2022-01-28 12:16:13 -05:00
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/*
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* SPDX-FileCopyrightText: 2015-2022 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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2016-09-08 07:18:03 -04:00
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#ifndef __ESP_PARTITION_H__
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#define __ESP_PARTITION_H__
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2016-10-19 06:04:25 -04:00
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#include <stdint.h>
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#include <stdbool.h>
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2016-10-21 06:44:57 -04:00
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#include <stddef.h>
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2016-09-08 07:18:03 -04:00
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#include "esp_err.h"
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2019-06-18 13:31:43 -04:00
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#include "esp_flash.h"
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#include "spi_flash_mmap.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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2016-11-15 12:35:09 -05:00
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/**
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* @file esp_partition.h
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* @brief Partition APIs
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*/
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/**
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* @brief Partition type
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*
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* @note Partition types with integer value 0x00-0x3F are reserved for partition types defined by ESP-IDF.
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* Any other integer value 0x40-0xFE can be used by individual applications, without restriction.
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*
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* @internal Keep this enum in sync with PartitionDefinition class gen_esp32part.py @endinternal
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*
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*/
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typedef enum {
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ESP_PARTITION_TYPE_APP = 0x00, //!< Application partition type
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ESP_PARTITION_TYPE_DATA = 0x01, //!< Data partition type
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ESP_PARTITION_TYPE_ANY = 0xff, //!< Used to search for partitions with any type
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} esp_partition_type_t;
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2016-11-15 12:35:09 -05:00
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/**
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* @brief Partition subtype
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*
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* @note These ESP-IDF-defined partition subtypes apply to partitions of type ESP_PARTITION_TYPE_APP
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* and ESP_PARTITION_TYPE_DATA.
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*
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* Application-defined partition types (0x40-0xFE) can set any numeric subtype value.
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*
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* @internal Keep this enum in sync with PartitionDefinition class gen_esp32part.py @endinternal
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*/
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typedef enum {
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ESP_PARTITION_SUBTYPE_APP_FACTORY = 0x00, //!< Factory application partition
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ESP_PARTITION_SUBTYPE_APP_OTA_MIN = 0x10, //!< Base for OTA partition subtypes
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ESP_PARTITION_SUBTYPE_APP_OTA_0 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 0, //!< OTA partition 0
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ESP_PARTITION_SUBTYPE_APP_OTA_1 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 1, //!< OTA partition 1
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ESP_PARTITION_SUBTYPE_APP_OTA_2 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 2, //!< OTA partition 2
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ESP_PARTITION_SUBTYPE_APP_OTA_3 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 3, //!< OTA partition 3
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ESP_PARTITION_SUBTYPE_APP_OTA_4 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 4, //!< OTA partition 4
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ESP_PARTITION_SUBTYPE_APP_OTA_5 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 5, //!< OTA partition 5
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ESP_PARTITION_SUBTYPE_APP_OTA_6 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 6, //!< OTA partition 6
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ESP_PARTITION_SUBTYPE_APP_OTA_7 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 7, //!< OTA partition 7
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ESP_PARTITION_SUBTYPE_APP_OTA_8 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 8, //!< OTA partition 8
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ESP_PARTITION_SUBTYPE_APP_OTA_9 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 9, //!< OTA partition 9
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ESP_PARTITION_SUBTYPE_APP_OTA_10 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 10,//!< OTA partition 10
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ESP_PARTITION_SUBTYPE_APP_OTA_11 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 11,//!< OTA partition 11
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ESP_PARTITION_SUBTYPE_APP_OTA_12 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 12,//!< OTA partition 12
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ESP_PARTITION_SUBTYPE_APP_OTA_13 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 13,//!< OTA partition 13
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ESP_PARTITION_SUBTYPE_APP_OTA_14 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 14,//!< OTA partition 14
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ESP_PARTITION_SUBTYPE_APP_OTA_15 = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 15,//!< OTA partition 15
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ESP_PARTITION_SUBTYPE_APP_OTA_MAX = ESP_PARTITION_SUBTYPE_APP_OTA_MIN + 16,//!< Max subtype of OTA partition
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ESP_PARTITION_SUBTYPE_APP_TEST = 0x20, //!< Test application partition
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ESP_PARTITION_SUBTYPE_DATA_OTA = 0x00, //!< OTA selection partition
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ESP_PARTITION_SUBTYPE_DATA_PHY = 0x01, //!< PHY init data partition
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ESP_PARTITION_SUBTYPE_DATA_NVS = 0x02, //!< NVS partition
