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/*
 *  This is a native test to explore how the readdir() family works.
 *  Newlib supports the following readdir() family members:
 *
 *    closedir()   -
 *    readdir()    -
 *    scandir()    -
 *    opendir()    -
 *    rewinddir()  -
 *    telldir()    - BSD not in POSIX
 *    seekdir()    - BSD not in POSIX
 *
 *
 *  seekdir() takes an offset which is a byte offset.  The Linux
 *  implementation of this appears to seek to the ((off/DIRENT_SIZE) + 1)
 *  record where DIRENT_SIZE seems to be 12 bytes.
 *
 *
 *
 *  test.c,v 1.7 2002/08/02 00:53:21 joel Exp
 */
 
#include <stdio.h>
#include <sys/types.h>
#include <fcntl.h>
#include <dirent.h>
#include <string.h>
#include <assert.h>
#include <unistd.h>
#include <errno.h>
#include <imfs.h>
#include <assert.h>
 
DIR *directory;
DIR *directory2;
DIR *directory3;
DIR *directory_not;
 
#ifndef __P
#define __P(args)()
#endif
 
int scandir ( const char *dirname,
   struct dirent *** namelist,
   int (*select) __P((struct dirent *)),
   int (*dcomp) __P((const void *, const void *))
);
 
#if defined(__rtems__)
#define d_type d_reclen
#include <pmacros.h>
#endif
 
void printdir( DIR *directory )
{
  struct dirent *d;
 
  printf( "%-20s %8s %8s %8s %4s\n",
     "name", "    inode", " offset", "reclen", " type" );
  d = readdir(directory);
 
  while (d) {
    printf( "%-20s %8d %8d %6d   0x%04x\n",
       d->d_name, (int)d->d_ino, (int)d->d_off, d->d_reclen, d->d_type );
    d = readdir(directory);
 
  }
}
 
void complete_printdir( char *path )
{
  DIR *the_dir;
  int status;
 
  the_dir = opendir( path );
  assert( the_dir );
  printdir( the_dir );
  status = closedir( the_dir );
}
 
char *many_files[] = {
        "a",
        "b",
        "c",
        "d",
        "e",
        "f",
        "g",
        "h",
        "i",
        "j",
        "k",
        "l",
        "m",
        "n",
        "o",
        "p",
        "q",
        "r",
        "s",
        "t",
        "u",
        "v",
        "w",
        "x",
        "y",
        "z",
        "aa",
        "ab",
        "ac",
        "ad",
        "ae",
        "af",
        "ag",
        "ah",
        "ai",
        "aj",
        "ak",
        "al",
        "am",
        "an",
        "ao",
        "ap",
        "aq",
        "ar"
};
 
char *dnames[] = {
        "a",
        "b",
        "c",
        "d",
        "e",
        "f",
        "c/y",
        "c/z",
        "c/x",
        "c/y/a3333",
        "c/y/j123",
        "END"
};
 
int select1 ( struct dirent *entry )
{
   printf("SCANDIR SELECT1 accepts  nodename: %s\n", entry->d_name );
   return 1;
}
 
int select2 ( struct dirent *entry )
{
   if( strcmp( entry->d_name, "y") == 0 ) {
      printf("SCANDIR SELECT accepted nodename: %s\n", entry->d_name );
      return 1;
   }
   printf("SCANDIR SELECT rejected nodename: %s\n", entry->d_name );
   return 0;
}
 
int compare_ascending( struct dirent **a, struct dirent **b )
{
   int i;
 
   i = strcmp (
      (char *)((struct dirent *)(*a)->d_name),
      (char *)((struct dirent *)(*b)->d_name)
   );
   return i;
}
 
 
int compare_descending( struct dirent **a, struct dirent **b )
{
   int i;
 
   i = strcmp (
      (char *)((struct dirent *)(*b)->d_name),
      (char *)((struct dirent *)(*a)->d_name)
   );
 
   return i;
}
 
int test_across_mount()
{
  rtems_filesystem_mount_table_entry_t *mt_entry;
  int                                  status;
 
