Esempio n. 1
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 def notification_loop(self):
     api = remote.API('brixpro.lan', haPass)
     while True:
         try:
             v = self.char_read_hnd(0x21)
             # objT = (v[1]<<8)+v[0]
             ambT = (v[3] << 8) + v[2]
             ambT = tosigned(ambT)
             c_tmpAmb = ambT / 128.0
             f_tmpAmb = 9.0 / 5.0 * c_tmpAmb + 32
             remote.set_state(api,
                              'sensor.bedroom_temp',
                              new_state=f_tmpAmb,
                              attributes={'unit_of_measurement': '°F'})
             # targetT = calcTmpTarget(objT, ambT)
             # self.data['t006'] = targetT
             # print "T006 %.1f" % c_tmpAmb
             v = self.char_read_hnd(0x29)
             rawT = (v[1] << 8) + v[0]
             rawH = (v[3] << 8) + v[2]
             (t, rh) = calcHum(rawT, rawH)
             remote.set_state(api,
                              'sensor.bedroom_humidity',
                              new_state=rh,
                              attributes={'unit_of_measurement': '%'})
             #print ("%s -- %.1f %.1f" % (time.strftime('%l:%M:%S%p %Z on %b %d, %Y'), f_tmpAmb, rh))
             time.sleep(120)  # save battery on sensortag?
         except pexpect.TIMEOUT:
             print("TIMEOUT exception!")
             break
Esempio n. 2
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def setalaram(alaramstatus):
  switch = {'arm home': 'armed_home', 'arm away': 'armed_away', 'disarmed': 'disarmed'}
  Status = switch.get(alaramstatus)
  print('in alaram')
  if Status in alaram_valid:
    if isdoorsopen() == 'false': 
      if getalaram() == alaramstatus:
         return('ALREADY')
      else:
        if alaramstatus == 'disarm' or alaramstatus == 'arm home':
          remote.set_state(api, 'alarm_control_panel.security_alarm' , new_state = Status)
          setswitchstatus('off')
          print('Alaram Set Successfully' + alaramstatus)
          return('DONE')
        else:
          
          threadObj = threading.Thread(target = takeANap,args=[switch.get(alaramstatus),120]) #scheduling thread after two minutes
          threadObj.start()
          return('DONE')
           	
    else:
      return('DOOROPEN')
  else:
    print('invalid input')
    return('INVALID')
Esempio n. 3
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    def test_set_state(self):
        """ Test Python API set_state. """
        self.assertTrue(remote.set_state(master_api, 'test.test', 'set_test'))

        self.assertEqual('set_test', hass.states.get('test.test').state)

        self.assertFalse(remote.set_state(broken_api, 'test.test', 'set_test'))
Esempio n. 4
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    def test_set_state(self):
        """ Test Python API set_state. """
        self.assertTrue(remote.set_state(master_api, 'test.test', 'set_test'))

        self.assertEqual('set_test', hass.states.get('test.test').state)

        self.assertFalse(remote.set_state(broken_api, 'test.test', 'set_test'))
Esempio n. 5
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    def test_set_state(self):
        """Test Python API set_state."""
        remote.set_state(master_api, "test.test", "set_test")

        state = hass.states.get("test.test")

        self.assertIsNotNone(state)
        self.assertEqual("set_test", state.state)

        self.assertFalse(remote.set_state(broken_api, "test.test", "set_test"))
Esempio n. 6
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 def _turn_on_raw_sensor_on_change(self, entity, attribute, old, new,
                                   kwargs):
     _, last_st = self._raw_sensors_last_states[entity]
     self._raw_sensors_last_states[entity] = [self.datetime(), True]
     if not last_st:
         name, attrs = self._raw_sensors_attributes[entity]
         remote.set_state(self._master_ha_api,
                          name + self._sufix,
                          'on',
                          attributes=attrs)
Esempio n. 7
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    def test_set_state(self):
        """Test Python API set_state."""
        remote.set_state(master_api, 'test.test', 'set_test')

        state = hass.states.get('test.test')

        self.assertIsNotNone(state)
        self.assertEqual('set_test', state.state)

