import asyncio from cbpi.api import parameters, Property, action from cbpi.api.step import StepResult, CBPiFermentationStep from cbpi.api.timer import Timer from datetime import datetime import time from voluptuous.schema_builder import message from cbpi.api.dataclasses import NotificationAction, NotificationType from cbpi.api.dataclasses import Kettle, Props, Fermenter from cbpi.api import * import logging from socket import timeout from typing import KeysView from cbpi.api.config import ConfigType from cbpi.api.base import CBPiBase import numpy as np import warnings @parameters([Property.Text(label="Notification",configurable = True, description = "Text for notification"), Property.Select(label="AutoNext",options=["Yes","No"], description="Automatically move to next step (Yes) or pause after Notification (No)")]) class FermenterNotificationStep(CBPiFermentationStep): async def NextStep(self, **kwargs): await self.next(self.fermenter.id) return StepResult.DONE async def on_timer_done(self,timer): self.summary = self.props.get("Notification","") if self.AutoNext == True: self.cbpi.notify(self.name, self.props.get("Notification",""), NotificationType.INFO) if self.shutdown != True: await self.next(self.fermenter.id) return StepResult.DONE else: self.cbpi.notify(self.name, self.props.get("Notification",""), NotificationType.INFO, action=[NotificationAction("Next Step", self.NextStep)]) await self.push_update() async def on_timer_update(self,timer, seconds): await self.push_update() async def on_start(self): self.shutdown = False self.summary="" self.AutoNext = False if self.props.get("AutoNext", "No") == "No" else True if self.timer is None: self.timer = Timer(1 ,on_update=self.on_timer_update, on_done=self.on_timer_done) await self.push_update() async def on_stop(self): await self.timer.stop() self.summary = "" await self.push_update() async def run(self): while self.running == True: await asyncio.sleep(1) if self.timer.is_running is not True: self.timer.start() self.timer.is_running = True return StepResult.DONE @parameters([Property.Number(label="Temp", configurable=True), Property.Sensor(label="Sensor"), Property.Text(label="Notification",configurable = True, description = "Text for notification when Temp is reached"), Property.Select(label="AutoMode",options=["Yes","No"], description="Switch Fermenterlogic automatically on and off -> Yes")]) class FermenterTargetTempStep(CBPiFermentationStep): async def NextStep(self, **kwargs): if self.shutdown != True: await self.next(self.fermenter.id) return StepResult.DONE async def on_timer_done(self,timer): self.summary = "" await self.push_update() if self.AutoMode == True: await self.setAutoMode(False) self.cbpi.notify(self.name, self.props.get("Notification","Target Temp reached. Please add malt and klick next to move on.")) if self.shutdown == False: await self.next(self.fermenter.id) return StepResult.DONE async def on_timer_update(self,timer, seconds): await self.push_update() async def on_start(self): self.shutdown = False self.AutoMode = True if self.props.get("AutoMode","No") == "Yes" else False if self.fermenter is not None: self.fermenter.target_temp = float(self.props.get("Temp", 0)) self.fermenter.target_pressure = 0 if self.AutoMode == True: await self.setAutoMode(True) self.summary = "Waiting for Target Temp" if self.fermenter is not None and self.timer is None: self.timer = Timer(1 ,on_update=self.on_timer_update, on_done=self.on_timer_done) await self.push_update() async def on_stop(self): await self.timer.stop() self.summary = "" if self.AutoMode == True: await self.setAutoMode(False) await self.push_update() async def run(self): while self.get_sensor_value(self.props.get("Sensor", None)).get("value") > 900: await asyncio.sleep(1) self.starttemp= self.get_sensor_value(self.props.get("Sensor", None)).get("value") if self.fermenter.target_temp >= self.starttemp: logging.info("warmup") while self.running == True: sensor_value = self.get_sensor_value(self.props.get("Sensor", None)).get("value") if