  /*
   * Verify Readdir works correctly over mount points.
   */
 
  printf("Validate readdir across mount point\n");
  assert( mkdir( "/imfs", 0777 ) == 0 );
  assert( mkdir( "/imfs/should_be_hidden", 0777 ) == 0 );
  complete_printdir("/imfs" );
  printf("Attempting to mount IMFS file system at /imfs \n");
  status = mount(
     &mt_entry,
     &IMFS_ops,
     RTEMS_FILESYSTEM_READ_WRITE,
     NULL,
     "/imfs" );
  assert( status == 0 );
  if( mt_entry == NULL ){
     printf(" NULL mount table entry was returned\n");
  }
  printf( "create /imfs/testdir and /imfs/testdir/testsubdir\n");
 
  status = mkdir( "/imfs/testdir", 0777 );
  assert( status == 0 );
  status = mkdir( "/imfs/testdir/testsubdir", 0777 );
  assert( status == 0 );
 
  complete_printdir("/imfs" );
  complete_printdir("/imfs/" );
  complete_printdir("/imfs/." );
  complete_printdir("/imfs/testdir" );
  complete_printdir("/imfs/testdir/.." );
}
 
#if defined(__rtems__)
int test_main(void)
#else
int main(
  int argc,
  char **argv
)
#endif
{
  int fd;
  int i;
  int status;
  off_t off;
  struct dirent *d_not;
  struct dirent **namelist;
  struct stat s;
 
 
  printf( "\n\n*** READDIR TEST ***\n" );
 
  printf( "\nchdir to the root directory\n" );
  status = chdir( "/" );
  printf( "chdir() status : %d\n\n", status );
 
  printf( "\nCreating a series of directories under /\n" );
  i=0;
  while ( strcmp(dnames[i], "END") != 0 )
  {
     status = mkdir( dnames[i], 0x1c0 );
     printf("Creating directory: %s      %d %d   ", dnames[i], status, errno );
     if ( errno == 0 )
        printf(" Success\n");
     else
        printf(" Failure\n");
 
     i++;
  }
 
  /*
   * Create files under many and open the directory.
   */
 
  printf("Create a lot of files\n");
  status = mkdir( "/many", 0x1c0 );
  status = chdir( "/many" );
  for (i = 0; i<44; i++) {
    printf("Create %s\n", many_files[i]);
    fd = open (many_files[i], O_CREAT, S_IRWXU);
    close (fd);
  }
  printf("Open /many and print the directory\n");
  directory_not = opendir( "/many" );
  printdir ( directory_not );
  d_not = readdir( directory_not );
 
  printf("open /b/myfile\n");
  fd = open ("/b/my_file", O_CREAT, S_IRWXU);
  assert( fd != -1 );
  close (fd);
 
  printf("scandir a file status: ");
  status = scandir(
     "/b/my_file",
     &namelist,
     select1,
     NULL
  );
  printf("%d\n", status);
 
  printf("Open /b/new_file\n");
  fd  = open( "/b/new_file", O_CREAT, S_IRWXU );
  assert( fd != -1 );
 
  printf("fcntl F_SETFD should return 0\n");
  status = fcntl( fd, F_SETFD, 1 );
  assert( status == 0 );
 
  printf("fcntl F_SETFD should return 1\n");
  status = fcntl( fd, F_GETFD, 1 );
  assert( status == 1 );
 