        self.assertFalse(remote.set_state(broken_api, 'test.test', 'set_test'))
    def test_set_state(self):
        """Test Python API set_state."""
        remote.set_state(master_api, 'test.test', 'set_test')

        state = hass.states.get('test.test')

        self.assertIsNotNone(state)
        self.assertEqual('set_test', state.state)

        self.assertFalse(remote.set_state(broken_api, 'test.test', 'set_test'))
Esempio n. 9
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 def _turn_off_raw_sensor_if_not_updated(self, *kwargs):
     now = self.datetime()
     for s, (ts, st) in self._raw_sensors_last_states.copy().items():
         if st and ceil(
             (now -
              ts).total_seconds()) >= self._raw_sensors_seconds_to_off:
             name, attrs = self._raw_sensors_attributes[s]
             self._raw_sensors_last_states[s] = [now, False]
             remote.set_state(self._master_ha_api,
                              name + self._sufix,
                              'off',
                              attributes=attrs)
Esempio n. 10
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    def set_state(self, e_id, new_state=None, **kwargs):
        # ./set_state.py set-state group.test_view unknown --entity_id=energy_asset.plant_dgf,switch.plant_dgf --view=true --order=3 --friendly_name='Test' --hidden='true'
        # ./set_state.py update-state energy_asset.plant_tw --min_flex=0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0

        self._print('kwargs', full=False)
        pprint(kwargs)
        self._print('state', full=False)
        print(new_state)
        remote.set_state(api, e_id, new_state=new_state, attributes=kwargs)

        self._print('Result', full=True)
        state = remote.get_state(api, e_id)
        pprint(state.attributes)
        self._print('state', full=False)
        print(state.state)
Esempio n. 11
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 def _update_states(self, kwargs):
     """Update states in master if they are not changed."""
     now = self.datetime()
     s_states = self.get_state('sensor')
     bs_states = self.get_state('binary_sensor')
     sensors = dict(**s_states)
     sensors.update(bs_states)
     for entity_id, state_atts in sensors.items():
         key = entity_id + self._sufix
         if key not in self._sensor_updates \
                 or (now - self._sensor_updates[key]).total_seconds() > 60:
             remote.set_state(self._master_ha_api,
                              key,
                              state_atts['state'],
                              attributes=state_atts['attributes'])
             self._sensor_updates[key] = now
Esempio n. 12
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def cli(ctx, entity, action, new_state, attributes):
    """Get, set or remove the state of entity."""
    import homeassistant.remote as remote

    if action == 'get':
        state = remote.get_state(ctx.api, entity)
        ctx.log('State of %s is %s', entity, state.state)

    if action == 'set':
        remote.set_state(ctx.api,
                         entity,
                         new_state,
                         attributes=json.loads(attributes))
        ctx.log('State of %s set to %s', entity, new_state)

    if action == 'remove':
        remote.remove_state(ctx.api, entity)
        ctx.log('Entitiy %s removed', entity)

    ctx.vlog('Entity: %s, Execute: %s', entity, timestamp())
Esempio n. 13
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    def update_state(self, entity_id, new_state=None, **kwargs):
        state = remote.get_state(api, entity_id)
        state.state = new_state or state.state
        attr = state.attributes.copy()
        for k, v in kwargs.items():
            attr[k] = v

        self._print('kwargs', full=True)
        pprint(kwargs)

        self._print('attr', full=False)
        pprint(attr)
        self._print('state', full=False)
        print(state.state)
        remote.set_state(api, entity_id, new_state=state.state, attributes=attr)

