Initial Leyk implementation

2022-08-29 19:56:39 +02:00 · 2022-08-29 19:56:39 +02:00 · 82521d16c1
commit 82521d16c1
parent 5276d4c766
14 changed files with 726 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
@ -1,3 +1,5 @@
 config.py
 # ---> Python
 # Byte-compiled / optimized / DLL files
 __pycache__/
--- a/.gitmodules
+++ b/.gitmodules
@ -0,0 +1,12 @@
 [submodule "report"]
 	path = report
 	url = https://git.mount-mockery.de/pylib/report.git
 [submodule "geo"]
 	path = geo
 	url = https://git.mount-mockery.de/pylib/geo.git
 [submodule "state_machine"]
 	path = state_machine
 	url = https://git.mount-mockery.de/pylib/state_machine.git
 [submodule "task"]
 	path = task
 	url = https://git.mount-mockery.de/pylib/task.git
--- a/.project
+++ b/.project
@ -0,0 +1,17 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <projectDescription>
 	<name>leyk</name>
 	<comment></comment>
 	<projects>
 	</projects>
 	<buildSpec>
 		<buildCommand>
 			<name>org.python.pydev.PyDevBuilder</name>
 			<arguments>
 			</arguments>
 		</buildCommand>
 	</buildSpec>
 	<natures>
 		<nature>org.python.pydev.pythonNature</nature>
 	</natures>
 </projectDescription>
--- a/.pydevproject
+++ b/.pydevproject
@ -0,0 +1,8 @@
 <?xml version="1.0" encoding="UTF-8" standalone="no"?>
 <?eclipse-pydev version="1.0"?><pydev_project>
    <pydev_pathproperty name="org.python.pydev.PROJECT_SOURCE_PATH">
        <path>/${PROJECT_DIR_NAME}</path>
    </pydev_pathproperty>
    <pydev_property name="org.python.pydev.PYTHON_PROJECT_VERSION">python interpreter</pydev_property>
    <pydev_property name="org.python.pydev.PYTHON_PROJECT_INTERPRETER">Default</pydev_property>
 </pydev_project>
--- a/install.py
+++ b/install.py
@ -0,0 +1,41 @@
 #!/bin/python
 #
 import os
 import sys
 SERVICE_FILE = """
 [Unit]
 Description=Leyk Service
 After=network-online.target
 Wants=network-online.target
 [Service]
 User=%(UID)d
 Group=%(GID)d
 ExecStart=%(MY_PATH)s/leyk.sh
 Type=simple
 [Install]
 WantedBy=default.target
 """
 def help():
    print("Usage: prog <UID> <GID> <TARGET_PATH>")
 if __name__ == "__main__":
    if len(sys.argv) == 4:
        try:
            uid = int(sys.argv[1])
            gid = int(sys.argv[2])
        except ValueError:
            help()
        else:
            if os.path.isdir(sys.argv[3]):
                with open(os.path.join(sys.argv[3], 'leyk.service'), "w") as fh:
                    fh.write(SERVICE_FILE % {
                        "MY_PATH": os.path.dirname(os.path.abspath(__file__)),
                        "UID": uid,
                        "GID": gid})
            else:
                help()
    else:
        help()
--- a/examples/config.py
+++ b/examples/config.py
@ -0,0 +1,22 @@
 #!/usr/bin/env python
 # -*- coding: UTF-8 -*-
 import os
 import report
 MQTT_USER = "user"
 MQTT_PASS = "password"
 MQTT_SERVER = "host"
 MQTT_TOPIC = "leyk"
 #
 # Logging
 #
 __BASEPATH__ = os.path.abspath(os.path.dirname(__file__))
 APP_NAME = "leyk"
 LOGTARGET = 'stdout'   # possible choices are: 'logfile' or 'stdout'
 LOGLVL = 'DEBUG'
 LOGHOST = 'cutelog'
 LOGPORT = 19996
 formatter = report.SHORT_FMT
--- a/1
+++ b/1
@ -0,0 +1 @@
 Subproject commit 11166bb27ad2335f7812fcb88c788397f5106751
--- a/leyk.py
+++ b/leyk.py
@ -0,0 +1,23 @@
 import config
 import logging
 import report
 import socket
 import subprocess
 import time
 import piface_function
 try:
    from config import APP_NAME as ROOT_LOGGER_NAME
 except ImportError:
    ROOT_LOGGER_NAME = 'root'
 logger = logging.getLogger(ROOT_LOGGER_NAME).getChild('main')
 if __name__ == '__main__': 
    report.appLoggingConfigure(config.__BASEPATH__, config.LOGTARGET, ((config.APP_NAME, config.LOGLVL), ), fmt=config.formatter, host=config.LOGHOST, port=config.LOGPORT)
    #    
    l = piface_function.leyk()
    while True:
        time.sleep(30)
