Exemplo n.º 1
0
def fetch_temperatures(session):
	client = EvohomeClient(config.USERNAME, config.PASSWORD)
	#Setup the Temperature type
	Base = declarative_base()
	class Temperature(Base):
		__tablename__ = "temperatures"
		seq_id = Column(Integer, Sequence('temp_seq_id'), primary_key=True)
		timestamp = Column(DateTime)
		temp = Column(Float)
		setpoint = Column(Float)
		thermostat = Column(String)
		name = Column(String)
		id = Column(Integer)
	#Create the tables (if they don't exist)
	Base.metadata.create_all(engine)
	now = datetime.datetime.now()
	logger.debug(now)

	for zone in client.temperatures():
		row = Temperature()
		for key in zone.keys():
			setattr(row,key,zone[key])
		if type(row.setpoint) == type(''):
			row.setpoint = float(0)
		row.timestamp = now
		session.add(row)
		logger.info("%s - %s: %s %s" % (row.thermostat,row.name,row.temp,row.setpoint))
	session.commit()
Exemplo n.º 2
0
	def getCurrentValues(self):
		ec = EvohomeClient(self.login, self.password)
		temperatures=[]
		weather=None
		for device in ec.temperatures():
			temperatures.append({'name':device['name'],'temperature':device['temp']})
		if self.extemp=="True":
			import pyowm
		        owm = pyowm.OWM(self.apikey)
        		observation = owm.weather_at_place(self.city)
        		w = observation.get_weather()
			weather={}
			weather['temperature']=w.get_temperature('celsius')['temp']
			weather['min']=w.get_temperature('celsius')['temp_min']
			weather['max']=w.get_temperature('celsius')['temp_max']
			weather['rain']=w.get_rain()
			weather['cloud']=w.get_clouds()
			weather['wind']=w.get_wind() 
			weather['humidity']=w.get_humidity()
			weather['pressure']=w.get_pressure()
			weather['status']=w.get_detailed_status()
			weather['icon']='https://openweathermap.org/img/w/'+w.get_weather_icon_name()+'.png'
			sunrise=datetime.datetime.fromtimestamp(w.get_sunrise_time()).strftime("%Hh%M")
			weather['sunrise']=sunrise
			sunset = datetime.datetime.fromtimestamp(w.get_sunset_time()).strftime("%Hh%M")
			weather['sunset']=sunset

		return (temperatures,weather)
Exemplo n.º 3
0
    def getCurrentValues(self):
        ec = EvohomeClient(self.login, self.password)
        temperatures = []
        weather = None
        for device in ec.temperatures():
            temperatures.append({
                'name': device['name'],
                'temperature': device['temp']
            })
        if self.extemp == "True":
            import pyowm
            owm = pyowm.OWM(self.apikey)
            observation = owm.weather_at_place(self.city)
            w = observation.get_weather()
            weather = {}
            weather['temperature'] = w.get_temperature('celsius')['temp']
            weather['min'] = w.get_temperature('celsius')['temp_min']
            weather['max'] = w.get_temperature('celsius')['temp_max']
            weather['rain'] = w.get_rain()
            weather['cloud'] = w.get_clouds()
            weather['wind'] = w.get_wind()
            weather['humidity'] = w.get_humidity()
            weather['pressure'] = w.get_pressure()
            weather['status'] = w.get_detailed_status()
            weather[
                'icon'] = 'https://openweathermap.org/img/w/' + w.get_weather_icon_name(
                ) + '.png'
            sunrise = datetime.datetime.fromtimestamp(
                w.get_sunrise_time()).strftime("%Hh%M")
            weather['sunrise'] = sunrise
            sunset = datetime.datetime.fromtimestamp(
                w.get_sunset_time()).strftime("%Hh%M")
            weather['sunset'] = sunset

        return (temperatures, weather)
Exemplo n.º 4
0
def update_evohome(cur):
    client = EvohomeClient(os.environ['EVOHOME_USER'],
                           os.environ['EVOHOME_PASSWORD'])
    actual_sql = "INSERT INTO data (data_source_id, date_added, field, is_target, value) VALUES (1, current_timestamp, %s, false, %s)"
    target_sql = "INSERT INTO data (data_source_id, date_added, field, is_target, value) VALUES (1, current_timestamp, %s, true, %s)"

    for device in client.temperatures():
        if device['thermostat'] == 'DOMESTIC_HOT_WATER':
            cur.execute(actual_sql,
                        ("Hot Water", "%d" % (device['temp'] * 100)))

        if device['thermostat'] == 'EMEA_ZONE':
            cur.execute(actual_sql,
                        (device['name'], "%d" % (device['temp'] * 100)))
            cur.execute(target_sql,
                        (device['name'], "%d" % (device['setpoint'] * 100)))
Exemplo n.º 5
0
def _setup_round(username, password, config, add_devices):
    """Set up the rounding function."""
    from evohomeclient2 import EvohomeClient

    away_temp = config.get(CONF_AWAY_TEMPERATURE)
    client = EvohomeClient(username, password)

    try:
        for device in client.temperatures():
            add_devices([RoundThermostat(client, device['id'], True, 10)],
                        True)
    except socket.error:
        _LOGGER.error(
            "Connection error logging into the honeywell evohome web service")
        return False
    return True
Exemplo n.º 6
0
def obtain_zone_details():

    try:
        client = EvohomeClient(username, password, debug=False)
    except ValueError:
        print("\nEvoHome API error - aborting\n")
        exit(1)

    zone_details = []

    for zone in client.temperatures():

