nodemcu-firmware/app/fatfs/myfatfs.c

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#include <c_stdlib.h>
#include <c_string.h>
#include "vfs_int.h"
#include "fatfs_prefix_lib.h"
#include "ff.h"
#include "fatfs_config.h"
static FRESULT last_result = FR_OK;
static const char* const volstr[_VOLUMES] = {_VOLUME_STRS};
static int is_current_drive = FALSE;
// forward declarations
static sint32_t myfatfs_close( const struct vfs_file *fd );
static sint32_t myfatfs_read( const struct vfs_file *fd, void *ptr, size_t len );
static sint32_t myfatfs_write( const struct vfs_file *fd, const void *ptr, size_t len );
static sint32_t myfatfs_lseek( const struct vfs_file *fd, sint32_t off, int whence );
static sint32_t myfatfs_eof( const struct vfs_file *fd );
static sint32_t myfatfs_tell( const struct vfs_file *fd );
static sint32_t myfatfs_flush( const struct vfs_file *fd );
static uint32_t myfatfs_fsize( const struct vfs_file *fd );
static sint32_t myfatfs_ferrno( const struct vfs_file *fd );
static sint32_t myfatfs_closedir( const struct vfs_dir *dd );
static sint32_t myfatfs_readdir( const struct vfs_dir *dd, struct vfs_stat *buf );
static vfs_vol *myfatfs_mount( const char *name, int num );
static vfs_file *myfatfs_open( const char *name, const char *mode );
static vfs_dir *myfatfs_opendir( const char *name );
static sint32_t myfatfs_stat( const char *name, struct vfs_stat *buf );
static sint32_t myfatfs_remove( const char *name );
static sint32_t myfatfs_rename( const char *oldname, const char *newname );
static sint32_t myfatfs_mkdir( const char *name );
static sint32_t myfatfs_fsinfo( uint32_t *total, uint32_t *used );
static sint32_t myfatfs_chdrive( const char *name );
static sint32_t myfatfs_chdir( const char *name );
static sint32_t myfatfs_errno( void );
static void myfatfs_clearerr( void );
static sint32_t myfatfs_umount( const struct vfs_vol *vol );
// ---------------------------------------------------------------------------
// function tables
//
static vfs_fs_fns myfatfs_fs_fns = {
.mount = myfatfs_mount,
.open = myfatfs_open,
.opendir = myfatfs_opendir,
.stat = myfatfs_stat,
.remove = myfatfs_remove,
.rename = myfatfs_rename,
.mkdir = myfatfs_mkdir,
.fsinfo = myfatfs_fsinfo,
.fscfg = NULL,
.format = NULL,
.chdrive = myfatfs_chdrive,
.chdir = myfatfs_chdir,
.ferrno = myfatfs_errno,
.clearerr = myfatfs_clearerr
};
static vfs_file_fns myfatfs_file_fns = {
.close = myfatfs_close,
.read = myfatfs_read,
.write = myfatfs_write,
.lseek = myfatfs_lseek,
.eof = myfatfs_eof,
.tell = myfatfs_tell,
.flush = myfatfs_flush,
.size = myfatfs_fsize,
.ferrno = myfatfs_ferrno
};
static vfs_dir_fns myfatfs_dir_fns = {
.close = myfatfs_closedir,
.readdir = myfatfs_readdir
};
static vfs_vol_fns myfatfs_vol_fns = {
.umount = myfatfs_umount
};
// ---------------------------------------------------------------------------
// specific struct extensions
//
struct myvfs_vol {
struct vfs_vol vfs_vol;
char *ldrname;
FATFS fs;
};
struct myvfs_file {
struct vfs_file vfs_file;
FIL fp;
};
struct myvfs_dir {
struct vfs_dir vfs_dir;
DIR dp;
};
// ---------------------------------------------------------------------------
