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proxmark3/armsrc/spiffs_nucleus.c
Philippe Teuwen b703bb746b Adapting license headers, WIP
2022-01-06 02:20:38 +01:00

2383 lines
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//-----------------------------------------------------------------------------
// Borrowed initially from https://github.com/pellepl/spiffs
// Copyright (c) 2013-2017 Peter Andersson (pelleplutt1976 at gmail.com)
// Copyright (C) Proxmark3 contributors. See AUTHORS.md for details.
//
// This program 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 3 of the License, or
// (at your option) any later version.
//
// This program 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.
//
// See LICENSE.txt for the text of the license.
//-----------------------------------------------------------------------------
#include "spiffs.h"
#include "spiffs_nucleus.h"
#include "printf.h"
static s32_t spiffs_page_data_check(spiffs *fs, spiffs_fd *fd, spiffs_page_ix pix, spiffs_span_ix spix) {
s32_t res = SPIFFS_OK;
if (pix == (spiffs_page_ix) - 1) {
// referring to page 0xffff...., bad object index
return SPIFFS_ERR_INDEX_REF_FREE;
}
if (pix % SPIFFS_PAGES_PER_BLOCK(fs) < SPIFFS_OBJ_LOOKUP_PAGES(fs)) {
// referring to an object lookup page, bad object index
return SPIFFS_ERR_INDEX_REF_LU;
}
if (pix > SPIFFS_MAX_PAGES(fs)) {
// referring to a bad page
return SPIFFS_ERR_INDEX_REF_INVALID;
}
#if SPIFFS_PAGE_CHECK
spiffs_page_header ph;
res = _spiffs_rd(
fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_READ,
fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, pix),
sizeof(spiffs_page_header),
(u8_t *)&ph);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_DATA(ph, fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG, spix);
#endif
return res;
}
#if !SPIFFS_READ_ONLY
static s32_t spiffs_page_index_check(spiffs *fs, spiffs_fd *fd, spiffs_page_ix pix, spiffs_span_ix spix) {
s32_t res = SPIFFS_OK;
if (pix == (spiffs_page_ix) - 1) {
// referring to page 0xffff...., bad object index
return SPIFFS_ERR_INDEX_FREE;
}
if (pix % SPIFFS_PAGES_PER_BLOCK(fs) < SPIFFS_OBJ_LOOKUP_PAGES(fs)) {
// referring to an object lookup page, bad object index
return SPIFFS_ERR_INDEX_LU;
}
if (pix > SPIFFS_MAX_PAGES(fs)) {
// referring to a bad page
return SPIFFS_ERR_INDEX_INVALID;
}
#if SPIFFS_PAGE_CHECK
spiffs_page_header ph;
res = _spiffs_rd(
fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, pix),
sizeof(spiffs_page_header),
(u8_t *)&ph);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(ph, fd->obj_id, spix);
#endif
return res;
}
#endif // !SPIFFS_READ_ONLY
#if !SPIFFS_CACHE
s32_t spiffs_phys_rd(
spiffs *fs,
u32_t addr,
u32_t len,
u8_t *dst) {
return SPIFFS_HAL_READ(fs, addr, len, dst);
}
s32_t spiffs_phys_wr(
spiffs *fs,
u32_t addr,
u32_t len,
u8_t *src) {
return SPIFFS_HAL_WRITE(fs, addr, len, src);
}
#endif
#if !SPIFFS_READ_ONLY
s32_t spiffs_phys_cpy(
spiffs *fs,
spiffs_file fh,
u32_t dst,
u32_t src,
u32_t len) {
(void)fh;
s32_t res;
u8_t b[SPIFFS_COPY_BUFFER_STACK];
while (len > 0) {
u32_t chunk_size = MIN(SPIFFS_COPY_BUFFER_STACK, len);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_MOVS, fh, src, chunk_size, b);
SPIFFS_CHECK_RES(res);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_MOVD, fh, dst, chunk_size, b);
SPIFFS_CHECK_RES(res);
len -= chunk_size;
src += chunk_size;
dst += chunk_size;
}
return SPIFFS_OK;
}
#endif // !SPIFFS_READ_ONLY
// Find object lookup entry containing given id with visitor.
// Iterate over object lookup pages in each block until a given object id entry is found.
// When found, the visitor function is called with block index, entry index and user data.
// If visitor returns SPIFFS_VIS_CONTINUE, the search goes on. Otherwise, the search will be
// ended and visitor's return code is returned to caller.
// If no visitor is given (0) the search returns on first entry with matching object id.
// If no match is found in all look up, SPIFFS_VIS_END is returned.
// @param fs the file system
// @param starting_block the starting block to start search in
// @param starting_lu_entry the look up index entry to start search in
// @param flags ored combination of SPIFFS_VIS_CHECK_ID, SPIFFS_VIS_CHECK_PH,
// SPIFFS_VIS_NO_WRAP
// @param obj_id argument object id
// @param v visitor callback function
// @param user_const_p any const pointer, passed to the callback visitor function
// @param user_var_p any pointer, passed to the callback visitor function
// @param block_ix reported block index where match was found
// @param lu_entry reported look up index where match was found
s32_t spiffs_obj_lu_find_entry_visitor(
spiffs *fs,
spiffs_block_ix starting_block,
int starting_lu_entry,
u8_t flags,
spiffs_obj_id obj_id,
spiffs_visitor_f v,
const void *user_const_p,
void *user_var_p,
spiffs_block_ix *block_ix,
int *lu_entry) {
s32_t res = SPIFFS_OK;
s32_t entry_count = fs->block_count * SPIFFS_OBJ_LOOKUP_MAX_ENTRIES(fs);
spiffs_block_ix cur_block = starting_block;
u32_t cur_block_addr = starting_block * SPIFFS_CFG_LOG_BLOCK_SZ(fs);
spiffs_obj_id *obj_lu_buf = (spiffs_obj_id *)fs->lu_work;
int cur_entry = starting_lu_entry;
int entries_per_page = (SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(spiffs_obj_id));
// wrap initial
if (cur_entry > (int)SPIFFS_OBJ_LOOKUP_MAX_ENTRIES(fs) - 1) {
cur_entry = 0;
cur_block++;
cur_block_addr = cur_block * SPIFFS_CFG_LOG_BLOCK_SZ(fs);
if (cur_block >= fs->block_count) {
if (flags & SPIFFS_VIS_NO_WRAP) {
return SPIFFS_VIS_END;
} else {
// block wrap
cur_block = 0;
cur_block_addr = 0;
}
}
}
// check each block
while (res == SPIFFS_OK && entry_count > 0) {
int obj_lookup_page = cur_entry / entries_per_page;
// check each object lookup page
while (res == SPIFFS_OK && obj_lookup_page < (int)SPIFFS_OBJ_LOOKUP_PAGES(fs)) {
int entry_offset = obj_lookup_page * entries_per_page;
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
0, cur_block_addr + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
// check each entry
while (res == SPIFFS_OK &&
cur_entry - entry_offset < entries_per_page && // for non-last obj lookup pages
cur_entry < (int)SPIFFS_OBJ_LOOKUP_MAX_ENTRIES(fs)) { // for last obj lookup page
if ((flags & SPIFFS_VIS_CHECK_ID) == 0 || obj_lu_buf[cur_entry - entry_offset] == obj_id) {
if (block_ix) *block_ix = cur_block;
if (lu_entry) *lu_entry = cur_entry;
if (v) {
res = v(
fs,
(flags & SPIFFS_VIS_CHECK_PH) ? obj_id : obj_lu_buf[cur_entry - entry_offset],
cur_block,
cur_entry,
user_const_p,
user_var_p);
if (res == SPIFFS_VIS_COUNTINUE || res == SPIFFS_VIS_COUNTINUE_RELOAD) {
if (res == SPIFFS_VIS_COUNTINUE_RELOAD) {
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
0, cur_block_addr + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
SPIFFS_CHECK_RES(res);
}
res = SPIFFS_OK;
cur_entry++;
entry_count--;
continue;
} else {
return res;
}
} else {
return SPIFFS_OK;
}
}
entry_count--;
cur_entry++;
} // per entry
obj_lookup_page++;
} // per object lookup page
cur_entry = 0;
cur_block++;
cur_block_addr += SPIFFS_CFG_LOG_BLOCK_SZ(fs);
if (cur_block >= fs->block_count) {
if (flags & SPIFFS_VIS_NO_WRAP) {
return SPIFFS_VIS_END;
} else {
// block wrap
cur_block = 0;
cur_block_addr = 0;
}
}
} // per block
SPIFFS_CHECK_RES(res);
return SPIFFS_VIS_END;
}
#if !SPIFFS_READ_ONLY
s32_t spiffs_erase_block(
spiffs *fs,
spiffs_block_ix bix) {
s32_t res;
u32_t addr = SPIFFS_BLOCK_TO_PADDR(fs, bix);
s32_t size = SPIFFS_CFG_LOG_BLOCK_SZ(fs);
// here we ignore res, just try erasing the block
while (size > 0) {
SPIFFS_DBG("erase "_SPIPRIad":"_SPIPRIi"\n", addr, SPIFFS_CFG_PHYS_ERASE_SZ(fs));
SPIFFS_HAL_ERASE(fs, addr, SPIFFS_CFG_PHYS_ERASE_SZ(fs));
addr += SPIFFS_CFG_PHYS_ERASE_SZ(fs);
size -= SPIFFS_CFG_PHYS_ERASE_SZ(fs);
}
fs->free_blocks++;
// register erase count for this block
res = _spiffs_wr(fs, SPIFFS_OP_C_WRTHRU | SPIFFS_OP_T_OBJ_LU2, 0,
SPIFFS_ERASE_COUNT_PADDR(fs, bix),
sizeof(spiffs_obj_id), (u8_t *)&fs->max_erase_count);
SPIFFS_CHECK_RES(res);
#if SPIFFS_USE_MAGIC
// finally, write magic
spiffs_obj_id magic = SPIFFS_MAGIC(fs, bix);
res = _spiffs_wr(fs, SPIFFS_OP_C_WRTHRU | SPIFFS_OP_T_OBJ_LU2, 0,
SPIFFS_MAGIC_PADDR(fs, bix),
sizeof(spiffs_obj_id), (u8_t *)&magic);
SPIFFS_CHECK_RES(res);
#endif
fs->max_erase_count++;
if (fs->max_erase_count == SPIFFS_OBJ_ID_IX_FLAG) {
fs->max_erase_count = 0;
}
return res;
}
#endif // !SPIFFS_READ_ONLY
#if SPIFFS_USE_MAGIC && SPIFFS_USE_MAGIC_LENGTH && SPIFFS_SINGLETON==0
s32_t spiffs_probe(
spiffs_config *cfg) {
s32_t res;
u32_t paddr;
spiffs dummy_fs; // create a dummy fs struct just to be able to use macros
_SPIFFS_MEMCPY(&dummy_fs.cfg, cfg, sizeof(spiffs_config));
dummy_fs.block_count = 0;
// Read three magics, as one block may be in an aborted erase state.
