK 2 /* Change fnmatch options request */
227 struct name_elt /* A name_array element. */
229 char type; /* Element type, see NELT_* constants above */
230 union
232 const char *name; /* File or directory name */
233 int matching_flags;/* fnmatch options if type == NELT_FMASK */
234 } v;
237 static struct name_elt *name_array; /* store an array of names */
238 static size_t allocated_names; /* how big is the array? */
239 static size_t names; /* how many entries does it have? */
240 static size_t name_index; /* how many of the entries have we scanned? */
242 /* Check the size of name_array, reallocating it as necessary. */
243 static void
244 check_name_alloc ()
246 if (names == allocated_names)
248 if (allocated_names == 0)
249 allocated_names = 10; /* Set initial allocation */
250 name_array = x2nrealloc (name_array, &allocated_names,
251 sizeof (name_array[0]));
255 /* Add to name_array the file NAME with fnmatch options MATCHING_FLAGS */
256 void
257 name_add_name (const char *name, int matching_flags)
259 static int prev_flags = 0; /* FIXME: Or EXCLUDE_ANCHORED? */
260 struct name_elt *ep;
262 check_name_alloc ();
263 ep = &name_array[names++];
264 if (prev_flags != matching_flags)
266 ep->type = NELT_FMASK;
267 ep->v.matching_flags = matching_flags;
268 prev_flags = matching_flags;
269 check_name_alloc ();
270 ep = &name_array[names++];
272 ep->type = NELT_NAME;
273 ep->v.name = name;
276 /* Add to name_array a chdir request for the directory NAME */
277 void
278 name_add_dir (const char *name)
280 struct name_elt *ep;
281 check_name_alloc ();
282 ep = &name_array[names++];
283 ep->type = NELT_CHDIR;
284 ep->v.name = name;
288 /* Names from external name file. */
290 static char *name_buffer; /* buffer to hold the current file name */
291 static size_t name_buffer_length; /* allocated length of name_buffer */
293 /* Set up to gather file names for tar. They can either come from a
294 file or were saved from decoding arguments. */
295 void
296 name_init (void)
298 name_buffer = xmalloc (NAME_FIELD_SIZE + 2);
299 name_buffer_length = NAME_FIELD_SIZE;
302 void
303 name_term (void)
305 free (name_buffer);
306 free (name_array);
309 static int matching_flags; /* exclude_fnmatch options */
311 /* Get the next NELT_NAME element from name_array. Result is in
312 static storage and can't be relied upon across two calls.
314 If CHANGE_DIRS is true, treat any entries of type NELT_CHDIR as
315 the request to change to the given directory.
317 Entries of type NELT_FMASK cause updates of the matching_flags
318 value. */
319 struct name_elt *
320 name_next_elt (int change_dirs)
322 static struct name_elt entry;
323 const char *source;
324 char *cursor;
326 while (name_index != names)
328 struct name_elt *ep;
329 size_t source_len;
331 ep = &name_array[name_index++];
332 if (ep->type == NELT_FMASK)
334 matching_flags = ep->v.matching_flags;
335 continue;
338 source = ep->v.name;
339 source_len = strlen (source);
340 if (name_buffer_length < source_len)
344 name_buffer_length *= 2;
345 if (! name_buffer_length)
346 xalloc_die ();
348 while (name_buffer_length < source_len);
350 free (name_buffer);
351 name_buffer = xmalloc (name_buffer_length + 2);
353 strcpy (name_buffer, source);
355 /* Zap trailing slashes. */
357 cursor = name_buffer + strlen (name_buffer) - 1;
358 while (cursor > name_buffer && ISSLASH (*cursor))
359 *cursor-- = '\0';
361 if (change_dirs && ep->type == NELT_CHDIR)
363 if (chdir (name_buffer) < 0)
364 chdir_fatal (name_buffer);
366 else
368 if (unquote_option)
369 unquote_string (name_buffer);
370 if (incremental_option)
371 register_individual_file (name_buffer);
372 entry.type = ep->type;
373 entry.v.name = name_buffer;
374 return &entry;
378 return NULL;
381 const char *
382 name_next (int change_dirs)
384 struct name_elt *nelt = name_next_elt (change_dirs);
385 return nelt ? nelt->v.name : NULL;
388 /* Gather names in a list for scanning. Could hash them later if we
389 really care.