        #l.publish_states()
--- a/leyk.sh
+++ b/leyk.sh
@ -0,0 +1,4 @@
 #!/bin/sh
 #
 BASEPATH=`dirname $0`
 $BASEPATH/venv/bin/python $BASEPATH/leyk.py
--- a/piface_function.py
+++ b/piface_function.py
@ -0,0 +1,590 @@
 #!/usr/bin/env python
 # -*- coding: UTF-8 -*-
 try:
    import pifacedigitalio
 except ImportError:
    pifacedigitalio = None
 import config
 import geo
 import json
 import logging
 import paho.mqtt.client as mqtt
 import state_machine
 import task
 import random
 import socket
 import time
 try:
    from config import APP_NAME as ROOT_LOGGER_NAME
 except ImportError:
    ROOT_LOGGER_NAME = 'root'
 logger = logging.getLogger(ROOT_LOGGER_NAME).getChild(__name__)
 geo_position = geo.gps.coordinate(lat=49.976596, lon=9.1481443)
 class pi_face(object):
    LOG_PREFIX = 'PiFace:'
    PF_OUT_NAMES = ['Output 0',     # 0
                    'Output 1',     # 1
                    'Output 2',     # 2
                    'Ploenlein',    # 3
                    'Bakery',       # 4
                    'Mill',         # 5
                    'Reese House',  # 6
                    'Bake House']   # 7
    def __init__(self, client):
        self.__client__ = client
        if pifacedigitalio is not None:
            pifacedigitalio.init()
            pi = pifacedigitalio.PiFaceDigital()
            self.__pf_outputs__ = pi.output_pins
        self.__pf_output_states__ = 8 * [False]
        #
        self._reload = 0
        self._task_10ms = task.periodic(0.01 - 0.007, self.task_10ms)
        #
        for i in range(0, 8):
            self.set_output(i, self.__pf_output_states__[i])
    def set_output(self, index, state, tries=5):
        tries = min(max(1, tries), 5)
        try_txt = ['1st', '2nd', '3rd', '4th', '5th']
        state = state is True
        if pifacedigitalio is not None:
            cnt = 0
            while (cnt < tries) and (self.__pf_outputs__[index].value != state):
                self.__pf_outputs__[index].value = 1 * state
                time.sleep(0.1)
                cnt += 1
            if self.__pf_outputs__[index].value != state:
                logger.warning('%s Control of output[%d] (%s) after %s try not successfull!', self.LOG_PREFIX, index, self.PF_OUT_NAMES[index], try_txt[cnt - 1])
            else:
                logger.info('%s Set output "%s" to %s.', self.LOG_PREFIX, self.PF_OUT_NAMES[index], repr(state))
            self.__pf_output_states__[index] = self.__pf_outputs__[index].value == 1
        else:
            logger.info('%s Set virtual output "%s" to %s.', self.LOG_PREFIX, self.PF_OUT_NAMES[index], repr(state))
            self.__pf_output_states__[index] = state
    def get_output(self, index):
        return self.__pf_output_states__[index]
    def get_ploenlein(self):
        return self.get_output(3)
    def set_bakery(self, state):
        self.set_output(4, state)
    def get_bakery(self):
        return self.get_output(4)
    def set_mill(self, state):
        self.set_output(5, state)
    def get_mill(self):
        return self.get_output(5)
    def set_ploenlein(self, state):
        self.set_output(3, state)
    def set_reese_house(self, state):
        self.set_output(6, state)
    def get_reese_house(self):
        return self.get_output(6)
    def set_bake_house(self, state):
        if state is True:
            self.set_output(7, state)
            self._task_10ms.run()
        elif state is False:
            self._task_10ms.stop()
            self.join()
            time.sleep(0.1)
            self.set_output(7, state)
    def get_bake_house(self):
        return not self._task_10ms._stopped
    def task_10ms(self, task_inst):
        if self._reload <= 0:
            if pifacedigitalio is not None:
                self.__pf_outputs__[7].turn_on()
