} TEST_END #if !SPIFFS_READ_ONLY TEST(truncate_48) { fs_reset(); u32_t len = SPIFFS_DATA_PAGE_SIZE(FS)/2; s32_t res = test_create_and_write_file("small", len, len); TEST_CHECK_GE(res, 0); spiffs_file fd = SPIFFS_open(FS, "small", SPIFFS_RDWR, 0); TEST_CHECK_GE(fd, 0); spiffs_fd *desc; #if SPIFFS_FILEHDL_OFFSET res = spiffs_fd_get(FS, fd - TEST_SPIFFS_FILEHDL_OFFSET, &desc); #else res = spiffs_fd_get(FS, fd, &desc); #endif TEST_CHECK_GE(res, 0); TEST_CHECK_EQ(desc->size, len); u32_t new_len = len/2; res = spiffs_object_truncate(desc, new_len, 0); TEST_CHECK_GE(res, 0); TEST_CHECK_EQ(desc->size, new_len); res = SPIFFS_close(FS, fd); TEST_CHECK_GE(res, 0); spiffs_stat s; res = SPIFFS_stat(FS, "small", &s); TEST_CHECK_GE(res, 0); TEST_CHECK_EQ(s.size, new_len); res = SPIFFS_remove(FS, "small"); TEST_CHECK_GE(res, 0); fd = SPIFFS_open(FS, "small", SPIFFS_RDWR, 0); TEST_CHECK_LT(fd, 0); TEST_CHECK_EQ(SPIFFS_errno(FS), SPIFFS_ERR_NOT_FOUND); return TEST_RES_OK; } TEST_END
// Checks if there are any cached writes for the object id associated with // given filehandle. If so, these writes are flushed. static s32_t spiffs_fflush_cache(spiffs *fs, spiffs_file fh) { s32_t res = SPIFFS_OK; #if SPIFFS_CACHE_WR spiffs_fd *fd; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES(fs, res); if ((fd->flags & SPIFFS_DIRECT) == 0) { if (fd->cache_page == 0) { // see if object id is associated with cache already fd->cache_page = spiffs_cache_page_get_by_fd(fs, fd); } if (fd->cache_page) { SPIFFS_CACHE_DBG("CACHE_WR_DUMP: dumping cache page %d for fd %d:%04x, flush, offs:%d size:%d\n", fd->cache_page->ix, fd->file_nbr, fd->obj_id, fd->cache_page->offset, fd->cache_page->size); res = spiffs_hydro_write(fs, fd, spiffs_get_cache_page(fs, spiffs_get_cache(fs), fd->cache_page->ix), fd->cache_page->offset, fd->cache_page->size); if (res < SPIFFS_OK) { fs->errno = res; } spiffs_cache_fd_release(fs, fd->cache_page); } } #endif return res; }
s32_t SPIFFS_fremove(spiffs *fs, spiffs_file fh) { SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); if ((fd->flags & SPIFFS_WRONLY) == 0) { res = SPIFFS_ERR_NOT_WRITABLE; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } #if SPIFFS_CACHE_WR spiffs_cache_fd_release(fs, fd->cache_page); #endif res = spiffs_object_truncate(fd, 0, 1); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); SPIFFS_UNLOCK(fs); return 0; }
s32_t SPIFFS_fremove(spiffs *fs, spiffs_file fh) { #if SPIFFS_READ_ONLY (void)fs; (void)fh; return SPIFFS_ERR_RO_NOT_IMPL; #else SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; fh = SPIFFS_FH_UNOFFS(fs, fh); res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); if ((fd->flags & SPIFFS_O_WRONLY) == 0) { res = SPIFFS_ERR_NOT_WRITABLE; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } #if SPIFFS_CACHE_WR spiffs_cache_fd_release(fs, fd->cache_page); #endif res = spiffs_object_truncate(fd, 0, 1); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); SPIFFS_UNLOCK(fs); return 0; #endif // SPIFFS_READ_ONLY }
s32_t SPIFFS_read_notify(spiffs *fs, spiffs_file fh, void *buf, s32_t chunk_no, s32_t chunk_len, void (*notify_handle)(void*, void*), void* notify_data) { SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; s32_t len = chunk_no * chunk_len; fh = SPIFFS_FH_UNOFFS(fs, fh); res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); if ((fd->flags & SPIFFS_RDONLY) == 0) { res = SPIFFS_ERR_NOT_READABLE; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } if (fd->size == SPIFFS_UNDEFINED_LEN && len > 0) { // special case for zero sized files res = SPIFFS_ERR_END_OF_OBJECT; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } #if SPIFFS_CACHE_WR spiffs_fflush_cache(fs, fh); #endif if (fd->fdoffset + len >= fd->size) { // reading beyond file size s32_t avail = fd->size - fd->fdoffset; if (avail <= 0) { SPIFFS_API_CHECK_RES_UNLOCK(fs, SPIFFS_ERR_END_OF_OBJECT); } res = spiffs_object_read_notify(fd, fd->fdoffset, avail, buf, chunk_len, notify_handle, notify_data); if (res == SPIFFS_ERR_END_OF_OBJECT) { fd->fdoffset += avail; SPIFFS_UNLOCK(fs); return avail; } else { SPIFFS_API_CHECK_RES_UNLOCK(fs, res); len = avail; } } else { // reading within file size res = spiffs_object_read_notify(fd, fd->fdoffset, len, buf, chunk_len, notify_handle, notify_data); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } fd->fdoffset += len; SPIFFS_UNLOCK(fs); return len; }
int fs_spiffs_close(int fd) { struct mount_info *m = &s_fsm; spiffs_fd *sfd; if (!m->valid) return set_errno(EBADF); if (spiffs_fd_get(&m->fs, fd, &sfd) == SPIFFS_OK && (sfd->flags & SPIFFS_WRONLY)) { /* We are closing a file open for writing, close the backing store * to avoid the dreaded SL_FS_FILE_HAS_NOT_BEEN_CLOSE_CORRECTLY. */ SPIFFS_close(&m->fs, fd); fs_close_container(m); } else { SPIFFS_close(&m->fs, fd); } return 0; }
s32_t SPIFFS_read(spiffs *fs, spiffs_file fh, void *buf, s32_t len) { SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); if ((fd->flags & SPIFFS_RDONLY) == 0) { res = SPIFFS_ERR_NOT_READABLE; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } #if SPIFFS_CACHE_WR spiffs_fflush_cache(fs, fh); #endif if (fd->fdoffset + len >= fd->size) { // reading beyond file size s32_t avail = fd->size - fd->fdoffset; if (avail <= 0) { SPIFFS_API_CHECK_RES_UNLOCK(fs, SPIFFS_ERR_END_OF_OBJECT); } res = spiffs_object_read(fd, fd->fdoffset, avail, (u8_t*)buf); if (res == SPIFFS_ERR_END_OF_OBJECT) { fd->fdoffset += avail; SPIFFS_UNLOCK(fs); return avail; } else { SPIFFS_API_CHECK_RES_UNLOCK(fs, res); len = avail; } } else { // reading within file size res = spiffs_object_read(fd, fd->fdoffset, len, (u8_t*)buf); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } fd->fdoffset += len; SPIFFS_UNLOCK(fs); return len; }
s32_t SPIFFS_lseek(spiffs *fs, spiffs_file fh, s32_t offs, int whence) { SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; fh = SPIFFS_FH_UNOFFS(fs, fh); res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES(fs, res); #if SPIFFS_CACHE_WR spiffs_fflush_cache(fs, fh); #endif switch (whence) { case SPIFFS_SEEK_CUR: offs = fd->fdoffset+offs; break; case SPIFFS_SEEK_END: offs = (fd->size == SPIFFS_UNDEFINED_LEN ? 