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gui.py
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gui.py
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""" Tesla Owner API GUI application using TeslaPy module """
# Author: Tim Dorssers
import ssl
import time
import logging
import threading
import webbrowser
import multiprocessing
import geopy.geocoders # 1.14.0 or higher required
from geopy.geocoders import Nominatim
from geopy.exc import *
try:
import webview # Optional pywebview 3.0 or higher
except ImportError:
webview = None
try:
from selenium import webdriver # Optional selenium 3.13.0 or higher
from selenium.webdriver.support import expected_conditions as EC
from selenium.webdriver.support.ui import WebDriverWait
except ImportError:
webdriver = None
try:
from Tkinter import *
from tkSimpleDialog import *
from ConfigParser import *
except ImportError:
from tkinter import *
from tkinter.simpledialog import *
from configparser import *
import teslapy
class LabelGridDialog(Dialog):
""" Display dialog box with table without cancel button """
def __init__(self, master, title=None, table=None):
self.table = table or []
# The Dialog constructor must be called last
Dialog.__init__(self, master, title)
def body(self, master):
for args in self.table:
Label(master, text=args.pop('text')).grid(args)
def buttonbox(self):
box = Frame(self)
w = Button(box, text="OK", width=10, command=self.ok, default=ACTIVE)
w.pack(side=LEFT, padx=5, pady=5)
self.bind("<Return>", self.ok)
box.pack()
class SeatHeaterDialog(Dialog):
""" Display dialog box with comboboxes to select seat heaters """
def __init__(self, master):
Dialog.__init__(self, master, title='Seat Heater')
def body(self, master):
Label(master, text="Heater:").grid(row=0, sticky=E)
Label(master, text="Level:").grid(row=1, sticky=E)
lst = ['0: Front Left', '1: Front Right', '2: Rear left',
'3: Rear center', '4: Rear right']
self.heater = StringVar(value=lst[0])
OptionMenu(master, self.heater, *lst).grid(row=0, column=1, sticky=W)
self.level = IntVar(value=0)
OptionMenu(master, self.level, 0, 1, 2, 3).grid(row=1, column=1, sticky=W)
def apply(self):
# Only return heater ID and level
self.result = (int(self.heater.get()[0]), self.level.get())
class ControlDialog(Dialog):
""" Display dialog box with radio buttons to select sunroof/window state """
def __init__(self, master, title=None):
Dialog.__init__(self, master, title)
def body(self, master):
self.state = StringVar(value='vent')
Radiobutton(master, text="Vent", variable=self.state,
value='vent').pack(anchor=W)
Radiobutton(master, text="Close", variable=self.state,
value='close').pack(anchor=W)
def apply(self):
self.result = self.state.get()
class ChargingDialog(Dialog):
""" Display dialog box to get scheduled charging parameters """
def __init__(self, master, title='Scheduled charging'):
Dialog.__init__(self, master, title)
def body(self, master):
self.enable = BooleanVar()
Checkbutton(master, text='Enable', variable=self.enable).pack()
self.time = StringVar()
self.time.set('0:00')
Label(master, text='Time:').pack(side=LEFT)
Entry(master, textvariable=self.time).pack(side=LEFT)
def apply(self):
parts = self.time.get().split(':')
self.result = {'enable': self.enable.get(),
'time': int(parts[0]) * 60 + int(parts[1])}
class DepartureDialog(Dialog):
""" Display dialog box to get scheduled departure parameters """
def __init__(self, master, title='Scheduled departure'):
Dialog.__init__(self, master, title)
def body(self, master):
self.depart_time = StringVar()
self.depart_time.set('8:00')
Label(master, text='Departure Time:').grid()
Entry(master, textvariable=self.depart_time).grid(row=0, column=1)
self.enable = BooleanVar()
Checkbutton(master, text='Enable', variable=self.enable).grid(row=0, column=2)
group = LabelFrame(master, text='Preconditioning')
self.hvac = BooleanVar()
Checkbutton(group, text='Enable', variable=self.hvac).pack(side=LEFT)
self.hvac_weekdays = BooleanVar()
Checkbutton(group, text='Weekdays',
variable=self.hvac_weekdays).pack(side=RIGHT)
group.grid(columnspan=3, sticky=EW, padx=5)
group = LabelFrame(master, text='Off Peak Charging')
self.off_peak = BooleanVar()
Checkbutton(group, text='Enable', variable=self.off_peak).grid(sticky=W)
self.off_peak_weekdays = BooleanVar()
Checkbutton(group, text='Weekdays',
variable=self.off_peak_weekdays).grid(row=0, column=1, sticky=E)
self.end_time = StringVar()
self.end_time.set('6:00')
Label(group, text='Off Peak End Time:').grid()
Entry(group, textvariable=self.end_time).grid(row=1, column=1, padx=5, pady=5)