// exported helper functions for FatFS
//
inline void *ff_memalloc( UINT size )
{
return c_malloc( size );
}
inline void ff_memfree( void *mblock )
{
c_free( mblock );
}
// TODO
DWORD get_fattime( void )
{
DWORD stamp;
vfs_time tm;
if (VFS_RES_OK == vfs_get_rtc( &tm )) {
// sanity checks
tm.year = (tm.year >= 1980) && (tm.year < 2108) ? tm.year : 1980;
tm.mon = (tm.mon >= 1) && (tm.mon <= 12) ? tm.mon : 1;
tm.day = (tm.day >= 1) && (tm.day <= 31) ? tm.day : 1;
tm.hour = (tm.hour >= 0) && (tm.hour <= 23) ? tm.hour : 0;
tm.min = (tm.min >= 0) && (tm.min <= 59) ? tm.min : 0;
tm.sec = (tm.sec >= 0) && (tm.sec <= 59) ? tm.sec : 0;
stamp = (tm.year-1980) << 25 | tm.mon << 21 | tm.day << 16 |
tm.hour << 11 | tm.min << 5 | tm.sec;
} else {
// default time stamp derived from ffconf.h
stamp = ((DWORD)(_NORTC_YEAR - 1980) << 25 | (DWORD)_NORTC_MON << 21 | (DWORD)_NORTC_MDAY << 16);
}
return stamp;
}
// ---------------------------------------------------------------------------
// volume functions
//
#define GET_FATFS_FS(descr) \
const struct myvfs_vol *myvol = (const struct myvfs_vol *)descr; \
FATFS *fs = (FATFS *)&(myvol->fs);
static sint32_t myfatfs_umount( const struct vfs_vol *vol )
{
GET_FATFS_FS(vol);
last_result = f_mount( NULL, myvol->ldrname, 0 );
c_free( myvol->ldrname );
c_free( (void *)vol );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
// ---------------------------------------------------------------------------
// file functions
//
#define GET_FIL_FP(descr) \
const struct myvfs_file *myfd = (const struct myvfs_file *)descr; \
FIL *fp = (FIL *)&(myfd->fp);
static sint32_t myfatfs_close( const struct vfs_file *fd )
{
GET_FIL_FP(fd)
last_result = f_close( fp );
// free descriptor memory
c_free( (void *)fd );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_read( const struct vfs_file *fd, void *ptr, size_t len )
{
GET_FIL_FP(fd);
UINT act_read;
last_result = f_read( fp, ptr, len, &act_read );
return last_result == FR_OK ? act_read : VFS_RES_ERR;
}
static sint32_t myfatfs_write( const struct vfs_file *fd, const void *ptr, size_t len )
{
GET_FIL_FP(fd);
UINT act_written;
last_result = f_write( fp, ptr, len, &act_written );
return last_result == FR_OK ? act_written : VFS_RES_ERR;
}
static sint32_t myfatfs_lseek( const struct vfs_file *fd, sint32_t off, int whence )
{
GET_FIL_FP(fd);
FSIZE_t new_pos;
switch (whence) {
default:
case VFS_SEEK_SET:
new_pos = off > 0 ? off : 0;
break;
case VFS_SEEK_CUR:
new_pos = f_tell( fp );
new_pos += off;
break;
case VFS_SEEK_END:
new_pos = f_size( fp );
new_pos += off < 0 ? off : 0;
break;
};
last_result = f_lseek( fp, new_pos );
new_pos = f_tell( fp );
return last_result == FR_OK ? new_pos : VFS_RES_ERR;
}
static sint32_t myfatfs_eof( const struct vfs_file *fd )
{
GET_FIL_FP(fd);
last_result = FR_OK;
return f_eof( fp );
}
static sint32_t myfatfs_tell( const struct vfs_file *fd )
{
GET_FIL_FP(fd);
last_result = FR_OK;
return f_tell( fp );
}
static sint32_t myfatfs_flush( const struct vfs_file *fd )
{
GET_FIL_FP(fd);
last_result = f_sync( fp );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static uint32_t myfatfs_fsize( const struct vfs_file *fd )
