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623 lines
30 KiB
C
623 lines
30 KiB
C
//-----------------------------------------------------------------------------
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// Borrowed initially from https://github.com/pellepl/spiffs
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// Copyright (c) 2013-2017 Peter Andersson (pelleplutt1976 at gmail.com)
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// Copyright (C) Proxmark3 contributors. See AUTHORS.md for details.
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// See LICENSE.txt for the text of the license.
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//-----------------------------------------------------------------------------
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#include "spiffs.h"
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#include "spiffs_nucleus.h"
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#if !SPIFFS_READ_ONLY
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// Erases a logical block and updates the erase counter.
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// If cache is enabled, all pages that might be cached in this block
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// is dropped.
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static s32_t spiffs_gc_erase_block(
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spiffs *fs,
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spiffs_block_ix bix) {
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s32_t res;
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SPIFFS_GC_DBG("gc: erase block "_SPIPRIbl"\n", bix);
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res = spiffs_erase_block(fs, bix);
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SPIFFS_CHECK_RES(res);
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#if SPIFFS_CACHE
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{
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u32_t i;
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for (i = 0; i < SPIFFS_PAGES_PER_BLOCK(fs); i++) {
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spiffs_cache_drop_page(fs, SPIFFS_PAGE_FOR_BLOCK(fs, bix) + i);
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}
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}
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#endif
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return res;
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}
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// Searches for blocks where all entries are deleted - if one is found,
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// the block is erased. Compared to the non-quick gc, the quick one ensures
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// that no updates are needed on existing objects on pages that are erased.
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s32_t spiffs_gc_quick(
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spiffs *fs, u16_t max_free_pages) {
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s32_t res = SPIFFS_OK;
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u32_t blocks = fs->block_count;
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spiffs_block_ix cur_block = 0;
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u32_t cur_block_addr = 0;
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int cur_entry = 0;
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spiffs_obj_id *obj_lu_buf = (spiffs_obj_id *)fs->lu_work;
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SPIFFS_GC_DBGF("gc_quick: running\n");
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#if SPIFFS_GC_STATS
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fs->stats_gc_runs++;
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#endif
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int entries_per_page = (SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(spiffs_obj_id));
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// find fully deleted blocks
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// check each block
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while (res == SPIFFS_OK && blocks--) {
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u16_t deleted_pages_in_block = 0;
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u16_t free_pages_in_block = 0;
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int obj_lookup_page = 0;
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// check each object lookup page
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while (res == SPIFFS_OK && obj_lookup_page < (int)SPIFFS_OBJ_LOOKUP_PAGES(fs)) {
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int entry_offset = obj_lookup_page * entries_per_page;
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res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
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0, cur_block_addr + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
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// check each entry
