/*
* Simple test program to exercise some of the basic functionality of
* POSIX Files and Directories Support.
*
* This test assumes that the file system is initialized with the
* following directory structure:
*
* XXXX fill this in.
* /
* /dev
* /dev/XXX [where XXX includes at least console]
*
* COPYRIGHT (c) 1989-2010.
* On-Line Applications Research Corporation (OAR).
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*
* $Id$
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdio.h>
#include <pmacros.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <ctype.h>
#include <reent.h>
#include <rtems/imfs.h>
#include <rtems.h>
#include <rtems/libio.h>
void test_case_reopen_append(void);
char test_write_buffer[ 1024 ];
rtems_filesystem_operations_table IMFS_ops_no_evalformake;
rtems_filesystem_operations_table IMFS_ops_no_rename;
/*
* File test support routines.
*/
void test_cat(
char *file,
int offset_arg,
int length
);
void test_write(
char *file,
off_t offset,
char *buffer
);
void test_extend(
char *file,
off_t new_len
);
void IMFS_dump( void );
int IMFS_memfile_maximum_size( void );
/*
* dump_statbuf
*/
void dump_statbuf( struct stat *buf )
{
int major1;
int minor1;
int major2;
int minor2;
rtems_filesystem_split_dev_t( buf->st_dev, major1, minor1 );
rtems_filesystem_split_dev_t( buf->st_rdev, major2, minor2 );
printf( "....st_dev (0x%x:0x%x)\n", major1, minor1 );
printf( "....st_ino %" PRIxino_t " may vary by small amount\n", buf->st_ino );
printf( "....mode = %08o\n", (unsigned int) buf->st_mode );
printf( "....nlink = %d\n", buf->st_nlink );
printf( "....uid = %d\n", buf->st_uid );
printf( "....gid = %d\n", buf->st_gid );
printf( "....atime = %s", ctime(&buf->st_atime) );
printf( "....mtime = %s", ctime(&buf->st_mtime) );
printf( "....ctime = %s", ctime(&buf->st_ctime) );
printf( "....st_blksize %" PRIxblksize_t "\n", buf->st_blksize );
printf( "....st_blocks %" PRIxblkcnt_t "\n", buf->st_blocks );
}
void stat_a_file(
const char *file
)
{
int status;
struct stat statbuf;
rtems_test_assert( file );
printf( "stat( %s ) returned ", file );
fflush( stdout );
status = stat( file, &statbuf );
if ( status == -1 ) {
printf( ": %s\n", strerror( errno ) );
} else {
puts("");
dump_statbuf( &statbuf );
}
}
/*
* Main entry point of the test
*/
#if defined(__rtems__)
int test_main(void)
#else
int main(
int argc,
char **argv
)
#endif
{
int status;
size_t max_size;
int fd;
int i;
struct stat buf;
char buffer[128];
FILE *file;
time_t atime1;
time_t mtime1;
time_t ctime1;
time_t atime2;
time_t mtime2;
time_t ctime2;
rtems_status_code rtems_status;
rtems_time_of_day time;
printf( "\n\n*** FILE TEST 1 ***\n" );
/*
* Grab the maximum size of an in-memory file.
*/
max_size = IMFS_memfile_maximum_size();
build_time( &time, 12, 31, 1988, 9, 0, 0, 0 );
rtems_status = rtems_clock_set( &time );
/*
* Dump an empty file system
*/
IMFS_dump();
/*
* Simple stat() of /dev/console.
*/
puts( "stat of /dev/console" );
status = stat( "/dev/console", &buf );
rtems_test_assert( !status );
dump_statbuf( &buf );
/*
* Exercise mkdir() and some path evaluation.