group.grid(columnspan=3, sticky=EW, padx=5)
def apply(self):
depart = self.depart_time.get().split(':')
end = self.end_time.get().split(':')
self.result = {'enable': self.enable.get(),
'departure_time': int(depart[0]) * 60 + int(depart[1]),
'preconditioning_enabled': self.hvac.get(),
'preconditioning_weekdays_only': self.hvac_weekdays.get(),
'off_peak_charging_enabled': self.off_peak.get(),
'off_peak_charging_weekdays_only': self.off_peak_weekdays.get(),
'end_off_peak_time': int(end[0]) * 60 + int(end[1])}
class ChargeHistoryDialog(Dialog):
""" Display dialog box with charging history graph """
def __init__(self, master, data):
self.data = data
Dialog.__init__(self, master, title='Charging History')
def body(self, master):
if not isinstance(self.data, dict):
return
Label(master, text=self.data['screen_title'],
font=('TkTextFont', 12)).pack()
Label(master, text=self.data['total_charged']['title'],
anchor=W).pack(fill=X)
text = '%s %s' % (self.data['total_charged']['value'],
self.data['total_charged']['after_adornment'])
Label(master, text=text, anchor=W,
font=('TkTextFont', 12, 'bold')).pack(fill=X)
# Draw graph
canvas = Canvas(master, width=440, height=410)
scale = self.data['charging_history_graph']['y_range_max'] / 320
for y in self.data['charging_history_graph']['horizontal_grid_lines']:
y_scaled = 335 - y / scale
canvas.create_line(5, y_scaled, 403, y_scaled, dash=(2, 2))
for x in self.data['charging_history_graph']['vertical_grid_lines']:
canvas.create_line(14 + x * 13, 15, 14 + x * 13, 335, dash=(2, 2))
for label in self.data['charging_history_graph']['x_labels']:
canvas.create_text(14 + label['raw_value'] * 13, 335,
text=label['value'], anchor=NE)
for label in self.data['charging_history_graph']['y_labels']:
text = label['value'] + '\n' + label.get('after_adornment', '')
canvas.create_text(408, 335 - label.get('raw_value', 0) / scale,
text=text.strip(), anchor=W)
# Stacked bars
x = 8
for point in self.data['charging_history_graph']['data_points']:
y = 335
for idx, value in enumerate(point['values']):
if idx == 0:
if value.get('raw_value', 0) <= 0:
canvas.create_line(x, y, x, y - 2, width=7)
continue
color = {1: 'blue', 2: 'red', 3: 'grey'}.get(idx)
y_new = y - value.get('raw_value', 0) / scale
canvas.create_line(x, y, x, y_new, width=7, fill=color)
y = y_new - 1
x += 13
# Breakdown
x = 5
for idx, key in enumerate(self.data['total_charged_breakdown']):
color = {'home': 'blue', 'super_charger': 'red',
'other': 'grey'}.get(key)
canvas.create_oval(10 + idx * 165, 370, 20 + idx * 165, 380,
fill=color, outline=color)
item = self.data['total_charged_breakdown'][key]
text = '%s%s\n%s' % (item['value'], item['after_adornment'],
item['sub_title'])
canvas.create_text(25 + idx * 165, 375, text=text, anchor=W)
x_new = x + item.get('raw_value', 0) * 4.1
canvas.create_line(x, 400, x_new, 400, width=7, fill=color)
x = x_new + 1
canvas.pack()
def buttonbox(self):
box = Frame(self)
w = Button(box, text="OK", width=10, command=self.ok, default=ACTIVE)
w.pack(side=LEFT, padx=5, pady=5)
self.bind("<Return>", self.ok)
box.pack()
class StatusBar(Frame):
""" Status bar widget with transient and permanent status messages """
def __init__(self, master, **kwargs):
Frame.__init__(self, master, **kwargs)
self.text_value = StringVar()
Label(self, bd=1, relief=SUNKEN, anchor=W,
textvariable=self.text_value).pack(fill=X, side=LEFT, expand=1)
self.status_value = StringVar()
Label(self, bd=1, relief=SUNKEN, anchor=W,
textvariable=self.status_value).pack(fill=X, side=LEFT, expand=1)
self.indicator_label = Label(self, bd=1, relief=SUNKEN, width=1)
self.indicator_label.pack(side=LEFT)
# Save default background color
self.no_color = self.indicator_label.cget('bg')
def text(self, text):
""" Set informational text """
self.text_value.set(str(text)[:120])
def status(self, status):
""" Set status text """
self.status_value.set(status)
def indicator(self, color):
""" Set or reset indicator color """
self.indicator_label.config(bg=color if color else self.no_color)
self.update_idletasks()
class LabelVarGrid(Label):
""" Label widget with updatable textvariable and grid positioning """
def __init__(self, master, **kwargs):
Label.__init__(self, master)
self.value = StringVar()
self.config(textvariable=self.value)
self.grid(**kwargs)
def text(self, text):
""" Set textvariable of label """
self.value.set(text)
class Dashboard(Frame):
""" Dashboard widget showing vehicle data """
def __init__(self, master, **kwargs):
Frame.__init__(self, master, **kwargs)
