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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [tests/] [psxtests/] [psxstat/] [test.c] - Blame information for rev 389

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1 30 unneback
/*
2
 *  This test exercises stat() via fstat() and generates as many of the
3
 *  path evaluation cases as possible.
4
 *
5
 *  COPYRIGHT (c) 1989-1999.
6
 *  On-Line Applications Research Corporation (OAR).
7
 *
8
 *  The license and distribution terms for this file may be
9
 *  found in the file LICENSE in this distribution or at
10
 *  http://www.OARcorp.com/rtems/license.html.
11
 *
12
 *  $Id: test.c,v 1.2 2001-09-27 12:02:26 chris Exp $
13
 */
14
 
15
#include <tmacros.h>
16
#include <assert.h>
17
#include <sys/stat.h>
18
#include <fcntl.h>
19
#include <limits.h>
20
#include <stdio.h>
21
#include <unistd.h>
22
#include <errno.h>
23
#include <string.h>
24
#include <rtems.h>
25
#include <rtems/libio.h>
26
 
27
#define MAXSYMLINK 5   /* There needs to be a better way of getting this. */
28
 
29
 
30
/*
31
 *  List of files which should exist.
32
 */
33
 
34
char *Files[] = {
35
  "////dir1/\\//file1\\\\//",
36
  "/dir1/file2",
37
  "/dir1/file3",
38
  "/dir1/file4",
39
  "/dir1/dir1/file1",
40
  "../../..//dir1/./././dir1/ file1",
41
  "main.c",
42
 
43
};
44
 
45
/*
46
 *  List of directories which should exist.
47
 */
48
 
49
char *Directories[] = {
50
  "/dir1",
51
  "/dir2",
52
  "/dir3",
53
  "/dir4",
54
  "/dir1/dir1",
55
  "/./././dir1/ dir1",
56
  "/./././links",
57
  "///dir1/dir1/../../dir1/../symlinks/////",
58
 
59
};
60
 
61
char *Links_to_Dirs[]= {
62
  "dir1/dir1/../../links/dir1",
63
  "links/dir2",
64
  "links/dir3",
65
  "links/dir4",
66
  "links/dir1_dir1",
67
  "links/dir1_ dir1",
68
  "links/../links/../links/links",
69
 
70
};
71
 
72
char *Links_to_Files[]= {
73
  "links/dir1_file1",
74
  "links/dir1_file2",
75
  "links/dir1_file3",
76
  "links/dir1_file4",
77
  "links/dir1_dir1_f1",
78
  "links/dir1_dir1 f1",
79
 
80
};
81
 
82
char *Links_to_dirlinks[]= {
83
  "links/links/links/links_dir1",
84
  "links//links_dir2",
85
  "links//links_dir3",
86
  "links//links_dir4",
87
  "links//links_dir1_d1",
88
  "links//links_dir1 d1",
89
  "links//links_links",
90
 
91
};
92
 
93
char *Links_to_filelinks[]= {
94
  "links///links_d1_file1",
95
  "links///links_d1_file2",
96
  "links///links_d1_file3",
97
  "links///links_d1_file4",
98
  "links///links_d1_d1_f1",
99
  "links///links_r1_d1 f1",
100
 
101
};
102
 
103
char *SymLinks[]= {
104
  "/symlinks/a_file_symlink",
105
  "/symlinks/a_dir_symlink",
106
  "/symlinks/a_link_symlink",
107
  "../symlinks/no_file",
108
  "/symlinks/a_dir_symlink/a_file_symlink",
109
 