391 If the names are already sorted to match the archive, we just read
392 them one by one. name_gather reads the first one, and it is called
393 by name_match as appropriate to read the next ones. At EOF, the
394 last name read is just left in the buffer. This option lets users
395 of small machines extract an arbitrary number of files by doing
396 "tar t" and editing down the list of files. */
398 void
399 name_gather (void)
401 /* Buffer able to hold a single name. */
402 static struct name *buffer = NULL;
404 struct name_elt *ep;
406 if (same_order_option)
408 static int change_dir;
410 while ((ep = name_next_elt (0)) && ep->type == NELT_CHDIR)
411 change_dir = chdir_arg (xstrdup (ep->v.name));
413 if (ep)
415 free_name (buffer);
416 buffer = make_name (ep->v.name);
417 buffer->change_dir = change_dir;
418 buffer->next = 0;
419 buffer->found_count = 0;
420 buffer->matching_flags = matching_flags;
421 buffer->directory = NULL;
422 buffer->parent = NULL;
423 buffer->cmdline = true;
425 namelist = nametail = buffer;
427 else if (change_dir)
428 addname (0, change_dir, false, NULL);
430 else
432 /* Non sorted names -- read them all in. */
433 int change_dir = 0;
435 for (;;)
437 int change_dir0 = change_dir;
438 while ((ep = name_next_elt (0)) && ep->type == NELT_CHDIR)
439 change_dir = chdir_arg (xstrdup (ep->v.name));
441 if (ep)
442 addname (ep->v.name, change_dir, true, NULL);
443 else
445 if (change_dir != change_dir0)
446 addname (NULL, change_dir, false, NULL);
447 break;
453 /* Add a name to the namelist. */
454 struct name *
455 addname (char const *string, int change_dir, bool cmdline, struct name *parent)
457 struct name *name = make_name (string);
459 name->prev = nametail;
460 name->next = NULL;
461 name->found_count = 0;
462 name->matching_flags = matching_flags;
463 name->change_dir = change_dir;
464 name->directory = NULL;
465 name->parent = parent;
466 name->cmdline = cmdline;
468 if (nametail)
469 nametail->next = name;
470 else
471 namelist = name;
472 nametail = name;
473 return name;
476 /* Find a match for FILE_NAME (whose string length is LENGTH) in the name
477 list. */
478 static struct name *
479 namelist_match (char const *file_name, size_t length)
481 struct name *p;
483 for (p = namelist; p; p = p->next)
485 if (p->name[0]
486 && exclude_fnmatch (p->name, file_name, p->matching_flags))
487 return p;
490 return NULL;
493 void
494 remname (struct name *name)
496 struct name *p;
498 if ((p = name->prev) != NULL)
499 p->next = name->next;
500 else
501 namelist = name->next;
503 if ((p = name->next) != NULL)
504 p->prev = name->prev;
505 else
506 nametail = name->prev;
509 /* Return true if and only if name FILE_NAME (from an archive) matches any
510 name from the namelist. */
511 bool
512 name_match (const char *file_name)
514 size_t length = strlen (file_name);
516 while (1)
518 struct name *cursor = namelist;
520 if (!cursor)
521 return true;
523 if (cursor->name[0] == 0)
525 chdir_do (cursor->change_dir);
526 namelist = NULL;
527 nametail = NULL;
528 return true;
531 cursor = namelist_match (file_name, length);
532 if (cursor)
534 if (!(ISSLASH (file_name[cursor->length]) && recursion_option)
535 || cursor->found_count == 0)
536 cursor->found_count++; /* remember it matched */
537 if (starting_file_option)
539 free (namelist);
540 namelist = NULL;
541 nametail = NULL;
543 chdir_do (cursor->change_dir);
545 /* We got a match. */
546 return ISFOUND (cursor);
549 /* Filename from archive not found in namelist. If we have the whole
550 namelist here, just return 0. Otherwise, read the next name in and
551 compare it. If this was the last name, namelist->found_count will
552 remain on. If not, we loop to compare the newly read name. */
554 if (same_order_option && namelist->found_count)
556 name_gather (); /* read one more */
557 if (namelist->found_count)
558 return false;
560 else
561 return false;
565 /* Returns true if all names from the namelist were processed.