        self._print('Result', full=True)
        state = remote.get_state(api, entity_id)
        pprint(state.attributes)
        self._print('state', full=False)
        print(state.state)
Esempio n. 14
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    def notification_loop(self):
        api = remote.API('brixpro.lan', haPass)
        while True:
            try:
                v = self.char_read_hnd(0x21)
	            # objT = (v[1]<<8)+v[0]
                ambT = (v[3] << 8) + v[2]
                ambT = tosigned(ambT)
                c_tmpAmb = ambT / 128.0
                f_tmpAmb = 9.0 / 5.0 * c_tmpAmb + 32
                remote.set_state(api, 'sensor.bedroom_temp', new_state=f_tmpAmb, attributes={'unit_of_measurement': '°F'})
                # targetT = calcTmpTarget(objT, ambT)
              # self.data['t006'] = targetT
              # print "T006 %.1f" % c_tmpAmb            
                v = self.char_read_hnd(0x29)
                rawT = (v[1] << 8) + v[0]
                rawH = (v[3] << 8) + v[2]
                (t, rh) = calcHum(rawT, rawH)
                remote.set_state(api, 'sensor.bedroom_humidity', new_state=rh, attributes={'unit_of_measurement': '%'})
                #print ("%s -- %.1f %.1f" % (time.strftime('%l:%M:%S%p %Z on %b %d, %Y'), f_tmpAmb, rh))
                time.sleep(120) # save battery on sensortag? 
            except pexpect.TIMEOUT:
                print ("TIMEOUT exception!")
                break
Esempio n. 15
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    def test_set_state_with_push(self):
        """Test Python API set_state with push option."""
        events = []
        hass.bus.listen(EVENT_STATE_CHANGED, lambda ev: events.append(ev))

        remote.set_state(master_api, "test.test", "set_test_2")
        remote.set_state(master_api, "test.test", "set_test_2")
        hass.block_till_done()
        self.assertEqual(1, len(events))

        remote.set_state(master_api, "test.test", "set_test_2", force_update=True)
        hass.block_till_done()
        self.assertEqual(2, len(events))
Esempio n. 16
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    def test_set_state_with_push(self):
        """TestPython API set_state with push option."""
        events = []
        hass.bus.listen(EVENT_STATE_CHANGED, events.append)

        remote.set_state(master_api, 'test.test', 'set_test_2')
        remote.set_state(master_api, 'test.test', 'set_test_2')
        hass.bus._pool.block_till_done()
        self.assertEqual(1, len(events))

        remote.set_state(
            master_api, 'test.test', 'set_test_2', force_update=True)
        hass.bus._pool.block_till_done()
        self.assertEqual(2, len(events))
Esempio n. 17
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    def test_set_state_with_push(self):
        """Test Python API set_state with push option."""
        events = []
        hass.bus.listen(EVENT_STATE_CHANGED, lambda ev: events.append(ev))

        remote.set_state(master_api, 'test.test', 'set_test_2')
        remote.set_state(master_api, 'test.test', 'set_test_2')
        hass.block_till_done()
        self.assertEqual(1, len(events))

        remote.set_state(
            master_api, 'test.test', 'set_test_2', force_update=True)
        hass.block_till_done()
        self.assertEqual(2, len(events))
Esempio n. 18
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def setMonitorState(outgoingSMSTopic, phoneNumber, remote, api, newState):
    print("Set monitor....")
    print(phoneNumber)
    print(newState)
    if phoneNumber == "JordanB":
        remote.set_state(api,
                         'switch.jordan_fireplace_monitor',
                         new_state=newState)
    elif phoneNumber == "BrendanM":
        remote.set_state(api,
                         'switch.brendan_fireplace_monitor',
                         new_state=newState)
    elif phoneNumber == "JoelD":
        remote.set_state(api,
                         'switch.joel_fireplace_monitor',
                         new_state=newState)
    client.publish(outgoingSMSTopic + phoneNumber, "State set.")
Esempio n. 19
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import time
import RPi.GPIO as io
io.setmode(io.BCM)
import homeassistant.remote as remote
from homeassistant.const import STATE_ON

api = remote.API('127.0.0.1', '')

if __name__ == "__main__":     
    door_pin = 14

    io.setup(door_pin, io.IN, pull_up_down=io.PUD_UP)  # activate input with PullUp
    status = 0

    while True:
        if io.input(door_pin) and status == 0:
            remote.set_state(api, 'sensor.Switch_Frontdoor', new_state='Open')
            print("DOOR ALARM!")
            status = 1
        elif not io.input(door_pin) and status == 1:
            remote.set_state(api, 'sensor.Switch_Frontdoor', new_state='Closed')
            status = 0