// At least two of these must contain magic and be in decreasing order.
spiffs_obj_id magic[3];
spiffs_obj_id bix_count[3];
spiffs_block_ix bix;
for (bix = 0; bix < 3; bix++) {
paddr = SPIFFS_MAGIC_PADDR(&dummy_fs, bix);
#if SPIFFS_HAL_CALLBACK_EXTRA
// not any proper fs to report here, so callback with null
// (cross fingers that no-one gets angry)
res = cfg->hal_read_f((void *)0, paddr, sizeof(spiffs_obj_id), (u8_t *)&magic[bix]);
#else
res = cfg->hal_read_f(paddr, sizeof(spiffs_obj_id), (u8_t *)&magic[bix]);
#endif
bix_count[bix] = magic[bix] ^ SPIFFS_MAGIC(&dummy_fs, 0);
SPIFFS_CHECK_RES(res);
}
// check that we have sane number of blocks
if (bix_count[0] < 3) return SPIFFS_ERR_PROBE_TOO_FEW_BLOCKS;
// check that the order is correct, take aborted erases in calculation
// first block aborted erase
if (magic[0] == (spiffs_obj_id)(-1) && bix_count[1] - bix_count[2] == 1) {
return (bix_count[1] + 1) * cfg->log_block_size;
}
// second block aborted erase
if (magic[1] == (spiffs_obj_id)(-1) && bix_count[0] - bix_count[2] == 2) {
return bix_count[0] * cfg->log_block_size;
}
// third block aborted erase
if (magic[2] == (spiffs_obj_id)(-1) && bix_count[0] - bix_count[1] == 1) {
return bix_count[0] * cfg->log_block_size;
}
// no block has aborted erase
if (bix_count[0] - bix_count[1] == 1 && bix_count[1] - bix_count[2] == 1) {
return bix_count[0] * cfg->log_block_size;
}
return SPIFFS_ERR_PROBE_NOT_A_FS;
}
#endif // SPIFFS_USE_MAGIC && SPIFFS_USE_MAGIC_LENGTH && SPIFFS_SINGLETON==0
static s32_t spiffs_obj_lu_scan_v(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_block_ix bix,
int ix_entry,
const void *user_const_p,
void *user_var_p) {
(void)bix;
(void)user_const_p;
(void)user_var_p;
if (obj_id == SPIFFS_OBJ_ID_FREE) {
if (ix_entry == 0) {
fs->free_blocks++;
// todo optimize further, return SPIFFS_NEXT_BLOCK
}
} else if (obj_id == SPIFFS_OBJ_ID_DELETED) {
fs->stats_p_deleted++;
} else {
fs->stats_p_allocated++;
}
return SPIFFS_VIS_COUNTINUE;
}
// Scans thru all obj lu and counts free, deleted and used pages
// Find the maximum block erase count
// Checks magic if enabled
s32_t spiffs_obj_lu_scan(
spiffs *fs) {
s32_t res;
spiffs_block_ix bix;
int entry;
#if SPIFFS_USE_MAGIC
spiffs_block_ix unerased_bix = (spiffs_block_ix) - 1;
#endif
// find out erase count
// if enabled, check magic
bix = 0;
spiffs_obj_id erase_count_final;
spiffs_obj_id erase_count_min = SPIFFS_OBJ_ID_FREE;
spiffs_obj_id erase_count_max = 0;
while (bix < fs->block_count) {
#if SPIFFS_USE_MAGIC
spiffs_obj_id magic;
res = _spiffs_rd(fs,
SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_MAGIC_PADDR(fs, bix),
sizeof(spiffs_obj_id), (u8_t *)&magic);
SPIFFS_CHECK_RES(res);
if (magic != SPIFFS_MAGIC(fs, bix)) {
if (unerased_bix == (spiffs_block_ix) - 1) {
// allow one unerased block as it might be powered down during an erase
unerased_bix = bix;
} else {
// more than one unerased block, bail out
SPIFFS_CHECK_RES(SPIFFS_ERR_NOT_A_FS);
}
}
#endif
spiffs_obj_id erase_count;
res = _spiffs_rd(fs,
SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_ERASE_COUNT_PADDR(fs, bix),
sizeof(spiffs_obj_id), (u8_t *)&erase_count);
SPIFFS_CHECK_RES(res);
if (erase_count != SPIFFS_OBJ_ID_FREE) {
erase_count_min = MIN(erase_count_min, erase_count);
erase_count_max = MAX(erase_count_max, erase_count);
}
bix++;
}
if (erase_count_min == 0 && erase_count_max == SPIFFS_OBJ_ID_FREE) {
// clean system, set counter to zero
erase_count_final = 0;
} else if (erase_count_max - erase_count_min > (SPIFFS_OBJ_ID_FREE) / 2) {
// wrap, take min
erase_count_final = erase_count_min + 1;
} else {
erase_count_final = erase_count_max + 1;
}
fs->max_erase_count = erase_count_final;
#if SPIFFS_USE_MAGIC
if (unerased_bix != (spiffs_block_ix) - 1) {
// found one unerased block, remedy
SPIFFS_DBG("mount: erase block "_SPIPRIbl"\n", bix);
#if SPIFFS_READ_ONLY
res = SPIFFS_ERR_RO_ABORTED_OPERATION;
#else
res = spiffs_erase_block(fs, unerased_bix);
#endif // SPIFFS_READ_ONLY
SPIFFS_CHECK_RES(res);
}
#endif
// count blocks
fs->free_blocks = 0;
fs->stats_p_allocated = 0;
fs->stats_p_deleted = 0;
res = spiffs_obj_lu_find_entry_visitor(fs,
0,
0,
0,
0,
spiffs_obj_lu_scan_v,
0,
0,
&bix,
&entry);
if (res == SPIFFS_VIS_END) {
res = SPIFFS_OK;
}
SPIFFS_CHECK_RES(res);
return res;
}
#if !SPIFFS_READ_ONLY
// Find free object lookup entry
// Iterate over object lookup pages in each block until a free object id entry is found
s32_t spiffs_obj_lu_find_free(
spiffs *fs,
spiffs_block_ix starting_block,
int starting_lu_entry,
spiffs_block_ix *block_ix,
int *lu_entry) {
s32_t res;
if (!fs->cleaning && fs->free_blocks < 2) {
res = spiffs_gc_quick(fs, 0);
if (res == SPIFFS_ERR_NO_DELETED_BLOCKS) {
res = SPIFFS_OK;
}
SPIFFS_CHECK_RES(res);
if (fs->free_blocks < 2) {
return SPIFFS_ERR_FULL;
}
}
res = spiffs_obj_lu_find_id(fs, starting_block, starting_lu_entry,
SPIFFS_OBJ_ID_FREE, block_ix, lu_entry);
if (res == SPIFFS_OK) {
fs->free_cursor_block_ix = *block_ix;
fs->free_cursor_obj_lu_entry = (*lu_entry) + 1;
if (*lu_entry == 0) {
fs->free_blocks--;
}
}
if (res == SPIFFS_ERR_FULL) {
SPIFFS_DBGF("fs full\n");
}
return res;
}
#endif // !SPIFFS_READ_ONLY
// Find object lookup entry containing given id
// Iterate over object lookup pages in each block until a given object id entry is found
s32_t spiffs_obj_lu_find_id(
spiffs *fs,
spiffs_block_ix starting_block,
int starting_lu_entry,
spiffs_obj_id obj_id,
spiffs_block_ix *block_ix,
int *lu_entry) {
s32_t res = spiffs_obj_lu_find_entry_visitor(
fs, starting_block, starting_lu_entry, SPIFFS_VIS_CHECK_ID, obj_id, 0, 0, 0, block_ix, lu_entry);
if (res == SPIFFS_VIS_END) {
res = SPIFFS_ERR_NOT_FOUND;
}
return res;
}
static s32_t spiffs_obj_lu_find_id_and_span_v(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_block_ix bix,
int ix_entry,
const void *user_const_p,
void *user_var_p) {
s32_t res;
spiffs_page_header ph;
spiffs_page_ix pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, ix_entry);
res = _spiffs_rd(fs, 0, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
SPIFFS_PAGE_TO_PADDR(fs, pix), sizeof(spiffs_page_header), (u8_t *)&ph);
SPIFFS_CHECK_RES(res);
if (ph.obj_id == obj_id &&
ph.span_ix == *((spiffs_span_ix *)user_var_p) &&
(ph.flags & (SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_USED)) == SPIFFS_PH_FLAG_DELET &&
!((obj_id & SPIFFS_OBJ_ID_IX_FLAG) && (ph.flags & SPIFFS_PH_FLAG_IXDELE) == 0 && ph.span_ix == 0) &&
(user_const_p == 0 || *((const spiffs_page_ix *)user_const_p) != pix)) {
return SPIFFS_OK;
} else {
return SPIFFS_VIS_COUNTINUE;
}
}
// Find object lookup entry containing given id and span index
// Iterate over object lookup pages in each block until a given object id entry is found
s32_t spiffs_obj_lu_find_id_and_span(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_span_ix spix,
spiffs_page_ix exclusion_pix,
spiffs_page_ix *pix) {
s32_t res;
spiffs_block_ix bix;
int entry;
res = spiffs_obj_lu_find_entry_visitor(fs,
fs->cursor_block_ix,
fs->cursor_obj_lu_entry,
SPIFFS_VIS_CHECK_ID,
obj_id,
spiffs_obj_lu_find_id_and_span_v,
exclusion_pix ? &exclusion_pix : 0,
&spix,
&bix,
&entry);
if (res == SPIFFS_VIS_END) {
res = SPIFFS_ERR_NOT_FOUND;
}
SPIFFS_CHECK_RES(res);
if (pix) {
*pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry);
}
fs->cursor_block_ix = bix;
fs->cursor_obj_lu_entry = entry;
return res;
}
// Find object lookup entry containing given id and span index in page headers only
// Iterate over object lookup pages in each block until a given object id entry is found
s32_t spiffs_obj_lu_find_id_and_span_by_phdr(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_span_ix spix,
spiffs_page_ix exclusion_pix,
spiffs_page_ix *pix) {
s32_t res;
spiffs_block_ix bix;
int entry;
res = spiffs_obj_lu_find_entry_visitor(fs,
fs->cursor_block_ix,
fs->cursor_obj_lu_entry,
SPIFFS_VIS_CHECK_PH,
obj_id,
spiffs_obj_lu_find_id_and_span_v,
exclusion_pix ? &exclusion_pix : 0,
&spix,
&bix,
&entry);
if (res == SPIFFS_VIS_END) {
res = SPIFFS_ERR_NOT_FOUND;
}
SPIFFS_CHECK_RES(res);
if (pix) {
*pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry);
}
fs->cursor_block_ix = bix;
fs->cursor_obj_lu_entry = entry;
return res;
}
#if SPIFFS_IX_MAP
// update index map of given fd with given object index data
static void spiffs_update_ix_map(spiffs *fs,
spiffs_fd *fd, spiffs_span_ix objix_spix, spiffs_page_object_ix *objix) {
#if SPIFFS_SINGLETON
(void)fs;
#endif
spiffs_ix_map *map = fd->ix_map;
spiffs_span_ix map_objix_start_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, map->start_spix);
spiffs_span_ix map_objix_end_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, map->end_spix);
// check if updated ix is within map range
if (objix_spix < map_objix_start_spix || objix_spix > map_objix_end_spix) {
return;
}
// update memory mapped page index buffer to new pages
// get range of updated object index map data span indices
spiffs_span_ix objix_data_spix_start =
SPIFFS_DATA_SPAN_IX_FOR_OBJ_IX_SPAN_IX(fs, objix_spix);
spiffs_span_ix objix_data_spix_end = objix_data_spix_start +
(objix_spix == 0 ? SPIFFS_OBJ_HDR_IX_LEN(fs) : SPIFFS_OBJ_IX_LEN(fs));
// calc union of object index range and index map range array
spiffs_span_ix map_spix = MAX(map->start_spix, objix_data_spix_start);
spiffs_span_ix map_spix_end = MIN(map->end_spix + 1, objix_data_spix_end);
while (map_spix < map_spix_end) {
spiffs_page_ix objix_data_pix;
if (objix_spix == 0) {
// get data page from object index header page
objix_data_pix = ((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix_header)))[map_spix];
} else {
// get data page from object index page
objix_data_pix = ((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, map_spix)];
}
if (objix_data_pix == (spiffs_page_ix) - 1) {
// reached end of object, abort
break;
}
map->map_buf[map_spix - map->start_spix] = objix_data_pix;
SPIFFS_DBG("map "_SPIPRIid":"_SPIPRIsp" ("_SPIPRIsp"--"_SPIPRIsp") objix.spix:"_SPIPRIsp" to pix "_SPIPRIpg"\n",
fd->obj_id, map_spix - map->start_spix,
map->start_spix, map->end_spix,
objix->p_hdr.span_ix,
