mirror of
https://github.com/espressif/esp-idf.git
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355 lines
12 KiB
C
355 lines
12 KiB
C
// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include <stdlib.h>
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#include <assert.h>
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#include <string.h>
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#include <stdio.h>
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#include <sys/lock.h>
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#include "esp_flash_partitions.h"
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#include "esp_attr.h"
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#include "esp_spi_flash.h"
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#include "esp_partition.h"
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#include "esp_flash_encrypt.h"
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#include "esp_log.h"
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#include "bootloader_common.h"
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#define HASH_LEN 32 /* SHA-256 digest length */
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#ifndef NDEBUG
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// Enable built-in checks in queue.h in debug builds
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#define INVARIANTS
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#endif
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#include "rom/queue.h"
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typedef struct partition_list_item_ {
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esp_partition_t info;
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SLIST_ENTRY(partition_list_item_) next;
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} partition_list_item_t;
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typedef struct esp_partition_iterator_opaque_ {
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esp_partition_type_t type; // requested type
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esp_partition_subtype_t subtype; // requested subtype
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const char* label; // requested label (can be NULL)
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partition_list_item_t* next_item; // next item to iterate to
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esp_partition_t* info; // pointer to info (it is redundant, but makes code more readable)
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} esp_partition_iterator_opaque_t;
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static esp_partition_iterator_opaque_t* iterator_create(esp_partition_type_t type, esp_partition_subtype_t subtype, const char* label);
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static esp_err_t load_partitions();
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static SLIST_HEAD(partition_list_head_, partition_list_item_) s_partition_list =
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SLIST_HEAD_INITIALIZER(s_partition_list);
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static _lock_t s_partition_list_lock;
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esp_partition_iterator_t esp_partition_find(esp_partition_type_t type,
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esp_partition_subtype_t subtype, const char* label)
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{
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if (SLIST_EMPTY(&s_partition_list)) {
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// only lock if list is empty (and check again after acquiring lock)
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_lock_acquire(&s_partition_list_lock);
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esp_err_t err = ESP_OK;
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if (SLIST_EMPTY(&s_partition_list)) {
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err = load_partitions();
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}
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_lock_release(&s_partition_list_lock);
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if (err != ESP_OK) {
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return NULL;
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}
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}
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// create an iterator pointing to the start of the list
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// (next item will be the first one)
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esp_partition_iterator_t it = iterator_create(type, subtype, label);
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// advance iterator to the next item which matches constraints
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it = esp_partition_next(it);
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// if nothing found, it == NULL and iterator has been released
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return it;
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}
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esp_partition_iterator_t esp_partition_next(esp_partition_iterator_t it)
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{
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assert(it);
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// iterator reached the end of linked list?
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if (it->next_item == NULL) {
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esp_partition_iterator_release(it);
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return NULL;
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}
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_lock_acquire(&s_partition_list_lock);
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for (; it->next_item != NULL; it->next_item = SLIST_NEXT(it->next_item, next)) {
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esp_partition_t* p = &it->next_item->info;
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if (it->type != p->type) {
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continue;
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}
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if (it->subtype != 0xff && it->subtype != p->subtype) {
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continue;
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}
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if (it->label != NULL && strcmp(it->label, p->label) != 0) {
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continue;
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}
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// all constraints match, bail out
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break;
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}
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_lock_release(&s_partition_list_lock);
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if (it->next_item == NULL) {
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esp_partition_iterator_release(it);
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return NULL;
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}
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it->info = &it->next_item->info;
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it->next_item = SLIST_NEXT(it->next_item, next);
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return it;
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}
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const esp_partition_t* esp_partition_find_first(esp_partition_type_t type,
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esp_partition_subtype_t subtype, const char* label)
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{
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esp_partition_iterator_t it = esp_partition_find(type, subtype, label);
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if (it == NULL) {
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return NULL;
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}
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const esp_partition_t* res = esp_partition_get(it);
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esp_partition_iterator_release(it);
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return res;
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}
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static esp_partition_iterator_opaque_t* iterator_create(esp_partition_type_t type,
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esp_partition_subtype_t subtype, const char* label)
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{
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esp_partition_iterator_opaque_t* it =
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(esp_partition_iterator_opaque_t*) malloc(sizeof(esp_partition_iterator_opaque_t));
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it->type = type;
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it->subtype = subtype;
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it->label = label;
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it->next_item = SLIST_FIRST(&s_partition_list);
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it->info = NULL;
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return it;
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}
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// Create linked list of partition_list_item_t structures.