#if 0
  printf("fcntl F_DUPFD should return 0\n");
  status = fcntl( fd, F_DUPFD, 0 );
  assert ( status == 0 );
#else
  printf("fcntl F_DUPFD should return 0 -- skip until implemented\n");
#endif
 
  printf("fcntl F_GETFL returns current flags\n");
  status = fcntl( fd, F_GETFL, 1 );
  printf("fcntl F_GETFL returned 0x%x\n", status );
  assert( status != -1 );
 
  printf("fcntl F_SETFL to add O_APPEND and O_NONBLOCK\n");
  status = fcntl( fd, F_SETFL, O_APPEND|O_NONBLOCK );
  assert ( status != -1 );
 
  printf("fcntl F_GETFL return current flags to see changes\n");
  status = fcntl( fd, F_GETFL, 1 );
  printf("fcntl F_GETFL returned 0x%x\n", status );
  assert( status != -1 );
 
  printf("fcntl F_GETLK should return -1\n");
  status = fcntl( fd, F_GETLK, 1 );
  assert ( status == -1 );
 
  printf("fcntl F_SETLK should return -1\n");
  status = fcntl( fd, F_SETLK, 1 );
  assert ( status == -1 );
 
  printf("fcntl F_SETLKW should return -1\n");
  status = fcntl( fd, F_SETLKW, 1 );
  assert ( status == -1 );
 
  printf("fcntl F_SETOWN should return -1\n");
  status = fcntl( fd, F_SETOWN, 1 );
  assert ( status == -1 );
 
  printf("fcntl F_GETOWN should return -1\n");
  status = fcntl( fd, F_GETOWN, 1 );
  assert ( status == -1 );
 
  printf("fcntl invalid argument should return -1\n");
  status = fcntl( fd, 0xb, 1 );
  printf("Status %d\n",status);
  assert( status == -1 );
 
  printf("opendir and readdir /b/myfile\n");
  directory_not = opendir ("/b/my_file");
  d_not = readdir(directory_not);
 
  printf("opendir and readdir\n");
  directory_not = opendir ("/a");
  d_not = readdir (directory_not);
 
  printf("chdir to /b/myfile\n");
  status = chdir ("/b/my_file");
  assert (status == -1);
 
  printf( "\nPerforming stat of directory /\n");
  status = stat( "/", &s );
  printf("status for stat : %d, size of directory: %d\n\n",
         status,(int)s.st_size);
 
  puts( "\nOpen and print directory /" );
  directory = opendir("/");
  assert( directory );
  printdir(directory);
 
  printf("\nmkdir /d/my_dir\n");
  status = mkdir( "/d/my_dir", 0x1c0 );
  printf("Open /d/my_dir\n");
  directory_not = opendir( "/d/my_dir" );
  assert( directory_not );
 
  printf( "remove /d/my_dir.\n" );
  status = rmdir( "/d/my_dir" );
  assert( status == 0 );
 
  printf( "close /d/my_dir.\n" );
  closedir( directory_not );
 
  printf( "\nOpening directory /c\n" );
  directory2 = opendir("/c");
 
  assert( directory2 );
 
  printdir(directory2);
  status = closedir( directory2 );
 
  printf( "\nOpening directory /c/y\n" );
  directory3 = opendir("/c/y");
  assert( directory3 );
  printdir(directory3);
  status = closedir( directory3 );
 
  printf( "\nLSEEK to the start of the open directory\n" );
  lseek( directory->dd_fd, 0, SEEK_SET );
  printdir(directory);
 
  lseek( directory->dd_fd, 0, SEEK_CUR );
 
  lseek( directory->dd_fd, 0, SEEK_END );
 
  lseek( directory->dd_fd, 0, -99 );
 
  printf( "\nRewinding directory\n" );
  rewinddir( directory );
  printdir(directory);
 