objix_data_pix);
map_spix++;
}
}
typedef struct {
spiffs_fd *fd;
u32_t remaining_objix_pages_to_visit;
spiffs_span_ix map_objix_start_spix;
spiffs_span_ix map_objix_end_spix;
} spiffs_ix_map_populate_state;
static s32_t spiffs_populate_ix_map_v(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_block_ix bix,
int ix_entry,
const void *user_const_p,
void *user_var_p) {
(void)user_const_p;
s32_t res;
spiffs_ix_map_populate_state *state = (spiffs_ix_map_populate_state *)user_var_p;
spiffs_page_ix pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, ix_entry);
// load header to check it
spiffs_page_object_ix *objix = (spiffs_page_object_ix *)fs->work;
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_PAGE_TO_PADDR(fs, pix), sizeof(spiffs_page_object_ix), (u8_t *)objix);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix->p_hdr, obj_id, objix->p_hdr.span_ix);
// check if hdr is ok, and if objix range overlap with ix map range
if ((objix->p_hdr.flags & (SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_IXDELE)) ==
(SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_IXDELE) &&
objix->p_hdr.span_ix >= state->map_objix_start_spix &&
objix->p_hdr.span_ix <= state->map_objix_end_spix) {
// ok, load rest of object index
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_PAGE_TO_PADDR(fs, pix) + sizeof(spiffs_page_object_ix),
SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_page_object_ix),
(u8_t *)objix + sizeof(spiffs_page_object_ix));
SPIFFS_CHECK_RES(res);
spiffs_update_ix_map(fs, state->fd, objix->p_hdr.span_ix, objix);
state->remaining_objix_pages_to_visit--;
SPIFFS_DBG("map "_SPIPRIid" ("_SPIPRIsp"--"_SPIPRIsp") remaining objix pages "_SPIPRIi"\n",
state->fd->obj_id,
state->fd->ix_map->start_spix, state->fd->ix_map->end_spix,
state->remaining_objix_pages_to_visit);
}
if (res == SPIFFS_OK) {
res = state->remaining_objix_pages_to_visit ? SPIFFS_VIS_COUNTINUE : SPIFFS_VIS_END;
}
return res;
}
// populates index map, from vector entry start to vector entry end, inclusive
s32_t spiffs_populate_ix_map(spiffs *fs, spiffs_fd *fd, u32_t vec_entry_start, u32_t vec_entry_end) {
s32_t res;
spiffs_ix_map *map = fd->ix_map;
spiffs_ix_map_populate_state state;
vec_entry_start = MIN((u32_t)(map->end_spix - map->start_spix), vec_entry_start);
vec_entry_end = MAX((u32_t)(map->end_spix - map->start_spix), vec_entry_end);
if (vec_entry_start > vec_entry_end) {
return SPIFFS_ERR_IX_MAP_BAD_RANGE;
}
state.map_objix_start_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, map->start_spix + vec_entry_start);
state.map_objix_end_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, map->start_spix + vec_entry_end);
state.remaining_objix_pages_to_visit =
state.map_objix_end_spix - state.map_objix_start_spix + 1;
state.fd = fd;
res = spiffs_obj_lu_find_entry_visitor(
fs,
SPIFFS_BLOCK_FOR_PAGE(fs, fd->objix_hdr_pix),
SPIFFS_OBJ_LOOKUP_ENTRY_FOR_PAGE(fs, fd->objix_hdr_pix),
SPIFFS_VIS_CHECK_ID,
fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG,
spiffs_populate_ix_map_v,
0,
&state,
0,
0);
if (res == SPIFFS_VIS_END) {
res = SPIFFS_OK;
}
return res;
}
#endif
#if !SPIFFS_READ_ONLY
// Allocates a free defined page with given obj_id
// Occupies object lookup entry and page
// data may be NULL; where only page header is stored, len and page_offs is ignored
s32_t spiffs_page_allocate_data(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_page_header *ph,
u8_t *data,
u32_t len,
u32_t page_offs,
u8_t finalize,
spiffs_page_ix *pix) {
s32_t res = SPIFFS_OK;
spiffs_block_ix bix;
int entry;
// find free entry
res = spiffs_obj_lu_find_free(fs, fs->free_cursor_block_ix, fs->free_cursor_obj_lu_entry, &bix, &entry);
SPIFFS_CHECK_RES(res);
// occupy page in object lookup
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_UPDT,
0, SPIFFS_BLOCK_TO_PADDR(fs, bix) + entry * sizeof(spiffs_obj_id), sizeof(spiffs_obj_id), (u8_t *)&obj_id);
SPIFFS_CHECK_RES(res);
fs->stats_p_allocated++;
// write page header
ph->flags &= ~SPIFFS_PH_FLAG_USED;
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
0, SPIFFS_OBJ_LOOKUP_ENTRY_TO_PADDR(fs, bix, entry), sizeof(spiffs_page_header), (u8_t *)ph);
SPIFFS_CHECK_RES(res);
// write page data
if (data) {
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
0, SPIFFS_OBJ_LOOKUP_ENTRY_TO_PADDR(fs, bix, entry) + sizeof(spiffs_page_header) + page_offs, len, data);
SPIFFS_CHECK_RES(res);
}
// finalize header if necessary
if (finalize && (ph->flags & SPIFFS_PH_FLAG_FINAL)) {
ph->flags &= ~SPIFFS_PH_FLAG_FINAL;
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
0, SPIFFS_OBJ_LOOKUP_ENTRY_TO_PADDR(fs, bix, entry) + offsetof(spiffs_page_header, flags),
sizeof(u8_t),
(u8_t *)&ph->flags);
SPIFFS_CHECK_RES(res);
}
// return written page
if (pix) {
*pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry);
}
return res;
}
#endif // !SPIFFS_READ_ONLY
#if !SPIFFS_READ_ONLY
// Moves a page from src to a free page and finalizes it. Updates page index. Page data is given in param page.
// If page data is null, provided header is used for metainfo and page data is physically copied.
s32_t spiffs_page_move(
spiffs *fs,
spiffs_file fh,
u8_t *page_data,
spiffs_obj_id obj_id,
spiffs_page_header *page_hdr,
spiffs_page_ix src_pix,
spiffs_page_ix *dst_pix) {
s32_t res;
u8_t was_final = 0;
spiffs_page_header *p_hdr;
spiffs_block_ix bix;
int entry;
spiffs_page_ix free_pix;
// find free entry
res = spiffs_obj_lu_find_free(fs, fs->free_cursor_block_ix, fs->free_cursor_obj_lu_entry, &bix, &entry);
SPIFFS_CHECK_RES(res);
free_pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry);
if (dst_pix) *dst_pix = free_pix;
p_hdr = page_data ? (spiffs_page_header *)page_data : page_hdr;
if (page_data) {
// got page data
was_final = (p_hdr->flags & SPIFFS_PH_FLAG_FINAL) == 0;
// write unfinalized page
p_hdr->flags |= SPIFFS_PH_FLAG_FINAL;
p_hdr->flags &= ~SPIFFS_PH_FLAG_USED;
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
0, SPIFFS_PAGE_TO_PADDR(fs, free_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), page_data);
} else {
// copy page data
res = spiffs_phys_cpy(fs, fh, SPIFFS_PAGE_TO_PADDR(fs, free_pix), SPIFFS_PAGE_TO_PADDR(fs, src_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs));
}
SPIFFS_CHECK_RES(res);
// mark entry in destination object lookup
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_UPDT,
0, SPIFFS_BLOCK_TO_PADDR(fs, SPIFFS_BLOCK_FOR_PAGE(fs, free_pix)) + SPIFFS_OBJ_LOOKUP_ENTRY_FOR_PAGE(fs, free_pix) * sizeof(spiffs_page_ix),
sizeof(spiffs_obj_id),
(u8_t *)&obj_id);
SPIFFS_CHECK_RES(res);
fs->stats_p_allocated++;
if (was_final) {
// mark finalized in destination page
p_hdr->flags &= ~(SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_USED);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
fh,
SPIFFS_PAGE_TO_PADDR(fs, free_pix) + offsetof(spiffs_page_header, flags),
sizeof(u8_t),
(u8_t *)&p_hdr->flags);
SPIFFS_CHECK_RES(res);
}
// mark source deleted
res = spiffs_page_delete(fs, src_pix);
return res;
}
#endif // !SPIFFS_READ_ONLY
#if !SPIFFS_READ_ONLY
// Deletes a page and removes it from object lookup.
s32_t spiffs_page_delete(
spiffs *fs,
spiffs_page_ix pix) {
s32_t res;
// mark deleted entry in source object lookup
spiffs_obj_id d_obj_id = SPIFFS_OBJ_ID_DELETED;
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_DELE,
0,
SPIFFS_BLOCK_TO_PADDR(fs, SPIFFS_BLOCK_FOR_PAGE(fs, pix)) + SPIFFS_OBJ_LOOKUP_ENTRY_FOR_PAGE(fs, pix) * sizeof(spiffs_page_ix),
sizeof(spiffs_obj_id),
(u8_t *)&d_obj_id);
SPIFFS_CHECK_RES(res);
fs->stats_p_deleted++;
fs->stats_p_allocated--;
// mark deleted in source page
u8_t flags = 0xff;
#if SPIFFS_NO_BLIND_WRITES
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_READ,
0, SPIFFS_PAGE_TO_PADDR(fs, pix) + offsetof(spiffs_page_header, flags),
sizeof(flags), &flags);
SPIFFS_CHECK_RES(res);
#endif
flags &= ~(SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_USED);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_DELE,
0,
SPIFFS_PAGE_TO_PADDR(fs, pix) + offsetof(spiffs_page_header, flags),
sizeof(flags), &flags);
return res;
}
#endif // !SPIFFS_READ_ONLY
#if !SPIFFS_READ_ONLY
// Create an object index header page with empty index and undefined length
s32_t spiffs_object_create(
spiffs *fs,
spiffs_obj_id obj_id,
const u8_t name[],
const u8_t meta[],
spiffs_obj_type type,
spiffs_page_ix *objix_hdr_pix) {
s32_t res = SPIFFS_OK;
spiffs_block_ix bix;
spiffs_page_object_ix_header oix_hdr;
int entry;
res = spiffs_gc_check(fs, SPIFFS_DATA_PAGE_SIZE(fs));
SPIFFS_CHECK_RES(res);
obj_id |= SPIFFS_OBJ_ID_IX_FLAG;
// find free entry
res = spiffs_obj_lu_find_free(fs, fs->free_cursor_block_ix, fs->free_cursor_obj_lu_entry, &bix, &entry);
SPIFFS_CHECK_RES(res);
SPIFFS_DBG("create: found free page @ "_SPIPRIpg" bix:"_SPIPRIbl" entry:"_SPIPRIsp"\n", (spiffs_page_ix)SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry), bix, entry);
// occupy page in object lookup
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_UPDT,
0, SPIFFS_BLOCK_TO_PADDR(fs, bix) + entry * sizeof(spiffs_obj_id), sizeof(spiffs_obj_id), (u8_t *)&obj_id);
SPIFFS_CHECK_RES(res);
fs->stats_p_allocated++;
// write empty object index page
oix_hdr.p_hdr.obj_id = obj_id;
oix_hdr.p_hdr.span_ix = 0;
oix_hdr.p_hdr.flags = 0xff & ~(SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_INDEX | SPIFFS_PH_FLAG_USED);
oix_hdr.type = type;
oix_hdr.size = SPIFFS_UNDEFINED_LEN; // keep ones so we can update later without wasting this page
strncpy((char *)oix_hdr.name, (const char *)name, SPIFFS_OBJ_NAME_LEN - 1);
#if SPIFFS_OBJ_META_LEN
if (meta) {
_SPIFFS_MEMCPY(oix_hdr.meta, meta, SPIFFS_OBJ_META_LEN);
} else {
memset(oix_hdr.meta, 0xff, SPIFFS_OBJ_META_LEN);
}
#else
(void) meta;
#endif
// update page
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
0, SPIFFS_OBJ_LOOKUP_ENTRY_TO_PADDR(fs, bix, entry), sizeof(spiffs_page_object_ix_header), (u8_t *)&oix_hdr);
SPIFFS_CHECK_RES(res);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)&oix_hdr,
SPIFFS_EV_IX_NEW, obj_id, 0, SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry), SPIFFS_UNDEFINED_LEN);