*/
puts( "" );
puts( "mkdir /dev/tty" );
status = mkdir( "/dev/tty", S_IRWXU );
rtems_test_assert( !status );
puts( "" );
puts( "mkdir /usr" );
status = mkdir( "/usr", S_IRWXU );
rtems_test_assert( !status );
puts( "mkdir /etc" );
status = mkdir( "/etc", S_IRWXU );
rtems_test_assert( !status );
puts( "mkdir /tmp" );
status = mkdir( "/tmp", S_IRWXU );
rtems_test_assert( !status );
/* this tests the ".." path in path name evaluation */
puts( "mkdir /tmp/.." );
status = mkdir( "/tmp/..", S_IRWXU );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EEXIST );
/* now check out trailing separators */
puts( "mkdir /tmp/" );
status = mkdir( "/tmp/", S_IRWXU );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EEXIST );
/* try to make a directory under a non-existent subdirectory */
puts( "mkdir /j/j1" );
status = mkdir( "/j/j1", S_IRWXU );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == ENOENT );
/* this tests the ability to make a directory in the current one */
puts( "mkdir tmp" );
status = mkdir( "tmp", S_IRWXU );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EEXIST );
/* test rtems_filesystem_evaluate_path by sending NULL path */
status = chdir( NULL );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EFAULT );
/*
* Now switch gears and exercise rmdir().
*/
puts( "" );
puts( "rmdir /usr" );
status = rmdir( "/usr" );
rtems_test_assert( !status );
puts( "rmdir /dev" );
status = rmdir( "/dev" );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == ENOTEMPTY);
puts( "rmdir /fred" );
status = rmdir ("/fred");
rtems_test_assert (status == -1);
rtems_test_assert( errno == ENOENT );
puts( "rmdir /tmp/bha" );
status = rmdir( "/tmp/bha" );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == ENOENT );
puts( "unlink /dev/tty" );
status = unlink( "/dev/tty" );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EISDIR );
puts( "mknod /dev/test_console" );
status = mknod( "/dev/test_console", S_IFCHR, 0LL );
rtems_test_assert( !status );
puts( "mknod /dev/tty/S3" );
status = mknod( "/dev/tty/S3", S_IFCHR, 0xFF00000080LL );
rtems_test_assert( !status );
puts ("mknod /etc/passwd");
status = mknod( "/etc/passwd", (S_IFREG | S_IRWXU), 0LL );
rtems_test_assert( !status );
puts( "mkdir /tmp/my_dir");
status = mkdir( "/tmp/my_dir", S_IRWXU );
rtems_test_assert( status == 0 );
puts("mkfifo /c/my_dir" );
status = mkfifo( "/c/my_dir", S_IRWXU );
rtems_test_assert( status == -1 );
/*
* Try to make a directory under a file -- ERROR
*/
puts( "mkdir /etc/passwd/j" );
status = mkdir( "/etc/passwd/j", S_IRWXU );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == ENOTDIR );
/*
* Simple open failure case on non-existent file
*/
puts( "open /tmp/joel - should fail with ENOENT" );
fd = open( "/tmp/joel", O_RDONLY );
rtems_test_assert( fd == -1 );
rtems_test_assert( errno == ENOENT );
/*
* Simple open case where the file is created.
*/
puts( "open /tmp/j" );
fd = open( "/tmp/j", O_RDWR|O_CREAT, S_IRWXU|S_IRWXG|S_IRWXO );
rtems_test_assert( fd != -1 );
printf( "open returned file descriptor %d\n", fd );
puts( "close /tmp/j" );
status = close( fd );
rtems_test_assert( !status );
puts( "close /tmp/j again" );
status = close( fd );
rtems_test_assert( status == -1 );
puts( "unlink /tmp/j" );
status = unlink( "/tmp/j" );
rtems_test_assert( !status );
puts( "unlink /tmp" );
status = unlink( "/tmp" );
rtems_test_assert( status );
/*
* Simple open failure. Trying to create an existing file.