            self._reload = random.choice(2 * [0] + 20 * [1] + 1 * [2])
        else:
            if pifacedigitalio is not None:
                self.__pf_outputs__[7].turn_off()
            self._reload -= 1
    def join(self):
        self._task_10ms.join()
    def stop(self):
        self._task_10ms.stop()
        self._task_10ms.join()
        for i in range(0, 8):
            self.set_output(i, False)
        pifacedigitalio.deinit()
    def __del__(self):
        self.stop()
 class state_machine_mode(state_machine.state_machine):
    LOG_PREFIX = 'LeykMode:'
    STATE_AUTOMATIC = 'automatic'
    STATE_MANUAL = 'manual'
    CONDITION_EXTERNAL_TRIGGER = 'external_trigger'
    TRANSITIONS = {
        STATE_AUTOMATIC: (
            (CONDITION_EXTERNAL_TRIGGER, 1, STATE_MANUAL),
        ),
        STATE_MANUAL: (
            (CONDITION_EXTERNAL_TRIGGER, 1, STATE_AUTOMATIC),
        ),
    }
    def __init__(self, **kwargs):
        state_machine.state_machine.__init__(self, self.STATE_AUTOMATIC, logging.INFO)
        self.__reset_triggers__()
    def __reset_triggers__(self):
        self.__to_automatic__ = False
        self.__to_manual__ = False
    def external_trigger(self):
        rv = False
        if self.this_state() == self.STATE_AUTOMATIC:
            rv = self.__to_manual__
        elif self.this_state() == self.STATE_MANUAL:
            rv = self.__to_automatic__
        self.__reset_triggers__()
        return rv
    def trigger_to_maual(self):
        if self.this_state() == self.STATE_AUTOMATIC:
            self.__to_manual__ = True
            return True
        return False
    def trigger_to_automatic(self):
        if self.this_state() == self.STATE_MANUAL:
            self.__to_automatic__ = True
            return True
        return False
 class state_machine_day_state(state_machine.state_machine):
    LOG_PREFIX = 'LeykState:'
    STATE_IDLE = 'idle'
    STATE_WAKE = 'wake'
    STATE_SUNRISE = 'sunrise'
    STATE_SUNSET = 'sunset'
    STATE_SLEEP = 'sleep'
    CONDITION_WAKE = 'condition_wake'
    CONDITION_SUNRISE = 'condition_sunrise'
    CONDITION_SUNSET = 'condition_sunset'
    CONDITION_SLEEP = 'condition_sleep'
    CONDITION_IDLE = 'condition_idle'
    TRANSITIONS = {
        STATE_IDLE: (
            (CONDITION_WAKE, 1, STATE_WAKE),
            (CONDITION_SUNRISE, 1, STATE_SUNRISE),
            (CONDITION_SUNSET, 1, STATE_SUNSET),
            (CONDITION_SLEEP, 1, STATE_SLEEP),
        ),
        STATE_WAKE: (
            (CONDITION_SUNRISE, 1, STATE_SUNRISE),
            (CONDITION_IDLE, 1, STATE_IDLE),
        ),
        STATE_SUNRISE: (
            (CONDITION_SLEEP, 1, STATE_SLEEP),
            (CONDITION_SUNSET, 1, STATE_SUNSET),
            (CONDITION_IDLE, 1, STATE_IDLE),
        ),
        STATE_SUNSET: (
            (CONDITION_SLEEP, 1, STATE_SLEEP),
            (CONDITION_IDLE, 1, STATE_IDLE),
        ),
        STATE_SLEEP: (
            (CONDITION_WAKE, 1, STATE_WAKE),
            (CONDITION_SUNRISE, 1, STATE_SUNRISE),
            (CONDITION_IDLE, 1, STATE_IDLE),
        ),
    }
    def __init__(self, **kwargs):
        state_machine.state_machine.__init__(self, self.STATE_IDLE, logging.INFO, **kwargs)
    def __current_state_calc__(self):
        def wake_time():
            tm = time.localtime()
            tm = list(tm)
            tm[3] = 6   # tm_hour
            tm[4] = 0   # tm_min
            tm[5] = 0   # tm_sec=0
            return time.mktime(time.struct_time(tm))
        def sunrise_time():
            return time.mktime(geo.sun.sunrise(geo_position)) + 30 * 60
        def sunset_time():
            return time.mktime(geo.sun.sunset(geo_position)) - 30 * 60
        def sleep_time():
            tm = time.localtime()
            tm = list(tm)
            tm[3] = 21  # tm_hour
            tm[4] = 15  # tm_min
            tm[5] = 0   # tm_sec=0
