Updated Polish translation
[findutils.git] / find / pred.c
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1 /* pred.c -- execute the expression tree.
2 Copyright (C) 1990, 1991, 1992, 1993, 1994, 2000, 2003,
3 2004, 2005, 2006, 2007 Free Software Foundation, Inc.
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2, or (at your option)
8 any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
18 USA.
21 #include <config.h>
22 #include "defs.h"
24 #include <fnmatch.h>
25 #include <signal.h>
26 #include <math.h>
27 #include <pwd.h>
28 #include <grp.h>
29 #include <sys/types.h>
30 #include <sys/stat.h>
31 #include <errno.h>
32 #include <assert.h>
33 #include <stdarg.h>
34 #include <fcntl.h>
35 #include <locale.h>
36 #include <openat.h>
37 #include "xalloc.h"
38 #include "dirname.h"
39 #include "human.h"
40 #include "modetype.h"
41 #include "filemode.h"
42 #include "wait.h"
43 #include "printquoted.h"
44 #include "buildcmd.h"
45 #include "yesno.h"
46 #include "listfile.h"
47 #include "stat-time.h"
48 #include "dircallback.h"
49 #include "error.h"
51 #if ENABLE_NLS
52 # include <libintl.h>
53 # define _(Text) gettext (Text)
54 #else
55 # define _(Text) Text
56 #endif
57 #ifdef gettext_noop
58 # define N_(String) gettext_noop (String)
59 #else
60 /* See locate.c for explanation as to why not use (String) */
61 # define N_(String) String
62 #endif
64 #if !defined(SIGCHLD) && defined(SIGCLD)
65 #define SIGCHLD SIGCLD
66 #endif
70 #if HAVE_DIRENT_H
71 # include <dirent.h>
72 # define NAMLEN(dirent) strlen((dirent)->d_name)
73 #else
74 # define dirent direct
75 # define NAMLEN(dirent) (dirent)->d_namlen
76 # if HAVE_SYS_NDIR_H
77 # include <sys/ndir.h>
78 # endif
79 # if HAVE_SYS_DIR_H
80 # include <sys/dir.h>
81 # endif
82 # if HAVE_NDIR_H
83 # include <ndir.h>
84 # endif
85 #endif
87 #ifdef CLOSEDIR_VOID
88 /* Fake a return value. */
89 #define CLOSEDIR(d) (closedir (d), 0)
90 #else
91 #define CLOSEDIR(d) closedir (d)
92 #endif
97 /* Get or fake the disk device blocksize.
98 Usually defined by sys/param.h (if at all). */
99 #ifndef DEV_BSIZE
100 # ifdef BSIZE
101 # define DEV_BSIZE BSIZE
102 # else /* !BSIZE */
103 # define DEV_BSIZE 4096
104 # endif /* !BSIZE */
105 #endif /* !DEV_BSIZE */
107 /* Extract or fake data from a `struct stat'.
108 ST_BLKSIZE: Preferred I/O blocksize for the file, in bytes.
109 ST_NBLOCKS: Number of blocks in the file, including indirect blocks.
110 ST_NBLOCKSIZE: Size of blocks used when calculating ST_NBLOCKS. */
111 #ifndef HAVE_STRUCT_STAT_ST_BLOCKS
112 # define ST_BLKSIZE(statbuf) DEV_BSIZE
113 # if defined(_POSIX_SOURCE) || !defined(BSIZE) /* fileblocks.c uses BSIZE. */
114 # define ST_NBLOCKS(statbuf) \
115 (S_ISREG ((statbuf).st_mode) \
116 || S_ISDIR ((statbuf).st_mode) \
117 ? (statbuf).st_size / ST_NBLOCKSIZE + ((statbuf).st_size % ST_NBLOCKSIZE != 0) : 0)
118 # else /* !_POSIX_SOURCE && BSIZE */
119 # define ST_NBLOCKS(statbuf) \
120 (S_ISREG ((statbuf).st_mode) \
121 || S_ISDIR ((statbuf).st_mode) \
122 ? st_blocks ((statbuf).st_size) : 0)
123 # endif /* !_POSIX_SOURCE && BSIZE */
124 #else /* HAVE_STRUCT_STAT_ST_BLOCKS */
125 /* Some systems, like Sequents, return st_blksize of 0 on pipes. */
126 # define ST_BLKSIZE(statbuf) ((statbuf).st_blksize > 0 \
127 ? (statbuf).st_blksize : DEV_BSIZE)
128 # if defined(hpux) || defined(__hpux__) || defined(__hpux)
129 /* HP-UX counts st_blocks in 1024-byte units.
130 This loses when mixing HP-UX and BSD filesystems with NFS. */
131 # define ST_NBLOCKSIZE 1024
132 # else /* !hpux */
133 # if defined(_AIX) && defined(_I386)
134 /* AIX PS/2 counts st_blocks in 4K units. */
135 # define ST_NBLOCKSIZE (4 * 1024)
136 # else /* not AIX PS/2 */
137 # if defined(_CRAY)
138 # define ST_NBLOCKS(statbuf) \
139 (S_ISREG ((statbuf).st_mode) \
140 || S_ISDIR ((statbuf).st_mode) \
141 ? (statbuf).st_blocks * ST_BLKSIZE(statbuf)/ST_NBLOCKSIZE : 0)
142 # endif /* _CRAY */
143 # endif /* not AIX PS/2 */
144 # endif /* !hpux */
145 #endif /* HAVE_STRUCT_STAT_ST_BLOCKS */
147 #ifndef ST_NBLOCKS
148 # define ST_NBLOCKS(statbuf) \
149 (S_ISREG ((statbuf).st_mode) \
150 || S_ISDIR ((statbuf).st_mode) \
151 ? (statbuf).st_blocks : 0)
152 #endif
154 #ifndef ST_NBLOCKSIZE
155 # define ST_NBLOCKSIZE 512
156 #endif
159 #undef MAX
160 #define MAX(a, b) ((a) > (b) ? (a) : (b))
162 static boolean match_lname PARAMS((const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr, boolean ignore_case));
164 static char *format_date PARAMS((struct timespec ts, int kind));
165 static char *ctime_format PARAMS((struct timespec ts));
167 #ifdef DEBUG
168 struct pred_assoc
170 PRED_FUNC pred_func;
171 char *pred_name;
174 struct pred_assoc pred_table[] =
176 {pred_amin, "amin "},
177 {pred_and, "and "},
178 {pred_anewer, "anewer "},
179 {pred_atime, "atime "},
180 {pred_closeparen, ") "},
181 {pred_cmin, "cmin "},
182 {pred_cnewer, "cnewer "},
183 {pred_comma, ", "},
184 {pred_ctime, "ctime "},
185 {pred_delete, "delete "},
186 {pred_empty, "empty "},
187 {pred_exec, "exec "},
188 {pred_execdir, "execdir "},
189 {pred_executable, "executable "},
190 {pred_false, "false "},
191 {pred_fprint, "fprint "},
192 {pred_fprint0, "fprint0 "},
193 {pred_fprintf, "fprintf "},
194 {pred_fstype, "fstype "},
195 {pred_gid, "gid "},
196 {pred_group, "group "},
197 {pred_ilname, "ilname "},
198 {pred_iname, "iname "},
199 {pred_inum, "inum "},
200 {pred_ipath, "ipath "},
201 {pred_links, "links "},
202 {pred_lname, "lname "},
203 {pred_ls, "ls "},
204 {pred_mmin, "mmin "},
205 {pred_mtime, "mtime "},
206 {pred_name, "name "},
207 {pred_negate, "not "},
208 {pred_newer, "newer "},
209 {pred_newerXY, "newerXY "},
210 {pred_nogroup, "nogroup "},
211 {pred_nouser, "nouser "},
212 {pred_ok, "ok "},
213 {pred_okdir, "okdir "},
214 {pred_openparen, "( "},
215 {pred_or, "or "},
216 {pred_path, "path "},
217 {pred_perm, "perm "},
218 {pred_print, "print "},
219 {pred_print0, "print0 "},
220 {pred_prune, "prune "},
221 {pred_quit, "quit "},
222 {pred_readable, "readable "},
223 {pred_regex, "regex "},
224 {pred_samefile,"samefile "},
225 {pred_size, "size "},
226 {pred_true, "true "},
227 {pred_type, "type "},
228 {pred_uid, "uid "},
229 {pred_used, "used "},
230 {pred_user, "user "},
231 {pred_writable, "writable "},
232 {pred_xtype, "xtype "},
233 {0, "none "}
235 #endif
237 /* Returns ts1 - ts2 */
238 static double ts_difference(struct timespec ts1,
239 struct timespec ts2)
241 double d = difftime(ts1.tv_sec, ts2.tv_sec)
242 + (1.0e-9 * (ts1.tv_nsec - ts2.tv_nsec));
243 return d;
247 static int
248 compare_ts(struct timespec ts1,
249 struct timespec ts2)
251 if ((ts1.tv_sec == ts2.tv_sec) &&
252 (ts1.tv_nsec == ts2.tv_nsec))
254 return 0;
256 else
258 double diff = ts_difference(ts1, ts2);
259 return diff < 0.0 ? -1 : +1;
263 /* Predicate processing routines.