566 P is the stat_info of the most recently processed entry.
567 The decision is postponed until the next entry is read if:
569 1) P ended with a slash (i.e. it was a directory)
570 2) P matches any entry from the namelist *and* represents a subdirectory
571 or a file lying under this entry (in the terms of directory structure).
573 This is necessary to handle contents of directories. */
574 bool
575 all_names_found (struct tar_stat_info *p)
577 struct name const *cursor;
578 size_t len;
580 if (!p->file_name || occurrence_option == 0 || p->had_trailing_slash)
581 return false;
582 len = strlen (p->file_name);
583 for (cursor = namelist; cursor; cursor = cursor->next)
585 if ((cursor->name[0] && !WASFOUND (cursor))
586 || (len >= cursor->length && ISSLASH (p->file_name[cursor->length])))
587 return false;
589 return true;
592 static void
593 regex_usage_warning (const char *name)
595 static int warned_once = 0;
597 if (warn_regex_usage && fnmatch_pattern_has_wildcards (name, 0))
599 warned_once = 1;
600 WARN ((0, 0,
601 /* TRANSLATORS: The following three msgids form a single sentence.
603 _("Pattern matching characters used in file names. Please,")));
604 WARN ((0, 0,
605 _("use --wildcards to enable pattern matching, or --no-wildcards to")));
606 WARN ((0, 0,
607 _("suppress this warning.")));
611 /* Print the names of things in the namelist that were not matched. */
612 void
613 names_notfound (void)
615 struct name const *cursor;
617 for (cursor = namelist; cursor; cursor = cursor->next)
618 if (!WASFOUND (cursor) && cursor->name[0])
620 regex_usage_warning (cursor->name);
621 if (cursor->found_count == 0)
622 ERROR ((0, 0, _("%s: Not found in archive"),
623 quotearg_colon (cursor->name)));
624 else
625 ERROR ((0, 0, _("%s: Required occurrence not found in archive"),
626 quotearg_colon (cursor->name)));
629 /* Don't bother freeing the name list; we're about to exit. */
630 namelist = NULL;
631 nametail = NULL;
633 if (same_order_option)
635 const char *name;
637 while ((name = name_next (1)) != NULL)
639 regex_usage_warning (name);
640 ERROR ((0, 0, _("%s: Not found in archive"),
641 quotearg_colon (name)));
646 /* Sorting name lists. */
648 /* Sort *singly* linked LIST of names, of given LENGTH, using COMPARE
649 to order names. Return the sorted list. Note that after calling
650 this function, the `prev' links in list elements are messed up.