        # normalise response for DHW to be consistent with normal zones
        if zone['thermostat'] == 'DOMESTIC_HOT_WATER':
            zone['name'] = '_DHW'
            zone['setpoint'] = dhw_target

        zone_details.append(zone)

    return zone_details
Exemplo n.º 7
0
#!/usr/bin/env python

import sys
from datetime import datetime

from evohomeclient2 import EvohomeClient

try:
    from config import username, password, filename
except:
    print "Please configure config.py"
    sys.exit()

client = EvohomeClient(username, password, debug=True)

today = datetime.today().date()
filename = './backup-%d-%02d-%02d.json' % (today.year, today.month, today.day)

client.zone_schedules_backup(filename)
Exemplo n.º 8
0
def setup(hass, hass_config):
    """Create a (EMEA/EU-based) Honeywell evohome system.

    Currently, only the Controller and the Zones are implemented here.
    """
    # CC; pylint: disable=too-many-branches, too-many-statements
    evo_data = hass.data[DATA_EVOHOME] = {}
    evo_data['timers'] = {}

    # use a copy, since scan_interval is rounded up to nearest 60s
    evo_data['params'] = dict(hass_config[DOMAIN])
    scan_interval = evo_data['params'][CONF_SCAN_INTERVAL]
    scan_interval = timedelta(minutes=(scan_interval.total_seconds() + 59) //
                              60)

    if _LOGGER.isEnabledFor(logging.DEBUG):  # then redact username, password
        tmp = dict(evo_data['params'])
        tmp[CONF_USERNAME] = 'REDACTED'
        tmp[CONF_PASSWORD] = 'REDACTED'

        _LOGGER.debug("setup(): Configuration parameters: %s", tmp)

    from evohomeclient2 import EvohomeClient
    _LOGGER.warn("setup(): API call [4 request(s)]: client.__init__()...")  # noqa: E501; pylint: disable=line-too-long; ZXDEL

    try:
        client = evo_data['client'] = EvohomeClient(
            evo_data['params'][CONF_USERNAME],
            evo_data['params'][CONF_PASSWORD],
            # debug=False
        )

    except requests.exceptions.ConnectionError as err:
        _LOGGER.error(
            "setup(): Failed to connect with the vendor's web servers. "
            "This is a networking error, possibly at the vendor's end. "
            "Unable to continue. Resolve any errors and restart HA.")
        _LOGGER.error("setup(): The error message is: %s", err)
        _LOGGER.error(
            "setup(): For more help, see: https://github.com/zxdavb/evohome")
        return False  # unable to continue

    except requests.exceptions.HTTPError as err:
        if err.response.status_code == HTTP_BAD_REQUEST:
            _LOGGER.error(
                "setup(): Failed to connect with the vendor's web servers. "
                "Check your username (%s), and password are correct. "
                "Unable to continue. Resolve any errors and restart HA.",
                evo_data['params'][CONF_USERNAME])

        elif err.response.status_code == HTTP_SERVICE_UNAVAILABLE:
            _LOGGER.error(
                "setup(): Failed to connect with the vendor's web servers. "
                "The server is not contactable. Unable to continue. "
                "Resolve any errors and restart HA.")

        elif err.response.status_code == HTTP_TOO_MANY_REQUESTS:
            _LOGGER.error(
                "setup(): Failed to connect with the vendor's web servers. "
                "You have exceeded the API rate limit. Unable to continue. "
                "Try waiting a while (say 10 minutes) and restart HA.")

        else:
            raise  # we don't expect/handle any other HTTPErrors

        _LOGGER.error("setup(): The error message is: %s", err)
        _LOGGER.error(
            "setup(): For more help, see: https://github.com/zxdavb/evohome")
        return False  # unable to continue

    finally:  # Redact username, password as no longer needed
        evo_data['params'][CONF_USERNAME] = 'REDACTED'
        evo_data['params'][CONF_PASSWORD] = 'REDACTED'

    evo_data['schedules'] = {}
    evo_data['status'] = {}

    # Redact any installation data we'll never need
    for loc in client.installation_info:
        loc['locationInfo']['locationId'] = 'REDACTED'
        loc['locationInfo']['locationOwner'] = 'REDACTED'
        loc['locationInfo']['streetAddress'] = 'REDACTED'
        loc['locationInfo']['city'] = 'REDACTED'
        loc[GWS][0]['gatewayInfo'] = 'REDACTED'

    # Pull down the installation configuration
    loc_idx = evo_data['params'][CONF_LOCATION_IDX]

    try:
        evo_data['config'] = client.installation_info[loc_idx]

    except IndexError:
        _LOGGER.error(
            "setup(): Parameter '%s' = %s , is outside its permissible range "
            "(0-%s). Unable to continue. "
            "Check your configuration, resolve any errors and restart HA.",
            CONF_LOCATION_IDX, loc_idx,
            len(client.installation_info) - 1)

