def __init__(self, bt_address_s, serial, sensor_type_s, gateway_s, pkt): self.bt_address = bt_address_s if serial: self.serial = serial if ((sensor_type_s == "IM") or (sensor_type_s == "EP")): self.seq_num = str_util.c2B(pkt[7]) self.val_temp = str_util.bytes2short(str_util.c2B(pkt[9]), str_util.c2B(pkt[8])) / 100.0 self.val_humi = str_util.bytes2ushort(str_util.c2B( pkt[11]), str_util.c2B(pkt[10])) / 100.0 self.val_light = str_util.bytes2ushort(str_util.c2B(pkt[13]), str_util.c2B(pkt[12])) self.val_uv = str_util.bytes2ushort(str_util.c2B(pkt[15]), str_util.c2B(pkt[14])) / 100.0 self.val_pressure = str_util.bytes2ushort(str_util.c2B( pkt[17]), str_util.c2B(pkt[16])) / 10.0 self.val_noise = str_util.bytes2ushort(str_util.c2B( pkt[19]), str_util.c2B(pkt[18])) / 100.0 self.val_battery = (str_util.c2B(pkt[26]) + 100) * 10.0 if sensor_type_s == "IM": self.val_ax = str_util.bytes2short(str_util.c2B( pkt[21]), str_util.c2B(pkt[20])) / 10.0 self.val_ay = str_util.bytes2short(str_util.c2B( pkt[23]), str_util.c2B(pkt[22])) / 10.0 self.val_az = str_util.bytes2short(str_util.c2B( pkt[25]), str_util.c2B(pkt[24])) / 10.0 self.val_di = 0.0 self.val_heat = 0.0 self.calc_factor() elif sensor_type_s == "EP": self.val_ax = 0.0 self.val_ay = 0.0 self.val_az = 0.0 self.val_di = str_util.bytes2short(str_util.c2B( pkt[21]), str_util.c2B(pkt[20])) / 100.0 self.val_heat = str_util.bytes2short(str_util.c2B( pkt[23]), str_util.c2B(pkt[22])) / 100.0 else: self.val_ax = 0.0 self.val_ay = 0.0 self.val_az = 0.0 self.val_di = 0.0 self.val_heat = 0.0 self.calc_factor() else: # Rbt self.seq_num = str_util.c2B(pkt[8]) if (sensor_type_s == "Rbt 0x01"): self.val_temp = str_util.bytes2short(str_util.c2B( pkt[10]), str_util.c2B(pkt[9])) / 100.0 self.val_humi = str_util.bytes2ushort(str_util.c2B( pkt[12]), str_util.c2B(pkt[11])) / 100.0 self.val_light = str_util.bytes2ushort(str_util.c2B(pkt[14]), str_util.c2B(pkt[13])) self.val_pressure = str_util.bytes2uint32( str_util.c2B(pkt[18]), str_util.c2B(pkt[17]), str_util.c2B(pkt[16]), str_util.c2B(pkt[15])) / 1000.0 self.val_noise = str_util.bytes2ushort(str_util.c2B( pkt[20]), str_util.c2B(pkt[19])) / 100.0 self.val_etvoc = str_util.bytes2ushort(str_util.c2B(pkt[22]), str_util.c2B(pkt[21])) self.val_eco2 = str_util.bytes2ushort(str_util.c2B(pkt[24]), str_util.c2B(pkt[23])) self.calc_factor() elif (sensor_type_s == "Rbt 0x02"): self.val_di = str_util.bytes2short(str_util.c2B( pkt[10]), str_util.c2B(pkt[9])) / 100.0 self.val_heat = str_util.bytes2short(str_util.c2B( pkt[12]), str_util.c2B(pkt[11])) / 100.0 self.val_si = str_util.bytes2ushort(str_util.c2B( pkt[15]), str_util.c2B(pkt[14])) / 10.0 self.val_pga = str_util.bytes2ushort(str_util.c2B( pkt[17]), str_util.c2B(pkt[16])) / 10.0 self.val_seismic = str_util.bytes2ushort( str_util.c2B(pkt[19]), str_util.c2B(pkt[18])) / 1000.0 self.val_ax = str_util.bytes2short(str_util.c2B( pkt[21]), str_util.c2B(pkt[20])) / 10.0 self.val_ay = str_util.bytes2short(str_util.c2B( pkt[23]), str_util.c2B(pkt[22])) / 10.0 self.val_az = str_util.bytes2short(str_util.c2B( pkt[25]), str_util.c2B(pkt[24])) / 10.0 if (str_util.c2B(pkt[13]) == 0x00): self.vibinfo = "NONE" elif (str_util.c2B(pkt[13]) == 0x01): self.vibinfo = "VIBRATION" elif (str_util.c2B(pkt[13]) == 0x02): self.vibinfo = "EARTHQUAKE" else: pass self.rssi = str_util.c2b(pkt[-1]) self.distance = self.return_accuracy(self.rssi, ble.BEACON_MEASURED_POWER) self.tick_register = datetime.datetime.now() self.tick_last_update = self.tick_register self.flag_active = True self.sensor_type = sensor_type_s self.gateway = gateway_s
def __init__(self, bt_address_s, sensor_type_s, gateway_s, pkt): self.bt_address = bt_address_s self.seq_num = str_util.c2B(pkt[7]) self.val_temp = str_util.bytes2short(str_util.c2B(pkt[9]), str_util.c2B(pkt[8])) / 100.0 self.val_humi = str_util.bytes2ushort(str_util.c2B(pkt[11]), str_util.c2B(pkt[10])) / 100.0 self.val_light = str_util.bytes2ushort(str_util.c2B(pkt[13]), str_util.c2B(pkt[12])) self.val_uv = str_util.bytes2ushort(str_util.c2B(pkt[15]), str_util.c2B(pkt[14])) / 100.0 self.val_pressure = str_util.bytes2ushort(str_util.c2B(pkt[17]), str_util.c2B(pkt[16])) / 10.0 self.val_noise = str_util.bytes2ushort(str_util.c2B(pkt[19]), str_util.c2B(pkt[18])) / 100.0 self.val_battery = (str_util.c2B(pkt[26]) + 100) * 10.0 if sensor_type_s == "IM": self.val_ax = str_util.bytes2short(str_util.c2B(pkt[21]), str_util.c2B(pkt[20])) / 10.0 self.val_ay = str_util.bytes2short(str_util.c2B(pkt[23]), str_util.c2B(pkt[22])) / 10.0 self.val_az = str_util.bytes2short(str_util.c2B(pkt[25]), str_util.c2B(pkt[24])) / 10.0 self.val_di = 0.0 self.val_heat = 0.0 self.calc_factor() elif sensor_type_s == "EP": self.val_ax = 0.0 self.val_ay = 0.0 self.val_az = 0.0 self.val_di = str_util.bytes2short(str_util.c2B(pkt[21]), str_util.c2B(pkt[20])) / 100.0 self.val_heat = str_util.bytes2short(str_util.c2B(pkt[23]), str_util.c2B(pkt[22])) / 100.0 else: self.val_ax = 0.0 self.val_ay = 0.0 self.val_az = 0.0 self.val_di = 0.0 self.val_heat = 0.0 self.calc_factor() self.rssi = str_util.c2b(pkt[-1]) self.distance = self.return_accuracy(self.rssi, ble.BEACON_MEASURED_POWER) self.tick_register = datetime.datetime.now() self.tick_last_update = self.tick_register self.flag_active = True self.sensor_type = sensor_type_s self.gateway = gateway_s