652 Apart from the type `struct name' and the definition of SUCCESSOR,
653 this is a generic list-sorting function, but it's too painful to
654 make it both generic and portable
655 in C. */
657 static struct name *
658 merge_sort_sll (struct name *list, int length,
659 int (*compare) (struct name const*, struct name const*))
661 struct name *first_list;
662 struct name *second_list;
663 int first_length;
664 int second_length;
665 struct name *result;
666 struct name **merge_point;
667 struct name *cursor;
668 int counter;
670 # define SUCCESSOR(name) ((name)->next)
672 if (length == 1)
673 return list;
675 if (length == 2)
677 if ((*compare) (list, SUCCESSOR (list)) > 0)
679 result = SUCCESSOR (list);
680 SUCCESSOR (result) = list;
681 SUCCESSOR (list) = 0;
682 return result;
684 return list;
687 first_list = list;
688 first_length = (length + 1) / 2;
689 second_length = length / 2;
690 for (cursor = list, counter = first_length - 1;
691 counter;
692 cursor = SUCCESSOR (cursor), counter--)
693 continue;
694 second_list = SUCCESSOR (cursor);
695 SUCCESSOR (cursor) = 0;
697 first_list = merge_sort_sll (first_list, first_length, compare);
698 second_list = merge_sort_sll (second_list, second_length, compare);
700 merge_point = &result;
701 while (first_list && second_list)
702 if ((*compare) (first_list, second_list) < 0)
704 cursor = SUCCESSOR (first_list);
705 *merge_point = first_list;
706 merge_point = &SUCCESSOR (first_list);
707 first_list = cursor;
709 else
711 cursor = SUCCESSOR (second_list);
712 *merge_point = second_list;
713 merge_point = &SUCCESSOR (second_list);
714 second_list = cursor;
716 if (first_list)
717 *merge_point = first_list;
718 else
719 *merge_point = second_list;
721 return result;
723 #undef SUCCESSOR
726 /* Sort doubly linked LIST of names, of given LENGTH, using COMPARE
727 to order names. Return the sorted list. */
728 static struct name *
729 merge_sort (struct name *list, int length,
730 int (*compare) (struct name const*, struct name const*))
732 struct name *head, *p, *prev;
733 head = merge_sort_sll (list, length, compare);
734 /* Fixup prev pointers */
735 for (prev = NULL, p = head; p; prev = p, p = p->next)
736 p->prev = prev;
737 return head;
740 /* A comparison function for sorting names. Put found names last;
741 break ties by string comparison. */
743 static int
744 compare_names_found (struct name const *n1, struct name const *n2)
746 int found_diff = WASFOUND (n2) - WASFOUND (n1);
747 return found_diff ? found_diff : strcmp (n1->name, n2->name);
750 /* Simple comparison by names. */
751 static int
752 compare_names (struct name const *n1, struct name const *n2)
754 return strcmp (n1->name, n2->name);
758 /* Add all the dirs under NAME, which names a directory, to the namelist.
759 If any of the files is a directory, recurse on the subdirectory.
760 DEVICE is the device not to leave, if the -l option is specified.
761 CMDLINE is true, if the NAME appeared on the command line. */
763 static void
764 add_hierarchy_to_namelist (struct name *name, dev_t device, bool cmdline)
766 const char *buffer;
768 name_fill_directory (name, device, cmdline);
769 buffer = directory_contents (name->directory);
770 if (buffer)
772 struct name *child_head = NULL, *child_tail = NULL;
773 size_t name_length = name->length;
774 size_t allocated_length = (name_length >= NAME_FIELD_SIZE
775 ? name_length + NAME_FIELD_SIZE
776 : NAME_FIELD_SIZE);
777 char *namebuf = xmalloc (allocated_length + 1);
778 /* FIXME: + 2 above? */
779 const char *string;
780 size_t string_length;
781 int change_dir = name->change_dir;
783 strcpy (namebuf, name->name);
784 if (! ISSLASH (namebuf[name_length - 1]))
786 namebuf[name_length++] = '/';
787 namebuf[name_length] = '\0';
790 for (string = buffer; *string; string += string_length + 1)
792 string_length = strlen (string);
793 if (*string == 'D')
795 struct name *np;
797 if (allocated_length <= name_length + string_length)
801 allocated_length *= 2;
802 if (! allocated_length)
803 xalloc_die ();
805 while (allocated_length <= name_length + string_length);
807 namebuf = xrealloc (namebuf, allocated_length + 1);
809 strcpy (namebuf + name_length, string + 1);
810 np = addname (namebuf, change_dir, false, name);