/* Don't know how to check this one automatically. */
  printf( "Send rewinddir a NULL pointer\n");
  rewinddir( NULL );
 
  printf( "\nSeek directory\n" );
  printf( "telldir() should report only sizeof(struct dirent) increments \n" );
  printf( "in position. Sizeof(struct dirent): %d\n", sizeof(struct dirent) );
  rewinddir( directory );
  for( off=0 ; off<=200 ; off=off + sizeof(struct dirent) / 4 ) {
    seekdir( directory, off );
    printf(
       "seeked to %2d -- currently at %2d\n",
       (int)off,
       (int)telldir(directory)
    );
  }
 
  printf( "Send seekdir a NULL pointer\n");
  seekdir( NULL, off );
 
  printf( "\nClosing directory\n" );
  status = closedir( directory );
 
  printf( "\nSCANDIR TEST\n");
  printf( "\nselection rule 1\n");
  printf( "scanning for any entry under directory /c\n\n");
  status = scandir(
     "/c",
     &namelist,
     select1,
     NULL
  );
  printf("\nscandir status: %d\n", status );
  for ( i=0; i<status; i++)
  {
     printf("Selected Node Name: %s\n", namelist[i]->d_name );
  }
 
  printf( "\nselection rule 2\n");
  printf( "scanning for any entry under directory /c whose name = y\n\n");
  status = scandir(
     "/c",
     &namelist,
     select2,
     NULL
  );
  printf("\nscandir status: %d\n", status );
  for ( i=0; i<status; i++)
  {
     printf("Selected Node Name: %s\n", namelist[i]->d_name );
  }
 
  printf( "\nSCANDIR with sorting\n" );
  printf( "\nselection rule 1\n");
  printf( "scanning for any entry under directory /c\n");
  printf( "sort in ascending order\n\n");
  status = scandir(
     "/c",
     &namelist,
     select1,
     compare_ascending
  );
  printf("\nscandir status: %d\n", status );
  for ( i=0; i<status; i++)
  {
     printf("Selected and Sorted Node Name: %s\n", namelist[i]->d_name );
  }
 
 
  printf( "\nSCANDIR with sorting\n" );
  printf( "\nselection rule 1\n");
  printf( "scanning for any entry under directory /c\n");
  printf( "sort in descending order\n\n");
  status = scandir(
     "/c",
     &namelist,
     select1,
     compare_descending
  );
  printf("scandir status: %d\n", status );
  for ( i=0; i<status; i++)
  {
     printf("Selected and Sorted Node Name: %s\n", namelist[i]->d_name );
  }
 
  test_across_mount();
  printf( "\n\n*** END OF READDIR TEST ***\n" );
  rtems_test_exit(0);
}
 

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[/] [or1k/] [trunk/] [rtems-20020807/] [c/] [src/] [tests/] [psxtests/] [psxreaddir/] [test.c] - Blame information for rev 1765