left = Frame(self)
left.pack(side=LEFT, padx=5)
right = Frame(self)
right.pack(side=LEFT, padx=5)
# Vehicle image on right frame
self.vehicle_image = Label(right)
self.vehicle_image.pack()
# Climate state on left frame
self.layout(left, 'Climate State',
[('outside_temp', 'Outside Temperature:'),
('inside_temp', 'Inside Temperature:'),
('driver_temp', 'Driver Temperature Setting:'),
('passenger_temp', 'Passenger Temperature Setting:'),
('is_climate_on', 'Is Climate On:'),
('fan_status', 'Fan Speed:'),
('driver_heater', 'Driver Seat Heater:'),
('passenger_heater', 'Passenger Seat Heater:'),
('front_defroster', 'Is Front Defroster On:'),
('rear_defroster', 'Is Rear Defroster On:')])
# Vehicle state on left frame
self.layout(left, 'Vehicle State',
[('vehicle_name', 'Vehicle Name:'),
('odometer', 'Odometer:'),
('car_version', 'Car Version:'),
('locked', 'Locked:'),
('df', 'Driver Front Door:'),
('pf', 'Passenger Front Door:'),
('dr', 'Driver Rear Door:'),
('pr', 'Passenger Rear Door:'),
('fd', 'Driver Front Window:'),
('fp', 'Passenger Front Window:'),
('rd', 'Driver Rear Window:'),
('rp', 'Passenger Rear Window:'),
('ft', 'Front Trunk:'),
('rt', 'Rear Trunk:'),
('remote_start', 'Remote Start:'),
('user_present', 'Is User Present:'),
('speed_limit', 'Speed Limit Mode:'),
('current_limit', 'Current Limit:'),
('speed_limit_pin', 'Speed Limit Pin Set:'),
('sentry_mode', 'Sentry Mode:'),
('valet_mode', 'Valet Mode:'),
('valet_pin', 'Valet Pin Set:'),
('tmps_fl', 'TMPS Front Left:'),
('tmps_fr', 'TMPS Front Right:'),
('tmps_rl', 'TMPS Rear Left:'),
('tmps_rr', 'TMPS Rear Right:'),
('sw_update', 'Software Update:'),
('sw_duration', 'Expected Duration:'),
('update_ver', 'Update Version:'),
('inst_perc', 'Install Percentage:')])
# Drive state on right frame
group = self.layout(right, 'Drive State',
[('power', 'Power:'),
('speed', 'Speed:'),
('shift_state', 'Shift State:'),
('heading', 'Heading:')])
Label(group, text='GPS:').grid(row=2, column=0, sticky=E)
self.gps = LabelVarGrid(group, row=2, column=1, columnspan=3, sticky=W)
self.gps.config(wraplength=330, justify=LEFT)
# Charging state on right frame
self.layout(right, 'Charging State',
[('charging_state', 'Charging State:'),
('time_to_full', 'Time To Full Charge:'),
('charger_voltage', 'Charger Voltage:'),
('charger_request', 'Requested Current:'),
('charger_current', 'Charger Actual Current:'),
('charger_power', 'Charger Power:'),
('battery_level', 'Battery Level:'),
('charge_rate', 'Charge Rate:'),
('battery_range', 'Battery Range:'),
('energy_added', 'Charge Energy Added:'),
('range_added', 'Charge Range Added:'),
('charge_limit_soc', 'Charge Limit SOC:'),
('est_battery_range', 'Estimated Battery Range:'),
('charge_port_door', 'Charge Port Door Open:'),
('charge_port_latch', 'Charge Port Latch:'),
('fast_charger', 'Fast Charger:'),
('trip_charging', 'Trip Charging:'),
('charging_pending', 'Scheduled Charging:'),
('charging_start', 'Charging Start Time:'),
('scheduled_charging', 'Scheduled Charging Mode:'),
('departure_time', 'Scheduled Departure:'),
('off_peak_charge', 'Off Peak Charging:'),
('off_peak_times', 'Off Peak Charging Times:'),
('off_peak_end_time', 'Off Peak End Time:'),
('preconditioning', 'Preconditioning:'),
('preconditioning_times', 'Preconditioning Times:')])
# Vehicle config on left frame
self.layout(left, 'Vehicle Config',
[('car_type', 'Car Type:'),
('trim_badging', 'Trim Badging:'),
('air_suspension', 'Has Air Suspension:'),
('exterior_color', 'Exterior Color:'),
('wheel_type', 'Wheel Type:'),
('spoiler_type', 'Spoiler Type:'),
('roof_color', 'Roof Color:'),
('charge_port_type', 'Charge Port Type:')])
# Service on right frame
self.layout(right, 'Service', [('next_appt', 'Next appointment:'),
('in_service', 'In service:')])
def layout(self, master, text, labels):
""" Group four columns of widgets from list of tupels """
group = LabelFrame(master, text=text, padx=5, pady=5)
group.pack(padx=5, pady=5, fill=X)
for i, (name, txt) in enumerate(labels):
Label(group, text=txt).grid(row=i // 2, column=i % 2 * 2, sticky=E)
w = LabelVarGrid(group, row=i // 2, column=i % 2 * 2 + 1, sticky=W)
setattr(self, name, w) # Set named widget to dashboard
return group
def update_widgets(self):
""" Set values of dashboard widgets """
cl = app.vehicle['climate_state']
ve = app.vehicle['vehicle_state']
dr = app.vehicle['drive_state']
ch = app.vehicle['charge_state']
co = app.vehicle['vehicle_config']
# pylint: disable=E1101
# Climate state
self.outside_temp.text(app.vehicle.temp_units(cl['outside_temp']))
