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/*
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* SPDX - FileCopyrightText : 2015 - 2024 Espressif Systems ( Shanghai ) CO LTD
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*
* SPDX - License - Identifier : Apache - 2.0
*/
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# ifndef __ESP_SNTP_H__
# define __ESP_SNTP_H__
# include "lwip/err.h"
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# include "lwip/ip.h"
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# ifdef __cplusplus
extern " C " {
# endif
/*
* The time update takes place in the sntp_sync_time ( ) function .
* The user has the ability to redefine this function in order
* to re - define its functionality . This function has two time update modes ,
* which can be set via the sntp_set_sync_mode ( ) function .
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* Two available modes are as follows :
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* - the first is an immediate update when receiving time from the sntp server ,
* - the second is a smooth time update ( if the time error is no more than 35 minutes ,
* and an immediate update if the error is more than 35 minutes ) .
*
* To receive notification of time synchronization ,
* you can use the callback function or get the synchronization status
* via the sntp_get_sync_status ( ) function .
*
* To determine the time synchronization time on the device , you can use :
* 1 ) sntp_set_time_sync_notification_cb ( ) function to set the callback function ,
* which is convenient to use to receive notification of the update time .
* 2 ) sntp_get_sync_status ( ) function for getting time synchronization status .
* After the time synchronization is completed , the status will be
* SNTP_SYNC_STATUS_COMPLETED , after , it will be reseted to SNTP_SYNC_STATUS_RESET
* to wait for the next sync cycle .
*/
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/// Aliases for esp_sntp prefixed API (inherently thread safe)
# define esp_sntp_sync_time sntp_sync_time
# define esp_sntp_set_sync_mode sntp_set_sync_mode
# define esp_sntp_get_sync_mode sntp_get_sync_mode
# define esp_sntp_get_sync_status sntp_get_sync_status
# define esp_sntp_set_sync_status sntp_set_sync_status
# define esp_sntp_set_time_sync_notification_cb sntp_set_time_sync_notification_cb
# define esp_sntp_set_sync_interval sntp_set_sync_interval
# define esp_sntp_get_sync_interval sntp_get_sync_interval
# define esp_sntp_restart sntp_restart
# ifndef SNTP_OPMODE_POLL
# define SNTP_OPMODE_POLL ESP_SNTP_OPMODE_POLL
# else
# warning "Defined!"
# endif /* SNTP_OPMODE_POLL */
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/// SNTP time update mode
typedef enum {
SNTP_SYNC_MODE_IMMED , /*!< Update system time immediately when receiving a response from the SNTP server. */
SNTP_SYNC_MODE_SMOOTH , /*!< Smooth time updating. Time error is gradually reduced using adjtime function. If the difference between SNTP response time and system time is large (more than 35 minutes) then update immediately. */
} sntp_sync_mode_t ;
/// SNTP sync status
typedef enum {
SNTP_SYNC_STATUS_RESET , // Reset status.
SNTP_SYNC_STATUS_COMPLETED , // Time is synchronized.
SNTP_SYNC_STATUS_IN_PROGRESS , // Smooth time sync in progress.
} sntp_sync_status_t ;
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/// SNTP operating modes per lwip SNTP module
typedef enum {
ESP_SNTP_OPMODE_POLL ,
ESP_SNTP_OPMODE_LISTENONLY ,
} esp_sntp_operatingmode_t ;
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/**
* @ brief SNTP callback function for notifying about time sync event
*
* @ param tv Time received from SNTP server .
*/
typedef void ( * sntp_sync_time_cb_t ) ( struct timeval * tv ) ;
/**
* @ brief This function updates the system time .
*
* This is a weak - linked function . It is possible to replace all SNTP update functionality
* by placing a sntp_sync_time ( ) function in the app firmware source .
* If the default implementation is used , calling sntp_set_sync_mode ( ) allows
* the time synchronization mode to be changed to instant or smooth .
* If a callback function is registered via sntp_set_time_sync_notification_cb ( ) ,
* it will be called following time synchronization .
*
* @ param tv Time received from SNTP server .
*/
void sntp_sync_time ( struct timeval * tv ) ;
/**
* @ brief Set the sync mode
*
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* Modes allowed : SNTP_SYNC_MODE_IMMED and SNTP_SYNC_MODE_SMOOTH .
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* @ param sync_mode Sync mode .
*/
void sntp_set_sync_mode ( sntp_sync_mode_t sync_mode ) ;
/**
* @ brief Get set sync mode
*
* @ return SNTP_SYNC_MODE_IMMED : Update time immediately .
* SNTP_SYNC_MODE_SMOOTH : Smooth time updating .
*/
sntp_sync_mode_t sntp_get_sync_mode ( void ) ;
/**
* @ brief Get status of time sync
*
* After the update is completed , the status will be returned as SNTP_SYNC_STATUS_COMPLETED .
* After that , the status will be reset to SNTP_SYNC_STATUS_RESET .
* If the update operation is not completed yet , the status will be SNTP_SYNC_STATUS_RESET .
* If a smooth mode was chosen and the synchronization is still continuing ( adjtime works ) , then it will be SNTP_SYNC_STATUS_IN_PROGRESS .
*
* @ return SNTP_SYNC_STATUS_RESET : Reset status .
* SNTP_SYNC_STATUS_COMPLETED : Time is synchronized .
* SNTP_SYNC_STATUS_IN_PROGRESS : Smooth time sync in progress .