110
};
111
 
112
/*
113
 *  List of absolute paths to stat.
114
 */
115
 
116
char *Good_absolute_paths[] = {
117
  "/dev",
118
  "////dir1/\\//file1\\\\//",
119
  "/dir1/\\\\/file2",
120
  "/dir1/file3/////\\\\\\",
121
  "/dir1/file4",
122
  "/dir1/dir1/file1",
123
  "/dir1/dir1/ file1",
124
  "/dir1",
125
  "/dir2//////\\",
126
  "/dir3",
127
  "/dir4",
128
  "/dir1/dir1",
129
  "/dir1/ dir1///\\\\",
130
  "/\\/\\/\\/\\/\\/\\/links\\/\\/\\/\\/\\/\\",
131
 
132
};
133
 
134
 
135
char *Bad_paths[] = {
136
  "/links/ENAMETOOLONG__________________________",
137
  "/dir1/file4/NOTADIR",
138
  "/dir1/dir1/EACCES__",
139
 
140
};
141
 
142
/*
143
 *  List of relative paths to stat.
144
 */
145
 
146
char *Good_relative_paths[] = {
147
  "dev",
148
  "dir1/\\//file1\\\\//",
149
  "dir1/\\\\/file2",
150
  "dir1/file3/////\\\\\\",
151
  "dir1/file4",
152
  "dir1/dir1/file1",
153
  "dir1/dir1/ file1",
154
  "dir1",
155
  "dir2//////\\",
156
  "dir3",
157
  "dir4",
158
  "dir1/dir1",
159
  "dir1/ dir1///\\\\",
160
  "main.c",
161
 
162
};
163
 
164
/*
165
 *  Do a stat on a single file and report the status.
166
 */
167
 
168
void stat_a_file(
169
  const char *file
170
)
171
{
172
  int         status;
173
  struct stat statbuf;
174
  int         major1;
175
  int         minor1;
176
  int         major2;
177
  int         minor2;
178
 
179
 
180
  assert( file );
181
 
182
  printf( "stat( %s ) returned ", file );
183
  fflush( stdout );
184
 
185
  status = stat( file, &statbuf );
186
 
187
  if ( status == -1 ) {
188
    printf( ": %s\n", strerror( errno ) );
189
  } else {
190
 
191
    rtems_filesystem_split_dev_t( statbuf.st_dev, major1, minor1 );
192
    rtems_filesystem_split_dev_t( statbuf.st_rdev, major2, minor2 );
193
 
194
 
195
    printf("\n\tst_dev     (0x%x:0x%x)\n", major1, minor1 );
196
    printf(  "...st_ino     %x\n", (int) statbuf.st_ino );
197
    printf(  "...st_mode    %o\n", statbuf.st_mode );
198
    printf(  "...st_nlink   %x\n", statbuf.st_nlink );
199
    printf(  "...st_uid     %d\n", statbuf.st_uid );
200
    printf(  "...st_gid     %d\n", statbuf.st_gid );
201
    printf(  "...st_rdev    (0x%x:0x%x)\n", major2, minor2 );
202
    printf(  "...st_size    %d\n",(unsigned int) statbuf.st_size );
203
    printf(  "...st_atime   %s", ctime( &statbuf.st_atime ) );
204
    printf(  "...st_mtime   %s", ctime( &statbuf.st_mtime ) );
205
    printf(  "...st_ctime   %s", ctime( &statbuf.st_ctime ) );
206
#if defined(__svr4__) && !defined(__PPC__) && !defined(__sun__)
207
    printf(  "...st_blksize %x\n", statbuf.st_blksize );
208
    printf(  "...st_blocks  %x\n", statbuf.st_blocks );
209
#endif
210
 
211
  }
212
}
213
 
214
/*
215
 *  stat() multiple files at a time
216
 */
217
 
218
void stat_multiple_files(
219
  char **files
220
)
221
{
222
  int    i;
223
 
224
  i = 0;
225
  while ( files[i] ) {
226
    stat_a_file( files[i] );
227
    i++;
228
  }
229
}
230
 
231
/*
232
 *  chown() multiple files at a time
233
 */
234
void chown_multiple_files(
235
  char **files
236
)
237
{
238
  int    i;
239
  uid_t  st_uid;
240
  gid_t  st_gid;
241
 