self.inside_temp.text(app.vehicle.temp_units(cl['inside_temp']))
self.driver_temp.text(app.vehicle.temp_units(cl['driver_temp_setting']))
self.passenger_temp.text(app.vehicle.temp_units(cl['passenger_temp_setting']))
self.is_climate_on.text(str(cl['is_climate_on']))
self.fan_status.text(cl['fan_status'])
self.driver_heater.text(cl['seat_heater_left'])
self.passenger_heater.text(cl['seat_heater_right'])
self.front_defroster.text(str(cl['is_front_defroster_on']))
self.rear_defroster.text(str(cl['is_rear_defroster_on']))
# Vehicle state
self.vehicle_name.text(ve['vehicle_name'])
self.odometer.text(app.vehicle.dist_units(ve['odometer']))
self.car_version.text(ve['car_version'])
self.locked.text(str(ve['locked']))
door = {0: 'Closed', 1: 'Open'}
self.df.text(door.get(ve['df']))
self.pf.text(door.get(ve['pf']))
self.dr.text(door.get(ve['dr']))
self.pr.text(door.get(ve['pr']))
window = {0: 'Closed', 1: 'Venting', 2: 'Open'}
self.fd.text(window.get(ve.get('fd_window')))
self.fp.text(window.get(ve.get('fp_window')))
self.rd.text(window.get(ve.get('rd_window')))
self.rp.text(window.get(ve.get('rp_window')))
self.ft.text(door.get(ve['ft']))
self.rt.text(door.get(ve['rt']))
self.remote_start.text(str(ve['remote_start']))
self.user_present.text(str(ve['is_user_present']))
self.speed_limit.text(str(ve['speed_limit_mode']['active']))
limit = ve['speed_limit_mode']['current_limit_mph']
self.current_limit.text(app.vehicle.dist_units(limit, True))
self.speed_limit_pin.text(str(ve['speed_limit_mode']['pin_code_set']))
self.sentry_mode.text(str(ve.get('sentry_mode')))
self.valet_mode.text(str(ve['valet_mode']))
self.valet_pin.text(str(not 'valet_pin_needed' in ve))
self.tmps_fl.text(ve.get('tpms_pressure_fl'))
self.tmps_fr.text(ve.get('tpms_pressure_fr'))
self.tmps_rl.text(ve.get('tpms_pressure_rl'))
self.tmps_rr.text(ve.get('tpms_pressure_rr'))
status = ve['software_update']['status'] or 'unavailable'
wt = ve['software_update'].get('warning_time_remaining_ms', 0) / 1000
status += ' in {:02.0f}:{:02.0f}'.format(*divmod(wt, 60)) if wt else ''
self.sw_update.text(status.capitalize())
sueds = divmod(ve['software_update']['expected_duration_sec'] / 60, 60)
self.sw_duration.text('{:02.0f}:{:02.0f}'.format(*sueds))
self.update_ver.text(ve['software_update'].get('version') or 'None')
self.inst_perc.text(ve['software_update'].get('install_perc') or 'None')
# Drive state
power = 0 if dr['power'] is None else dr['power']
self.power.text('%d kW' % power)
speed = 0 if dr['speed'] is None else dr['speed']
self.speed.text(app.vehicle.dist_units(speed, True))
self.shift_state.text(str(dr['shift_state']))
self.heading.text(self._heading_to_str(dr['heading']))
self.gps.text(app.update_thread.location)
# Charging state
self.charging_state.text(ch['charging_state'])
ttfc = divmod(ch['time_to_full_charge'] * 60, 60)
self.time_to_full.text('{:02.0f}:{:02.0f}'.format(*ttfc))
volt = 0 if ch['charger_voltage'] is None else ch['charger_voltage']
self.charger_voltage.text('%d V' % volt)
self.charger_request.text('%d A' % ch['charge_current_request'])
ph = '3 x ' if ch['charger_phases'] == 2 else ''
amps = 0 if ch['charger_actual_current'] is None else ch['charger_actual_current']
self.charger_current.text('%s%d A' % (ph, amps))
charger_power = 0 if ch['charger_power'] is None else ch['charger_power']
self.charger_power.text('%d kW' % charger_power)
if ch['usable_battery_level'] < ch['battery_level']:
usable = ' (%d %% usable)' % ch['usable_battery_level']
else:
usable = ''
self.battery_level.text('%d %%%s' % (ch['battery_level'], usable))
self.charge_rate.text(app.vehicle.dist_units(ch['charge_rate'], True))
self.battery_range.text(app.vehicle.dist_units(ch['battery_range']))
self.energy_added.text('%.1f kWh' % ch['charge_energy_added'])
self.range_added.text(app.vehicle.dist_units(ch['charge_miles_added_rated']))
self.charge_limit_soc.text('%d %%' % ch['charge_limit_soc'])
self.est_battery_range.text(app.vehicle.dist_units(ch['est_battery_range']))
self.charge_port_door.text(str(ch['charge_port_door_open']))
self.charge_port_latch.text(str(ch['charge_port_latch']))
self.fast_charger.text(str(ch['fast_charger_present']))
self.trip_charging.text(str(ch['trip_charging']))
self.charging_pending.text(str(ch['scheduled_charging_pending']))
if ch['scheduled_charging_start_time']:
st = time.localtime(ch['scheduled_charging_start_time'])
self.charging_start.text(time.strftime('%X', st))
else:
self.charging_start.text(None)
self.scheduled_charging.text(ch.get('scheduled_charging_mode'))
if ch.get('scheduled_departure_time'):
dt = time.localtime(ch['scheduled_departure_time'])
self.departure_time.text(time.strftime('%X', dt))
else:
self.departure_time.text(None)
self.off_peak_charge.text(str(ch.get('off_peak_charging_enabled')))
self.off_peak_times.text(ch.get('off_peak_charging_times'))
if 'off_peak_hours_end_time' in ch:
ophet = divmod(ch['off_peak_hours_end_time'], 60)
self.off_peak_end_time.text('{:02.0f}:{:02.0f}'.format(*ophet))
else:
self.off_peak_end_time.text(None)
self.preconditioning.text(str(ch.get('preconditioning_enabled')))
self.preconditioning_times.text(ch.get('preconditioning_times'))
# Vehicle config
self.car_type.text(co['car_type'])
self.trim_badging.text(co.get('trim_badging'))
self.air_suspension.text(str(co['has_air_suspension']))
self.exterior_color.text(co['exterior_color'])
self.wheel_type.text(co['wheel_type'])
self.spoiler_type.text(co['spoiler_type'])
self.roof_color.text(co['roof_color'])
self.charge_port_type.text(co['charge_port_type'])
@staticmethod
def _heading_to_str(deg):
""" Convert heading in degrees to a direction string """
return ['NNE', 'NE', 'ENE', 'E', 'ESE', 'SE', 'SSE',
'S', 'SSW', 'SW', 'WSW', 'W', 'WNW', 'NW',
'NNW', 'N'][int(abs((deg - 11.25) % 360) / 22.5)]
def show_webview(url):
""" Shows the SSO page in a webview and returns the redirected URL """
result = ['']
window = webview.create_window('Login', url)
def on_loaded():
result[0] = window.get_current_url()
if 'void/callback' in result[0].split('?')[0]:
window.destroy()
try:
window.events.loaded += on_loaded
except AttributeError:
window.loaded += on_loaded
webview.start() # Blocks the main thread until webview is closed
return result[0]
class App(Tk):
""" Main application class """
def __init__(self, **kwargs):
Tk.__init__(self, **kwargs)
self.title('Tesla')
self.protocol('WM_DELETE_WINDOW', self.save_and_quit)
# Add menu bar
menu = Menu(self)
app_menu = Menu(menu, tearoff=0)
app_menu.add_command(label='Login', command=self.login)
app_menu.add_command(label='Logout', command=self.logout)
app_menu.add_separator()
app_menu.add_command(label='Exit', command=self.save_and_quit)
menu.add_cascade(label='App', menu=app_menu)
self.vehicle_menu = Menu(menu, tearoff=0)
self.vehicle_menu.add_command(label='Show option codes', state=DISABLED,
command=self.option_codes)
self.vehicle_menu.add_command(label='Decode VIN', state=DISABLED,
command=self.decode_vin)
self.vehicle_menu.add_command(label='Charge history', state=DISABLED,
command=self.charge_history)
self.vehicle_menu.add_separator()
menu.add_cascade(label='Vehicle', menu=self.vehicle_menu)
self.cmd_menu = Menu(menu, tearoff=0)
self.cmd_menu.add_command(label='Wake up', state=DISABLED,
command=self.wake_up)
self.cmd_menu.add_command(label='Nearby charging sites', state=DISABLED,
command=self.charging_sites)
self.cmd_menu.add_command(self.add_cmd_args('HONK_HORN'))
self.cmd_menu.add_command(self.add_cmd_args('FLASH_LIGHTS'))
self.cmd_menu.add_command(label='Lock/unlock', state=DISABLED,
command=self.lock_unlock)
self.cmd_menu.add_command(label='Climate on/off', state=DISABLED,
command=self.climate_on_off)
self.cmd_menu.add_command(label='Set temperature', state=DISABLED,
command=self.set_temperature)
self.cmd_menu.add_command(label='Actuate frunk', state=DISABLED,
command=lambda: self.actuate_trunk('front'))
self.cmd_menu.add_command(label='Actuate trunk', state=DISABLED,
command=lambda: self.actuate_trunk('rear'))
self.cmd_menu.add_command(label='Remote start drive', state=DISABLED,
command=lambda: self.cmd('REMOTE_START'))
self.cmd_menu.add_command(label='Set charge limit', state=DISABLED,
command=self.set_charge_limit)
self.cmd_menu.add_command(label='Open/close charge port', state=DISABLED,
command=self.open_close_charge_port)
self.cmd_menu.add_command(label='Start/stop charge', state=DISABLED,
command=self.start_stop_charge)
self.cmd_menu.add_command(label='Seat heater request', state=DISABLED,
command=self.seat_heater)
self.cmd_menu.add_command(label='Control sun roof', state=DISABLED,
command=self.vent_close_sun_roof)
self.media_menu = Menu(menu, tearoff=0)
self.cmd_menu.add_cascade(label='Media', state=DISABLED,
menu=self.media_menu)
for endpoint in ['MEDIA_TOGGLE_PLAYBACK', 'MEDIA_NEXT_TRACK',
'MEDIA_PREVIOUS_TRACK', 'MEDIA_NEXT_FAVORITE',
'MEDIA_PREVIOUS_FAVORITE', 'MEDIA_VOLUME_UP',
'MEDIA_VOLUME_DOWN']:
self.media_menu.add_command(self.add_cmd_args(endpoint))
self.cmd_menu.add_command(label='Schedule sw update', state=DISABLED,
command=self.schedule_sw_update)