if (objix_hdr_pix) {
*objix_hdr_pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry);
}
return res;
}
#endif // !SPIFFS_READ_ONLY
#if !SPIFFS_READ_ONLY
// update object index header with any combination of name/size/index
// new_objix_hdr_data may be null, if so the object index header page is loaded
// name may be null, if so name is not changed
// size may be null, if so size is not changed
s32_t spiffs_object_update_index_hdr(
spiffs *fs,
spiffs_fd *fd,
spiffs_obj_id obj_id,
spiffs_page_ix objix_hdr_pix,
u8_t *new_objix_hdr_data,
const u8_t name[],
const u8_t meta[],
u32_t size,
spiffs_page_ix *new_pix) {
s32_t res = SPIFFS_OK;
spiffs_page_object_ix_header *objix_hdr;
spiffs_page_ix new_objix_hdr_pix;
obj_id |= SPIFFS_OBJ_ID_IX_FLAG;
if (new_objix_hdr_data) {
// object index header page already given to us, no need to load it
objix_hdr = (spiffs_page_object_ix_header *)new_objix_hdr_data;
} else {
// read object index header page
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, objix_hdr_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
objix_hdr = (spiffs_page_object_ix_header *)fs->work;
}
SPIFFS_VALIDATE_OBJIX(objix_hdr->p_hdr, obj_id, 0);
// change name
if (name) {
strncpy((char *)objix_hdr->name, (const char *)name, SPIFFS_OBJ_NAME_LEN - 1);
}
#if SPIFFS_OBJ_META_LEN
if (meta) {
_SPIFFS_MEMCPY(objix_hdr->meta, meta, SPIFFS_OBJ_META_LEN);
}
#else
(void) meta;
#endif
if (size) {
objix_hdr->size = size;
}
// move and update page
res = spiffs_page_move(fs, fd == 0 ? 0 : fd->file_nbr, (u8_t *)objix_hdr, obj_id, 0, objix_hdr_pix, &new_objix_hdr_pix);
if (res == SPIFFS_OK) {
if (new_pix) {
*new_pix = new_objix_hdr_pix;
}
// callback on object index update
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)objix_hdr,
new_objix_hdr_data ? SPIFFS_EV_IX_UPD : SPIFFS_EV_IX_UPD_HDR,
obj_id, objix_hdr->p_hdr.span_ix, new_objix_hdr_pix, objix_hdr->size);
if (fd) fd->objix_hdr_pix = new_objix_hdr_pix; // if this is not in the registered cluster
}
return res;
}
#endif // !SPIFFS_READ_ONLY
void spiffs_cb_object_event(
spiffs *fs,
spiffs_page_object_ix *objix,
int ev,
spiffs_obj_id obj_id_raw,
spiffs_span_ix spix,
spiffs_page_ix new_pix,
u32_t new_size) {
#if SPIFFS_IX_MAP == 0
(void)objix;
#endif
// update index caches in all file descriptors
spiffs_obj_id obj_id = obj_id_raw & ~SPIFFS_OBJ_ID_IX_FLAG;
u32_t i;
spiffs_fd *fds = (spiffs_fd *)fs->fd_space;
SPIFFS_DBG(" CALLBACK %s obj_id:"_SPIPRIid" spix:"_SPIPRIsp" npix:"_SPIPRIpg" nsz:"_SPIPRIi"\n", (const char *[]) {"UPD", "NEW", "DEL", "MOV", "HUP", "???"}[MIN(ev, 5)],
obj_id_raw, spix, new_pix, new_size);
for (i = 0; i < fs->fd_count; i++) {
spiffs_fd *cur_fd = &fds[i];
if ((cur_fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG) != obj_id) continue; // fd not related to updated file
#if !SPIFFS_TEMPORAL_FD_CACHE
if (cur_fd->file_nbr == 0) continue; // fd closed
#endif
if (spix == 0) { // object index header update
if (ev != SPIFFS_EV_IX_DEL) {
#if SPIFFS_TEMPORAL_FD_CACHE
if (cur_fd->score == 0) continue; // never used fd
#endif
SPIFFS_DBG(" callback: setting fd "_SPIPRIfd":"_SPIPRIid"(fdoffs:"_SPIPRIi" offs:"_SPIPRIi") objix_hdr_pix to "_SPIPRIpg", size:"_SPIPRIi"\n",
SPIFFS_FH_OFFS(fs, cur_fd->file_nbr), cur_fd->obj_id, cur_fd->fdoffset, cur_fd->offset, new_pix, new_size);
cur_fd->objix_hdr_pix = new_pix;
if (new_size != 0) {
// update size and offsets for fds to this file
cur_fd->size = new_size;
u32_t act_new_size = new_size == SPIFFS_UNDEFINED_LEN ? 0 : new_size;
#if SPIFFS_CACHE_WR
if (act_new_size > 0 && cur_fd->cache_page) {
act_new_size = MAX(act_new_size, cur_fd->cache_page->ucache.swrc.offset + cur_fd->cache_page->ucache.swrc.size);
}
#endif
if (cur_fd->offset > act_new_size) {
cur_fd->offset = act_new_size;
}
if (cur_fd->fdoffset > act_new_size) {
cur_fd->fdoffset = act_new_size;
}
#if SPIFFS_CACHE_WR
if (cur_fd->cache_page && cur_fd->cache_page->ucache.swrc.offset > act_new_size + 1) {
SPIFFS_CACHE_DBG("CACHE_DROP: file trunced, dropping cache page "_SPIPRIi", no writeback\n", cur_fd->cache_page->ix);
spiffs_cache_fd_release(fs, cur_fd->cache_page);
}
#endif
}
} else {
// removing file
#if SPIFFS_CACHE_WR
if (cur_fd->file_nbr && cur_fd->cache_page) {
SPIFFS_CACHE_DBG("CACHE_DROP: file deleted, dropping cache page "_SPIPRIi", no writeback\n", cur_fd->cache_page->ix);
spiffs_cache_fd_release(fs, cur_fd->cache_page);
}
#endif
SPIFFS_DBG(" callback: release fd "_SPIPRIfd":"_SPIPRIid" span:"_SPIPRIsp" objix_pix to "_SPIPRIpg"\n", SPIFFS_FH_OFFS(fs, cur_fd->file_nbr), cur_fd->obj_id, spix, new_pix);
cur_fd->file_nbr = 0;
cur_fd->obj_id = SPIFFS_OBJ_ID_DELETED;
}
} // object index header update
if (cur_fd->cursor_objix_spix == spix) {
if (ev != SPIFFS_EV_IX_DEL) {
SPIFFS_DBG(" callback: setting fd "_SPIPRIfd":"_SPIPRIid" span:"_SPIPRIsp" objix_pix to "_SPIPRIpg"\n", SPIFFS_FH_OFFS(fs, cur_fd->file_nbr), cur_fd->obj_id, spix, new_pix);
cur_fd->cursor_objix_pix = new_pix;
} else {
cur_fd->cursor_objix_pix = 0;
}
}
} // fd update loop
#if SPIFFS_IX_MAP
// update index maps
if (ev == SPIFFS_EV_IX_UPD || ev == SPIFFS_EV_IX_NEW) {
for (i = 0; i < fs->fd_count; i++) {
spiffs_fd *cur_fd = &fds[i];
// check fd opened, having ix map, match obj id
if (cur_fd->file_nbr == 0 ||
cur_fd->ix_map == 0 ||
(cur_fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG) != obj_id) continue;
SPIFFS_DBG(" callback: map ix update fd "_SPIPRIfd":"_SPIPRIid" span:"_SPIPRIsp"\n", SPIFFS_FH_OFFS(fs, cur_fd->file_nbr), cur_fd->obj_id, spix);
spiffs_update_ix_map(fs, cur_fd, spix, objix);
}
}
#endif
// callback to user if object index header
if (fs->file_cb_f && spix == 0 && (obj_id_raw & SPIFFS_OBJ_ID_IX_FLAG)) {
spiffs_fileop_type op;
if (ev == SPIFFS_EV_IX_NEW) {
op = SPIFFS_CB_CREATED;
} else if (ev == SPIFFS_EV_IX_UPD ||
ev == SPIFFS_EV_IX_MOV ||
ev == SPIFFS_EV_IX_UPD_HDR) {
op = SPIFFS_CB_UPDATED;
} else if (ev == SPIFFS_EV_IX_DEL) {
op = SPIFFS_CB_DELETED;
} else {
SPIFFS_DBG(" callback: WARNING unknown callback event "_SPIPRIi"\n", ev);
return; // bail out
}
fs->file_cb_f(fs, op, obj_id, new_pix);
}
}
// Open object by id
s32_t spiffs_object_open_by_id(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_fd *fd,
spiffs_flags flags,
spiffs_mode mode) {
s32_t res = SPIFFS_OK;
spiffs_page_ix pix;
res = spiffs_obj_lu_find_id_and_span(fs, obj_id | SPIFFS_OBJ_ID_IX_FLAG, 0, 0, &pix);
SPIFFS_CHECK_RES(res);
res = spiffs_object_open_by_page(fs, pix, fd, flags, mode);
return res;
}
// Open object by page index
s32_t spiffs_object_open_by_page(
spiffs *fs,
spiffs_page_ix pix,
spiffs_fd *fd,
spiffs_flags flags,
spiffs_mode mode) {
(void)mode;
s32_t res = SPIFFS_OK;
spiffs_page_object_ix_header oix_hdr;
spiffs_obj_id obj_id;
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, pix), sizeof(spiffs_page_object_ix_header), (u8_t *)&oix_hdr);
SPIFFS_CHECK_RES(res);
spiffs_block_ix bix = SPIFFS_BLOCK_FOR_PAGE(fs, pix);
int entry = SPIFFS_OBJ_LOOKUP_ENTRY_FOR_PAGE(fs, pix);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
0, SPIFFS_BLOCK_TO_PADDR(fs, bix) + entry * sizeof(spiffs_obj_id), sizeof(spiffs_obj_id), (u8_t *)&obj_id);
fd->fs = fs;
fd->objix_hdr_pix = pix;
fd->size = oix_hdr.size;
fd->offset = 0;
fd->cursor_objix_pix = pix;
fd->cursor_objix_spix = 0;
fd->obj_id = obj_id;
fd->flags = flags;
SPIFFS_VALIDATE_OBJIX(oix_hdr.p_hdr, fd->obj_id, 0);
SPIFFS_DBG("open: fd "_SPIPRIfd" is obj id "_SPIPRIid"\n", SPIFFS_FH_OFFS(fs, fd->file_nbr), fd->obj_id);
return res;
}
#if !SPIFFS_READ_ONLY
// Append to object
// keep current object index (header) page in fs->work buffer
s32_t spiffs_object_append(spiffs_fd *fd, u32_t offset, u8_t *data, u32_t len) {
spiffs *fs = fd->fs;
s32_t res = SPIFFS_OK;
u32_t written = 0;
SPIFFS_DBG("append: "_SPIPRIi" bytes @ offs "_SPIPRIi" of size "_SPIPRIi"\n", len, offset, fd->size);
if (offset > fd->size) {
SPIFFS_DBGF("append: offset reversed to size\n");
offset = fd->size;
}
res = spiffs_gc_check(fs, len + SPIFFS_DATA_PAGE_SIZE(fs)); // add an extra page of data worth for meta
if (res != SPIFFS_OK) {
SPIFFS_DBG("append: gc check fail "_SPIPRIi"\n", res);
}
SPIFFS_CHECK_RES(res);
spiffs_page_object_ix_header *objix_hdr = (spiffs_page_object_ix_header *)fs->work;
spiffs_page_object_ix *objix = (spiffs_page_object_ix *)fs->work;
spiffs_page_header p_hdr;
spiffs_span_ix cur_objix_spix = 0;
spiffs_span_ix prev_objix_spix = (spiffs_span_ix) - 1;
spiffs_page_ix cur_objix_pix = fd->objix_hdr_pix;
spiffs_page_ix new_objix_hdr_page;
spiffs_span_ix data_spix = offset / SPIFFS_DATA_PAGE_SIZE(fs);
spiffs_page_ix data_page;
u32_t page_offs = offset % SPIFFS_DATA_PAGE_SIZE(fs);
// write all data
while (res == SPIFFS_OK && written < len) {
// calculate object index page span index
cur_objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, data_spix);
// handle storing and loading of object indices
if (cur_objix_spix != prev_objix_spix) {
// new object index page
// within this clause we return directly if something fails, object index mess-up
if (written > 0) {
// store previous object index page, unless first pass
SPIFFS_DBG("append: "_SPIPRIid" store objix "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id,
cur_objix_pix, prev_objix_spix, written);
if (prev_objix_spix == 0) {
// this is an update to object index header page
objix_hdr->size = offset + written;
if (offset == 0) {
// was an empty object, update same page (size was 0xffffffff)
res = spiffs_page_index_check(fs, fd, cur_objix_pix, 0);
SPIFFS_CHECK_RES(res);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_UPDT,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, cur_objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
} else {
// was a nonempty object, update to new page
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, fs->work, 0, 0, offset + written, &new_objix_hdr_page);
SPIFFS_CHECK_RES(res);
SPIFFS_DBG("append: "_SPIPRIid" store new objix_hdr, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id,
new_objix_hdr_page, 0, written);
}
} else {