242
  st_uid = geteuid();
243
  st_gid = getegid();
244
 
245
  i = 0;
246
  while ( files[i] ) {
247
    printf("Change group of %s\n", files[i]);
248
    chown( files[i], st_uid, (st_gid+1) );
249
    stat_a_file( files[i] );
250
 
251
    printf("Change owner of %s\n", files[i]);
252
    chown( files[i], (st_uid+1), st_gid );
253
    stat_a_file( files[i] );
254
    i++;
255
  }
256
 
257
}
258
 
259
 
260
 
261
/*
262
 *  mknod() multiple files at a time
263
 */
264
 
265
void make_multiple_files(
266
  char **files
267
)
268
{
269
  int    i;
270
  int    status;
271
 
272
  i = 0;
273
  while ( files[i] ) {
274
    printf( "Making file %s\n", files[i] );
275
    status = mknod( files[i], ( S_IFREG | S_IROTH|S_IWOTH ), 0LL );
276
    assert( !status );
277
    i++;
278
  }
279
  puts( "" );
280
}
281
 
282
void make_multiple_bad_files(
283
  char **files
284
)
285
{
286
  int    i;
287
  int    status;
288
 
289
  i = 0;
290
  while ( files[i] ) {
291
    printf( "Making file %s ", files[i] );
292
    status = mknod( files[i], ( S_IFREG | S_IROTH|S_IWOTH ), 0LL );
293
    assert( status );
294
    printf( ": %s\n", strerror( errno ) );
295
    i++;
296
  }
297
  puts( "" );
298
}
299
 
300
void make_multiple_links(
301
  char **existing,
302
  char **new
303
)
304
{
305
  int    i;
306
  int    status;
307
 
308
  i = 0;
309
  while ( new[i] && existing[i] ) {
310
    printf( "Making file %s\n", new[i] );
311
    status = link( existing[i], new[i] );
312
    assert( !status );
313
    i++;
314
  }
315
  puts( "" );
316
 
317
  status = link( "fred", "bob" );
318
  assert( status == -1 );
319
 
320
  status = link( existing[1], "doug/bob" );
321
  assert( status == -1 );
322
}
323
 
324
 
325
void make_too_many_links()
326
{
327
  int    i;
328
  int    status;
329
  char   name [20];
330
 
331
  status = mkdir("/dummy", S_IRWXU );
332
  assert( status == 0 );
333
 
334
  for (i=1; i<= LINK_MAX; i++) {
335
 
336
    sprintf(name,"/LinkName%d",i);
337
    printf( "Making file %s\n", name );
338
    status = link("/dummy" , name );
339
    if( i < LINK_MAX )
340
       assert( !status );
341
    else
342
       assert( status == -1 );
343
 
344
  }
345
}
346
 
347
 
348
void make_a_symlink(
349
  char *existing,
350
  char *new
351
)
352
{
353
  int    status;
354
  char   buf[100];
355
  int    len;
356
 
357
  memset( buf, 0, 100 );
358
 
359
  printf( "Making file %s\n", new );
360
  status = symlink( existing, new );
361
  assert( !status );
362
 
363
  printf( "Verify with readlink\n");
364
  status = readlink( new, buf, 100 );
365
  len = strlen( existing );
366
  assert ( status == len );
367
 
368
  status = readlink( new, buf, 3 );
369
  len = strlen( existing );
370
  if (len < 3 )
371
    assert( status == len );
372
  else
373
    assert( status == 3 );
374
 
375
  status = strcmp( existing, buf );
376
  assert( !status );
377
}
378
 
379
void make_multiple_symlinks()
380
{
381
 int  status;
382
 
383
 make_a_symlink( Files[0],             SymLinks[0] );
384
 make_a_symlink( Directories[0],       SymLinks[1] );
385
 make_a_symlink( Links_to_dirlinks[0], SymLinks[2] );
386
 make_a_symlink( "No_File",            SymLinks[3] );
387
 make_a_symlink( SymLinks[1],          SymLinks[4] );
388
 make_a_symlink( "//links",            "/symlinks/links"  );
389
 