*/
puts("create and close /tmp/tom");
fd = open( "/tmp/tom", O_CREAT, S_IRWXU|S_IRWXG|S_IRWXO );
rtems_test_assert( fd != -1 );
status = close( fd );
rtems_test_assert( status == 0 );
puts("Attempt to recreate /tmp/tom");
fd = open( "/tmp/tom", O_CREAT | O_EXCL, S_IRWXU|S_IRWXG|S_IRWXO );
rtems_test_assert( fd == -1 );
rtems_test_assert( errno == EEXIST );
puts("create /tmp/john");
fd = open( "/tmp/john", O_RDWR|O_CREAT, S_IRWXU|S_IRWXG|S_IRWXO );
rtems_test_assert( fd != -1 );
puts("tcdrain /tmp/john" );
status = tcdrain( fd );
rtems_test_assert( status == 0 );
/*
* Open a file in read-only mode and try to truncate
*/
puts( "Attempt to create a file, open in read-only mode and truncate it" );
fd = open( "/tmp/bha", O_CREAT | O_RDONLY | O_TRUNC, S_IRUSR );
rtems_test_assert( fd == -1 );
rtems_test_assert( errno == EINVAL );
puts( "Exercise the reentrant version _link_r -- Expect ENOENT" );
status = _link_r( NULL, "/tmp/notexist", "/tmp/cannotexist" );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == ENOENT );
puts( "Unlink /tmp/bha using the reentrant version -- OK" );
status = _unlink_r( NULL, "/tmp/bha" );
rtems_test_assert( status == 0 );
/*
* Simple test case for mknod
*/
puts( "mknod with bad type - expect EINVAL" );
status = mknod( "/tmp/bha", 0, 0LL );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EINVAL );
/*
* Read from filedes opened for write
*/
puts( "open /tmp/bha in write only mode -- OK" );
fd = open( "/tmp/bha", O_CREAT | O_WRONLY, S_IRWXU|S_IRWXG|S_IRWXO );
rtems_test_assert( fd != -1 );
puts( "attempt fcntl on opened file -- OK" );
status = fcntl( fd, F_SETFD, 0 );
rtems_test_assert( status == 0 );
puts( "attempt to read from /tmp/bha - expect EINVAL" );
status = read( fd, buffer, 10 );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EINVAL );
puts( "closing and unlinking /tmp/bha" );
status = close( fd );
status |= unlink( "/tmp/bha" );
rtems_test_assert( status == 0 );
puts( "open /tmp/bha in read only mode -- OK" );
fd = open( "/tmp/bha", O_CREAT | O_RDONLY, S_IRWXU|S_IRWXG|S_IRWXO );
rtems_test_assert( fd != -1 );
puts( "attempt to read from /tmp/bha - expect EINVAL" );
status = write( fd, buffer, 10 );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EINVAL );
puts( "closing and unlinking /tmp/bha" );
status = close( fd );
status |= unlink( "/tmp/bha" );
rtems_test_assert( status == 0 );
/*
* Read/write from an unopened filedes
*/
puts( "attempt to read from an unopened filedes - expect EBADF" );
status = read( 5, buffer, 10 );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EBADF );
puts( "attempt to write to an unopened filedes - expect EBADF" );
status = write( 5, buffer, 10 );
rtems_test_assert( status == -1 );
rtems_test_assert( errno == EBADF );
/*
* Test simple write to a file at offset 0
*/
puts( "mknod /tmp/joel" );
status = mknod( "/tmp/joel", (S_IFREG | S_IRWXU), 0LL );
test_write( "/tmp/joel", 0, "the first write!!!\n" );
test_cat( "/tmp/joel", 0, 0 );
/* Exercise _rename_r */
/* Simple rename test */
puts( "rename /tmp/joel to /tmp/drjoel");
status = _rename_r(NULL,"/tmp/joel","/tmp/drjoel");
rtems_test_assert(status == 0);
/* Simple rename test */
puts("rename /tmp/drjoel to /tmp/joel");
status = _rename_r(NULL,"/tmp/drjoel","/tmp/joel");
rtems_test_assert(status == 0);
/* Invalid old path */
puts("rename /tmp/drjoel to /tmp/joel - Should result in an error \
since old path is not valid");
