homesfr/python2/homesfr.py

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# -*- coding: utf8 -*-
'''
Home by SFR wrapping class
Plain use of your Home by SFR device from a Python 2 library
Warning:
This is a wrap aroud website, this could stop working without prior notice
'''
# TODO:
## Manage cameras
### Get image
### Get video
## Manage logs
## Logout method
## Encoding error for sensors' names
authors = (
'Gilles "Almtesh" Émilien MOREL',
)
name = 'homesfr for Python 2'
version = '0.9-20160523'
# Settable modes
MODE_OFF = 0
MODE_CUSTOM = 1
MODE_ON = 2
# Sensors names
PRESENCE_DETECTOR = 'PIR_DETECTOR'
MAGNETIC_OPENNING_DETECTOR = 'MAGNETIC'
SMOKE_DETECTOR = 'SMOKE'
SIREN = 'SIREN'
REMOTE_CONTROLER = 'REMOTE'
KEYPAD_CONTROLER = 'KEYPAD'
PRESENCE_CAMERA_DETECTOR = 'PIR_CAMERA'
from cookielib import CookieJar
import urllib2 as request
from urllib2 import HTTPError
from urllib import urlencode
from xml.etree import ElementTree as ET
from datetime import datetime
def bytes2file (b):
'''
Gives a file-like class from a Bytes
'''
from io import BytesIO
r = BytesIO ()
r.write (b)
r.seek (0)
return (r)
def bytes2image (b):
'''
Gives a Image object from bytes
Uses the bytes2file function
'''
from PIL import Image
f = bytes2file (b)
r = Image ()
r.open (f)
return (r)
class HomeSFR ():
def __init__ (self, username = None, password = None, cookies = None, debug = False, autologin = True):
'''
Sets the class with username and password couple, or cookies
Both user/password and cookies can be set, the cookies will be used first
The debug parameter defines if the class will write debug messages to stdout, if False, the stdout will never be writen by the class
The autologin parameter defines if the class will manage the login by itself, if False, the user must call login () to login and test_login () to check the login
The autologin paramater will always be False if no username and password are defined, and the login () method will always return False
'''
self.DEBUG = debug
if self.DEBUG:
print (name + ' ' + version)
print ('Authors:')
for i in authors:
print (' - ' + i)
if username != None:
print ('init with username ' + username)
if cookies != None:
print ('init with cookies')
print ('debug = ' + str (debug))
print ('autologin = ' + str (autologin))
if (username == None or password == None) and cookies == None:
raise TypeError ('You must define either username AND password or cookies')
self.username = username
self.password = password
if self.username != None and self.password != None:
self.autologin = autologin
else:
self.autologin = False
if cookies == None:
self.cookies = CookieJar ()
else:
self.cookies = cookies
self.opener = request.build_opener (request.HTTPCookieProcessor (self.cookies))
# Specific configuration
self.base_url = 'https://home.sfr.fr'
# path to login test
self.auth_path = '/mysensors'
self.auth_ok = '/accueil' # if logged
self.auth_post_url = 'https://boutique.home.sfr.fr/authentification'
self.auth_referer = 'https://boutique.home.sfr.fr/authentification?back=service'
self.auth_user_field = 'email'
self.auth_pass_field = 'passwd'
self.auth_extra_fields = {'back': 'service', 'token_sso': '', 'error_sso': '', 'SubmitLogin': 'OK'}
# Path to sensors and mode
self.sensors_list = '/mysensors'
self.sensors_label = 'Sensor'
self.sensors_label_id = 'id'
# Path to list of alerts
self.alerts_path = '/listalert'
# Path to get and set modes
self.mode_get_path = '/mysensors'
self.mode_get_label = 'alarm_mode'
self.mode_set_path = '/alarmmode'
self.mode_set_field = 'action' # Name for GET field
self.mode_off = 'OFF' # Value for off
self.mode_custom = 'CUSTOM' # Value for custom
self.mode_on = 'ON' # Value for on
# Cameras
# mac=00:0e:8f:c9:59:44&flip=0&led_mode=0&alert_pan=1&rec24=0&da=1&dp=4&name=Salon
self.cameras_list = '/homescope/mycams'
self.camera_snapshot = '/homescope/snapshot'
self.camera_video = '/homescope/flv'
self.camera_get_config_path = '/homescope/camsettings'
self.camera_set_config_path = '/homescope/camsettings'
self.camera_set_config_mac = 'mac'
self.camera_set_config_flip = 'flip'
self.camera_set_config_leds = 'led_mode' # set to 0 to turn the leds on
self.camera_set_config_detectionsensibility = 'dp' # from 1 to 4,
def __str__ (self):
'''
Shows name, version, defined user and debug state
'''
if self.username != None:
return (name + ' ' + version + '\nUser: ' + self.username + '\nDebug: ' + str (self.DEBUG))
else:
return (name + ' ' + version + '\nUser: Unknown (auth from cookie class)\nDebug: ' + str (self.DEBUG))
def test_login (self):
'''
Tests if the client is logged
Return True if it's logged, returns False either
'''
try:
if self.DEBUG:
print ('Testing login')
self.opener.open (self.base_url + self.auth_path)
except HTTPError:
if self.DEBUG:
print ('Not connected')
return (False)
if self.DEBUG:
print ('Connected')
return (True)
def login (self):
'''
Logs in the HomeBySFR service
Call this function first or exception will be raised
Returns True if the login was a success, False either
This method will always return False if no username and password are defined
'''
if self.username != None and self.password != None:
self.opener.open (self.auth_referer)
data = self.auth_extra_fields
data [self.auth_user_field] = self.username
data [self.auth_pass_field] = self.password
data = bytes (urlencode (data))
if self.DEBUG:
print ('Cookies ' + str( len(self.cookies)))
print ('Sending data ' + str (data))
a = self.opener.open (self.auth_post_url, data = data)
if self.DEBUG:
print ('Auth redirected to ' + a.geturl ())
return (a.geturl () == self.base_url + self.auth_ok)
else:
return (False)
def set_mode (self, mode):
'''
Sets the detection mode
For the current version, use the MODE_OFF, MODE_ON and MODE_CUSTOM constants and always returns True, but raises an exception if a problem happens
'''
if (self.autologin and self.test_login () == False):
self.login ()
if mode == MODE_OFF:
m = self.mode_off
elif mode == MODE_CUSTOM:
m = self.mode_custom
elif mode == MODE_ON:
m = self.mode_on
else:
if self.DEBUG:
print ('You should use the MODE_OFF, MODE_ON and MODE_CUSTOM constants to set this.')
raise ValueError
r = self.base_url + self.mode_set_path + '?' + self.mode_set_field + '=' + m
if self.DEBUG:
print ('Will get ' + r)
self.opener.open (r)
return (True)
def get_mode (self):
'''
Gets the detection mode
Returns one of MODE_OFF, MODE_ON and MODE_CUSTOM constants, or None if something went wrong
'''
if (self.autologin and self.test_login () == False):
self.login ()
r = self.base_url + self.mode_get_path
if self.DEBUG:
print ('Getting ' + r)
a = bytes2file (self.opener.open (r).read ())
b = ET.parse (a).getroot ()
c = b.get (self.mode_get_label)
if self.DEBUG:
print ('Got mode ' + c)
if (c == self.mode_off):
return (MODE_OFF)
if (c == self.mode_custom):
return (MODE_CUSTOM)
if (c == self.mode_on):
return (MODE_ON)
return (None)
def list_sensors (self):
'''
Returns a list of sensors' ids.
