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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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# include <stdlib.h>
# include <time.h>
# include <unistd.h>
# include <sys/time.h>
# include "esp_log.h"
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# include "esp_sntp.h"
// Remove compat macro and include lwip API
# undef SNTP_OPMODE_POLL
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# include "lwip/apps/sntp.h"
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# include "lwip/priv/tcpip_priv.h"
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# include "esp_macros.h"
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static const char * TAG = " sntp " ;
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ESP_STATIC_ASSERT ( SNTP_OPMODE_POLL = = ESP_SNTP_OPMODE_POLL , " SNTP mode in lwip doesn't match the IDF enum. Please make sure lwIP version is correct " ) ;
ESP_STATIC_ASSERT ( SNTP_OPMODE_LISTENONLY = = ESP_SNTP_OPMODE_LISTENONLY , " SNTP mode in lwip doesn't match the IDF enum. Please make sure lwIP version is correct " ) ;
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# define SNTP_ERROR(func, message) do { \
err_t err = func ; \
LWIP_ERROR ( message , err = = ERR_OK , ) ; \
} while ( 0 )
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static volatile sntp_sync_mode_t sntp_sync_mode = SNTP_SYNC_MODE_IMMED ;
static volatile sntp_sync_status_t sntp_sync_status = SNTP_SYNC_STATUS_RESET ;
static sntp_sync_time_cb_t time_sync_notification_cb = NULL ;
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static uint32_t s_sync_interval = CONFIG_LWIP_SNTP_UPDATE_DELAY ;
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inline void sntp_set_sync_status ( sntp_sync_status_t sync_status )
{
sntp_sync_status = sync_status ;
}
void __attribute__ ( ( weak ) ) sntp_sync_time ( struct timeval * tv )
{
if ( sntp_sync_mode = = SNTP_SYNC_MODE_IMMED ) {
settimeofday ( tv , NULL ) ;
sntp_set_sync_status ( SNTP_SYNC_STATUS_COMPLETED ) ;
} else if ( sntp_sync_mode = = SNTP_SYNC_MODE_SMOOTH ) {
struct timeval tv_now ;
gettimeofday ( & tv_now , NULL ) ;
int64_t cpu_time = ( int64_t ) tv_now . tv_sec * 1000000L + ( int64_t ) tv_now . tv_usec ;
int64_t sntp_time = ( int64_t ) tv - > tv_sec * 1000000L + ( int64_t ) tv - > tv_usec ;
int64_t delta = sntp_time - cpu_time ;
struct timeval tv_delta = { . tv_sec = delta / 1000000L , . tv_usec = delta % 1000000L } ;
if ( adjtime ( & tv_delta , NULL ) = = - 1 ) {
ESP_LOGD ( TAG , " Function adjtime don't update time because the error is very big " ) ;
settimeofday ( tv , NULL ) ;
ESP_LOGD ( TAG , " Time was synchronized through settimeofday " ) ;
sntp_set_sync_status ( SNTP_SYNC_STATUS_COMPLETED ) ;
} else {
sntp_set_sync_status ( SNTP_SYNC_STATUS_IN_PROGRESS ) ;
}
}
if ( time_sync_notification_cb ) {
time_sync_notification_cb ( tv ) ;
}
}
void sntp_set_sync_mode ( sntp_sync_mode_t sync_mode )
{
sntp_sync_mode = sync_mode ;
}
sntp_sync_mode_t sntp_get_sync_mode ( void )
{
return sntp_sync_mode ;
}
// set a callback function for time synchronization notification
void sntp_set_time_sync_notification_cb ( sntp_sync_time_cb_t callback )
{
time_sync_notification_cb = callback ;
}
sntp_sync_status_t sntp_get_sync_status ( void )
{
sntp_sync_status_t ret_sync_status = SNTP_SYNC_STATUS_RESET ;
sntp_sync_status_t sync_status = sntp_sync_status ;
if ( sync_status = = SNTP_SYNC_STATUS_COMPLETED ) {
sntp_set_sync_status ( SNTP_SYNC_STATUS_RESET ) ;
ret_sync_status = SNTP_SYNC_STATUS_COMPLETED ;
} else if ( sync_status = = SNTP_SYNC_STATUS_IN_PROGRESS ) {
struct timeval outdelta ;
adjtime ( NULL , & outdelta ) ;
if ( outdelta . tv_sec = = 0 & & outdelta . tv_usec = = 0 ) {
sntp_set_sync_status ( SNTP_SYNC_STATUS_RESET ) ;
ret_sync_status = SNTP_SYNC_STATUS_COMPLETED ;
} else {
ret_sync_status = SNTP_SYNC_STATUS_IN_PROGRESS ;
}
}
return ret_sync_status ;
}
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void sntp_set_sync_interval ( uint32_t interval_ms )
{
if ( interval_ms < 15000 ) {
// SNTPv4 RFC 4330 enforces a minimum update time of 15 seconds
interval_ms = 15000 ;
}
s_sync_interval = interval_ms ;
}
uint32_t sntp_get_sync_interval ( void )
{
return s_sync_interval ;
}
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static void sntp_do_restart ( void * ctx )
{
( void ) ctx ;
sntp_stop ( ) ;
sntp_init ( ) ;
}
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bool sntp_restart ( void )
{
if ( sntp_enabled ( ) ) {
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SNTP_ERROR ( tcpip_callback ( sntp_do_restart , NULL ) , " sntp_restart: tcpip_callback() failed " ) ;
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return true ;
}
return false ;
}
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void sntp_set_system_time ( uint32_t sec , uint32_t us )
{
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// Note: SNTP/NTP timestamp is defined as 64-bit fixed point int
// in seconds from 1900 (integer part is the first 32 bits)
// which overflows in 2036.