0 : fd->size) + offs; break; } if ((offs > (s32_t)fd->size) && (SPIFFS_UNDEFINED_LEN != fd->size)) { res = SPIFFS_ERR_END_OF_OBJECT; } SPIFFS_API_CHECK_RES_UNLOCK(fs, res); spiffs_span_ix data_spix = offs / SPIFFS_DATA_PAGE_SIZE(fs); spiffs_span_ix objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, data_spix); if (fd->cursor_objix_spix != objix_spix) { spiffs_page_ix pix; res = spiffs_obj_lu_find_id_and_span( fs, fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG, objix_spix, 0, &pix); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); fd->cursor_objix_spix = objix_spix; fd->cursor_objix_pix = pix; } fd->fdoffset = offs; SPIFFS_UNLOCK(fs); return offs; }
s32_t SPIFFS_tell(spiffs *fs, spiffs_file fh) { SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES(fs, res); #if SPIFFS_CACHE_WR spiffs_fflush_cache(fs, fh); #endif res = fd->fdoffset; SPIFFS_UNLOCK(fs); return res; }
s32_t ICACHE_FLASH_ATTR SPIFFS_eof(spiffs *fs, spiffs_file fh) { SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES(fs, res); #if SPIFFS_CACHE_WR spiffs_fflush_cache(fs, fh); #endif res = (fd->fdoffset == fd->size); SPIFFS_UNLOCK(fs); return res; }
//file.seek(whence, offset) static int file_seek (lua_State *L) { static const int mode[] = {SPIFFS_SEEK_SET, SPIFFS_SEEK_CUR, SPIFFS_SEEK_END}; static const char *const modenames[] = {"set", "cur", "end", NULL}; if(FILE_NOT_OPENED==file_fd) return luaL_error(L, "open a file first"); int op = luaL_checkoption(L, 1, "cur", modenames); long offset = luaL_optlong(L, 2, 0); op = SPIFFS_lseek(&fs,file_fd, offset, mode[op]); if (op) lua_pushnil(L); /* error */ else { spiffs_fd *fd; spiffs_fd_get(&fs, file_fd, &fd); lua_pushinteger(L, fd->fdoffset); } return 1; }
s32_t SPIFFS_fstat(spiffs *fs, spiffs_file fh, spiffs_stat *s) { SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); #if SPIFFS_CACHE_WR spiffs_fflush_cache(fs, fh); #endif res = spiffs_stat_pix(fs, fd->objix_hdr_pix, fh, s); SPIFFS_UNLOCK(fs); return res; }
s32_t SPIFFS_eof(spiffs *fs, spiffs_file fh) { s32_t res; SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); fh = SPIFFS_FH_UNOFFS(fs, fh); spiffs_fd *fd; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); #if SPIFFS_CACHE_WR res = spiffs_fflush_cache(fs, fh); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); #endif res = (fd->fdoffset >= (fd->size == SPIFFS_UNDEFINED_LEN ? 0 : fd->size)); SPIFFS_UNLOCK(fs); return res; }
s32_t spiffs_tell(spiffs *fs, spiffs_file fh) { s32_t res; SPIFFS_API_CHECK_CFG(fs); SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); fh = SPIFFS_FH_UNOFFS(fs, fh); spiffs_fd *fd; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); #if SPIFFS_CACHE_WR res = spiffs_fflush_cache(fs, fh); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); #endif res = fd->fdoffset; SPIFFS_UNLOCK(fs); return res; }
s32_t SPIFFS_write(spiffs *fs, spiffs_file fh, void *buf, u32_t len) { SPIFFS_API_CHECK_MOUNT(fs); SPIFFS_LOCK(fs); spiffs_fd *fd; s32_t res; u32_t offset; res = spiffs_fd_get(fs, fh, &fd); SPIFFS_API_CHECK_RES_UNLOCK(fs, res); if ((fd->flags & SPIFFS_WRONLY) == 0) { res = SPIFFS_ERR_NOT_WRITABLE; SPIFFS_API_CHECK_RES_UNLOCK(fs, res); } offset = fd->fdoffset; #if SPIFFS_CACHE_WR if (fd->cache_page == 0) { // see if object id is associated with cache already fd->cache_page = spiffs_cache_page_get_by_fd(fs, fd); } #endif if (fd->flags & SPIFFS_APPEND) { if (fd->size == SPIFFS_UNDEFINED_LEN) { offset = 0; } else { offset = fd->size; } #if SPIFFS_CACHE_WR if (fd->cache_page) { offset = MAX(offset, fd->cache_page->offset + fd->cache_page->size); } #endif } SPIFFS_DBG("SPIFFS_write %d %04x offs:%d len %d\n", fh, fd->obj_id, offset, len); #if SPIFFS_CACHE_WR if ((fd->flags & SPIFFS_DIRECT) == 0) { if (len < (s32_t)SPIFFS_CFG_LOG_PAGE_SZ(fs)) { // small write, try to cache it u8_t alloc_cpage = 1; if (fd->cache_page) { // have a cached page for this fd already, check cache page boundaries if (offset < fd->cache_page->offset || // writing before cache offset > fd->cache_page->offset + fd->cache_page->size || // writing after cache offset + len > fd->cache_page->offset + SPIFFS_CFG_LOG_PAGE_SZ(fs)) // writing beyond cache page { // boundary violation, write back cache first and allocate new SPIFFS_CACHE_DBG("CACHE_WR_DUMP: dumping cache page %d for fd %d:&04x, boundary viol, offs:%d size:%d\n", fd->cache_page->ix, fd->file_nbr, fd->obj_id, fd->cache_page->offset, fd->cache_page->size); res = spiffs_hydro_write(fs, fd, spiffs_get_cache_page(fs, spiffs_get_cache(fs), fd->cache_page->ix), fd->cache_page->offset, fd->cache_page->size); spiffs_cache_fd_release(fs, fd->cache_page); } else { // writing within cache alloc_cpage = 0; } } if (alloc_cpage) { fd->cache_page = spiffs_cache_page_allocate_by_fd(fs, fd); if (fd->cache_page) { fd->cache_page->offset = offset; fd->cache_page->size = 0; SPIFFS_CACHE_DBG("CACHE_WR_ALLO: allocating cache page %d for fd %d:%04x\n", fd->cache_page->ix, fd->file_nbr, fd->obj_id); } } if (fd->cache_page) { u32_t offset_in_cpage = offset - fd->cache_page->offset; SPIFFS_CACHE_DBG("CACHE_WR_WRITE: storing to cache page %d for fd %d:%04x, offs %d:%d len %d\n", fd->cache_page->ix, fd->file_nbr, fd->obj_id, offset, offset_in_cpage, len); spiffs_cache *cache = spiffs_get_cache(fs); u8_t *cpage_data = spiffs_get_cache_page(fs, cache, fd->cache_page->ix); c_memcpy(&cpage_data[offset_in_cpage], buf, len); fd->cache_page->size = MAX(fd->cache_page->size, offset_in_cpage + len); fd->fdoffset += len; SPIFFS_UNLOCK(fs); return len; } else { res = spiffs_hydro_write(fs, fd, buf, offset, len); SPIFFS_API_CHECK_RES(fs, res); fd->fdoffset += len; SPIFFS_UNLOCK(fs); return res; } } else { // big write, no need to cache it - but first check if there is a cached write already if (fd->cache_page) { // write back cache first SPIFFS_CACHE_DBG("CACHE_WR_DUMP: dumping cache page %d for fd %d:%04x, big write, offs:%d size:%d\n", fd->cache_page->ix, fd->file_nbr, fd->obj_id, fd->cache_page->offset, fd->cache_page->size); res = spiffs_hydro_write(fs, fd, spiffs_get_cache_page(fs, spiffs_get_cache(fs), fd->cache_page->ix), fd->cache_page->offset, fd->cache_page->size); spiffs_cache_fd_release(fs, fd->cache_page); res = spiffs_hydro_write(fs, fd, buf, offset, len); SPIFFS_API_CHECK_RES(fs, res); } } } #endif res = spiffs_hydro_write(fs, fd, buf, offset, len); SPIFFS_API_CHECK_RES(fs, res); fd->fdoffset += len; SPIFFS_UNLOCK(fs); return res; }