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while (res == SPIFFS_OK &&
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cur_entry - entry_offset < entries_per_page &&
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cur_entry < (int)(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs))) {
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spiffs_obj_id obj_id = obj_lu_buf[cur_entry - entry_offset];
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if (obj_id == SPIFFS_OBJ_ID_DELETED) {
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deleted_pages_in_block++;
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} else if (obj_id == SPIFFS_OBJ_ID_FREE) {
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// kill scan, go for next block
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free_pages_in_block++;
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if (free_pages_in_block > max_free_pages) {
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obj_lookup_page = SPIFFS_OBJ_LOOKUP_PAGES(fs);
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res = 1; // kill object lu loop
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break;
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}
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} else {
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// kill scan, go for next block
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obj_lookup_page = SPIFFS_OBJ_LOOKUP_PAGES(fs);
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res = 1; // kill object lu loop
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break;
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}
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cur_entry++;
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} // per entry
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obj_lookup_page++;
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} // per object lookup page
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if (res == 1) res = SPIFFS_OK;
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if (res == SPIFFS_OK &&
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deleted_pages_in_block + free_pages_in_block == SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs) &&
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free_pages_in_block <= max_free_pages) {
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// found a fully deleted block
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fs->stats_p_deleted -= deleted_pages_in_block;
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res = spiffs_gc_erase_block(fs, cur_block);
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return res;
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}
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cur_entry = 0;
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cur_block++;
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cur_block_addr += SPIFFS_CFG_LOG_BLOCK_SZ(fs);
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} // per block
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if (res == SPIFFS_OK) {
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res = SPIFFS_ERR_NO_DELETED_BLOCKS;
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}
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return res;
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}
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// Checks if garbage collecting is necessary. If so a candidate block is found,
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// cleansed and erased
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s32_t spiffs_gc_check(
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spiffs *fs,
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u32_t len) {
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s32_t res;
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s32_t free_pages =
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(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs)) * (fs->block_count - 2)
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- fs->stats_p_allocated - fs->stats_p_deleted;
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int tries = 0;
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if (fs->free_blocks > 3 &&
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(s32_t)len < free_pages * (s32_t)SPIFFS_DATA_PAGE_SIZE(fs)) {
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return SPIFFS_OK;
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}
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u32_t needed_pages = (len + SPIFFS_DATA_PAGE_SIZE(fs) - 1) / SPIFFS_DATA_PAGE_SIZE(fs);
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// if (fs->free_blocks <= 2 && (s32_t)needed_pages > free_pages) {
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// SPIFFS_GC_DBG("gc: full freeblk:"_SPIPRIi" needed:"_SPIPRIi" free:"_SPIPRIi" dele:"_SPIPRIi"\n", fs->free_blocks, needed_pages, free_pages, fs->stats_p_deleted);
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// return SPIFFS_ERR_FULL;
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// }
