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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
# ifndef ESP_NVS_H
# define ESP_NVS_H
# include <stdint.h>
# include <stddef.h>
# include <stdbool.h>
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# include "esp_err.h"
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# ifdef __cplusplus
extern " C " {
# endif
/**
* Opaque pointer type representing non - volatile storage handle
*/
typedef uint32_t nvs_handle ;
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# define ESP_ERR_NVS_BASE 0x1100 /*!< Starting number of error codes */
# define ESP_ERR_NVS_NOT_INITIALIZED (ESP_ERR_NVS_BASE + 0x01) /*!< The storage driver is not initialized */
# define ESP_ERR_NVS_NOT_FOUND (ESP_ERR_NVS_BASE + 0x02) /*!< Id namespace doesn’ t exist yet and mode is NVS_READONLY */
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# define ESP_ERR_NVS_TYPE_MISMATCH (ESP_ERR_NVS_BASE + 0x03) /*!< The type of set or get operation doesn't match the type of value stored in NVS */
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# define ESP_ERR_NVS_READ_ONLY (ESP_ERR_NVS_BASE + 0x04) /*!< Storage handle was opened as read only */
# define ESP_ERR_NVS_NOT_ENOUGH_SPACE (ESP_ERR_NVS_BASE + 0x05) /*!< There is not enough space in the underlying storage to save the value */
# define ESP_ERR_NVS_INVALID_NAME (ESP_ERR_NVS_BASE + 0x06) /*!< Namespace name doesn’ t satisfy constraints */
# define ESP_ERR_NVS_INVALID_HANDLE (ESP_ERR_NVS_BASE + 0x07) /*!< Handle has been closed or is NULL */
# define ESP_ERR_NVS_REMOVE_FAILED (ESP_ERR_NVS_BASE + 0x08) /*!< The value wasn’ t updated because flash write operation has failed. The value was written however, and update will be finished after re-initialization of nvs, provided that flash operation doesn’ t fail again. */
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# define ESP_ERR_NVS_KEY_TOO_LONG (ESP_ERR_NVS_BASE + 0x09) /*!< Key name is too long */
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# define ESP_ERR_NVS_PAGE_FULL (ESP_ERR_NVS_BASE + 0x0a) /*!< Internal error; never returned by nvs API functions */
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# define ESP_ERR_NVS_INVALID_STATE (ESP_ERR_NVS_BASE + 0x0b) /*!< NVS is in an inconsistent state due to a previous error. Call nvs_flash_init and nvs_open again, then retry. */
# define ESP_ERR_NVS_INVALID_LENGTH (ESP_ERR_NVS_BASE + 0x0c) /*!< String or blob length is not sufficient to store data */
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# define ESP_ERR_NVS_NO_FREE_PAGES (ESP_ERR_NVS_BASE + 0x0d) /*!< NVS partition doesn't contain any empty pages. This may happen if NVS partition was truncated. Erase the whole partition and call nvs_flash_init again. */
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# define ESP_ERR_NVS_VALUE_TOO_LONG (ESP_ERR_NVS_BASE + 0x0e) /*!< String or blob length is longer than supported by the implementation */
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# define ESP_ERR_NVS_PART_NOT_FOUND (ESP_ERR_NVS_BASE + 0x0f) /*!< Partition with specified name is not found in the partition table */
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# define ESP_ERR_NVS_NEW_VERSION_FOUND (ESP_ERR_NVS_BASE + 0x10) /*!< NVS partition contains data in new format and cannot be recognized by this version of code */
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# define NVS_DEFAULT_PART_NAME "nvs" /*!< Default partition name of the NVS partition in the partition table */
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/**
* @ brief Mode of opening the non - volatile storage
*
*/
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typedef enum {
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NVS_READONLY , /*!< Read only */
NVS_READWRITE /*!< Read and write */
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} nvs_open_mode ;
/**
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* @ brief Open non - volatile storage with a given namespace from the default NVS partition
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*
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* Multiple internal ESP - IDF and third party application modules can store
* their key - value pairs in the NVS module . In order to reduce possible
* conflicts on key names , each module can use its own namespace .
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* The default NVS partition is the one that is labelled " nvs " in the partition
* table .
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*
* @ param [ in ] name Namespace name . Maximal length is determined by the
* underlying implementation , but is guaranteed to be
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* at least 15 characters . Shouldn ' t be empty .