sensor_value >= self.fermenter.target_temp and self.timer.is_running is not True: self.timer.start() self.timer.is_running = True await asyncio.sleep(1) elif self.fermenter.target_temp <= self.starttemp: logging.info("Cooldown") while self.running == True: sensor_value = self.get_sensor_value(self.props.get("Sensor", None)).get("value") if sensor_value <= self.fermenter.target_temp and self.timer.is_running is not True: self.timer.start() self.timer.is_running = True await asyncio.sleep(1) await self.push_update() return StepResult.DONE async def reset(self): self.timer = Timer(1 ,on_update=self.on_timer_update, on_done=self.on_timer_done) self.timer.is_running == False async def setAutoMode(self, auto_state): try: if (self.fermenter.instance is None or self.fermenter.instance.state == False) and (auto_state is True): await self.cbpi.fermenter.toggle(self.fermenter.id) elif (self.fermenter.instance.state == True) and (auto_state is False): await self.cbpi.fermenter.toggle(self.fermenter.id) await self.push_update() except Exception as e: logging.error("Failed to switch on FermenterLogic {} {}".format(self.fermenter.id, e)) @parameters([Property.Number(label="TimerD", description="Timer Days", configurable=True), Property.Number(label="TimerH", description="Timer Hours", configurable=True), Property.Number(label="TimerM", description="Timer Minutes", configurable=True), Property.Number(label="Temp", configurable=True, description="Step Temperature"), Property.Number(label="Pressure", configurable=True, description="Step Pressure"), Property.Sensor(label="Sensor", description="Temperature Sensor"), Property.Select(label="AutoMode",options=["Yes","No"], description="Switch Fermenterlogic automatically on and off -> Yes")]) class FermenterStep(CBPiFermentationStep): @action("Start Timer", []) async def start_timer(self): if self.timer.is_running is not True: self.cbpi.notify(self.name, 'Timer started', NotificationType.INFO) self.timer.start() self.timer.is_running = True self.endtime = time.time() + self.fermentationtime await self.update_endtime() estimated_completion_time = datetime.fromtimestamp(time.time()+ self.fermentationtime) self.cbpi.notify(self.name, 'Timer started. Estimated completion: {}'.format(estimated_completion_time.strftime("%d.%m, %H:%M")), NotificationType.INFO) else: self.cbpi.notify(self.name, 'Timer is already running', NotificationType.WARNING) # @action("Add 1 Day to Timer", []) # async def add_timer(self): # if self.timer.is_running == True: # self.cbpi.notify(self.name, '1 Day added', NotificationType.INFO) # await self.timer.add(86400) # self.endtime = self.endtime +86400 # await self.update_endtime() # else: # self.cbpi.notify(self.name, 'Timer must be running to add time', NotificationType.WARNING) async def on_timer_done(self,timer): self.summary = "" if self.AutoMode == True: await self.setAutoMode(False) self.cbpi.notify(self.name, 'Step finished', NotificationType.SUCCESS) if self.shutdown == False: await self.next(self.fermenter.id) return StepResult.DONE async def on_timer_update(self,timer, seconds): self.summary = Timer.format_time(seconds) await self.push_update() async def on_start(self): self.shutdown = False if self.endtime == 0: timeD=int(self.props.get("TimerD", 0)) timeH=int(self.props.get("TimerH", 0)) timeM=int(self.props.get("TimerM", 0)) self.fermentationtime=(timeM+(60*timeH)+(1440*timeD)) *60 else: self.fermentationtime = self.endtime - time.time() self.AutoMode = True if self.props.get("AutoMode", "No") == "Yes" else False if self.fermenter is not None: self.fermenter.target_temp = float(self.props.get("Temp", 0)) self.fermenter.target_pressure = float(self.props.get("Pressure", 0)) if self.AutoMode == True: await self.setAutoMode(True) await self.push_update() if self.fermenter is not None and self.timer is None: logging.info("Set Timer") self.timer = Timer(self.fermentationtime ,on_update=self.on_timer_update, on_done=self.on_timer_done) self.timer.is_running = False elif self.fermenter is not None: try: if self.timer.is_running == True: self.timer.start() self.endtime = time.time() + self.fermentationtime await self.update_endtime() except: pass if self.endtime != 0 and self.timer is not None and self.timer.is_running == False: self.timer.start() self.timer.is_running = True estimated_completion_time = datetime.fromtimestamp(time.time()+ self.fermentationtime) self.cbpi.notify(self.name, 'Timer restarted. Estimated completion: {}'.format(estimated_completion_time.strftime("%d.