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ESP_PARTITION_SUBTYPE_DATA_COREDUMP = 0x03, //!< COREDUMP partition
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ESP_PARTITION_SUBTYPE_DATA_NVS_KEYS = 0x04, //!< Partition for NVS keys
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ESP_PARTITION_SUBTYPE_DATA_EFUSE_EM = 0x05, //!< Partition for emulate eFuse bits
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ESP_PARTITION_SUBTYPE_DATA_UNDEFINED = 0x06, //!< Undefined (or unspecified) data partition
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ESP_PARTITION_SUBTYPE_DATA_ESPHTTPD = 0x80, //!< ESPHTTPD partition
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ESP_PARTITION_SUBTYPE_DATA_FAT = 0x81, //!< FAT partition
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ESP_PARTITION_SUBTYPE_DATA_SPIFFS = 0x82, //!< SPIFFS partition
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ESP_PARTITION_SUBTYPE_ANY = 0xff, //!< Used to search for partitions with any subtype
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} esp_partition_subtype_t;
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2016-11-15 12:35:09 -05:00
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/**
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* @brief Convenience macro to get esp_partition_subtype_t value for the i-th OTA partition
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*/
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#define ESP_PARTITION_SUBTYPE_OTA(i) ((esp_partition_subtype_t)(ESP_PARTITION_SUBTYPE_APP_OTA_MIN + ((i) & 0xf)))
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2016-11-15 12:35:09 -05:00
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/**
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* @brief Opaque partition iterator type
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*/
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typedef struct esp_partition_iterator_opaque_* esp_partition_iterator_t;
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/**
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* @brief partition information structure
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*
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* This is not the format in flash, that format is esp_partition_info_t.
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*
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* However, this is the format used by this API.
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*/
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typedef struct {
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esp_flash_t* flash_chip; /*!< SPI flash chip on which the partition resides */
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esp_partition_type_t type; /*!< partition type (app/data) */
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esp_partition_subtype_t subtype; /*!< partition subtype */
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uint32_t address; /*!< starting address of the partition in flash */
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uint32_t size; /*!< size of the partition, in bytes */
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char label[17]; /*!< partition label, zero-terminated ASCII string */
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bool encrypted; /*!< flag is set to true if partition is encrypted */
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} esp_partition_t;
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/**
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* @brief Find partition based on one or more parameters
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*
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* @param type Partition type, one of esp_partition_type_t values or an 8-bit unsigned integer.
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* To find all partitions, no matter the type, use ESP_PARTITION_TYPE_ANY, and set
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* subtype argument to ESP_PARTITION_SUBTYPE_ANY.
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* @param subtype Partition subtype, one of esp_partition_subtype_t values or an 8-bit unsigned integer.
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* To find all partitions of given type, use ESP_PARTITION_SUBTYPE_ANY.
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* @param label (optional) Partition label. Set this value if looking
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* for partition with a specific name. Pass NULL otherwise.
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*
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* @return iterator which can be used to enumerate all the partitions found,
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* or NULL if no partitions were found.
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* Iterator obtained through this function has to be released
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* using esp_partition_iterator_release when not used any more.
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*/
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esp_partition_iterator_t esp_partition_find(esp_partition_type_t type, esp_partition_subtype_t subtype, const char* label);
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/**
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* @brief Find first partition based on one or more parameters
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*
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* @param type Partition type, one of esp_partition_type_t values or an 8-bit unsigned integer.
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* To find all partitions, no matter the type, use ESP_PARTITION_TYPE_ANY, and set
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* subtype argument to ESP_PARTITION_SUBTYPE_ANY.
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* @param subtype Partition subtype, one of esp_partition_subtype_t values or an 8-bit unsigned integer
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* To find all partitions of given type, use ESP_PARTITION_SUBTYPE_ANY.
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* @param label (optional) Partition label. Set this value if looking
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* for partition with a specific name. Pass NULL otherwise.
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*
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* @return pointer to esp_partition_t structure, or NULL if no partition is found.
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* This pointer is valid for the lifetime of the application.
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*/
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const esp_partition_t* esp_partition_find_first(esp_partition_type_t type, esp_partition_subtype_t subtype, const char* label);
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/**
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* @brief Get esp_partition_t structure for given partition
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*
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* @param iterator Iterator obtained using esp_partition_find. Must be non-NULL.