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if ((s32_t)needed_pages > (s32_t)(free_pages + fs->stats_p_deleted)) {
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SPIFFS_GC_DBG("gc_check: full freeblk:"_SPIPRIi" needed:"_SPIPRIi" free:"_SPIPRIi" dele:"_SPIPRIi"\n", fs->free_blocks, needed_pages, free_pages, fs->stats_p_deleted);
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return SPIFFS_ERR_FULL;
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}
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do {
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SPIFFS_GC_DBG("\ngc_check #"_SPIPRIi": run gc free_blocks:"_SPIPRIi" pfree:"_SPIPRIi" pallo:"_SPIPRIi" pdele:"_SPIPRIi" ["_SPIPRIi"] len:"_SPIPRIi" of "_SPIPRIi"\n",
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tries,
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fs->free_blocks, free_pages, fs->stats_p_allocated, fs->stats_p_deleted, (free_pages + fs->stats_p_allocated + fs->stats_p_deleted),
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len, (u32_t)(free_pages * SPIFFS_DATA_PAGE_SIZE(fs)));
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spiffs_block_ix *cands;
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int count;
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spiffs_block_ix cand;
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s32_t prev_free_pages = free_pages;
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// if the fs is crammed, ignore block age when selecting candidate - kind of a bad state
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res = spiffs_gc_find_candidate(fs, &cands, &count, free_pages <= 0);
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SPIFFS_CHECK_RES(res);
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if (count == 0) {
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SPIFFS_GC_DBGF("gc_check: no candidates, return\n");
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return (s32_t)needed_pages < free_pages ? SPIFFS_OK : SPIFFS_ERR_FULL;
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}
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#if SPIFFS_GC_STATS
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fs->stats_gc_runs++;
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#endif
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cand = cands[0];
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fs->cleaning = 1;
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//SPIFFS_GC_DBG("gcing: cleaning block "_SPIPRIi"\n", cand);
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res = spiffs_gc_clean(fs, cand);
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fs->cleaning = 0;
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if (res < 0) {
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SPIFFS_GC_DBG("gc_check: cleaning block "_SPIPRIi", result "_SPIPRIi"\n", cand, res);
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} else {
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SPIFFS_GC_DBG("gc_check: cleaning block "_SPIPRIi", result "_SPIPRIi"\n", cand, res);
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}
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SPIFFS_CHECK_RES(res);
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res = spiffs_gc_erase_page_stats(fs, cand);
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SPIFFS_CHECK_RES(res);
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res = spiffs_gc_erase_block(fs, cand);
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SPIFFS_CHECK_RES(res);
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free_pages =
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(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs)) * (fs->block_count - 2)
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- fs->stats_p_allocated - fs->stats_p_deleted;
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if (prev_free_pages <= 0 && prev_free_pages == free_pages) {
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// abort early to reduce wear, at least tried once
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SPIFFS_GC_DBGF("gc_check: early abort, no result on gc when fs crammed\n");
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break;
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}
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} while (++tries < SPIFFS_GC_MAX_RUNS && (fs->free_blocks <= 2 ||
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(s32_t)len > free_pages * (s32_t)SPIFFS_DATA_PAGE_SIZE(fs)));
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free_pages =
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(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs)) * (fs->block_count - 2)
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- fs->stats_p_allocated - fs->stats_p_deleted;
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if ((s32_t)len > free_pages * (s32_t)SPIFFS_DATA_PAGE_SIZE(fs)) {
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res = SPIFFS_ERR_FULL;
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}
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SPIFFS_GC_DBG("gc_check: finished, "_SPIPRIi" dirty, blocks "_SPIPRIi" free, "_SPIPRIi" pages free, "_SPIPRIi" tries, res "_SPIPRIi"\n",