*/
sntp_sync_status_t sntp_get_sync_status ( void ) ;
/**
* @ brief Set status of time sync
*
* @ param sync_status status of time sync ( see sntp_sync_status_t )
*/
void sntp_set_sync_status ( sntp_sync_status_t sync_status ) ;
/**
* @ brief Set a callback function for time synchronization notification
*
* @ param callback a callback function
*/
void sntp_set_time_sync_notification_cb ( sntp_sync_time_cb_t callback ) ;
/**
* @ brief Set the sync interval of SNTP operation
*
* Note : SNTPv4 RFC 4330 enforces a minimum sync interval of 15 seconds .
* This sync interval will be used in the next attempt update time throught SNTP .
* To apply the new sync interval call the sntp_restart ( ) function ,
* otherwise , it will be applied after the last interval expired .
*
* @ param interval_ms The sync interval in ms . It cannot be lower than 15 seconds , otherwise 15 seconds will be set .
*/
void sntp_set_sync_interval ( uint32_t interval_ms ) ;
/**
* @ brief Get the sync interval of SNTP operation
*
* @ return the sync interval
*/
uint32_t sntp_get_sync_interval ( void ) ;
/**
* @ brief Restart SNTP
*
* @ return True - Restart
* False - SNTP was not initialized yet
*/
bool sntp_restart ( void ) ;
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/**
* @ brief Sets SNTP operating mode . The mode has to be set before init .
*
* @ param operating_mode Desired operating mode
*/
void esp_sntp_setoperatingmode ( esp_sntp_operatingmode_t operating_mode ) ;
/**
* @ brief Init and start SNTP service
*/
void esp_sntp_init ( void ) ;
/**
* @ brief Stops SNTP service
*/
void esp_sntp_stop ( void ) ;
/**
* @ brief Sets SNTP server address
*
* @ param idx Index of the server
* @ param addr IP address of the server
*/
void esp_sntp_setserver ( u8_t idx , const ip_addr_t * addr ) ;
/**
* @ brief Sets SNTP hostname
* @ param idx Index of the server
* @ param server Name of the server
*/
void esp_sntp_setservername ( u8_t idx , const char * server ) ;
/**
* @ brief Gets SNTP server name
* @ param idx Index of the server
* @ return Name of the server
*/
const char * esp_sntp_getservername ( u8_t idx ) ;
/**
* @ brief Get SNTP server IP
* @ param idx Index of the server
* @ return IP address of the server
*/
const ip_addr_t * esp_sntp_getserver ( u8_t idx ) ;
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/**
* @ brief Checks if sntp is enabled
* @ return true if sntp module is enabled
*/
bool esp_sntp_enabled ( void ) ;
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/**
* @ brief Gets the server reachability shift register as described in RFC 5905.
* @ param idx Index of the SNTP server
* @ return reachability shift register
*/
uint8_t esp_sntp_getreachability ( uint8_t idx ) ;
/**
* @ brief Get the configured operating mode
*
* @ return operating mode enum
*/
esp_sntp_operatingmode_t esp_sntp_getoperatingmode ( void ) ;
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# if LWIP_DHCP_GET_NTP_SRV
/**
* @ brief Enable acquiring SNTP server from DHCP
* @ param enable True for enabling SNTP from DHCP
*/
void esp_sntp_servermode_dhcp ( bool enable ) ;
# endif /* LWIP_DHCP_GET_NTP_SRV */
# if !defined(ESP_LWIP_COMPONENT_BUILD) && !defined(ESP_NETIF_COMPONENT_BUILD)
/**
* @ brief if not build within lwip , provide translating inlines ,
* that will warn about thread safety
*/
static inline __attribute__ ( ( deprecated ( " use esp_sntp_setoperatingmode() instead " ) ) )
void sntp_setoperatingmode ( u8_t operating_mode )
{
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esp_sntp_setoperatingmode ( ( esp_sntp_operatingmode_t ) operating_mode ) ;
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}
static inline __attribute__ ( ( deprecated ( " use esp_sntp_servermode_dhcp() instead " ) ) )
void sntp_servermode_dhcp ( int set_servers_from_dhcp )
{
# if LWIP_DHCP_GET_NTP_SRV
esp_sntp_servermode_dhcp ( set_servers_from_dhcp ) ;
# endif
}
static inline __attribute__ ( ( deprecated ( " use esp_sntp_setservername() instead " ) ) )
void sntp_setservername ( u8_t idx , const char * server )
{
esp_sntp_setservername ( idx , server ) ;
}
static inline __attribute__ ( ( deprecated ( " use esp_sntp_init() instead " ) ) )
void sntp_init ( void )
{
esp_sntp_init ( ) ;
}
static inline __attribute__ ( ( deprecated ( " use esp_sntp_getservername() instead " ) ) )
const char * sntp_getservername ( u8_t idx )
{
return esp_sntp_getservername ( idx ) ;
}
static inline __attribute__ ( ( deprecated ( " use esp_sntp_getserver() instead " ) ) )
const ip_addr_t * sntp_getserver ( u8_t idx )
{
return esp_sntp_getserver ( idx ) ;
}
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static inline uint8_t sntp_getreachability ( uint8_t idx )
{
return esp_sntp_getreachability ( idx ) ;
}
static inline __attribute__ ( ( deprecated ( " use esp_sntp_getoperatingmode() instead " ) ) )
esp_sntp_operatingmode_t sntp_getoperatingmode ( void )
{
return esp_sntp_getoperatingmode ( ) ;
}
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# endif /* ESP_LWIP_COMPONENT_BUILD */
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# ifdef __cplusplus
}
# endif
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# endif // __ESP_SNTP_H__