        time.sleep(0.5)
Esempio n. 20
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 def set_state(self, entity_id, new_state, **kwargs):
     "Updates or creates the current state of an entity."
     return remote.set_state(self.api, new_state, **kwargs)
def setSensorState(apiurl, password, sensorname, state):
    api = remote.API(apiurl, password)
    print("setting {0} to {1}".format(sensorname, state))
    remote.set_state(api, sensorname, new_state=state)
Esempio n. 22
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    def test_set_state(self):
        """ Test Python API set_state. """
        remote.set_state(self.api, 'test.test', 'set_test')

        self.assertEqual(self.hass.states.get('test.test').state, 'set_test')
Esempio n. 23
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    def initialize(self):
        """AppDaemon required method for app init."""

        self._hass_master_url = self.args.get('master_ha_url')
        self._hass_master_key = self.args.get('master_ha_key', '')
        self._hass_master_port = int(self.args.get('master_ha_port', '8123'))
        self._sufix = self.args.get('slave_sufix', DEFAULT_SUFFIX)
        self._master_ha_api = remote.API(self._hass_master_url,
                                         self._hass_master_key,
                                         port=self._hass_master_port)

        # Raw binary sensors
        self._raw_sensors = self.args.get('raw_binary_sensors', None)
        if self._raw_sensors is not None:
            self._raw_sensors = self._raw_sensors.split(',')
            self._raw_sensors_sufix = self.args.get(
                'raw_binary_sensors_sufijo', '_raw')
            # Persistencia en segundos de último valor hasta considerarlos 'off'
            self._raw_sensors_seconds_to_off = int(
                self.args.get('raw_binary_sensors_time_off',
                              DEFAULT_RAWBS_SECS_OFF))

            # Handlers de cambio en raw binary_sensors:
            l1, l2 = 'attributes', 'last_changed'
            for s in self._raw_sensors:
                self._raw_sensors_attributes[s] = (s.replace(
                    self._raw_sensors_sufix, ''), self.get_state(s, l1))
                self._raw_sensors_last_states[s] = [
                    parse(self.get_state(s, l2)).replace(tzinfo=None), False
                ]
                self.listen_state(self._turn_on_raw_sensor_on_change, s)
            self.log('seconds_to_off: {}'.format(
                self._raw_sensors_seconds_to_off))
            self.log('attributes_sensors: {}'.format(
                self._raw_sensors_attributes))
            self.log('last_changes: {}'.format(self._raw_sensors_last_states))
            # [self.set_state(dev, state='off', attributes=attrs) for dev, attrs in .._raw_sensors_attributes.values()]
            [
                remote.set_state(self._master_ha_api,
                                 dev + self._sufix,
                                 'off',
                                 attributes=attrs)
                for dev, attrs in self._raw_sensors_attributes.values()
            ]
            next_run = self.datetime() + dt.timedelta(
                seconds=self._raw_sensors_seconds_to_off)
            self.run_every(self._turn_off_raw_sensor_if_not_updated, next_run,
                           self._raw_sensors_seconds_to_off)

        # Publish slave states in master
        bs_states = self.get_state('binary_sensor')
        if self._raw_sensors is not None:
            [bs_states.pop(raw) for raw in self._raw_sensors]

        s_states = self.get_state('sensor')
        sensors = dict(**s_states)
        sensors.update(bs_states)
        now = self.datetime()
        sensor_updates = {}
        for entity_id, state_atts in sensors.items():
            self.log('SENSOR: {}, ATTRS={}'.format(entity_id, state_atts))
            remote.set_state(self._master_ha_api,
                             entity_id + self._sufix,
                             state_atts['state'],
                             attributes=state_atts['attributes'])
            self.listen_state(self._ch_state,
                              entity_id,
                              attributes=state_atts['attributes'])
            sensor_updates.update({entity_id + self._sufix: now})
        self._sensor_updates = sensor_updates
        self.run_minutely(self._update_states, None)
        self.log('Transfer states from slave to master in {} COMPLETE'.format(
            self._master_ha_api))
Esempio n. 24
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def intent_request(session, user, request):
	if request['intent']['name'] == "LocateIntent":
                hass_devices = {}
                user = request['intent']['slots']['User']['value']
                allStates=remote.get_states(api)
                for state in allStates:
                    if get_entity_type(state) == "device_tracker":
                        hass_devices[state.attributes['friendly_name']]=state.state
                output_speech = user + " is at " + hass_devices[user]
                output_type = "PlainText"
                card_type = "Simple"
                card_title = "Location"
                card_content = hass_devices[user]
                print(output_speech)
                response = {"outputSpeech": {"type":output_type,"text":output_speech},"card":{"type":card_type,"title":card_title,"content":card_content},'shouldEndSession':True}	
                return response 