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fs->stats_p_allocated + fs->stats_p_deleted,
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fs->free_blocks, free_pages, tries, res);
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return res;
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}
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// Updates page statistics for a block that is about to be erased
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s32_t spiffs_gc_erase_page_stats(
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spiffs *fs,
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spiffs_block_ix bix) {
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s32_t res = SPIFFS_OK;
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int obj_lookup_page = 0;
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int entries_per_page = (SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(spiffs_obj_id));
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spiffs_obj_id *obj_lu_buf = (spiffs_obj_id *)fs->lu_work;
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int cur_entry = 0;
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u32_t dele = 0;
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u32_t allo = 0;
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// check each object lookup page
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while (res == SPIFFS_OK && obj_lookup_page < (int)SPIFFS_OBJ_LOOKUP_PAGES(fs)) {
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int entry_offset = obj_lookup_page * entries_per_page;
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res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
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0, bix * SPIFFS_CFG_LOG_BLOCK_SZ(fs) + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
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// check each entry
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while (res == SPIFFS_OK &&
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cur_entry - entry_offset < entries_per_page && cur_entry < (int)(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs))) {
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spiffs_obj_id obj_id = obj_lu_buf[cur_entry - entry_offset];
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if (obj_id == SPIFFS_OBJ_ID_FREE) {
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} else if (obj_id == SPIFFS_OBJ_ID_DELETED) {
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dele++;
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} else {
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allo++;
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}
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cur_entry++;
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} // per entry
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obj_lookup_page++;
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} // per object lookup page
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SPIFFS_GC_DBG("gc_check: wipe pallo:"_SPIPRIi" pdele:"_SPIPRIi"\n", allo, dele);
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fs->stats_p_allocated -= allo;
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fs->stats_p_deleted -= dele;
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return res;
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}
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// Finds block candidates to erase
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s32_t spiffs_gc_find_candidate(
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spiffs *fs,
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spiffs_block_ix **block_candidates,
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int *candidate_count,
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char fs_crammed) {
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s32_t res = SPIFFS_OK;
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u32_t blocks = fs->block_count;
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spiffs_block_ix cur_block = 0;
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u32_t cur_block_addr = 0;
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spiffs_obj_id *obj_lu_buf = (spiffs_obj_id *)fs->lu_work;
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int cur_entry = 0;
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// using fs->work area as sorted candidate memory, (spiffs_block_ix)cand_bix/(s32_t)score
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int max_candidates = MIN(fs->block_count, (SPIFFS_CFG_LOG_PAGE_SZ(fs) - 8) / (sizeof(spiffs_block_ix) + sizeof(s32_t)));
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*candidate_count = 0;
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memset(fs->work, 0xff, SPIFFS_CFG_LOG_PAGE_SZ(fs));
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// divide up work area into block indices and scores
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spiffs_block_ix *cand_blocks = (spiffs_block_ix *)fs->work;
