forked from Imagelibrary/littlefs
3f4f85986e
Before this was available implicitly by supporting both rambd and filebd as backends, but now that testbd is a bit more complicated and no longer maps directly to a block-device, this needs to be explicitly supported.
506 lines
15 KiB
C
506 lines
15 KiB
C
/*
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* Testing block device, wraps filebd and rambd while providing a bunch
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* of hooks for testing littlefs in various conditions.
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*
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* Copyright (c) 2022, The littlefs authors.
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* Copyright (c) 2017, Arm Limited. All rights reserved.
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* SPDX-License-Identifier: BSD-3-Clause
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*/
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#include "bd/lfs_testbd.h"
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#include <stdlib.h>
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#include <fcntl.h>
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#include <unistd.h>
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#include <errno.h>
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#ifdef _WIN32
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#include <windows.h>
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#endif
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// access to lazily-allocated/copy-on-write blocks
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//
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// Note we can only modify a block if we have exclusive access to it (rc == 1)
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//
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// TODO
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__attribute__((unused))
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static void lfs_testbd_incblock(lfs_testbd_t *bd, lfs_block_t block) {
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if (bd->blocks[block]) {
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bd->blocks[block]->rc += 1;
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}
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}
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static void lfs_testbd_decblock(lfs_testbd_t *bd, lfs_block_t block) {
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if (bd->blocks[block]) {
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bd->blocks[block]->rc -= 1;
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if (bd->blocks[block]->rc == 0) {
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free(bd->blocks[block]);
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bd->blocks[block] = NULL;
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}
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}
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}
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static const lfs_testbd_block_t *lfs_testbd_getblock(lfs_testbd_t *bd,
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lfs_block_t block) {
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return bd->blocks[block];
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}
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static lfs_testbd_block_t *lfs_testbd_mutblock(lfs_testbd_t *bd,
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lfs_block_t block, lfs_size_t block_size) {
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if (bd->blocks[block] && bd->blocks[block]->rc == 1) {
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// rc == 1? can modify
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return bd->blocks[block];
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} else if (bd->blocks[block]) {
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// rc > 1? need to create a copy
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lfs_testbd_block_t *b = malloc(
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sizeof(lfs_testbd_block_t) + block_size);
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if (!b) {
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return NULL;
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}
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memcpy(b, bd->blocks[block], sizeof(lfs_testbd_block_t) + block_size);
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b->rc = 1;
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lfs_testbd_decblock(bd, block);
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bd->blocks[block] = b;
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return b;
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} else {
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// no block? need to allocate
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lfs_testbd_block_t *b = malloc(
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sizeof(lfs_testbd_block_t) + block_size);
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if (!b) {
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return NULL;
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}
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b->rc = 1;
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b->wear = 0;
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// zero for consistency
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memset(b->data,
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(bd->cfg->erase_value != -1) ? bd->cfg->erase_value : 0,
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block_size);
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bd->blocks[block] = b;
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return b;
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}
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}
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// testbd create/destroy
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int lfs_testbd_createcfg(const struct lfs_config *cfg, const char *path,
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const struct lfs_testbd_config *bdcfg) {
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LFS_TESTBD_TRACE("lfs_testbd_createcfg(%p {.context=%p, "
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".read=%p, .prog=%p, .erase=%p, .sync=%p, "
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".read_size=%"PRIu32", .prog_size=%"PRIu32", "
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".block_size=%"PRIu32", .block_count=%"PRIu32"}, "
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"\"%s\", "
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"%p {.erase_value=%"PRId32", .erase_cycles=%"PRIu32", "