265 PATHNAME is the full pathname of the file being checked.
266 *STAT_BUF contains information about PATHNAME.
267 *PRED_PTR contains information for applying the predicate.
269 Return true if the file passes this predicate, false if not. */
272 /* pred_timewindow
274 * Returns true if THE_TIME is
275 * COMP_GT: after the specified time
276 * COMP_LT: before the specified time
277 * COMP_EQ: less than WINDOW seconds after the specified time.
279 static boolean
280 pred_timewindow(struct timespec ts, struct predicate const *pred_ptr, int window)
282 switch (pred_ptr->args.reftime.kind)
284 case COMP_GT:
285 return compare_ts(ts, pred_ptr->args.reftime.ts) > 0;
287 case COMP_LT:
288 return compare_ts(ts, pred_ptr->args.reftime.ts) < 0;
290 case COMP_EQ:
292 double delta = ts_difference(ts, pred_ptr->args.reftime.ts);
293 return (delta >= 0.0 && delta < window);
299 boolean
300 pred_amin (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
302 (void) &pathname;
303 return pred_timewindow(get_stat_atime(stat_buf), pred_ptr, 60);
306 boolean
307 pred_and (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
309 if (pred_ptr->pred_left == NULL
310 || apply_predicate(pathname, stat_buf, pred_ptr->pred_left))
312 return apply_predicate(pathname, stat_buf, pred_ptr->pred_right);
314 else
315 return false;
318 boolean
319 pred_anewer (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
321 (void) &pathname;
322 assert(COMP_GT == pred_ptr->args.reftime.kind);
323 return compare_ts(get_stat_atime(stat_buf), pred_ptr->args.reftime.ts) > 0;
326 boolean
327 pred_atime (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
329 (void) &pathname;
330 return pred_timewindow(get_stat_atime(stat_buf), pred_ptr, DAYSECS);
333 boolean
334 pred_closeparen (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
336 (void) &pathname;
337 (void) &stat_buf;
338 (void) &pred_ptr;
340 return true;
343 boolean
344 pred_cmin (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
346 (void) pathname;
347 return pred_timewindow(get_stat_ctime(stat_buf), pred_ptr, 60);
350 boolean
351 pred_cnewer (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
353 (void) pathname;
355 assert(COMP_GT == pred_ptr->args.reftime.kind);
356 return compare_ts(get_stat_ctime(stat_buf), pred_ptr->args.reftime.ts) > 0;
359 boolean
360 pred_comma (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
362 if (pred_ptr->pred_left != NULL)
364 apply_predicate(pathname, stat_buf,pred_ptr->pred_left);
366 return apply_predicate(pathname, stat_buf, pred_ptr->pred_right);
369 boolean
370 pred_ctime (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
372 (void) &pathname;
373 return pred_timewindow(get_stat_ctime(stat_buf), pred_ptr, DAYSECS);
376 static boolean
377 perform_delete(int flags)
379 return 0 == unlinkat(state.cwd_dir_fd, state.rel_pathname, flags);
383 boolean
384 pred_delete (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
386 (void) pred_ptr;
387 (void) stat_buf;
388 if (strcmp (state.rel_pathname, "."))
390 int flags=0;
391 if (state.have_stat && S_ISDIR(stat_buf->st_mode))
392 flags |= AT_REMOVEDIR;
393 if (perform_delete(flags))
395 return true;
397 else
399 if (EISDIR == errno)
401 if ((flags & AT_REMOVEDIR) == 0)
403 /* unlink() operation failed because we should have done rmdir(). */
404 flags |= AT_REMOVEDIR;
405 if (perform_delete(flags))
406 return true;
410 error (0, errno, "cannot delete %s",
411 safely_quote_err_filename(0, pathname));
412 return false;
414 else
416 /* nothing to do. */
417 return true;
421 boolean
422 pred_empty (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
424 (void) pathname;
425 (void) pred_ptr;
427 if (S_ISDIR (stat_buf->st_mode))
429 int fd;
430 DIR *d;
431 struct dirent *dp;
432 boolean empty = true;
434 errno = 0;
435 if ((fd = openat(state.cwd_dir_fd, state.rel_pathname, O_RDONLY
436 #if defined O_LARGEFILE
437 |O_LARGEFILE
438 #endif
439 )) < 0)
441 error (0, errno, "%s", safely_quote_err_filename(0, pathname));
442 state.exit_status = 1;
443 return false;
445 d = fdopendir (fd);
446 if (d == NULL)
448 error (0, errno, "%s", safely_quote_err_filename(0, pathname));
449 state.exit_status = 1;
450 return false;
452 for (dp = readdir (d); dp; dp = readdir (d))
454 if (dp->d_name[0] != '.'
455 || (dp->d_name[1] != '\0'
456 && (dp->d_name[1] != '.' || dp->d_name[2] != '\0')))
458 empty = false;
459 break;
462 if (CLOSEDIR (d))
464 error (0, errno, "%s", safely_quote_err_filename(0, pathname));
465 state.exit_status = 1;
466 return false;
468 return (empty);
470 else if (S_ISREG (stat_buf->st_mode))
471 return (stat_buf->st_size == 0);
472 else
473 return (false);
476 static boolean
477 new_impl_pred_exec (int dirfd, const char *pathname,
478 struct stat *stat_buf,
479 struct predicate *pred_ptr,
480 const char *prefix, size_t pfxlen)
482 struct exec_val *execp = &pred_ptr->args.exec_vec;
483 size_t len = strlen(pathname);
485 (void) stat_buf;
486 execp->dirfd = dirfd;
487 if (execp->multiple)
489 /* Push the argument onto the current list.
490 * The command may or may not be run at this point,
491 * depending on the command line length limits.
493 bc_push_arg(&execp->ctl,
494 &execp->state,
495 pathname, len+1,
496 prefix, pfxlen,
499 /* remember that there are pending execdirs. */
500 state.execdirs_outstanding = true;
502 /* POSIX: If the primary expression is punctuated by a plus
503 * sign, the primary shall always evaluate as true
505 return true;
507 else
509 int i;
511 for (i=0; i<execp->num_args; ++i)
513 bc_do_insert(&execp->ctl,
514 &execp->state,
515 execp->replace_vec[i],
516 strlen(execp->replace_vec[i]),
517 prefix, pfxlen,
518 pathname, len,
522 /* Actually invoke the command. */
523 return execp->ctl.exec_callback(&execp->ctl,
524 &execp->state);
529 boolean
530 pred_exec (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
532 return new_impl_pred_exec(get_start_dirfd(),
533 pathname, stat_buf, pred_ptr, NULL, 0);
536 boolean
537 pred_execdir (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
539 const char *prefix = (state.rel_pathname[0] == '/') ? NULL : "./";
540 (void) &pathname;
541 return new_impl_pred_exec (get_current_dirfd(),
542 state.rel_pathname, stat_buf, pred_ptr,
543 prefix, (prefix ? 2 : 0));
546 boolean
547 pred_false (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
549 (void) &pathname;
550 (void) &stat_buf;
551 (void) &pred_ptr;
554 return (false);
557 boolean
558 pred_fls (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
560 FILE * stream = pred_ptr->args.printf_vec.stream;
561 list_file (pathname, state.cwd_dir_fd, state.rel_pathname, stat_buf,
562 options.start_time.tv_sec,
563 options.output_block_size,
564 pred_ptr->literal_control_chars, stream);
565 return true;
568 boolean
569 pred_fprint (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
571 (void) &pathname;
572 (void) &stat_buf;
574 print_quoted(pred_ptr->args.printf_vec.stream,
575 pred_ptr->args.printf_vec.quote_opts,
576 pred_ptr->args.printf_vec.dest_is_tty,
577 "%s\n",
578 pathname);
579 return true;
582 boolean
583 pred_fprint0 (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
585 FILE * fp = pred_ptr->args.printf_vec.stream;
587 (void) &stat_buf;
589 fputs (pathname, fp);
590 putc (0, fp);
591 return true;
596 static char*
597 mode_to_filetype(mode_t m)
599 #define HANDLE_TYPE(t,letter) if (m==t) { return letter; }
600 #ifdef S_IFREG
601 HANDLE_TYPE(S_IFREG, "f"); /* regular file */
602 #endif
603 #ifdef S_IFDIR
604 HANDLE_TYPE(S_IFDIR, "d"); /* directory */
605 #endif
606 #ifdef S_IFLNK
607 HANDLE_TYPE(S_IFLNK, "l"); /* symbolic link */
608 #endif
609 #ifdef S_IFSOCK
610 HANDLE_TYPE(S_IFSOCK, "s"); /* Unix domain socket */
611 #endif
612 #ifdef S_IFBLK
613 HANDLE_TYPE(S_IFBLK, "b"); /* block device */
614 #endif
615 #ifdef S_IFCHR
616 HANDLE_TYPE(S_IFCHR, "c"); /* character device */
617 #endif
618 #ifdef S_IFIFO
619 HANDLE_TYPE(S_IFIFO, "p"); /* FIFO */
620 #endif
621 #ifdef S_IFDOOR
622 HANDLE_TYPE(S_IFDOOR, "D"); /* Door (e.g. on Solaris) */
623 #endif
624 return "U"; /* Unknown */
627 static double
628 file_sparseness(const struct stat *p)
630 #if defined(HAVE_STRUCT_STAT_ST_BLOCKS)
631 if (0 == p->st_size)
633 if (0 == p->st_blocks)
634 return 1.0;
635 else
636 return p->st_blocks < 0 ? -HUGE_VAL : HUGE_VAL;
638 else
640 double blklen = file_blocksize(p) * (double)p->st_blocks;
641 return blklen / p->st_size;
643 #else
644 return 1.0;
645 #endif
650 static void
651 checked_fprintf(struct format_val *dest, const char *fmt, ...)
653 int rv;
654 va_list ap;
656 va_start(ap, fmt);
657 rv = vfprintf(dest->stream, fmt, ap);
658 if (rv < 0)
659 nonfatal_file_error(dest->filename);
663 static void
664 checked_print_quoted (struct format_val *dest,
665 const char *format, const char *s)
667 int rv = print_quoted(dest->stream, dest->quote_opts, dest->dest_is_tty,
668 format, s);
669 if (rv < 0)
670 nonfatal_file_error(dest->filename);
674 static void
675 checked_fwrite(void *p, size_t siz, size_t nmemb, struct format_val *dest)
677 int items_written = fwrite(p, siz, nmemb, dest->stream);
678 if (items_written < nmemb)
679 nonfatal_file_error(dest->filename);
682 static void
683 checked_fflush(struct format_val *dest)
685 if (0 != fflush(dest->stream))
687 nonfatal_file_error(dest->filename);
691 static void
692 do_fprintf(struct format_val *dest,
693 struct segment *segment,
694 const char *pathname,
695 const struct stat *stat_buf)
697 char hbuf[LONGEST_HUMAN_READABLE + 1];
698 const char *cp;
700 switch (segment->segkind)
702 case KIND_PLAIN: /* Plain text string (no % conversion). */
703 /* trusted */
704 checked_fwrite(segment->text, 1, segment->text_len, dest);
705 break;
707 case KIND_STOP: /* Terminate argument and flush output. */
708 /* trusted */
709 checked_fwrite(segment->text, 1, segment->text_len, dest);
710 checked_fflush(dest);
711 break;
713 case KIND_FORMAT:
714 switch (segment->format_char[0])
716 case 'a': /* atime in `ctime' format. */
717 /* UNTRUSTED, probably unexploitable */
718 checked_fprintf (dest, segment->text, ctime_format (get_stat_atime(stat_buf)));
719 break;
720 case 'b': /* size in 512-byte blocks */
721 /* UNTRUSTED, probably unexploitable */
722 checked_fprintf (dest, segment->text,
723 human_readable ((uintmax_t) ST_NBLOCKS (*stat_buf),
724 hbuf, human_ceiling,
725 ST_NBLOCKSIZE, 512));
726 break;
727 case 'c': /* ctime in `ctime' format */
728 /* UNTRUSTED, probably unexploitable */
729 checked_fprintf (dest, segment->text, ctime_format (get_stat_ctime(stat_buf)));
730 break;
731 case 'd': /* depth in search tree */
732 /* UNTRUSTED, probably unexploitable */
733 checked_fprintf (dest, segment->text, state.curdepth);
734 break;
735 case 'D': /* Device on which file exists (stat.st_dev) */
736 /* trusted */
737 checked_fprintf (dest, segment->text,
738 human_readable ((uintmax_t) stat_buf->st_dev, hbuf,
739 human_ceiling, 1, 1));
740 break;
741 case 'f': /* base name of path */
742 /* sanitised */
743 checked_print_quoted (dest, segment->text, base_name (pathname));
744 break;
745 case 'F': /* filesystem type */
746 /* trusted */
747 checked_print_quoted (dest, segment->text, filesystem_type (stat_buf, pathname));
748 break;
749 case 'g': /* group name */
750 /* trusted */
751 /* (well, the actual group is selected by the user but
752 * its name was selected by the system administrator)
755 struct group *g;
757 g = getgrgid (stat_buf->st_gid);
758 if (g)
760 segment->text[segment->text_len] = 's';
761 checked_fprintf (dest, segment->text, g->gr_name);
762 break;
764 else
766 /* Do nothing. */
767 /*FALLTHROUGH*/
770 /*FALLTHROUGH*/ /*...sometimes, so 'G' case.*/
772 case 'G': /* GID number */
773 /* UNTRUSTED, probably unexploitable */
774 checked_fprintf (dest, segment->text,
775 human_readable ((uintmax_t) stat_buf->st_gid, hbuf,
776 human_ceiling, 1, 1));
777 break;
778 case 'h': /* leading directories part of path */
779 /* sanitised */
781 cp = strrchr (pathname, '/');
782 if (cp == NULL) /* No leading directories. */
784 /* If there is no slash in the pathname, we still
785 * print the string because it contains characters
786 * other than just '%s'. The %h expands to ".".
788 checked_print_quoted (dest, segment->text, ".");
790 else
792 char *s = strdup(pathname);
793 s[cp - pathname] = 0;
794 checked_print_quoted (dest, segment->text, s);
795 free(s);
798 break;
800 case 'H': /* ARGV element file was found under */
801 /* trusted */
803 char *s = xmalloc(state.starting_path_length+1);
804 memcpy(s, pathname, state.starting_path_length);
805 s[state.starting_path_length] = 0;
806 checked_fprintf (dest, segment->text, s);
807 free(s);
809 break;
811 case 'i': /* inode number */
812 /* UNTRUSTED, but not exploitable I think */
813 checked_fprintf (dest, segment->text,
814 human_readable ((uintmax_t) stat_buf->st_ino, hbuf,
815 human_ceiling,
816 1, 1));
817 break;
818 case 'k': /* size in 1K blocks */
819 /* UNTRUSTED, but not exploitable I think */
820 checked_fprintf (dest, segment->text,
821 human_readable ((uintmax_t) ST_NBLOCKS (*stat_buf),
822 hbuf, human_ceiling,
823 ST_NBLOCKSIZE, 1024));
824 break;
825 case 'l': /* object of symlink */
826 /* sanitised */
827 #ifdef S_ISLNK
829 char *linkname = 0;
831 if (S_ISLNK (stat_buf->st_mode))
833 linkname = get_link_name_at (pathname, state.cwd_dir_fd, state.rel_pathname);
834 if (linkname == 0)
835 state.exit_status = 1;
837 if (linkname)
839 checked_print_quoted (dest, segment->text, linkname);
840 free (linkname);
842 else
844 /* We still need to honour the field width etc., so this is
845 * not a no-op.