status = _rename_r(NULL,"/tmp/drjoel","/tmp/joel");
rtems_test_assert(status == -1);
/* Invalid new path */
puts("rename /tmp/joel to /tmp/drjoel/joel - Should result in an error \
since new path is not valid");
status = _rename_r(NULL,"/tmp/joel","/tmp/drjoel/joel");
rtems_test_assert(status == -1);
puts("changing dir to /tmp");
status = chdir("/tmp/");
rtems_test_assert(status == 0);
puts("rename joel to drjoel");
status = _rename_r(NULL,"joel","drjoel");
rtems_test_assert(status == 0);
puts("rename drjoel to joel");
status = _rename_r(NULL,"drjoel","joel");
rtems_test_assert(status == 0);
/* Rename across file systems */
puts("creating directory /imfs");
status = mkdir("/imfs",0777);
rtems_test_assert(status == 0);
puts("creating directory /imfs/hidden_on_mount");
status = mkdir("/imfs/hidden_on_mount",0777);
rtems_test_assert(status == 0);
puts("mounting filesystem with IMFS_ops at /imfs");
status = mount("null", "/imfs", "imfs", RTEMS_FILESYSTEM_READ_WRITE, NULL);
rtems_test_assert(status == 0);
puts("creating directory /imfs/test (on newly mounted filesystem)");
status = mkdir("/imfs/test", 0777);
rtems_test_assert(status == 0);
puts("attempt to rename directory joel to /imfs/test/joel - should fail with EXDEV");
status = _rename_r(NULL, "joel", "/imfs/test/joel");
rtems_test_assert(status == -1);
rtems_test_assert(errno == EXDEV);
puts("changing dir to /");
status = chdir("/");
rtems_test_assert(status == 0);
puts("attempt to rename across filesystem, with old path having a parent node");
puts("attempt to rename tmp/joel to /imfs/test/joel");
status = _rename_r(NULL, "tmp/joel", "/imfs/test/joel");
rtems_test_assert(status == -1);
rtems_test_assert(errno == EXDEV);
puts("End of _rename_r tests");
/*
* Test simple write to a file at a non-0 offset in the first block
*/
status = unlink( "/tmp/joel" );
rtems_test_assert( !status );
status = mknod( "/tmp/joel", (S_IFREG | S_IRWXU), 0LL );
rtems_test_assert( !status );
test_write( "/tmp/joel", 10, "the first write!!!\n" );
test_cat( "/tmp/joel", 0, 0 );
stat_a_file( "/tmp/joel" );
/*
* Test simple write to a file at a non-0 offset in the second block. Then
* try to read from various offsets and lengths.
*/
puts("unlink /tmp/joel");
status = unlink( "/tmp/joel" );
rtems_test_assert( !status );
/* Test a failure path */
puts( "unlink /tmp/joel" );
status = unlink( "/tmp/joel" );
rtems_test_assert( status == -1 );
puts( "mknod /tmp/joel");
status = mknod( "/tmp/joel", (S_IFREG | S_IRWXU), 0LL );
rtems_test_assert( !status );
test_write( "/tmp/joel", 514, "the first write!!!\n" );
test_write( "/tmp/joel", 1, test_write_buffer );
test_write( "/tmp/joel", 63, test_write_buffer );
test_cat( "/tmp/joel", 0, 1 );
test_cat( "/tmp/joel", 1, 1 );
test_cat( "/tmp/joel", 490, 1 );
test_cat( "/tmp/joel", 512, 1 );
test_cat( "/tmp/joel", 513, 1 );
test_cat( "/tmp/joel", 514, 1 );
test_cat( "/tmp/joel", 520, 1 );
test_cat( "/tmp/joel", 1, 1024 );
/*
* Read from a much longer file so we can descend into doubly and
* triply indirect blocks.
*/
if ( max_size < (size_t) 300 * 1024 ) {
test_extend( "/tmp/joel", max_size - 1 );
test_cat( "/tmp/joel", max_size / 2, 1024 );
} else {
printf( "Skipping maximum file size test since max_size is %zu bytes\n", max_size );
puts("That is likely to be bigger than the available RAM on many targets." );
}
stat_a_file( "/tmp/joel" );
/*
* Now try to use a FILE * descriptor
*
* /tmp/j should not exist at this point.