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".badblock_behavior=%"PRIu8", .power_cycles=%"PRIu32", "
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".powerloss_behavior=%"PRIu8", .powerloss_cb=%p, "
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".powerloss_data=%p, .track_branches=%d})",
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(void*)cfg, cfg->context,
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(void*)(uintptr_t)cfg->read, (void*)(uintptr_t)cfg->prog,
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(void*)(uintptr_t)cfg->erase, (void*)(uintptr_t)cfg->sync,
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cfg->read_size, cfg->prog_size, cfg->block_size, cfg->block_count,
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path, (void*)bdcfg, bdcfg->erase_value, bdcfg->erase_cycles,
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bdcfg->badblock_behavior, bdcfg->power_cycles,
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bdcfg->powerloss_behavior, (void*)(uintptr_t)bdcfg->powerloss_cb,
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bdcfg->powerloss_data, bdcfg->track_branches);
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lfs_testbd_t *bd = cfg->context;
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bd->cfg = bdcfg;
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// allocate our block array, all blocks start as uninitialized
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bd->blocks = malloc(cfg->block_count * sizeof(lfs_testbd_block_t*));
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if (!bd->blocks) {
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LFS_TESTBD_TRACE("lfs_testbd_createcfg -> %d", LFS_ERR_NOMEM);
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return LFS_ERR_NOMEM;
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}
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memset(bd->blocks, 0, cfg->block_count * sizeof(lfs_testbd_block_t*));
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// setup testing things
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bd->power_cycles = bd->cfg->power_cycles;
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bd->disk_fd = -1;
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bd->disk_scratch_block = NULL;
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bd->branches = NULL;
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bd->branch_capacity = 0;
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bd->branch_count = 0;
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if (bd->cfg->disk_path) {
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#ifdef _WIN32
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bd->disk_fd = open(bd->cfg->disk_path,
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O_RDWR | O_CREAT | O_BINARY, 0666);
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#else
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bd->disk_fd = open(bd->cfg->disk_path,
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O_RDWR | O_CREAT, 0666);
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#endif
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if (bd->disk_fd < 0) {
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int err = -errno;
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LFS_TESTBD_TRACE("lfs_testbd_create -> %d", err);
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return err;
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}
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// if we're emulating erase values, we can keep a block around in
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// memory of just the erase state to speed up emulated erases
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if (bd->cfg->erase_value != -1) {
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bd->disk_scratch_block = malloc(cfg->block_size);
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if (!bd->disk_scratch_block) {
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LFS_TESTBD_TRACE("lfs_testbd_createcfg -> %d", LFS_ERR_NOMEM);
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return LFS_ERR_NOMEM;
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}
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memset(bd->disk_scratch_block,
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bd->cfg->erase_value,
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cfg->block_size);
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}
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}
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LFS_TESTBD_TRACE("lfs_testbd_createcfg -> %d", 0);
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return 0;
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}
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int lfs_testbd_create(const struct lfs_config *cfg, const char *path) {
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LFS_TESTBD_TRACE("lfs_testbd_create(%p {.context=%p, "
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".read=%p, .prog=%p, .erase=%p, .sync=%p, "
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".read_size=%"PRIu32", .prog_size=%"PRIu32", "
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".block_size=%"PRIu32", .block_count=%"PRIu32"}, "
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"\"%s\")",
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(void*)cfg, cfg->context,
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(void*)(uintptr_t)cfg->read, (void*)(uintptr_t)cfg->prog,
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(void*)(uintptr_t)cfg->erase, (void*)(uintptr_t)cfg->sync,
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cfg->read_size, cfg->prog_size, cfg->block_size, cfg->block_count,
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path);
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static const struct lfs_testbd_config defaults = {.erase_value=-1};
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int err = lfs_testbd_createcfg(cfg, path, &defaults);
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LFS_TESTBD_TRACE("lfs_testbd_create -> %d", err);
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return err;
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}
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int lfs_testbd_destroy(const struct lfs_config *cfg) {
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LFS_TESTBD_TRACE("lfs_testbd_destroy(%p)", (void*)cfg);
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lfs_testbd_t *bd = cfg->context;
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// decrement reference counts
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for (lfs_block_t i = 0; i < cfg->block_count; i++) {