        _LOGGER.error(
            "setup(): For more help, see: https://github.com/zxdavb/evohome")
        return False  # unable to continue

    if _LOGGER.isEnabledFor(logging.DEBUG):
        _LOGGER.debug(
            "setup(): The location (temperature control system) "
            "used is: %s [%s] (%s [%s])",
            evo_data['config']['locationInfo']['locationId'],
            evo_data['config']['locationInfo']['name'],
            evo_data['config'][GWS][0][TCS][0]['systemId'],
            evo_data['config'][GWS][0][TCS][0]['modelType'])
        # Some of this data needs further redaction before being logged
        tmp_loc = dict(evo_data['config'])
        tmp_loc['locationInfo']['postcode'] = 'REDACTED'

        _LOGGER.debug("setup(): evo_data['config']=%s", tmp_loc)

    if evo_data['params'][CONF_USE_HEURISTICS]:
        _LOGGER.warning(
            "setup(): '%s' = True. This feature is best efforts, and may "
            "return incorrect state data.", CONF_USE_HEURISTICS)

    load_platform(hass, 'climate', DOMAIN, {}, hass_config)

    if 'dhw' in evo_data['config'][GWS][0][TCS][0]:  # if this location has DHW
        load_platform(hass, 'water_heater', DOMAIN, {}, hass_config)

    @callback
    def _first_update(event):  # noqa: E501; pylint: disable=line-too-long, unused-argument
        # When HA has started, the hub knows to retrieve it's first update
        pkt = {'sender': 'setup()', 'signal': 'refresh', 'to': EVO_PARENT}
        async_dispatcher_send(hass, DISPATCHER_EVOHOME, pkt)

    hass.bus.listen(EVENT_HOMEASSISTANT_START, _first_update)

    return True
Exemplo n.º 9
0
#!/usr/bin/python
import sys
import requests
from evohomeclient2 import EvohomeClient

client = EvohomeClient('email', 'password')

for device in client.temperatures():
    requests.put('http://localhost:8080/rest/items/CV_Temperature/state',
                 data=str(device['temp']))
    requests.put('http://localhost:8080/rest/items/CV_Setpoint/state',
                 data=str(device['setpoint']))
Exemplo n.º 10
0
def setup(hass, config):
    """Create a Honeywell (EMEA/EU) evohome CH/DHW system.

    One controller with 0+ heating zones (e.g. TRVs, relays) and, optionally, a
    DHW controller.  Does not work for US-based systems.
    """
    evo_data = hass.data[DATA_EVOHOME] = {}
    evo_data['timers'] = {}

    evo_data['params'] = dict(config[DOMAIN])
    evo_data['params'][CONF_SCAN_INTERVAL] = SCAN_INTERVAL_DEFAULT

    from evohomeclient2 import EvohomeClient

    _LOGGER.debug("setup(): API call [4 request(s)]: client.__init__()...")

    try:
        # There's a bug in evohomeclient2 v0.2.7: the client.__init__() sets
        # the root loglevel when EvohomeClient(debug=?), so remember it now...
        log_level = logging.getLogger().getEffectiveLevel()

        client = EvohomeClient(evo_data['params'][CONF_USERNAME],
                               evo_data['params'][CONF_PASSWORD],
                               debug=False)
        # ...then restore it to what it was before instantiating the client
        logging.getLogger().setLevel(log_level)

    except HTTPError as err:
        if err.response.status_code == HTTP_BAD_REQUEST:
            _LOGGER.error(
                "Failed to establish a connection with evohome web servers, "
                "Check your username (%s), and password are correct."
                "Unable to continue. Resolve any errors and restart HA.",
                evo_data['params'][CONF_USERNAME])
            return False  # unable to continue

        raise  # we dont handle any other HTTPErrors

    finally:  # Redact username, password as no longer needed.
        evo_data['params'][CONF_USERNAME] = 'REDACTED'
        evo_data['params'][CONF_PASSWORD] = 'REDACTED'

    evo_data['client'] = client

    # Redact any installation data we'll never need.
    if client.installation_info[0]['locationInfo']['locationId'] != 'REDACTED':
        for loc in client.installation_info:
            loc['locationInfo']['streetAddress'] = 'REDACTED'
            loc['locationInfo']['city'] = 'REDACTED'
            loc['locationInfo']['locationOwner'] = 'REDACTED'
            loc[GWS][0]['gatewayInfo'] = 'REDACTED'

    # Pull down the installation configuration.
    loc_idx = evo_data['params'][CONF_LOCATION_IDX]

    try:
        evo_data['config'] = client.installation_info[loc_idx]

    except IndexError:
        _LOGGER.warning(
            "setup(): Parameter '%s' = %s , is outside its range (0-%s)",
            CONF_LOCATION_IDX, loc_idx,
            len(client.installation_info) - 1)

        return False  # unable to continue

    evo_data['status'] = {}

    if _LOGGER.isEnabledFor(logging.DEBUG):
        tmp_loc = dict(evo_data['config'])
        tmp_loc['locationInfo']['postcode'] = 'REDACTED'
        tmp_tcs = tmp_loc[GWS][0][TCS][0]
        if 'zones' in tmp_tcs:
            tmp_tcs['zones'] = '...'
        if 'dhw' in tmp_tcs:
            tmp_tcs['dhw'] = '...'