Line No.	Rev	Author	Line
1	1026	ivang	`/*`
2			`* This is a native test to explore how the readdir() family works.`
3			`* Newlib supports the following readdir() family members:`
4			`*`
5			`* closedir() -`
6			`* readdir() -`
7			`* scandir() -`
8			`* opendir() -`
9			`* rewinddir() -`
10			`* telldir() - BSD not in POSIX`
11			`* seekdir() - BSD not in POSIX`
12			`*`
13			`*`
14			`* seekdir() takes an offset which is a byte offset. The Linux`
15			`* implementation of this appears to seek to the ((off/DIRENT_SIZE) + 1)`
16			`* record where DIRENT_SIZE seems to be 12 bytes.`
17			`*`
18			`*`
19			`*`
20			`* test.c,v 1.7 2002/08/02 00:53:21 joel Exp`
21			`*/`
22
23			`#include <stdio.h>`
24			`#include <sys/types.h>`
25			`#include <fcntl.h>`
26			`#include <dirent.h>`
27			`#include <string.h>`
28			`#include <assert.h>`
29			`#include <unistd.h>`
30			`#include <errno.h>`
31			`#include <imfs.h>`
32			`#include <assert.h>`
33
34			`DIR *directory;`
35			`DIR *directory2;`
36			`DIR *directory3;`
37			`DIR *directory_not;`
38
39			`#ifndef __P`
40			`#define __P(args)()`
41			`#endif`
42
43			`int scandir ( const char *dirname,`
44			`struct dirent *** namelist,`
45			`int (select) __P((struct dirent )),`
46			`int (dcomp) __P((const void , const void *))`
47			`);`
48
49			`#if defined(__rtems__)`
50			`#define d_type d_reclen`
51			`#include <pmacros.h>`
52			`#endif`
53
54			`void printdir( DIR *directory )`
55			`{`
56			`struct dirent *d;`
57
58			`printf( "%-20s %8s %8s %8s %4s\n",`
59			`"name", " inode", " offset", "reclen", " type" );`
60			`d = readdir(directory);`
61
62			`while (d) {`
63			`printf( "%-20s %8d %8d %6d 0x%04x\n",`
64			`d->d_name, (int)d->d_ino, (int)d->d_off, d->d_reclen, d->d_type );`
65			`d = readdir(directory);`
66
67			`}`
68			`}`
69
70			`void complete_printdir( char *path )`
71			`{`
72			`DIR *the_dir;`
73			`int status;`
74
75			`the_dir = opendir( path );`
76			`assert( the_dir );`
77			`printdir( the_dir );`
78			`status = closedir( the_dir );`
79			`}`
80
81			`char *many_files[] = {`
82			`"a",`
83			`"b",`
84			`"c",`
85			`"d",`
86			`"e",`
87			`"f",`
88			`"g",`
89			`"h",`
90			`"i",`
91			`"j",`
92			`"k",`
93			`"l",`
94			`"m",`
95			`"n",`
96			`"o",`
97			`"p",`
98			`"q",`
99			`"r",`
100			`"s",`
101			`"t",`
102			`"u",`
103			`"v",`
104			`"w",`
105			`"x",`
106			`"y",`
107			`"z",`
108			`"aa",`
109			`"ab",`
110			`"ac",`
111			`"ad",`
112			`"ae",`
113			`"af",`
114			`"ag",`
115			`"ah",`
116			`"ai",`
117			`"aj",`
118			`"ak",`
119			`"al",`
120			`"am",`
121			`"an",`
122			`"ao",`
123			`"ap",`
124			`"aq",`
125			`"ar"`
126			`};`
127
128			`char *dnames[] = {`
129			`"a",`
130			`"b",`
131			`"c",`
132			`"d",`
133			`"e",`
134			`"f",`
135			`"c/y",`
136			`"c/z",`
137			`"c/x",`
138			`"c/y/a3333",`
139			`"c/y/j123",`
140			`"END"`
141			`};`
142
143			`int select1 ( struct dirent *entry )`
144			`{`
145			`printf("SCANDIR SELECT1 accepts nodename: %s\n", entry->d_name );`
146			`return 1;`
147			`}`
148
149			`int select2 ( struct dirent *entry )`
150			`{`
151			`if( strcmp( entry->d_name, "y") == 0 ) {`
152			`printf("SCANDIR SELECT accepted nodename: %s\n", entry->d_name );`
153			`return 1;`
154			`}`
155			`printf("SCANDIR SELECT rejected nodename: %s\n", entry->d_name );`
156			`return 0;`
157			`}`
158
159			`int compare_ascending( struct dirent a, struct dirent b )`