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s32_t *cand_scores = (s32_t *)(fs->work + max_candidates * sizeof(spiffs_block_ix));
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// align cand_scores on s32_t boundary
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cand_scores = (s32_t *)(((intptr_t)cand_scores + sizeof(intptr_t) - 1) & ~(sizeof(intptr_t) - 1));
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*block_candidates = cand_blocks;
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int entries_per_page = (SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(spiffs_obj_id));
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// check each block
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while (res == SPIFFS_OK && blocks--) {
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u16_t deleted_pages_in_block = 0;
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u16_t used_pages_in_block = 0;
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int obj_lookup_page = 0;
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// check each object lookup page
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while (res == SPIFFS_OK && obj_lookup_page < (int)SPIFFS_OBJ_LOOKUP_PAGES(fs)) {
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int entry_offset = obj_lookup_page * entries_per_page;
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res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
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0, cur_block_addr + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
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// check each entry
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while (res == SPIFFS_OK &&
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cur_entry - entry_offset < entries_per_page &&
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cur_entry < (int)(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs))) {
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spiffs_obj_id obj_id = obj_lu_buf[cur_entry - entry_offset];
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if (obj_id == SPIFFS_OBJ_ID_FREE) {
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// when a free entry is encountered, scan logic ensures that all following entries are free also
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res = 1; // kill object lu loop
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break;
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} else if (obj_id == SPIFFS_OBJ_ID_DELETED) {
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deleted_pages_in_block++;
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} else {
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used_pages_in_block++;
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}
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cur_entry++;
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} // per entry
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obj_lookup_page++;
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} // per object lookup page
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if (res == 1) res = SPIFFS_OK;
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// calculate score and insert into candidate table
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// stoneage sort, but probably not so many blocks
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if (res == SPIFFS_OK /*&& deleted_pages_in_block > 0*/) {
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// read erase count
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spiffs_obj_id erase_count;
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res = _spiffs_rd(fs, SPIFFS_OP_C_READ | SPIFFS_OP_T_OBJ_LU2, 0,
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SPIFFS_ERASE_COUNT_PADDR(fs, cur_block),
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sizeof(spiffs_obj_id), (u8_t *)&erase_count);
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SPIFFS_CHECK_RES(res);
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spiffs_obj_id erase_age;
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if (fs->max_erase_count > erase_count) {
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erase_age = fs->max_erase_count - erase_count;
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} else {
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erase_age = SPIFFS_OBJ_ID_FREE - (erase_count - fs->max_erase_count);
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}
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s32_t score =
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deleted_pages_in_block * SPIFFS_GC_HEUR_W_DELET +
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used_pages_in_block * SPIFFS_GC_HEUR_W_USED +
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erase_age * (fs_crammed ? 0 : SPIFFS_GC_HEUR_W_ERASE_AGE);
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int cand_ix = 0;
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SPIFFS_GC_DBG("gc_check: bix:"_SPIPRIbl" del:"_SPIPRIi" use:"_SPIPRIi" score:"_SPIPRIi"\n", cur_block, deleted_pages_in_block, used_pages_in_block, score);