self.cmd_menu.add_command(self.add_cmd_args('CANCEL_SOFTWARE_UPDATE'))
self.cmd_menu.add_command(label='Control windows', state=DISABLED,
command=self.window_control)
self.cmd_menu.add_command(label='Max defrost', state=DISABLED,
command=self.max_defrost)
self.cmd_menu.add_command(label='Set charge amps', state=DISABLED,
command=self.charging_amps)
self.cmd_menu.add_command(label='Scheduled charging', state=DISABLED,
command=self.scheduled_charging)
self.cmd_menu.add_command(label='Scheduled departure', state=DISABLED,
command=self.scheduled_departure)
menu.add_cascade(label='Command', menu=self.cmd_menu)
opt_menu = Menu(menu, tearoff=0)
self.auto_refresh = BooleanVar()
opt_menu.add_checkbutton(label='Auto refresh',
variable=self.auto_refresh,
command=self.update_dashboard)
self.debug = BooleanVar()
opt_menu.add_checkbutton(label='Console debugging', variable=self.debug,
command=self.apply_settings)
self.verify = BooleanVar(value=1)
opt_menu.add_checkbutton(label='Verify SSL', variable=self.verify,
command=self.apply_settings)
opt_menu.add_command(label='Set proxy URL', command=self.set_proxy)
opt_menu.add_command(label='Set SSO base URL', command=self.set_sso_url)
web_menu = Menu(menu, tearoff=0)
opt_menu.add_cascade(label='Web browser', menu=web_menu,
state=NORMAL if webdriver else DISABLED)
self.browser = IntVar()
web_menu.add_radiobutton(label='Chrome', value=0, variable=self.browser)
if webdriver and hasattr(webdriver.edge, 'options'):
web_menu.add_radiobutton(label='Edge', value=1, variable=self.browser)
self.selenium = BooleanVar()
opt_menu.add_checkbutton(label='Use selenium', variable=self.selenium,
state=NORMAL if webdriver else DISABLED,
command=self.apply_settings)
menu.add_cascade(label='Options', menu=opt_menu)
help_menu = Menu(menu, tearoff=0)
help_menu.add_command(label='About', command=self.about)
menu.add_cascade(label='Help', menu=help_menu)
self.config(menu=menu)
self.update_scheduled = 0
# Add widgets
self.dashboard = Dashboard(self)
self.dashboard.pack(pady=5, fill=X)
self.status = StatusBar(self)
self.status.pack(side=BOTTOM, fill=X)
self.status.text('Not logged in')
# Read config
config = RawConfigParser()
self.email, self.proxy, self.sso_url = '', '', ''
try:
config.read('gui.ini')
self.email = config.get('app', 'email')
self.verify.set(config.get('app', 'verify'))
self.proxy = config.get('app', 'proxy')
self.sso_url = config.get('app', 'sso_url')
self.browser.set(config.get('app', 'browser'))
self.selenium.set(config.get('app', 'selenium'))
self.auto_refresh.set(config.get('display', 'auto_refresh'))
self.debug.set(config.get('display', 'debug'))
except (NoSectionError, NoOptionError, ParsingError):
pass
# Initialize logging
default_format = '%(asctime)s - %(name)s - %(levelname)s - %(message)s'
logging.basicConfig(format=default_format)
self.apply_settings()
def add_cmd_args(self, endpoint):
""" Return add_command arguments for given named endpoint """
return {'label': endpoint.capitalize().replace('_', ' '),
'state': DISABLED, 'command': lambda: self.cmd(endpoint)}
def custom_auth(self, url):
""" Automated or manual authentication """
# Use pywebview if available and selenium not selected
if webview and not self.selenium.get():
return pool.apply(show_webview, (url, )) # Run in separate process
# Use selenium if available and selected
if webdriver and self.selenium.get():
options = [webdriver.chrome,
webdriver.edge][self.browser.get()].options.Options()
options.add_argument('--disable-blink-features=AutomationControlled')
with [webdriver.Chrome,
webdriver.Edge][self.browser.get()](options=options) as browser:
browser.get(url)
wait = WebDriverWait(browser, 300)
wait.until(EC.url_contains('void/callback'))
return browser.current_url
# Fallback to manual authentication
webbrowser.open(url)
# Ask user for callback URL in new dialog
result = [None]
event = threading.Event()
def show_dialog():
""" Inner function to show dialog from main thread """
result[0] = askstring('Login', 'URL after authentication:')
event.set() # Signal completion
self.after_idle(show_dialog) # Start from main thread
event.wait() # Block login thread until URL is entered
return result[0]
def login(self):
""" Display login dialog and start new thread to get vehicle list """
prompt = 'Email:' if (webdriver and self.selenium.get()) or \
(webview and not self.selenium.get()) else 'Use browser' \
' to login.\nPage Not Found will be shown at success.\n\nEmail:'
result = askstring('Login', prompt, initialvalue=self.email)
if result:
self.email = result
self.status.text('Logging in...')