        _LOGGER.debug("setup(), location = %s", tmp_loc)

    load_platform(hass, 'climate', DOMAIN, {}, config)

    return True
Exemplo n.º 11
0
def setup(hass, hass_config):
    """Create a (EMEA/EU-based) Honeywell evohome system.

    Currently, only the Controller and the Zones are implemented here.
    """
    evo_data = hass.data[DATA_EVOHOME] = {}
    evo_data['timers'] = {}

    # use a copy, since scan_interval is rounded up to nearest 60s
    evo_data['params'] = dict(hass_config[DOMAIN])
    scan_interval = evo_data['params'][CONF_SCAN_INTERVAL]
    scan_interval = timedelta(minutes=(scan_interval.total_seconds() + 59) //
                              60)

    from evohomeclient2 import EvohomeClient

    try:
        client = EvohomeClient(evo_data['params'][CONF_USERNAME],
                               evo_data['params'][CONF_PASSWORD],
                               debug=False)

    except HTTPError as err:
        if err.response.status_code == HTTP_BAD_REQUEST:
            _LOGGER.error(
                "setup(): Failed to connect with the vendor's web servers. "
                "Check your username (%s), and password are correct."
                "Unable to continue. Resolve any errors and restart HA.",
                evo_data['params'][CONF_USERNAME])

        elif err.response.status_code == HTTP_SERVICE_UNAVAILABLE:
            _LOGGER.error(
                "setup(): Failed to connect with the vendor's web servers. "
                "The server is not contactable. Unable to continue. "
                "Resolve any errors and restart HA.")

        elif err.response.status_code == HTTP_TOO_MANY_REQUESTS:
            _LOGGER.error(
                "setup(): Failed to connect with the vendor's web servers. "
                "You have exceeded the api rate limit. Unable to continue. "
                "Wait a while (say 10 minutes) and restart HA.")

        else:
            raise  # we dont expect/handle any other HTTPErrors

        return False  # unable to continue

    finally:  # Redact username, password as no longer needed
        evo_data['params'][CONF_USERNAME] = 'REDACTED'
        evo_data['params'][CONF_PASSWORD] = 'REDACTED'

    evo_data['client'] = client
    evo_data['status'] = {}

    # Redact any installation data we'll never need
    for loc in client.installation_info:
        loc['locationInfo']['locationId'] = 'REDACTED'
        loc['locationInfo']['locationOwner'] = 'REDACTED'
        loc['locationInfo']['streetAddress'] = 'REDACTED'
        loc['locationInfo']['city'] = 'REDACTED'
        loc[GWS][0]['gatewayInfo'] = 'REDACTED'

    # Pull down the installation configuration
    loc_idx = evo_data['params'][CONF_LOCATION_IDX]

    try:
        evo_data['config'] = client.installation_info[loc_idx]
    except IndexError:
        _LOGGER.warning(
            "setup(): Parameter '%s'=%s, is outside its range (0-%s)",
            CONF_LOCATION_IDX, loc_idx,
            len(client.installation_info) - 1)
        return False  # unable to continue

    if _LOGGER.isEnabledFor(logging.DEBUG):
        tmp_loc = dict(evo_data['config'])
        tmp_loc['locationInfo']['postcode'] = 'REDACTED'
        if 'dhw' in tmp_loc[GWS][0][TCS][0]:  # if this location has DHW...
            tmp_loc[GWS][0][TCS][0]['dhw'] = '...'

        _LOGGER.debug("setup(): evo_data['config']=%s", tmp_loc)

    load_platform(hass, 'climate', DOMAIN, {}, hass_config)

    @callback
    def _first_update(event):
        # When HA has started, the hub knows to retreive it's first update
        pkt = {'sender': 'setup()', 'signal': 'refresh', 'to': EVO_PARENT}
        async_dispatcher_send(hass, DISPATCHER_EVOHOME, pkt)

    hass.bus.listen(EVENT_HOMEASSISTANT_START, _first_update)

    return True
Exemplo n.º 12
0
def run_quickstart():
    otgwDebug("otgwset BEGIN")

    #
    # get OTGW values in json format from the gateway
    #
    try:
        otgwDebug("read otgw vals")
        otgwData = json.loads(urlopen(os.environ["OTGWURL"] + "/json").read())
    except HTTPError as e:
        otgwDebug("get otgwData failed: ", "code = ", e.code, " reason = ",
                  e.reason)
    except IOError as e:
        print("I/O error({0}): {1}".format(e.errno, e.strerror))
        otgwExit(1)
    else:
        # success .. write otgw data
        with open(os.environ["OTGWVALS"], "w") as f:
            json.dump(otgwData, f)
            f.close()
        if otgwData['dhwmode']['value'] == "1":
            # shower on, leave alone
            otgwExit(2)

    otgwDebug("read weather data")

