#!/usr/bin/env python3 import json import paho.mqtt.client as mqtt import re import requests import serial import serial.threaded import sys import time location = "wohnzimmer" class SerialReader(serial.threaded.Protocol): """ Character- to line-wise data buffer for serial interfaces. Reads in new data whenever it becomes available and exposes a line-based interface to applications. """ def __init__(self, callback): """Create a new SerialReader object.""" self.callback = callback self.recv_buf = "" def __call__(self): return self def data_received(self, data): """Append newly received serial data to the line buffer.""" try: str_data = data.decode("UTF-8") self.recv_buf += str_data # We may get anything between \r\n, \n\r and simple \n newlines. # We assume that \n is always present and use str.strip to remove leading/trailing \r symbols # Note: Do not call str.strip on lines[-1]! Otherwise, lines may be mangled lines = self.recv_buf.split("\n") if len(lines) > 1: self.recv_buf = lines[-1] for line in lines[:-1]: self.callback(str.strip(line)) except UnicodeDecodeError: pass # sys.stderr.write('UART output contains garbage: {data}\n'.format(data = data)) class SerialMonitor: """SerialMonitor captures serial output for a specific amount of time.""" def __init__(self, port: str, baud: int, callback): """ Create a new SerialMonitor connected to port at the specified baud rate. Communication uses no parity, no flow control, and one stop bit. Data collection starts immediately. """ self.ser = serial.serial_for_url(port, do_not_open=True) self.ser.baudrate = baud self.ser.parity = "N" self.ser.rtscts = False self.ser.xonxoff = False try: self.ser.open() except serial.SerialException as e: sys.stderr.write( "Could not open serial port {}: {}\n".format(self.ser.name, e) ) sys.exit(1) self.reader = SerialReader(callback=callback) self.worker = serial.threaded.ReaderThread(self.ser, self.reader) self.worker.start() def close(self): """Close serial connection.""" self.worker.stop() self.ser.close() if __name__ == "__main__": mqtt = mqtt.Client() mqtt.connect("mqtt.derf0.net") step = 0 got_data = False max_accel = 0 max_magnet = 0 vcc = 0 temperature = 0 humidity = 0 pressure = 0 gas = 0 brightness = 0 def parse_line(line): global got_data global vcc global temperature global humidity global pressure global gas global brightness match = re.match("BME680 temperature: ([^ ]+)", line) if match: temperature = float(match.group(1)) match = re.match("BME680 humidity: ([^ ]+)", line) if match: humidity = float(match.group(1)) match = re.match("BME680 pressure: ([^ ]+)", line) if match: pressure = float(match.group(1)) match = re.match("BME680 gas resistance: ([^ ]+)", line) if match: gas = match.group(1) match = re.match("VCC: ([^ ]+)", line) if match: vcc = int(match.group(1)) match = re.match("MAX44009: ([^ ]+)", line) if match: got_data = True brightness = float(match.group(1)) requests.post( "http://influxdb.derf0.net:8086/write?db=sensors", f"bme680,area=hm17,location={location} temperature_celsius={temperature},humidity_relpercent={humidity},pressure_hpa={pressure},air_quality_ohm={gas}", ) requests.post( "http://influxdb.derf0.net:8086/write?db=sensors", f"max44009,area=hm17,location={location} illuminance_lux={brightness}", ) mqtt.publish( f"sensor/hm17/{location}/brightness_lux", brightness ) mqtt.publish( f"sensor/hm17/{location}/bme680", json.dumps( { "temperature_celsius": round(temperature, 1), "humidity_percent": round(humidity, 1), "pressure_hpa": pressure, "iaq_ohm": gas, } ), ) temperature = None humidity = None pressure = None gas = None vcc = None brightness = None monitor = SerialMonitor("/dev/ttyUSB0", 57600, parse_line) try: while True: time.sleep(5) step += 1 if step == 4: if not got_data: print("Error: received no data for 20 seconds", file=sys.stderr) sys.exit(1) got_data = False step = 0 except KeyboardInterrupt: monitor.close() mqtt.disconnect()