retry = teslapy.Retry(total=2,
status_forcelist=(500, 502, 503, 504))
tesla = teslapy.Tesla(self.email, authenticator=self.custom_auth,
verify=self.verify.get(), proxy=self.proxy,
retry=retry, sso_base_url=self.sso_url)
# Create and start login thread. Check thread status after 100 ms
self.login_thread = LoginThread(tesla)
self.login_thread.start()
self.after(100, self.process_login)
def process_login(self):
""" Waits for thread to finish and updates vehicle menu """
if self.login_thread.is_alive():
# Check again after 100 ms
self.after(100, self.process_login)
elif self.login_thread.exception:
self.status.text(self.login_thread.exception)
else:
# Remove vehicles from menu
self.vehicle_menu.delete(4, END)
# Add to menu and select first vehicle
self.selected = IntVar(value=0)
for i, vehicle in enumerate(self.login_thread.vehicles):
label = '%s (%s)' % (vehicle['display_name'], vehicle['vin'])
self.vehicle_menu.add_radiobutton(label=label, value=i,
variable=self.selected,
command=self.select)
if self.login_thread.vehicles:
# Enable options, decode VIN, charge history and wake up command
for i in range(0, 3):
self.vehicle_menu.entryconfig(i, state=NORMAL)
self.cmd_menu.entryconfig(0, state=NORMAL)
self.select()
else:
self.status.text('No vehicles')
def logout(self):
""" Sign out and redraw dashboard """
if not hasattr(self, 'login_thread'):
return
# Use pywebview if available and selenium not selected
if webview and not self.selenium.get():
# Run in separate process
pool.apply(show_webview, (self.login_thread.tesla.logout(), ))
# Do not sign out if selenium is available and selected
self.login_thread.tesla.logout(not (webdriver and self.selenium.get()))
if hasattr(self, 'vehicle'):
del self.vehicle
# Redraw dashboard
self.dashboard.pack_forget()
self.dashboard = Dashboard(self)
self.dashboard.pack(pady=5, fill=X)
# Remove vehicles from menu
self.vehicle_menu.delete(4, END)
# Disable commands
for i in range(0, 3):
self.vehicle_menu.entryconfig(i, state=DISABLED)
for i in range(0, self.cmd_menu.index(END) + 1):
self.cmd_menu.entryconfig(i, state=DISABLED)
for i in range(0, self.media_menu.index(END) + 1):
self.media_menu.entryconfig(i, state=DISABLED)
self.status.text('Not logged in')
def select(self):
""" Select vehicle and start new thread to get vehicle image """
self.vehicle = self.login_thread.vehicles[self.selected.get()]
# Create and start image thread. Check thread status after 100 ms
self.image_thread = ImageThread(self.vehicle)
self.image_thread.start()
self.after(100, self.process_select)
# Create and start service thread. Check thread status after 100 ms
self.service_thread = ServiceThread(self.vehicle)
self.service_thread.start()
self.after(100, self.process_service)
# Start status thread only once
if not hasattr(self, 'status_thread'):
self.update_status()
self.update_dashboard()
def process_select(self):
""" Waits for thread to finish and displays vehicle image """
if self.image_thread.is_alive():
# Check again after 100 ms
self.after(100, self.process_select)
elif self.image_thread.exception:
# Handle errors
self.status.text(self.image_thread.exception)
else:
# Display vehicle image
self.dashboard.vehicle_image.config(image=self.image_thread.photo)
def process_service(self):
""" Waits for thread to finish and displays service data """
if self.service_thread.is_alive():
# Check again after 100 ms
self.after(100, self.process_service)
elif self.service_thread.exception:
# Handle errors
self.status.text(self.service_thread.exception)
else:
# Display service data
nat = self.service_thread.data.get('next_appt_timestamp')
# pylint: disable=E1101
self.dashboard.next_appt.text(nat)
def show_status(self):
""" Display vehicle state """
self.status.text('%s is %s' % (self.vehicle['display_name'],
self.vehicle['state']))
self.dashboard.in_service.text(str(self.vehicle['in_service']))
# Enable/disable commands
state = NORMAL if self.vehicle['state'] == 'online' else DISABLED
for i in range(1, self.cmd_menu.index(END) + 1):
if self.cmd_menu.entrycget(i, 'state') != state:
self.cmd_menu.entryconfig(i, state=state)
for i in range(0, self.media_menu.index(END) + 1):
if self.media_menu.entrycget(i, 'state') != state:
self.media_menu.entryconfig(i, state=state)
def update_status(self):
""" Creates a new thread to get vehicle summary """
self.status_thread = StatusThread(self.vehicle)
# Don't start if auto refresh is enabled
if not self.auto_refresh.get() or self.vehicle['state'] != 'online':
self.status_thread.start()
self.after(100, self.process_status)
def process_status(self):
""" Waits for thread to finish and updates status """
if self.status_thread.is_alive():
self.after(100, self.process_status)
else:
# Increase status polling rate if vehicle is online
delay = 60000 if self.vehicle['state'] == 'online' else 240000
# Run thread again and show status
self.after(delay, self.update_status)
if self.status_thread.exception:
self.status.text(self.status_thread.exception)
else:
self.show_status()
def update_dashboard(self, scheduled=False):
""" Create new thread to get vehicle data """
if scheduled:
self.update_scheduled = False
if hasattr(self, 'vehicle') and self.vehicle['state'] != 'online':
return
# pylint: disable=E0203
if hasattr(self, 'update_thread') and self.update_thread.is_alive():
return
if hasattr(self, 'vehicle') and not self.update_scheduled:
self.show_status()
self.update_thread = UpdateThread(self.vehicle)
self.update_thread.start()
self.after(100, self.process_update_dashboard)
def process_update_dashboard(self):
""" Waits for thread to finish and updates dashboard data """
if self.update_thread.is_alive():
self.after(100, self.process_update_dashboard)
return
try:
delay = 4000 # Default update polling rate
if self.update_thread.exception:
self.status.text(self.update_thread.exception)
self.status.indicator('red')
else:
timestamp_ms = self.vehicle['vehicle_state']['timestamp']
self.status.status(time.ctime(timestamp_ms / 1000))
self.status.indicator('green')
self.dashboard.update_widgets()
# Increase polling rate if charging or user present
if (self.vehicle['charge_state']['charging_state'] == 'Charging'
or self.vehicle['vehicle_state']['is_user_present']):
delay = 1000
# Run again if auto refresh is on and fail threshold is not exceeded
if self.auto_refresh.get() and self.update_thread.fail_cnt < 10:
self.after(delay, self.update_dashboard, True)
self.update_scheduled = True
else:
self.auto_refresh.set(FALSE)
self.status.indicator(None)
except Exception as e:
# On error turn off auto refresh and re-raise
import sys
self.status.text('{}: {}'.format(*sys.exc_info()[:2]))
self.auto_refresh.set(FALSE)
self.status.indicator(None)
raise
def wake_up(self):
""" Creates a new thread to wake up vehicle """
self.status.text('Please wait...')