390
 stat_a_file( SymLinks[0] );
391
 stat_a_file( SymLinks[1] );
392
 stat_a_file( SymLinks[2] );
393
 stat_a_file( SymLinks[3] );
394
 stat_a_file( SymLinks[4] );
395
 
396
 status = symlink(  "//links", "bob/frank" );
397
 assert (status == -1);
398
 
399
}
400
/*
401
void make_too_many_symlinks()
402
{
403
  int  i, status;
404
  char name1[8];
405
 
406
  for (i=1; i <= MAXSYMLINK; i++) {
407
    sprintf( name1, "SymLink%d", i );
408
    status = symlink( "/dummy", name1 );
409
    if( i < MAXSYMLINK )
410
       assert( !status );
411
    else
412
       assert( status == -1 );
413
  }
414
}
415
*/
416
void make_many_symlinks(
417
  char  *real_file,
418
  int    link_count
419
)
420
{
421
  int  i;
422
  char name1[5];
423
  char name2[5];
424
  char *link_file;
425
 
426
  link_file = real_file;
427
  for (i=1; i < link_count; i++) {
428
    sprintf( name1, "%d", i );
429
    make_a_symlink( link_file, name1 );
430
    strcpy( name2, name1 );
431
    link_file = name2;
432
  }
433
 
434
  for (i=1; i < link_count; i++) {
435
    sprintf( name1, "%d", i );
436
    stat_a_file( name1 );
437
  }
438
 
439
}
440
 
441
/*
442
 *  mkdir() multiple directories at a time
443
 */
444
 
445
void make_multiple_directories(
446
  char **files
447
)
448
{
449
  int    i;
450
  int    status;
451
 
452
  i = 0;
453
  while ( files[i] ) {
454
    printf( "Making directory %s\n", files[i] );
455
    status = mkdir( files[i], S_IRWXU );
456
    assert( !status );
457
    i++;
458
  }
459
  puts( "" );
460
}
461
 
462
/*
463
 * Cause faults.
464
 */
465
 
466
 
467
void Cause_faults()
468
{
469
  int                                   fd;
470
  int                                   status;
471
  char                                  longer_name[100];
472
  rtems_filesystem_mount_table_entry_t *mt_entry;
473
 
474
  /*
475
   * Verify chmod with an invalid type.
476
   */
477
 
478
  printf("\n\nPass an invalid mode to chmod should fail with EPERM \n" );
479
  status = chmod( Files[0], S_IFREG );
480
  assert( status == -1 );
481
  assert( errno == EPERM );
482
 
483
  /*
484
   * Try to chdir to a file.
485
   */
486
 
487
  printf("chdir to a file should fail with ENOTDIR\n");
488
  status = chdir( Files[0] );
489
  assert( status == -1 );
490
  assert( errno == ENOTDIR );
491
 
492
  /*
493
   * Change mode to read/write on a directory.
494
   * Verify directory works properly.
495
   */
496
 
497
  printf("Verify RWX permission on %s via access\n", Directories[0]);
498
  status = access( Directories[0], ( R_OK | W_OK | X_OK )  );
499
  assert( status == 0 );
500
 
501
  printf( "chmod of %s to Read/Write\n", Directories[0] );
502
  status = chmod( Directories[0], (S_IXGRP | S_IXOTH) );
503
  assert( status == 0 );
504
 
505
  printf( "chmod fred should fail with ENOENT\n" );
506
  status = chmod( "fred", (S_IXGRP | S_IXOTH) );
507
  assert( status == -1 );
508
  assert( errno == ENOENT );
509
 