            return time.mktime(time.struct_time(tm))
        now = time.mktime(time.localtime())
        if now > sleep_time():
            return self.STATE_SLEEP
        elif now > sunset_time():
            return self.STATE_SUNSET
        elif now > sunrise_time():
            return self.STATE_SUNRISE
        elif now > wake_time():
            return self.STATE_WAKE
        else:
            return self.STATE_IDLE
    def condition_wake(self):
        if self.condition_idle():
            return False
        return self.__current_state_calc__() == self.STATE_WAKE
    def condition_sunrise(self):
        if self.condition_idle():
            return False
        return self.__current_state_calc__() == self.STATE_SUNRISE
    def condition_sunset(self):
        if self.condition_idle():
            return False
        return self.__current_state_calc__() == self.STATE_SUNSET
    def condition_sleep(self):
        if self.condition_idle():
            return False
        return self.__current_state_calc__() == self.STATE_SLEEP
    def condition_idle(self):
        return not self.sm_mode.this_state_is(self.sm_mode.STATE_AUTOMATIC)
    def report_sunset_sunrise(self):
        state_machine.logger.debug('Sunrise: %s - Sunset: %s;', time.strftime("%H:%M", geo.sun.sunrise(geo_position)), time.strftime("%H:%M", geo.sun.sunset(geo_position))
 )
 class leyk(object):
    LOG_PREFIX = 'Leyk:'
    TOPIC_BAKE_HOUSE = config.MQTT_TOPIC + '/status/Bake House'
    TOPIC_BAKERY = config.MQTT_TOPIC + '/status/Bakery'
    TOPIC_MILL = config.MQTT_TOPIC + '/status/Mill'
    TOPIC_MODE = config.MQTT_TOPIC + '/status/mode'
    TOPIC_MODE_BOOL = config.MQTT_TOPIC + '/status/mode_bool'
    TOPIC_PLOENLEIN = config.MQTT_TOPIC + '/status/Ploenlein'
    TOPIC_REESE_HOUSE = config.MQTT_TOPIC + '/status/Reese House'
    TOPIC_STATE = config.MQTT_TOPIC + '/status/state'
    RX_TOPIC_BAKE_HOUSE = config.MQTT_TOPIC + '/set/Bake House'
    RX_TOPIC_BAKERY = config.MQTT_TOPIC + '/set/Bakery'
    RX_TOPIC_MILL = config.MQTT_TOPIC + '/set/Mill'
    RX_TOPIC_MODE = config.MQTT_TOPIC + '/set/mode'
    RX_TOPIC_PLOENLEIN = config.MQTT_TOPIC + '/set/Ploenlein'
    RX_TOPIC_REESE_HOUSE = config.MQTT_TOPIC + '/set/Reese House'
    RX_TOPICS = [
        RX_TOPIC_BAKE_HOUSE,
        RX_TOPIC_BAKERY,
        RX_TOPIC_MILL,
        RX_TOPIC_MODE,
        RX_TOPIC_PLOENLEIN,
        RX_TOPIC_REESE_HOUSE
    ]
    def __init__(self):
        self.__client__ = mqtt.Client("mqtt_leyk")                              # create client object
        self.__client__.on_message = self.__receive__                           # attach function to callback
        self.__client__.username_pw_set(config.MQTT_USER, config.MQTT_PASS)     # login with credentials
        try:
            self.__client__.connect(config.MQTT_SERVER, 1883)                       # establish connection
            self.__client__.loop_start()                                            # start the loop
            self.__topics__ = []
            for topic in self.RX_TOPICS:
                self.__client__.subscribe(topic)          # subscibe a topic
        except (socket.timeout, OSError) as e:
            logger.warning("Error while setting up mqtt instance and listener")
        self.TOPIC_DATA = {
            self.TOPIC_BAKE_HOUSE: self.get_bake_house,
            self.TOPIC_BAKERY: self.get_bakery,
            self.TOPIC_MILL: self.get_mill,
            self.TOPIC_MODE: self.get_mode,
            self.TOPIC_MODE_BOOL: self.get_mode_bool,
            self.TOPIC_PLOENLEIN: self.get_ploenlein,
            self.TOPIC_REESE_HOUSE: self.get_reese_house,
            self.TOPIC_STATE: self.get_state
        }
        self.sm_mode = state_machine_mode()
        self.sm_day_state = state_machine_day_state(sm_mode=self.sm_mode)