self.wake_up_thread = WakeUpThread(self.vehicle)
self.wake_up_thread.start()
self.after(100, self.process_wake_up)
# Disable wake up command
self.cmd_menu.entryconfig(0, state=DISABLED)
def process_wake_up(self):
""" Waits for thread to finish and updates widgets """
if self.wake_up_thread.is_alive():
self.after(100, self.process_wake_up)
elif self.wake_up_thread.exception:
self.status.text(self.wake_up_thread.exception)
self.cmd_menu.entryconfig(0, state=NORMAL)
else:
# Enable wake up command and start update thread
self.cmd_menu.entryconfig(0, state=NORMAL)
self.update_dashboard()
def about(self):
""" Show about dialog """
LabelGridDialog(self, 'About',
[{'text': 'Tesla Owner API Python GUI by Tim Dorssers'},
{'text': 'Tcl/Tk toolkit version %s' % TkVersion}])
def option_codes(self):
""" Show vehicle option codes in a dialog """
table = []
for i, item in enumerate(self.vehicle.option_code_list()):
table.append(dict(text=item, row=i // 2, column=i % 2, sticky=W))
LabelGridDialog(self, 'Option codes', table)
def decode_vin(self):
""" Show decoded vin in a dialog """
table = []
for i, item in enumerate(self.vehicle.decode_vin().items()):
table.append(dict(text=item[0] + ':', row=i, sticky=E))
table.append(dict(text=item[1], row=i, column=1, sticky=W))
LabelGridDialog(self, 'Decode VIN', table)
def charging_sites(self):
""" Creates a new thread to get nearby charging sites """
self.status.text('Please wait...')
self.nearby_sites_thread = NearbySitesThread(self.vehicle)
self.nearby_sites_thread.start()
self.after(100, self.process_charging_sites)
def process_charging_sites(self):
""" Waits for thread to finish and displays sites in a dialog box """
if self.nearby_sites_thread.is_alive():
self.after(100, self.process_charging_sites)
elif self.nearby_sites_thread.exception:
self.status.text(self.nearby_sites_thread.exception)
else:
self.show_status()
# Prepare list of label and grid attributes for table view
table = [dict(text='Destination Charging:', columnspan=2)]
r = 1
for site in self.nearby_sites_thread.sites['destination_charging']:
table.append(dict(text=site['name'], row=r, sticky=W))
dist = self.vehicle.dist_units(site['distance_miles'])
table.append(dict(text=dist, row=r, column=1, sticky=W))
r += 1
table.append(dict(text='Superchargers:', row=r, columnspan=2))
r += 1
for site in self.nearby_sites_thread.sites['superchargers']:
table.append(dict(text=site['name'], row=r, sticky=W))
dist = self.vehicle.dist_units(site['distance_miles'])
table.append(dict(text=dist, row=r, column=1, sticky=W))
text = '%d/%d free stalls' % (site['available_stalls'],
site['total_stalls'])
table.append(dict(text=text, row=r, column=2, sticky=W))
r += 1
LabelGridDialog(self, 'Nearby Charging Sites', table)
def charge_history(self):
""" Creates a new thread to get charging history """
self.status.text('Please wait...')
self.charge_history_thread = ChargeHistoryThread(self.vehicle)
self.charge_history_thread.start()
self.after(100, self.process_charge_history)
def process_charge_history(self):
""" Waits for thread to finish and displays history in a dialog box """
if self.charge_history_thread.is_alive():
self.after(100, self.process_charge_history)
elif self.charge_history_thread.exception:
self.status.text(self.charge_history_thread.exception)
else:
self.show_status()
ChargeHistoryDialog(self, self.charge_history_thread.result)
def cmd(self, name, **kwargs):
""" Creates a new thread to command vehicle """
self.status.text('Please wait...')
self.command_thread = CommandThread(self.vehicle, name, **kwargs)
self.command_thread.start()
self.after(100, self.process_cmd)
def process_cmd(self):
""" Waits for thread to finish and update widgets """
if self.command_thread.is_alive():
self.after(100, self.process_cmd)
elif self.command_thread.exception:
self.status.text(self.command_thread.exception)
else:
# Update dashboard after 1 second if auto refresh is disabled
if not self.auto_refresh.get():
self.after(1000, self.update_dashboard)