    # update wether data older than 17 minutes, restrict number of API calls
    if os.path.exists(os.environ["OUTTEMP"]) == False or (
            time.time() - os.path.getmtime(os.environ["OUTTEMP"])) > (17 * 60):
        weatherRequest = (os.environ["OTGWCITY"] + "&APPID=" +
                          os.environ["APIKEYOT"] + "&units=metric")
        try:
            json_data = urlopen(
                "http://api.openweathermap.org/data/2.5/weather?q=" +
                weatherRequest).read()
        except HTTPError as e:
            otgwDebug("get weatherData failed: ", "code = ", e.code,
                      " reason = ", e.reason)
        except OSError as e:
            print("OS error({0}): {1}".format(e.errno, e.strerror))
            otgwExit(3)
        else:
            # success .. write weather data
            otgwDebug("write weather data")
            weatherData = json.loads(json_data)
            with open(os.environ["OUTTEMP"], "w") as f:
                json.dump(weatherData, f)
                f.close()
    else:
        # read weather data
        with open(os.environ["OUTTEMP"], "r") as f:
            weatherData = json.load(f)
            f.close()

    # reply timeout Evohome backend portal
    TCCTimeout = 113

    # if changed more than 5 minutes (Evohome 6 switchpoints per hour)
    if os.path.exists(os.environ["EVOHOMEZ"]) == False or (
            time.time() - os.path.getmtime(os.environ["EVOHOMEZ"])) > (
                9 * 60 - 2 * TCCTimeout):

        # load Evohome module
        sys.path.insert(0, os.environ["HOME"] + "/evohome-client")
        from evohomeclient2 import EvohomeClient

        # get Evohome zone temperature data
        try:
            otgwDebug("retrieve Evohome data")

            #login to Evohome backend
            evoClient = EvohomeClient(os.environ["EVOLOGIN"],
                                      os.environ["EVOPASSWD"],
                                      debug=False,
                                      timeout=TCCTimeout)
        except (requests.HTTPError, requests.Timeout, Exception) as e:
            # except (requests.HTTPError, requests.Timeout) as e:
            otgwDebug("EvohomeClient error: ", str(e))

            # in case of error assume no demand
            evoWimm = [{
                "id": "999999999",
                "name": "EvohomeERR",
                "temp": 99.0,
                "setpoint": 99.0
            }]
        else:
            # succes .. write Evohome data
            otgwDebug("Evohome TCC connected")
            evoWimm = []
            for evoData in evoClient.temperatures():
                evoWimm.append(evoData)

        if len(evoWimm) <= 0:
            otgwDebug("Evohome data, no zones")
            otgwExit(33)
        else:
            otgwDebug("write Evohome data, zones: ", len(evoWimm))
            with open(os.environ["EVOHOMEZ"], "w") as f:
                json.dump(evoWimm, f)
                f.close()

    otgwDebug("read Evohome data")
    with open(os.environ["EVOHOMEZ"], "r") as f:
        evoWimm = json.load(f)
        f.close()

#
# 2. calculate central heating settings
#
    i = 0  # zones request
    y = 0  # zones over setpoint
    totalDiff = 0
    for evoZone in evoWimm:
        zoneDiff = evoZone['setpoint'] - evoZone['temp']
        otgwDebug("evoData zone", evoZone['name'], "dif =", zoneDiff)
        if zoneDiff > 0:
            totalDiff = totalDiff + zoneDiff
            i = i + 1
        if zoneDiff < 0:
            y = y + 1

    # average heating demand
    otgwDebug("totallDiff =", totalDiff, ", i =", i)
    if i > 0:
        # some zones request heat
        AVGDIF = totalDiff / i
    else:
        if (y == 0):
            # all zones at setpoint
            AVGDIF = 0
        else:
            # all zones over setpoint
            AVGDIF = -1

    # heating mode
    HM = int(otgwData['chmode']['value'])

    # outside temperature
    OT = float(weatherData['main']['temp'])

    if (AVGDIF > 0) and (HM == 1):
        # Evohome requests heating, set current setpoint

        # min/max values of heating curve
        OTCSMIN = float(os.environ["OTCSMIN"])
        OTCSMAX = float(os.environ["OTCSMAX"])

        # linear -20 > +20 outside temperature
        CS = OTCSMIN + AVGDIF + ((20 - OT) / (20 - -20)) * (OTCSMAX - OTCSMIN)

        otgwDebug("CS heating curve = ", CS)

        # see cv manual
        pendelMax = 15

        PT = float(otgwData['boilertemp']['value'])
        if CS > PT + pendelMax:
            # gradual change at start
            otgwDebug("pendelmax", pendelMax, "active")
            CS = PT + pendelMax

        CS = math.ceil(CS)
        SH = (math.floor(CS / 5) + 1) * 5

        # maximum modulation (show override)
        MM = '99'

        # temporary setpoint
        TT = '0'
    else:
        # pass along thermostat value
        CS = 0

        # 'buffer bottom' temperature
        SH = float(os.environ["BUFTEMP"])
        #SH = float(otgwData['chwsetpoint']['value'])