	elif request['intent']['name'] == "LockIntent":
                matched_lock = False
                action = request['intent']['slots']['Action']['value']
                requested_lock = request['intent']['slots']['LockName']['value']
                allStates = remote.get_states(api)
                for state in allStates:
                    if get_entity_type(state) == "lock":
                        friendly_name = state.attributes['friendly_name']
                        if friendly_name.lower() == requested_lock:
                            matched_lock = True
                            print(action)
                            if action == "lock":
                                remote.set_state(api, state.entity_id, new_state=STATE_LOCKED)
                                output_speech = "I have locked the " + requested_lock
                            elif action == "unlock":
                                remote.set_state(api, state.entity_id, new_state=STATE_UNLOCKED)
                                output_speech = "I have unlocked the " + requested_lock
                if matched_lock == False:
                    output_speech = "I'm sorry, I have not found a lock by that name."
                output_type = "PlainText"
                response = {"outputSpeech" : {"type":output_type, "text":output_speech}, 'shouldEndSession':True}
                return response
                        
	elif request['intent']['name'] == "CurrentEnergyIntent":
                energy_usage = remote.get_state(api, 'sensor.energy_usage')
                output_speech = 'Your {} is {} {}.'.format(energy_usage.attributes['friendly_name'], energy_usage.state, energy_usage.attributes['unit_of_measurement'])
                output_type = "PlainText"

                card_type = "Simple"
                card_title = "Energy Usage"
                card_content = output_speech
                response = {"outputSpeech": {"type":output_type,"text":output_speech},"card":{"type":card_type,"title":card_title,"content":card_content},'shouldEndSession':False}
                return response

	elif request['intent']['name'] == "MonthlyEnergyIntent":
                energy_cost = remote.get_state(api, 'sensor.energy_cost')
                output_speech = 'Your {} is ${}'.format(energy_cost.attributes['friendly_name'], energy_cost.state)
                output_type = "PlainText"

                card_type = "Simple"
                card_title = "Energy Cost"
                card_content = output_speech
                response = {"outputSpeech": {"type":output_type,"text":output_speech},"card":{"type":card_type,"title":card_title,"content":card_content},'shouldEndSession':False}
                return response
                
	elif request['intent']['name'] ==  "HelpIntent":
		output_speech = "This is the HomeAssistant app. Right now, you can only ask where someone is, or ask about your energy usage.  But I have big plans. "
		output_type = "PlainText"
		card_type = "Simple"
		card_title = "HelloWorld - Title"
		card_content = "HelloWorld - This is the Hello World help! Just say Hi"

		response = {"outputSpeech": {"type":output_type,"text":output_speech},'shouldEndSession':False}

		return response
	
		
	else:
		return launch_request(session, user, request) ##Just do the same thing as launch request
Esempio n. 25
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def setSensorState(apiurl, password, sensorname, state):
    api = remote.API(apiurl, password)
    remote.set_state(api, sensorname, new_state=state)
Esempio n. 26
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 def _ch_state(self, entity, attribute, old, new, kwargs):
     remote.set_state(self._master_ha_api, entity + self._sufix, new,
                      **kwargs)
     self._sensor_updates[entity + self._sufix] = self.datetime()
Esempio n. 27
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def takeANap(Status,nap):
	time.sleep(nap)
	print('Wake up!')
	remote.set_state(api, 'alarm_control_panel.security_alarm' , new_state = Status)
	print('Alaram Set Successfully' + Status)
	setswitchstatus('on')