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while (cand_ix < max_candidates) {
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if (cand_blocks[cand_ix] == (spiffs_block_ix) - 1) {
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cand_blocks[cand_ix] = cur_block;
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cand_scores[cand_ix] = score;
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break;
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} else if (cand_scores[cand_ix] < score) {
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int reorder_cand_ix = max_candidates - 2;
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while (reorder_cand_ix >= cand_ix) {
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cand_blocks[reorder_cand_ix + 1] = cand_blocks[reorder_cand_ix];
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cand_scores[reorder_cand_ix + 1] = cand_scores[reorder_cand_ix];
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reorder_cand_ix--;
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}
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cand_blocks[cand_ix] = cur_block;
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cand_scores[cand_ix] = score;
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break;
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}
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cand_ix++;
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}
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(*candidate_count)++;
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}
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cur_entry = 0;
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cur_block++;
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cur_block_addr += SPIFFS_CFG_LOG_BLOCK_SZ(fs);
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} // per block
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return res;
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}
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typedef enum {
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FIND_OBJ_DATA,
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MOVE_OBJ_DATA,
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MOVE_OBJ_IX,
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FINISHED
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} spiffs_gc_clean_state;
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typedef struct {
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spiffs_gc_clean_state state;
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spiffs_obj_id cur_obj_id;
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spiffs_span_ix cur_objix_spix;
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spiffs_page_ix cur_objix_pix;
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spiffs_page_ix cur_data_pix;
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int stored_scan_entry_index;
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u8_t obj_id_found;
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} spiffs_gc;
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// Empties given block by moving all data into free pages of another block
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// Strategy:
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// loop:
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// scan object lookup for object data pages
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// for first found id, check spix and load corresponding object index page to memory
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// push object scan lookup entry index
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// rescan object lookup, find data pages with same id and referenced by same object index
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// move data page, update object index in memory
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// when reached end of lookup, store updated object index
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// pop object scan lookup entry index
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// repeat loop until end of object lookup
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// scan object lookup again for remaining object index pages, move to new page in other block
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//
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s32_t spiffs_gc_clean(spiffs *fs, spiffs_block_ix bix) {
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s32_t res = SPIFFS_OK;
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const int entries_per_page = (SPIFFS_CFG_LOG_PAGE_SZ(fs) / sizeof(spiffs_obj_id));
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// this is the global localizer being pushed and popped
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int cur_entry = 0;
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spiffs_obj_id *obj_lu_buf = (spiffs_obj_id *)fs->lu_work;
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spiffs_gc gc; // our stack frame/state
|
|
spiffs_page_ix cur_pix = 0;
|
|