847 checked_print_quoted (dest, segment->text, "");
850 #endif /* S_ISLNK */
851 break;
853 case 'M': /* mode as 10 chars (eg., "-rwxr-x--x" */
854 /* UNTRUSTED, probably unexploitable */
856 char modestring[16] ;
857 filemodestring (stat_buf, modestring);
858 modestring[10] = '\0';
859 checked_fprintf (dest, segment->text, modestring);
861 break;
863 case 'm': /* mode as octal number (perms only) */
864 /* UNTRUSTED, probably unexploitable */
866 /* Output the mode portably using the traditional numbers,
867 even if the host unwisely uses some other numbering
868 scheme. But help the compiler in the common case where
869 the host uses the traditional numbering scheme. */
870 mode_t m = stat_buf->st_mode;
871 boolean traditional_numbering_scheme =
872 (S_ISUID == 04000 && S_ISGID == 02000 && S_ISVTX == 01000
873 && S_IRUSR == 00400 && S_IWUSR == 00200 && S_IXUSR == 00100
874 && S_IRGRP == 00040 && S_IWGRP == 00020 && S_IXGRP == 00010
875 && S_IROTH == 00004 && S_IWOTH == 00002 && S_IXOTH == 00001);
876 checked_fprintf (dest, segment->text,
877 (traditional_numbering_scheme
878 ? m & MODE_ALL
879 : ((m & S_ISUID ? 04000 : 0)
880 | (m & S_ISGID ? 02000 : 0)
881 | (m & S_ISVTX ? 01000 : 0)
882 | (m & S_IRUSR ? 00400 : 0)
883 | (m & S_IWUSR ? 00200 : 0)
884 | (m & S_IXUSR ? 00100 : 0)
885 | (m & S_IRGRP ? 00040 : 0)
886 | (m & S_IWGRP ? 00020 : 0)
887 | (m & S_IXGRP ? 00010 : 0)
888 | (m & S_IROTH ? 00004 : 0)
889 | (m & S_IWOTH ? 00002 : 0)
890 | (m & S_IXOTH ? 00001 : 0))));
892 break;
894 case 'n': /* number of links */
895 /* UNTRUSTED, probably unexploitable */
896 checked_fprintf (dest, segment->text,
897 human_readable ((uintmax_t) stat_buf->st_nlink,
898 hbuf,
899 human_ceiling,
900 1, 1));
901 break;
903 case 'p': /* pathname */
904 /* sanitised */
905 checked_print_quoted (dest, segment->text, pathname);
906 break;
908 case 'P': /* pathname with ARGV element stripped */
909 /* sanitised */
910 if (state.curdepth > 0)
912 cp = pathname + state.starting_path_length;
913 if (*cp == '/')
914 /* Move past the slash between the ARGV element
915 and the rest of the pathname. But if the ARGV element
916 ends in a slash, we didn't add another, so we've
917 already skipped past it. */
918 cp++;
920 else
922 cp = "";
924 checked_print_quoted (dest, segment->text, cp);
925 break;
927 case 's': /* size in bytes */
928 /* UNTRUSTED, probably unexploitable */
929 checked_fprintf (dest, segment->text,
930 human_readable ((uintmax_t) stat_buf->st_size,
931 hbuf, human_ceiling, 1, 1));
932 break;
934 case 'S': /* sparseness */
935 /* UNTRUSTED, probably unexploitable */
936 checked_fprintf (dest, segment->text, file_sparseness(stat_buf));;
937 break;
939 case 't': /* mtime in `ctime' format */
940 /* UNTRUSTED, probably unexploitable */
941 checked_fprintf (dest, segment->text,
942 ctime_format (get_stat_mtime(stat_buf)));
943 break;
945 case 'u': /* user name */
946 /* trusted */
947 /* (well, the actual user is selected by the user on systems
948 * where chown is not restricted, but the user name was
949 * selected by the system administrator)
952 struct passwd *p;
954 p = getpwuid (stat_buf->st_uid);
955 if (p)
957 segment->text[segment->text_len] = 's';
958 checked_fprintf (dest, segment->text, p->pw_name);
959 break;
961 /* else fallthru */
963 /* FALLTHROUGH*/ /* .. to case U */
965 case 'U': /* UID number */
966 /* UNTRUSTED, probably unexploitable */
967 checked_fprintf (dest, segment->text,
968 human_readable ((uintmax_t) stat_buf->st_uid, hbuf,
969 human_ceiling, 1, 1));
970 break;
972 /* %Y: type of filesystem entry like `ls -l`:
973 * (d,-,l,s,p,b,c,n) n=nonexistent(symlink)
975 case 'Y': /* in case of symlink */
976 /* trusted */
978 #ifdef S_ISLNK
979 if (S_ISLNK (stat_buf->st_mode))
981 struct stat sbuf;
982 /* If we would normally follow links, do not do so.
983 * If we would normally not follow links, do so.
985 if ((following_links() ? lstat : stat)
986 (state.rel_pathname, &sbuf) != 0)
988 if ( errno == ENOENT )
990 checked_fprintf (dest, segment->text, "N");
991 break;
993 else if ( errno == ELOOP )
995 checked_fprintf (dest, segment->text, "L");
996 break;
998 else
1000 checked_fprintf (dest, segment->text, "?");
1001 error (0, errno, "%s",
1002 safely_quote_err_filename(0, pathname));
1003 /* exit_status = 1;
1004 return ; */
1005 break;
1008 checked_fprintf (dest, segment->text,
1009 mode_to_filetype(sbuf.st_mode & S_IFMT));
1011 #endif /* S_ISLNK */
1012 else
1014 checked_fprintf (dest, segment->text,
1015 mode_to_filetype(stat_buf->st_mode & S_IFMT));
1018 break;
1020 case 'y':
1021 /* trusted */
1023 checked_fprintf (dest, segment->text,
1024 mode_to_filetype(stat_buf->st_mode & S_IFMT));
1026 break;
1028 /* end of KIND_FORMAT case */
1029 break;
1033 boolean
1034 pred_fprintf (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1036 struct format_val *dest = &pred_ptr->args.printf_vec;
1037 struct segment *segment;
1039 for (segment = dest->segment; segment; segment = segment->next)
1041 if ( (KIND_FORMAT == segment->segkind) && segment->format_char[1]) /* Component of date. */
1043 struct timespec ts;
1044 int valid = 0;
1046 switch (segment->format_char[0])
1048 case 'A':
1049 ts = get_stat_atime(stat_buf);
1050 valid = 1;
1051 break;
1052 case 'B':
1053 ts = get_stat_birthtime(stat_buf);
1054 if ('@' == segment->format_char[1])
1055 valid = 1;
1056 else
1057 valid = (ts.tv_nsec >= 0);
1058 break;
1059 case 'C':
1060 ts = get_stat_ctime(stat_buf);
1061 valid = 1;
1062 break;
1063 case 'T':
1064 ts = get_stat_mtime(stat_buf);
1065 valid = 1;
1066 break;
1067 default:
1068 assert(0);
1069 abort ();
1071 /* We trust the output of format_date not to contain
1072 * nasty characters, though the value of the date
1073 * is itself untrusted data.
1075 if (valid)
1077 /* trusted */
1078 checked_fprintf (dest, segment->text,
1079 format_date (ts, segment->format_char[1]));
1081 else
1083 /* The specified timestamp is not available, output
1084 * nothing for the timestamp, but use the rest (so that
1085 * for example find foo -printf '[%Bs] %p\n' can print
1086 * "[] foo").
1088 /* trusted */
1089 checked_fprintf (dest, segment->text, "");
1092 else
1094 /* Print a segment which is not a date. */
1095 do_fprintf(dest, segment, pathname, stat_buf);
1098 return true;
1101 boolean
1102 pred_fstype (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1104 (void) pathname;
1106 if (strcmp (filesystem_type (stat_buf, pathname), pred_ptr->args.str) == 0)
1107 return true;
1108 else
1109 return false;
1112 boolean
1113 pred_gid (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1115 (void) pathname;
1117 switch (pred_ptr->args.numinfo.kind)
1119 case COMP_GT:
1120 if (stat_buf->st_gid > pred_ptr->args.numinfo.l_val)
1121 return (true);
1122 break;
1123 case COMP_LT:
1124 if (stat_buf->st_gid < pred_ptr->args.numinfo.l_val)
1125 return (true);
1126 break;
1127 case COMP_EQ:
1128 if (stat_buf->st_gid == pred_ptr->args.numinfo.l_val)
1129 return (true);
1130 break;
1132 return (false);
1135 boolean
1136 pred_group (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1138 (void) pathname;
1140 if (pred_ptr->args.gid == stat_buf->st_gid)
1141 return (true);
1142 else
1143 return (false);
1146 boolean
1147 pred_ilname (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1149 return match_lname (pathname, stat_buf, pred_ptr, true);
1152 boolean
1153 pred_iname (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1155 const char *base;
1157 (void) stat_buf;
1159 /* FNM_PERIOD is not used here because POSIX requires that it not be.
