URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [rtos/] [ecos-3.0/] [packages/] [fs/] [fat/] [current/] [tests/] [fatfs1.c] - Rev 786
Compare with Previous | Blame | View Log
//========================================================================== // // fatfs1.c // // Test fileio system // //========================================================================== // ####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002, 2004 Free Software Foundation, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later // version. // // eCos is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License // along with eCos; if not, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // As a special exception, if other files instantiate templates or use // macros or inline functions from this file, or you compile this file // and link it with other works to produce a work based on this file, // this file does not by itself cause the resulting work to be covered by // the GNU General Public License. However the source code for this file // must still be made available in accordance with section (3) of the GNU // General Public License v2. // // This exception does not invalidate any other reasons why a work based // on this file might be covered by the GNU General Public License. // ------------------------------------------- // ####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): nickg // Contributors: nickg // Date: 2000-05-25 // Purpose: Test fileio system // Description: This test uses the testfs to check out the initialization // and basic operation of the fileio system // // // // // // // //####DESCRIPTIONEND#### // //========================================================================== #include <pkgconf/hal.h> #include <pkgconf/io_fileio.h> #include <pkgconf/fs_fat.h> #include <cyg/infra/cyg_trac.h> // tracing macros #include <cyg/infra/cyg_ass.h> // assertion macros #include <unistd.h> #include <fcntl.h> #include <sys/stat.h> #include <errno.h> #include <string.h> #include <dirent.h> #include <stdio.h> #include <cyg/fileio/fileio.h> #include <cyg/infra/testcase.h> #include <cyg/infra/diag.h> // HAL polled output #include <cyg/fs/fatfs.h> //========================================================================== #define SHOW_RESULT( _fn, _res ) \ diag_printf("<FAIL>: " #_fn "() returned %d %s\n", _res, _res<0?strerror(errno):""); //========================================================================== #define IOSIZE 100 #define LONGNAME1 "long_file_name_that_should_take_up_more_than_one_directory_entry_1" #define LONGNAME2 "long_file_name_that_should_take_up_more_than_one_directory_entry_2" //========================================================================== #ifndef CYGPKG_LIBC_STRING char *strcat( char *s1, const char *s2 ) { char *s = s1; while( *s1 ) s1++; while( (*s1++ = *s2++) != 0); return s; } #endif //========================================================================== static void listdir( char *name, int statp, int numexpected, int *numgot ) { int err; DIR *dirp; int num=0; diag_printf("<INFO>: reading directory %s\n",name); dirp = opendir( name ); if( dirp == NULL ) SHOW_RESULT( opendir, -1 ); for(;;) { struct dirent *entry = readdir( dirp ); if( entry == NULL ) break; num++; diag_printf("<INFO>: entry %14s",entry->d_name); #ifdef CYGPKG_FS_FAT_RET_DIRENT_DTYPE diag_printf(" d_type %2x", entry->d_type); #endif if( statp ) { char fullname[PATH_MAX]; struct stat sbuf; if( name[0] ) { strcpy(fullname, name ); if( !