%m, %H:%M")), NotificationType.INFO) self.summary = "Waiting for Target Temp" await self.push_update() async def on_stop(self): await self.timer.stop() self.summary = "" if self.AutoMode == True: await self.setAutoMode(False) await self.push_update() async def reset(self): timeD=int(self.props.get("TimerD", 0)) timeH=int(self.props.get("TimerH", 0)) timeM=int(self.props.get("TimerM", 0)) self.fermentationtime=(timeM+(60*timeH)+(1440*timeD)) *60 self.timer = Timer(self.fermentationtime ,on_update=self.on_timer_update, on_done=self.on_timer_done) self.endtime = 0 self.timer.is_running == False async def run(self): while self.get_sensor_value(self.props.get("Sensor", None)).get("value") > 900: await asyncio.sleep(1) self.starttemp= self.get_sensor_value(self.props.get("Sensor", None)).get("value") if self.fermenter.target_temp >= self.starttemp: logging.info("warmup") while self.running == True: await asyncio.sleep(1) sensor_value = self.get_sensor_value(self.props.get("Sensor", None)).get("value") if sensor_value >= self.fermenter.target_temp and self.timer.is_running is not True: self.timer.start() self.timer.is_running = True self.endtime = time.time() + self.fermentationtime await self.update_endtime() estimated_completion_time = datetime.fromtimestamp(time.time()+ self.fermentationtime) self.cbpi.notify(self.name, 'Timer started. Estimated completion: {}'.format(estimated_completion_time.strftime("%d.%m, %H:%M")), NotificationType.INFO) elif self.fermenter.target_temp <= self.starttemp: logging.info("cooldown") while self.running == True: await asyncio.sleep(1) sensor_value = self.get_sensor_value(self.props.get("Sensor", None)).get("value") if sensor_value <= self.fermenter.target_temp and self.timer.is_running is not True: self.timer.start() self.timer.is_running = True self.endtime = time.time() + self.fermentationtime await self.update_endtime() estimated_completion_time = datetime.fromtimestamp(time.time()+ self.fermentationtime) self.cbpi.notify(self.name, 'Timer started. Estimated completion: {}'.format(estimated_completion_time.strftime("%d.%m, %H:%M")), NotificationType.INFO) return StepResult.DONE async def setAutoMode(self, auto_state): try: if (self.fermenter.instance is None or self.fermenter.instance.state == False) and (auto_state is True): await self.cbpi.fermenter.toggle(self.fermenter.id) elif (self.fermenter.instance.state == True) and (auto_state is False): await self.cbpi.fermenter.toggle(self.fermenter.id) await self.push_update() except Exception as e: logging.error("Failed to switch on FermenterLogic {} {}".format(self.fermenter.id, e)) @parameters([Property.Number(label="Temp", configurable=True, description = "Ramp to this temp"), Property.Number(label="Pressure", configurable=True, description="Step Pressure"), Property.Number(label="RampRate", configurable=True, description = "Ramp x °C/F per day. Default: 1"), Property.Sensor(label="Sensor", description="Temperature Sensor"), Property.Text(label="Notification",configurable = True, description = "Text for notification when Temp is reached"), Property.Select(label="AutoMode",options=["Yes","No"], description="Switch Fermenterlogic automatically on and off -> Yes")]) class FermenterRampTempStep(CBPiFermentationStep): async def NextStep(self, **kwargs): if self.shutdown == False: await self.next(self.fermenter.id) return StepResult.DONE async def on_timer_done(self,timer): self.summary = "" await self.push_update() if self.AutoMode == True: await