160			`{`
161			`int i;`
162
163			`i = strcmp (`
164			`(char )((struct dirent )(*a)->d_name),`
165			`(char )((struct dirent )(*b)->d_name)`
166			`);`
167			`return i;`
168			`}`
169
170
171			`int compare_descending( struct dirent a, struct dirent b )`
172			`{`
173			`int i;`
174
175			`i = strcmp (`
176			`(char )((struct dirent )(*b)->d_name),`
177			`(char )((struct dirent )(*a)->d_name)`
178			`);`
179
180			`return i;`
181			`}`
182
183			`int test_across_mount()`
184			`{`
185			`rtems_filesystem_mount_table_entry_t *mt_entry;`
186			`int status;`
187
188			`/*`
189			`* Verify Readdir works correctly over mount points.`
190			`*/`
191
192			`printf("Validate readdir across mount point\n");`
193			`assert( mkdir( "/imfs", 0777 ) == 0 );`
194			`assert( mkdir( "/imfs/should_be_hidden", 0777 ) == 0 );`
195			`complete_printdir("/imfs" );`
196			`printf("Attempting to mount IMFS file system at /imfs \n");`
197			`status = mount(`
198			`&mt_entry,`
199			`&IMFS_ops,`
200			`RTEMS_FILESYSTEM_READ_WRITE,`
201			`NULL,`
202			`"/imfs" );`
203			`assert( status == 0 );`
204			`if( mt_entry == NULL ){`
205			`printf(" NULL mount table entry was returned\n");`
206			`}`
207			`printf( "create /imfs/testdir and /imfs/testdir/testsubdir\n");`
208
209			`status = mkdir( "/imfs/testdir", 0777 );`
210			`assert( status == 0 );`
211			`status = mkdir( "/imfs/testdir/testsubdir", 0777 );`
212			`assert( status == 0 );`
213
214			`complete_printdir("/imfs" );`
215			`complete_printdir("/imfs/" );`
216			`complete_printdir("/imfs/." );`
217			`complete_printdir("/imfs/testdir" );`
218			`complete_printdir("/imfs/testdir/.." );`
219			`}`
220
221			`#if defined(__rtems__)`
222			`int test_main(void)`
223			`#else`
224			`int main(`
225			`int argc,`
226			`char **argv`
227			`)`
228			`#endif`
229			`{`
230			`int fd;`
231			`int i;`
232			`int status;`
233			`off_t off;`
234			`struct dirent *d_not;`
235			`struct dirent **namelist;`
236			`struct stat s;`
237
238
239			`printf( "\n\n* READDIR TEST *\n" );`
240
241			`printf( "\nchdir to the root directory\n" );`
242			`status = chdir( "/" );`
243			`printf( "chdir() status : %d\n\n", status );`
244
245			`printf( "\nCreating a series of directories under /\n" );`
246			`i=0;`
247			`while ( strcmp(dnames[i], "END") != 0 )`
248			`{`
249			`status = mkdir( dnames[i], 0x1c0 );`
250			`printf("Creating directory: %s %d %d ", dnames[i], status, errno );`
251			`if ( errno == 0 )`
252			`printf(" Success\n");`
253			`else`
254			`printf(" Failure\n");`
255
256			`i++;`
257			`}`
258
259			`/*`
260			`* Create files under many and open the directory.`
261			`*/`
262
263			`printf("Create a lot of files\n");`
264			`status = mkdir( "/many", 0x1c0 );`
265			`status = chdir( "/many" );`
266			`for (i = 0; i<44; i++) {`
267			`printf("Create %s\n", many_files[i]);`
268			`fd = open (many_files[i], O_CREAT, S_IRWXU);`
269			`close (fd);`
270			`}`
271			`printf("Open /many and print the directory\n");`
272			`directory_not = opendir( "/many" );`
273			`printdir ( directory_not );`
274			`d_not = readdir( directory_not );`
275
276			`printf("open /b/myfile\n");`
277			`fd = open ("/b/my_file", O_CREAT, S_IRWXU);`
278			`assert( fd != -1 );`
279			`close (fd);`
280
281			`printf("scandir a file status: ");`
282			`status = scandir(`
283			`"/b/my_file",`
284			`&namelist,`
285			`select1,`
286			`NULL`
287			`);`
288			`printf("%d\n", status);`
289
290			`printf("Open /b/new_file\n");`
291			`fd = open( "/b/new_file", O_CREAT, S_IRWXU );`
292			`assert( fd != -1 );`
293
294			`printf("fcntl F_SETFD should return 0\n");`
295			`status = fcntl( fd, F_SETFD, 1 );`
296			`assert( status == 0 );`
297
298			`printf("fcntl F_SETFD should return 1\n");`
299			`status = fcntl( fd, F_GETFD, 1 );`
300			`assert( status == 1 );`
301
302			`#if 0`
303			`printf("fcntl F_DUPFD should return 0\n");`
304			`status = fcntl( fd, F_DUPFD, 0 );`
305			`assert ( status == 0 );`
306			`#else`
307			`printf("fcntl F_DUPFD should return 0 -- skip until implemented\n");`
308			`#endif`
309
310			`printf("fcntl F_GETFL returns current flags\n");`
311			`status = fcntl( fd, F_GETFL, 1 );`
312			`printf("fcntl F_GETFL returned 0x%x\n", status );`
313			`assert( status != -1 );`
314
315			`printf("fcntl F_SETFL to add O_APPEND and O_NONBLOCK\n");`
316			`status = fcntl( fd, F_SETFL, O_APPEND\|O_NONBLOCK );`
317			`assert ( status != -1 );`
318
319			`printf("fcntl F_GETFL return current flags to see changes\n");`
320			`status = fcntl( fd, F_GETFL, 1 );`
321			`printf("fcntl F_GETFL returned 0x%x\n", status );`
322			`assert( status != -1 );`
323
324			`printf("fcntl F_GETLK should return -1\n");`
325			`status = fcntl( fd, F_GETLK, 1 );`
326			`assert ( status == -1 );`
327
328			`printf("fcntl F_SETLK should return -1\n");`
329			`status = fcntl( fd, F_SETLK, 1 );`
330			`assert ( status == -1 );`
331
332			`printf("fcntl F_SETLKW should return -1\n");`
333			`status = fcntl( fd, F_SETLKW, 1 );`
334			`assert ( status == -1 );`
335
336			`printf("fcntl F_SETOWN should return -1\n");`
337			`status = fcntl( fd, F_SETOWN, 1 );`
338			`assert ( status == -1 );`
339
340			`printf("fcntl F_GETOWN should return -1\n");`
341			`status = fcntl( fd, F_GETOWN, 1 );`
342			`assert ( status == -1 );`
343
344			`printf("fcntl invalid argument should return -1\n");`
345			`status = fcntl( fd, 0xb, 1 );`
346			`printf("Status %d\n",status);`
347			`assert( status == -1 );`
348
349			`printf("opendir and readdir /b/myfile\n");`
350			`directory_not = opendir ("/b/my_file");`
351			`d_not = readdir(directory_not);`
352
353			`printf("opendir and readdir\n");`
354			`directory_not = opendir ("/a");`
355			`d_not = readdir (directory_not);`
356
357			`printf("chdir to /b/myfile\n");`
358			`status = chdir ("/b/my_file");`
359			`assert (status == -1);`
360
361			`printf( "\nPerforming stat of directory /\n");`
362			`status = stat( "/", &s );`
363			`printf("status for stat : %d, size of directory: %d\n\n",`
364			`status,(int)s.st_size);`
365
366			`puts( "\nOpen and print directory /" );`
367			`directory = opendir("/");`
368			`assert( directory );`
369			`printdir(directory);`
370
371			`printf("\nmkdir /d/my_dir\n");`
372			`status = mkdir( "/d/my_dir", 0x1c0 );`
373			`printf("Open /d/my_dir\n");`
374			`directory_not = opendir( "/d/my_dir" );`
375			`assert( directory_not );`
376
377			`printf( "remove /d/my_dir.\n" );`
378			`status = rmdir( "/d/my_dir" );`
379			`assert( status == 0 );`
380
381			`printf( "close /d/my_dir.\n" );`
382			`closedir( directory_not );`
383
384			`printf( "\nOpening directory /c\n" );`
385			`directory2 = opendir("/c");`
386
387			`assert( directory2 );`
388
389			`printdir(directory2);`
