#!/usr/bin/env python3 import argparse import asyncio import signal import json import aiomqtt from bleak.exc import BleakError, BleakDeviceNotFoundError from bleclient import BleClient send_config = True reconnect_interval = 5 # In seconds async def mqtt_publish(details: dict[str, any], client: aiomqtt.Client): global send_config # Define the base topic for MQTT Discovery base_topic = "homeassistant" # Define the device information device_info = { "identifiers": ["solarlife_mppt_ble"], "name": "Solarlife MPPT", "manufacturer": "Solarlife", } # Publish each item in the details dictionary to its own MQTT topic for key, value in details.items(): state_topic = f"{base_topic}/sensor/solarlife/{key}/state" topic = f"{base_topic}/sensor/solarlife/{key}/config" # Create the MQTT Discovery payload payload = { "name": f"Solarlife {key.replace('_', ' ').title()}", "device": device_info, "unique_id": f"solarlife_{key}", "state_topic": state_topic, "unit_of_measurement": BleClient.get_unit_of_measurement(key) } if "daily_energy" in key: payload['device_class'] = "energy" payload['state_class'] = "total_increasing" elif "total_energy" in key: payload['device_class'] = "energy" payload['state_class'] = "total" elif "voltage" in key: payload['device_class'] = "voltage" payload['state_class'] = "measurement" elif "current" in key: payload['device_class'] = "current" payload['state_class'] = "measurement" elif "power" in key: payload['device_class'] = "power" payload['state_class'] = "measurement" elif "temperature" in key: payload['device_class'] = "temperature" payload['state_class'] = "measurement" elif key == "battery_percentage": payload['device_class'] = "battery" payload['state_class'] = "measurement" # Publish the MQTT Discovery payload if send_config: print(f"Publishing MQTT Discovery payload for {key}") await client.publish(topic, payload=json.dumps(payload), retain=True) # Publish the entity state await client.publish(state_topic, payload=str(value)) send_config = False async def main(address, host, port, username, password): async def run_mppt(): while True: try: async with aiomqtt.Client(hostname=host, port=port, username=username, password=password) as client: print(f"Connecting to MQTT broker at {host}:{port}") while True: try: async with BleClient(address) as mppt: while True: details = await mppt.request_details() if details: print(f"Battery: {details['battery_percentage']}% ({details['battery_voltage']}V)") await mqtt_publish(details, client) else: print("No values recieved") await asyncio.sleep(20.0) except BleakDeviceNotFoundError: print(f"BLE device with address {address} was not found") await asyncio.sleep(5) # Wait for 5 seconds before retrying except BleakError as e: print(f"BLE error occurred: {e}") except aiomqtt.MqttError as error: print(f'Error "{error}". Reconnecting in {reconnect_interval} seconds.') await asyncio.sleep(reconnect_interval) except asyncio.CancelledError: raise # Re-raise the CancelledError to stop the task except Exception as e: print(f"An error occurred during BLE communication: {e}") await asyncio.sleep(5) # Wait for 5 seconds before retrying try: loop = asyncio.get_running_loop() task = loop.create_task(run_mppt()) # Setup signal handler to cancel the task on termination for signame in {'SIGINT', 'SIGTERM'}: loop.add_signal_handler(getattr(signal, signame), task.cancel) await task # Wait for the task to complete except asyncio.CancelledError: pass # Task was cancelled, no need for an error message if __name__ == '__main__': parser = argparse.ArgumentParser(description='Solarlife MPPT BLE Client') parser.add_argument('address', help='BLE device address') parser.add_argument('--host', help='MQTT broker host', default='localhost') parser.add_argument('--port', help='MQTT broker port', default=1883, type=int) parser.add_argument('--username', help='MQTT username') parser.add_argument('--password', help='MQTT password') args = parser.parse_args() asyncio.run(main(args.address, args.host, args.port, args.username, args.password))