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* @ param [ in ] open_mode NVS_READWRITE or NVS_READONLY . If NVS_READONLY , will
* open a handle for reading only . All write requests will
* be rejected for this handle .
* @ param [ out ] out_handle If successful ( return code is zero ) , handle will be
* returned in this argument .
*
* @ return
* - ESP_OK if storage handle was opened successfully
* - ESP_ERR_NVS_NOT_INITIALIZED if the storage driver is not initialized
* - ESP_ERR_NVS_PART_NOT_FOUND if the partition with label " nvs " is not found
* - ESP_ERR_NVS_NOT_FOUND id namespace doesn ' t exist yet and
* mode is NVS_READONLY
* - ESP_ERR_NVS_INVALID_NAME if namespace name doesn ' t satisfy constraints
* - other error codes from the underlying storage driver
*/
esp_err_t nvs_open ( const char * name , nvs_open_mode open_mode , nvs_handle * out_handle ) ;
/**
* @ brief Open non - volatile storage with a given namespace from specified partition
*
* The behaviour is same as nvs_open ( ) API . However this API can operate on a specified NVS
* partition instead of default NVS partition . Note that the specified partition must be registered
* with NVS using nvs_flash_init_partition ( ) API .
*
* @ param [ in ] part_name Label ( name ) of the partition of interest for object read / write / erase
* @ param [ in ] name Namespace name . Maximal length is determined by the
* underlying implementation , but is guaranteed to be
* at least 15 characters . Shouldn ' t be empty .
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* @ param [ in ] open_mode NVS_READWRITE or NVS_READONLY . If NVS_READONLY , will
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* open a handle for reading only . All write requests will
* be rejected for this handle .
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* @ param [ out ] out_handle If successful ( return code is zero ) , handle will be
* returned in this argument .
*
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* @ return
* - ESP_OK if storage handle was opened successfully
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* - ESP_ERR_NVS_NOT_INITIALIZED if the storage driver is not initialized
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* - ESP_ERR_NVS_PART_NOT_FOUND if the partition with specified name is not found
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* - ESP_ERR_NVS_NOT_FOUND id namespace doesn ' t exist yet and
* mode is NVS_READONLY
* - ESP_ERR_NVS_INVALID_NAME if namespace name doesn ' t satisfy constraints
* - other error codes from the underlying storage driver
*/
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esp_err_t nvs_open_from_partition ( const char * part_name , const char * name , nvs_open_mode open_mode , nvs_handle * out_handle ) ;
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/**@{*/
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/**
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* @ brief set value for given key
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*
* This family of functions set value for the key , given its name . Note that
* actual storage will not be updated until nvs_commit function is called .
*
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* @ param [ in ] handle Handle obtained from nvs_open function .
* Handles that were opened read only cannot be used .
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* @ param [ in ] key Key name . Maximal length is determined by the underlying
* implementation , but is guaranteed to be at least
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* 15 characters . Shouldn ' t be empty .
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* @ param [ in ] value The value to set .
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* For strings , the maximum length ( including null character ) is
* 1984 bytes .
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*
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* @ return
* - ESP_OK if value was set successfully
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* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - ESP_ERR_NVS_READ_ONLY if storage handle was opened as read only
* - ESP_ERR_NVS_INVALID_NAME if key name doesn ' t satisfy constraints
* - ESP_ERR_NVS_NOT_ENOUGH_SPACE if there is not enough space in the
* underlying storage to save the value
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* - ESP_ERR_NVS_REMOVE_FAILED if the value wasn ' t updated because flash
* write operation has failed . The value was written however , and
* update will be finished after re - initialization of nvs , provided that
* flash operation doesn ' t fail again .
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* - ESP_ERR_NVS_VALUE_TOO_LONG if the string value is too long
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*/
esp_err_t nvs_set_i8 ( nvs_handle handle , const char * key , int8_t value ) ;
esp_err_t nvs_set_u8 ( nvs_handle handle , const char * key , uint8_t value ) ;
esp_err_t nvs_set_i16 ( nvs_handle handle , const char * key , int16_t value ) ;
esp_err_t nvs_set_u16 ( nvs_handle handle , const char * key , uint16_t value ) ;
esp_err_t nvs_set_i32 ( nvs_handle handle , const char * key , int32_t value ) ;
esp_err_t nvs_set_u32 ( nvs_handle handle , const char * key , uint32_t value ) ;
esp_err_t nvs_set_i64 ( nvs_handle handle , const char * key , int64_t value ) ;
esp_err_t nvs_set_u64 ( nvs_handle handle , const char * key , uint64_t value ) ;
esp_err_t nvs_set_str ( nvs_handle handle , const char * key , const char * value ) ;
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/**@}*/
/**
* @ brief set variable length binary value for given key
*
* This family of functions set value for the key , given its name . Note that
* actual storage will not be updated until nvs_commit function is called .