510
  strcpy(longer_name, Directories[0] );
511
  strcat(longer_name, "/BADNAME" );
512
  printf( "Create under %s should fail with EACCES\n", Directories[0] );
513
  status = mkdir( longer_name , S_IRWXU );
514
  assert( status == -1 );
515
  assert( errno == EACCES );
516
 
517
  printf("chdir to %s should fail with EACCES\n", Directories[4] );
518
  status = chdir( Directories[4] );
519
  assert( status == -1 );
520
  assert( errno == EACCES );
521
 
522
  /*
523
   * Check stat with a NULL buffer.
524
   */
525
 
526
  printf("Stat with a NULL buffer should fail with EFAULT\n");
527
  status = stat( Directories[0], NULL );
528
  assert( status == -1 );
529
  assert( errno == EFAULT );
530
 
531
  /*
532
   * Set current to a directory with no owner permissions.
533
   * Verify it works properly.
534
   */
535
 
536
  printf( "\n\nchmod of %s to Read/Write\n", Directories[0] );
537
  status = chmod( Directories[0], (S_IXGRP | S_IXOTH) );
538
  assert( status == 0 );
539
 
540
  printf("mkdir %s should fail with EACCESS\n", longer_name );
541
  status = mkdir( longer_name , S_IRWXU );
542
  assert( status == -1 );
543
  assert( errno == EACCES );
544
 
545
  printf("\n%s Should exist ( access )\n",Directories[0] );
546
  status = access( Directories[0], F_OK );
547
  assert( status == 0 );
548
  printf("\n%s Should have read  permission( access )\n",Directories[0] );
549
  status = access( Directories[0], R_OK );
550
  assert( status != 0 );
551
  printf("\n%s Should have write permission( access )\n",Directories[0] );
552
  status = access( Directories[0], W_OK );
553
  assert( status != 0 );
554
  printf("\n%s Should not have execute permission( access )\n",Directories[0] );
555
  status = access( Directories[0], X_OK );
556
  assert( status != 0 );
557
 
558
  printf("\nRestore %s to RWX\n",Directories[0] );
559
  status = chmod( Directories[0], S_IRWXU );
560
  assert( status == 0 );
561
 
562
  printf("chdir to / \n");
563
  status = chdir( "/" );
564
  assert( status == 0 );
565
 
566
  /*
567
   * Remove one of the directories.
568
   * Verify links to the removed directory still work.
569
   */
570
 
571
  printf( "Remove %s\n", Directories[5] );
572
  status = rmdir( Directories[5] );
573
  assert( status == 0 );
574
 
575
  stat_a_file( Directories[5] );
576
  status = access( Directories[5], F_OK );
577
  assert( status != 0 );
578
 
579
  stat_a_file( Links_to_Dirs[5] );
580
  status = readlink( Links_to_Dirs[5], longer_name, 3 );
581
  assert( status == -1 );
582
  assert( errno == EINVAL );
583
 
584
  stat_a_file( Links_to_dirlinks[5] );
585
  printf("Chdir to %s\n", Links_to_Dirs[5] );
586
  status = chdir( Links_to_Dirs[5] );
587
  assert( status == 0 );
588
 
589
  /*
590
   * Verify we cannot move up from a node with no parent node.
591
   */
592
 
593
  printf("Chdir to .. should fail with ENOENT\n" );
594
  status = chdir( ".." );
595
  assert( status == -1 );
596
  assert( errno == ENOENT );
597
 
598
  /*
599
   * Create a subdirectory under the dangling node.
600
   */
601
 
602
  printf("mkdir ../t should fail with ENOENT\n" );
603
  status = mkdir( "../t" , S_IRWXU );
604
  assert( status == -1 );
605
  assert( errno == ENOENT );
606
 
607
  printf("mkdir t\n");
608
  status = mkdir( "t" , S_IRWXU );
609
  assert( status == 0 );
610
 
611
  printf("chdir to / \n");
612
  status = chdir( "/" );
613
  assert( status == 0 );
614
 