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*
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* @return pointer to esp_partition_t structure. This pointer is valid for the lifetime
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* of the application.
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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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* @brief Move partition iterator to the next partition found
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*
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* Any copies of the iterator will be invalid after this call.
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*
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* @param iterator Iterator obtained using esp_partition_find. Must be non-NULL.
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*
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* @return NULL if no partition was found, valid esp_partition_iterator_t otherwise.
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*/
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esp_partition_iterator_t esp_partition_next(esp_partition_iterator_t iterator);
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/**
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* @brief Release partition iterator
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*
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* @param iterator Iterator obtained using esp_partition_find.
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* The iterator is allowed to be NULL, so it is not necessary to check its value
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* before calling this function.
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*
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*/
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void esp_partition_iterator_release(esp_partition_iterator_t iterator);
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2017-02-20 00:02:29 -05:00
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/**
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* @brief Verify partition data
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*
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* Given a pointer to partition data, verify this partition exists in the partition table (all fields match.)
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*
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* This function is also useful to take partition data which may be in a RAM buffer and convert it to a pointer to the
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* permanent partition data stored in flash.
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*
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* Pointers returned from this function can be compared directly to the address of any pointer returned from
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* esp_partition_get(), as a test for equality.
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*
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* @param partition Pointer to partition data to verify. Must be non-NULL. All fields of this structure must match the
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* partition table entry in flash for this function to return a successful match.
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*
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* @return
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* - If partition not found, returns NULL.
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* - If found, returns a pointer to the esp_partition_t structure in flash. This pointer is always valid for the lifetime of the application.
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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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* @brief Read data from the partition
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*
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* Partitions marked with an encryption flag will automatically be
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* be read and decrypted via a cache mapping.
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*
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* @param partition Pointer to partition structure obtained using
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* esp_partition_find_first or esp_partition_get.
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* Must be non-NULL.
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* @param dst Pointer to the buffer where data should be stored.
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* Pointer must be non-NULL and buffer must be at least 'size' bytes long.
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* @param src_offset Address of the data to be read, relative to the
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* beginning of the partition.
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* @param size Size of data to be read, in bytes.
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*
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* @return ESP_OK, if data was read successfully;
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* ESP_ERR_INVALID_ARG, if src_offset exceeds partition size;
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* ESP_ERR_INVALID_SIZE, if read would go out of bounds of the partition;
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* or one of error codes from lower-level flash driver.
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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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* @brief Write data to the partition
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*
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* Before writing data to flash, corresponding region of flash needs to be erased.
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* This can be done using esp_partition_erase_range function.
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*
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* Partitions marked with an encryption flag will automatically be
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* written via the esp_flash_write_encrypted() function. If writing to
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* an encrypted partition, all write offsets and lengths must be
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* multiples of 16 bytes. See the esp_flash_write_encrypted() function
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* for more details. Unencrypted partitions do not have this
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* restriction.
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*
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* @param partition Pointer to partition structure obtained using
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* esp_partition_find_first or esp_partition_get.
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* Must be non-NULL.
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* @param dst_offset Address where the data should be written, relative to the
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* beginning of the partition.
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* @param src Pointer to the source buffer. Pointer must be non-NULL and
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* buffer must be at least 'size' bytes long.
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* @param size Size of data to be written, in bytes.
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*
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* @note Prior to writing to flash memory, make sure it has been erased with
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* esp_partition_erase_range call.
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*
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* @return ESP_OK, if data was written successfully;
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* ESP_ERR_INVALID_ARG, if dst_offset exceeds partition size;
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* ESP_ERR_INVALID_SIZE, if write would go out of bounds of the partition;
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* or one of error codes from lower-level flash driver.
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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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2020-09-18 00:07:43 -04:00
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* @brief Read data from the partition without any transformation/decryption.
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2020-04-26 20:51:31 -04:00
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*
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2020-09-18 00:07:43 -04:00
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* @note This function is essentially the same as \c esp_partition_read() above.
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2020-04-26 20:51:31 -04:00
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* It just never decrypts data but returns it as is.
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*
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* @param partition Pointer to partition structure obtained using
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* esp_partition_find_first or esp_partition_get.
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* Must be non-NULL.
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* @param dst Pointer to the buffer where data should be stored.
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* Pointer must be non-NULL and buffer must be at least 'size' bytes long.
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* @param src_offset Address of the data to be read, relative to the
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* beginning of the partition.
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* @param size Size of data to be read, in bytes.