1160 * See http://standards.ieee.org/reading/ieee/interp/1003-2-92_int/pasc-1003.2-126.html
1162 base = base_name (pathname);
1163 if (fnmatch (pred_ptr->args.str, base, FNM_CASEFOLD) == 0)
1164 return (true);
1165 return (false);
1168 boolean
1169 pred_inum (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1171 (void) pathname;
1173 switch (pred_ptr->args.numinfo.kind)
1175 case COMP_GT:
1176 if (stat_buf->st_ino > pred_ptr->args.numinfo.l_val)
1177 return (true);
1178 break;
1179 case COMP_LT:
1180 if (stat_buf->st_ino < pred_ptr->args.numinfo.l_val)
1181 return (true);
1182 break;
1183 case COMP_EQ:
1184 if (stat_buf->st_ino == pred_ptr->args.numinfo.l_val)
1185 return (true);
1186 break;
1188 return (false);
1191 boolean
1192 pred_ipath (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1194 (void) stat_buf;
1196 if (fnmatch (pred_ptr->args.str, pathname, FNM_CASEFOLD) == 0)
1197 return (true);
1198 return (false);
1201 boolean
1202 pred_links (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1204 (void) pathname;
1206 switch (pred_ptr->args.numinfo.kind)
1208 case COMP_GT:
1209 if (stat_buf->st_nlink > pred_ptr->args.numinfo.l_val)
1210 return (true);
1211 break;
1212 case COMP_LT:
1213 if (stat_buf->st_nlink < pred_ptr->args.numinfo.l_val)
1214 return (true);
1215 break;
1216 case COMP_EQ:
1217 if (stat_buf->st_nlink == pred_ptr->args.numinfo.l_val)
1218 return (true);
1219 break;
1221 return (false);
1224 boolean
1225 pred_lname (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1227 return match_lname (pathname, stat_buf, pred_ptr, false);
1230 static boolean
1231 match_lname (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr, boolean ignore_case)
1233 boolean ret = false;
1234 #ifdef S_ISLNK
1235 if (S_ISLNK (stat_buf->st_mode))
1237 char *linkname = get_link_name_at (pathname, state.cwd_dir_fd, state.rel_pathname);
1238 if (linkname)
1240 if (fnmatch (pred_ptr->args.str, linkname,
1241 ignore_case ? FNM_CASEFOLD : 0) == 0)
1242 ret = true;
1243 free (linkname);
1246 #endif /* S_ISLNK */
1247 return ret;
1250 boolean
1251 pred_ls (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1253 return pred_fls(pathname, stat_buf, pred_ptr);
1256 boolean
1257 pred_mmin (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1259 (void) &pathname;
1260 return pred_timewindow(get_stat_mtime(stat_buf), pred_ptr, 60);
1263 boolean
1264 pred_mtime (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1266 (void) pathname;
1267 return pred_timewindow(get_stat_mtime(stat_buf), pred_ptr, DAYSECS);
1270 boolean
1271 pred_name (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1273 const char *base;
1275 (void) stat_buf;
1276 base = base_name (pathname);
1278 /* FNM_PERIOD is not used here because POSIX requires that it not be.
1279 * See http://standards.ieee.org/reading/ieee/interp/1003-2-92_int/pasc-1003.2-126.html
1281 if (fnmatch (pred_ptr->args.str, base, 0) == 0)
1282 return (true);
1283 return (false);
1286 boolean
1287 pred_negate (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1289 return !apply_predicate(pathname, stat_buf, pred_ptr->pred_right);
1292 boolean
1293 pred_newer (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1295 (void) pathname;
1297 assert(COMP_GT == pred_ptr->args.reftime.kind);
1298 return compare_ts(get_stat_mtime(stat_buf), pred_ptr->args.reftime.ts) > 0;
1301 boolean
1302 pred_newerXY (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1304 struct timespec ts;
1305 boolean collected = false;
1307 assert(COMP_GT == pred_ptr->args.reftime.kind);
1309 switch (pred_ptr->args.reftime.xval)
1311 case XVAL_TIME:
1312 assert(pred_ptr->args.reftime.xval != XVAL_TIME);
1313 return false;
1315 case XVAL_ATIME:
1316 ts = get_stat_atime(stat_buf);
1317 collected = true;
1318 break;
1320 case XVAL_BIRTHTIME:
1321 ts = get_stat_birthtime(stat_buf);
1322 collected = true;
1323 if (ts.tv_nsec < 0);
1325 /* XXX: Cannot determine birth time. Warn once. */
1326 error(0, 0, _("Warning: cannot determine birth time of file %s"),
1327 safely_quote_err_filename(0, pathname));
1328 return false;
1330 break;
1332 case XVAL_CTIME:
1333 ts = get_stat_ctime(stat_buf);
1334 collected = true;
1335 break;
1337 case XVAL_MTIME:
1338 ts = get_stat_mtime(stat_buf);
1339 collected = true;
1340 break;
1343 assert(collected);
1344 return compare_ts(ts, pred_ptr->args.reftime.ts) > 0;
1347 boolean
1348 pred_nogroup (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1350 (void) pathname;
1351 (void) pred_ptr;
1353 #ifdef CACHE_IDS
1354 extern char *gid_unused;
1356 return gid_unused[(unsigned) stat_buf->st_gid];
1357 #else
1358 return getgrgid (stat_buf->st_gid) == NULL;
1359 #endif
1362 boolean
1363 pred_nouser (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1365 #ifdef CACHE_IDS
1366 extern char *uid_unused;
1367 #endif
1369 (void) pathname;
1370 (void) pred_ptr;
1372 #ifdef CACHE_IDS
1373 return uid_unused[(unsigned) stat_buf->st_uid];
1374 #else
1375 return getpwuid (stat_buf->st_uid) == NULL;
1376 #endif
1380 static boolean
1381 is_ok(const char *program, const char *arg)
1383 fflush (stdout);
1384 /* The draft open standard requires that, in the POSIX locale,
1385 the last non-blank character of this prompt be '?'.
1386 The exact format is not specified.
1387 This standard does not have requirements for locales other than POSIX
1389 /* XXX: printing UNTRUSTED data here. */
1390 fprintf (stderr, _("< %s ... %s > ? "), program, arg);
1391 fflush (stderr);
1392 return yesno();
1395 boolean
1396 pred_ok (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1398 if (is_ok(pred_ptr->args.exec_vec.replace_vec[0], pathname))
1399 return new_impl_pred_exec (get_start_dirfd(),
1400 pathname, stat_buf, pred_ptr, NULL, 0);
1401 else
1402 return false;
1405 boolean
1406 pred_okdir (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1408 const char *prefix = (state.rel_pathname[0] == '/') ? NULL : "./";
1409 if (is_ok(pred_ptr->args.exec_vec.replace_vec[0], pathname))
1410 return new_impl_pred_exec (get_current_dirfd(),
1411 state.rel_pathname, stat_buf, pred_ptr,
1412 prefix, (prefix ? 2 : 0));
1413 else
1414 return false;
1417 boolean
1418 pred_openparen (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1420 (void) pathname;
1421 (void) stat_buf;
1422 (void) pred_ptr;
1423 return true;
1426 boolean
1427 pred_or (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1429 if (pred_ptr->pred_left == NULL
1430 || !apply_predicate(pathname, stat_buf, pred_ptr->pred_left))
1432 return apply_predicate(pathname, stat_buf, pred_ptr->pred_right);
1434 else
1435 return true;
1438 boolean
1439 pred_path (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1441 (void) stat_buf;
1442 if (fnmatch (pred_ptr->args.str, pathname, 0) == 0)
1443 return (true);
1444 return (false);
1447 boolean
1448 pred_perm (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1450 mode_t mode = stat_buf->st_mode;
1451 mode_t perm_val = pred_ptr->args.perm.val[S_ISDIR (mode) != 0];
1452 (void) pathname;
1453 switch (pred_ptr->args.perm.kind)
1455 case PERM_AT_LEAST:
1456 return (mode & perm_val) == perm_val;
1457 break;
1459 case PERM_ANY:
1460 /* True if any of the bits set in the mask are also set in the file's mode.
1463 * Otherwise, if onum is prefixed by a hyphen, the primary shall
1464 * evaluate as true if at least all of the bits specified in
1465 * onum that are also set in the octal mask 07777 are set.