        # reset override
        MM = '93'

        # lower temporary setpoint
        TT = '17'

    #
    # 3. set central heating parameters
    #
    otgwDebug("AVGDIF =", AVGDIF, "HM =", HM)
    otgwDebug("CS =", CS, "returntemp =", otgwData['returntemp']['value'],
              "SH =", SH)

    # Evohome demand                return hotter than setpoint
    if (HM == 1) and ((AVGDIF >= 0) or
                      (float(otgwData['returntemp']['value']) > SH)):
        # wait until gateway mode
        while str(otgwCmd("PR", 'M')).find('M=M') > 0:
            otgwCmd("GW", '1')
            time.sleep(3)

        # outside (ambient) temperature
        try:
            type(otgwData["outside"]["value"])
        except:
            # doesn't exist yet
            otgwCmd("OT", OT)
        else:
            # set OT if different
            if OT != float(otgwData["outside"]["value"]):
                otgwCmd("OT", OT)

        if (float(otgwData['chwsetpoint']['value']) != float(
                os.environ["BUFTEMP"])) or (SH != float(
                    os.environ["BUFTEMP"])):
            # set current setpoint
            otgwCmd("CS", CS)

            # (re)set maximum modulation
            otgwCmd("MM", MM)

        # (re)set temporary setpoint
        otgwCmd("TT", TT)

        # set max. setpoint
        if SH != float(otgwData['chwsetpoint']['value']):
            otgwCmd("SH", SH)
    else:
        # no Evohome demand
        while str(otgwCmd("PR", 'M')).find('M=M') < 0:
            # set OTGW to monitoring (if not already)
            otgwCmd("GW", '0')
            time.sleep(3)
Exemplo n.º 13
0
#!/usr/bin/python
import sys
import requests
from evohomeclient2 import EvohomeClient

client = EvohomeClient('*****@*****.**', 'somePassword')

for device in client.temperatures():
    requests.post('http://localhost:8086/rest/items/CV_Temperature',
                  data=str(device['temp']))
    requests.post('http://localhost:8086/rest/items/CV_Setpoint',
                  data=str(device['setpoint']))
Exemplo n.º 14
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from dotenv import load_dotenv
from evohomeclient2 import EvohomeClient
import os
import time

load_dotenv(dotenv_path="./.env")

client = EvohomeClient(os.getenv("EMAIL"), os.getenv("PW"), debug=True)
client.zone_schedules_backup('backup_zone_schedules_%s.json' % time.time())
client.zone_schedules_restore('new_zone_schedules.json')
Exemplo n.º 15
0
        ["id"],
        states=[
            "Auto",
            "AutoWithEco",
            "AutoWithReset",
            "Away",
            "DayOff",
            "HeatingOff",
            "Custom",
        ],
    )
    upd = prom.Gauge("evohome_updated", "Evohome client last updated")
    up = prom.Gauge("evohome_up", "Evohome client status")
    prom.start_http_server(8082)
    try:
        client = EvohomeClient(username, password)
    except Exception as e:
        print(
            "ERROR: can't create EvohomeClient\n{}: {}".format(
                type(e).__name__, str(e)),
            file=sys.stderr,
        )
        sys.exit(1)
    loggedin = True
    lastupdated = 0
    tcsalerts = set()
    zonealerts = dict()

    oldids = set()
    labels = {}
    lastup = False
Exemplo n.º 16
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py.sign_in(Username, APIkey)

stream_ids_array = []
for name, value in Config.items('Rooms'):
    stream_ids_array.append(value)

# Stream tokens from plotly
tls.set_credentials_file(stream_ids=stream_ids_array)
stream_ids = tls.get_credentials_file()['stream_ids']

# Set your login details in the 2 fields below
USERNAME = Config.get('Evohome', 'Username')
PASSWORD = Config.get('Evohome', 'Password')

try:
    client = EvohomeClient(USERNAME, PASSWORD)
except ValueError:
    try:
        client = EvohomeClient(USERNAME, PASSWORD)
    except ValueError:
        print "Error when connecting to internet, please try again"

# We make a plot for every room
for device in client.temperatures():
    stream_id = Config.get('Rooms', device['name'])
    stream = Stream(token=stream_id, maxpoints=288)
    trace1 = Scatter(x=[],
                     y=[],
                     mode='lines+markers',
                     line=Line(shape='spline'),
                     stream=stream)
Exemplo n.º 17
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#!/usr/bin/env python

import sys

from evohomeclient2 import EvohomeClient

try:
    from config import username, password, filename
except:
    print "Please configure config.py"
    sys.exit()

client = EvohomeClient(username, password, debug=True)
filename = './schedule-to-restore.json'

client.zone_schedules_restore(filename)
Exemplo n.º 18
0
from evohomeclient2 import EvohomeClient
import evohomeclient
from influx import *

# Set your login details in the 2 fields below
USERNAME = get_string_or_default('Evohome', 'Username', '')
PASSWORD = get_string_or_default('Evohome', 'Password', '')
DEBUG = get_boolean_or_default('Evohome', 'Debug', False)