811 if (!child_head)
812 child_head = np;
813 else
814 child_tail->sibling = np;
815 child_tail = np;
816 add_hierarchy_to_namelist (np, device, false);
820 free (namebuf);
821 name->child = child_head;
825 /* Auxiliary functions for hashed table of struct name's. */
827 static size_t
828 name_hash (void const *entry, size_t n_buckets)
830 struct name const *name = entry;
831 return hash_string (name->caname, n_buckets);
834 /* Compare two directories for equality of their names. */
835 static bool
836 name_compare (void const *entry1, void const *entry2)
838 struct name const *name1 = entry1;
839 struct name const *name2 = entry2;
840 return strcmp (name1->caname, name2->caname) == 0;
844 /* Rebase `name' member of CHILD and all its siblings to
845 the new PARENT. */
846 static void
847 rebase_child_list (struct name *child, struct name *parent)
849 size_t old_prefix_len = child->parent->length;
850 size_t new_prefix_len = parent->length;
851 char *new_prefix = parent->name;
853 for (; child; child = child->sibling)
855 size_t size = child->length - old_prefix_len + new_prefix_len;
856 char *newp = xmalloc (size + 1);
857 strcpy (newp, new_prefix);
858 strcat (newp, child->name + old_prefix_len);
859 free (child->name);
860 child->name = newp;
861 child->length = size;
863 rebase_directory (child->directory,
864 child->parent->name, old_prefix_len,
865 new_prefix, new_prefix_len);
869 /* Collect all the names from argv[] (or whatever), expand them into a
870 directory tree, and sort them. This gets only subdirectories, not
871 all files. */
873 void
874 collect_and_sort_names (void)
876 struct name *name;
877 struct name *next_name, *prev_name;
878 int num_names;
879 struct stat statbuf;
880 Hash_table *nametab;
882 name_gather ();
884 if (!namelist)
885 addname (".", 0, false, NULL);
887 if (listed_incremental_option)
889 switch (chdir_count ())
891 case 0:
892 break;
894 case 1:
895 if (namelist->change_dir == 0)
896 USAGE_ERROR ((0, 0,
897 _("Using -C option inside file list is not "
898 "allowed with --listed-incremental")));
899 break;
901 default:
902 USAGE_ERROR ((0, 0,
903 _("Only one -C option is allowed with "
904 "--listed-incremental")));
907 read_directory_file ();
910 num_names = 0;
911 for (name = namelist; name; name = name->next, num_names++)
913 if (name->found_count || name->directory)
914 continue;
915 if (name->matching_flags & EXCLUDE_WILDCARDS)
916 /* NOTE: EXCLUDE_ANCHORED is not relevant here */
917 /* FIXME: just skip regexps for now */
918 continue;
919 chdir_do (name->change_dir);
921 if (name->name[0] == 0)
922 continue;
924 if (deref_stat (dereference_option, name->name, &statbuf) != 0)
926 stat_diag (name->name);
927 continue;
929 if (S_ISDIR (statbuf.st_mode))
931 name->found_count++;
932 add_hierarchy_to_namelist (name, statbuf.st_dev, true);
936 namelist = merge_sort (namelist, num_names, compare_names);
938 num_names = 0;
939 nametab = hash_initialize (0, 0,
940 name_hash,
941 name_compare, NULL);
942 for (name = namelist; name; name = next_name)
944 next_name = name->next;
945 name->caname = normalize_filename (name->name);
946 if (prev_name)
948 struct name *p = hash_lookup (nametab, name);
949 if (p)
951 /* Keep the one listed in the command line */
952 if (!name->parent)
954 if (p->child)
955 rebase_child_list (p->child, name);
956 /* FIXME: remove_directory (p->caname); ? */
957 remname (p);
958 free_name (p);
959 num_names--;
961 else
963 if (name->child)
964 rebase_child_list (name->child, p);
965 /* FIXME: remove_directory (name->caname); ? */
966 remname (name);
967 free_name (name);
968 continue;
972 name->found_count = 0;
973 if (!hash_insert (nametab, name))
974 xalloc_die ();
975 prev_name = name;
976 num_names++;
978 nametail = prev_name;
979 hash_free (nametab);
981 namelist = merge_sort (namelist, num_names, compare_names_found);
983 if (listed_incremental_option)
985 for (name = namelist; name && name->name[0] == 0; name++)
987 if (name)
988 append_incremental_renames (name->directory);
992 /* This is like name_match, except that
993 1. It returns a pointer to the name it matched, and doesn't set FOUND
994 in structure. The caller will have to do that if it wants to.