1467 * Eric Blake's interpretation is that the mode argument is zero,
1470 if (0 == perm_val)
1471 return true; /* Savannah bug 14748; we used to return false */
1472 else
1473 return (mode & perm_val) != 0;
1474 break;
1476 case PERM_EXACT:
1477 return (mode & MODE_ALL) == perm_val;
1478 break;
1480 default:
1481 abort ();
1482 break;
1487 struct access_check_args
1489 const char *filename;
1490 int access_type;
1491 int cb_errno;
1495 static int
1496 access_callback(void *context)
1498 int rv;
1499 struct access_check_args *args = context;
1500 if ((rv = access(args->filename, args->access_type)) < 0)
1501 args->cb_errno = errno;
1502 return rv;
1505 static int
1506 can_access(int access_type)
1508 struct access_check_args args;
1509 args.filename = state.rel_pathname;
1510 args.access_type = access_type;
1511 args.cb_errno = 0;
1512 return 0 == run_in_dir(state.cwd_dir_fd, access_callback, &args);
1516 boolean
1517 pred_executable (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1519 (void) pathname;
1520 (void) stat_buf;
1521 (void) pred_ptr;
1523 return can_access(X_OK);
1526 boolean
1527 pred_readable (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1529 (void) pathname;
1530 (void) stat_buf;
1531 (void) pred_ptr;
1533 return can_access(R_OK);
1536 boolean
1537 pred_writable (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1539 (void) pathname;
1540 (void) stat_buf;
1541 (void) pred_ptr;
1543 return can_access(W_OK);
1546 boolean
1547 pred_print (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1549 (void) stat_buf;
1550 (void) pred_ptr;
1552 print_quoted(pred_ptr->args.printf_vec.stream,
1553 pred_ptr->args.printf_vec.quote_opts,
1554 pred_ptr->args.printf_vec.dest_is_tty,
1555 "%s\n", pathname);
1556 return true;
1559 boolean
1560 pred_print0 (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1562 return pred_fprint0(pathname, stat_buf, pred_ptr);
1565 boolean
1566 pred_prune (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1568 (void) pathname;
1569 (void) pred_ptr;
1571 if (options.do_dir_first == true &&
1572 stat_buf != NULL &&
1573 S_ISDIR(stat_buf->st_mode))
1574 state.stop_at_current_level = true;
1576 return (options.do_dir_first); /* This is what SunOS find seems to do. */
1579 boolean
1580 pred_quit (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1582 (void) pathname;
1583 (void) stat_buf;
1584 (void) pred_ptr;
1586 /* Run any cleanups. This includes executing any command lines
1587 * we have partly built but not executed.
1589 cleanup();
1591 /* Since -exec and friends don't leave child processes running in the
1592 * background, there is no need to wait for them here.
1594 exit(state.exit_status); /* 0 for success, etc. */
1597 boolean
1598 pred_regex (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1600 int len = strlen (pathname);
1601 (void) stat_buf;
1602 if (re_match (pred_ptr->args.regex, pathname, len, 0,
1603 (struct re_registers *) NULL) == len)
1604 return (true);
1605 return (false);
1608 boolean
1609 pred_size (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1611 uintmax_t f_val;
1613 (void) pathname;
1614 f_val = ((stat_buf->st_size / pred_ptr->args.size.blocksize)
1615 + (stat_buf->st_size % pred_ptr->args.size.blocksize != 0));
1616 switch (pred_ptr->args.size.kind)
1618 case COMP_GT:
1619 if (f_val > pred_ptr->args.size.size)
1620 return (true);
1621 break;
1622 case COMP_LT:
1623 if (f_val < pred_ptr->args.size.size)
1624 return (true);
1625 break;
1626 case COMP_EQ:
1627 if (f_val == pred_ptr->args.size.size)
1628 return (true);
1629 break;
1631 return (false);
1634 boolean
1635 pred_samefile (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1637 /* Potential optimisation: because of the loop protection, we always
1638 * know the device of the current directory, hence the device number
1639 * of the file we're currently considering. If -L is not in effect,
1640 * and the device number of the file we're looking for is not the
1641 * same as the device number of the current directory, this
1642 * predicate cannot return true. Hence there would be no need to
1643 * stat the file we're looking at.
1645 (void) pathname;
1647 /* We will often still have an fd open on the file under consideration,
1648 * but that's just to ensure inode number stability by maintaining
1649 * a reference to it; we don't need the file for anything else.
1651 return stat_buf->st_ino == pred_ptr->args.samefileid.ino
1652 && stat_buf->st_dev == pred_ptr->args.samefileid.dev;
1655 boolean
1656 pred_true (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1658 (void) pathname;
1659 (void) stat_buf;
1660 (void) pred_ptr;
1661 return true;
1664 boolean
1665 pred_type (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1667 mode_t mode;
1668 mode_t type = pred_ptr->args.type;
1670 assert(state.have_type);
1672 if (0 == state.type)
1674 /* This can sometimes happen with broken NFS servers.
1675 * See Savannah bug #16378.
1677 return false;
1680 (void) pathname;
1682 if (state.have_stat)
1683 mode = stat_buf->st_mode;
1684 else
1685 mode = state.type;
1687 #ifndef S_IFMT
1688 /* POSIX system; check `mode' the slow way. */
1689 if ((S_ISBLK (mode) && type == S_IFBLK)
1690 || (S_ISCHR (mode) && type == S_IFCHR)
1691 || (S_ISDIR (mode) && type == S_IFDIR)
1692 || (S_ISREG (mode) && type == S_IFREG)
1693 #ifdef S_IFLNK
1694 || (S_ISLNK (mode) && type == S_IFLNK)
1695 #endif
1696 #ifdef S_IFIFO
1697 || (S_ISFIFO (mode) && type == S_IFIFO)
1698 #endif
1699 #ifdef S_IFSOCK
1700 || (S_ISSOCK (mode) && type == S_IFSOCK)
1701 #endif
1702 #ifdef S_IFDOOR
1703 || (S_ISDOOR (mode) && type == S_IFDOOR)
1704 #endif
1706 #else /* S_IFMT */
1707 /* Unix system; check `mode' the fast way. */
1708 if ((mode & S_IFMT) == type)
1709 #endif /* S_IFMT */
1710 return (true);
1711 else
1712 return (false);
1715 boolean
1716 pred_uid (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1718 (void) pathname;
1719 switch (pred_ptr->args.numinfo.kind)
1721 case COMP_GT:
1722 if (stat_buf->st_uid > pred_ptr->args.numinfo.l_val)
1723 return (true);
1724 break;
1725 case COMP_LT:
1726 if (stat_buf->st_uid < pred_ptr->args.numinfo.l_val)
1727 return (true);
1728 break;
1729 case COMP_EQ:
1730 if (stat_buf->st_uid == pred_ptr->args.numinfo.l_val)
1731 return (true);
1732 break;
1734 return (false);
1737 boolean
1738 pred_used (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1740 struct timespec delta, at, ct;
1742 (void) pathname;
1744 /* TODO: this needs to be retested carefully (manually, if necessary) */
1745 at = get_stat_atime(stat_buf);
1746 ct = get_stat_ctime(stat_buf);
1747 delta.tv_sec = at.tv_sec - ct.tv_sec;
1748 delta.tv_nsec = at.tv_nsec - ct.tv_nsec;
1749 if (delta.tv_nsec < 0)
1751 delta.tv_nsec += 1000000000;
1752 delta.tv_sec -= 1;
1754 return pred_timewindow(delta, pred_ptr, DAYSECS);
1757 boolean
1758 pred_user (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1760 (void) pathname;
1761 if (pred_ptr->args.uid == stat_buf->st_uid)
1762 return (true);
1763 else
1764 return (false);
1767 boolean
1768 pred_xtype (const char *pathname, struct stat *stat_buf, struct predicate *pred_ptr)
1770 struct stat sbuf; /* local copy, not stat_buf because we're using a different stat method */
1771 int (*ystat) (const char*, struct stat *p);
1773 /* If we would normally stat the link itself, stat the target instead.
1774 * If we would normally follow the link, stat the link itself instead.
1776 if (following_links())
1777 ystat = optionp_stat;
1778 else
1779 ystat = optionl_stat;
1781 set_stat_placeholders(&sbuf);
1782 if ((*ystat) (state.rel_pathname, &sbuf) != 0)
1784 if (following_links() && errno == ENOENT)
1786 /* If we failed to follow the symlink,
1787 * fall back on looking at the symlink itself.
1789 /* Mimic behavior of ls -lL. */
1790 return (pred_type (pathname, stat_buf, pred_ptr));
1792 else
1794 error (0, errno, "%s", safely_quote_err_filename(0, pathname));
1795 state.exit_status = 1;
1797 return false;
1799 /* Now that we have our stat() information, query it in the same
1800 * way that -type does.