        self.__pf__ = pi_face(self.__client__)
        self._queue = task.threaded_queue()
        self._queue.run()
        self._task_1s = task.periodic(1, self.task_1s)
        self._task_1s.run()
        self.sm_mode.register_state_change_callback(self.sm_mode.STATE_MANUAL, None, self._queue.clean_queue)
        self.sm_mode.register_state_change_callback(None, None, self.publish, self.TOPIC_MODE)
        self.sm_mode.register_state_change_callback(None, None, self.publish, self.TOPIC_MODE_BOOL)
        self.sm_day_state.register_state_change_callback(None, None, self.clean_queue)
        self.sm_day_state.register_state_change_callback(None, None, self.publish, self.TOPIC_STATE)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_SLEEP, None, self.sm_day_state.report_sunset_sunrise)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_SLEEP, None, self.fill_sleep_queue)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_SUNRISE, None, self.sm_day_state.report_sunset_sunrise)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_SUNRISE, None, self.fill_sunrise_queue)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_SUNSET, None, self.sm_day_state.report_sunset_sunrise)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_SUNSET, None, self.fill_sunset_queue)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_WAKE, None, self.sm_day_state.report_sunset_sunrise)
        self.sm_day_state.register_state_change_callback(self.sm_day_state.STATE_WAKE, None, self.fill_wake_queue)
        self.publish(self.TOPIC_MODE)
        self.publish(self.TOPIC_MODE_BOOL)
        self.publish(self.TOPIC_STATE)
    def __receive__(self, client, userdata, message):
        logger.info("Received message %s with %s", message.topic, str(message.payload))
        if message.topic == self.RX_TOPIC_MODE:
            self.set_mode(self.sm_mode.STATE_AUTOMATIC if message.payload == b'true' else self.sm_mode.STATE_MANUAL)
        elif message.topic == self.RX_TOPIC_BAKE_HOUSE:
            self.set_bake_house(message.payload == b'true')
        elif message.topic == self.RX_TOPIC_BAKERY:
            self.set_bakery(message.payload == b'true')
        elif message.topic == self.RX_TOPIC_MILL:
            self.set_mill(message.payload == b'true')
        elif message.topic == self.RX_TOPIC_PLOENLEIN:
            self.set_ploenlein(message.payload == b'true')
        elif message.topic == self.RX_TOPIC_REESE_HOUSE:
            self.set_reese_house(message.payload == b'true')
        else:
            logger.warning("Ignoring unknown mqtt topic %s", message.topic)
    def publish_states(self):
        for name in self.TOPIC_DATA:
            self.publish(name)
    def publish(self, topic):
        logger.info("Sending Leyk status information to mqtt %s = %s", topic, json.dumps(self.TOPIC_DATA[topic]()))
        try:
            self.__client__.publish(topic, json.dumps(self.TOPIC_DATA[topic]()))
        except (socket.timeout, OSError) as e:
            logger.warning("Error while sending state information information")
    def set_mode(self, mode):
        if mode == self.sm_mode.STATE_AUTOMATIC:
            rv = self.sm_mode.trigger_to_automatic()
        elif mode == self.sm_mode.STATE_MANUAL:
            rv = self.sm_mode.trigger_to_maual()
        else:
            rv = False
        return rv
    def get_mode(self):
        return self.sm_mode.this_state()
    def get_mode_bool(self):
        return self.get_mode() == self.sm_mode.STATE_AUTOMATIC
    def get_state(self):
        return self.sm_day_state.this_state()
    def __queue_wrapper__(self, queue_inst, function, *args, **kwargs):
        function(*args, **kwargs)
    def set_ploenlein(self, state, force=False):
        if force or self.sm_mode.this_state_is(self.sm_mode.STATE_MANUAL):
            self.__pf__.set_ploenlein(state)