*
* @ param [ in ] handle Handle obtained from nvs_open function .
* Handles that were opened read only cannot be used .
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* @ param [ in ] key Key name . Maximal length is 15 characters . Shouldn ' t be empty .
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* @ param [ in ] value The value to set .
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* @ param [ in ] length length of binary value to set , in bytes ; Maximum length is
* 1984 bytes .
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*
* @ return
* - ESP_OK if value was set successfully
* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - ESP_ERR_NVS_READ_ONLY if storage handle was opened as read only
* - ESP_ERR_NVS_INVALID_NAME if key name doesn ' t satisfy constraints
* - ESP_ERR_NVS_NOT_ENOUGH_SPACE if there is not enough space in the
* underlying storage to save the value
* - ESP_ERR_NVS_REMOVE_FAILED if the value wasn ' t updated because flash
* write operation has failed . The value was written however , and
* update will be finished after re - initialization of nvs , provided that
* flash operation doesn ' t fail again .
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* - ESP_ERR_NVS_VALUE_TOO_LONG if the value is too long
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*/
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esp_err_t nvs_set_blob ( nvs_handle handle , const char * key , const void * value , size_t length ) ;
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/**@{*/
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/**
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* @ brief get value for given key
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*
* These functions retrieve value for the key , given its name . If key does not
* exist , or the requested variable type doesn ' t match the type which was used
* when setting a value , an error is returned .
*
* In case of any error , out_value is not modified .
*
* All functions expect out_value to be a pointer to an already allocated variable
* of the given type .
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*
* \ code { c }
* // Example of using nvs_get_i32:
* int32_t max_buffer_size = 4096 ; // default value
* esp_err_t err = nvs_get_i32 ( my_handle , " max_buffer_size " , & max_buffer_size ) ;
* assert ( err = = ESP_OK | | err = = ESP_ERR_NVS_NOT_FOUND ) ;
* // if ESP_ERR_NVS_NOT_FOUND was returned, max_buffer_size will still
* // have its default value.
*
* \ endcode
*
* @ param [ in ] handle Handle obtained from nvs_open function .
* @ param [ in ] key Key name . Maximal length is determined by the underlying
* implementation , but is guaranteed to be at least
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* 15 characters . Shouldn ' t be empty .
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* @ param out_value Pointer to the output value .
* May be NULL for nvs_get_str and nvs_get_blob , in this
* case required length will be returned in length argument .
*
* @ return
* - ESP_OK if the value was retrieved successfully
* - ESP_ERR_NVS_NOT_FOUND if the requested key doesn ' t exist
* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - ESP_ERR_NVS_INVALID_NAME if key name doesn ' t satisfy constraints
* - ESP_ERR_NVS_INVALID_LENGTH if length is not sufficient to store data
*/
esp_err_t nvs_get_i8 ( nvs_handle handle , const char * key , int8_t * out_value ) ;
esp_err_t nvs_get_u8 ( nvs_handle handle , const char * key , uint8_t * out_value ) ;
esp_err_t nvs_get_i16 ( nvs_handle handle , const char * key , int16_t * out_value ) ;
esp_err_t nvs_get_u16 ( nvs_handle handle , const char * key , uint16_t * out_value ) ;
esp_err_t nvs_get_i32 ( nvs_handle handle , const char * key , int32_t * out_value ) ;
esp_err_t nvs_get_u32 ( nvs_handle handle , const char * key , uint32_t * out_value ) ;
esp_err_t nvs_get_i64 ( nvs_handle handle , const char * key , int64_t * out_value ) ;
esp_err_t nvs_get_u64 ( nvs_handle handle , const char * key , uint64_t * out_value ) ;
/**@}*/
/**
* @ brief get value for given key
*
* These functions retrieve value for the key , given its name . If key does not
* exist , or the requested variable type doesn ' t match the type which was used
* when setting a value , an error is returned .