*/
puts( "stat of /tmp/j" );
errno = 0;
status = stat( "/tmp/j", &buf );
printf( "stat(/tmp/j) returned %d (errno=%d)\n", status, errno );
dump_statbuf( &buf );
puts( "fopen of /tmp/j" );
file = fopen( "/tmp/j", "w+" );
rtems_test_assert( file );
puts( "fprintf to /tmp/j" );
for (i=1 ; i<=5 ; i++) {
status = fprintf( file, "This is call %d to fprintf\n", i );
rtems_test_assert( status );
printf( "(%d) %d characters written to the file\n", i, status );
}
fflush( file );
status = stat( "/tmp/j", &buf );
rtems_test_assert( !status );
dump_statbuf( &buf );
atime2 = buf.st_atime;
mtime2 = buf.st_mtime;
ctime2 = buf.st_ctime;
status = rtems_task_wake_after( rtems_clock_get_ticks_per_second() );
rewind( file );
while ( fgets(buffer, 128, file) )
printf( "%s", buffer );
/*
* Verify only atime changed for a read.
*/
status = stat( "/tmp/j", &buf );
rtems_test_assert( !status );
dump_statbuf( &buf );
atime1 = buf.st_atime;
mtime1 = buf.st_mtime;
ctime1 = buf.st_ctime;
rtems_test_assert( atime1 != atime2);
rtems_test_assert( mtime1 == mtime2);
rtems_test_assert( ctime1 == ctime2);
IMFS_dump();
unlink( "/tmp/joel" );
/*
* Now truncate a file
*/
status = rtems_task_wake_after( rtems_clock_get_ticks_per_second() );
puts( "truncate /tmp/j to length of 40" );
status = truncate( "/tmp/j", 40 );
rtems_test_assert( !status );
/*
* Verify truncate changed only atime.
*/
status = stat( "/tmp/j", &buf );
rtems_test_assert( !status );
dump_statbuf( &buf );
atime2 = buf.st_atime;
mtime2 = buf.st_mtime;
ctime2 = buf.st_ctime;
rtems_test_assert( atime1 != atime2);
rtems_test_assert( mtime1 == mtime2);
rtems_test_assert( ctime1 == ctime2);
IMFS_dump();
/* try to truncate the console and see what happens */
status = truncate( "/dev/console", 40 );
rtems_test_assert( status == 0 );
puts( "truncate /tmp/j to length of 0" );
status = truncate( "/tmp/j", 0 );
rtems_test_assert( !status );
puts( "truncate /tmp to length of 0 should fail with EISDIR\n");
status = truncate( "/tmp", 0 );
rtems_test_assert( status == -1 );
printf( "%d: %s\n", errno, strerror( errno ) );
rtems_test_assert( errno == EISDIR );
IMFS_dump();
status = truncate( "/tmp/fred", 10 );
rtems_test_assert( status == -1);
rtems_status = rtems_io_register_name( "/dev/console", 0, 0 );
test_case_reopen_append();
printf( "*** END OF FILE TEST 1 ***\n" );
rtems_test_exit( 0 );
}
/*
* Open/Create a File and write to it
*
* Test case submitted by Andrew Bythell <abythell@nortelnetworks.com>.
*
*/
void test_file (char *filename, char *mode);
void test_case_reopen_append(void)
{
printf ("Writing First File\n");
test_file ("/one.txt", "a");
test_file ("/one.txt", "a");
/* but not the second time - this will insert junk.
the number of ^@'s seems to equal the number of
actual characters in the file */
printf ("Writing Second File\n");
test_file ("/two.txt", "a");
test_file ("/two.txt", "a");
test_cat( "/one.txt", 0, 1024 );
test_cat( "/two.txt", 0, 1024 );
}
void test_file (char *filename, char *mode)
{
FILE *fp;
fp = fopen (filename, mode);
if (!fp)
perror ("fopen");
fprintf (fp, "this is a test line\n");
if (fclose (fp))
perror ("fclose");
}