995 2. If the namelist is empty, it returns null, unlike name_match, which
996 returns TRUE. */
997 struct name *
998 name_scan (const char *file_name)
1000 size_t length = strlen (file_name);
1002 while (1)
1004 struct name *cursor = namelist_match (file_name, length);
1005 if (cursor)
1006 return cursor;
1008 /* Filename from archive not found in namelist. If we have the whole
1009 namelist here, just return 0. Otherwise, read the next name in and
1010 compare it. If this was the last name, namelist->found_count will
1011 remain on. If not, we loop to compare the newly read name. */
1013 if (same_order_option && namelist && namelist->found_count)
1015 name_gather (); /* read one more */
1016 if (namelist->found_count)
1017 return 0;
1019 else
1020 return 0;
1024 /* This returns a name from the namelist which doesn't have ->found
1025 set. It sets ->found before returning, so successive calls will
1026 find and return all the non-found names in the namelist. */
1027 struct name *gnu_list_name;
1029 struct name const *
1030 name_from_list ()
1032 if (!gnu_list_name)
1033 gnu_list_name = namelist;
1034 while (gnu_list_name
1035 && (gnu_list_name->found_count || gnu_list_name->name[0] == 0))
1036 gnu_list_name = gnu_list_name->next;
1037 if (gnu_list_name)
1039 gnu_list_name->found_count++;
1040 chdir_do (gnu_list_name->change_dir);
1041 return gnu_list_name;
1043 return NULL;
1046 void
1047 blank_name_list (void)
1049 struct name *name;
1051 gnu_list_name = 0;
1052 for (name = namelist; name; name = name->next)
1053 name->found_count = 0;
1056 /* Yield a newly allocated file name consisting of FILE_NAME concatenated to
1057 NAME, with an intervening slash if FILE_NAME does not already end in one. */
1058 char *
1059 new_name (const char *file_name, const char *name)
1061 size_t file_name_len = strlen (file_name);
1062 size_t namesize = strlen (name) + 1;
1063 int slash = file_name_len && ! ISSLASH (file_name[file_name_len - 1]);
1064 char *buffer = xmalloc (file_name_len + slash + namesize);
1065 memcpy (buffer, file_name, file_name_len);
1066 buffer[file_name_len] = '/';
1067 memcpy (buffer + file_name_len + slash, name, namesize);
1068 return buffer;
1071 /* Return nonzero if file NAME is excluded. */
1072 bool
1073 excluded_name (char const *name)
1075 return excluded_file_name (excluded, name + FILE_SYSTEM_PREFIX_LEN (name));
1078 static Hash_table *individual_file_table;
1080 static void
1081 register_individual_file (char const *name)
1083 struct stat st;
1085 if (deref_stat (dereference_option, name, &st) != 0)
1086 return; /* Will be complained about later */
1087 if (S_ISDIR (st.st_mode))
1088 return;
1090 hash_string_insert (&individual_file_table, name);
1093 bool
1094 is_individual_file (char const *name)
1096 return hash_string_lookup (individual_file_table, name);
1101 /* Return the size of the prefix of FILE_NAME that is removed after
1102 stripping NUM leading file name components. NUM must be
1103 positive. */
1105 size_t
1106 stripped_prefix_len (char const *file_name, size_t num)
1108 char const *p = file_name + FILE_SYSTEM_PREFIX_LEN (file_name);
1109 while (ISSLASH (*p))
1110 p++;
1111 while (*p)
1113 bool slash = ISSLASH (*p);
1114 p++;
1115 if (slash)
1117 if (--num == 0)
1118 return p - file_name;
1119 while (ISSLASH (*p))
1120 p++;
1123 return -1;
1126 /* Return nonzero if NAME contains ".." as a file name component. */
1127 bool
1128 contains_dot_dot (char const *name)
1130 char const *p = name + FILE_SYSTEM_PREFIX_LEN (name);
1132 for (;; p++)
1134 if (p[0] == '.' && p[1] == '.' && (ISSLASH (p[2]) || !p[2]))
1135 return 1;
1137 while (! ISSLASH (*p))
1139 if (! *p++)
1140 return 0;