615
  /*
616
   * Check rmdir, rmnod, and unlink
617
   */
618
 
619
  printf("rmdir %s should fail with ENOTDIR\n", Links_to_Dirs[5] );
620
  status = rmdir( Links_to_Dirs[5] );
621
  assert( status == -1 );
622
  assert( errno == ENOTDIR );
623
 
624
  printf("unlink %s\n", Links_to_Dirs[5] );
625
  status = unlink( Links_to_Dirs[5] );
626
  assert( status == 0 );
627
 
628
  printf("unlink %s should fail with ENOTEMPTY\n", Links_to_dirlinks[5] );
629
  status = unlink(  Links_to_dirlinks[5] );
630
  assert( status == -1 );
631
  assert( errno == ENOTEMPTY );
632
 
633
  strcpy( longer_name,  Links_to_dirlinks[5] );
634
  strcat( longer_name, "/t");
635
  printf("rmdir %s\n", longer_name );
636
  status = rmdir( longer_name );
637
  assert( status == 0 );
638
 
639
  printf("unlink %s\n", Links_to_Dirs[5]);
640
  status = unlink( Links_to_dirlinks[5] );
641
  assert( status == 0 );
642
 
643
  status = chdir( Directories[0] );
644
  status = mkdir ( "my_mount_point", S_IRWXU );
645
  assert( status == 0 );
646
 
647
  printf("Attempting to mount IMFS file system at /dir1/my_mount_point \n");
648
  status = mount(
649
     &mt_entry,
650
     &IMFS_ops,
651
     RTEMS_FILESYSTEM_READ_WRITE,
652
     NULL,
653
     "/dir1/my_mount_point" );
654
  assert( status == 0 );
655
 
656
  printf("rmdir /dir1/my_mount_point should fail with EBUSY\n");
657
  status = rmdir ("/dir1/my_mount_point" );
658
  assert( status == -1 );
659
  assert( errno == EBUSY );
660
 
661
  printf( "Unmount /dir1/my_mount_point\n");
662
  status = unmount( "/dir1/my_mount_point" );
663
  assert( status == 0 );
664
 
665
  /*
666
   * Verify write permission is checked.
667
   */
668
 
669
  printf("chmod of %s to group and other execute\n", Files[0] );
670
  status = chmod (Files[0], (S_IXGRP | S_IXOTH) );
671
  assert( status == 0 );
672
 
673
  printf("Open %s for write should fail with EACCES\n", Files[0] );
674
  fd = open (Files[0], O_WRONLY);
675
  assert( fd == -1 );
676
  assert( errno == EACCES );
677
 
678
  printf("chmod of %s to User Execute and Read\n", Directories[3] );
679
  status = chmod (Directories[3], (S_IXUSR | S_IRUSR) );
680
  assert( status == 0 );
681
  strcpy(longer_name, Directories[3] );
682
  strcat(longer_name, "/NewFile" );
683
  printf("Mkdir of %s should fail with EACCES\n",longer_name );
684
  status = mkdir( longer_name, S_IRWXU );
685
  assert( status != 0 );
686
  assert( errno == EACCES );
687
 
688
  printf(" Making too many hard links.\n" );
689
  make_too_many_links( );
690
 
691
  printf( "pass fstat a null pointer should fail with EFAULT\n");
692
  status = fstat( fd, NULL );
693
  assert( status == -1 );
694
  assert( errno == EFAULT);
695
 
696
  /*
697
   * The current directory MUST be restored at the end of this test.
698
   */
699
 
700
  printf("chdir to / \n");
701
  status = chdir( "/" );
702
  assert( status == 0 );
703
 
704
}
705
 
706
void Show_Time()
707
{
708
  rtems_time_of_day time;
709
  rtems_status_code status;
710
 
711
  status = rtems_clock_get( RTEMS_CLOCK_GET_TOD, &time );
712
  printf(">>>>Current Time: ");
713
  print_time( " - rtems_clock_get - ", &time, "\n" );
714
}
715
 