# Infinite loop every 5 minutes
while True:

    # Get current time and all thermostat readings
    try:
        client = evohomeclient.EvohomeClient(USERNAME, PASSWORD)
        client2 = EvohomeClient(USERNAME, PASSWORD, debug=DEBUG)
        temps = []
        if DEBUG:
            print(client2.locations[0]._gateways[0]._control_systems[0].
                  systemModeStatus)
            print(client2.locations[0]._gateways[0]._control_systems[0].
                  activeFaults)
        for device in client.temperatures():
            temperatures = Temperature(device['name'], float(device['temp']),
                                       float(device['setpoint']))
            if DEBUG:
                print temperatures
            temps.append(temperatures)
        timestamp = datetime.utcnow()
        timestamp = timestamp.replace(microsecond=0)
        write(timestamp, temps)
Exemplo n.º 19
0
extemp=config.get("EVOHOME", "extemp")
	

date = time.time()

conn = sqlite3.connect(dbname)
cursor = conn.cursor()


if extemp=="True":
        apikey=config.get("EVOHOME", "apikey")
        city=config.get("EVOHOME", "city")
        import pyowm
        owm = pyowm.OWM(apikey)
        observation = owm.weather_at_place(city)
        w = observation.get_weather()
        temperature=w.get_temperature('celsius')['temp']
	print temperature
	cursor.execute("INSERT INTO data(name,temp,time) VALUES(?,?,?)",("Ext",temperature,date))	



ec = EvohomeClient(login, password)
for device in ec.temperatures():
	#cursor.execute("""INSERT INTO users(name, age) VALUES(?, ?)""", ("olivier", 30))
	name=device['name']
	temp=device['temp']+0.0
	#print name+" "+str(temp)+" "+str(date)
	cursor.execute("INSERT INTO data(name,temp,time) VALUES(?,?,?)",(name,temp,date))
conn.commit()
Exemplo n.º 20
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password = os.environ['EH-PASSWORD']

starttime = time.time()
if __name__ == "__main__":
    while True:
        # Connect to Influxdb
        try:
            client = InfluxDBClient(host='influxdb', port=8086)
            print("Connected to InfluxDB")
            client.create_database("EH-TEMPS")
            print("Database EH-TEMPS exists")
            client.get_list_database()

            # Collect and store evohome temperatures
            print("Collect and store evohome temperatures")
            eclient = EvohomeClient({username}, {password})
            for device in eclient.temperatures():
                # Hot Water has null strings for name and setpoint so manually add them
                if device['thermostat'] == "DOMESTIC_HOT_WATER":
                    device['setpoint'] = 55.0
                    device['name'] = "Hot Water"
                print([{"measurement": "Temperatures", "fields": device}])
                client.write_points([{
                    "measurement": "Temperatures",
                    "fields": device
                }],
                                    database='EH-TEMPS')

            # Collect and store OH temperatures
            print("Collect and store OH temperatures")
            if "OW" in os.environ:
Exemplo n.º 21
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def main():
    logger.info("Evohome exporter for Prometheus")
    try:
        username = environ[username_env_var]
        password = environ[password_env_var]
    except KeyError:
        logger.error("Missing environment variables for Evohome credentials:")
        logger.error(f"\t{username_env_var} - Evohome username")
        logger.error(f"\t{password_env_var} - Evohome password")
        exit(1)
    else:
        logger.info(
            f"Evohome credentials read from environment variables ({username})"
        )

    poll_interval = int(environ.get(poll_interval_env_var, 300))
    scrape_port = int(environ.get(scrape_port_env_var, 8082))

    eht = prom.Gauge(
        "evohome_temperature_celcius",
        "Evohome temperatuur in celsius",
        ["name", "thermostat", "id", "type"],
    )
    zavail = prom.Gauge(
        "evohome_zone_available",
        "Evohome zone availability",
        ["name", "thermostat", "id"],
    )
    zfault = prom.Gauge(
        "evohome_zone_fault",
        "Evohome zone has active fault(s)",
        ["name", "thermostat", "id"],
    )
    zmode = prom.Enum(
        "evohome_zone_mode",
        "Evohome zone mode",
        ["name", "thermostat", "id"],
        states=["FollowSchedule", "TemporaryOverride", "PermanentOverride"],
    )
    tcsperm = prom.Gauge(
        "evohome_temperaturecontrolsystem_permanent",
        "Evohome temperatureControlSystem is in permanent state",
        ["id"],
    )
    tcsfault = prom.Gauge(
        "evohome_temperaturecontrolsystem_fault",
        "Evohome temperatureControlSystem has active fault(s)",
        ["id"],
    )
    tcsmode = prom.Enum(
        "evohome_temperaturecontrolsystem_mode",
        "Evohome temperatureControlSystem mode",
        ["id"],
        states=[
            "Auto",
            "AutoWithEco",
            "AutoWithReset",
            "Away",
            "DayOff",
            "HeatingOff",
            "Custom",
        ],
    )
    upd = prom.Gauge("evohome_updated", "Evohome client last updated")
    up = prom.Gauge("evohome_up", "Evohome client status")
    prom.start_http_server(scrape_port)

    try:
        client = EvohomeClient(username, password)
    except Exception as e:
        logger.error(
            f"ERROR: can't create EvohomeClient\n{type(e).__name__}: {e}")
        sys.exit(1)

