Example #1
0
 def restart_and_reconnect(self, err_msg):
     my_rtc = rtc_esp32.RtcEsp32()  # initialize the class
     msg = my_rtc.format_datetime(my_rtc.rtc_now()) + ' -> ' + err_msg
     print(msg)
     with open('error.txt' , 'a') as f:
         f.write(msg+'\n')
     utime.sleep(10)
     machine.reset()
Example #2
0
    def connect_and_subscribe(self):
#         try:
            print('-----------------------------------------------------------')
            my_wifi = wifi_esp32.WifiEsp32(WIFI_SSID, WIFI_PW)
            my_wifi.connect_wifi()
            mqtt_client = rhodo.mqtt_connect(MQTT_CLIENT_ID, MQTT_BROKER)
            print('MQTT mqtt_client connected on ' + MQTT_BROKER + ' with the topic "' + MQTT_TOPIC_PUB + '"')
            # Real time clock (RTC) initialisation
            my_rtc = rtc_esp32.RtcEsp32()  # initialize the class
            my_rtc.rtc_init()  # initialize the rtc with local date and time
            txt = "now date and time :" + my_rtc.format_datetime(my_rtc.rtc_now()) + '\n'
            print('-----------------------------------------------------------')
            return mqtt_client
Example #3
0
        led.on()
        utime.sleep(ton)
        led.off()
        utime.sleep(toff)
    time.sleep(tpause)

if __name__ == '__main__':
    
    # WIFI, mosquitto MQTT connection and RTC sync
    print('-----------------------------------------------------------')
    my_wifi = wifi_esp32.WifiEsp32(WIFI_SSID, WIFI_PW)
    my_wifi.connect_wifi()
    mqtt_client = mqtt_connect(MQTT_CLIENT_ID, MQTT_BROKER)
    print('MQTT mqtt_client connected on ' + MQTT_BROKER + ' with the topic "' + MQTT_TOPIC_PUB + '"')
    # Real time clock (RTC) initialisation
    my_rtc = rtc_esp32.RtcEsp32()  # initialize the class
    my_rtc.rtc_init()  # initialize the rtc with local date and time
    txt = "now date and time :" + my_rtc.format_datetime(now) + '\n'
    print('-----------------------------------------------------------')
    
    # imported classes initialisation
    my_ds18x20 = ds18x20_esp32.Ds18x20Esp32(DS18B20_PIN) # DS18B20 temperature sensors
    my_dhtxx = dhtxx_esp32.DhtxxEsp32() # DHT11 and DHT22 air temperature and humidity sensors
    my_seesaw = stemma_soil_sensor.StemmaSoilSensor(i2c) # seesaw soil humidity and temperature sensor
    my_HW390_soil_1 = voltage_esp32.VoltageEsp32(HW390_PIN_1) # HW390 soil humidity sensor 1
    my_HW390_soil_2 = voltage_esp32.VoltageEsp32(HW390_PIN_2) # HW390 soil humidity sensor 2
    my_divider_voltage = voltage_esp32.VoltageEsp32(ANALOG_PIN, R1, R2) # for battery voltage
    
    passe = 1
    while True: