#!/usr/bin/env python3 # SPDX-License-Identifier: BSD-3-Clause import logging import sys import paho.mqtt.client as mqtt from typing import Optional from argparse import ArgumentParser from queue import SimpleQueue from home.mqtt import Mqtt from home.config import config from syncleo import ( Kettle, PowerType, protocol as kettle_proto ) k: Optional[Kettle] = None logger = logging.getLogger(__name__) control_tasks = SimpleQueue() class MqttServer(Mqtt): def __init__(self): super().__init__(clean_session=False) def on_connect(self, client: mqtt.Client, userdata, flags, rc): super().on_connect(client, userdata, flags, rc) logger.info("subscribing to #") client.subscribe('#', qos=1) def on_message(self, client: mqtt.Client, userdata, msg): try: print(msg.topic, msg.payload) except Exception as e: logger.exception(str(e)) def kettle_connection_established(response: kettle_proto.MessageResponse): try: assert isinstance(response, kettle_proto.AckMessage), f'ACK expected, but received: {response}' except AssertionError: k.stop_all() return def next_task(response: kettle_proto.MessageResponse): try: assert response is not False, 'server error' except AssertionError: k.stop_all() return if not control_tasks.empty(): task = control_tasks.get() f, args = task(k) args.append(next_task) f(*args) else: k.stop_all() next_task(response) def main(): tempmin = 30 tempmax = 100 tempstep = 5 parser = ArgumentParser() parser.add_argument('-m', dest='mode', required=True, type=str, choices=('mqtt', 'control')) parser.add_argument('--on', action='store_true') parser.add_argument('--off', action='store_true') parser.add_argument('-t', '--temperature', dest='temp', type=int, default=tempmax, choices=range(tempmin, tempmax+tempstep, tempstep)) arg = config.load_app('polaris_kettle_util', use_cli=True, parser=parser) if arg.mode == 'mqtt': server = MqttServer() try: server.connect_and_loop(loop_forever=True) except KeyboardInterrupt: pass elif arg.mode == 'control': if arg.on and arg.off: raise RuntimeError('--on and --off are mutually exclusive') if arg.off: control_tasks.put(lambda k: (k.set_power, [PowerType.OFF])) else: if arg.temp == tempmax: control_tasks.put(lambda k: (k.set_power, [PowerType.ON])) else: control_tasks.put(lambda k: (k.set_target_temperature, [arg.temp])) control_tasks.put(lambda k: (k.set_power, [PowerType.CUSTOM])) k = Kettle(mac=config['kettle']['mac'], device_token=config['kettle']['token']) info = k.discover() if not info: print('no device found.') return 1 print('found service:', info) k.start_server_if_needed(kettle_connection_established) return 0 if __name__ == '__main__': sys.exit(main())