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lfs_testbd_decblock(bd, i);
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}
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// free memory
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free(bd->blocks);
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free(bd->branches);
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if (bd->disk_fd >= 0) {
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close(bd->disk_fd);
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free(bd->disk_scratch_block);
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}
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LFS_TESTBD_TRACE("lfs_testbd_destroy -> %d", 0);
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return 0;
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}
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// block device API
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int lfs_testbd_read(const struct lfs_config *cfg, lfs_block_t block,
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lfs_off_t off, void *buffer, lfs_size_t size) {
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LFS_TESTBD_TRACE("lfs_testbd_read(%p, "
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"0x%"PRIx32", %"PRIu32", %p, %"PRIu32")",
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(void*)cfg, block, off, buffer, size);
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lfs_testbd_t *bd = cfg->context;
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// check if read is valid
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LFS_ASSERT(block < cfg->block_count);
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LFS_ASSERT(off % cfg->read_size == 0);
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LFS_ASSERT(size % cfg->read_size == 0);
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LFS_ASSERT(off+size <= cfg->block_size);
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// get the block
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const lfs_testbd_block_t *b = lfs_testbd_getblock(bd, block);
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if (b) {
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// block bad?
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if (bd->cfg->erase_cycles && b->wear >= bd->cfg->erase_cycles &&
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bd->cfg->badblock_behavior == LFS_TESTBD_BADBLOCK_READERROR) {
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LFS_TESTBD_TRACE("lfs_testbd_read -> %d", LFS_ERR_CORRUPT);
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return LFS_ERR_CORRUPT;
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}
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// read data
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memcpy(buffer, &b->data[off], size);
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} else {
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// zero for consistency
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memset(buffer,
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(bd->cfg->erase_value != -1) ? bd->cfg->erase_value : 0,
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size);
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}
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LFS_TESTBD_TRACE("lfs_testbd_read -> %d", 0);
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return 0;
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}
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int lfs_testbd_prog(const struct lfs_config *cfg, lfs_block_t block,
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lfs_off_t off, const void *buffer, lfs_size_t size) {
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LFS_TESTBD_TRACE("lfs_testbd_prog(%p, "
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"0x%"PRIx32", %"PRIu32", %p, %"PRIu32")",
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(void*)cfg, block, off, buffer, size);
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lfs_testbd_t *bd = cfg->context;
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// check if write is valid
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LFS_ASSERT(block < cfg->block_count);
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LFS_ASSERT(off % cfg->prog_size == 0);
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LFS_ASSERT(size % cfg->prog_size == 0);
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LFS_ASSERT(off+size <= cfg->block_size);
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// get the block
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lfs_testbd_block_t *b = lfs_testbd_mutblock(bd, block, cfg->block_size);
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if (!b) {
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", LFS_ERR_NOMEM);
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return LFS_ERR_NOMEM;
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}
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// block bad?
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if (bd->cfg->erase_cycles && b->wear >= bd->cfg->erase_cycles) {
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if (bd->cfg->badblock_behavior ==
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LFS_TESTBD_BADBLOCK_PROGERROR) {
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", LFS_ERR_CORRUPT);
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return LFS_ERR_CORRUPT;
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} else if (bd->cfg->badblock_behavior ==
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LFS_TESTBD_BADBLOCK_PROGNOOP ||
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bd->cfg->badblock_behavior ==
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LFS_TESTBD_BADBLOCK_ERASENOOP) {
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", 0);
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return 0;
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}
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}
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// were we erased properly?
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if (bd->cfg->erase_value != -1) {
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for (lfs_off_t i = 0; i < size; i++) {
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LFS_ASSERT(b->data[off+i] == bd->cfg->erase_value);
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}
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}
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// prog data
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memcpy(&b->data[off], buffer, size);
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// mirror to disk file?
