timekeeper use syncprovider by Time.h
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6ab4a0bd9f
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5fb4c7bec2
@ -5,15 +5,12 @@
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#include "senddata.h"
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#include "senddata.h"
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#include "rcommand.h"
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#include "rcommand.h"
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#include "spislave.h"
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#include "spislave.h"
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#include "timekeeper.h"
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#include <lmic.h>
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#include <lmic.h>
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#ifdef HAS_BME
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#ifdef HAS_BME
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#include "bme680mems.h"
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#include "bme680mems.h"
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#endif
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#endif
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void doHousekeeping(void);
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void doHousekeeping(void);
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uint64_t uptime(void);
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uint64_t uptime(void);
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void reset_counters(void);
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void reset_counters(void);
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@ -35,7 +35,4 @@ void lora_queuereset(void);
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void lora_housekeeping(void);
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void lora_housekeeping(void);
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void user_request_network_time_callback(void *pVoidUserUTCTime,
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void user_request_network_time_callback(void *pVoidUserUTCTime,
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int flagSuccess);
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int flagSuccess);
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time_t set_loratime(time_t t);
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time_t get_loratime(void);
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#endif
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#endif
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@ -18,9 +18,9 @@ extern const char timeSetSymbols[];
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void IRAM_ATTR CLOCKIRQ(void);
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void IRAM_ATTR CLOCKIRQ(void);
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void clock_init(void);
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void clock_init(void);
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void clock_loop(void *pvParameters);
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void clock_loop(void *pvParameters);
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void time_sync(void);
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time_t time_sync(void);
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void timepulse_start(void);
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void timepulse_start(void);
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uint8_t syncTime(getExternalTime getTimeFunction, timesource_t const caller);
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time_t syncTime(getExternalTime getTimeFunction, timesource_t const caller);
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uint8_t timepulse_init(void);
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uint8_t timepulse_init(void);
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uint8_t TimeIsValid(time_t const t);
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uint8_t TimeIsValid(time_t const t);
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time_t syncProvider_CB(void);
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time_t syncProvider_CB(void);
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@ -19,7 +19,6 @@ void doHousekeeping() {
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spi_housekeeping();
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spi_housekeeping();
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lora_housekeeping();
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lora_housekeeping();
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time_sync();
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// task storage debugging //
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// task storage debugging //
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ESP_LOGD(TAG, "IRQhandler %d bytes left | Taskstate = %d",
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ESP_LOGD(TAG, "IRQhandler %d bytes left | Taskstate = %d",
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@ -132,7 +132,7 @@ void refreshtheDisplay() {
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uint8_t msgWaiting;
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uint8_t msgWaiting;
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char timeState, buff[16];
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char timeState, buff[16];
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time_t t;
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time_t t = myTZ.toLocal(now()); // note: call now() here *before* locking mutex!
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// block i2c bus access
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// block i2c bus access
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if (I2C_MUTEX_LOCK()) {
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if (I2C_MUTEX_LOCK()) {
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@ -216,8 +216,7 @@ void refreshtheDisplay() {
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// update LoRa status display (line 6)
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// update LoRa status display (line 6)
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u8x8.printf("%-16s", display_line6);
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u8x8.printf("%-16s", display_line6);
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#else // we want a systime display instead LoRa status
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#else // we want a systime display instead LoRa status
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t = myTZ.toLocal(now());
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timeState = TimePulseTick ? ' ' : timeSetSymbols[timeSource];
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timeState = TimePulseTick ? ' ' : timeSetSymbols[timeSource];
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TimePulseTick = false;
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TimePulseTick = false;
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u8x8.printf("%02d:%02d:%02d%c %2d.%3s", hour(t), minute(t), second(t),
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u8x8.printf("%02d:%02d:%02d%c %2d.%3s", hour(t), minute(t), second(t),
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timeState, day(t), printmonth[month(t)]);
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timeState, day(t), printmonth[month(t)]);
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@ -472,19 +472,11 @@ void user_request_network_time_callback(void *pVoidUserUTCTime,
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*pUserUTCTime += requestDelaySec;
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*pUserUTCTime += requestDelaySec;
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// Update system time with time read from the network
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// Update system time with time read from the network
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set_loratime(*pUserUTCTime); // store time in time sync provider function
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if (TimeIsValid(*pUserUTCTime)) {
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if (syncTime(get_loratime, _lora))
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setTime(*pUserUTCTime);
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ESP_LOGI(TAG, "Received recent time from LoRa");
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ESP_LOGI(TAG, "Received recent time from LoRa");
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}
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else
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else
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ESP_LOGI(TAG, "Invalid time received from LoRa");
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ESP_LOGI(TAG, "Invalid time received from LoRa");
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#endif // HAS_LORA
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#endif // HAS_LORA
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} // user_request_network_time_callback
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} // user_request_network_time_callback
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time_t set_loratime(time_t t) {
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static time_t loratime = 0; // stores time for retrieval
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if (t > loratime)
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loratime = t; // store time if it is recent
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return loratime;
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}
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time_t get_loratime(void) { return set_loratime(0); }
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@ -363,9 +363,8 @@ void setup() {
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timepulse_start();
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timepulse_start();
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#ifdef TIME_SYNC_INTERVAL
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#ifdef TIME_SYNC_INTERVAL
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setSyncInterval(TIME_SYNC_INTERVAL * 60); // controls timeStatus() via Time.h
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setSyncInterval(TIME_SYNC_INTERVAL * 60); // controls timeStatus() via Time.h
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setSyncProvider(syncProvider_CB); // is called by Time.h
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setSyncProvider(time_sync); // is called by Time.h
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#endif
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#endif
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time_sync(); // sync time
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// start wifi in monitor mode and start channel rotation timer
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// start wifi in monitor mode and start channel rotation timer
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ESP_LOGI(TAG, "Starting Wifi...");
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ESP_LOGI(TAG, "Starting Wifi...");
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@ -8,22 +8,23 @@ const char timeSetSymbols[] = {'G', 'R', 'L', '?'};
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getExternalTime TimeSourcePtr; // pointer to time source function
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getExternalTime TimeSourcePtr; // pointer to time source function
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void time_sync() {
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time_t time_sync() {
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// check synchonization of systime, called by cyclic.cpp
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// check synchonization of systime, called by cyclic.cpp
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time_t t = 0;
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#ifdef TIME_SYNC_INTERVAL
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#ifdef TIME_SYNC_INTERVAL
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if (timeStatus() == timeSet) // timeStatus() is flipped in Time.h
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return;
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#ifdef HAS_GPS
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#ifdef HAS_GPS
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if (syncTime(get_gpstime, _gps))
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t = syncTime(get_gpstime, _gps);
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return; // attempt sync with GPS time
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if (t)
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return t; // attempt sync with GPS time
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#endif
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#endif
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// no GPS -> fallback to RTC time while trying lora sync
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// no GPS -> fallback to RTC time while trying lora sync
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#ifdef HAS_RTC
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#ifdef HAS_RTC
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if (!syncTime(get_rtctime, _rtc)) // sync with RTC time
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t = syncTime(get_rtctime, _rtc); // sync with RTC time
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if (!t)
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ESP_LOGW(TAG, "no confident RTC time");
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ESP_LOGW(TAG, "no confident RTC time");
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#endif
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#endif
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@ -33,26 +34,25 @@ void time_sync() {
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#endif
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#endif
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#endif // TIME_SYNC_INTERVAL
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#endif // TIME_SYNC_INTERVAL
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return t;
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} // time_sync()
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} // time_sync()
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// sync time on start of next second from GPS or RTC
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// sync time on start of next second from GPS or RTC
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uint8_t syncTime(getExternalTime getTimeFunction, timesource_t const caller) {
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time_t syncTime(getExternalTime getTimeFunction, timesource_t const caller) {
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TimeSourcePtr = getTimeFunction;
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time_t t;
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time_t t;
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TimeSourcePtr = getTimeFunction;
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if (!TimeSourcePtr)
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if (!TimeSourcePtr)
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goto error;
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goto error;
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if ((caller == _gps || caller == _rtc)) // ticking timesource?
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xSemaphoreTake(TimePulse, pdMS_TO_TICKS(1000)); // wait for pps
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xSemaphoreTake(TimePulse, pdMS_TO_TICKS(1000)); // then wait on pps
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t = TimeSourcePtr(); // get time from given timesource
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t = TimeSourcePtr(); // get time from given timesource
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if (TimeIsValid(t)) {
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if (TimeIsValid(t)) {
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if (caller == _gps) // gps time concerns past second
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if (caller == _gps) // gps time concerns past second
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t++;
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t++;
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setTime(t); // flips timeStatus() in Time.h
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timeSource = caller;
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timeSource = caller;
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ESP_LOGD(TAG, "Time source %c set time to %02d:%02d:%02d",
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ESP_LOGD(TAG, "Time source %c set time to %02d:%02d:%02d",
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timeSetSymbols[timeSource], hour(t), minute(t), second(t));
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timeSetSymbols[timeSource], hour(t), minute(t), second(t));
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@ -62,7 +62,7 @@ uint8_t syncTime(getExternalTime getTimeFunction, timesource_t const caller) {
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set_rtctime(t);
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set_rtctime(t);
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#endif
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#endif
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return 1; // success
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return t; // success
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}
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}
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error:
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error:
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@ -72,14 +72,6 @@ error:
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} // syncTime()
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} // syncTime()
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// callback function called by Time.h in interval set in main.cpp
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time_t syncProvider_CB(void) {
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timeSource = _unsynced;
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return 0;
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}
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// helper function to setup a pulse per second for time synchronisation
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// helper function to setup a pulse per second for time synchronisation
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uint8_t timepulse_init() {
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uint8_t timepulse_init() {
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