    logger.info("Logged into Evohome API")

    loggedin = True
    lastupdated = 0
    tcsalerts = set()
    zonealerts = dict()

    oldids = set()
    labels = {}
    lastup = False
    while True:
        temps = []
        newids = set()
        try:
            temps = list(client.temperatures())
            get_schedules(client)
            loggedin = True
            updated = True
            lastupdated = time.time()
        except Exception as e:
            print("{}: {}".format(type(e).__name__, str(e)), file=sys.stderr)
            temps = []
            updated = False
            loggedin = loginEvohome(client)
            if loggedin:
                continue

        if loggedin and updated:
            up.set(1)
            upd.set(lastupdated)
            tcs = client._get_single_heating_system()
            sysmode = tcs.systemModeStatus
            tcsperm.labels(client.system_id).set(
                float(sysmode.get("isPermanent", True)))
            tcsmode.labels(client.system_id).state(sysmode.get("mode", "Auto"))
            if tcs.activeFaults:
                tcsfault.labels(client.system_id).set(1)
                for af in tcs.activeFaults:
                    afhd = hashabledict(af)
                    if afhd not in tcsalerts:
                        tcsalerts.add(afhd)
                        logger.warn(f"fault in temperatureControlSystem: {af}")
            else:
                tcsfault.labels(client.system_id).set(0)
                tcsalerts = set()
            for d in temps:
                newids.add(d["id"])
                labels[d["id"]] = [d["name"], d["thermostat"], d["id"]]
                if d["temp"] is None:
                    zavail.labels(d["name"], d["thermostat"], d["id"]).set(0)
                    eht.remove(d["name"], d["thermostat"], d["id"], "measured")
                else:
                    zavail.labels(d["name"], d["thermostat"], d["id"]).set(1)
                    eht.labels(d["name"], d["thermostat"], d["id"],
                               "measured").set(d["temp"])
                eht.labels(d["name"], d["thermostat"], d["id"],
                           "setpoint").set(d["setpoint"])
                eht.labels(d["name"], d["thermostat"], d["id"], "planned").set(
                    calculate_planned_temperature(schedules[d["id"]]))
                zmode.labels(d["name"], d["thermostat"], d["id"]).state(
                    d.get("setpointmode", "FollowSchedule"))
                if d["id"] not in zonealerts.keys():
                    zonealerts[d["id"]] = set()
                if d.get("activefaults"):
                    zonefault = 1
                    for af in d["activefaults"]:
                        afhd = hashabledict(af)
                        if afhd not in zonealerts[d["id"]]:
                            zonealerts[d["id"]].add(afhd)
                            print(
                                "fault in zone {}: {}".format(d["name"], af),
                                file=sys.stderr,
                            )
                else:
                    zonefault = 0
                    zonealerts[d["id"]] = set()
                zfault.labels(d["name"], d["thermostat"],
                              d["id"]).set(zonefault)
            lastup = True
        else:
            up.set(0)
            if lastup:
                tcsperm.remove(client.system_id)
                tcsfault.remove(client.system_id)
                tcsmode.remove(client.system_id)
            lastup = False

        for i in oldids:
            if i not in newids:
                eht.remove(*labels[i] + ["measured"])
                eht.remove(*labels[i] + ["setpoint"])
                eht.remove(*labels[i] + ["planned"])
                zavail.remove(*labels[i])
                zmode.remove(*labels[i])
                zfault.remove(*labels[i])
        oldids = newids

        time.sleep(poll_interval)
Exemplo n.º 22
0
#!/usr/bin/python
import sys
import requests
from evohomeclient2 import EvohomeClient

client = EvohomeClient('*****@*****.**', 'somePassword')

for device in client.temperatures():
	requests.post('http://localhost:8086/rest/items/CV_Temperature', data=str(device['temp']))
	requests.post('http://localhost:8086/rest/items/CV_Setpoint', data=str(device['setpoint']))
Exemplo n.º 23
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password = config.get("EVOHOME", "password")
dbname = config.get("EVOHOME", "dbname")
extemp = config.get("EVOHOME", "extemp")

date = time.time()

conn = sqlite3.connect(dbname)
cursor = conn.cursor()

if extemp == "True":
    apikey = config.get("EVOHOME", "apikey")
    city = config.get("EVOHOME", "city")
    import pyowm
    owm = pyowm.OWM(apikey)
    observation = owm.weather_at_place(city)
    w = observation.get_weather()
    temperature = w.get_temperature('celsius')['temp']
    print temperature
    cursor.execute("INSERT INTO data(name,temp,time) VALUES(?,?,?)",
                   ("Ext", temperature, date))

ec = EvohomeClient(login, password)
for device in ec.temperatures():
    #cursor.execute("""INSERT INTO users(name, age) VALUES(?, ?)""", ("olivier", 30))
    name = device['name']
    temp = device['temp'] + 0.0
    #print name+" "+str(temp)+" "+str(date)
    cursor.execute("INSERT INTO data(name,temp,time) VALUES(?,?,?)",
                   (name, temp, date))
conn.commit()