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// This function is called only once, with s_partition_list_lock taken.
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static esp_err_t load_partitions()
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{
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const uint32_t* ptr;
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spi_flash_mmap_handle_t handle;
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// map 64kB block where partition table is located
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esp_err_t err = spi_flash_mmap(ESP_PARTITION_TABLE_OFFSET & 0xffff0000,
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SPI_FLASH_SEC_SIZE, SPI_FLASH_MMAP_DATA, (const void**) &ptr, &handle);
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if (err != ESP_OK) {
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return err;
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}
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// calculate partition address within mmap-ed region
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const esp_partition_info_t* it = (const esp_partition_info_t*)
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(ptr + (ESP_PARTITION_TABLE_OFFSET & 0xffff) / sizeof(*ptr));
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const esp_partition_info_t* end = it + SPI_FLASH_SEC_SIZE / sizeof(*it);
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// tail of the linked list of partitions
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partition_list_item_t* last = NULL;
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for (; it != end; ++it) {
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if (it->magic != ESP_PARTITION_MAGIC) {
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break;
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}
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// allocate new linked list item and populate it with data from partition table
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partition_list_item_t* item = (partition_list_item_t*) malloc(sizeof(partition_list_item_t));
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item->info.address = it->pos.offset;
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item->info.size = it->pos.size;
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item->info.type = it->type;
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item->info.subtype = it->subtype;
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item->info.encrypted = it->flags & PART_FLAG_ENCRYPTED;
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if (esp_flash_encryption_enabled() && (
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it->type == PART_TYPE_APP
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|| (it->type == PART_TYPE_DATA && it->subtype == PART_SUBTYPE_DATA_OTA)
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|| (it->type == PART_TYPE_DATA && it->subtype == PART_SUBTYPE_DATA_NVS_KEYS))) {
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/* If encryption is turned on, all app partitions and OTA data
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are always encrypted */
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item->info.encrypted = true;
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}
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// it->label may not be zero-terminated
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strncpy(item->info.label, (const char*) it->label, sizeof(item->info.label) - 1);
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item->info.label[sizeof(it->label)] = 0;
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// add it to the list
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if (last == NULL) {
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SLIST_INSERT_HEAD(&s_partition_list, item, next);
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} else {
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SLIST_INSERT_AFTER(last, item, next);
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}
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last = item;
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}
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spi_flash_munmap(handle);
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return ESP_OK;
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}
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void esp_partition_iterator_release(esp_partition_iterator_t iterator)
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{
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// iterator == NULL is okay
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free(iterator);
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}
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const esp_partition_t* esp_partition_get(esp_partition_iterator_t iterator)
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{
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assert(iterator != NULL);
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return iterator->info;
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}
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const esp_partition_t *esp_partition_verify(const esp_partition_t *partition)
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{
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assert(partition != NULL);
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const char *label = (strlen(partition->label) > 0) ? partition->label : NULL;
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esp_partition_iterator_t it = esp_partition_find(partition->type,
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partition->subtype,
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label);
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while (it != NULL) {
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const esp_partition_t *p = esp_partition_get(it);
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/* Can't memcmp() whole structure here as padding contents may be different */
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if (p->address == partition->address
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&& partition->size == p->size
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&& partition->encrypted == p->encrypted) {
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esp_partition_iterator_release(it);
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return p;
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}
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it = esp_partition_next(it);
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}
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esp_partition_iterator_release(it);
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return NULL;
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}
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esp_err_t esp_partition_read(const esp_partition_t* partition,
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size_t src_offset, void* dst, size_t size)
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{
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assert(partition != NULL);
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if (src_offset > partition->size) {
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return ESP_ERR_INVALID_ARG;
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}
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if (src_offset + size > partition->size) {
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return ESP_ERR_INVALID_SIZE;
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}
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if (!partition->encrypted) {
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return spi_flash_read(partition->address + src_offset, dst, size);
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} else {
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#if CONFIG_FLASH_ENCRYPTION_ENABLED
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/* Encrypted partitions need to be read via a cache mapping */
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const void *buf;
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spi_flash_mmap_handle_t handle;
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esp_err_t err;
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err = esp_partition_mmap(partition, src_offset, size,
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SPI_FLASH_MMAP_DATA, &buf, &handle);
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if (err != ESP_OK) {
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return err;
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}
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memcpy(dst, buf, size);
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spi_flash_munmap(handle);
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return ESP_OK;
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#else
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return ESP_ERR_NOT_SUPPORTED;
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#endif // CONFIG_FLASH_ENCRYPTION_ENABLED
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}
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}
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esp_err_t esp_partition_write(const esp_partition_t* partition,
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size_t dst_offset, const void* src, size_t size)
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{
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assert(partition != NULL);
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if (dst_offset > partition->size) {
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return ESP_ERR_INVALID_ARG;
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}
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if (dst_offset + size > partition->size) {
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return ESP_ERR_INVALID_SIZE;
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}
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dst_offset = partition->address + dst_offset;
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if (!partition->encrypted) {
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return spi_flash_write(dst_offset, src, size);
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} else {
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#if CONFIG_FLASH_ENCRYPTION_ENABLED
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return spi_flash_write_encrypted(dst_offset, src, size);
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#else
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return ESP_ERR_NOT_SUPPORTED;
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#endif // CONFIG_FLASH_ENCRYPTION_ENABLED
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}
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}
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esp_err_t esp_partition_erase_range(const esp_partition_t* partition,
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size_t start_addr, size_t size)
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{
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assert(partition != NULL);
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if (start_addr > partition->size) {
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return ESP_ERR_INVALID_ARG;
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}
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if (start_addr + size > partition->size) {
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return ESP_ERR_INVALID_SIZE;
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}
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if (size % SPI_FLASH_SEC_SIZE != 0) {
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return ESP_ERR_INVALID_SIZE;
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}
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if (start_addr % SPI_FLASH_SEC_SIZE != 0) {
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return ESP_ERR_INVALID_ARG;
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}
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return spi_flash_erase_range(partition->address + start_addr, size);
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}
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/*
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* Note: current implementation ignores the possibility of multiple regions in the same partition being
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* mapped. Reference counting and address space re-use is delegated to spi_flash_mmap.
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*
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* If this becomes a performance issue (i.e. if we need to map multiple regions within the partition),
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* we can add esp_partition_mmapv which will accept an array of offsets and sizes, and return array of
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* mmaped pointers, and a single handle for all these regions.
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*/
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esp_err_t esp_partition_mmap(const esp_partition_t* partition, uint32_t offset, uint32_t size,
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spi_flash_mmap_memory_t memory,
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const void** out_ptr, spi_flash_mmap_handle_t* out_handle)
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{
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assert(partition != NULL);
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if (offset > partition->size) {
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return ESP_ERR_INVALID_ARG;
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}
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if (offset + size > partition->size) {
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return ESP_ERR_INVALID_SIZE;
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}
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size_t phys_addr = partition->address + offset;
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// offset within 64kB block
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size_t region_offset = phys_addr & 0xffff;
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size_t mmap_addr = phys_addr & 0xffff0000;
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esp_err_t rc = spi_flash_mmap(mmap_addr, size+region_offset, memory, out_ptr, out_handle);
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// adjust returned pointer to point to the correct offset
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if (rc == ESP_OK) {
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*out_ptr = (void*) (((ptrdiff_t) *out_ptr) + region_offset);
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}
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return rc;
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}
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esp_err_t esp_partition_get_sha256(const esp_partition_t *partition, uint8_t *sha_256)
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{
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return bootloader_common_get_sha256_of_partition(partition->address, partition->size, partition->type, sha_256);
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}
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bool esp_partition_check_identity(const esp_partition_t *partition_1, const esp_partition_t *partition_2)
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{
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uint8_t sha_256[2][HASH_LEN] = { 0 };
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if (esp_partition_get_sha256(partition_1, sha_256[0]) == ESP_OK &&
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esp_partition_get_sha256(partition_2, sha_256[1]) == ESP_OK) {
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if (memcmp(sha_256[0], sha_256[1], HASH_LEN) == 0) {
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// The partitions are identity
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return true;
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}
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}
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return false;
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}
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