1802 return (pred_type (pathname, &sbuf, pred_ptr));
1805 /* 1) fork to get a child; parent remembers the child pid
1806 2) child execs the command requested
1807 3) parent waits for child; checks for proper pid of child
1809 Possible returns:
1811 ret errno status(h) status(l)
1813 pid x signal# 0177 stopped
1814 pid x exit arg 0 term by _exit
1815 pid x 0 signal # term by signal
1816 -1 EINTR parent got signal
1817 -1 other some other kind of error
1819 Return true only if the pid matches, status(l) is
1820 zero, and the exit arg (status high) is 0.
1821 Otherwise return false, possibly printing an error message. */
1824 static boolean
1825 prep_child_for_exec (boolean close_stdin, int dirfd)
1827 boolean ok = true;
1828 if (close_stdin)
1830 const char inputfile[] = "/dev/null";
1832 if (close(0) < 0)
1834 error(0, errno, _("Cannot close standard input"));
1835 ok = false;
1837 else
1839 if (open(inputfile, O_RDONLY
1840 #if defined O_LARGEFILE
1841 |O_LARGEFILE
1842 #endif
1843 ) < 0)
1845 /* This is not entirely fatal, since
1846 * executing the child with a closed
1847 * stdin is almost as good as executing it
1848 * with its stdin attached to /dev/null.
1850 error (0, errno, "%s", safely_quote_err_filename(0, inputfile));
1851 /* do not set ok=false, it is OK to continue anyway. */
1856 /* Even if DebugSearch is set, don't announce our change of
1857 * directory, since we're not going to emit a subsequent
1858 * announcement of a call to stat() anyway, as we're about to exec
1859 * something.
1861 if (dirfd != AT_FDCWD)
1863 assert(dirfd >= 0);
1864 if (0 != fchdir(dirfd))
1866 /* If we cannot execute our command in the correct directory,
1867 * we should not execute it at all.
1869 error(0, errno, _("Failed to change directory"));
1870 ok = false;
1873 return ok;
1879 launch (const struct buildcmd_control *ctl,
1880 struct buildcmd_state *buildstate)
1882 int wait_status;
1883 pid_t child_pid;
1884 static int first_time = 1;
1885 const struct exec_val *execp = buildstate->usercontext;
1887 if (!execp->use_current_dir)
1889 assert(starting_desc >= 0);
1890 assert(execp->dirfd == starting_desc);
1894 /* Null terminate the arg list. */
1895 bc_push_arg (ctl, buildstate, (char *) NULL, 0, NULL, 0, false);
1897 /* Make sure output of command doesn't get mixed with find output. */
1898 fflush (stdout);
1899 fflush (stderr);
1901 /* Make sure to listen for the kids. */
1902 if (first_time)
1904 first_time = 0;
1905 signal (SIGCHLD, SIG_DFL);
1908 child_pid = fork ();
1909 if (child_pid == -1)
1910 error (1, errno, _("cannot fork"));
1911 if (child_pid == 0)
1913 /* We are the child. */
1914 assert(starting_desc >= 0);
1915 if (!prep_child_for_exec(execp->close_stdin, execp->dirfd))
1917 _exit(1);
1920 execvp (buildstate->cmd_argv[0], buildstate->cmd_argv);
1921 error (0, errno, "%s",
1922 safely_quote_err_filename(0, buildstate->cmd_argv[0]));
1923 _exit (1);
1927 /* In parent; set up for next time. */
1928 bc_clear_args(ctl, buildstate);
1931 while (waitpid (child_pid, &wait_status, 0) == (pid_t) -1)
1933 if (errno != EINTR)
1935 error (0, errno, _("error waiting for %s"),
1936 safely_quote_err_filename(0, buildstate->cmd_argv[0]));
1937 state.exit_status = 1;
1938 return 0; /* FAIL */
1942 if (WIFSIGNALED (wait_status))
1944 error (0, 0, _("%s terminated by signal %d"),
1945 quotearg_n_style(0, options.err_quoting_style,
1946 buildstate->cmd_argv[0]),
1947 WTERMSIG (wait_status));
1949 if (execp->multiple)
1951 /* -exec \; just returns false if the invoked command fails.
1952 * -exec {} + returns true if the invoked command fails, but
1953 * sets the program exit status.
1955 state.exit_status = 1;
1958 return 1; /* OK */
1961 if (0 == WEXITSTATUS (wait_status))
1963 return 1; /* OK */
1965 else
1967 if (execp->multiple)
1969 /* -exec \; just returns false if the invoked command fails.
1970 * -exec {} + returns true if the invoked command fails, but
1971 * sets the program exit status.
1973 state.exit_status = 1;
1975 return 0; /* FAIL */
1981 /* Return a static string formatting the time WHEN according to the
1982 * strftime format character KIND.
1984 * This function contains a number of assertions. These look like
1985 * runtime checks of the results of computations, which would be a
1986 * problem since external events should not be tested for with
1987 * "assert" (instead you should use "if"). However, they are not
1988 * really runtime checks. The assertions actually exist to verify
1989 * that the various buffers are correctly sized.
1991 static char *
1992 format_date (struct timespec ts, int kind)
1994 /* In theory, we use an extra 10 characters for 9 digits of
1995 * nanoseconds and 1 for the decimal point. However, the real
1996 * world is more complex than that.
1998 * For example, some systems return junk in the tv_nsec part of
1999 * st_birthtime. An example of this is the NetBSD-4.0-RELENG kernel
2000 * (at Sat Mar 24 18:46:46 2007) running a NetBSD-3.1-RELEASE
2001 * runtime and examining files on an msdos filesytem. So for that
2002 * reason we set NS_BUF_LEN to 32, which is simply "long enough" as
2003 * opposed to "exactly the right size". Note that the behaviour of
2004 * NetBSD appears to be a result of the use of uninitialised data,
2005 * as it's not 100% reproducible (more like 25%).
2007 enum {
2008 NS_BUF_LEN = 32,
2009 DATE_LEN_PERCENT_APLUS=21 /* length of result of %A+ (it's longer than %c)*/
2011 static char buf[128u+10u + MAX(DATE_LEN_PERCENT_APLUS,
2012 MAX (LONGEST_HUMAN_READABLE + 2, NS_BUF_LEN+64+200))];
2013 char ns_buf[NS_BUF_LEN]; /* -.9999999990 (- sign can happen!)*/
2014 int charsprinted, need_ns_suffix;
2015 struct tm *tm;
2016 char fmt[6];
2018 /* human_readable() assumes we pass a buffer which is at least as
2019 * long as LONGEST_HUMAN_READABLE. We use an assertion here to
2020 * ensure that no nasty unsigned overflow happend in our calculation
2021 * of the size of buf. Do the assertion here rather than in the
2022 * code for %@ so that we find the problem quickly if it exists. If
2023 * you want to submit a patch to move this into the if statement, go
2024 * ahead, I'll apply it. But include performance timings
2025 * demonstrating that the performance difference is actually
2026 * measurable.
2028 assert(sizeof(buf) >= LONGEST_HUMAN_READABLE);
2030 charsprinted = 0;
2031 need_ns_suffix = 0;
2033 /* Format the main part of the time. */
2034 if (kind == '+')
2036 strcpy (fmt, "%F+%T");
2037 need_ns_suffix = 1;
2039 else
2041 fmt[0] = '%';
2042 fmt[1] = kind;
2043 fmt[2] = '\0';
2045 /* %a, %c, and %t are handled in ctime_format() */
2046 switch (kind)
2048 case 'S':
2049 case 'T':
2050 case 'X':
2051 case '@':
2052 need_ns_suffix = 1;
2053 break;
2054 default:
2055 need_ns_suffix = 0;
2056 break;
2060 if (need_ns_suffix)
2062 /* Format the nanoseconds part. Leave a trailing zero to
2063 * discourage people from writing scripts which extract the
2064 * fractional part of the timestamp by using column offsets.
2065 * The reason for discouraging this is that in the future, the
2066 * granularity may not be nanoseconds.
2068 ns_buf[0] = 0;
2069 charsprinted = snprintf(ns_buf, NS_BUF_LEN, ".%09ld0", (long int)ts.tv_nsec);
2070 assert(charsprinted < NS_BUF_LEN);
2073 if (kind != '@'
2074 && (tm = localtime (&ts.tv_sec))
2075 && strftime (buf, sizeof buf, fmt, tm))
2077 /* For %AS, %CS, %TS, add the fractional part of the seconds
2078 * information.