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*
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* @return ESP_OK, if data was read successfully;
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* ESP_ERR_INVALID_ARG, if src_offset exceeds partition size;
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* ESP_ERR_INVALID_SIZE, if read would go out of bounds of the partition;
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* or one of error codes from lower-level flash driver.
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*/
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esp_err_t esp_partition_read_raw(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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* @brief Write data to the partition without any transformation/encryption.
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*
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* @note This function is essentially the same as \c esp_partition_write() above.
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* It just never encrypts data but writes it as is.
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*
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* Before writing data to flash, corresponding region of flash needs to be erased.
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* This can be done using esp_partition_erase_range function.
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*
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* @param partition Pointer to partition structure obtained using
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* esp_partition_find_first or esp_partition_get.
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* Must be non-NULL.
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* @param dst_offset Address where the data should be written, relative to the
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* beginning of the partition.
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* @param src Pointer to the source buffer. Pointer must be non-NULL and
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* buffer must be at least 'size' bytes long.
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* @param size Size of data to be written, in bytes.
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*
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* @note Prior to writing to flash memory, make sure it has been erased with
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* esp_partition_erase_range call.
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*
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* @return ESP_OK, if data was written successfully;
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* ESP_ERR_INVALID_ARG, if dst_offset exceeds partition size;
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* ESP_ERR_INVALID_SIZE, if write would go out of bounds of the partition;
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* or one of the error codes from lower-level flash driver.
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*/
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esp_err_t esp_partition_write_raw(const esp_partition_t* partition,
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size_t dst_offset, const void* src, size_t size);
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2016-09-08 07:18:03 -04:00
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/**
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* @brief Erase part of the partition
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*
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2016-10-21 06:44:57 -04:00
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* @param partition Pointer to partition structure obtained using
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* esp_partition_find_first or esp_partition_get.
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* Must be non-NULL.
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2019-07-06 06:22:23 -04:00
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* @param offset Offset from the beginning of partition where erase operation
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* should start. Must be aligned to 4 kilobytes.
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2016-09-08 07:18:03 -04:00
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* @param size Size of the range which should be erased, in bytes.
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* Must be divisible by 4 kilobytes.
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*
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* @return ESP_OK, if the range was erased successfully;
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2016-10-19 06:04:25 -04:00
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* ESP_ERR_INVALID_ARG, if iterator or dst are NULL;
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* ESP_ERR_INVALID_SIZE, if erase would go out of bounds of the partition;
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2016-09-08 07:18:03 -04:00
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* or one of error codes from lower-level flash driver.
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*/
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2016-10-21 06:44:57 -04:00
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esp_err_t esp_partition_erase_range(const esp_partition_t* partition,
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2019-07-06 06:22:23 -04:00
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size_t offset, size_t size);
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2016-09-08 07:18:03 -04:00
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2016-10-19 06:04:25 -04:00
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/**
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* @brief Configure MMU to map partition into data memory
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*
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2016-10-21 06:44:57 -04:00
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* Unlike spi_flash_mmap function, which requires a 64kB aligned base address,
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* this function doesn't impose such a requirement.
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* If offset results in a flash address which is not aligned to 64kB boundary,
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* address will be rounded to the lower 64kB boundary, so that mapped region
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* includes requested range.
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* Pointer returned via out_ptr argument will be adjusted to point to the
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* requested offset (not necessarily to the beginning of mmap-ed region).
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2016-10-19 06:04:25 -04:00
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*
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2016-10-21 06:44:57 -04:00
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* To release mapped memory, pass handle returned via out_handle argument to
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* spi_flash_munmap function.
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2016-10-19 06:04:25 -04:00
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*
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2016-10-21 06:44:57 -04:00
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* @param partition Pointer to partition structure obtained using
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* esp_partition_find_first or esp_partition_get.
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* Must be non-NULL.
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* @param offset Offset from the beginning of partition where mapping should start.
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2016-10-19 06:04:25 -04:00
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* @param size Size of the area to be mapped.
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2016-10-21 06:44:57 -04:00
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* @param memory Memory space where the region should be mapped
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* @param out_ptr Output, pointer to the mapped memory region
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* @param out_handle Output, handle which should be used for spi_flash_munmap call
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2016-10-19 06:04:25 -04:00
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*
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2016-10-21 06:44:57 -04:00
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* @return ESP_OK, if successful
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2016-10-19 06:04:25 -04:00
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*/
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2019-06-19 09:26:02 -04:00
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esp_err_t esp_partition_mmap(const esp_partition_t* partition, size_t offset, size_t size,
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2016-10-21 06:44:57 -04:00
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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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2016-09-08 07:18:03 -04:00
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2018-05-30 05:08:00 -04:00
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/**
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* @brief Get SHA-256 digest for required partition.
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*
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* For apps with SHA-256 appended to the app image, the result is the appended SHA-256 value for the app image content.
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* The hash is verified before returning, if app content is invalid then the function returns ESP_ERR_IMAGE_INVALID.
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* For apps without SHA-256 appended to the image, the result is the SHA-256 of all bytes in the app image.
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* For other partition types, the result is the SHA-256 of the entire partition.
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*
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* @param[in] partition Pointer to info for partition containing app or data. (fields: address, size and type, are required to be filled).
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* @param[out] sha_256 Returned SHA-256 digest for a given partition.
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*
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* @return
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* - ESP_OK: In case of successful operation.
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* - ESP_ERR_INVALID_ARG: The size was 0 or the sha_256 was NULL.
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* - ESP_ERR_NO_MEM: Cannot allocate memory for sha256 operation.
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* - ESP_ERR_IMAGE_INVALID: App partition doesn't contain a valid app image.
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* - ESP_FAIL: An allocation error occurred.
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*/
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2022-01-28 12:16:13 -05:00
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esp_err_t esp_partition_get_sha256(const esp_partition_t* partition, uint8_t* sha_256);
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2018-05-30 05:08:00 -04:00
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/**
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* @brief Check for the identity of two partitions by SHA-256 digest.
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*
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* @param[in] partition_1 Pointer to info for partition 1 containing app or data. (fields: address, size and type, are required to be filled).
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* @param[in] partition_2 Pointer to info for partition 2 containing app or data. (fields: address, size and type, are required to be filled).
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*
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* @return
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* - True: In case of the two firmware is equal.
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* - False: Otherwise
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*/
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2022-01-28 12:16:13 -05:00
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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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2016-09-08 07:18:03 -04:00
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2019-06-18 13:31:43 -04:00
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/**
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* @brief Register a partition on an external flash chip
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*
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* This API allows designating certain areas of external flash chips (identified by the esp_flash_t structure)
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* as partitions. This allows using them with components which access SPI flash through the esp_partition API.
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*
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* @param flash_chip Pointer to the structure identifying the flash chip
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* @param offset Address in bytes, where the partition starts
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* @param size Size of the partition in bytes
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* @param label Partition name
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2020-03-31 23:20:29 -04:00
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* @param type One of the partition types (ESP_PARTITION_TYPE_*), or an integer. Note that applications can not be booted from external flash
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2019-06-18 13:31:43 -04:00
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* chips, so using ESP_PARTITION_TYPE_APP is not supported.
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2020-03-31 23:20:29 -04:00
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* @param subtype One of the partition subtypes (ESP_PARTITION_SUBTYPE_*), or an integer.
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2019-06-18 13:31:43 -04:00
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* @param[out] out_partition Output, if non-NULL, receives the pointer to the resulting esp_partition_t structure
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* @return
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* - ESP_OK on success
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* - ESP_ERR_NO_MEM if memory allocation has failed
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* - ESP_ERR_INVALID_ARG if the new partition overlaps another partition on the same flash chip
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* - ESP_ERR_INVALID_SIZE if the partition doesn't fit into the flash chip size
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*/
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esp_err_t esp_partition_register_external(esp_flash_t* flash_chip, size_t offset, size_t size,
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2022-01-28 12:16:13 -05:00
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const char* label, esp_partition_type_t type, esp_partition_subtype_t subtype,
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const esp_partition_t** out_partition);
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2019-06-18 13:31:43 -04:00
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/**
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* @brief Deregister the partition previously registered using esp_partition_register_external
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* @param partition pointer to the partition structure obtained from esp_partition_register_external,
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* @return
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* - ESP_OK on success
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* - ESP_ERR_NOT_FOUND if the partition pointer is not found
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* - ESP_ERR_INVALID_ARG if the partition comes from the partition table
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* - ESP_ERR_INVALID_ARG if the partition was not registered using
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* esp_partition_register_external function.
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*/
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esp_err_t esp_partition_deregister_external(const esp_partition_t* partition);
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2016-09-08 07:18:03 -04:00
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#ifdef __cplusplus
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}
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#endif
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#endif /* __ESP_PARTITION_H__ */
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