// this is an update to an object index page
res = spiffs_page_index_check(fs, fd, cur_objix_pix, prev_objix_spix);
SPIFFS_CHECK_RES(res);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_UPDT,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, cur_objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)fs->work,
SPIFFS_EV_IX_UPD, fd->obj_id, objix->p_hdr.span_ix, cur_objix_pix, 0);
// update length in object index header page
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, 0, 0, 0, offset + written, &new_objix_hdr_page);
SPIFFS_CHECK_RES(res);
SPIFFS_DBG("append: "_SPIPRIid" store new size I "_SPIPRIi" in objix_hdr, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id,
offset + written, new_objix_hdr_page, 0, written);
}
fd->size = offset + written;
fd->offset = offset + written;
}
// create or load new object index page
if (cur_objix_spix == 0) {
// load object index header page, must always exist
SPIFFS_DBG("append: "_SPIPRIid" load objixhdr page "_SPIPRIpg":"_SPIPRIsp"\n", fd->obj_id, cur_objix_pix, cur_objix_spix);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, cur_objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix_hdr->p_hdr, fd->obj_id, cur_objix_spix);
} else {
spiffs_span_ix len_objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, (fd->size - 1) / SPIFFS_DATA_PAGE_SIZE(fs));
// on subsequent passes, create a new object index page
if (written > 0 || cur_objix_spix > len_objix_spix) {
p_hdr.obj_id = fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG;
p_hdr.span_ix = cur_objix_spix;
p_hdr.flags = 0xff & ~(SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_INDEX);
res = spiffs_page_allocate_data(fs, fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG,
&p_hdr, 0, 0, 0, 1, &cur_objix_pix);
SPIFFS_CHECK_RES(res);
// quick "load" of new object index page
memset(fs->work, 0xff, SPIFFS_CFG_LOG_PAGE_SZ(fs));
_SPIFFS_MEMCPY(fs->work, &p_hdr, sizeof(spiffs_page_header));
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)fs->work,
SPIFFS_EV_IX_NEW, fd->obj_id, cur_objix_spix, cur_objix_pix, 0);
SPIFFS_DBG("append: "_SPIPRIid" create objix page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id
, cur_objix_pix, cur_objix_spix, written);
} else {
// on first pass, we load existing object index page
spiffs_page_ix pix;
SPIFFS_DBG("append: "_SPIPRIid" find objix span_ix:"_SPIPRIsp"\n", fd->obj_id, cur_objix_spix);
if (fd->cursor_objix_spix == cur_objix_spix) {
pix = fd->cursor_objix_pix;
} else {
res = spiffs_obj_lu_find_id_and_span(fs, fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG, cur_objix_spix, 0, &pix);
SPIFFS_CHECK_RES(res);
}
SPIFFS_DBG("append: "_SPIPRIid" found object index at page "_SPIPRIpg" [fd size "_SPIPRIi"]\n", fd->obj_id, pix, fd->size);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix_hdr->p_hdr, fd->obj_id, cur_objix_spix);
cur_objix_pix = pix;
}
fd->cursor_objix_pix = cur_objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
fd->offset = offset + written;
fd->size = offset + written;
}
prev_objix_spix = cur_objix_spix;
}
// write data
u32_t to_write = MIN(len - written, SPIFFS_DATA_PAGE_SIZE(fs) - page_offs);
if (page_offs == 0) {
// at beginning of a page, allocate and write a new page of data
p_hdr.obj_id = fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG;
p_hdr.span_ix = data_spix;
p_hdr.flags = 0xff & ~(SPIFFS_PH_FLAG_FINAL); // finalize immediately
res = spiffs_page_allocate_data(fs, fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG,
&p_hdr, &data[written], to_write, page_offs, 1, &data_page);
SPIFFS_DBG("append: "_SPIPRIid" store new data page, "_SPIPRIpg":"_SPIPRIsp" offset:"_SPIPRIi", len "_SPIPRIi", written "_SPIPRIi"\n", fd->obj_id,
data_page, data_spix, page_offs, to_write, written);
} else {
// append to existing page, fill out free data in existing page
if (cur_objix_spix == 0) {
// get data page from object index header page
data_page = ((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix];
} else {
// get data page from object index page
data_page = ((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)];
}
res = spiffs_page_data_check(fs, fd, data_page, data_spix);
SPIFFS_CHECK_RES(res);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, data_page) + sizeof(spiffs_page_header) + page_offs, to_write, &data[written]);
SPIFFS_DBG("append: "_SPIPRIid" store to existing data page, "_SPIPRIpg":"_SPIPRIsp" offset:"_SPIPRIi", len "_SPIPRIi", written "_SPIPRIi"\n", fd->obj_id
, data_page, data_spix, page_offs, to_write, written);
}
if (res != SPIFFS_OK) break;
// update memory representation of object index page with new data page
if (cur_objix_spix == 0) {
// update object index header page
((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix] = data_page;
SPIFFS_DBG("append: "_SPIPRIid" wrote page "_SPIPRIpg" to objix_hdr entry "_SPIPRIsp" in mem\n", fd->obj_id
, data_page, data_spix);
objix_hdr->size = offset + written;
} else {
// update object index page
((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)] = data_page;
SPIFFS_DBG("append: "_SPIPRIid" wrote page "_SPIPRIpg" to objix entry "_SPIPRIsp" in mem\n", fd->obj_id
, data_page, (spiffs_span_ix)SPIFFS_OBJ_IX_ENTRY(fs, data_spix));
}
// update internals
page_offs = 0;
data_spix++;
written += to_write;
} // while all data
fd->size = offset + written;
fd->offset = offset + written;
fd->cursor_objix_pix = cur_objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
// finalize updated object indices
s32_t res2 = SPIFFS_OK;
if (cur_objix_spix != 0) {
// wrote beyond object index header page
// write last modified object index page, unless object header index page
SPIFFS_DBG("append: "_SPIPRIid" store objix page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id,
cur_objix_pix, cur_objix_spix, written);
res2 = spiffs_page_index_check(fs, fd, cur_objix_pix, cur_objix_spix);
SPIFFS_CHECK_RES(res2);
res2 = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_UPDT,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, cur_objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res2);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)fs->work,
SPIFFS_EV_IX_UPD, fd->obj_id, objix->p_hdr.span_ix, cur_objix_pix, 0);
// update size in object header index page
res2 = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, 0, 0, 0, offset + written, &new_objix_hdr_page);
SPIFFS_DBG("append: "_SPIPRIid" store new size II "_SPIPRIi" in objix_hdr, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi", res "_SPIPRIi"\n", fd->obj_id
, offset + written, new_objix_hdr_page, 0, written, res2);
SPIFFS_CHECK_RES(res2);
} else {
// wrote within object index header page
if (offset == 0) {
// wrote to empty object - simply update size and write whole page
objix_hdr->size = offset + written;
SPIFFS_DBG("append: "_SPIPRIid" store fresh objix_hdr page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id
, cur_objix_pix, cur_objix_spix, written);
res2 = spiffs_page_index_check(fs, fd, cur_objix_pix, cur_objix_spix);
SPIFFS_CHECK_RES(res2);
res2 = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_UPDT,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, cur_objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res2);
// callback on object index update
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)fs->work,
SPIFFS_EV_IX_UPD_HDR, fd->obj_id, objix_hdr->p_hdr.span_ix, cur_objix_pix, objix_hdr->size);
} else {
// modifying object index header page, update size and make new copy
res2 = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, fs->work, 0, 0, offset + written, &new_objix_hdr_page);
SPIFFS_DBG("append: "_SPIPRIid" store modified objix_hdr page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", fd->obj_id
, new_objix_hdr_page, 0, written);
SPIFFS_CHECK_RES(res2);
}
}
return res;
} // spiffs_object_append
#endif // !SPIFFS_READ_ONLY
#if !SPIFFS_READ_ONLY
// Modify object
// keep current object index (header) page in fs->work buffer
s32_t spiffs_object_modify(spiffs_fd *fd, u32_t offset, u8_t *data, u32_t len) {
spiffs *fs = fd->fs;
s32_t res = SPIFFS_OK;
u32_t written = 0;
res = spiffs_gc_check(fs, len + SPIFFS_DATA_PAGE_SIZE(fs));
SPIFFS_CHECK_RES(res);
spiffs_page_object_ix_header *objix_hdr = (spiffs_page_object_ix_header *)fs->work;
spiffs_page_object_ix *objix = (spiffs_page_object_ix *)fs->work;
spiffs_page_header p_hdr;
spiffs_span_ix cur_objix_spix = 0;
spiffs_span_ix prev_objix_spix = (spiffs_span_ix) - 1;
spiffs_page_ix cur_objix_pix = fd->objix_hdr_pix;
spiffs_page_ix new_objix_hdr_pix;
spiffs_span_ix data_spix = offset / SPIFFS_DATA_PAGE_SIZE(fs);
spiffs_page_ix data_pix;
u32_t page_offs = offset % SPIFFS_DATA_PAGE_SIZE(fs);
// write all data
while (res == SPIFFS_OK && written < len) {
// calculate object index page span index
cur_objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, data_spix);
// handle storing and loading of object indices
if (cur_objix_spix != prev_objix_spix) {
// new object index page
// within this clause we return directly if something fails, object index mess-up
if (written > 0) {
// store previous object index (header) page, unless first pass
if (prev_objix_spix == 0) {
// store previous object index header page
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, fs->work, 0, 0, 0, &new_objix_hdr_pix);
SPIFFS_DBG("modify: store modified objix_hdr page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", new_objix_hdr_pix, 0, written);
SPIFFS_CHECK_RES(res);
} else {
// store new version of previous object index page
spiffs_page_ix new_objix_pix;
res = spiffs_page_index_check(fs, fd, cur_objix_pix, prev_objix_spix);
SPIFFS_CHECK_RES(res);
res = spiffs_page_move(fs, fd->file_nbr, (u8_t *)objix, fd->obj_id, 0, cur_objix_pix, &new_objix_pix);
SPIFFS_DBG("modify: store previous modified objix page, "_SPIPRIid":"_SPIPRIsp", written "_SPIPRIi"\n", new_objix_pix, objix->p_hdr.span_ix, written);
SPIFFS_CHECK_RES(res);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)objix,
SPIFFS_EV_IX_UPD, fd->obj_id, objix->p_hdr.span_ix, new_objix_pix, 0);