390			`status = closedir( directory2 );`
391
392			`printf( "\nOpening directory /c/y\n" );`
393			`directory3 = opendir("/c/y");`
394			`assert( directory3 );`
395			`printdir(directory3);`
396			`status = closedir( directory3 );`
397
398			`printf( "\nLSEEK to the start of the open directory\n" );`
399			`lseek( directory->dd_fd, 0, SEEK_SET );`
400			`printdir(directory);`
401
402			`lseek( directory->dd_fd, 0, SEEK_CUR );`
403
404			`lseek( directory->dd_fd, 0, SEEK_END );`
405
406			`lseek( directory->dd_fd, 0, -99 );`
407
408			`printf( "\nRewinding directory\n" );`
409			`rewinddir( directory );`
410			`printdir(directory);`
411
412			`/* Don't know how to check this one automatically. */`
413			`printf( "Send rewinddir a NULL pointer\n");`
414			`rewinddir( NULL );`
415
416			`printf( "\nSeek directory\n" );`
417			`printf( "telldir() should report only sizeof(struct dirent) increments \n" );`
418			`printf( "in position. Sizeof(struct dirent): %d\n", sizeof(struct dirent) );`
419			`rewinddir( directory );`
420			`for( off=0 ; off<=200 ; off=off + sizeof(struct dirent) / 4 ) {`
421			`seekdir( directory, off );`
422			`printf(`
423			`"seeked to %2d -- currently at %2d\n",`
424			`(int)off,`
425			`(int)telldir(directory)`
426			`);`
427			`}`
428
429			`printf( "Send seekdir a NULL pointer\n");`
430			`seekdir( NULL, off );`
431
432			`printf( "\nClosing directory\n" );`
433			`status = closedir( directory );`
434
435			`printf( "\nSCANDIR TEST\n");`
436			`printf( "\nselection rule 1\n");`
437			`printf( "scanning for any entry under directory /c\n\n");`
438			`status = scandir(`
439			`"/c",`
440			`&namelist,`
441			`select1,`
442			`NULL`
443			`);`
444			`printf("\nscandir status: %d\n", status );`
445			`for ( i=0; i<status; i++)`
446			`{`
447			`printf("Selected Node Name: %s\n", namelist[i]->d_name );`
448			`}`
449
450			`printf( "\nselection rule 2\n");`
451			`printf( "scanning for any entry under directory /c whose name = y\n\n");`
452			`status = scandir(`
453			`"/c",`
454			`&namelist,`
455			`select2,`
456			`NULL`
457			`);`
458			`printf("\nscandir status: %d\n", status );`
459			`for ( i=0; i<status; i++)`
460			`{`
461			`printf("Selected Node Name: %s\n", namelist[i]->d_name );`
462			`}`
463
464			`printf( "\nSCANDIR with sorting\n" );`
465			`printf( "\nselection rule 1\n");`
466			`printf( "scanning for any entry under directory /c\n");`
467			`printf( "sort in ascending order\n\n");`
468			`status = scandir(`
469			`"/c",`
470			`&namelist,`
471			`select1,`
472			`compare_ascending`
473			`);`
474			`printf("\nscandir status: %d\n", status );`
475			`for ( i=0; i<status; i++)`
476			`{`
477			`printf("Selected and Sorted Node Name: %s\n", namelist[i]->d_name );`
478			`}`
479
480
481			`printf( "\nSCANDIR with sorting\n" );`
482			`printf( "\nselection rule 1\n");`
483			`printf( "scanning for any entry under directory /c\n");`
484			`printf( "sort in descending order\n\n");`
485			`status = scandir(`
486			`"/c",`
487			`&namelist,`
488			`select1,`
489			`compare_descending`
490			`);`
491			`printf("scandir status: %d\n", status );`
492			`for ( i=0; i<status; i++)`
493			`{`
494			`printf("Selected and Sorted Node Name: %s\n", namelist[i]->d_name );`
495			`}`
496
497			`test_across_mount();`
498			`printf( "\n\n* END OF READDIR TEST *\n" );`
499			`rtems_test_exit(0);`
500			`}`
501