#!/usr/bin/python # -*- coding:utf-8 -*- import sys import os picdir = os.path.join(os.path.dirname(os.path.dirname(os.path.realpath(__file__))), 'pic') libdir = os.path.join(os.path.dirname(os.path.dirname(os.path.realpath(__file__))), 'lib') if os.path.exists(libdir): sys.path.append(libdir) import logging from waveshare_epd import epd2in13d import time from PIL import Image,ImageDraw,ImageFont import traceback from paho.mqtt import client as mqtt_client import paho.mqtt.client as paho logging.basicConfig(level=logging.INFO) Connected = False #global variable for the state of the connection broker = "192.168.99.224" port = 1883 topic_wHouseConsumption = "openWB/global/WHouseConsumption" topic_pvProduction = "openWB/pv/W" topic_energyImportExport = "openWB/evu/W" topic_houseBatterySoC = "openWB/housebattery/%Soc" topic_houseBatteryLoadUnload = "openWB/housebattery/W" username = "mqtt-user" pw = "phio6yiR9ohs1veeghu4WaeGhaiRi8he4EiWasheev4faeku8tohdiuthah7zahP" client_id = "solarmonitor" try: epd = epd2in13d.EPD() logging.debug("init and Clear") epd.init() epd.Clear() #time.sleep(1) except IOError as e: logging.info(e) except KeyboardInterrupt: logging.info("ctrl + c:") epd.Clear() epd2in13d.epdconfig.module_exit() exit() def on_connect(client, userdata, flags, rc): if rc == 0: logging.info("Connected to MQTT Broker!") global Connected #Use global variable Connected = True #Signal connection else: logging.debug("Failed to connect, return code %d\n", rc) def on_message(client, userdata, msg): global value_pvProduction global value_wHouseConsumption global value_energyImportExport global value_houseBatterySoC global value_houseBatteryLoadUnload if msg.topic == "openWB/pv/W": value_pvProduction = int(msg.payload.decode()) value_pvProduction = -value_pvProduction elif msg.topic == "openWB/global/WHouseConsumption": value_wHouseConsumption = int(msg.payload.decode()) elif msg.topic == "openWB/evu/W": value_energyImportExport = int(msg.payload.decode()) elif msg.topic == "openWB/housebattery/%Soc": value_houseBatterySoC = int(msg.payload.decode()) elif msg.topic == "openWB/housebattery/W": value_houseBatteryLoadUnload = int(msg.payload.decode()) client = mqtt_client.Client(client_id, protocol=paho.MQTTv31) client.username_pw_set(username, password=pw) client.on_connect = on_connect value_pvProduction = 0 value_wHouseConsumption = 0 value_energyImportExport = 0 value_houseBatterySoC = 0 value_houseBatteryLoadUnload = 0 client.on_message = on_message client.connect(broker, port=port) client.loop_start() #start the loop while Connected != True: #Wait for connection time.sleep(1) client.subscribe(topic_wHouseConsumption) client.subscribe(topic_pvProduction) client.subscribe(topic_energyImportExport) client.subscribe(topic_houseBatterySoC) client.subscribe(topic_houseBatteryLoadUnload) try: while True: logging.debug("Drawing") font10 = ImageFont.truetype(os.path.join(picdir, 'Font.ttc'), 16) HBlackimage = Image.new('1', (epd.height, epd.width), 255) # 298*126 #HRedimage = Image.new('1', (epd.height, epd.width), 255) # 298*126 ryimage: red or yellow image drawblack = ImageDraw.Draw(HBlackimage) #drawred = ImageDraw.Draw(HRedimage) drawblack.text((5, 0), 'PV Produktion', font = font10, fill = 0) #if value_pvProduction < value_wHouseConsumption: #drawred.text((5, 15), 'Hausverbrauch', font = font10, fill = 0) #else: drawblack.text((5, 20), 'Hausverbrauch', font = font10, fill = 0) if value_energyImportExport > 0: drawblack.text((7, 40), 'Strom Import', font = font10, fill = 0) else: drawblack.text((7, 40), 'Strom Export', font = font10, fill = 0) drawblack.text((5, 60), 'Batterie', font = font10, fill = 0) if value_houseBatteryLoadUnload > 0: drawblack.text((5, 80), 'Batterie Laden', font = font10, fill = 0) else: drawblack.text((5, 80), 'Batterie Entladen', font = font10, fill = 0) logging.info("-----") logging.info("PvProd: "+str(value_pvProduction)) logging.info("HouseU: "+str(value_wHouseConsumption)) logging.info("EneI/E: "+str(value_energyImportExport)) logging.info("BatSoC: "+str(value_houseBatterySoC)) logging.info("BatI/O: "+str(value_houseBatteryLoadUnload)) #drawblack.rectangle((150, 0, 220, 50), fill = 255) drawblack.text((150, 0), str(value_pvProduction) + " W", font = font10, fill = 0) #drawblack.rectangle((150, 15, 220, 50), fill = 255) #if value_pvProduction < value_wHouseConsumption: #drawred.text((150, 15), str(value_wHouseConsumption) + " W", font = font10, fill = 0) #else: drawblack.text((150, 20), str(value_wHouseConsumption) + " W", font = font10, fill = 0) #drawblack.rectangle((150, 30, 220, 50), fill = 255) if value_energyImportExport < 0: drawblack.text((150, 40), str(-value_energyImportExport) + " W", font = font10, fill = 0) else: drawblack.text((150, 40), str(value_energyImportExport) + " W", font = font10, fill = 0) #drawblack.rectangle((150, 60, 220, 50), fill = 0) drawblack.text((150, 60), str(value_houseBatterySoC) + " %", font = font10, fill = 0) #drawblack.rectangle((150, 75, 220, 50), fill = 255) #if value_houseBatteryLoadUnload > 0: drawblack.text((150, 80), str(value_houseBatteryLoadUnload) + " W", font = font10, fill = 0) #else: #drawred.text((150, 60), str(value_houseBatteryLoadUnload) + " W", font = font10, fill = 0) epd.display(epd.getbuffer(HBlackimage)) time.sleep(10) except KeyboardInterrupt: logging.info("exiting") client.disconnect() client.loop_stop()