}
}
// load next object index page
if (cur_objix_spix == 0) {
// load object index header page, must exist
SPIFFS_DBG("modify: load objixhdr page "_SPIPRIpg":"_SPIPRIsp"\n", cur_objix_pix, cur_objix_spix);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, cur_objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix_hdr->p_hdr, fd->obj_id, cur_objix_spix);
} else {
// load existing object index page on first pass
spiffs_page_ix pix;
SPIFFS_DBG("modify: find objix span_ix:"_SPIPRIsp"\n", cur_objix_spix);
if (fd->cursor_objix_spix == cur_objix_spix) {
pix = fd->cursor_objix_pix;
} else {
res = spiffs_obj_lu_find_id_and_span(fs, fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG, cur_objix_spix, 0, &pix);
SPIFFS_CHECK_RES(res);
}
SPIFFS_DBG("modify: found object index at page "_SPIPRIpg"\n", pix);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix_hdr->p_hdr, fd->obj_id, cur_objix_spix);
cur_objix_pix = pix;
}
fd->cursor_objix_pix = cur_objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
fd->offset = offset + written;
prev_objix_spix = cur_objix_spix;
}
// write partial data
u32_t to_write = MIN(len - written, SPIFFS_DATA_PAGE_SIZE(fs) - page_offs);
spiffs_page_ix orig_data_pix;
if (cur_objix_spix == 0) {
// get data page from object index header page
orig_data_pix = ((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix];
} else {
// get data page from object index page
orig_data_pix = ((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)];
}
p_hdr.obj_id = fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG;
p_hdr.span_ix = data_spix;
p_hdr.flags = 0xff;
if (page_offs == 0 && to_write == SPIFFS_DATA_PAGE_SIZE(fs)) {
// a full page, allocate and write a new page of data
res = spiffs_page_allocate_data(fs, fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG,
&p_hdr, &data[written], to_write, page_offs, 1, &data_pix);
SPIFFS_DBG("modify: store new data page, "_SPIPRIpg":"_SPIPRIsp" offset:"_SPIPRIi", len "_SPIPRIi", written "_SPIPRIi"\n", data_pix, data_spix, page_offs, to_write, written);
if (res != SPIFFS_OK) break;
} else {
// write to existing page, allocate new and copy unmodified data
res = spiffs_page_data_check(fs, fd, orig_data_pix, data_spix);
SPIFFS_CHECK_RES(res);
res = spiffs_page_allocate_data(fs, fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG,
&p_hdr, 0, 0, 0, 0, &data_pix);
if (res != SPIFFS_OK) break;
// copy unmodified data
if (page_offs > 0) {
// before modification
res = spiffs_phys_cpy(fs, fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, data_pix) + sizeof(spiffs_page_header),
SPIFFS_PAGE_TO_PADDR(fs, orig_data_pix) + sizeof(spiffs_page_header),
page_offs);
if (res != SPIFFS_OK) break;
}
if (page_offs + to_write < SPIFFS_DATA_PAGE_SIZE(fs)) {
// after modification
res = spiffs_phys_cpy(fs, fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, data_pix) + sizeof(spiffs_page_header) + page_offs + to_write,
SPIFFS_PAGE_TO_PADDR(fs, orig_data_pix) + sizeof(spiffs_page_header) + page_offs + to_write,
SPIFFS_DATA_PAGE_SIZE(fs) - (page_offs + to_write));
if (res != SPIFFS_OK) break;
}
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, data_pix) + sizeof(spiffs_page_header) + page_offs, to_write, &data[written]);
if (res != SPIFFS_OK) break;
p_hdr.flags &= ~SPIFFS_PH_FLAG_FINAL;
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, data_pix) + offsetof(spiffs_page_header, flags),
sizeof(u8_t),
(u8_t *)&p_hdr.flags);
if (res != SPIFFS_OK) break;
SPIFFS_DBG("modify: store to existing data page, src:"_SPIPRIpg", dst:"_SPIPRIpg":"_SPIPRIsp" offset:"_SPIPRIi", len "_SPIPRIi", written "_SPIPRIi"\n", orig_data_pix, data_pix, data_spix, page_offs, to_write, written);
}
// delete original data page
res = spiffs_page_delete(fs, orig_data_pix);
if (res != SPIFFS_OK) break;
// update memory representation of object index page with new data page
if (cur_objix_spix == 0) {
// update object index header page
((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix] = data_pix;
SPIFFS_DBG("modify: wrote page "_SPIPRIpg" to objix_hdr entry "_SPIPRIsp" in mem\n", data_pix, data_spix);
} else {
// update object index page
((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)] = data_pix;
SPIFFS_DBG("modify: wrote page "_SPIPRIpg" to objix entry "_SPIPRIsp" in mem\n", data_pix, (spiffs_span_ix)SPIFFS_OBJ_IX_ENTRY(fs, data_spix));
}
// update internals
page_offs = 0;
data_spix++;
written += to_write;
} // while all data
fd->offset = offset + written;
fd->cursor_objix_pix = cur_objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
// finalize updated object indices
s32_t res2 = SPIFFS_OK;
if (cur_objix_spix != 0) {
// wrote beyond object index header page
// write last modified object index page
// move and update page
spiffs_page_ix new_objix_pix;
res2 = spiffs_page_index_check(fs, fd, cur_objix_pix, cur_objix_spix);
SPIFFS_CHECK_RES(res2);
res2 = spiffs_page_move(fs, fd->file_nbr, (u8_t *)objix, fd->obj_id, 0, cur_objix_pix, &new_objix_pix);
SPIFFS_DBG("modify: store modified objix page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", new_objix_pix, cur_objix_spix, written);
fd->cursor_objix_pix = new_objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
SPIFFS_CHECK_RES(res2);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)objix,
SPIFFS_EV_IX_UPD, fd->obj_id, objix->p_hdr.span_ix, new_objix_pix, 0);
} else {
// wrote within object index header page
res2 = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, fs->work, 0, 0, 0, &new_objix_hdr_pix);
SPIFFS_DBG("modify: store modified objix_hdr page, "_SPIPRIpg":"_SPIPRIsp", written "_SPIPRIi"\n", new_objix_hdr_pix, 0, written);
SPIFFS_CHECK_RES(res2);
}
return res;
} // spiffs_object_modify
#endif // !SPIFFS_READ_ONLY
static s32_t spiffs_object_find_object_index_header_by_name_v(
spiffs *fs,
spiffs_obj_id obj_id,
spiffs_block_ix bix,
int ix_entry,
const void *user_const_p,
void *user_var_p) {
(void)user_var_p;
s32_t res;
spiffs_page_object_ix_header objix_hdr;
spiffs_page_ix pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, ix_entry);
if (obj_id == SPIFFS_OBJ_ID_FREE || obj_id == SPIFFS_OBJ_ID_DELETED ||
(obj_id & SPIFFS_OBJ_ID_IX_FLAG) == 0) {
return SPIFFS_VIS_COUNTINUE;
}
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_PAGE_TO_PADDR(fs, pix), sizeof(spiffs_page_object_ix_header), (u8_t *)&objix_hdr);
SPIFFS_CHECK_RES(res);
if (objix_hdr.p_hdr.span_ix == 0 &&
(objix_hdr.p_hdr.flags & (SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_IXDELE)) ==
(SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_IXDELE)) {
if (strcmp((const char *)user_const_p, (char *)objix_hdr.name) == 0) {
return SPIFFS_OK;
}
}
return SPIFFS_VIS_COUNTINUE;
}
// Finds object index header page by name
s32_t spiffs_object_find_object_index_header_by_name(
spiffs *fs,
const u8_t name[SPIFFS_OBJ_NAME_LEN],
spiffs_page_ix *pix) {
s32_t res;
spiffs_block_ix bix;
int entry;
res = spiffs_obj_lu_find_entry_visitor(fs,
fs->cursor_block_ix,
fs->cursor_obj_lu_entry,
0,
0,
spiffs_object_find_object_index_header_by_name_v,
name,
0,
&bix,
&entry);
if (res == SPIFFS_VIS_END) {
res = SPIFFS_ERR_NOT_FOUND;
}
SPIFFS_CHECK_RES(res);
if (pix) {
*pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, entry);
}
fs->cursor_block_ix = bix;
fs->cursor_obj_lu_entry = entry;
return res;
}
#if !SPIFFS_READ_ONLY
// Truncates object to new size. If new size is null, object may be removed totally
s32_t spiffs_object_truncate(
spiffs_fd *fd,
u32_t new_size,
u8_t remove_full) {
s32_t res = SPIFFS_OK;
spiffs *fs = fd->fs;
if ((fd->size == SPIFFS_UNDEFINED_LEN || fd->size == 0) && !remove_full) {
// no op
return res;
}
// need 2 pages if not removing: object index page + possibly chopped data page
if (remove_full == 0) {
res = spiffs_gc_check(fs, SPIFFS_DATA_PAGE_SIZE(fs) * 2);
SPIFFS_CHECK_RES(res);
}
spiffs_page_ix objix_pix = fd->objix_hdr_pix;
spiffs_span_ix data_spix = (fd->size > 0 ? fd->size - 1 : 0) / SPIFFS_DATA_PAGE_SIZE(fs);
u32_t cur_size = fd->size == (u32_t)SPIFFS_UNDEFINED_LEN ? 0 : fd->size ;
spiffs_span_ix cur_objix_spix = 0;
spiffs_span_ix prev_objix_spix = (spiffs_span_ix) - 1;
spiffs_page_object_ix_header *objix_hdr = (spiffs_page_object_ix_header *)fs->work;
spiffs_page_object_ix *objix = (spiffs_page_object_ix *)fs->work;
spiffs_page_ix data_pix;
spiffs_page_ix new_objix_hdr_pix;
// before truncating, check if object is to be fully removed and mark this
if (remove_full && new_size == 0) {
u8_t flags = ~(SPIFFS_PH_FLAG_USED | SPIFFS_PH_FLAG_INDEX | SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_IXDELE);
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_UPDT,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, fd->objix_hdr_pix) + offsetof(spiffs_page_header, flags),
sizeof(u8_t),
(u8_t *)&flags);
SPIFFS_CHECK_RES(res);
}
// delete from end of object until desired len is reached
while (cur_size > new_size) {
cur_objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, data_spix);
// put object index for current data span index in work buffer
if (prev_objix_spix != cur_objix_spix) {
if (prev_objix_spix != (spiffs_span_ix) - 1) {
// remove previous object index page
SPIFFS_DBG("truncate: delete objix page "_SPIPRIpg":"_SPIPRIsp"\n", objix_pix, prev_objix_spix);
res = spiffs_page_index_check(fs, fd, objix_pix, prev_objix_spix);
SPIFFS_CHECK_RES(res);
res = spiffs_page_delete(fs, objix_pix);
SPIFFS_CHECK_RES(res);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)0,
SPIFFS_EV_IX_DEL, fd->obj_id, objix->p_hdr.span_ix, objix_pix, 0);
if (prev_objix_spix > 0) {
// Update object index header page, unless we totally want to remove the file.
// If fully removing, we're not keeping consistency as good as when storing the header between chunks,
// would we be aborted. But when removing full files, a crammed system may otherwise
// report ERR_FULL a la windows. We cannot have that.
// Hence, take the risk - if aborted, a file check would free the lost pages and mend things
// as the file is marked as fully deleted in the beginning.