2080 if (need_ns_suffix)
2082 assert((sizeof buf - strlen(buf)) > strlen(ns_buf));
2083 strcat(buf, ns_buf);
2085 return buf;
2087 else
2089 uintmax_t w = ts.tv_sec;
2090 size_t used, len, remaining;
2092 /* XXX: note that we are negating an unsigned type which is the
2093 * widest possible unsigned type.
2095 char *p = human_readable (ts.tv_sec < 0 ? -w : w, buf + 1,
2096 human_ceiling, 1, 1);
2097 assert(p > buf);
2098 assert(p < (buf + (sizeof buf)));
2099 if (ts.tv_sec < 0)
2100 *--p = '-'; /* XXX: Ugh, relying on internal details of human_readable(). */
2102 /* Add the nanoseconds part. Because we cannot enforce a
2103 * particlar implementation of human_readable, we cannot assume
2104 * any particular value for (p-buf). So we need to be careful
2105 * that there is enough space remaining in the buffer.
2107 if (need_ns_suffix)
2109 len = strlen(p);
2110 used = (p-buf) + len; /* Offset into buf of current end */
2111 assert(sizeof buf > used); /* Ensure we can perform subtraction safely. */
2112 remaining = sizeof buf - used - 1u; /* allow space for NUL */
2114 if (strlen(ns_buf) >= remaining)
2116 error(0, 0,
2117 "charsprinted=%ld but remaining=%lu: ns_buf=%s",
2118 (long)charsprinted, (unsigned long)remaining, ns_buf);
2120 assert(strlen(ns_buf) < remaining);
2121 strcat(p, ns_buf);
2123 return p;
2127 static const char *weekdays[] =
2129 "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"
2131 static char * months[] =
2133 "Jan", "Feb", "Mar", "Apr", "May", "Jun",
2134 "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"
2138 static char *
2139 ctime_format (struct timespec ts)
2141 const struct tm * ptm;
2142 #define TIME_BUF_LEN 1024u
2143 static char resultbuf[TIME_BUF_LEN];
2144 int nout;
2146 ptm = localtime(&ts.tv_sec);
2147 if (ptm)
2149 assert(ptm->tm_wday >= 0);
2150 assert(ptm->tm_wday < 7);
2151 assert(ptm->tm_mon >= 0);
2152 assert(ptm->tm_mon < 12);
2153 assert(ptm->tm_hour >= 0);
2154 assert(ptm->tm_hour < 24);
2155 assert(ptm->tm_min < 60);
2156 assert(ptm->tm_sec <= 61); /* allows 2 leap seconds. */
2158 /* wkday mon mday hh:mm:ss.nnnnnnnnn yyyy */
2159 nout = snprintf(resultbuf, TIME_BUF_LEN,
2160 "%3s %3s %2d %02d:%02d:%02d.%010ld %04d",
2161 weekdays[ptm->tm_wday],
2162 months[ptm->tm_mon],
2163 ptm->tm_mday,
2164 ptm->tm_hour,
2165 ptm->tm_min,
2166 ptm->tm_sec,
2167 (long int)ts.tv_nsec,
2168 1900 + ptm->tm_year);
2170 assert(nout < TIME_BUF_LEN);
2171 return resultbuf;
2173 else
2175 /* The time cannot be represented as a struct tm.
2176 Output it as an integer. */
2177 return format_date (ts, '@');
2181 /* Copy STR into BUF and trim blanks from the end of BUF.
2182 Return BUF. */
2184 static char *
2185 blank_rtrim (str, buf)
2186 char *str;
2187 char *buf;
2189 int i;
2191 if (str == NULL)
2192 return (NULL);
2193 strcpy (buf, str);
2194 i = strlen (buf) - 1;
2195 while ((i >= 0) && ((buf[i] == ' ') || buf[i] == '\t'))
2196 i--;
2197 buf[++i] = '\0';
2198 return (buf);
2201 /* Print out the predicate list starting at NODE. */
2202 void
2203 print_list (FILE *fp, struct predicate *node)
2205 struct predicate *cur;
2206 char name[256];
2208 cur = node;
2209 while (cur != NULL)
2211 fprintf (fp, "[%s] ", blank_rtrim (cur->p_name, name));
2212 cur = cur->pred_next;
2214 fprintf (fp, "\n");
2217 /* Print out the predicate list starting at NODE. */
2218 static void
2219 print_parenthesised(FILE *fp, struct predicate *node)
2221 int parens = 0;
2223 if (node)
2225 if ((pred_is(node, pred_or) || pred_is(node, pred_and))
2226 && node->pred_left == NULL)
2228 /* We print "<nothing> or X" as just "X"
2229 * We print "<nothing> and X" as just "X"
2231 print_parenthesised(fp, node->pred_right);
2233 else
2235 if (node->pred_left || node->pred_right)
2236 parens = 1;
2238 if (parens)
2239 fprintf(fp, "%s", " ( ");
2240 print_optlist(fp, node);
2241 if (parens)
2242 fprintf(fp, "%s", " ) ");
2247 void
2248 print_optlist (FILE *fp, const struct predicate *p)
2250 if (p)
2252 print_parenthesised(fp, p->pred_left);
2253 fprintf (fp,
2254 "%s%s",
2255 p->need_stat ? "[call stat] " : "",
2256 p->need_type ? "[need type] " : "");
2257 print_predicate(fp, p);
2258 fprintf(fp, " [%g] ", p->est_success_rate);
2259 if (options.debug_options & DebugSuccessRates)
2261 fprintf(fp, "[%ld/%ld", p->perf.successes, p->perf.visits);
2262 if (p->perf.visits)
2264 double real_rate = (double)p->perf.successes / (double)p->perf.visits;
2265 fprintf(fp, "=%g] ", real_rate);
2267 else
2269 fprintf(fp, "=_] ");
2272 print_parenthesised(fp, p->pred_right);
2276 void show_success_rates(const struct predicate *p)
2278 if (options.debug_options & DebugSuccessRates)
2280 fprintf(stderr, "Predicate success rates after completion:\n");
2281 print_optlist(stderr, p);
2282 fprintf(stderr, "\n");
2289 #ifdef _NDEBUG
2290 /* If _NDEBUG is defined, the assertions will do nothing. Hence
2291 * there is no point in having a function body for pred_sanity_check()
2292 * if that preprocessor macro is defined.
2294 void
2295 pred_sanity_check(const struct predicate *predicates)
2297 /* Do nothing, since assert() is a no-op with _NDEBUG set */
2298 return;
2300 #else
2301 void
2302 pred_sanity_check(const struct predicate *predicates)
2304 const struct predicate *p;
2306 for (p=predicates; p != NULL; p=p->pred_next)
2308 /* All predicates must do something. */
2309 assert(p->pred_func != NULL);
2311 /* All predicates must have a parser table entry. */
2312 assert(p->parser_entry != NULL);
2314 /* If the parser table tells us that just one predicate function is
2315 * possible, verify that that is still the one that is in effect.
2316 * If the parser has NULL for the predicate function, that means that
2317 * the parse_xxx function fills it in, so we can't check it.
2319 if (p->parser_entry->pred_func)
2321 assert(p->parser_entry->pred_func == p->pred_func);
2324 switch (p->parser_entry->type)
2326 /* Options all take effect during parsing, so there should
2327 * be no predicate entries corresponding to them. Hence we
2328 * should not see any ARG_OPTION or ARG_POSITIONAL_OPTION
2329 * items.
2331 * This is a silly way of coding this test, but it prevents
2332 * a compiler warning (i.e. otherwise it would think that
2333 * there would be case statements missing).
2335 case ARG_OPTION:
2336 case ARG_POSITIONAL_OPTION:
2337 assert(p->parser_entry->type != ARG_OPTION);
2338 assert(p->parser_entry->type != ARG_POSITIONAL_OPTION);
2339 break;
2341 case ARG_ACTION:
2342 assert(p->side_effects); /* actions have side effects. */
2343 if (!pred_is(p, pred_prune) && !pred_is(p, pred_quit))
2345 /* actions other than -prune and -quit should
2346 * inhibit the default -print
2348 assert(p->no_default_print);
2350 break;
2352 /* We happen to know that the only user of ARG_SPECIAL_PARSE
2353 * is a test, so handle it like ARG_TEST.
2355 case ARG_SPECIAL_PARSE:
2356 case ARG_TEST:
2357 case ARG_PUNCTUATION:
2358 case ARG_NOOP:
2359 /* Punctuation and tests should have no side
2360 * effects and not inhibit default print.
2362 assert(!p->no_default_print);
2363 assert(!p->side_effects);
2364 break;
2368 #endif