'''
if (self.autologin and self.test_login () == False):
self.login ()
r = self.base_url + self.sensors_list
a = bytes2file (self.opener.open (r).read ())
b = ET.parse (a)
r = []
for i in b.findall (self.sensors_label):
r.append (i.get (self.sensors_label_id))
return (list (r))
def get_sensor (self, id):
'''
Returns a Sensor object for the sensor id or None if sensor is not found
The available ids can be got from the list_sensors method
'''
def build_tree (element):
r = {}
if self.DEBUG:
print ('Diving in the element ' + element.tag)
for i in element.getchildren ():
if i.getchildren () == []:
r.update ({i.tag: i.text})
else:
r.update ({i.tag: build_tree (i)})
return (r)
if (self.autologin and self.test_login () == False):
self.login ()
r = self.base_url + self.sensors_list
a = bytes2file (self.opener.open (r).read ())
b = ET.parse (a)
r = None
for i in b.findall (self.sensors_label):
if self.DEBUG:
print ('Testing sensors ' + i.get (self.sensors_label_id))
if (i.get (self.sensors_label_id) == id):
r = build_tree (i)
break
return (Sensor (r))
def get_all_sensors (self):
'''
Returns a tuple of sensors as described in the get_sensor method
'''
r = []
for i in self.list_sensors ():
r.append (self.get_sensor (i))
return (tuple (r))
def get_cookies (self):
'''
Returns the CookieJar as it is now, for further use
It's strongly recommended to use this method only before a object delete
'''
return (self.cookies)
class Sensor:
'''
Class used to read easily the sensors
'''
def __init__ (self, sensor_dict):
'''
Initialize the class with the dict producted by HomeSFR.get_sensors ()
'''
self.sensor_dict = sensor_dict
# Field names
self.type_field = 'deviceType'
self.model_field = 'deviceModel'
self.version_field = 'deviceVersion'
self.name_field = 'name'
self.longname_field = 'long_name'
self.namegender_field = 'name_gender' # Only usefull for French for the moment
self.batterylevel_field = 'batteryLevel'
self.signal_field = 'signalLevel'
self.lasttrigger_field = 'lastTriggerTime'
self.lasttrigger_dateformat = '%Y-%m-%d %H:%M:%S'
self.status_field = 'status'
self.status_value_ok = 'OK'
# I don't have any other value for the moment
def get_raw (self):
'''
Returns the raw dict, as presented in the original XML file
'''
return (self.sensor_dict)
def get_type (self):
'''
Returns the sensor's type
'''
return (self.sensor_dict [self.type_field])
def get_model (self):
'''
Returns the sensor's model, if any, None either
'''
return (self.sensor_dict [self.model_field])
def get_version (self):
'''
Returns the sensor's version
'''
return (self.sensor_dict [self.version_field])
def get_name (self):
'''
Returns the sensor's name
'''
return (self.sensor_dict [self.name_field])
def get_longname (self):
'''
Returns the sensor's type name in system's language and the sensor's name
'''
return (self.sensor_dict [self.longname_field])
def get_namegender (self):
'''
Return M for male and F for female.
Only usefull for languages with gender on nouns
'''
return (self.sensor_dict [self.namegender_field])
def get_batterylevel (self):
'''
Returns the sensor's battery level, out of 10
It seems that batteryless sensors return 255
'''
return (int (self.sensor_dict [self.batterylevel_field]))
def get_signal (self):
'''
Returns the sensor's signal quality, out of 10
'''
return (int (self.sensor_dict [self.signal_field]))
def get_lasttrigger (self):
'''
Return the timestamp of the sensor's last triger
The sensors always trigger, even when the alarm's mode is off
'''
a = self.sensor_dict [self.lasttrigger_field]
# Try because camera return the date '0000-00-00 00:00:00' that is ununderstandable
try:
b = datetime.strptime (a, self.lasttrigger_dateformat)
except ValueError:
return (0)
r = int (b.strftime ('%s'))
return (r)
def get_status (self):
'''
Returns True is the sensor is OK, False either
'''
return (self.sensor_dict [self.status_field] == self.status_value_ok)