*
* In case of any error , out_value is not modified .
*
* All functions expect out_value to be a pointer to an already allocated variable
* of the given type .
*
* nvs_get_str and nvs_get_blob functions support WinAPI - style length queries .
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* To get the size necessary to store the value , call nvs_get_str or nvs_get_blob
* with zero out_value and non - zero pointer to length . Variable pointed to
* by length argument will be set to the required length . For nvs_get_str ,
* this length includes the zero terminator . When calling nvs_get_str and
* nvs_get_blob with non - zero out_value , length has to be non - zero and has to
* point to the length available in out_value .
* It is suggested that nvs_get / set_str is used for zero - terminated C strings , and
* nvs_get / set_blob used for arbitrary data structures .
*
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* \ code { c }
* // Example (without error checking) of using nvs_get_str to get a string into dynamic array:
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* size_t required_size ;
* nvs_get_str ( my_handle , " server_name " , NULL , & required_size ) ;
* char * server_name = malloc ( required_size ) ;
* nvs_get_str ( my_handle , " server_name " , server_name , & required_size ) ;
*
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* // Example (without error checking) of using nvs_get_blob to get a binary data
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* into a static array :
* uint8_t mac_addr [ 6 ] ;
* size_t size = sizeof ( mac_addr ) ;
* nvs_get_blob ( my_handle , " dst_mac_addr " , mac_addr , & size ) ;
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* \ endcode
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*
* @ param [ in ] handle Handle obtained from nvs_open function .
* @ param [ in ] key Key name . Maximal length is determined by the underlying
* implementation , but is guaranteed to be at least
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* 15 characters . Shouldn ' t be empty .
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* @ param out_value Pointer to the output value .
* May be NULL for nvs_get_str and nvs_get_blob , in this
* case required length will be returned in length argument .
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* @ param [ inout ] length A non - zero pointer to the variable holding the length of out_value .
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* In case out_value a zero , will be set to the length
* required to hold the value . In case out_value is not
* zero , will be set to the actual length of the value
* written . For nvs_get_str this includes zero terminator .
*
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* @ return
* - ESP_OK if the value was retrieved successfully
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* - ESP_ERR_NVS_NOT_FOUND if the requested key doesn ' t exist
* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - ESP_ERR_NVS_INVALID_NAME if key name doesn ' t satisfy constraints
* - ESP_ERR_NVS_INVALID_LENGTH if length is not sufficient to store data
*/
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/**@{*/
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esp_err_t nvs_get_str ( nvs_handle handle , const char * key , char * out_value , size_t * length ) ;
esp_err_t nvs_get_blob ( nvs_handle handle , const char * key , void * out_value , size_t * length ) ;
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/**@}*/
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/**
* @ brief Erase key - value pair with given key name .
*
* Note that actual storage may not be updated until nvs_commit function is called .
*
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* @ param [ in ] handle Storage handle obtained with nvs_open .
* Handles that were opened read only cannot be used .
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*
* @ param [ in ] key Key name . Maximal length is determined by the underlying
* implementation , but is guaranteed to be at least
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* 15 characters . Shouldn ' t be empty .
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*
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* @ return
* - ESP_OK if erase operation was successful
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* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - ESP_ERR_NVS_READ_ONLY if handle was opened as read only
* - ESP_ERR_NVS_NOT_FOUND if the requested key doesn ' t exist
* - other error codes from the underlying storage driver
*/
esp_err_t nvs_erase_key ( nvs_handle handle , const char * key ) ;
/**
* @ brief Erase all key - value pairs in a namespace
*
* Note that actual storage may not be updated until nvs_commit function is called .
*
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* @ param [ in ] handle Storage handle obtained with nvs_open .
* Handles that were opened read only cannot be used .
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*
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* @ return
* - ESP_OK if erase operation was successful
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* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - ESP_ERR_NVS_READ_ONLY if handle was opened as read only
* - other error codes from the underlying storage driver
*/
esp_err_t nvs_erase_all ( nvs_handle handle ) ;
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/**
* @ brief Write any pending changes to non - volatile storage
*
* After setting any values , nvs_commit ( ) must be called to ensure changes are written
* to non - volatile storage . Individual implementations may write to storage at other times ,
* but this is not guaranteed .
*
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* @ param [ in ] handle Storage handle obtained with nvs_open .
* Handles that were opened read only cannot be used .
