import json import paho.mqtt.client as mqtt import threading import time from typing import Dict class Heater: def __init__(self, topic): self.not_initialized_yet = True self.wanted_temperature = 10 self.actual_temperature = 10 self.topic = topic def needs_publish(self): if self.not_initialized_yet: return True else: return self.wanted_temperature != self.actual_temperature def update_actual_heating_point(self, payload): heating_setpoint = int(payload["current_heating_setpoint"]) if self.not_initialized_yet: self.not_initialized_yet = False self.wanted_temperature = heating_setpoint print("%s: update wanted temperature %d" % (self.topic, self.actual_temperature)) self.actual_temperature = heating_setpoint print("%s: update actual temperature %d" % (self.topic, self.actual_temperature)) def topic_and_payload_for_query(self): payload = { "current_heating_setpoint": "", "occupied_heating_setpoint": "", "unoccupied_heating_setpoint": "", "local_temperature": "", #"pi_heating_demand": "", #"system_mode": "", } return ("%s/get" % self.topic), json.dumps(payload) def topic_and_payload_for_set(self): payload = { "system_mode": "auto", #"current_heating_setpoint": str(self.wanted_temperature), "occupied_heating_setpoint": str(self.wanted_temperature), "unoccupied_heating_setpoint": str(self.wanted_temperature), "eurotronic_host_flags": {"window_open": True} } return ("%s/set" % self.topic), json.dumps(payload) class Watcher: def __init__(self, heater: Dict[str, Heater]): self.heater = heater def publish(self, client): for heater in self.heater.values(): if heater.needs_publish(): topic, payload = heater.topic_and_payload_for_set() client.publish(topic, payload) time.sleep(2) def update(self, name, temperature): heater: Heater = self.heater.get(name) heater.wanted_temperature = temperature def get_topics(self): return [heater.topic for heater in self.heater.values()] def update_actual_heating_point_for_topic(self, topic, payload): for heater in self.heater.values(): if heater.topic == topic: heater.update_actual_heating_point(payload) return def pull_values(self, client): for heater in self.heater.values(): topic, payload = heater.topic_and_payload_for_query() client.publish(topic, payload) scene = "default" watcher = Watcher({ "office1": Heater(topic="zigbee2mqtt/office_heater_1"), "office2": Heater(topic="zigbee2mqtt/office_heater_2"), "bedroom": Heater(topic="zigbee2mqtt/bedroom_heater_1"), }) # The callback for when the client receives a CONNACK response from the server. def on_connect(client, _userdata, _flags, rc): print("Connected with result code " + str(rc)) threading.Thread(target=loop_thread, args=(client,), daemon=True).start() # Subscribing in on_connect() means that if we lose the connection and # reconnect then subscriptions will be renewed. client.subscribe("control/lights/set") for topic in watcher.get_topics(): client.subscribe(topic) watcher.pull_values(client) # The callback for when a PUBLISH message is received from the server. def on_message(client, _userdata, msg): global scene (topic, payload) = parse_message(msg) if topic == "control/lights/set": print("set scene %s -> %s" % (scene, payload['scene'])) scene = payload['scene'] update_scene(client) else: print("got %s" % topic) watcher.update_actual_heating_point_for_topic(topic, payload) def parse_message(msg): m_decode = str(msg.payload.decode("utf-8", "ignore")) payload = json.loads(m_decode) # decode json data return msg.topic, payload def update_scene(client): if scene in ["night", "outside"]: watcher.update("office1", 10) watcher.update("office2", 10) watcher.update("bedroom", 10) elif scene in ["default", "up-bright", "up-dark", "half", "down"]: watcher.update("office1", 26) watcher.update("office2", 26) watcher.update("bedroom", 18) else: watcher.update("office1", 10) watcher.update("office2", 10) watcher.update("bedroom", 10) watcher.publish(client) def loop_thread(client): while True: watcher.publish(client) watcher.pull_values(client) time.sleep(120) if __name__ == "__main__": mqttClient = mqtt.Client() mqttClient.on_connect = on_connect mqttClient.on_message = on_message mqttClient.username_pw_set("homeassistant", password="password") mqttClient.connect("pepe.private", 1883, 60) # Blocking call that processes network traffic, dispatches callbacks and # handles reconnecting. # Other loop*() functions are available that give a threaded interface and a # manual interface. mqttClient.loop_forever()