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if (bd->disk_fd >= 0) {
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off_t res1 = lseek(bd->disk_fd,
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(off_t)block*cfg->block_size + (off_t)off,
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SEEK_SET);
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if (res1 < 0) {
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int err = -errno;
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", err);
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return err;
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}
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ssize_t res2 = write(bd->disk_fd, buffer, size);
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if (res2 < 0) {
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int err = -errno;
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", err);
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return err;
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}
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}
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// lose power?
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if (bd->power_cycles > 0) {
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bd->power_cycles -= 1;
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if (bd->power_cycles == 0) {
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// simulate power loss
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bd->cfg->powerloss_cb(bd->cfg->powerloss_data);
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}
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}
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// // track power-loss branch?
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// if (bd->cfg->track_branches) {
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// int err = lfs_testbd_trackbranch(bd);
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// if (err) {
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// LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", err);
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// return err;
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// }
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// }
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", 0);
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return 0;
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}
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int lfs_testbd_erase(const struct lfs_config *cfg, lfs_block_t block) {
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LFS_TESTBD_TRACE("lfs_testbd_erase(%p, 0x%"PRIx32")", (void*)cfg, block);
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lfs_testbd_t *bd = cfg->context;
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// check if erase is valid
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LFS_ASSERT(block < cfg->block_count);
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// get the block
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lfs_testbd_block_t *b = lfs_testbd_mutblock(bd, block, cfg->block_size);
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if (!b) {
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", LFS_ERR_NOMEM);
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return LFS_ERR_NOMEM;
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}
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// block bad?
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if (bd->cfg->erase_cycles) {
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if (b->wear >= bd->cfg->erase_cycles) {
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if (bd->cfg->badblock_behavior ==
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LFS_TESTBD_BADBLOCK_ERASEERROR) {
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LFS_TESTBD_TRACE("lfs_testbd_erase -> %d", LFS_ERR_CORRUPT);
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return LFS_ERR_CORRUPT;
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} else if (bd->cfg->badblock_behavior ==
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LFS_TESTBD_BADBLOCK_ERASENOOP) {
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LFS_TESTBD_TRACE("lfs_testbd_erase -> %d", 0);
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return 0;
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}
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} else {
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// mark wear
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b->wear += 1;
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}
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}
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// emulate an erase value?
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if (bd->cfg->erase_value != -1) {
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memset(b->data, bd->cfg->erase_value, cfg->block_size);
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// mirror to disk file?
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if (bd->disk_fd >= 0) {
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off_t res1 = lseek(bd->disk_fd,
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(off_t)block*cfg->block_size,
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SEEK_SET);
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if (res1 < 0) {
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int err = -errno;
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LFS_TESTBD_TRACE("lfs_testbd_erase -> %d", err);
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return err;
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}
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ssize_t res2 = write(bd->disk_fd,
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bd->disk_scratch_block,
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cfg->block_size);
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if (res2 < 0) {
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int err = -errno;
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LFS_TESTBD_TRACE("lfs_testbd_erase -> %d", err);
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return err;
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}
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}
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}
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// lose power?
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if (bd->power_cycles > 0) {
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bd->power_cycles -= 1;
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if (bd->power_cycles == 0) {
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// simulate power loss
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bd->cfg->powerloss_cb(bd->cfg->powerloss_data);
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}
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}
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// // track power-loss branch?
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// if (bd->cfg->track_branches) {
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// int err = lfs_testbd_trackbranch(bd);
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// if (err) {
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// LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", err);
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// return err;
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// }
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// }
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LFS_TESTBD_TRACE("lfs_testbd_prog -> %d", 0);
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return 0;
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}
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int lfs_testbd_sync(const struct lfs_config *cfg) {
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LFS_TESTBD_TRACE("lfs_testbd_sync(%p)", (void*)cfg);
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// do nothing
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(void)cfg;
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LFS_TESTBD_TRACE("lfs_testbd_sync -> %d", 0);
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return 0;
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}
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// simulated wear operations
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lfs_testbd_swear_t lfs_testbd_getwear(const struct lfs_config *cfg,
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lfs_block_t block) {
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LFS_TESTBD_TRACE("lfs_testbd_getwear(%p, %"PRIu32")", (void*)cfg, block);
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lfs_testbd_t *bd = cfg->context;
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// check if block is valid
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LFS_ASSERT(block < cfg->block_count);
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// get the wear
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lfs_testbd_wear_t wear;
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const lfs_testbd_block_t *b = lfs_testbd_getblock(bd, block);
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if (b) {
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wear = b->wear;
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} else {
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wear = 0;
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}
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LFS_TESTBD_TRACE("lfs_testbd_getwear -> %"PRIu32, wear);
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return wear;
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}
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int lfs_testbd_setwear(const struct lfs_config *cfg,
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lfs_block_t block, lfs_testbd_wear_t wear) {
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LFS_TESTBD_TRACE("lfs_testbd_setwear(%p, %"PRIu32")", (void*)cfg, block);
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lfs_testbd_t *bd = cfg->context;
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// check if block is valid
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LFS_ASSERT(block < cfg->block_count);
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// set the wear
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lfs_testbd_block_t *b = lfs_testbd_mutblock(bd, block, cfg->block_size);
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if (!b) {
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LFS_TESTBD_TRACE("lfs_testbd_setwear -> %"PRIu32, LFS_ERR_NOMEM);
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return LFS_ERR_NOMEM;
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}
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b->wear = wear;
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LFS_TESTBD_TRACE("lfs_testbd_setwear -> %"PRIu32, 0);
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return 0;
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}
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lfs_testbd_spowercycles_t lfs_testbd_getpowercycles(
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const struct lfs_config *cfg) {
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LFS_TESTBD_TRACE("lfs_testbd_getpowercycles(%p)", (void*)cfg);
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lfs_testbd_t *bd = cfg->context;
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|
LFS_TESTBD_TRACE("lfs_testbd_getpowercycles -> %"PRIi32, bd->power_cycles);
|
|
return bd->power_cycles;
|
|
}
|
|
|
|
int lfs_testbd_setpowercycles(const struct lfs_config *cfg,
|
|
lfs_testbd_powercycles_t power_cycles) {
|
|
LFS_TESTBD_TRACE("lfs_testbd_setpowercycles(%p, %"PRIi32")",
|
|
(void*)cfg, power_cycles);
|
|
lfs_testbd_t *bd = cfg->context;
|
|
|
|
bd->power_cycles = power_cycles;
|
|
|
|
LFS_TESTBD_TRACE("lfs_testbd_getpowercycles -> %d", 0);
|
|
return 0;
|
|
}
|
|
|
|
//int lfs_testbd_getbranch(const struct lfs_config *cfg,
|
|
// lfs_testbd_powercycles_t branch, lfs_testbd_t *bd) {
|
|
// LFS_TESTBD_TRACE("lfs_testbd_getbranch(%p, %zu, %p)",
|
|
// (void*)cfg, branch, bd);
|
|
// lfs_testbd_t *bd = cfg->context;
|
|
//
|
|
// // TODO
|
|
//
|
|
// LFS_TESTBD_TRACE("lfs_testbd_getbranch -> %d", 0);
|
|
// return 0;
|
|
//}
|
|
|
|
lfs_testbd_spowercycles_t lfs_testbd_getbranchcount(
|
|
const struct lfs_config *cfg) {
|
|
LFS_TESTBD_TRACE("lfs_testbd_getbranchcount(%p)", (void*)cfg);
|
|
lfs_testbd_t *bd = cfg->context;
|
|
|
|
LFS_TESTBD_TRACE("lfs_testbd_getbranchcount -> %"PRIu32, bd->branch_count);
|
|
return bd->branch_count;
|
|
}
|