{
GET_FIL_FP(fd);
last_result = FR_OK;
return f_size( fp );
}
static sint32_t myfatfs_ferrno( const struct vfs_file *fd )
{
return -last_result;
}
// ---------------------------------------------------------------------------
// dir functions
//
#define GET_DIR_DP(descr) \
const struct myvfs_dir *mydd = (const struct myvfs_dir *)descr; \
DIR *dp = (DIR *)&(mydd->dp);
static sint32_t myfatfs_closedir( const struct vfs_dir *dd )
{
GET_DIR_DP(dd);
last_result = f_closedir( dp );
// free descriptor memory
c_free( (void *)dd );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static void myfatfs_fill_stat( const FILINFO *fno, struct vfs_stat *buf )
{
c_memset( buf, 0, sizeof( struct vfs_stat ) );
// fill in supported stat entries
c_strncpy( buf->name, fno->fname, FS_OBJ_NAME_LEN+1 );
buf->name[FS_OBJ_NAME_LEN] = '\0';
buf->size = fno->fsize;
buf->is_dir = fno->fattrib & AM_DIR ? 1 : 0;
buf->is_rdonly = fno->fattrib & AM_RDO ? 1 : 0;
buf->is_hidden = fno->fattrib & AM_HID ? 1 : 0;
buf->is_sys = fno->fattrib & AM_SYS ? 1 : 0;
buf->is_arch = fno->fattrib & AM_ARC ? 1 : 0;
struct vfs_time *tm = &(buf->tm);
tm->year = (fno->fdate >> 9) + 1980;
tm->mon = (fno->fdate >> 5) & 0x0f;
tm->day = fno->fdate & 0x1f;
tm->hour = (fno->ftime >> 11);
tm->min = (fno->ftime >> 5) & 0x3f;
tm->sec = fno->ftime & 0x3f;
buf->tm_valid = 1;
}
static sint32_t myfatfs_readdir( const struct vfs_dir *dd, struct vfs_stat *buf )
{
GET_DIR_DP(dd);
FILINFO fno;
if (FR_OK == (last_result = f_readdir( dp, &fno ))) {
// condition "no further item" is signalled with empty name
if (fno.fname[0] != '\0') {
myfatfs_fill_stat( &fno, buf );
return VFS_RES_OK;
}
}
return VFS_RES_ERR;
}
// ---------------------------------------------------------------------------
// filesystem functions
//
static vfs_vol *myfatfs_mount( const char *name, int num )
{
struct myvfs_vol *vol;
const size_t len = c_strlen( name );
// num argument specifies the physical driver = SS/CS pin number for this sd card
if (num >= 0) {
for (int i = 0; i < NUM_LOGICAL_DRIVES; i++) {
if (0 == c_strncmp( name, volstr[i], c_strlen( volstr[i] ) )) {
VolToPart[i].pd = num;
}
}
}
if (vol = c_malloc( sizeof( struct myvfs_vol ) )) {
if (vol->ldrname = c_strdup( name )) {
if (FR_OK == (last_result = f_mount( &(vol->fs), name, 1 ))) {
vol->vfs_vol.fs_type = VFS_FS_FATFS;
vol->vfs_vol.fns = &myfatfs_vol_fns;
return (vfs_vol *)vol;
}
}
}
if (vol) {
if (vol->ldrname) c_free( vol->ldrname );
c_free( vol );
}
return NULL;
}
static BYTE myfatfs_mode2flag( const char *mode )
{
if (c_strlen( mode ) == 1) {
if(c_strcmp( mode, "w" ) == 0)
return FA_WRITE | FA_CREATE_ALWAYS;
else if (c_strcmp( mode, "r" ) == 0)
return FA_READ | FA_OPEN_EXISTING;
else if (c_strcmp( mode, "a" ) == 0)
return FA_WRITE | FA_OPEN_ALWAYS;
else
return FA_READ | FA_OPEN_EXISTING;
} else if (c_strlen( mode ) == 2) {
if (c_strcmp( mode, "r+" ) == 0)
return FA_READ | FA_WRITE | FA_OPEN_EXISTING;
else if (c_strcmp( mode, "w+" ) == 0)
return FA_READ | FA_WRITE | FA_CREATE_ALWAYS;
else if (c_strcmp( mode, "a+" ) ==0 )
return FA_READ | FA_WRITE | FA_OPEN_ALWAYS;