            self.publish(self.TOPIC_PLOENLEIN)
            return True
        else:
            return False
    def get_ploenlein(self):
        return self.__pf__.get_ploenlein()
    def set_bakery(self, state, force=False):
        if force or self.sm_mode.this_state_is(self.sm_mode.STATE_MANUAL):
            self.__pf__.set_bakery(state)
            self.publish(self.TOPIC_BAKERY)
            return True
        else:
            return False
    def get_bakery(self):
        return self.__pf__.get_bakery()
    def set_bake_house(self, state, force=False):
        if force or self.sm_mode.this_state_is(self.sm_mode.STATE_MANUAL):
            self.__pf__.set_bake_house(state)
            self.publish(self.TOPIC_BAKE_HOUSE)
            return True
        else:
            return False
    def get_bake_house(self):
        return self.__pf__.get_bake_house()
    def set_mill(self, state, force=False):
        if force or self.sm_mode.this_state_is(self.sm_mode.STATE_MANUAL):
            self.__pf__.set_mill(state)
            self.publish(self.TOPIC_MILL)
            return True
        else:
            return False
    def get_mill(self):
        return self.__pf__.get_mill()
    def set_reese_house(self, state, force=False):
        if force or self.sm_mode.this_state_is(self.sm_mode.STATE_MANUAL):
            self.__pf__.set_reese_house(state)
            self.publish(self.TOPIC_REESE_HOUSE)
            return True
        else:
            return False
    def get_reese_house(self):
        return self.__pf__.get_reese_house()
    def wake_time(self):
        tm = time.localtime()
        tm = list(tm)
        tm[3] = 6   # tm_hour
        tm[4] = 0   # tm_min
        tm[5] = 0   # tm_sec=0
        return time.mktime(time.struct_time(tm))
    def sunrise_time(self):
        return time.mktime(geo.sun.sunrise(geo_position)) + 30 * 60
    def sunset_time(self):
        return time.mktime(geo.sun.sunset(geo_position)) - 30 * 60
    def sleep_time(self):
        tm = time.localtime()
        tm = list(tm)
        tm[3] = 21  # tm_hour
        tm[4] = 15  # tm_min
        tm[5] = 0   # tm_sec=0
        return time.mktime(time.struct_time(tm))
    def identify_current_state(self):
        now = time.mktime(time.localtime())
        if now > self.sleep_time():
            return self.ST_SLEEP
        elif now > self.sunset_time():
            return self.ST_SUNSET
        elif now > self.sunrise_time():
            return self.ST_SUNRISE
        elif now > self.wake_time():
            return self.ST_WAKE
        else:
            return self.ST_SLEEP
    def wait(self, queue_inst, delay):
        if delay > 0:
            logger.debug('%s Wait for %d seconds initiated. %d elements left in queue.', self.LOG_PREFIX, delay, queue_inst.qsize())
            cnt = 0
            while cnt < delay * 5:
                if queue_inst.qsize() == 0:
                    logger.debug('%s Quit wait for %d seconds. %d elements left in queue.', self.LOG_PREFIX, delay, queue_inst.qsize())
                    break
                time.sleep(0.2)
                cnt += 1
    def clean_queue(self):
        if self._queue.qsize() > 0:
            logger.info('Cleaning up remaining %d elements from queue', self._queue.qsize())
            self._queue.clean_queue()
    def fill_wake_queue(self):
        no_delay = self.sm_day_state.previous_state_was(self.sm_day_state.STATE_IDLE)
        # WAKE
        self._queue.enqueue(1, self.__queue_wrapper__, self.set_bakery, True, True)
        self._queue.enqueue(2, self.wait, 0 if no_delay else 5 * 60)
        self._queue.enqueue(3, self.__queue_wrapper__, self.set_bake_house, True, True)
        self._queue.enqueue(4, self.wait, 0 if no_delay else 10 * 60)
        self._queue.enqueue(5, self.__queue_wrapper__, self.set_reese_house, True, True)