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_GC_DBG("gc_clean: cleaning block "_SPIPRIbl"\n", bix);
|
|
|
|
memset(&gc, 0, sizeof(spiffs_gc));
|
|
gc.state = FIND_OBJ_DATA;
|
|
|
|
if (fs->free_cursor_block_ix == bix) {
|
|
// move free cursor to next block, cannot use free pages from the block we want to clean
|
|
fs->free_cursor_block_ix = (bix + 1) % fs->block_count;
|
|
fs->free_cursor_obj_lu_entry = 0;
|
|
SPIFFS_GC_DBG("gc_clean: move free cursor to block "_SPIPRIbl"\n", fs->free_cursor_block_ix);
|
|
}
|
|
|
|
while (res == SPIFFS_OK && gc.state != FINISHED) {
|
|
SPIFFS_GC_DBG("gc_clean: state = "_SPIPRIi" entry:"_SPIPRIi"\n", gc.state, cur_entry);
|
|
gc.obj_id_found = 0; // reset (to no found data page)
|
|
|
|
// scan through lookup pages
|
|
int obj_lookup_page = cur_entry / entries_per_page;
|
|
u8_t scan = 1;
|
|
// check each object lookup page
|
|
while (scan && 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, bix * SPIFFS_CFG_LOG_BLOCK_SZ(fs) + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page),
|
|
SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
|
|
// check each object lookup entry
|
|
while (scan && res == SPIFFS_OK &&
|
|
cur_entry - entry_offset < entries_per_page && cur_entry < (int)(SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs))) {
|
|
spiffs_obj_id obj_id = obj_lu_buf[cur_entry - entry_offset];
|
|
cur_pix = SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, bix, cur_entry);
|
|
|
|
// act upon object id depending on gc state
|
|
switch (gc.state) {
|
|
case FIND_OBJ_DATA:
|
|
// find a data page
|
|
if (obj_id != SPIFFS_OBJ_ID_DELETED && obj_id != SPIFFS_OBJ_ID_FREE &&
|
|
((obj_id & SPIFFS_OBJ_ID_IX_FLAG) == 0)) {
|
|
// found a data page, stop scanning and handle in switch case below
|
|
SPIFFS_GC_DBG("gc_clean: FIND_DATA state:"_SPIPRIi" - found obj id "_SPIPRIid"\n", gc.state, obj_id);
|
|
gc.obj_id_found = 1;
|
|
gc.cur_obj_id = obj_id;
|
|
gc.cur_data_pix = cur_pix;
|
|
scan = 0;
|
|
}
|
|
break;
|
|
case MOVE_OBJ_DATA:
|
|
// evacuate found data pages for corresponding object index we have in memory,
|
|
// update memory representation
|
|
if (obj_id == gc.cur_obj_id) {
|
|
spiffs_page_header p_hdr;
|
|
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
|
|
0, SPIFFS_PAGE_TO_PADDR(fs, cur_pix), sizeof(spiffs_page_header), (u8_t *)&p_hdr);
|
|
SPIFFS_CHECK_RES(res);
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA found data page "_SPIPRIid":"_SPIPRIsp" @ "_SPIPRIpg"\n", gc.cur_obj_id, p_hdr.span_ix, cur_pix);
|
|
if (SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, p_hdr.span_ix) != gc.cur_objix_spix) {
|
|
SPIFFS_GC_DBGF("gc_clean: MOVE_DATA no objix spix match, take in another run\n");
|
|
} else {
|
|
spiffs_page_ix new_data_pix;
|
|
if (p_hdr.flags & SPIFFS_PH_FLAG_DELET) {
|
|
// move page
|
|
res = spiffs_page_move(fs, 0, 0, obj_id, &p_hdr, cur_pix, &new_data_pix);
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA move objix "_SPIPRIid":"_SPIPRIsp" page "_SPIPRIpg" to "_SPIPRIpg"\n", gc.cur_obj_id, p_hdr.span_ix, cur_pix, new_data_pix);
|
|
SPIFFS_CHECK_RES(res);
|
|
// move wipes obj_lu, reload it
|
|
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
|
|
0, bix * SPIFFS_CFG_LOG_BLOCK_SZ(fs) + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page),
|
|
SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
|
|
SPIFFS_CHECK_RES(res);
|
|
} else {
|
|
// page is deleted but not deleted in lookup, scrap it -
|
|
// might seem unnecessary as we will erase this block, but
|
|
// we might get aborted
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA wipe objix "_SPIPRIid":"_SPIPRIsp" page "_SPIPRIpg"\n", obj_id, p_hdr.span_ix, cur_pix);
|
|
res = spiffs_page_delete(fs, cur_pix);
|
|
SPIFFS_CHECK_RES(res);
|
|
new_data_pix = SPIFFS_OBJ_ID_FREE;
|
|
}
|
|
// update memory representation of object index page with new data page
|
|
if (gc.cur_objix_spix == 0) {
|
|
// update object index header page
|
|
((spiffs_page_ix *)((u8_t *)objix_hdr + sizeof(spiffs_page_object_ix_header)))[p_hdr.span_ix] = new_data_pix;
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA wrote page "_SPIPRIpg" to objix_hdr entry "_SPIPRIsp" in mem\n", new_data_pix, (spiffs_span_ix)SPIFFS_OBJ_IX_ENTRY(fs, p_hdr.span_ix));
|
|
} else {
|
|
// update object index page
|
|
((spiffs_page_ix *)((u8_t *)objix + sizeof(spiffs_page_object_ix)))[SPIFFS_OBJ_IX_ENTRY(fs, p_hdr.span_ix)] = new_data_pix;
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA wrote page "_SPIPRIpg" to objix entry "_SPIPRIsp" in mem\n", new_data_pix, (spiffs_span_ix)SPIFFS_OBJ_IX_ENTRY(fs, p_hdr.span_ix));
|
|
}
|
|
}
|
|
}
|
|
break;
|
|
case MOVE_OBJ_IX:
|
|
// find and evacuate object index pages
|
|
if (obj_id != SPIFFS_OBJ_ID_DELETED && obj_id != SPIFFS_OBJ_ID_FREE &&
|
|
(obj_id & SPIFFS_OBJ_ID_IX_FLAG)) {
|
|
// found an index object id
|
|
spiffs_page_header p_hdr;
|
|
spiffs_page_ix new_pix;
|
|
// load header
|
|
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
|
|
0, SPIFFS_PAGE_TO_PADDR(fs, cur_pix), sizeof(spiffs_page_header), (u8_t *)&p_hdr);
|
|
SPIFFS_CHECK_RES(res);
|
|
if (p_hdr.flags & SPIFFS_PH_FLAG_DELET) {
|
|
// move page
|
|
