# -*- coding: utf-8 -*- import asyncio import random import re import random from aiohttp import web from cbpi.api import * import os, re, threading, time from subprocess import call def getSensors(): try: arr = [] for dirname in os.listdir('/sys/bus/w1/devices'): if (dirname.startswith("28") or dirname.startswith("10")): arr.append(dirname) return arr except: return [] class ReadThread (threading.Thread): value = 0 def __init__(self, sensor_name): threading.Thread.__init__(self) self.value = 0 self.sensor_name = sensor_name self.runnig = True def shutdown(self): pass def stop(self): self.runnig = False def run(self): while self.runnig: try: if self.sensor_name is None: return with open('/sys/bus/w1/devices/w1_bus_master1/%s/w1_slave' % self.sensor_name, 'r') as content_file: content = content_file.read() if (content.split('\n')[0].split(' ')[11] == "YES"): temp = float(content.split("=")[-1]) / 1000 # temp in Celcius self.value = temp except: pass time.sleep(1) @parameters([Property.Select(label="Sensor", options=getSensors()), Property.Select(label="Interval", options=[1,5,10,30,60], description="Interval in Seconds")]) class OneWire(CBPiSensor): def __init__(self, cbpi, id, props): super(OneWire, self).__init__(cbpi, id, props) self.value = 0 async def start(self): await super().start() self.name = self.props.get("Sensor") self.interval = self.props.get("Interval", 60) self.t = ReadThread(self.name) self.t.daemon = True def shudown(): shudown.cb.shutdown() shudown.cb = self.t self.t.start() async def stop(self): try: print("STOP THE SENSOR") self.t.stop() self.running = False except: pass async def run(self): while self.running is True: self.value = self.t.value self.push_update(self.value) await asyncio.sleep(self.interval) def get_state(self): return dict(value=self.value) def setup(cbpi): cbpi.plugin.register("OneWire", OneWire) try: # Global Init call(["modprobe", "w1-gpio"]) call(["modprobe", "w1-therm"]) except Exception as e: pass