716
/*
717
 *  main entry point to the test
718
 */
719
 
720
#if defined(__rtems__)
721
int test_main(void)
722
#else
723
int main(
724
  int    argc,
725
  char **argv
726
)
727
#endif
728
{
729
  rtems_status_code status;
730
  rtems_time_of_day time;
731
 
732
  puts( "\n\n*** STAT TEST 01 ***" );
733
 
734
  build_time( &time, 12, 31, 1988, 9, 0, 0, 0 );
735
  status = rtems_clock_set( &time );
736
 
737
  /*
738
   *  Create the files and directories for the test.
739
   */
740
  Show_Time();
741
 
742
  make_multiple_directories( Directories );
743
  make_multiple_files( Files );
744
  make_multiple_links( Directories,    Links_to_Dirs );
745
  make_multiple_links( Files,          Links_to_Files );
746
 
747
  status = rtems_task_wake_after( 5 * TICKS_PER_SECOND );
748
  make_multiple_links( Links_to_Dirs,  Links_to_dirlinks );
749
  status = rtems_task_wake_after( 5 * TICKS_PER_SECOND );
750
  make_multiple_links( Links_to_Files, Links_to_filelinks );
751
 
752
  status = rtems_task_wake_after( 5 * TICKS_PER_SECOND );
753
 
754
  /*
755
   *  Now go through all the absolute path.
756
   */
757
 
758
  puts( "Doing the stat() on all the good absolute paths" );
759
  stat_multiple_files( Good_absolute_paths );
760
 
761
  /*
762
   *  run through the relative paths.
763
   */
764
 
765
  puts( "\nDoing the stat() on all the good relative paths" );
766
  stat_multiple_files( Good_relative_paths );
767
 
768
  /*
769
   * Change directory and releative paths are now bad.
770
   */
771
 
772
  puts("\nchdir to dev");
773
  chdir("dev");
774
  puts("\nstat relative paths that are now bad");
775
  stat_multiple_files( Good_relative_paths );
776
 
777
  /*
778
   * Change directory to the link directory and follow links.
779
   */
780
 
781
  puts("\nchdir to ../links");
782
  chdir("../links");
783
  puts("Doing the stat() on good links\n");
784
  stat_multiple_files( Links_to_Dirs );
785
  stat_multiple_files( Links_to_Files );
786
  stat_multiple_files( Links_to_dirlinks  );
787
  stat_multiple_files( Links_to_filelinks );
788
 
789
  /*
790
   * Chmod on dir1/dir1.  This allows the error path to be hit.
791
   */
792
 
793
  printf( "chmod of %s to Read/Write\n", Directories[4] );
794
  chmod( Directories[4], (S_IROTH|S_IWOTH) );
795
  puts( "\nDoing the stat() on all the bad paths" );
796
 
797
  stat_multiple_files( Bad_paths );
798
  make_multiple_bad_files( Bad_paths );
799
 
800
  printf( "Return %s to RWX\n", Directories[4] );
801
  chmod( Directories[4], S_IRWXU );
802
 
803
 
804
  /*
805
   * Check out symbolic links.
806
   */
807
 
808
  make_multiple_symlinks();
809
  make_many_symlinks( "/symlinks", 10 );
810
 
811
  status = rtems_task_wake_after( 5 * TICKS_PER_SECOND );
812
  Cause_faults();
813
 
814
  status = rtems_task_wake_after( 5 * TICKS_PER_SECOND );
815
  chown_multiple_files( Files );
816
 
817
  status = rtems_task_wake_after( 5 * TICKS_PER_SECOND );
818
  chown_multiple_files( Links_to_Dirs );
819
 
820
  puts( "\n\n*** END OF STAT TEST 01 ***" );
821
  exit(0);
822
}
823
 
824
 
825
 
826
 
827
 
828
 
829
 

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