res = spiffs_page_move(fs, 0, 0, obj_id, &p_hdr, cur_pix, &new_pix);
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_OBJIX move objix "_SPIPRIid":"_SPIPRIsp" page "_SPIPRIpg" to "_SPIPRIpg"\n", obj_id, p_hdr.span_ix, cur_pix, new_pix);
|
|
SPIFFS_CHECK_RES(res);
|
|
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)&p_hdr,
|
|
SPIFFS_EV_IX_MOV, obj_id, p_hdr.span_ix, new_pix, 0);
|
|
// move wipes obj_lu, reload it
|
|
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU | SPIFFS_OP_C_READ,
|
|
0, bix * SPIFFS_CFG_LOG_BLOCK_SZ(fs) + SPIFFS_PAGE_TO_PADDR(fs, obj_lookup_page),
|
|
SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->lu_work);
|
|
SPIFFS_CHECK_RES(res);
|
|
} else {
|
|
// page is deleted but not deleted in lookup, scrap it -
|
|
// might seem unnecessary as we will erase this block, but
|
|
// we might get aborted
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_OBJIX wipe objix "_SPIPRIid":"_SPIPRIsp" page "_SPIPRIpg"\n", obj_id, p_hdr.span_ix, cur_pix);
|
|
res = spiffs_page_delete(fs, cur_pix);
|
|
if (res == SPIFFS_OK) {
|
|
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)0,
|
|
SPIFFS_EV_IX_DEL, obj_id, p_hdr.span_ix, cur_pix, 0);
|
|
}
|
|
}
|
|
SPIFFS_CHECK_RES(res);
|
|
}
|
|
break;
|
|
default:
|
|
scan = 0;
|
|
break;
|
|
} // switch gc state
|
|
cur_entry++;
|
|
} // per entry
|
|
obj_lookup_page++; // no need to check scan variable here, obj_lookup_page is set in start of loop
|
|
} // per object lookup page
|
|
if (res != SPIFFS_OK) break;
|
|
|
|
// state finalization and switch
|
|
switch (gc.state) {
|
|
case FIND_OBJ_DATA:
|
|
if (gc.obj_id_found) {
|
|
// handle found data page -
|
|
// find out corresponding obj ix page and load it to memory
|
|
spiffs_page_header p_hdr;
|
|
spiffs_page_ix objix_pix;
|
|
gc.stored_scan_entry_index = cur_entry; // push cursor
|
|
cur_entry = 0; // restart scan from start
|
|
gc.state = MOVE_OBJ_DATA;
|
|
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
|
|
0, SPIFFS_PAGE_TO_PADDR(fs, cur_pix), sizeof(spiffs_page_header), (u8_t *)&p_hdr);
|
|
SPIFFS_CHECK_RES(res);
|
|
gc.cur_objix_spix = SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, p_hdr.span_ix);
|
|
SPIFFS_GC_DBG("gc_clean: FIND_DATA find objix span_ix:"_SPIPRIsp"\n", gc.cur_objix_spix);
|
|
res = spiffs_obj_lu_find_id_and_span(fs, gc.cur_obj_id | SPIFFS_OBJ_ID_IX_FLAG, gc.cur_objix_spix, 0, &objix_pix);
|
|
if (res == SPIFFS_ERR_NOT_FOUND) {
|
|
// on borked systems we might get an ERR_NOT_FOUND here -
|
|
// this is handled by simply deleting the page as it is not referenced
|
|
// from anywhere
|
|
SPIFFS_GC_DBG("gc_clean: FIND_OBJ_DATA objix not found! Wipe page "_SPIPRIpg"\n", gc.cur_data_pix);
|
|
res = spiffs_page_delete(fs, gc.cur_data_pix);
|
|
SPIFFS_CHECK_RES(res);
|
|
// then we restore states and continue scanning for data pages
|
|
cur_entry = gc.stored_scan_entry_index; // pop cursor
|
|
gc.state = FIND_OBJ_DATA;
|
|
break; // done
|
|
}
|
|
SPIFFS_CHECK_RES(res);
|
|
SPIFFS_GC_DBG("gc_clean: FIND_DATA found object index at page "_SPIPRIpg"\n", objix_pix);
|
|
res = _spiffs_rd(fs, SPIFFS_OP_T_OBJ_LU2 | SPIFFS_OP_C_READ,
|
|
0, SPIFFS_PAGE_TO_PADDR(fs, objix_pix), SPIFFS_CFG_LOG_PAGE_SZ(fs), fs->work);
|
|
SPIFFS_CHECK_RES(res);
|
|
// cannot allow a gc if the presumed index in fact is no index, a
|
|
// check must run or lot of data may be lost
|
|
SPIFFS_VALIDATE_OBJIX(objix->p_hdr, gc.cur_obj_id | SPIFFS_OBJ_ID_IX_FLAG, gc.cur_objix_spix);
|
|
gc.cur_objix_pix = objix_pix;
|
|
} else {
|
|
// no more data pages found, passed thru all block, start evacuating object indices
|
|
gc.state = MOVE_OBJ_IX;
|
|
cur_entry = 0; // restart entry scan index
|
|
}
|
|
break;
|
|
case MOVE_OBJ_DATA: {
|
|
// store modified objix (hdr) page residing in memory now that all
|
|
// data pages belonging to this object index and residing in the block
|
|
// we want to evacuate
|
|
spiffs_page_ix new_objix_pix;
|
|
gc.state = FIND_OBJ_DATA;
|
|
cur_entry = gc.stored_scan_entry_index; // pop cursor
|
|
if (gc.cur_objix_spix == 0) {
|
|
// store object index header page
|
|
res = spiffs_object_update_index_hdr(fs, 0, gc.cur_obj_id | SPIFFS_OBJ_ID_IX_FLAG, gc.cur_objix_pix, fs->work, 0, 0, 0, &new_objix_pix);
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA store modified objix_hdr page, "_SPIPRIpg":"_SPIPRIsp"\n", new_objix_pix, 0);
|
|
SPIFFS_CHECK_RES(res);
|
|
} else {
|
|
// store object index page
|
|
res = spiffs_page_move(fs, 0, fs->work, gc.cur_obj_id | SPIFFS_OBJ_ID_IX_FLAG, 0, gc.cur_objix_pix, &new_objix_pix);
|
|
SPIFFS_GC_DBG("gc_clean: MOVE_DATA store modified objix page, "_SPIPRIpg":"_SPIPRIsp"\n", new_objix_pix, objix->p_hdr.span_ix);
|
|
SPIFFS_CHECK_RES(res);
|
|
spiffs_cb_object_event(fs, (spiffs_page_object_ix *)fs->work,
|
|
SPIFFS_EV_IX_UPD, gc.cur_obj_id, objix->p_hdr.span_ix, new_objix_pix, 0);
|
|
}
|
|
}
|
|
break;
|
|
case MOVE_OBJ_IX:
|
|
// scanned thru all block, no more object indices found - our work here is done
|
|
gc.state = FINISHED;
|
|
break;
|
|
default:
|
|
cur_entry = 0;
|
|
break;
|
|
} // switch gc.state
|
|
SPIFFS_GC_DBG("gc_clean: state-> "_SPIPRIi"\n", gc.state);
|
|
} // while state != FINISHED
|
|
|
|
|
|
return res;
|
|
}
|
|
|
|
#endif // !SPIFFS_READ_ONLY
|