if (remove_full == 0) {
SPIFFS_DBG("truncate: update objix hdr page "_SPIPRIpg":"_SPIPRIsp" to size "_SPIPRIi"\n", fd->objix_hdr_pix, prev_objix_spix, cur_size);
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, 0, 0, 0, cur_size, &new_objix_hdr_pix);
SPIFFS_CHECK_RES(res);
}
fd->size = cur_size;
}
}
// load current object index (header) page
if (cur_objix_spix == 0) {
objix_pix = fd->objix_hdr_pix;
} else {
res = spiffs_obj_lu_find_id_and_span(fs, fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG, cur_objix_spix, 0, &objix_pix);
SPIFFS_CHECK_RES(res);
}
SPIFFS_DBG("truncate: load objix page "_SPIPRIpg":"_SPIPRIsp" for data spix:"_SPIPRIsp"\n", objix_pix, cur_objix_spix, data_spix);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix_hdr->p_hdr, fd->obj_id, cur_objix_spix);
fd->cursor_objix_pix = objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
fd->offset = cur_size;
prev_objix_spix = cur_objix_spix;
}
if (cur_objix_spix == 0) {
// get data page from object index header page
data_pix = ((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix];
((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix] = SPIFFS_OBJ_ID_FREE;
} else {
// get data page from object index page
data_pix = ((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)];
((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)] = SPIFFS_OBJ_ID_FREE;
}
SPIFFS_DBG("truncate: got data pix "_SPIPRIpg"\n", data_pix);
if (new_size == 0 || remove_full || cur_size - new_size >= SPIFFS_DATA_PAGE_SIZE(fs)) {
// delete full data page
res = spiffs_page_data_check(fs, fd, data_pix, data_spix);
if (res != SPIFFS_ERR_DELETED && res != SPIFFS_OK && res != SPIFFS_ERR_INDEX_REF_FREE) {
SPIFFS_DBG("truncate: err validating data pix "_SPIPRIi"\n", res);
break;
}
if (res == SPIFFS_OK) {
res = spiffs_page_delete(fs, data_pix);
if (res != SPIFFS_OK) {
SPIFFS_DBG("truncate: err deleting data pix "_SPIPRIi"\n", res);
break;
}
} else if (res == SPIFFS_ERR_DELETED || res == SPIFFS_ERR_INDEX_REF_FREE) {
res = SPIFFS_OK;
}
// update current size
if (cur_size % SPIFFS_DATA_PAGE_SIZE(fs) == 0) {
cur_size -= SPIFFS_DATA_PAGE_SIZE(fs);
} else {
cur_size -= cur_size % SPIFFS_DATA_PAGE_SIZE(fs);
}
fd->size = cur_size;
fd->offset = cur_size;
SPIFFS_DBG("truncate: delete data page "_SPIPRIpg" for data spix:"_SPIPRIsp", cur_size:"_SPIPRIi"\n", data_pix, data_spix, cur_size);
} else {
// delete last page, partially
spiffs_page_header p_hdr;
spiffs_page_ix new_data_pix;
u32_t bytes_to_remove = SPIFFS_DATA_PAGE_SIZE(fs) - (new_size % SPIFFS_DATA_PAGE_SIZE(fs));
SPIFFS_DBG("truncate: delete "_SPIPRIi" bytes from data page "_SPIPRIpg" for data spix:"_SPIPRIsp", cur_size:"_SPIPRIi"\n", bytes_to_remove, data_pix, data_spix, cur_size);
res = spiffs_page_data_check(fs, fd, data_pix, data_spix);
if (res != SPIFFS_OK) break;
p_hdr.obj_id = fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG;
p_hdr.span_ix = data_spix;
p_hdr.flags = 0xff;
// allocate new page and copy unmodified data
res = spiffs_page_allocate_data(fs, fd->obj_id & ~SPIFFS_OBJ_ID_IX_FLAG,
&p_hdr, 0, 0, 0, 0, &new_data_pix);
if (res != SPIFFS_OK) break;
res = spiffs_phys_cpy(fs, 0,
SPIFFS_PAGE_TO_PADDR(fs, new_data_pix) + sizeof(spiffs_page_header),
SPIFFS_PAGE_TO_PADDR(fs, data_pix) + sizeof(spiffs_page_header),
SPIFFS_DATA_PAGE_SIZE(fs) - bytes_to_remove);
if (res != SPIFFS_OK) break;
// delete original data page
res = spiffs_page_delete(fs, data_pix);
if (res != SPIFFS_OK) break;
p_hdr.flags &= ~SPIFFS_PH_FLAG_FINAL;
res = _spiffs_wr(fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_UPDT,
fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, new_data_pix) + offsetof(spiffs_page_header, flags),
sizeof(u8_t),
(u8_t *)&p_hdr.flags);
if (res != SPIFFS_OK) break;
// update memory representation of object index page with new data page
if (cur_objix_spix == 0) {
// update object index header page
((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix] = new_data_pix;
SPIFFS_DBG("truncate: wrote page "_SPIPRIpg" to objix_hdr entry "_SPIPRIsp" in mem\n", new_data_pix, (spiffs_span_ix)SPIFFS_OBJ_IX_ENTRY(fs, data_spix));
} else {
// update object index page
((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)] = new_data_pix;
SPIFFS_DBG("truncate: wrote page "_SPIPRIpg" to objix entry "_SPIPRIsp" in mem\n", new_data_pix, (spiffs_span_ix)SPIFFS_OBJ_IX_ENTRY(fs, data_spix));
}
cur_size = new_size;
fd->size = new_size;
fd->offset = cur_size;
break;
}
data_spix--;
} // while all data
// update object indices
if (cur_objix_spix == 0) {
// update object index header page
if (cur_size == 0) {
if (remove_full) {
// remove object altogether
SPIFFS_DBG("truncate: remove object index header page "_SPIPRIpg"\n", objix_pix);
res = spiffs_page_index_check(fs, fd, objix_pix, 0);
SPIFFS_CHECK_RES(res);
res = spiffs_page_delete(fs, objix_pix);
SPIFFS_CHECK_RES(res);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)0,
SPIFFS_EV_IX_DEL, fd->obj_id, 0, objix_pix, 0);
} else {
// make uninitialized object
SPIFFS_DBG("truncate: reset objix_hdr page "_SPIPRIpg"\n", objix_pix);
memset(fs->work + sizeof(spiffs_page_object_ix_header), 0xff,
SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_page_object_ix_header));
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
objix_pix, fs->work, 0, 0, SPIFFS_UNDEFINED_LEN, &new_objix_hdr_pix);
SPIFFS_CHECK_RES(res);
}
} else {
// update object index header page
SPIFFS_DBGF("truncate: update object index header page with indices and size\n");
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
objix_pix, fs->work, 0, 0, cur_size, &new_objix_hdr_pix);
SPIFFS_CHECK_RES(res);
}
} else {
// update both current object index page and object index header page
spiffs_page_ix new_objix_pix;
res = spiffs_page_index_check(fs, fd, objix_pix, cur_objix_spix);
SPIFFS_CHECK_RES(res);
// move and update object index page
res = spiffs_page_move(fs, fd->file_nbr, (u8_t *)objix_hdr, fd->obj_id, 0, objix_pix, &new_objix_pix);
SPIFFS_CHECK_RES(res);
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)objix_hdr,
SPIFFS_EV_IX_UPD, fd->obj_id, objix->p_hdr.span_ix, new_objix_pix, 0);
SPIFFS_DBG("truncate: store modified objix page, "_SPIPRIpg":"_SPIPRIsp"\n", new_objix_pix, cur_objix_spix);
fd->cursor_objix_pix = new_objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
fd->offset = cur_size;
// update object index header page with new size
res = spiffs_object_update_index_hdr(fs, fd, fd->obj_id,
fd->objix_hdr_pix, 0, 0, 0, cur_size, &new_objix_hdr_pix);
SPIFFS_CHECK_RES(res);
}
fd->size = cur_size;
return res;
} // spiffs_object_truncate
#endif // !SPIFFS_READ_ONLY
s32_t spiffs_object_read(
spiffs_fd *fd,
u32_t offset,
u32_t len,
u8_t *dst) {
s32_t res = SPIFFS_OK;
spiffs *fs = fd->fs;
spiffs_page_ix objix_pix;
spiffs_page_ix data_pix;
spiffs_span_ix data_spix = offset / SPIFFS_DATA_PAGE_SIZE(fs);
u32_t cur_offset = offset;
spiffs_span_ix cur_objix_spix;
spiffs_span_ix prev_objix_spix = (spiffs_span_ix) - 1;
spiffs_page_object_ix_header *objix_hdr = (spiffs_page_object_ix_header *)fs->work;
spiffs_page_object_ix *objix = (spiffs_page_object_ix *)fs->work;
while (cur_offset < offset + len) {
#if SPIFFS_IX_MAP
// check if we have a memory, index map and if so, if we're within index map's range
// and if so, if the entry is populated
if (fd->ix_map && data_spix >= fd->ix_map->start_spix && data_spix <= fd->ix_map->end_spix
&& fd->ix_map->map_buf[data_spix - fd->ix_map->start_spix]) {
data_pix = fd->ix_map->map_buf[data_spix - fd->ix_map->start_spix];
} else {
#endif
cur_objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, data_spix);
if (prev_objix_spix != cur_objix_spix) {
// load current object index (header) page
if (cur_objix_spix == 0) {
objix_pix = fd->objix_hdr_pix;
} else {
SPIFFS_DBG("read: find objix "_SPIPRIid":"_SPIPRIsp"\n", fd->obj_id, cur_objix_spix);
if (fd->cursor_objix_spix == cur_objix_spix) {
objix_pix = fd->cursor_objix_pix;
} else {
res = spiffs_obj_lu_find_id_and_span(fs, fd->obj_id | SPIFFS_OBJ_ID_IX_FLAG, cur_objix_spix, 0, &objix_pix);
SPIFFS_CHECK_RES(res);
}
}
SPIFFS_DBG("read: load objix page "_SPIPRIpg":"_SPIPRIsp" for data spix:"_SPIPRIsp"\n", objix_pix, cur_objix_spix, data_spix);
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_IX | SPIFFS_OP_C_READ,
fd->file_nbr, SPIFFS_PAGE_TO_PADDR(fs, objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
SPIFFS_CHECK_RES(res);
SPIFFS_VALIDATE_OBJIX(objix->p_hdr, fd->obj_id, cur_objix_spix);
fd->offset = cur_offset;
fd->cursor_objix_pix = objix_pix;
fd->cursor_objix_spix = cur_objix_spix;
prev_objix_spix = cur_objix_spix;
}
if (cur_objix_spix == 0) {
// get data page from object index header page
data_pix = ((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[data_spix];
} else {
// get data page from object index page
data_pix = ((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, data_spix)];
}
#if SPIFFS_IX_MAP
}
#endif
// all remaining data
u32_t len_to_read = offset + len - cur_offset;
// remaining data in page
len_to_read = MIN(len_to_read, SPIFFS_DATA_PAGE_SIZE(fs) - (cur_offset % SPIFFS_DATA_PAGE_SIZE(fs)));
// remaining data in file
len_to_read = MIN(len_to_read, fd->size - cur_offset);
SPIFFS_DBG("read: offset:"_SPIPRIi" rd:"_SPIPRIi" data spix:"_SPIPRIsp" is data_pix:"_SPIPRIpg" addr:"_SPIPRIad"\n", cur_offset, len_to_read, data_spix, data_pix,
(u32_t)(SPIFFS_PAGE_TO_PADDR(fs, data_pix) + sizeof(spiffs_page_header) + (cur_offset % SPIFFS_DATA_PAGE_SIZE(fs))));
if (len_to_read == 0) {
res = SPIFFS_ERR_END_OF_OBJECT;
break;
}
res = spiffs_page_data_check(fs, fd, data_pix, data_spix);
SPIFFS_CHECK_RES(res);
res = _spiffs_rd(
fs, SPIFFS_OP_T_OBJ_DA | SPIFFS_OP_C_READ,
fd->file_nbr,
SPIFFS_PAGE_TO_PADDR(fs, data_pix) + sizeof(spiffs_page_header) + (cur_offset % SPIFFS_DATA_PAGE_SIZE(fs)),
len_to_read,
dst);
SPIFFS_CHECK_RES(res);
dst += len_to_read;
cur_offset += len_to_read;
fd->offset = cur_offset;
data_spix++;
}
return res;
}
#if !SPIFFS_READ_ONLY
typedef struct {
spiffs_obj_id min_obj_id;
spiffs_obj_id max_obj_id;
u32_t compaction;
const u8_t *conflicting_name;
} spiffs_free_obj_id_state;
static s32_t spiffs_obj_lu_find_free_obj_id_bitmap_v(spiffs *fs, spiffs_obj_id id, spiffs_block_ix bix, int ix_entry,
const void *user_const_p, void *user_var_p) {
if (id != SPIFFS_OBJ_ID_FREE && id != SPIFFS_OBJ_ID_DELETED) {
spiffs_obj_id min_obj_id = *((spiffs_obj_id *)user_var_p);
const u8_t *conflicting_name = (const u8_t *)user_const_p;
// if conflicting name parameter is given, also check if this name is found in object index hdrs
if (conflicting_name && (id & SPIFFS_OBJ_ID_IX_FLAG)) {
spiffs_page_ix pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, ix_entry);
int res;
spiffs_page_object_ix_header objix_hdr;
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_PAGE_TO_PADDR(fs, pix), sizeof(spiffs_page_object_ix_header), (u8_t *)&objix_hdr);
SPIFFS_CHECK_RES(res);
if (objix_hdr.p_hdr.span_ix == 0 &&
(objix_hdr.p_hdr.flags & (SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_IXDELE)) ==
(SPIFFS_PH_FLAG_DELET | SPIFFS_PH_FLAG_IXDELE)) {
if (strcmp((const char *)user_const_p, (char *)objix_hdr.name) == 0) {
return SPIFFS_ERR_CONFLICTING_NAME;
}
}
}
id &= ~SPIFFS_OBJ_ID_IX_FLAG;
u32_t bit_ix = (id - min_obj_id) & 7;
int byte_ix = (id - min_obj_id) >> 3;
if (byte_ix >= 0 && (u32_t)byte_ix < SPIFFS_CFG_LOG_PAGE_SZ(fs)) {
fs->work[byte_ix] |= (1 << bit_ix);
}
}
return SPIFFS_VIS_COUNTINUE;
}
static s32_t spiffs_obj_lu_find_free_obj_id_compact_v(spiffs *fs, spiffs_obj_id id, spiffs_block_ix bix, int ix_entry,
const void *user_const_p, void *user_var_p) {
(void)user_var_p;
if (id != SPIFFS_OBJ_ID_FREE && id != SPIFFS_OBJ_ID_DELETED && (id & SPIFFS_OBJ_ID_IX_FLAG)) {
s32_t res;
const spiffs_free_obj_id_state *state = (const spiffs_free_obj_id_state *)user_const_p;
spiffs_page_object_ix_header objix_hdr;
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
0, SPIFFS_OBJ_LOOKUP_ENTRY_TO_PADDR(fs, bix, ix_entry), sizeof(spiffs_page_object_ix_header), (u8_t *)&objix_hdr);
if (res == SPIFFS_OK && objix_hdr.p_hdr.span_ix == 0 &&
((objix_hdr.p_hdr.flags & (SPIFFS_PH_FLAG_INDEX | SPIFFS_PH_FLAG_FINAL | SPIFFS_PH_FLAG_DELET)) ==
(SPIFFS_PH_FLAG_DELET))) {
// ok object look up entry
if (state->conflicting_name && strcmp((const char *)state->conflicting_name, (char *)objix_hdr.name) == 0) {
return SPIFFS_ERR_CONFLICTING_NAME;
}
id &= ~SPIFFS_OBJ_ID_IX_FLAG;
if (id >= state->min_obj_id && id <= state->max_obj_id) {
u8_t *map = (u8_t *)fs->work;
int ix = (id - state->min_obj_id) / state->compaction;
//SPIFFS_DBG("free_obj_id: add ix "_SPIPRIi" for id "_SPIPRIid" min"_SPIPRIid" max"_SPIPRIid" comp:"_SPIPRIi"\n", ix, id, state->min_obj_id, state->max_obj_id, state->compaction);
map[ix]++;
}
}
}
return SPIFFS_VIS_COUNTINUE;
}
// Scans thru all object lookup for object index header pages. If total possible number of
// object ids cannot fit into a work buffer, these are grouped. When a group containing free
// object ids is found, the object lu is again scanned for object ids within group and bitmasked.
// Finally, the bitmask is searched for a free id
s32_t spiffs_obj_lu_find_free_obj_id(spiffs *fs, spiffs_obj_id *obj_id, const u8_t *conflicting_name) {
s32_t res = SPIFFS_OK;
u32_t max_objects = (fs->block_count * SPIFFS_OBJ_LOOKUP_MAX_ENTRIES(fs)) / 2;
spiffs_free_obj_id_state state;
spiffs_obj_id free_obj_id = SPIFFS_OBJ_ID_FREE;
state.min_obj_id = 1;
state.max_obj_id = max_objects + 1;
if (state.max_obj_id & SPIFFS_OBJ_ID_IX_FLAG) {
state.max_obj_id = ((spiffs_obj_id) - 1) & ~SPIFFS_OBJ_ID_IX_FLAG;
}
state.compaction = 0;
state.conflicting_name = conflicting_name;
while (res == SPIFFS_OK && free_obj_id == SPIFFS_OBJ_ID_FREE) {
if (state.max_obj_id - state.min_obj_id <= (spiffs_obj_id)SPIFFS_CFG_LOG_PAGE_SZ(fs) * 8) {
// possible to represent in bitmap
u32_t i, j;
SPIFFS_DBG("free_obj_id: BITM min:"_SPIPRIid" max:"_SPIPRIid"\n", state.min_obj_id, state.max_obj_id);
memset(fs->work, 0, SPIFFS_CFG_LOG_PAGE_SZ(fs));
res = spiffs_obj_lu_find_entry_visitor(fs, 0, 0, 0, 0, spiffs_obj_lu_find_free_obj_id_bitmap_v,
conflicting_name, &state.min_obj_id, 0, 0);
if (res == SPIFFS_VIS_END) res = SPIFFS_OK;
SPIFFS_CHECK_RES(res);
// traverse bitmask until found free obj_id
for (i = 0; i < SPIFFS_CFG_LOG_PAGE_SZ(fs); i++) {
u8_t mask = fs->work[i];
if (mask == 0xff) {
continue;
}
for (j = 0; j < 8; j++) {
if ((mask & (1 << j)) == 0) {
*obj_id = (i << 3) + j + state.min_obj_id;
return SPIFFS_OK;
}
}
}
return SPIFFS_ERR_FULL;
} else {
// not possible to represent all ids in range in a bitmap, compact and count
if (state.compaction != 0) {
// select element in compacted table, decrease range and recompact
u32_t i, min_i = 0;
u8_t *map = (u8_t *)fs->work;
u8_t min_count = 0xff;
for (i = 0; i < SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(u8_t); i++) {
if (map[i] < min_count) {
min_count = map[i];
min_i = i;
if (min_count == 0) {
break;
}
}
}
if (min_count == state.compaction) {
// there are no free objids!
SPIFFS_DBGF("free_obj_id: compacted table is full\n");
return SPIFFS_ERR_FULL;
}
SPIFFS_DBG("free_obj_id: COMP select index:"_SPIPRIi" min_count:"_SPIPRIi" min:"_SPIPRIid" max:"_SPIPRIid" compact:"_SPIPRIi"\n", min_i, min_count, state.min_obj_id, state.max_obj_id, state.compaction);
if (min_count == 0) {
// no id in this range, skip compacting and use directly
*obj_id = min_i * state.compaction + state.min_obj_id;
return SPIFFS_OK;
} else {
SPIFFS_DBG("free_obj_id: COMP SEL chunk:"_SPIPRIi" min:"_SPIPRIid" -> "_SPIPRIid"\n", state.compaction, state.min_obj_id, state.min_obj_id + min_i * state.compaction);
state.min_obj_id += min_i * state.compaction;
state.max_obj_id = state.min_obj_id + state.compaction;
// decrease compaction
}
if ((state.max_obj_id - state.min_obj_id <= (spiffs_obj_id)SPIFFS_CFG_LOG_PAGE_SZ(fs) * 8)) {
// no need for compacting, use bitmap
continue;
}
}
// in a work memory of log_page_size bytes, we may fit in log_page_size ids
// todo what if compaction is > 255 - then we cannot fit it in a byte
state.compaction = (state.max_obj_id - state.min_obj_id) / ((SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(u8_t)));
SPIFFS_DBG("free_obj_id: COMP min:"_SPIPRIid" max:"_SPIPRIid" compact:"_SPIPRIi"\n", state.min_obj_id, state.max_obj_id, state.compaction);
memset(fs->work, 0, SPIFFS_CFG_LOG_PAGE_SZ(fs));
res = spiffs_obj_lu_find_entry_visitor(fs, 0, 0, 0, 0, spiffs_obj_lu_find_free_obj_id_compact_v, &state, 0, 0, 0);
if (res == SPIFFS_VIS_END) res = SPIFFS_OK;
SPIFFS_CHECK_RES(res);
state.conflicting_name = 0; // searched for conflicting name once, no need to do it again
}
}
return res;
}
#endif // !SPIFFS_READ_ONLY
#if SPIFFS_TEMPORAL_FD_CACHE
// djb2 hash
static u32_t spiffs_hash(spiffs *fs, const u8_t *name) {
(void)fs;
u32_t hash = 5381;
u8_t c;
int i = 0;
while ((c = name[i++]) && i < SPIFFS_OBJ_NAME_LEN) {
hash = (hash * 33) ^ c;
}
return hash;
}
#endif
s32_t spiffs_fd_find_new(spiffs *fs, spiffs_fd **fd, const char *name) {
#if SPIFFS_TEMPORAL_FD_CACHE
u32_t i;
u16_t min_score = 0xffff;
u32_t cand_ix = (u32_t) - 1;
u32_t name_hash = name ? spiffs_hash(fs, (const u8_t *)name) : 0;
spiffs_fd *fds = (spiffs_fd *)fs->fd_space;
if (name) {
// first, decrease score of all closed descriptors
for (i = 0; i < fs->fd_count; i++) {
spiffs_fd *cur_fd = &fds[i];
if (cur_fd->file_nbr == 0) {
if (cur_fd->score > 1) { // score == 0 indicates never used fd
cur_fd->score--;
}
}
}
}
// find the free fd with least score or name match
for (i = 0; i < fs->fd_count; i++) {
spiffs_fd *cur_fd = &fds[i];
if (cur_fd->file_nbr == 0) {
if (name && cur_fd->name_hash == name_hash) {
cand_ix = i;
break;
}
if (cur_fd->score < min_score) {
min_score = cur_fd->score;
cand_ix = i;
}
}
}
if (cand_ix != (u32_t) - 1) {
spiffs_fd *cur_fd = &fds[cand_ix];
if (name) {
if (cur_fd->name_hash == name_hash && cur_fd->score > 0) {
// opened an fd with same name hash, assume same file
// set search point to saved obj index page and hope we have a correct match directly
// when start searching - if not, we will just keep searching until it is found
fs->cursor_block_ix = SPIFFS_BLOCK_FOR_PAGE(fs, cur_fd->objix_hdr_pix);
fs->cursor_obj_lu_entry = SPIFFS_OBJ_LOOKUP_ENTRY_FOR_PAGE(fs, cur_fd->objix_hdr_pix);
// update score
if (cur_fd->score < 0xffff - SPIFFS_TEMPORAL_CACHE_HIT_SCORE) {
cur_fd->score += SPIFFS_TEMPORAL_CACHE_HIT_SCORE;
} else {
cur_fd->score = 0xffff;
}
} else {
// no hash hit, restore this fd to initial state
cur_fd->score = SPIFFS_TEMPORAL_CACHE_HIT_SCORE;
cur_fd->name_hash = name_hash;
}
}
cur_fd->file_nbr = cand_ix + 1;
*fd = cur_fd;
return SPIFFS_OK;
} else {
return SPIFFS_ERR_OUT_OF_FILE_DESCS;
}
#else
(void)name;
u32_t i;
spiffs_fd *fds = (spiffs_fd *)fs->fd_space;
for (i = 0; i < fs->fd_count; i++) {
spiffs_fd *cur_fd = &fds[i];
if (cur_fd->file_nbr == 0) {
cur_fd->file_nbr = i + 1;
*fd = cur_fd;
return SPIFFS_OK;
}
}
return SPIFFS_ERR_OUT_OF_FILE_DESCS;
#endif
}
s32_t spiffs_fd_return(spiffs *fs, spiffs_file f) {
if (f <= 0 || f > (s16_t)fs->fd_count) {
return SPIFFS_ERR_BAD_DESCRIPTOR;
}
spiffs_fd *fds = (spiffs_fd *)fs->fd_space;
spiffs_fd *fd = &fds[f - 1];
if (fd->file_nbr == 0) {
return SPIFFS_ERR_FILE_CLOSED;
}
fd->file_nbr = 0;
#if SPIFFS_IX_MAP
fd->ix_map = 0;
#endif
return SPIFFS_OK;
}
s32_t spiffs_fd_get(spiffs *fs, spiffs_file f, spiffs_fd **fd) {
if (f <= 0 || f > (s16_t)fs->fd_count) {
return SPIFFS_ERR_BAD_DESCRIPTOR;
}
spiffs_fd *fds = (spiffs_fd *)fs->fd_space;
*fd = &fds[f - 1];
if ((*fd)->file_nbr == 0) {
return SPIFFS_ERR_FILE_CLOSED;
}
return SPIFFS_OK;
}
#if SPIFFS_TEMPORAL_FD_CACHE
void spiffs_fd_temporal_cache_rehash(
spiffs *fs,
const char *old_path,
const char *new_path) {
u32_t i;
u32_t old_hash = spiffs_hash(fs, (const u8_t *)old_path);
u32_t new_hash = spiffs_hash(fs, (const u8_t *)new_path);
spiffs_fd *fds = (spiffs_fd *)fs->fd_space;
for (i = 0; i < fs->fd_count; i++) {
spiffs_fd *cur_fd = &fds[i];
if (cur_fd->score > 0 && cur_fd->name_hash == old_hash) {
cur_fd->name_hash = new_hash;
}
}
}
#endif
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