        self._queue.enqueue(6, self.wait, 0 if no_delay else 7 * 60)
        self._queue.enqueue(7, self.__queue_wrapper__, self.set_ploenlein, True, True)
        self._queue.enqueue(8, self.wait, 0 if no_delay else 8 * 60)
        self._queue.enqueue(9, self.__queue_wrapper__, self.set_mill, True, True)
    def fill_sunrise_queue(self):
        no_delay = self.sm_day_state.previous_state_was(self.sm_day_state.STATE_IDLE)
        # SUNRISE
        self._queue.enqueue(1, self.__queue_wrapper__, self.set_bake_house, True, True)
        self._queue.enqueue(2, self.__queue_wrapper__, self.set_ploenlein, False, True)
        self._queue.enqueue(3, self.wait, 0 if no_delay else 5 * 60)
        self._queue.enqueue(4, self.__queue_wrapper__, self.set_mill, False, True)
        self._queue.enqueue(5, self.wait, 0 if no_delay else 8 * 60)
        self._queue.enqueue(6, self.__queue_wrapper__, self.set_bakery, False, True)
        self._queue.enqueue(7, self.wait, 0 if no_delay else 12 * 60)
        self._queue.enqueue(8, self.__queue_wrapper__, self.set_reese_house, False, True)
    def fill_sunset_queue(self):
        no_delay = self.sm_day_state.previous_state_was(self.sm_day_state.STATE_IDLE)
        # SUNSET
        self._queue.enqueue(1, self.__queue_wrapper__, self.set_bake_house, True, True)
        self._queue.enqueue(2, self.__queue_wrapper__, self.set_bakery, True, True)
        self._queue.enqueue(3, self.wait, 0 if no_delay else 10 * 60)
        self._queue.enqueue(4, self.__queue_wrapper__, self.set_reese_house, True, True)
        self._queue.enqueue(5, self.wait, 0 if no_delay else 8 * 60)
        self._queue.enqueue(6, self.__queue_wrapper__, self.set_mill, True, True)
        self._queue.enqueue(7, self.wait, 0 if no_delay else 7 * 60)
        self._queue.enqueue(8, self.__queue_wrapper__, self.set_ploenlein, True, True)
    def fill_sleep_queue(self):
        no_delay = self.sm_day_state.previous_state_was(self.sm_day_state.STATE_IDLE)
        # SLEEP
        self._queue.enqueue(1, self.__queue_wrapper__, self.set_bake_house, False, True)
        self._queue.enqueue(2, self.wait, 0 if no_delay else 5 * 60)
        self._queue.enqueue(3, self.__queue_wrapper__, self.set_bakery, False, True)
        self._queue.enqueue(4, self.wait, 0 if no_delay else 9 * 60)
        self._queue.enqueue(5, self.__queue_wrapper__, self.set_ploenlein, False, True)
        self._queue.enqueue(6, self.wait, 0 if no_delay else 9 * 60)
        self._queue.enqueue(7, self.__queue_wrapper__, self.set_mill, False, True)
        self._queue.enqueue(8, self.wait, 0 if no_delay else 6 * 60)
        self._queue.enqueue(9, self.__queue_wrapper__, self.set_reese_house, False, True)
    def task_1s(self, task_inst):
        self.sm_mode.work()
        self.sm_day_state.work()
    def join(self):
        self._task_1s.join()
        self._queue.join()
    def stop(self):
        self._task_1s.stop()
        self._queue.stop()
    def __del__(self):
        self.__client__.loop_stop()                                              # stop the loop
        self.stop()
--- a/1
+++ b/1
@ -0,0 +1 @@
 Subproject commit 21bac82e0c459ebf6d34783c9249526a657a6bbd
--- a/requirements.txt
+++ b/requirements.txt
@ -0,0 +1,3 @@
 pifacecommon
 pifacedigitalio
 paho-mqtt
--- a/1
+++ b/1
@ -0,0 +1 @@
 Subproject commit c47c20e0d69cdefe498c38e459ec8f4accb642bd
--- a/1
+++ b/1
@ -0,0 +1 @@
 Subproject commit 7583bb5f3bd2420c901374ba95b678af6ce88433
		`@ -0,0 +1 @@`
							`Subproject commit 11166bb27ad2335f7812fcb88c788397f5106751`
		`@ -0,0 +1 @@`
							`Subproject commit 21bac82e0c459ebf6d34783c9249526a657a6bbd`
		`@ -0,0 +1 @@`
							`Subproject commit c47c20e0d69cdefe498c38e459ec8f4accb642bd`
		`@ -0,0 +1 @@`
							`Subproject commit 7583bb5f3bd2420c901374ba95b678af6ce88433`