// The lifetime of the NTP timestamps has been extended by convention
// of the MSB bit 0 to span between 1968 and 2104. This is implemented
// in lwip sntp module, so this API returns number of seconds/milliseconds
// representing dates range from 1968 to 2104.
// (see: RFC-4330#section-3 and https://github.com/lwip-tcpip/lwip/blob/239918cc/src/apps/sntp/sntp.c#L129-L134)
// Warning: Here, we convert the 32 bit NTP timestamp to 64 bit representation
// of system time (time_t). This won't work for timestamps in future
// after some time in 2104
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struct timeval tv = { . tv_sec = sec , . tv_usec = us } ;
sntp_sync_time ( & tv ) ;
}
void sntp_get_system_time ( uint32_t * sec , uint32_t * us )
{
struct timeval tv = { . tv_sec = 0 , . tv_usec = 0 } ;
gettimeofday ( & tv , NULL ) ;
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// Warning: Here, we convert 64 bit representation of system time (time_t) to
// 32 bit NTP timestamp. This won't work for future timestamps after some time in 2104
// (see: RFC-4330#section-3)
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* ( sec ) = tv . tv_sec ;
* ( us ) = tv . tv_usec ;
sntp_set_sync_status ( SNTP_SYNC_STATUS_RESET ) ;
}
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static void do_setoperatingmode ( void * ctx )
{
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sntp_setoperatingmode ( ( intptr_t ) ctx ) ;
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}
void esp_sntp_setoperatingmode ( esp_sntp_operatingmode_t operating_mode )
{
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SNTP_ERROR ( tcpip_callback ( do_setoperatingmode , ( void * ) operating_mode ) ,
" esp_sntp_setoperatingmode: tcpip_callback() failed " ) ;
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}
static void do_init ( void * ctx )
{
sntp_init ( ) ;
}
void esp_sntp_init ( void )
{
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SNTP_ERROR ( tcpip_callback ( do_init , NULL ) , " esp_sntp_init: tcpip_callback() failed " ) ;
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}
static void do_stop ( void * ctx )
{
sntp_stop ( ) ;
}
void esp_sntp_stop ( void )
{
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SNTP_ERROR ( tcpip_callback ( do_stop , NULL ) , " esp_sntp_stop: tcpip_callback() failed " ) ;
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}
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struct tcpip_setserver {
struct tcpip_api_call_data call ;
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u8_t idx ;
const ip_addr_t * addr ;
} ;
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static err_t do_setserver ( struct tcpip_api_call_data * msg )
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{
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struct tcpip_setserver * params = __containerof ( msg , struct tcpip_setserver , call ) ;
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sntp_setserver ( params - > idx , params - > addr ) ;
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return ERR_OK ;
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}
void esp_sntp_setserver ( u8_t idx , const ip_addr_t * addr )
{
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struct tcpip_setserver params = {
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. idx = idx ,
. addr = addr
} ;
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SNTP_ERROR ( tcpip_api_call ( do_setserver , & params . call ) , " esp_sntp_setserver :tcpip_api_call() failed " ) ;
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}
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struct tcpip_setservername {
struct tcpip_api_call_data call ;
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u8_t idx ;
const char * server ;
} ;
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static err_t do_setservername ( struct tcpip_api_call_data * msg )
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{
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struct tcpip_setservername * params = __containerof ( msg , struct tcpip_setservername , call ) ;
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sntp_setservername ( params - > idx , params - > server ) ;
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return ERR_OK ;
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}
void esp_sntp_setservername ( u8_t idx , const char * server )
{
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struct tcpip_setservername params = {
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. idx = idx ,
. server = server
} ;
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SNTP_ERROR ( tcpip_api_call ( do_setservername , & params . call ) , " esp_sntp_setservername :tcpip_api_call() failed " ) ;
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}
const char * esp_sntp_getservername ( u8_t idx )
{
return sntp_getservername ( idx ) ;
}
const ip_addr_t * esp_sntp_getserver ( u8_t idx )
{
return sntp_getserver ( idx ) ;
}
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uint8_t esp_sntp_getreachability ( uint8_t idx )
{
# if SNTP_MONITOR_SERVER_REACHABILITY
return sntp_getreachability ( idx ) ;
# endif
LWIP_ERROR ( " sntp_getreachability() in not enabled in lwipopts " , false , ) ;
return 0 ;
}
esp_sntp_operatingmode_t esp_sntp_getoperatingmode ( void )
{
return ( esp_sntp_operatingmode_t ) sntp_getoperatingmode ( ) ;
}
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# if LWIP_DHCP_GET_NTP_SRV
static void do_servermode_dhcp ( void * ctx )
{
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sntp_servermode_dhcp ( ( intptr_t ) ctx ) ;
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}
void esp_sntp_servermode_dhcp ( bool enable )
{
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SNTP_ERROR ( tcpip_callback ( do_servermode_dhcp , ( void * ) enable ) , " esp_sntp_servermode_dhcp: tcpip_callback() failed " ) ;
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}
# endif /* LWIP_DHCP_GET_NTP_SRV */
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bool esp_sntp_enabled ( void )
{
return sntp_enabled ( ) ;
}