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*
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* @ return
* - ESP_OK if the changes have been written successfully
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* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL
* - other error codes from the underlying storage driver
*/
esp_err_t nvs_commit ( nvs_handle handle ) ;
/**
* @ brief Close the storage handle and free any allocated resources
*
* This function should be called for each handle opened with nvs_open once
* the handle is not in use any more . Closing the handle may not automatically
* write the changes to nonvolatile storage . This has to be done explicitly using
* nvs_commit function .
* Once this function is called on a handle , the handle should no longer be used .
*
* @ param [ in ] handle Storage handle to close
*/
void nvs_close ( nvs_handle handle ) ;
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/**
* @ note Info about storage space NVS .
*/
typedef struct {
size_t used_entries ; /**< Amount of used entries. */
size_t free_entries ; /**< Amount of free entries. */
size_t total_entries ; /**< Amount all available entries. */
size_t namespace_count ; /**< Amount name space. */
} nvs_stats_t ;
/**
* @ brief Fill structure nvs_stats_t . It provides info about used memory the partition .
*
* This function calculates to runtime the number of used entries , free entries , total entries ,
* and amount namespace in partition .
*
* \ code { c }
* // Example of nvs_get_stats() to get the number of used entries and free entries:
* nvs_stats_t nvs_stats ;
* nvs_get_stats ( NULL , & nvs_stats ) ;
* printf ( " Count: UsedEntries = (%d), FreeEntries = (%d), AllEntries = (%d) \n " ,
nvs_stats . used_entries , nvs_stats . free_entries , nvs_stats . total_entries ) ;
* \ endcode
*
* @ param [ in ] part_name Partition name NVS in the partition table .
* If pass a NULL than will use NVS_DEFAULT_PART_NAME ( " nvs " ) .
*
* @ param [ out ] nvs_stats Returns filled structure nvs_states_t .
* It provides info about used memory the partition .
*
*
* @ return
* - ESP_OK if the changes have been written successfully .
* Return param nvs_stats will be filled .
* - ESP_ERR_NVS_PART_NOT_FOUND if the partition with label " name " is not found .
* Return param nvs_stats will be filled 0.
* - ESP_ERR_NVS_NOT_INITIALIZED if the storage driver is not initialized .
* Return param nvs_stats will be filled 0.
* - ESP_ERR_INVALID_ARG if nvs_stats equal to NULL .
* - ESP_ERR_INVALID_STATE if there is page with the status of INVALID .
* Return param nvs_stats will be filled not with correct values because
* not all pages will be counted . Counting will be interrupted at the first INVALID page .
*/
esp_err_t nvs_get_stats ( const char * part_name , nvs_stats_t * nvs_stats ) ;
/**
* @ brief Calculate all entries in a namespace .
*
* Note that to find out the total number of records occupied by the namespace ,
* add one to the returned value used_entries ( if err is equal to ESP_OK ) .
* Because the name space entry takes one entry .
*
* \ code { c }
* // Example of nvs_get_used_entry_count() to get amount of all key-value pairs in one namespace:
* nvs_handle handle ;
* nvs_open ( " namespace1 " , NVS_READWRITE , & handle ) ;
* . . .
* size_t used_entries ;
* size_t total_entries_namespace ;
* if ( nvs_get_used_entry_count ( handle , & used_entries ) = = ESP_OK ) {
* // the total number of records occupied by the namespace
* total_entries_namespace = used_entries + 1 ;
* }
* \ endcode
*
* @ param [ in ] handle Handle obtained from nvs_open function .
*
* @ param [ out ] used_entries Returns amount of used entries from a namespace .
*
*
* @ return
* - ESP_OK if the changes have been written successfully .
* Return param used_entries will be filled valid value .
* - ESP_ERR_NVS_NOT_INITIALIZED if the storage driver is not initialized .
* Return param used_entries will be filled 0.
* - ESP_ERR_NVS_INVALID_HANDLE if handle has been closed or is NULL .
* Return param used_entries will be filled 0.
* - ESP_ERR_INVALID_ARG if nvs_stats equal to NULL .
* - Other error codes from the underlying storage driver .
* Return param used_entries will be filled 0.
*/
esp_err_t nvs_get_used_entry_count ( nvs_handle handle , size_t * used_entries ) ;
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# ifdef __cplusplus
} // extern "C"
# endif
# endif //ESP_NVS_H
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