(name[0] == '/' && name[1] == 0 ) ) strcat(fullname, "/" ); } else fullname[0] = 0; strcat(fullname, entry->d_name ); err = stat( fullname, &sbuf ); if( err < 0 ) { if( errno == ENOSYS ) diag_printf(" <no status available>"); else SHOW_RESULT( stat, err ); } else { diag_printf(" [mode %08x ino %08x nlink %d size %ld]", sbuf.st_mode,sbuf.st_ino,sbuf.st_nlink,(long)sbuf.st_size); } #ifdef CYGPKG_FS_FAT_RET_DIRENT_DTYPE if ((entry->d_type & S_IFMT) != (sbuf.st_mode & S_IFMT)) CYG_TEST_FAIL("File mode's don't match between dirent and stat"); #endif } diag_printf("\n"); } err = closedir( dirp ); if( err < 0 ) SHOW_RESULT( stat, err ); if (numexpected >= 0 && num != numexpected) CYG_TEST_FAIL("Wrong number of dir entries\n"); if ( numgot != NULL ) *numgot = num; } //========================================================================== static void createfile( char *name, size_t size ) { char buf[IOSIZE]; int fd; ssize_t wrote; int i; int err; diag_printf("<INFO>: create file %s size %zd \n",name,size); err = access( name, F_OK ); if( err < 0 && errno != EACCES ) SHOW_RESULT( access, err ); for( i = 0; i < IOSIZE; i++ ) buf[i] = i%256; fd = open( name, O_WRONLY|O_CREAT ); if( fd < 0 ) SHOW_RESULT( open, fd ); while( size > 0 ) { ssize_t len = size; if ( len > IOSIZE ) len = IOSIZE; wrote = write( fd, buf, len ); if( wrote != len ) SHOW_RESULT( write, (int)wrote ); size -= wrote; } err = close( fd ); if( err < 0 ) SHOW_RESULT( close, err ); } //========================================================================== static void maxfile( char *name ) { char buf[IOSIZE]; int fd; ssize_t wrote; int i; int err; size_t size = 0; size_t prevsize = 0; diag_printf("<INFO>: create maximal file %s\n",name); diag_printf("<INFO>: This may take a few minutes\n"); err = access( name, F_OK ); if( err < 0 && errno != EACCES ) SHOW_RESULT( access, err ); for( i = 0; i < IOSIZE; i++ ) buf[i] = i%256; fd = open( name, O_WRONLY|O_CREAT ); if( fd < 0 ) SHOW_RESULT( open, fd ); do { wrote = write( fd, buf, IOSIZE ); //if( wrote < 0 ) SHOW_RESULT( write, wrote ); if( wrote >= 0 ) size += wrote; if( (size-prevsize) > 100000 ) { diag_printf("<INFO>: size = %zd \n", size); prevsize = size; } } while( wrote == IOSIZE ); diag_printf("<INFO>: file size == %zd\n",size); err = close( fd ); if( err < 0 ) SHOW_RESULT( close, err ); } //========================================================================== static void checkfile( char *name ) { char buf[IOSIZE]; int fd; ssize_t done; int i; int err; off_t pos = 0; diag_printf("<INFO>: check file %s\n",name); err = access( name, F_OK ); if( err != 0 ) SHOW_RESULT( access, err ); fd = open( name, O_RDONLY ); if( fd < 0 ) SHOW_RESULT( open, fd ); for(;;) { done = read( fd, buf, IOSIZE ); if( done < 0 ) SHOW_RESULT( read, (int)done ); if( done == 0 ) break; for( i = 0; i < done; i++ ) if( buf[i] != i%256 ) { diag_printf("buf[%ld+%d](%02x) != %02x\n",pos,i,buf[i],i%256); CYG_TEST_FAIL("Data read not equal to data written\n"); } pos += done; } err = close( fd ); if( err < 0 ) SHOW_RESULT( close, err ); } #ifdef CYGCFG_FS_FAT_USE_ATTRIBUTES //========================================================================== static void checkattrib(const char *name, const cyg_fs_attrib_t test_attrib ) { int err; cyg_fs_attrib_t file_attrib; diag_printf("<INFO>: check attrib %s\n",name); err = cyg_fs_get_attrib(name, &file_attrib); if( err != 0 ) SHOW_RESULT( stat, err ); if ( (file_attrib & S_FATFS_ATTRIB) != test_attrib ) diag_printf("<FAIL>: attrib %s incorrect\n\tExpected %x Was %x\n", name,test_attrib,(file_attrib & S_FATFS_ATTRIB)); } #endif // CYGCFG_FS_FAT_USE_ATTRIBUTES //========================================================================== static void copyfile( char *name2, char *name1 ) { int err; char buf[IOSIZE]; int fd1, fd2; ssize_t done, wrote; diag_printf("<INFO>: copy file %s -> %s\n",name2,name1); err = access( name1, F_OK ); if( err < 0 && errno != EACCES ) SHOW_RESULT( access, err ); err = access( name2, F_OK ); if( err != 0 ) SHOW_RESULT( access, err ); fd1 = open( name1, O_WRONLY|O_CREAT ); if( fd1 < 0 ) SHOW_RESULT( open, fd1 ); fd2 = open( name2, O_RDONLY ); if( fd2 < 0 ) SHOW_RESULT( open, fd2 ); for(;;) { done = read( fd2, buf, IOSIZE ); if( done < 0 ) SHOW_RESULT( read, (int)done ); if( done == 0 ) break; wrote = write( fd1, buf, done ); if( wrote != done ) SHOW_RESULT( write, (int) wrote ); if( wrote != done ) break; } err = close( fd1 ); if( err < 0 ) SHOW_RESULT( close, err ); err = close( fd2 ); if( err < 0 ) SHOW_RESULT( close, err ); } //========================================================================== static void comparefiles( char *name2, char *name1 ) { int err; char buf1[IOSIZE]; char buf2[IOSIZE]; int fd1, fd2; ssize_t done1, done2; int i; diag_printf("<INFO>: compare files %s == %s\n",name2,name1); err = access( name1, F_OK ); if( err != 0 ) SHOW_RESULT( access, err ); err = access( name1, F_OK ); if( err != 0 ) SHOW_RESULT( access, err ); fd1 = open( name1, O_RDONLY ); if( fd1 < 0 ) SHOW_RESULT( open, fd1 ); fd2 = open( name2, O_RDONLY ); if( fd2 < 0 ) SHOW_RESULT( open, fd2 ); for(;;) { done1 = read( fd1, buf1, IOSIZE ); if( done1 < 0 ) SHOW_RESULT( read, (int)done1 ); done2 = read( fd2, buf2, IOSIZE ); if( done2 < 0 ) SHOW_RESULT( read, (int)done2 ); if( done1 != done2 ) diag_printf("Files different sizes\n"); if( done1 == 0 ) break; for( i = 0; i < done1; i++ ) if( buf1[i] != buf2[i] ) { diag_printf("buf1[%d](%02x) != buf1[%d](%02x)\n",i,buf1[i],i,buf2[i]); CYG_TEST_FAIL("Data in files not equal\n"); } } err = close( fd1 ); if( err < 0 ) SHOW_RESULT( close, err ); err = close( fd2 ); if( err < 0 ) SHOW_RESULT( close, err ); } //========================================================================== void checkcwd( const char *cwd ) { static char cwdbuf[PATH_MAX]; char *ret; ret = getcwd( cwdbuf, sizeof(cwdbuf)); if( ret == NULL ) SHOW_RESULT( getcwd, (int)ret ); if( strcmp( cwdbuf, cwd ) != 0 ) { diag_printf( "cwdbuf %s cwd %s\n",cwdbuf, cwd ); CYG_TEST_FAIL( "Current directory mismatch"); } } //========================================================================== // main int main( int argc, char **argv ) { int err; int existingdirents=-1; #if defined(CYGSEM_FILEIO_BLOCK_USAGE) struct cyg_fs_block_usage usage; #endif CYG_TEST_INIT(); // -------------------------------------------------------------- err = mount( CYGDAT_DEVS_DISK_TEST_DEVICE, "/", "fatfs" ); if( err < 0 ) SHOW_RESULT( mount, err ); err = chdir( "/" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/" ); listdir( "/", true, -1, &existingdirents ); // -------------------------------------------------------------- #if defined(CYGSEM_FILEIO_BLOCK_USAGE) err = cyg_fs_getinfo("/", FS_INFO_BLOCK_USAGE, &usage, sizeof(usage)); if( err < 0 ) SHOW_RESULT( cyg_fs_getinfo, err ); diag_printf("<INFO>: total size: %6lld blocks, %10lld bytes\n", usage.total_blocks, usage.total_blocks * usage.block_size); diag_printf("<INFO>: free size: %6lld blocks, %10lld bytes\n", usage.free_blocks, usage.free_blocks * usage.block_size); diag_printf("<INFO>: block size: %6u bytes\n", usage.block_size); #endif // -------------------------------------------------------------- createfile( "/foo", 20257 ); checkfile( "foo" ); copyfile( "foo", "fee"); checkfile( "fee" ); comparefiles( "foo", "/fee" ); diag_printf("<INFO>: mkdir bar\n"); err = mkdir( "/bar", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); listdir( "/" , true, existingdirents+3, NULL ); copyfile( "fee", "/bar/fum" ); checkfile( "bar/fum" ); comparefiles( "/fee", "bar/fum" ); diag_printf("<INFO>: cd bar\n"); err = chdir( "bar" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/bar" ); diag_printf("<INFO>: rename /foo bundy\n"); err = rename( "/foo", "bundy" ); if( err < 0 ) SHOW_RESULT( rename, err ); listdir( "/", true, existingdirents+2, NULL ); listdir( "" , true, 4, NULL ); checkfile( "/bar/bundy" ); comparefiles("/fee", "bundy" ); #if defined(CYGSEM_FILEIO_BLOCK_USAGE) err = cyg_fs_getinfo("/", FS_INFO_BLOCK_USAGE, &usage, sizeof(usage)); if( err < 0 ) SHOW_RESULT( cyg_fs_getinfo, err ); diag_printf("<INFO>: total size: %6lld blocks, %10lld bytes\n", usage.total_blocks, usage.total_blocks * usage.block_size); diag_printf("<INFO>: free size: %6lld blocks, %10lld bytes\n", usage.free_blocks, usage.free_blocks * usage.block_size); diag_printf("<INFO>: block size: %6u bytes\n", usage.block_size); #endif // -------------------------------------------------------------- diag_printf("<INFO>: unlink fee\n"); err = unlink( "/fee" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: unlink fum\n"); err = unlink( "fum" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: unlink /bar/bundy\n"); err = unlink( "/bar/bundy" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: cd /\n"); err = chdir( "/" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/" ); diag_printf("<INFO>: rmdir /bar\n"); err = rmdir( "/bar" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); listdir( "/", false, existingdirents, NULL ); // -------------------------------------------------------------- #if 0 diag_printf("<INFO>: mkdir disk2\n"); err = mkdir( "/disk2", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); #else diag_printf("<INFO>: mount /disk2\n"); err = mount( CYGDAT_DEVS_DISK_TEST_DEVICE2, "/disk2", "fatfs" ); if( err < 0 ) SHOW_RESULT( mount, err ); #endif listdir( "/disk2" , true, -1, &existingdirents); createfile( "/disk2/tinky", 4567 ); copyfile( "/disk2/tinky", "/disk2/laalaa" ); checkfile( "/disk2/tinky"); checkfile( "/disk2/laalaa"); comparefiles( "/disk2/tinky", "/disk2/laalaa" ); diag_printf("<INFO>: cd /disk2\n"); err = chdir( "/disk2" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2" ); diag_printf("<INFO>: mkdir noonoo\n"); err = mkdir( "noonoo", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); listdir( "/disk2" , true, existingdirents+3, NULL); diag_printf("<INFO>: cd noonoo\n"); err = chdir( "noonoo" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2/noonoo" ); createfile( "tinky", 6789 ); checkfile( "tinky" ); createfile( "dipsy", 34567 ); checkfile( "dipsy" ); copyfile( "dipsy", "po" ); checkfile( "po" ); comparefiles( "dipsy", "po" ); listdir( ".", true, 5, NULL ); listdir( "", true, 5, NULL ); listdir( "..", true, existingdirents+3, NULL ); // -------------------------------------------------------------- diag_printf("<INFO>: unlink tinky\n"); err = unlink( "tinky" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: unlink dipsy\n"); err = unlink( "dipsy" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: unlink po\n"); err = unlink( "po" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: cd ..\n"); err = chdir( ".." ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2" ); diag_printf("<INFO>: rmdir noonoo\n"); err = rmdir( "noonoo" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); // -------------------------------------------------------------- err = mkdir( "x", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); err = mkdir( "x/y", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); err = mkdir( "x/y/z", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); err = mkdir( "x/y/z/w", 0 ); if( err < 0 ) SHOW_RESULT( mkdir, err ); diag_printf("<INFO>: cd /disk2/x/y/z/w\n"); err = chdir( "/disk2/x/y/z/w" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2/x/y/z/w" ); diag_printf("<INFO>: cd ..\n"); err = chdir( ".." ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2/x/y/z" ); diag_printf("<INFO>: cd .\n"); err = chdir( "." ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2/x/y/z" ); diag_printf("<INFO>: cd ../../y\n"); err = chdir( "../../y" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2/x/y" ); diag_printf("<INFO>: cd ../..\n"); err = chdir( "../.." ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/disk2" ); diag_printf("<INFO>: rmdir x/y/z/w\n"); err = rmdir( "x/y/z/w" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); diag_printf("<INFO>: rmdir x/y/z\n"); err = rmdir( "x/y/z" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); diag_printf("<INFO>: rmdir x/y\n"); err = rmdir( "x/y" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); diag_printf("<INFO>: rmdir x\n"); err = rmdir( "x" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); // -------------------------------------------------------------- checkcwd( "/disk2" ); diag_printf("<INFO>: unlink tinky\n"); err = unlink( "tinky" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: unlink laalaa\n"); err = unlink( "laalaa" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: cd /\n"); err = chdir( "/" ); if( err < 0 ) SHOW_RESULT( chdir, err ); checkcwd( "/" ); listdir( "/disk2", true, -1, NULL ); #if 0 diag_printf("<INFO>: rmdir dir\n"); err = rmdir( "disk2" ); if( err < 0 ) SHOW_RESULT( rmdir, err ); #else diag_printf("<INFO>: umount /disk2\n"); err = umount( "/disk2" ); if( err < 0 ) SHOW_RESULT( umount, err ); #endif #ifdef CYGCFG_FS_FAT_USE_ATTRIBUTES // Create file diag_printf("<INFO>: create /foo\n"); createfile( "/foo", 20257 ); // Verify it is created with archive bit set checkattrib( "/foo", S_FATFS_ARCHIVE ); // Make it System diag_printf("<INFO>: attrib -A+S /foo\n"); err = cyg_fs_set_attrib( "/foo", S_FATFS_SYSTEM ); if( err < 0 ) SHOW_RESULT( chmod system , err ); // Verify it is now System checkattrib( "/foo", S_FATFS_SYSTEM ); // Make it Hidden diag_printf("<INFO>: attrib -S+H /foo\n"); err = cyg_fs_set_attrib( "/foo", S_FATFS_HIDDEN ); if( err < 0 ) SHOW_RESULT( chmod system , err ); // Verify it is now Hidden checkattrib( "/foo", S_FATFS_HIDDEN ); // Make it Read-only diag_printf("<INFO>: attrib -H+R /foo\n"); err = cyg_fs_set_attrib( "/foo", S_FATFS_RDONLY ); if( err < 0 ) SHOW_RESULT( chmod system , err ); // Verify it is now Read-only checkattrib( "/foo", S_FATFS_RDONLY ); // Verify we cannot unlink a read-only file diag_printf("<INFO>: unlink /foo\n"); err = unlink( "/foo" ); if( (err != -1) || (errno != EPERM) ) SHOW_RESULT( unlink, err ); // Verify we cannot rename a read-only file diag_printf("<INFO>: rename /foo bundy\n"); err = rename( "/foo", "bundy" ); if( (err != -1) || (errno != EPERM) ) SHOW_RESULT( rename, err ); // Verify we cannot open read-only file for writing int fd; diag_printf("<INFO>: create file /foo\n"); fd = open( "/foo", O_WRONLY ); if( (err != -1) || (errno != EACCES) ) SHOW_RESULT( open, err ); if( err > 0 ) close(fd); // Make it Normal diag_printf("<INFO>: attrib -H /foo\n"); err = cyg_fs_set_attrib( "/foo", 0 ); if( err < 0 ) SHOW_RESULT( chmod none , err ); // Verify it is now nothing checkattrib( "/foo", 0 ); // Now delete our test file diag_printf("<INFO>: unlink /foo\n"); err = unlink( "/foo" ); if( err < 0 ) SHOW_RESULT( unlink, err ); #endif // CYGCFG_FS_FAT_USE_ATTRIBUTES maxfile("file.max"); listdir( "/", true, -1, NULL ); diag_printf("<INFO>: unlink file.max\n"); err = unlink( "file.max" ); if( err < 0 ) SHOW_RESULT( unlink, err ); diag_printf("<INFO>: umount /\n"); err = umount( "/" ); if( err < 0 ) SHOW_RESULT( umount, err ); CYG_TEST_PASS_FINISH("fatfs1"); } // ------------------------------------------------------------------------- // EOF fatfs1.c