self.setAutoMode(False) self.cbpi.notify(self.name, self.props.get("Notification","Target Temp reached. Please add malt and klick next to move on.")) await self.next(self.fermenter.id) return StepResult.DONE async def on_timer_update(self,timer, seconds): await self.push_update() async def on_start(self): self.shutdown = False self.AutoMode = True if self.props.get("AutoMode","No") == "Yes" else False self.rate=float(self.props.get("RampRate",1)) logging.info(self.rate) self.target_temp = round(float(self.props.get("Temp", 0))*10)/10 logging.info(self.target_temp) self.fermenter.target_pressure = float(self.props.get("Pressure", 0)) while self.get_sensor_value(self.props.get("Sensor", None)).get("value") > 900: await asyncio.sleep(1) self.starttemp = self.get_sensor_value(self.props.get("Sensor", None)).get("value") self.current_target_temp = self.starttemp if self.fermenter is not None: await self.set_fermenter_target_temp(self.fermenter.id, self.current_target_temp) if self.AutoMode == True: await self.setAutoMode(True) self.summary = "Ramping to {}° with {}° per day".format(self.target_temp,self.rate) if self.fermenter is not None and self.timer is None: self.timer = Timer(1 ,on_update=self.on_timer_update, on_done=self.on_timer_done) await self.push_update() async def on_stop(self): await self.timer.stop() self.summary = "" if self.AutoMode == True: await self.setAutoMode(False) await self.push_update() async def calc_target_temp(self): delta_time = time.time() - self.starttime current_target_temp = round((self.starttemp + delta_time * self.ratesecond)*10)/10 # logging.info(current_target_temp) if current_target_temp != self.current_target_temp: self.current_target_temp = current_target_temp await self.set_fermenter_target_temp(self.fermenter.id, self.current_target_temp) #self.fermenter.target_temp = self.current_target_temp await self.push_update() pass async def run(self): self.delta_temp = self.target_temp-self.starttemp try: self.deltadays = abs(self.delta_temp / self.rate) self.deltaseconds = self.deltadays * 24 * 60 * 60 self.ratesecond = self.delta_temp/self.deltaseconds except Exception as e: logging.info(e) self.starttime=time.time() if self.target_temp >= self.starttemp: logging.info("warmup") while self.running == True: if self.current_target_temp != self.target_temp: await self.calc_target_temp() sensor_value = self.get_sensor_value(self.props.get("Sensor", None)).get("value") if sensor_value >= self.target_temp and self.timer.is_running is not True: self.timer.start() self.timer.is_running = True await asyncio.sleep(1) elif self.target_temp <= self.starttemp: logging.info("Cooldown") while self.running == True: if self.current_target_temp != self.target_temp: await self.calc_target_temp() sensor_value = self.get_sensor_value(self.props.get("Sensor", None)).get("value") if sensor_value <= self.target_temp and self.timer.is_running is not True: self.timer.start() self.timer.is_running = True await asyncio.sleep(1) await self.push_update() return StepResult.DONE async def reset(self): self.timer = Timer(1 ,on_update=self.on_timer_update, on_done=self.on_timer_done) self.timer.is_running == False async def setAutoMode(self, auto_state): try: if (self.fermenter.instance is None or self.fermenter.instance.state == False) and (auto_state is True): await self.cbpi.fermenter.toggle(self.fermenter.id) elif (self.fermenter.instance.state == True) and (auto_state is False): await self.fermenter.instance.stop() await self.push_update() except Exception as e: logging.error("Failed to switch on FermenterLogic {} {}".format(self.fermenter.id, e)) def setup(cbpi): ''' This method is called by the server during startup Here you need to register your plugins at the server :param cbpi: the cbpi core :return: ''' cbpi.plugin.register("FermenterNotificationStep", FermenterNotificationStep) cbpi.plugin.register("FermenterTargetTempStep", FermenterTargetTempStep) cbpi.plugin.register("FermenterRampTempStep", FermenterRampTempStep) cbpi.plugin.register("FermenterStep", FermenterStep)