else
return FA_READ | FA_OPEN_EXISTING;
} else {
return FA_READ | FA_OPEN_EXISTING;
}
}
static vfs_file *myfatfs_open( const char *name, const char *mode )
{
struct myvfs_file *fd;
const BYTE flags = myfatfs_mode2flag( mode );
if (fd = c_malloc( sizeof( struct myvfs_file ) )) {
if (FR_OK == (last_result = f_open( &(fd->fp), name, flags ))) {
// skip to end of file for append mode
if (flags & FA_OPEN_ALWAYS)
f_lseek( &(fd->fp), f_size( &(fd->fp) ) );
fd->vfs_file.fs_type = VFS_FS_FATFS;
fd->vfs_file.fns = &myfatfs_file_fns;
return (vfs_file *)fd;
} else {
c_free( fd );
}
}
return NULL;
}
static vfs_dir *myfatfs_opendir( const char *name )
{
struct myvfs_dir *dd;
if (dd = c_malloc( sizeof( struct myvfs_dir ) )) {
if (FR_OK == (last_result = f_opendir( &(dd->dp), name ))) {
dd->vfs_dir.fs_type = VFS_FS_FATFS;
dd->vfs_dir.fns = &myfatfs_dir_fns;
return (vfs_dir *)dd;
} else {
c_free( dd );
}
}
return NULL;
}
static sint32_t myfatfs_stat( const char *name, struct vfs_stat *buf )
{
FILINFO fno;
if (FR_OK == (last_result = f_stat( name, &fno ))) {
myfatfs_fill_stat( &fno, buf );
return VFS_RES_OK;
} else {
return VFS_RES_ERR;
}
}
static sint32_t myfatfs_remove( const char *name )
{
last_result = f_unlink( name );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_rename( const char *oldname, const char *newname )
{
last_result = f_rename( oldname, newname );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_mkdir( const char *name )
{
last_result = f_mkdir( name );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_fsinfo( uint32_t *total, uint32_t *used )
{
DWORD free_clusters;
FATFS *fatfs;
if ((last_result = f_getfree( "", &free_clusters, &fatfs )) == FR_OK) {
// provide information in kByte since uint32_t would clip to 4 GByte
*total = (fatfs->n_fatent * fatfs->csize) / (1024 / _MAX_SS);
*used = *total - (free_clusters * fatfs->csize) / (1024 / _MAX_SS);
}
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_chdrive( const char *name )
{
last_result = f_chdrive( name );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_chdir( const char *name )
{
last_result = f_chdir( name );
return last_result == FR_OK ? VFS_RES_OK : VFS_RES_ERR;
}
static sint32_t myfatfs_errno( void )
{
return -last_result;
}
static void myfatfs_clearerr( void )
{
last_result = FR_OK;
}
// ---------------------------------------------------------------------------
// VFS interface functions
//
vfs_fs_fns *myfatfs_realm( const char *inname, char **outname, int set_current_drive )
{
if (inname[0] == '/') {
char *oname;
// logical drive is specified, check if it's one of ours
for (int i = 0; i < _VOLUMES; i++) {
size_t volstr_len = c_strlen( volstr[i] );
if (0 == c_strncmp( &(inname[1]), volstr[i], volstr_len )) {
oname = c_strdup( inname );
c_strcpy( oname, volstr[i] );
oname[volstr_len] = ':';
*outname = oname;
if (set_current_drive) is_current_drive = TRUE;
return &myfatfs_fs_fns;
}
}
} else {
// no logical drive in patchspec, are we current drive?
if (is_current_drive) {
*outname = c_strdup( inname );
return &myfatfs_fs_fns;
}
}
if (set_current_drive) is_current_drive = FALSE;
return NULL;
}