/* * Copyright (c) 2016 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #define FATFS_MAX_FILE_NAME 12 /* Uses 8.3 SFN */ /* Memory pool for FatFs directory objects */ K_MEM_SLAB_DEFINE(fatfs_dirp_pool, sizeof(DIR), CONFIG_FS_FATFS_NUM_DIRS, 4); /* Memory pool for FatFs file objects */ K_MEM_SLAB_DEFINE(fatfs_filep_pool, sizeof(FIL), CONFIG_FS_FATFS_NUM_FILES, 4); static int translate_error(int error) { switch (error) { case FR_OK: return 0; case FR_NO_FILE: case FR_NO_PATH: case FR_INVALID_NAME: return -ENOENT; case FR_DENIED: return -EACCES; case FR_EXIST: return -EEXIST; case FR_INVALID_OBJECT: return -EBADF; case FR_WRITE_PROTECTED: return -EROFS; case FR_INVALID_DRIVE: case FR_NOT_ENABLED: case FR_NO_FILESYSTEM: return -ENODEV; case FR_NOT_ENOUGH_CORE: return -ENOMEM; case FR_TOO_MANY_OPEN_FILES: return -EMFILE; case FR_INVALID_PARAMETER: return -EINVAL; case FR_LOCKED: case FR_TIMEOUT: case FR_MKFS_ABORTED: case FR_DISK_ERR: case FR_INT_ERR: case FR_NOT_READY: return -EIO; } return -EIO; } static int fatfs_open(struct fs_file_t *zfp, const char *file_name) { FRESULT res; u8_t fs_mode; void *ptr; if (k_mem_slab_alloc(&fatfs_filep_pool, &ptr, K_NO_WAIT) == 0) { (void)memset(ptr, 0, sizeof(FIL)); zfp->filep = ptr; } else { return -ENOMEM; } fs_mode = FA_READ | FA_WRITE | FA_OPEN_ALWAYS; res = f_open(zfp->filep, &file_name[1], fs_mode); return translate_error(res); } static int fatfs_close(struct fs_file_t *zfp) { FRESULT res; res = f_close(zfp->filep); /* Free file ptr memory */ k_mem_slab_free(&fatfs_filep_pool, &zfp->filep); return translate_error(res); } static int fatfs_unlink(struct fs_mount_t *mountp, const char *path) { FRESULT res; res = f_unlink(&path[1]); return translate_error(res); } static int fatfs_rename(struct fs_mount_t *mountp, const char *from, const char *to) { FRESULT res; FILINFO fno; /* Check if 'to' path exists; remove it if it does */ res = f_stat(&to[1], &fno); if (FR_OK == res) { res = f_unlink(&to[1]); if (FR_OK != res) return translate_error(res); } res = f_rename(&from[1], &to[1]); return translate_error(res); } static ssize_t fatfs_read(struct fs_file_t *zfp, void *ptr, size_t size) { FRESULT res; unsigned int br; res = f_read(zfp->filep, ptr, size, &br); if (res != FR_OK) { return translate_error(res); } return br; } static ssize_t fatfs_write(struct fs_file_t *zfp, const void *ptr, size_t size) { FRESULT res; unsigned int bw; res = f_write(zfp->filep, ptr, size, &bw); if (res != FR_OK) { return translate_error(res); } return bw; } static int fatfs_seek(struct fs_file_t *zfp, off_t offset, int whence) { FRESULT res = FR_OK; off_t pos; switch (whence) { case FS_SEEK_SET: pos = offset; break; case FS_SEEK_CUR: pos = f_tell((FIL *)zfp->filep) + offset; break; case FS_SEEK_END: pos = f_size((FIL *)zfp->filep) + offset; break; default: return -EINVAL; } if ((pos < 0) || (pos > f_size((FIL *)zfp->filep))) { return -EINVAL; } res = f_lseek(zfp->filep, pos); return translate_error(res); } static off_t fatfs_tell(struct fs_file_t *zfp) { return f_tell((FIL *)zfp->filep); } static int fatfs_truncate(struct fs_file_t *zfp, off_t length) { FRESULT res = FR_OK; off_t cur_length = f_size((FIL *)zfp->filep); /* f_lseek expands file if new position is larger than file size */ res = f_lseek(zfp->filep, length); if (res != FR_OK) { return translate_error(res); } if (length < cur_length) { res = f_truncate(zfp->filep); } else { /* * Get actual length after expansion. This could be * less if there was not enough space in the volume * to expand to the requested length */ length = f_tell((FIL *)zfp->filep); res = f_lseek(zfp->filep, cur_length); if (res != FR_OK) { return translate_error(res); } /* * The FS module does caching and optimization of * writes. Here we write 1 byte at a time to avoid * using additional code and memory for doing any * optimization. */ unsigned int bw; u8_t c = 0U; for (int i = cur_length; i < length; i++) { res = f_write(zfp->filep, &c, 1, &bw); if (res != FR_OK) { break; } } } return translate_error(res); } static int fatfs_sync(struct fs_file_t *zfp) { FRESULT res = FR_OK; res = f_sync(zfp->filep); return translate_error(res); } static int fatfs_mkdir(struct fs_mount_t *mountp, const char *path) { FRESULT res; res = f_mkdir(&path[1]); return translate_error(res); } static int fatfs_opendir(struct fs_dir_t *zdp, const char *path) { FRESULT res; void *ptr; if (k_mem_slab_alloc(&fatfs_dirp_pool, &ptr, K_NO_WAIT) == 0) { (void)memset(ptr, 0, sizeof(DIR)); zdp->dirp = ptr; } else { return -ENOMEM; } res = f_opendir(zdp->dirp, &path[1]); return translate_error(res); } static int fatfs_readdir(struct fs_dir_t *zdp, struct fs_dirent *entry) { FRESULT res; FILINFO fno; res = f_readdir(zdp->dirp, &fno); if (res == FR_OK) { entry->type = ((fno.fattrib & AM_DIR) ? FS_DIR_ENTRY_DIR : FS_DIR_ENTRY_FILE); strcpy(entry->name, fno.fname); entry->size = fno.fsize; } return translate_error(res); } static int fatfs_closedir(struct fs_dir_t *zdp) { FRESULT res; res = f_closedir(zdp->dirp); /* Free file ptr memory */ k_mem_slab_free(&fatfs_dirp_pool, &zdp->dirp); return translate_error(res); } static int fatfs_stat(struct fs_mount_t *mountp, const char *path, struct fs_dirent *entry) { FRESULT res; FILINFO fno; res = f_stat(&path[1], &fno); if (res == FR_OK) { entry->type = ((fno.fattrib & AM_DIR) ? FS_DIR_ENTRY_DIR : FS_DIR_ENTRY_FILE); strcpy(entry->name, fno.fname); entry->size = fno.fsize; } return translate_error(res); } static int fatfs_statvfs(struct fs_mount_t *mountp, const char *path, struct fs_statvfs *stat) { FATFS *fs; FRESULT res; res = f_getfree(&mountp->mnt_point[1], &stat->f_bfree, &fs); if (res != FR_OK) { return -EIO; } /* * _MIN_SS holds the sector size. It is one of the configuration * constants used by the FS module */ stat->f_bsize = _MIN_SS; stat->f_frsize = fs->csize * stat->f_bsize; stat->f_blocks = (fs->n_fatent - 2); return translate_error(res); } static int fatfs_mount(struct fs_mount_t *mountp) { FRESULT res; res = f_mount((FATFS *)mountp->fs_data, &mountp->mnt_point[1], 1); /* If no file system found then create one */ if (res == FR_NO_FILESYSTEM) { u8_t work[_MAX_SS]; res = f_mkfs(&mountp->mnt_point[1], (FM_FAT | FM_SFD), 0, work, sizeof(work)); if (res == FR_OK) { res = f_mount((FATFS *)mountp->fs_data, &mountp->mnt_point[1], 1); } } __ASSERT((res == FR_OK), "FS init failed (%d)", translate_error(res)); return translate_error(res); } /* File system interface */ static struct fs_file_system_t fatfs_fs = { .open = fatfs_open, .close = fatfs_close, .read = fatfs_read, .write = fatfs_write, .lseek = fatfs_seek, .tell = fatfs_tell, .truncate = fatfs_truncate, .sync = fatfs_sync, .opendir = fatfs_opendir, .readdir = fatfs_readdir, .closedir = fatfs_closedir, .mount = fatfs_mount, .unlink = fatfs_unlink, .rename = fatfs_rename, .mkdir = fatfs_mkdir, .stat = fatfs_stat, .statvfs = fatfs_statvfs, }; static int fatfs_init(struct device *dev) { ARG_UNUSED(dev); return fs_register(FS_FATFS, &fatfs_fs); } SYS_INIT(fatfs_init, APPLICATION, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT);