Repository: philippelt/netatmo-api-python
Branch: master
Commit: 1d87aac44a3a
Files: 18
Total size: 156.1 KB
Directory structure:
gitextract_rkwnjby9/
├── .github/
│ └── workflows/
│ └── lint_python.yml
├── .gitignore
├── .netatmo.credentials
├── LICENSE.txt
├── README.md
├── lnetatmo.py
├── samples/
│ ├── get_direct_camera_snapshot
│ ├── graphLast3Days
│ ├── printAllLastData.py
│ ├── printThermostat.py
│ ├── rawAPIsample.py
│ ├── simpleLastData.py
│ ├── smsAlarm.py
│ ├── weather2file.md
│ └── weather2file.py
├── setup.cfg
├── setup.py
└── usage.md
================================================
FILE CONTENTS
================================================
================================================
FILE: .github/workflows/lint_python.yml
================================================
name: lint_python
on: [pull_request, push]
jobs:
lint_python:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- uses: actions/setup-python@v2
- run: pip install black codespell flake8 isort pytest pyupgrade
- run: black --check . || true
- run: codespell --quiet-level=2 || true # --ignore-words-list="" --skip=""
- run: flake8 . --count --select=E9,F63,F7,F82 --show-source --statistics
- run: isort --profile black . || true
- run: pip install -r requirements.txt || true
- run: pytest . || true
- run: shopt -s globstar && pyupgrade --py36-plus **/*.py || true
================================================
FILE: .gitignore
================================================
build/
dist/
lnetatmo.egg-info/
*.pyc
__pycache__/
MANIFEST*
*.csv
*.h5
*.feather
*.json
*.parquet
*.pkl
*.xlsx
================================================
FILE: .netatmo.credentials
================================================
{
"CLIENT_ID" : "",
"CLIENT_SECRET" : "",
"REFRESH_TOKEN" : ""
}
================================================
FILE: LICENSE.txt
================================================
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<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.
================================================
FILE: README.md
================================================
netatmo-api-python
==================
Simple API to access Netatmo weather station data from any python script
For more detailed information see http://dev.netatmo.com
I have no relation with the netatmo company, I wrote this because I needed it myself,
and published it to save time to anyone who would have same needs.
There is no longer credential load at library import, credentials are loaded at `ClientAuth` class initialization and a new parameter `credentialFile` allow to specify private name and location for the credential file. It is recommended to use this parameter to specify the location of the credential file using absolute path to be able to be independant of the account used to run the program.
>[!CAUTION]
> Remember that the program using the library **must** be able to rewrite the credential file to be able to save the new refresh token that netatmo may provide at the authentication step. Check the file permission according to the account the program is running.
>[!NOTE]
> Several users reported that Netatmo is now asking for a DPO (Data Protection Officer) mail address to deliver application credentials. Netatmo is requesting this to comply with RGPD European regulation for the case of your application would be able to access other customers account and you would hold responsibility to protect others potentially confidential informations.
> For most users (if not all) of this library, this is totally useless as we are accessing only OUR devices thus are not concerned by RGPD. You can then put your netatmo account email address, just in case some mail would be sent to it.
> It is only an information for the Netatmo records, there is absolutely no use of this information by the library.
>[!CAUTION]
> There are currently frequent authentication failures with Netatmo servers, returning exception ranging from 500 errors to invalid scope. Please check that you are not facing a transient failure by retrying your code some minutes later before reporting an issue.
### Install ###
To install lnetatmo simply run:
python setup.py install
or
pip install lnetatmo
Depending on your permissions you might be required to use sudo.
It is a single file module, on platforms where you have limited access, you just have to clone the repo and take the lnetatmo.py in the same directory than your main program.
Once installed you can simple add lnetatmo to your python scripts by including:
import lnetatmo
For documentation, see usage
================================================
FILE: lnetatmo.py
================================================
# Published Jan 2013
# Author : Philippe Larduinat, ph.larduinat@wanadoo.fr
# Multiple contributors : see https://github.com/philippelt/netatmo-api-python
# License : GPL V3
"""
This API provides access to the Netatmo weather station or/and other installed devices
This package can be used with Python2 or Python3 applications and do not
require anything else than standard libraries
PythonAPI Netatmo REST data access
coding=utf-8
"""
import warnings
if __name__ == "__main__": warnings.filterwarnings("ignore") # For installation test only
from sys import version_info
from os import getenv
from os.path import expanduser
import json, time
import logging
# Just in case method could change
PYTHON3 = version_info.major > 2
# HTTP libraries depends upon Python 2 or 3
if PYTHON3 :
import urllib.parse, urllib.request
else:
from urllib import urlencode
import urllib2
######################## AUTHENTICATION INFORMATION ######################
# To be able to have a program accessing your netatmo data, you have to register your program as
# a Netatmo app in your Netatmo account. All you have to do is to give it a name (whatever) and you will be
# returned a client_id and secret that your app has to supply to access netatmo servers.
# To ease Docker packaging of your application, you can setup your authentication parameters through env variables
# Authentication:
# 1 - Values defined in environment variables : CLIENT_ID, CLIENT_SECRET, REFRESH_TOKEN
# 2 - Parameters passed to ClientAuth initialization
# 3 - The .netatmo.credentials file in JSON format in your home directory (now mandatory for regular use)
# Note that the refresh token being short lived, using envvar will be restricted to speific testing use case
#########################################################################
# Common definitions
_BASE_URL = "https://api.netatmo.com/"
_AUTH_REQ = _BASE_URL + "oauth2/token"
_GETMEASURE_REQ = _BASE_URL + "api/getmeasure"
_GETSTATIONDATA_REQ = _BASE_URL + "api/getstationsdata"
_GETTHERMOSTATDATA_REQ = _BASE_URL + "api/getthermostatsdata"
_GETHOMEDATA_REQ = _BASE_URL + "api/gethomedata"
_GETCAMERAPICTURE_REQ = _BASE_URL + "api/getcamerapicture"
_GETEVENTSUNTIL_REQ = _BASE_URL + "api/geteventsuntil"
_HOME_STATUS = _BASE_URL + "api/homestatus" # Used for Home+ Control Devices
_GETHOMES_DATA = _BASE_URL + "api/homesdata" # New API
_GETHOMECOACH = _BASE_URL + "api/gethomecoachsdata" #
#TODO# Undocumented (but would be very usefull) API : Access currently forbidden (403)
_POST_UPDATE_HOME_REQ = _BASE_URL + "/api/updatehome"
# For presence setting (POST BODY):
# _PRES_BODY_REC_SET = "home_id=%s&presence_settings[presence_record_%s]=%s" # (HomeId, DetectionKind, DetectionSetup.index)
_PRES_DETECTION_KIND = ("humans", "animals", "vehicles", "movements")
_PRES_DETECTION_SETUP = ("ignore", "record", "record & notify")
# _PRES_BODY_ALERT_TIME = "home_id=%s&presence_settings[presence_notify_%s]=%s" # (HomeID, "from"|"to", "hh:mm")
# Regular (documented) commands (both cameras)
_PRES_CDE_GET_SNAP = "/live/snapshot_720.jpg"
#TODO# Undocumented (taken from https://github.com/KiboOst/php-NetatmoCameraAPI/blob/master/class/NetatmoCameraAPI.php)
# Work with local_url only (undocumented scope control probably)
# For Presence camera
_PRES_CDE_GET_LIGHT = "/command/floodlight_get_config"
# Not working yet, probably due to scope restriction
#_PRES_CDE_SET_LIGHT = "/command/floodlight_set_config?config=mode:%s" # "auto"|"on"|"off"
# For all cameras
_CAM_CHANGE_STATUS = "/command/changestatus?status=%s" # "on"|"off"
# Not working yet
#_CAM_FTP_ACTIVE = "/command/ftp_set_config?config=on_off:%s" # "on"|"off"
#Known TYPE used by Netatmo services + API, there can be more types possible
TYPES = {
'BFII' : ["Bticino IP Indoor unit", 'Home + Security'],
'BFIC' : ["Bticino IP Guard station", 'Home + Security'],
'BFIO' : ["Bticino IP Entrance panel", 'Home + Security'],
'BFIS' : ["Bticino Server DES", 'Home + Security'],
'BN3L' : ["Bticino 3rd party light", 'Home+Control'],
'BNAB' : ["Bticino module automatic blind", 'Home+Control'],
'BNAS' : ["Bticino module automatic shutter", 'Home+Control'],
'BNS' : ["Smarther with Netatmo Thermostat", 'Home+Control'],
'BNCU' : ["Bticino Bticino Alarm Central Unit", 'Home + Security'],
'BNCS' : ["Bticino module Controlled Socket", 'Home+Control'],
'BNCX' : ["Bticino Class 300 EOS", 'Home + Security'],
'BNDL' : ["Bticino Doorlock", 'Home + Security'],
'BNEU' : ["Bticino external unit", 'Home + Security'],
'BNFC' : ["Bticino Thermostat", 'Home+Control'],
'BNIL' : ["Bticino intelligent light", 'Home+Control'],
'BNLD' : ["Bticino module lighting dimmer", 'Home+Control'],
'BNMH' : ["Bticino My Home Server 1", 'Home + Security'], # also API Home+Control GATEWAY
'BNMS' : ["Bticino module motorized shade", 'Home+Control'],
'BNSE' : ["Bticino Alarm Sensor", 'Home + Security'],
'BNSL' : ["Bticino Staircase Light", 'Home + Security'],
'BNTH' : ["Bticino Thermostat", 'Home+Control'],
'BNTR' : ["Bticino module towel rail", 'Home+Control'],
'BNXM' : ["Bticino X meter", 'Home+Control'],
'NACamera' : ["indoor camera", 'Home + Security'],
'NACamDoorTag' : ["door tag", 'Home + Security'],
'NAMain' : ["weather station", 'Weather'],
'NAModule1' : ["outdoor unit", 'Weather'],
'NAModule2' : ["wind unit", 'Weather'],
'NAModule3' : ["rain unit", 'Weather'],
'NAModule4' : ["indoor unit", 'Weather'],
'NAPlug' : ["thermostat relais station", 'Energy'], # A smart thermostat exist of a thermostat module and a Relay device
# The relay device is also the bridge for thermostat and Valves
'NATherm1' : ["thermostat", 'Energy'],
'NCO' : ["co2 sensor", 'Home + Security'], # The same API as smoke sensor
'NDB' : ["doorbell", 'Home + Security'],
'NOC' : ["outdoor camera", 'Home + Security'],
'NRV' : ["thermostat valves", 'Energy'], # also API Home+Control
'NSD' : ["smoke sensor", 'Home + Security'],
'NHC' : ["home coach", 'Aircare'],
'NIS' : ["indoor sirene", 'Home + Security'],
'NDL' : ["Doorlock", 'Home + Security'],
'NLAO' : ["Magellan Green power remote control on-off", 'Home+Control'],
'NLAS' : ["Magellan Green Power Remote control scenarios", 'Home+Control'],
'NLAV' : ["Wireless Batteryless Shutter Switch", 'Home+Control'],
'NLC' : ["Cable Outlet", 'Home+Control'],
'NLD' : ["Wireless 2 button switch light", 'Home+Control'],
'NLDP' : ["Magellan Pocket Remote", 'Home+Control'],
'NLE' : ["Ecometer", 'Home+Control'],
'NLF' : ["Dimmer Light Switch", 'Home+Control'],
'NLFE' : ["Dimmer Light Switch Evolution", 'Home+Control'],
'NLFN' : ["Dimmer Light with Neutral", 'Home+Control'],
'NLG' : ["Gateway", 'Home+Control'],
'NLGS' : ["Standard DIN Gateway", 'Home+Control'],
'NLIS' : ["Double Switch with Neutral", 'Home+Control'],
'NLIV' : ["1/2 Gangs Shutter Switch", 'Home+Control'],
'NLL' : ["Light Switch with Neutral", 'Home+Control'],
'NLLF' : ["Centralized Ventilation Control", 'Home+Control'],
'NLLV' : ["Roller Shutter Switch with level detection", 'Home+Control'],
'NLM' : ["Light Micromodule", 'Home+Control'],
'NLP' : ["Power Outlet", 'Home+Control'],
'NLPS' : ["Smart Load Shedder", 'Home+Control'],
'NLPC' : ["DIN Energy meter", 'Home+Control'],
'NLPD' : ["Dry contact", 'Home+Control'],
'NLPM' : ["Mobile Socket", 'Home+Control'],
'NLPO' : ["Contactor", 'Home+Control'],
'NLPT' : ["Teleruptor", 'Home+Control'],
'NLT' : ["Magellan Remote Control", 'Home+Control'],
'NLTS' : ["Magellan Remote Motion Sensor", 'Home+Control'],
'NLV' : ["Roller Shutter Switch", 'Home+Control'],
'OTH' : ["Opentherm Thermostat Relay", 'Home+Control'],
'OTM' : ["Smart modulating Thermostat", 'Home+Control'],
'Z3L' : ["Zigbee 3rd party light", 'Home+Control'],
'Z3V' : ["Generic window covering", 'Home+Control']
}
# UNITS used by Netatmo services
UNITS = {
"unit" : {
0: "metric",
1: "imperial"
},
"windunit" : {
0: "kph",
1: "mph",
2: "ms",
3: "beaufort",
4: "knot"
},
"pressureunit" : {
0: "mbar",
1: "inHg",
2: "mmHg"
},
"Health index" : { # Homecoach
0: "Healthy",
1: "Fine",
2: "Fair",
3: "Poor",
4: "Unhealthy"
},
"Wifi status" : { # Wifi Signal quality
86: "Bad",
71: "Average",
56: "Good"
}
}
# Logger context
logger = logging.getLogger("lnetatmo")
class NoDevice( Exception ):
"""No device available in the user account"""
class NoHome( Exception ):
"""No home defined in the user account"""
class AuthFailure( Exception ):
"""Credentials where rejected by Netatmo (or netatmo server unavailability)"""
class OutOfScope( Exception ):
"""Your current auth scope do not allow access to this resource"""
class ClientAuth:
"""
Request authentication and keep access token available through token method. Renew it automatically if necessary
Args:
clientId (str): Application clientId delivered by Netatmo on dev.netatmo.com
clientSecret (str): Application Secret key delivered by Netatmo on dev.netatmo.com
refreshToken (str) : Scoped refresh token
"""
def __init__(self, clientId=None,
clientSecret=None,
refreshToken=None,
credentialFile=None):
# replace values with content of env variables if defined
clientId = getenv("CLIENT_ID", clientId)
clientSecret = getenv("CLIENT_SECRET", clientSecret)
refreshToken = getenv("REFRESH_TOKEN", refreshToken)
# Look for credentials in file if not already provided
# Note: this file will be rewritten by the library to record refresh_token change
# If you run your application in container, remember to persist this file
if not (clientId and clientSecret and refreshToken):
self._credentialFile = credentialFile or expanduser("~/.netatmo.credentials")
with open(self._credentialFile, "r", encoding="utf-8") as f:
cred = {k.upper():v for k,v in json.loads(f.read()).items()}
else:
# Calling program will need to handle the returned refresh_token for futur call
# by getting refreshToken property of the ClientAuth instance and persist it somewhere
self._credentialFile = None
self._clientId = clientId or cred["CLIENT_ID"]
self._clientSecret = clientSecret or cred["CLIENT_SECRET"]
self._accessToken = None # Will be refreshed before any use
self.refreshToken = refreshToken or cred["REFRESH_TOKEN"]
self.expiration = 0 # Force refresh token
@property
def accessToken(self):
if self.expiration < time.time() : self.renew_token()
return self._accessToken
def renew_token(self):
postParams = {
"grant_type" : "refresh_token",
"refresh_token" : self.refreshToken,
"client_id" : self._clientId,
"client_secret" : self._clientSecret
}
resp = postRequest("authentication", _AUTH_REQ, postParams)
if self.refreshToken != resp['refresh_token']:
self.refreshToken = resp['refresh_token']
cred = {"CLIENT_ID":self._clientId,
"CLIENT_SECRET":self._clientSecret,
"REFRESH_TOKEN":self.refreshToken }
if self._credentialFile:
with open(self._credentialFile, "w", encoding="utf-8") as f:
f.write(json.dumps(cred, indent=True))
self._accessToken = resp['access_token']
self.expiration = int(resp['expire_in'] + time.time())
class User:
"""
This class returns basic information about the user
Args:
authData (ClientAuth): Authentication information with a working access Token
"""
warnings.warn("The 'User' class is no longer maintained by Netatmo",
DeprecationWarning )
def __init__(self, authData):
postParams = {
"access_token" : authData.accessToken
}
resp = postRequest("Weather station", _GETSTATIONDATA_REQ, postParams)
self.rawData = resp['body']
self.devList = self.rawData['devices']
self.ownerMail = self.rawData['user']['mail']
class UserInfo:
"""
This class is dynamicaly populated with data from various Netatmo requests to provide
complimentary data (eg Units for Weatherdata)
"""
class HomeStatus:
"""
List all Home+Control devices (Smarther thermostat, Socket, Cable Output, Centralized fan, Micromodules, ......)
Args:
authData (clientAuth): Authentication information with a working access Token
home : Home name or id of the home who's thermostat belongs to
"""
def __init__(self, authData, home_id):
self.getAuthToken = authData.accessToken
postParams = {
"access_token" : self.getAuthToken,
"home_id": home_id
}
resp = postRequest("home_status", _HOME_STATUS, postParams)
self.resp = resp
self.rawData = resp['body']['home']
if not self.rawData : raise NoHome("No home %s found" % home_id)
self.rooms = self.rawData['rooms']
self.modules = self.rawData['modules']
def getRoomsId(self):
return [room['id'] for room in self.rooms]
def getListRoomParam(self, room_id):
for room in self.rooms:
if room['id'] == room_id:
return list(room)
return None
def getRoomParam(self, room_id, param):
for room in self.rooms:
if(room['id'] == room_id and param in room):
return room[param]
return None
def getModulesId(self):
return [module['id'] for module in self.modules]
def getListModuleParam(self, module_id):
for module in self.modules:
if module['id'] == module_id:
return list(module)
return None
def getModuleParam(self, module_id, param):
for module in self.modules:
if module['id'] == module_id and param in module:
return module[param]
return None
class ThermostatData:
"""
List the Relay station and Thermostat modules
Valves are controlled by HomesData and HomeStatus in new API
Args:
authData (clientAuth): Authentication information with a working access Token
home : Home name or id of the home who's thermostat belongs to
"""
def __init__(self, authData, home=None):
# I don't own a thermostat thus I am not able to test the Thermostat support
warnings.warn("The Thermostat code is not tested due to the lack of test environment.\n" \
"As Netatmo is continuously breaking API compatibility, risk that current bindings are wrong is high.\n" \
"Please report found issues (https://github.com/philippelt/netatmo-api-python/issues)",
RuntimeWarning )
self.getAuthToken = authData.accessToken
postParams = {
"access_token" : self.getAuthToken
}
resp = postRequest("Thermostat", _GETTHERMOSTATDATA_REQ, postParams)
self.rawData = resp['body']['devices']
if not self.rawData : raise NoDevice("No thermostat available")
#
# keeping OLD code for Reference
# self.thermostatData = filter_home_data(self.rawData, home)
# if not self.thermostatData : raise NoHome("No home %s found" % home)
# self.thermostatData['name'] = self.thermostatData['home_name'] # New key = 'station_name'
# for m in self.thermostatData['modules']:
# m['name'] = m['module_name']
# self.defaultThermostat = self.thermostatData['home_name'] # New key = 'station_name'
# self.defaultThermostatId = self.thermostatData['_id']
# self.defaultModule = self.thermostatData['modules'][0]
# Standard the first Relaystation and Thermostat is returned
# self.rawData is list all stations
# if no ID is given the Relaystation at index 0 is returned
def Relay_Plug(self, Rid=""):
for Relay in self.rawData:
if Rid in Relay['_id']:
print ('Relay ', Rid, 'in rawData')
#print (Relay.keys())
#print (Relay['_id'])
return Relay
#dict_keys(['_id', 'applications', 'cipher_id', 'command', 'config_version', 'd_amount', 'date_creation', 'dev_has_init', 'device_group', 'firmware', 'firmware_private', 'homekit_nb_pairing', 'last_bilan', 'last_day_extremum', 'last_fw_update', 'last_measure_stored', 'last_setup', 'last_status_store', 'last_sync_asked', 'last_time_boiler_on', 'mg_station_name', 'migration_date', 'module_history', 'netcom_transport', 'new_historic_data', 'place', 'plug_connected_boiler', 'recompute_outdoor_time', 'record_storage', 'rf_amb_status', 'setpoint_order_history', 'skip_module_history_creation', 'subtype', 'type', 'u_amount', 'update_device', 'upgrade_record_ts', 'wifi_status', 'room', 'modules', 'station_name', 'udp_conn', 'last_plug_seen'])
# if no ID is given the Thermostatmodule at index 0 is returned
def Thermostat_Data(self, tid=""):
for Relay in self.rawData:
for thermostat in Relay['modules']:
if tid in thermostat['_id']:
print ('Thermostat ',tid, 'in Relay', Relay['_id'], Relay['station_name'])
#print (thermostat['_id'])
#print (thermostat.keys())
return thermostat
#dict_keys(['_id', 'module_name', 'type', 'firmware', 'last_message', 'rf_status', 'battery_vp', 'therm_orientation', 'therm_relay_cmd', 'anticipating', 'battery_percent', 'event_history', 'last_therm_seen', 'setpoint', 'therm_program_list', 'measured'])
def getThermostat(self, name=None, id=""):
for Relay in self.rawData:
for module in Relay['modules']:
if id == Relay['_id']:
print ('Relay ', id, 'found')
return Relay
elif name == Relay['station_name']:
print ('Relay ', name, 'found')
return Relay
elif id == module['_id']:
print ('Thermostat ', id, 'found in Relay', Relay['_id'], Relay['station_name'])
return module
elif name == module['module_name']:
print ('Thermostat ', name, 'found in Relay', Relay['_id'], Relay['station_name'])
return module
else:
#print ('Device NOT Found')
pass
def moduleNamesList(self, name=None, tid=None):
l = []
for Relay in self.rawData:
if id == Relay['_id'] or name == Relay['station_name']:
RL = []
for module in Relay['modules']:
RL.append(module['module_name'])
return RL
else:
#print ("Cloud Data")
for module in Relay['modules']:
l.append(module['module_name'])
#This return a list off all connected Thermostat in the cloud.
return l
def getModuleByName(self, name, tid=""):
for Relay in self.rawData:
for module in Relay['modules']:
#print (module['module_name'], module['_id'])
if module['module_name'] == name:
return module
elif module['_id'] == tid:
return module
else:
pass
class WeatherStationData:
"""
List the Weather Station devices (stations and modules)
Args:
authData (ClientAuth): Authentication information with a working access Token
"""
def __init__(self, authData, home=None, station=None):
self.getAuthToken = authData.accessToken
postParams = {
"access_token" : self.getAuthToken
}
resp = postRequest("Weather station", _GETSTATIONDATA_REQ, postParams)
self.rawData = resp['body']['devices']
# Weather data
if not self.rawData : raise NoDevice("No weather station in any homes")
# Stations are no longer in the Netatmo API, keeping them for compatibility
self.stations = { d['station_name'] : d for d in self.rawData }
self.stationIds = { d['_id'] : d for d in self.rawData }
self.homes = { d['home_name'] : d["station_name"] for d in self.rawData }
# Keeping the old behavior for default station name
if home and home not in self.homes : raise NoHome("No home with name %s" % home)
self.default_home = home or list(self.homes.keys())[0]
if station:
if station not in self.stations:
# May be a station_id convert it to corresponding station name
s = self.stationById(station)
if s :
station = s["station_name"]
else:
raise NoDevice("No station with name or id %s" % station)
self.default_station = station
else:
self.default_station = [v["station_name"] for k,v in self.stations.items() if v["home_name"] == self.default_home][0]
self.modules = {}
self.default_station_data = self.stationByName(self.default_station)
if 'modules' in self.default_station_data:
for m in self.default_station_data['modules']:
self.modules[ m['_id'] ] = m
# User data
userData = resp['body']['user']
self.user = UserInfo()
setattr(self.user, "mail", userData['mail'])
for k,v in userData['administrative'].items():
if k in UNITS:
setattr(self.user, k, UNITS[k][v])
else:
setattr(self.user, k, v)
def modulesNamesList(self, station=None):
s = self.getStation(station)
if not s: raise NoDevice("No station with name or id %s" % station)
self.default_station = station
self.default_station_data = s
self.modules = {}
if 'modules' in self.default_station_data:
for m in self.default_station_data['modules']:
self.modules[ m['_id'] ] = m
res = [m['module_name'] for m in self.modules.values()]
res.append(s['module_name'])
return res
# Both functions (byName and byStation) are here for historical reason,
# considering that chances are low that a station name could be confused with a station ID,
# there should be in fact a single function for getting station data
def getStation(self, station=None):
if not station : station = self.default_station
if station in self.stations : return self.stations[station]
if station in self.stationIds : return self.stationIds[station]
return None
def getModule(self, module):
if module in self.modules: return self.modules[module]
for m in self.modules.values():
if m['module_name'] == module : return m
return None
# Functions for compatibility with previous versions
def stationByName(self, station=None):
return self.getStation(station)
def stationById(self, sid):
return self.getStation(sid)
def moduleByName(self, module):
return self.getModule(module)
def moduleById(self, mid):
return self.getModule(mid)
def lastData(self, station=None, exclude=0):
s = self.stationByName(station) or self.stationById(station)
# Breaking change from Netatmo : dashboard_data no longer available if station lost
if not s or 'dashboard_data' not in s : return None
lastD = {}
# Define oldest acceptable sensor measure event
limit = (time.time() - exclude) if exclude else 0
ds = s['dashboard_data']
if ds.get('time_utc',limit+10) > limit :
lastD[s['module_name']] = ds.copy()
lastD[s['module_name']]['When'] = lastD[s['module_name']].pop("time_utc") if 'time_utc' in lastD[s['module_name']] else time.time()
lastD[s['module_name']]['wifi_status'] = s['wifi_status']
if 'modules' in s:
for module in s["modules"]:
# Skip lost modules that no longer have dashboard data available
if 'dashboard_data' not in module : continue
ds = module['dashboard_data']
if ds.get('time_utc',limit+10) > limit :
# If no module_name has been setup, use _id by default
if "module_name" not in module : module['module_name'] = module["_id"]
lastD[module['module_name']] = ds.copy()
lastD[module['module_name']]['When'] = lastD[module['module_name']].pop("time_utc") if 'time_utc' in lastD[module['module_name']] else time.time()
# For potential use, add battery and radio coverage information to module data if present
for i in ('battery_vp', 'battery_percent', 'rf_status') :
if i in module : lastD[module['module_name']][i] = module[i]
return lastD
def checkNotUpdated(self, delay=3600):
res = self.lastData()
ret = []
for mn,v in res.items():
if time.time()-v['When'] > delay : ret.append(mn)
return ret if ret else None
def checkUpdated(self, delay=3600):
res = self.lastData()
ret = []
for mn,v in res.items():
if time.time()-v['When'] < delay : ret.append(mn)
return ret if ret else None
def getMeasure(self, device_id, scale, mtype, module_id=None, date_begin=None, date_end=None, limit=None, optimize=False, real_time=False):
postParams = { "access_token" : self.getAuthToken }
postParams['device_id'] = device_id
if module_id : postParams['module_id'] = module_id
postParams['scale'] = scale
postParams['type'] = mtype
if date_begin : postParams['date_begin'] = date_begin
if date_end : postParams['date_end'] = date_end
if limit : postParams['limit'] = limit
postParams['optimize'] = "true" if optimize else "false"
postParams['real_time'] = "true" if real_time else "false"
return postRequest("Weather station", _GETMEASURE_REQ, postParams)
def MinMaxTH(self, module=None, frame="last24"):
s = self.default_station_data
if frame == "last24":
end = time.time()
start = end - 24*3600 # 24 hours ago
elif frame == "day":
start, end = todayStamps()
if module and module != s['module_name']:
m = self.moduleById(module) or self.moduleByName(module)
if not m : raise NoDevice("Can't find module %s" % module)
# retrieve module's data
resp = self.getMeasure(
device_id = s['_id'],
module_id = m['_id'],
scale = "max",
mtype = "Temperature,Humidity",
date_begin = start,
date_end = end)
else : # retrieve station's data
resp = self.getMeasure(
device_id = s['_id'],
scale = "max",
mtype = "Temperature,Humidity",
date_begin = start,
date_end = end)
if resp and resp['body']:
T = [v[0] for v in resp['body'].values()]
H = [v[1] for v in resp['body'].values()]
return min(T), max(T), min(H), max(H)
return None
class DeviceList(WeatherStationData):
"""
This class is now deprecated. Use WeatherStationData directly instead
"""
warnings.warn("The 'DeviceList' class was renamed 'WeatherStationData'",
DeprecationWarning )
class HomeData:
"""
List the Netatmo home informations (Homes, cameras, events, persons)
Args:
authData (ClientAuth): Authentication information with a working access Token
home : Home name of the home where's devices are installed
"""
def __init__(self, authData, home=None):
warnings.warn("The 'HomeData' class is deprecated'",
DeprecationWarning )
self.getAuthToken = authData.accessToken
postParams = {
"access_token" : self.getAuthToken
}
resp = postRequest("Home data", _GETHOMEDATA_REQ, postParams)
self.rawData = resp['body']
# Collect homes
self.homes = self.rawData['homes'][0]
for d in self.rawData['homes'] :
if home == d['name']:
self.homes = d
else:
pass
#
#print (self.homes.keys())
#dict_keys(['id', 'name', 'persons', 'place', 'cameras', 'smokedetectors', 'events'])
self.homeid = self.homes['id']
C = self.homes['cameras']
P = self.homes['persons']
S = self.homes['smokedetectors']
E = None
# events not always in self.homes
if 'events' in self.homes.keys():
E = self.homes['events']
#
if not S:
logger.warning('No smoke detector found')
if not C:
logger.warning('No Cameras found')
if not P:
logger.warning('No Persons found')
if not E:
logger.warning('No events found')
# if not (C or P or S or E):
# raise NoDevice("No device found in home %s" % k)
if S or C or P or E:
self.default_home = home or self.homes['name']
# Split homes data by category
self.persons = {}
self.events = {}
self.cameras = {}
self.lastEvent = {}
for i in range(len(self.rawData['homes'])):
curHome = self.rawData['homes'][i]
nameHome = curHome['name']
if nameHome not in self.cameras:
self.cameras[nameHome] = {}
if 'persons' in curHome:
for p in curHome['persons']:
self.persons[ p['id'] ] = p
if 'events' in curHome:
for e in curHome['events']:
if e['camera_id'] not in self.events:
self.events[ e['camera_id'] ] = {}
self.events[ e['camera_id'] ][ e['time'] ] = e
if 'cameras' in curHome:
for c in curHome['cameras']:
self.cameras[nameHome][ c['id'] ] = c
c["home_id"] = curHome['id']
for camera,e in self.events.items():
self.lastEvent[camera] = e[sorted(e)[-1]]
#self.default_home has no key homeId use homeName instead!
if not self.cameras[self.default_home] : raise NoDevice("No camera available in default home")
self.default_camera = list(self.cameras[self.default_home].values())[0]
else:
pass
# raise NoDevice("No Devices available")
def homeById(self, hid):
return None if hid not in self.homes else self.homes[hid]
def homeByName(self, home=None):
if not home: home = self.default_home
for key,value in self.homes.items():
if value['name'] == home:
return self.homes[key]
def cameraById(self, cid):
for cam in self.cameras.values():
if cid in cam:
return cam[cid]
return None
def cameraByName(self, camera=None, home=None):
if not camera and not home:
return self.default_camera
elif home and camera:
if home not in self.cameras:
return None
for cam_id in self.cameras[home]:
if self.cameras[home][cam_id]['name'] == camera:
return self.cameras[home][cam_id]
elif not home and camera:
for h, cam_ids in self.cameras.items():
for cam_id in cam_ids:
if self.cameras[h][cam_id]['name'] == camera:
return self.cameras[h][cam_id]
else:
return list(self.cameras[self.default_home].values())[0]
return None
def cameraUrls(self, camera=None, home=None, cid=None):
"""
Return the vpn_url and the local_url (if available) of a given camera
in order to access to its live feed
Can't use the is_local property which is mostly false in case of operator
dynamic IP change after presence start sequence
"""
local_url = None
vpn_url = None
if cid:
camera_data=self.cameraById(cid)
else:
camera_data=self.cameraByName(camera=camera, home=home)
if camera_data:
vpn_url = camera_data['vpn_url']
resp = postRequest("Camera", vpn_url + '/command/ping')
temp_local_url=resp['local_url']
try:
resp = postRequest("Camera", temp_local_url + '/command/ping',timeout=1)
if resp and temp_local_url == resp['local_url']:
local_url = temp_local_url
except: # On this particular request, vithout errors from previous requests, error is timeout
local_url = None
return vpn_url, local_url
def url(self, camera=None, home=None, cid=None):
vpn_url, local_url = self.cameraUrls(camera, home, cid)
# Return local if available else vpn
return local_url or vpn_url
def personsAtHome(self, home=None):
"""
Return the list of known persons who are currently at home
"""
if not home: home = self.default_home
home_data = self.homeByName(home)
atHome = []
for p in home_data['persons']:
#Only check known persons
if 'pseudo' in p:
if not p["out_of_sight"]:
atHome.append(p['pseudo'])
return atHome
def getCameraPicture(self, image_id, key):
"""
Download a specific image (of an event or user face) from the camera
"""
postParams = {
"access_token" : self.getAuthToken,
"image_id" : image_id,
"key" : key
}
resp = postRequest("Camera", _GETCAMERAPICTURE_REQ, postParams)
return resp, "jpeg"
def getProfileImage(self, name):
"""
Retrieve the face of a given person
"""
for p in self.persons.values():
if 'pseudo' in p:
if name == p['pseudo']:
image_id = p['face']['id']
key = p['face']['key']
return self.getCameraPicture(image_id, key)
return None, None
def updateEvent(self, event=None, home=None):
"""
Update the list of event with the latest ones
"""
if not home: home=self.default_home
if not event:
#If not event is provided we need to retrieve the oldest of the last event seen by each camera
listEvent = {}
for e in self.lastEvent.values():
listEvent[e['time']] = e
event = listEvent[sorted(listEvent)[0]]
home_data = self.homeByName(home)
postParams = {
"access_token" : self.getAuthToken,
"home_id" : home_data['id'],
"event_id" : event['id']
}
resp = postRequest("Camera", _GETEVENTSUNTIL_REQ, postParams)
eventList = resp['body']['events_list']
for e in eventList:
self.events[ e['camera_id'] ][ e['time'] ] = e
for camera,v in self.events.items():
self.lastEvent[camera]=v[sorted(v)[-1]]
def personSeenByCamera(self, name, home=None, camera=None):
"""
Return True if a specific person has been seen by a camera
"""
try:
cam_id = self.cameraByName(camera=camera, home=home)['id']
except TypeError:
logger.warning("personSeenByCamera: Camera name or home is unknown")
return False
#Check in the last event is someone known has been seen
if self.lastEvent[cam_id]['type'] == 'person':
person_id = self.lastEvent[cam_id]['person_id']
if 'pseudo' in self.persons[person_id]:
if self.persons[person_id]['pseudo'] == name:
return True
return False
def _knownPersons(self):
known_persons = {}
for p_id,p in self.persons.items():
if 'pseudo' in p:
known_persons[ p_id ] = p
return known_persons
def someoneKnownSeen(self, home=None, camera=None):
"""
Return True if someone known has been seen
"""
try:
cam_id = self.cameraByName(camera=camera, home=home)['id']
except TypeError:
logger.warning("personSeenByCamera: Camera name or home is unknown")
return False
#Check in the last event is someone known has been seen
if self.lastEvent[cam_id]['type'] == 'person':
if self.lastEvent[cam_id]['person_id'] in self._knownPersons():
return True
return False
def someoneUnknownSeen(self, home=None, camera=None):
"""
Return True if someone unknown has been seen
"""
try:
cam_id = self.cameraByName(camera=camera, home=home)['id']
except TypeError:
logger.warning("personSeenByCamera: Camera name or home is unknown")
return False
#Check in the last event is someone known has been seen
if self.lastEvent[cam_id]['type'] == 'person':
if self.lastEvent[cam_id]['person_id'] not in self._knownPersons():
return True
return False
def motionDetected(self, home=None, camera=None):
"""
Return True if movement has been detected
"""
try:
cam_id = self.cameraByName(camera=camera, home=home)['id']
except TypeError:
logger.warning("personSeenByCamera: Camera name or home is unknown")
return False
if self.lastEvent[cam_id]['type'] == 'movement':
return True
return False
def presenceUrl(self, camera=None, home=None, cid=None):
camera = self.cameraByName(home=home, camera=camera) or self.cameraById(cid=cid)
if camera["type"] != "NOC": return None # Not a presence camera
vpnUrl, localUrl = self.cameraUrls(cid=camera["id"])
return localUrl or vpnUrl
def presenceLight(self, camera=None, home=None, cid=None, setting=None):
url = self.presenceUrl(home=home, camera=camera) or self.cameraById(cid=cid)
if not url or setting not in ("on", "off", "auto"): return None
if setting : return "Currently unsupported"
return cameraCommand(url, _PRES_CDE_GET_LIGHT)["mode"]
# Not yet supported
#if not setting: return cameraCommand(url, _PRES_CDE_GET_LIGHT)["mode"]
#else: return cameraCommand(url, _PRES_CDE_SET_LIGHT, setting)
def presenceStatus(self, mode, camera=None, home=None, cid=None):
url = self.presenceUrl(home=home, camera=camera) or self.cameraById(cid=cid)
if not url or mode not in ("on", "off") : return None
r = cameraCommand(url, _CAM_CHANGE_STATUS, mode)
return mode if r["status"] == "ok" else None
def presenceSetAction(self, camera=None, home=None, cid=None,
eventType=_PRES_DETECTION_KIND[0], action=2):
raise NotImplementedError
# if eventType not in _PRES_DETECTION_KIND or \
# action not in _PRES_DETECTION_SETUP : return None
# camera = self.cameraByName(home=home, camera=camera) or self.cameraById(cid=cid)
# postParams = { "access_token" : self.getAuthToken,
# "home_id" : camera["home_id"],
# "presence_settings[presence_record_%s]" % eventType : _PRES_DETECTION_SETUP.index(action)
# }
# resp = postRequest("Camera", _POST_UPDATE_HOME_REQ, postParams)
# self.rawData = resp['body']
def getLiveSnapshot(self, camera=None, home=None, cid=None):
camera = self.cameraByName(home=home, camera=camera) or self.cameraById(cid=cid)
vpnUrl, localUrl = self.cameraUrls(cid=camera["id"])
url = localUrl or vpnUrl
return cameraCommand(url, _PRES_CDE_GET_SNAP)
class WelcomeData(HomeData):
"""
This class is now deprecated. Use HomeData instead
Home can handle many devices, not only Welcome cameras
"""
warnings.warn("The 'WelcomeData' class was renamed 'HomeData' to handle new Netatmo Home capabilities",
DeprecationWarning )
class HomesData:
"""
List the Netatmo actual topology and static information of all devices present
into a user account. It is also possible to specify a home_id to focus on one home.
Args:
authData (clientAuth): Authentication information with a working access Token
home : Home name or id of the home who's module belongs to
"""
def __init__(self, authData, home=None):
#
self.getAuthToken = authData.accessToken
postParams = {
"access_token" : self.getAuthToken,
"home_id": home
}
#
resp = postRequest("Module", _GETHOMES_DATA, postParams)
# self.rawData = resp['body']['devices']
self.rawData = resp['body']['homes']
if not self.rawData : raise NoHome("No home %s found" % home)
#
if home:
# Find a home who's home id or name is the one requested
for h in self.rawData:
#print (h.keys())
if home in (h["name"], h["id"]):
self.Homes_Data = h
else:
self.Homes_Data = self.rawData[0]
self.homeid = self.Homes_Data['id']
if not self.Homes_Data : raise NoDevice("No Devices available")
class HomeCoach:
"""
List the HomeCoach modules
Args:
authData (clientAuth): Authentication information with a working access Token
home : Home name or id of the home who's HomeCoach belongs to
"""
def __init__(self, authData):
# I don't own a HomeCoach thus I am not able to test the HomeCoach support
# Homecoach does not need or use HomeID parameter
# warnings.warn("The HomeCoach code is not tested due to the lack of test environment.\n", RuntimeWarning )
# "As Netatmo is continuously breaking API compatibility, risk that current bindings are wrong is high.\n" \
# "Please report found issues (https://github.com/philippelt/netatmo-api-python/issues)"
self.getAuthToken = authData.accessToken
postParams = {
"access_token" : self.getAuthToken
}
resp = postRequest("HomeCoach", _GETHOMECOACH, postParams)
self.rawData = resp['body']['devices']
# homecoach data
if not self.rawData : raise NoDevice("No HomeCoach available")
def HomecoachDevice(self, hid=""):
for device in self.rawData:
if hid == device['_id']:
return device
return None
def Dashboard(self, hid=""):
#D = self.HomecoachDevice['dashboard_data']
for device in self.rawData:
if hid == device['_id']:
D = device['dashboard_data']
return D
def lastData(self, hid=None, exclude=0):
for device in self.rawData:
if hid == device['_id']:
# LastData in HomeCoach
#s = self.HomecoachDevice['dashboard_data']['time_utc']
# Define oldest acceptable sensor measure event
limit = (time.time() - exclude) if exclude else 0
ds = device['dashboard_data']['time_utc']
return { '_id': hid, 'When': ds if device.get('time_utc',limit+10) > limit else 0}
else:
pass
def checkNotUpdated(self, res, hid, delay=3600):
ret = []
if time.time()-res['When'] > delay : ret.append({hid: 'Device Not Updated'})
return ret if ret else None
def checkUpdated(self, res, hid, delay=3600):
ret = []
if time.time()-res['When'] < delay : ret.append({hid: 'Device up-to-date'})
return ret if ret else None
# Utilities routines
def rawAPI(authData, url, parameters=None):
fullUrl = _BASE_URL + "api/" + url
if parameters is None: parameters = {}
parameters["access_token"] = authData.accessToken
resp = postRequest("rawAPI", fullUrl, parameters)
return resp["body"] if "body" in resp else resp
def filter_home_data(rawData, home):
if home:
# Find a home who's home id or name is the one requested
for h in rawData:
if home in (h['home_name'], h['home_id']):
return h
return None
# By default, the first home is returned
return rawData[0]
def cameraCommand(cameraUrl, commande, parameters=None, timeout=3):
url = cameraUrl + ( commande % parameters if parameters else commande)
return postRequest("Camera", url, timeout=timeout)
def processErrorResp(resp):
try:
error_detail = json.loads(resp.fp.read().decode("utf-8"))["error"]
logger.error("Netatmo response error 403 : %s" % repr(error_detail))
except Exception as e:
logger.error("Error getting body of 403 HTTP error from Netatmo : %s" % e)
def postRequest(topic, url, params=None, timeout=10):
if PYTHON3:
req = urllib.request.Request(url)
if params:
req.add_header("Content-Type","application/x-www-form-urlencoded;charset=utf-8")
if "access_token" in params:
req.add_header("Authorization","Bearer %s" % params.pop("access_token"))
params = urllib.parse.urlencode(params).encode('utf-8')
try:
resp = urllib.request.urlopen(req, params, timeout=timeout) if params else urllib.request.urlopen(req, timeout=timeout)
except urllib.error.HTTPError as err:
if err.code == 403:
processErrorResp(err)
else:
logger.error("code=%s, reason=%s, body=%s" % (err.code, err.reason, err.fp.read()))
return None
else:
if params:
token = params.pop("access_token") if "access_token" in params else None
params = urlencode(params)
headers = {"Content-Type" : "application/x-www-form-urlencoded;charset=utf-8"}
if token: headers["Authorization"] = "Bearer %s" % token
req = urllib2.Request(url=url, data=params, headers=headers) if params else urllib2.Request(url=url, headers=headers)
try:
resp = urllib2.urlopen(req, timeout=timeout)
except urllib2.HTTPError as err:
logger.error("code=%s, reason=%s" % (err.code, err.reason))
return None
data = b""
for buff in iter(lambda: resp.read(65535), b''): data += buff
# Return values in bytes if not json data to handle properly camera images
returnedContentType = resp.getheader("Content-Type") if PYTHON3 else resp.info()["Content-Type"]
return json.loads(data.decode("utf-8")) if "application/json" in returnedContentType else data
def toTimeString(value):
return time.strftime("%Y-%m-%d_%H:%M:%S", time.localtime(int(value)))
def toEpoch(value):
return int(time.mktime(time.strptime(value,"%Y-%m-%d_%H:%M:%S")))
def todayStamps():
today = time.strftime("%Y-%m-%d")
today = int(time.mktime(time.strptime(today,"%Y-%m-%d")))
return today, today+3600*24
# Global shortcut
def getStationMinMaxTH(station=None, module=None, home=None):
authorization = ClientAuth()
devList = WeatherStationData(authorization, station=station, home=home)
if module == "*":
pass
elif module:
module = devList.moduleById(module) or devList.moduleByName(module)
if not module: raise NoDevice("No such module %s" % module)
module = module["module_name"]
else:
module = list(devList.modules.values())[0]["module_name"]
lastD = devList.lastData()
if module == "*":
result = {}
for m,v in lastD.items():
if time.time()-v['When'] > 3600 : continue
r = devList.MinMaxTH(module=m)
if r:
result[m] = (r[0], v['Temperature'], r[1])
else:
if time.time()-lastD[module]['When'] > 3600 : result = ["-", "-"]
else :
result = [lastD[module]['Temperature'], lastD[module]['Humidity']]
result.extend(devList.MinMaxTH(module))
return result
# auto-test when executed directly
if __name__ == "__main__":
logging.basicConfig(format='%(name)s - %(levelname)s: %(message)s', level=logging.INFO)
authorization = ClientAuth() # Test authentication method
try:
try:
weatherStation = WeatherStationData(authorization) # Test DEVICELIST
except NoDevice:
logger.warning("No weather station available for testing")
else:
weatherStation.MinMaxTH() # Test GETMEASUR
try:
homes = HomeData(authorization)
except NoDevice :
logger.warning("No home available for testing")
try:
thermostat = ThermostatData(authorization)
Default_relay = thermostat.Relay_Plug()
Default_thermostat = thermostat.Thermostat_Data()
thermostat.getThermostat()
print (thermostat.moduleNamesList())
#print (thermostat.getModuleByName(name))
except NoDevice:
logger.warning("No thermostat avaible for testing")
try:
print (' ')
logger.info("Homes Data")
#homesdata = HomesData(authorization, homeid)
homesdata = HomesData(authorization)
homeid = homesdata.homeid
except NoDevice:
logger.warning("No HomesData avaible for testing")
try:
print (' ')
logger.info("Home Status")
HomeStatus(authorization, homeid)
except NoDevice:
logger.warning("No Home available for testing")
try:
print (' ')
logger.info("HomeCoach")
Homecoach = HomeCoach(authorization)
except NoDevice:
logger.warning("No HomeCoach avaible for testing")
except OutOfScope:
logger.warning("Your current scope do not allow such access")
# If we reach this line, all is OK
logger.info("OK")
exit(0)
================================================
FILE: samples/get_direct_camera_snapshot
================================================
#!/usr/bin/python3
# Locate the camera name "MyCam" IP on the local LAN
# to collect a snapshot of what the camera sees
# If available use a local connection to save internet bandwith
from sys import exit
import lnetatmo
# The name I gave the camera in the Netatmo Security App
MY_CAMERA = "MyCam"
# Authenticate (see authentication in documentation)
# Note you will need the appropriate scope (read_welcome access_welcome or read_presence access_presence)
# depending of the camera you are trying to reach
# The default library scope ask for all aceess to all cameras
authorization = lnetatmo.ClientAuth()
# Gather Home information (available cameras and other infos)
homeData = lnetatmo.HomeData(authorization)
# Request a snapshot from the camera
snapshot = homeData.getLiveSnapshot( camera=MY_CAMERA )
# If all was Ok, I should have an image, if None there was an error
if not snapshot :
# Decide what to do with an error situation (alert, log, ...)
exit(1)
# You can then archive the snapshot, send it by mail, message App, ...
# Example : Save the snapshot in a file
with open("MyCamSnap.jpg", "wb") as f: f.write(snapshot)
exit(0)
================================================
FILE: samples/graphLast3Days
================================================
#!/usr/bin/python
# coding=utf-8
# 2013-01 : philippelt@users.sourceforge.net
# This is an example of graphing Temperature and Humidity from a module on the last 3 days
# The Matplotlib library is used and should be installed before running this sample program
import datetime, time
import lnetatmo
from matplotlib import pyplot as plt
from matplotlib import dates
from matplotlib.ticker import FormatStrFormatter
# Access to the sensors
auth = lnetatmo.ClientAuth()
dev = lnetatmo.DeviceList(auth)
# Time of information collection : 3*24hours windows to now
now = time.time()
start = now - 3 * 24 * 3600
# Get Temperature and Humidity with GETMEASURE web service (1 sample every 30min)
resp = dev.getMeasure( device_id='xxxx', # Replace with your values
module_id='xxxx', # " " " "
scale="30min",
mtype="Temperature,Humidity",
date_begin=start,
date_end=now)
# Extract the timestamp, temperature and humidity from the more complex response structure
result = [(int(k),v[0],v[1]) for k,v in resp['body'].items()]
# Sort samples by timestamps (Warning, they are NOT sorted by default)
result.sort()
# Split in 3 lists for use with Matplotlib (timestamp on x, temperature and humidity on two y axis)
xval, ytemp, yhum = zip(*result)
# Convert the x axis values from Netatmo timestamp to matplotlib timestamp...
xval = [dates.date2num(datetime.datetime.fromtimestamp(x)) for x in xval]
# Build the two curves graph (check Matplotlib documentation for details)
fig = plt.figure()
plt.xticks(rotation='vertical')
graph1 = fig.add_subplot(111)
graph1.plot(xval, ytemp, color='r', linewidth=3)
graph1.set_ylabel(u'Température', color='r')
graph1.set_ylim(0, 25)
graph1.yaxis.grid(color='gray', linestyle='dashed')
for t in graph1.get_yticklabels() : t.set_color('r')
graph1.yaxis.set_major_formatter(FormatStrFormatter(u'%2.0f °C'))
graph2 = graph1.twinx()
graph2.plot(xval, yhum, color='b', linewidth=3)
graph2.set_ylabel(u'Humidité',color='b')
graph2.set_ylim(50,100)
for t in graph2.get_yticklabels(): t.set_color('b')
graph2.yaxis.set_major_formatter(FormatStrFormatter(u'%2i %%'))
graph1.xaxis.set_major_locator(dates.HourLocator(interval=6))
graph1.xaxis.set_minor_locator(dates.HourLocator())
graph1.xaxis.set_major_formatter(dates.DateFormatter("%d-%Hh"))
graph1.xaxis.grid(color='gray')
graph1.set_xlabel(u'Jour et heure de la journée')
# X display the resulting graph (you could generate a PDF/PNG/... in place of display).
# The display provides a minimal interface that notably allows you to save your graph
plt.show()
================================================
FILE: samples/printAllLastData.py
================================================
#!/usr/bin/python3
# encoding=utf-8
# 2014-01 : philippelt@users.sourceforge.net
# Just connect to a Netatmo account, and print all last informations available for
# station(s) and modules of the user account
# (except if module data is more than one hour old that usually means module lost
# wether out of radio range or battery exhausted thus information is no longer
# significant)
import time
import lnetatmo
authorization = lnetatmo.ClientAuth()
weather = lnetatmo.WeatherStationData(authorization)
user = weather.user
print("Station owner : ", user.mail)
print("Data units : ", user.unit)
# For each station in the account
for station in weather.stations:
print("\nSTATION : %s\n" % weather.stations[station]["station_name"])
# For each available module in the returned data of the specified station
# that should not be older than one hour (3600 s) from now
for module, moduleData in weather.lastData(station=station, exclude=3600).items() :
# Name of the module (or station embedded module)
# You setup this name in the web netatmo account station management
print(module)
# List key/values pair of sensor information (eg Humidity, Temperature, etc...)
for sensor, value in moduleData.items() :
# To ease reading, print measurement event in readable text (hh:mm:ss)
if sensor == "When" : value = time.strftime("%H:%M:%S",time.localtime(value))
print("%30s : %s" % (sensor, value))
# OUTPUT SAMPLE :
#
# $ printAllLastData
#
#Station owner : ph.larduinat@wanadoo.fr
#Data units : metric
#
#
#STATION : TEST-STATION-1
#
#Office
# AbsolutePressure : 988.7
# CO2 : 726
# date_max_temp : 1400760301
# date_min_temp : 1400736146
# Humidity : 60
# max_temp : 19.6
# min_temp : 17.9
# Noise : 46
# Particle : 12768
# Pressure : 988.7
# Temperature : 19.6
# When : 14:10:01
#Outdoor
# battery_vp : 5200
# CO2 : 555
# date_max_temp : 1400759951
# date_min_temp : 1400732524
# Humidity : 75
# max_temp : 17.9
# min_temp : 10.3
# rf_status : 57
# Temperature : 17.9
# When : 14:09:25
#Greenhouse
# date_min_temp : 1400732204
# Humidity : 89
# max_temp : 19.9
# min_temp : 9.1
# rf_status : 83
# Temperature : 19.9
# When : 14:09:12
================================================
FILE: samples/printThermostat.py
================================================
#!/usr/bin/python3
# encoding=utf-8
# 2018-02 : ph.larduinat@wanadoo.fr
# Thermostat basic sample
import sys
import lnetatmo
authorization = lnetatmo.ClientAuth()
thermostat = lnetatmo.ThermostatData(authorization)
defaultThermostat = thermostat.getThermostat()
if not defaultThermostat : sys.exit(1)
defaultModule = thermostat.defaultModule
print('Thermostat name :', defaultThermostat['name'])
print('Default module :', defaultModule['name'])
print('Module measured temp :', defaultModule['measured']['temperature'])
print('Module set point :', defaultModule['measured']['setpoint_temp'])
print('Module battery : %s%%' % defaultModule['battery_percent'])
for p in defaultModule['therm_program_list']:
print("\tProgram: ", p['name'])
for z in p['zones']:
name = z['name'] if 'name' in z else '<noname>'
print("\t%15s : %s" % (name, z['temp']))
================================================
FILE: samples/rawAPIsample.py
================================================
#!/usr/bin/python3
# 2023-07 : ph.larduinat@wanadoo.fr
# Library 3.2.0
# Direct call of Netatmo API with authentication token
# Return a dictionary of body of Netatmo response
import lnetatmo
authorization = lnetatmo.ClientAuth()
rawData = lnetatmo.rawAPI(authorization, "gethomesdata")
print("Home name : home_id")
for h in rawData["homes"]:
print(f"{h['name']} : {h['id']}")
print("Radio communication strength by home")
for h in rawData["homes"]:
print(f"\nFor {h['name']}:")
modules = lnetatmo.rawAPI(authorization, "homestatus", {"home_id" : h['id']})['home']
if not 'modules' in modules:
print("No modules available")
else:
print([(m['id'],m['rf_strength']) for m in modules['modules'] if 'rf_strength' in m])
================================================
FILE: samples/simpleLastData.py
================================================
#!/usr/bin/python3
# encoding=utf-8
# 2013-01 : philippelt@users.sourceforge.net
# Just connect to a Netatmo account, and print internal and external temperature of the default (or single) station
# In this case, sensors of the station and the external module have been named 'internal' and 'external' in the
# Account station settings.
import lnetatmo
authorization = lnetatmo.ClientAuth()
devList = lnetatmo.WeatherStationData(authorization)
print ("Current temperature (inside/outside): %s / %s °C" %
( devList.lastData()['internal']['Temperature'],
devList.lastData()['external']['Temperature'])
)
================================================
FILE: samples/smsAlarm.py
================================================
#!/usr/bin/python3
# encoding=utf-8
# 2013-01 : philippelt@users.sourceforge.net
# Simple example run in a cron job (every 30' for example) to send an alarm SMS if some condition is reached
# and an other SMS when condition returned to normal. In both case, a single SMS is emitted to multiple
# peoples (here phone1 and phone2 are two mobile phone numbers)
# Note : lsms is my personnal library to send SMS using a GSM modem, you have to use your method/library
import sys, os
import lnetatmo,lsms
MARKER_FILE = "/<somewhere>/TempAlarm" # This flag file will be used to avoid sending multiple SMS on the same event
# Remember that the user who run the cron job must have the rights to create the file
# Access the station
authorization = lnetatmo.ClientAuth()
devList = lnetatmo.WeatherStationData(authorization)
message = []
# Condition 1 : the external temperature is below our limit
curT = devList.lastData()['external']['Temperature']
if curT < 5 : message.append("Temperature going below 5°C")
# Condition 2 : The external temperature data is older that 1 hour
someLost = devList.checkNotUpdated()
if someLost and 'external' in someLost : message.append("Sensor is no longer active")
# Condition 3 : The outdoor module battery is dying
volts = devList.lastData()['external']['battery_vp'] # I suspect that this is the total Voltage in mV
if volts < 5000 : message.append("External module battery needs replacement") # I will adjust the threshold over time
# If one condition is present, at least, send an alarm by SMS
if message :
if not os.path.exists(MARKER_FILE) :
message = "WEATHER ALERT\n" + "\n".join(message)
for p in ('<phone1>', '<phone2>') :
lsms.sendSMS(p, message, flash=True)
open(MARKER_FILE,"w").close() # Just to create the empty marker file and avoid to resend the same alert
else :
if os.path.exists(MARKER_FILE) :
os.remove(MARKER_FILE)
for p in ('<phone1>', '<phone2>') :
lsms.sendSMS(p, "END of WEATHER alert, current temperature is %s°C" % curT)
sys.exit(0)
================================================
FILE: samples/weather2file.md
================================================
# weather2file
The script [weather2file](https://github.com/philippelt/netatmo-api-python/blob/master/samples/weather2file) can be used to save data from [Netatmo](https://www.netatmo.com) to file. The data is extracted through the Netatmo api and is aggregated into a pandas DataFrame which is then saved into one of the possible output formats (-f flag). Each sample/row in the dataframe consists of common columns such as utc_time (int), timestamp (datetime including timezone if supported by output format), type, module_name, module_mac, station_name, station_mac. There are also a number of columns corresponding to the module data such as Temperature, CO2, Humidity, Noise and Pressure. All samples/rows will contain all data columns, however the non-relevant columns (such as pressure for an indoor module) will be set to NaN.
When run, it will check if a data file already exists. If it exists, it will be loaded and only new data will be extracted from Netatmo. It will thus not download duplicates. In case of certain types of errors, it will exit data collection for the current module and save whatever it managed to collect, and then continue with the next module until data has been collected from all modules. This means that even if the data collection fails, you will not have to download that data again, but will continue from whatever data it already has.
The script also handles user specific rate limits such as 50 requests per 10s and 500 requests per hour, by logging the time of the requests and make sure that those are never exceeded by waiting, if necessary. You can specify lower rate limits than the maximum as to not eat up all resources such that other services might not work. This is done with the -hlr flag for the hour limit and the -t flag for the 10 seconds limit. The script does however not keep track of requests between different runs. In such cases, one kan use the -p flag to specify the number of assumed previous requests.
The default name of the output is "weatherdata" followed by the file format ending, but you can change the name with the -n flag. The default output directory is the curent directory. You can change this value with the -o flag (also supports ~).
# How to run
1. Clone or download the repository.
2. Enter credential information according one of the alternatives in [lnetatmo.py](https://github.com/philippelt/netatmo-api-python/blob/master/lnetatmo.py)
3. Enter the directory and run:
```PYTHONPATH=. ./samples/weather2file --format csv``` (change --format if you prefer a different format, and use any of the optional flags)
```sh
$ PYTHONPATH=. ./samples/weather2file -h
usage: weather2file [-h] -f {json,csv,pickle,hdf,feather,parquet,excel} [-e END_DATETIME] [-v {debug,info,warning,error,quiet}] [-n FILE_NAME] [-o OUTPUT_PATH] [-p PREVIOUS_REQUESTS]
[-hrl HOUR_RATE_LIMIT] [-t TEN_SECOND_RATE_LIMIT]
Save historical information for all weather modules from Netatmo to file
optional arguments:
-h, --help show this help message and exit
-f {json,csv,pickle,hdf,feather,parquet,excel}, --format {json,csv,pickle,hdf,feather,parquet,excel}
Format for which the data is to be saved
-e END_DATETIME, --end-datetime END_DATETIME
The end datetime of data to be saved, in the format YYYY-MM-DD_hh:mm (default: now)
-v {debug,info,warning,error,quiet}, --verbose {debug,info,warning,error,quiet}
Verbose level (default: info)
-n FILE_NAME, --file-name FILE_NAME
Name of the output file (default: weatherdata)
-o OUTPUT_PATH, --output-path OUTPUT_PATH
Output location (default: current folder)
-p PREVIOUS_REQUESTS, --previous-requests PREVIOUS_REQUESTS
Assumes this many previous requests has been done, so that the rate limit is not exceeded (default: 0)
-hrl HOUR_RATE_LIMIT, --hour-rate-limit HOUR_RATE_LIMIT
Specify the rate limit per hour (default: 400, max: 500)
-t TEN_SECOND_RATE_LIMIT, --ten-second-rate-limit TEN_SECOND_RATE_LIMIT
Specify the rate limit per ten seconds (default: 30, max: 50)
```
================================================
FILE: samples/weather2file.py
================================================
#!/usr/bin/env python3
# Copyright (c) 2020 Joel Berglund <joebe975@protonmail.com>
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License as
# published by the Free Software Foundation; either version 3 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
# USA
import lnetatmo
import pandas as pd
import numpy as np
import argparse
import logging
import time
import socket
from datetime import date, datetime, timedelta
from pytz import timezone
from os.path import expanduser, join
from pathlib import Path
def valid_datetime_type(arg_datetime_str):
try:
return datetime.strptime(arg_datetime_str, "%Y-%m-%d_%H:%M")
except ValueError:
msg = f"Given Date {arg_datetime_str} not valid! Expected format, YYYY-MM-DD_hh:mm!"
raise argparse.ArgumentTypeError(msg)
def valid_hour_limit(hour_limit):
hour_limit = int(hour_limit)
if hour_limit <= 0:
msg = "Hour limit must be larger than 0"
raise argparse.ArgumentTypeError(msg)
elif hour_limit > 500:
msg = "Hour limit cannot be more than 500"
raise argparse.ArgumentTypeError(msg)
return hour_limit
def valid_ten_seconds_limit(ten_sec_limit):
ten_sec_limit = int(ten_sec_limit)
if ten_sec_limit <= 0:
msg = "Ten seconds limit must be larger than 0"
raise argparse.ArgumentTypeError(msg)
elif ten_sec_limit > 50:
msg = "Ten seconds limit cannot be more than 50"
raise argparse.ArgumentTypeError(msg)
return ten_sec_limit
verbose_dict = {
'debug':logging.DEBUG,
'info':logging.INFO,
'warning':logging.WARNING,
'error':logging.ERROR
}
def userexpanded_path_str(path_str):
return expanduser(path_str)
class DataFrameHandler:
def __init__(self, file_name, output_path, file_format, kwargs={}):
logging.debug(f'Initiating {self.__class__.__name__}')
self.file_name = file_name
self.kwargs = kwargs
try:
Path(output_path).resolve(strict=True)
except FileNotFoundError as error:
logging.error(f'Output path {output_path} does not exist')
raise error
self.output_path = output_path
self.file_extension = self.file_extension_dict[file_format]
self._set_df()
# Specify the column formats here
dtype_dict = {
'Pressure':np.float32,
'CO2':np.float32,
'Temperature':np.float32,
'Humidity':pd.Int8Dtype(),
'Noise':pd.Int16Dtype(),
'utc_time':np.uint32}
file_extension_dict = {
"json": "json",
"pickle": "pkl",
"csv": "csv",
"hdf": "h5",
"feather": "feather",
"parquet": "parquet",
"excel": "xlsx",
}
def _set_df(self):
# If the file exists, load it. Otherwise, set empty DataFrame
file_path = self._get_complete_file_name()
p = Path(file_path)
try:
abs_path = p.resolve(strict=True)
except FileNotFoundError:
logging.info(f'Previous file {file_path} not found. Setting empty DataFrame')
self.df = pd.DataFrame([])
else:
logging.info(f'Previous file {file_path} found. Loading DataFrame.')
self.df = self._read_file(abs_path).astype(self.dtype_dict)
def _get_complete_file_name(self):
return join(self.output_path, f"{self.file_name}.{self.file_extension}")
def _read_file(self, file_path):
pass
def _write_file(self, file_path):
pass
def save_to_file(self):
if self.df.empty:
logging.debug("Empty DataFrame. Nothing to save...")
return
full_file_path = self._get_complete_file_name()
logging.debug(f"Saving to file {full_file_path} ({self.df.shape[0]} samples)")
self._write_file(full_file_path)
logging.debug(f"{full_file_path} saved")
def append(self, df):
self.df = pd.concat([self.df, df], ignore_index=True)
def get_newest_timestamp(self,module_mac):
if ('module_mac' in self.df.columns):
module_utc_time = self.df.loc[self.df['module_mac']==module_mac,'utc_time']
if module_utc_time.size:
return module_utc_time.max()
return None
def _remove_timezone(self):
if 'timestamp' in self.df.columns:
self.df['timestamp'] = self.df['timestamp'].apply(lambda x: x.replace(tzinfo=None))
logging.debug (f'Timezone was removed for {self.__class__.__name__}')
class PickleHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
super().__init__(file_name, output_path, file_format="pickle")
def _read_file(self, file_path):
return pd.read_pickle(file_path, **self.kwargs)
def _write_file(self, file_path):
self.df.to_pickle(file_path, **self.kwargs)
class JSONHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
self.dtype_dict['Humidity'] = np.float64
self.dtype_dict['Noise'] = np.float64
super().__init__(file_name, output_path, file_format="json", kwargs = {"orient": "table"})
def _read_file(self, file_path):
return pd.read_json(file_path, convert_dates=False, **self.kwargs)
def _write_file(self, file_path):
logging.debug('JSON orient table does not support timezones. Removing timezone information...')
self._remove_timezone()
self.df.to_json(file_path, index=False, **self.kwargs)
class CSVHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
super().__init__(file_name, output_path, file_format="csv")
def _read_file(self, file_path):
return pd.read_csv(file_path, parse_dates=["timestamp"], **self.kwargs)
def _write_file(self, file_path):
self.df.to_csv(file_path, index=False, **self.kwargs)
class HDFHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
self.dtype_dict['Humidity'] = np.float64
self.dtype_dict['Noise'] = np.float64
super().__init__(file_name, output_path, file_format="hdf", kwargs={"key": "df"})
def _read_file(self, file_path):
return pd.read_hdf(file_path, **self.kwargs)
def _write_file(self, file_path):
self.df.to_hdf(file_path, mode="w", **self.kwargs)
class ParquetHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
self.dtype_dict['Noise'] = np.float64
super().__init__(file_name, output_path, file_format="parquet")
def _read_file(self, file_path):
return pd.read_parquet(file_path, **self.kwargs)
def _write_file(self, file_path):
self.df.to_parquet(file_path, **self.kwargs)
class SQLHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
raise NotImplementedError("sql details not setup")
#from sqlalchemy import create_engine
#super().__init__(file_name, output_path, file_format="sql", kwargs={"con": self.engine})
#self.engine = create_engine("sqlite://", echo=False)
def _read_file(self, file_path):
return pd.read_sql(file_path, **self.kwargs)
def _write_file(self, file_path):
raise NotImplementedError("sql details not setup")
self.df.to_sql(file_path, index=False, **self.kwargs)
class FeatherHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
self.dtype_dict['Noise'] = np.float64
super().__init__(file_name, output_path, file_format="feather")
def _read_file(self, file_path):
return pd.read_feather(file_path, **self.kwargs)
def _write_file(self, file_path):
self.df.to_feather(file_path, **self.kwargs)
class ExcelHandler(DataFrameHandler):
def __init__(self, file_name, output_path):
super().__init__(file_name, output_path, file_format="excel")
def _read_file(self, file_path):
return pd.read_excel(file_path, **self.kwargs)
def _write_file(self, file_path):
logging.debug('Excel does not support timezones. Removing timezone information...')
self._remove_timezone()
self.df.to_excel(file_path, index=False, **self.kwargs)
df_handler_dict = {
"json": JSONHandler,
"pickle": PickleHandler,
"csv": CSVHandler,
"hdf": HDFHandler,
"feather": FeatherHandler,
"sql": SQLHandler,
"parquet": ParquetHandler,
"excel": ExcelHandler,
}
class RateLimitHandler:
def __init__(self,
user_request_limit_per_ten_seconds=50,
user_request_limit_per_hour=500,
nr_previous_requests=0):
self._USER_REQUEST_LIMIT_PER_TEN_SECONDS = user_request_limit_per_ten_seconds
logging.debug(f'Ten second rate limit was set to {user_request_limit_per_ten_seconds}')
self._USER_REQUST_LIMIT_PER_HOUR = user_request_limit_per_hour
logging.debug(f'Hour rate limit was set to {user_request_limit_per_hour}')
self._TEN_SECOND_TIMEDELTA = timedelta(seconds=10)
self._HOUR_TIMEDELTA = timedelta(hours=1)
self._SECOND_TIMEDELTA = timedelta(seconds=1)
# Keep track of when we have done requests
if nr_previous_requests:
logging.debug(f'{nr_previous_requests} previous requests has been assumed')
self.requests_series = pd.Series(
data=1,
index=[datetime.now()],
name='request_logger',
dtype=np.uint16).repeat(nr_previous_requests)
else:
logging.debug('No previous requests has been assumed. Creating empty request logger')
self.requests_series = pd.Series(name='request_logger',dtype=np.uint16)
self._set_authorization()
self._set_weather_data()
def _get_masked_series(self, time_d):
return self.requests_series[self.requests_series.index >= (datetime.now() - time_d)]
def _log_request(self):
self.requests_series[datetime.now()] = 1
def _set_authorization(self):
self._check_rate_limit_and_wait()
self.authorization = lnetatmo.ClientAuth()
self._log_request()
def _set_weather_data(self):
self._check_rate_limit_and_wait()
self.weather_data = lnetatmo.WeatherStationData(self.authorization)
self._log_request()
def _sleep(self, until_time):
sleep = True
tot_seconds = (until_time - datetime.now())/self._SECOND_TIMEDELTA
while(sleep):
time_left = (until_time - datetime.now())/self._SECOND_TIMEDELTA
if(time_left>0):
if logging.getLogger().isEnabledFor(logging.INFO):
print(f'\t{time_left:.1f}/{tot_seconds:.1f} seconds left',end='\r')
time.sleep(1)
else:
sleep = False
def _check_rate_limit_and_wait(self):
# Check the 10 second limit
ten_sec_series = self._get_masked_series(self._TEN_SECOND_TIMEDELTA)
if(ten_sec_series.size >= self._USER_REQUEST_LIMIT_PER_TEN_SECONDS):
# Wait until there is at least room for one more request
until_time = (ten_sec_series.index[-self._USER_REQUEST_LIMIT_PER_TEN_SECONDS] + self._TEN_SECOND_TIMEDELTA)
logging.info(f'10 second limit. Waiting for {(until_time - datetime.now())/self._SECOND_TIMEDELTA:.1f} seconds...')
self._sleep(until_time)
# Check the 500 second limit
hour_series = self._get_masked_series(self._HOUR_TIMEDELTA)
if(hour_series.size >= self._USER_REQUST_LIMIT_PER_HOUR):
# Wait until there is at least room for one more request
until_time = (hour_series.index[-self._USER_REQUST_LIMIT_PER_HOUR] + self._HOUR_TIMEDELTA)
logging.info(f'Hour limit hit ({self._USER_REQUST_LIMIT_PER_HOUR} per hour). Waiting for {(until_time - datetime.now())/self._SECOND_TIMEDELTA:.1f} seconds...')
self._sleep(until_time)
def _get_measurement(self, input_dict):
# Check that we don't exceed the user rate limit
self._check_rate_limit_and_wait()
# Log this request
self._log_request()
try:
return self.weather_data.getMeasure(**input_dict)
except socket.timeout as socket_timeout:
logging.error(socket_timeout)
return None
def get_stations(self):
return self.weather_data.stations.items()
def _get_field_dict(self, station_id,module_id,data_type,start_date,end_date):
"""Returns a dict to be used when requesting data through the Netatmo API"""
return {'device_id':station_id,
'scale':'max',
'mtype':','.join(data_type),
'module_id':module_id,
'date_begin':start_date,
'date_end':end_date}
def _get_date_from_timestamp(self, ts, tz=None):
return datetime.fromtimestamp(ts,tz).date()
def _get_timestamp_from_date(self, d, tz=None):
"""Returns the timetamp corresponding to the end of the day d"""
# Create datetime from date
combined_datetime = datetime.combine(d, datetime.max.time(), tzinfo=tz)
return np.floor(datetime.timestamp(combined_datetime))
def _get_common_elements(self, keys, column_names):
return list(set(keys).intersection(column_names))
def _to_dataframe(self, module_data_body, module_data, station_name, station_mac, dtype={}, time_z=None):
"""Convert the dict to a pandas DataFrame"""
df = pd.DataFrame.from_dict(module_data_body,orient='index',columns=module_data['data_type'])
df['type'] = module_data['type']
df['module_name'] = module_data['module_name']
df['module_mac'] = module_data['_id']
df['station_name'] = station_name
df['station_mac'] = station_mac
df.index.set_names('utc_time',inplace=True)
df.reset_index(inplace=True)
df['timestamp'] = df['utc_time'].apply(lambda x: datetime.fromtimestamp(np.uint32(x), tz=time_z))
common_names = self._get_common_elements(dtype.keys(), df.columns)
dtypes = {k: dtype[k] for k in common_names}
return df.astype(dtypes)
def get_module_df(self, newest_utctime, station_name, station_mac, module_data_overview, end_date_timestamp, dtype={}, time_z=None):
logging.info(f'Processing {module_data_overview["module_name"]}...')
module_name = module_data_overview["module_name"]
# We start by collecting new data
keep_collecting_module_data = True
# Start with the oldest timestamp
module_start_date_timestamp = module_data_overview['last_setup']
# Fill array with data
data = []
if(newest_utctime):
# Found newer data! Change start time according to the newest value
if(newest_utctime > module_start_date_timestamp):
module_start_date_timestamp = newest_utctime + 1
logging.info(f'Newer data found for {module_name}. Setting new start date to {self._get_date_from_timestamp(module_start_date_timestamp, tz=time_z)}')
else:
logging.debug(f'No newer data found for module {module_name}, starting from last setup.')
if(end_date_timestamp < module_start_date_timestamp):
logging.info('Start date is after end date. Nothing to do...')
keep_collecting_module_data = False
else:
logging.info(f'Collecting data for {module_name}...')
while(keep_collecting_module_data):
# Get new data from Netatmo
d = self._get_field_dict(station_mac,
module_data_overview['_id'],
module_data_overview['data_type'],
module_start_date_timestamp,
end_date_timestamp)
retreived_module_data = self._get_measurement(d)
if retreived_module_data is None:
logging.warning(f'None received. Aborting data collection from module {module_name}')
keep_collecting_module_data = False
else:
try:
# Was there any data?
if(retreived_module_data['body']):
new_df = self._to_dataframe(retreived_module_data['body'],
module_data_overview,
station_name,
station_mac,
dtype,
time_z)
data.append(new_df)
new_df['utc_time'].min()
logging.debug(f'{len(retreived_module_data["body"])} samples found for {module_data_overview["module_name"]}. {new_df["timestamp"].iloc[0]} - {new_df["timestamp"].iloc[-1]}')
# Now change the start_time
module_start_date_timestamp = new_df['utc_time'].max() + 1
else:
keep_collecting_module_data = False
logging.debug(f'Data not found for {module_name}. Proceeding...')
except Exception as e:
logging.error(e)
keep_collecting_module_data = False
logging.error(f'Something fishy is going on... Aborting collection for module {module_name}')
if data:
df_module = pd.concat(data,ignore_index=True)
else:
df_module = pd.DataFrame([])
logging.info(f'Collected data from {module_name} contains {df_module.shape[0]} samples.')
return df_module
def main():
parser = argparse.ArgumentParser(
description="Save historical information for all weather modules from Netatmo to file"
)
parser.add_argument(
"-f",
"--format",
choices=["json", "csv", "pickle", "hdf", "feather", "parquet", "excel"],
required=True,
help="Format for which the data is to be saved",
)
parser.add_argument(
"-e",
"--end-datetime",
type=valid_datetime_type,
default=datetime.now(),
required=False,
help="The end datetime of data to be saved, in the format YYYY-MM-DD_hh:mm (default: now)",
)
parser.add_argument(
"-v",
"--verbose",
choices=["debug", "info", "warning", "error", "quiet"],
default="info",
required=False,
help="Verbose level (default: info)")
parser.add_argument(
"-n",
"--file-name",
default="weatherdata",
required=False,
help="Name of the output file (default: weatherdata)")
parser.add_argument(
"-o",
"--output-path",
type=userexpanded_path_str,
default=".",
required=False,
help="Output location (default: current folder)")
parser.add_argument(
"-p",
"--previous-requests",
type=np.uint16,
default=np.uint8(0),
required=False,
help="Assumes this many previous requests has been done, so that the rate limit is not exceeded (default: 0)")
parser.add_argument(
"-hrl",
"--hour-rate-limit",
type=valid_hour_limit,
default=400,
required=False,
help="Specify the rate limit per hour (default: 400, max: 500)")
parser.add_argument(
"-t",
"--ten-second-rate-limit",
type=valid_ten_seconds_limit,
default=30,
required=False,
help="Specify the rate limit per ten seconds (default: 30, max: 50)")
args = parser.parse_args()
if(args.verbose == 'quiet'):
logging.disable(logging.DEBUG)
else:
logging.basicConfig(format=" %(levelname)s: %(message)s", level=verbose_dict[args.verbose])
# Handle dataframes (loading, appending, saving).
df_handler = df_handler_dict[args.format](file_name=args.file_name, output_path=args.output_path)
# Rate handler to make sure that we don't exceed Netatmos user rate limits
rate_limit_handler = RateLimitHandler(
user_request_limit_per_ten_seconds=args.ten_second_rate_limit,
user_request_limit_per_hour=args.hour_rate_limit,
nr_previous_requests=args.previous_requests)
for station_name, station_data_overview in rate_limit_handler.get_stations():
station_mac = station_data_overview['_id']
station_timezone = timezone(station_data_overview['place']['timezone'])
logging.info(f'Timezone {station_timezone} extracted from data.')
end_datetime_timestamp = np.floor(datetime.timestamp(station_timezone.localize(args.end_datetime)))
newest_utc = df_handler.get_newest_timestamp(station_data_overview['_id'])
df_handler.append(
rate_limit_handler.get_module_df(
newest_utc,
station_name,
station_mac,
station_data_overview,
end_datetime_timestamp,
df_handler.dtype_dict,
station_timezone))
for module_data_overview in station_data_overview['modules']:
df_handler.append(
rate_limit_handler.get_module_df(
df_handler.get_newest_timestamp(module_data_overview['_id']),
station_name,
station_mac,
module_data_overview,
end_datetime_timestamp,
df_handler.dtype_dict,
station_timezone))
# Save the data after the collection
df_handler.save_to_file()
if __name__ == "__main__":
main()
================================================
FILE: setup.cfg
================================================
[metadata]
description-file = README.md
================================================
FILE: setup.py
================================================
# python setup.py --dry-run --verbose install
from distutils.core import setup
setup(
name='lnetatmo',
version='4.2.1',
classifiers=[
'Development Status :: 5 - Production/Stable',
'Intended Audience :: Developers',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3'
],
author='Philippe Larduinat',
author_email='ph.larduinat@wanadoo.fr',
py_modules=['lnetatmo'],
scripts=[],
data_files=[],
url='https://github.com/philippelt/netatmo-api-python',
download_url='https://github.com/philippelt/netatmo-api-python/archive/v4.2.1.tar.gz',
license='GPL V3',
description='Simple API to access Netatmo weather station data from any python script.'
)
================================================
FILE: usage.md
================================================
Python Netatmo API programmers guide
------------------------------------
>2013-01-21, philippelt@users.sourceforge.net
>2014-01-13, Revision to include new modules additionnal informations
>2016-06-25, Update documentation for Netatmo Welcome
>2017-01-09, Minor updates to packaging info
>2020-12-07, Breaking changes due to removal of direct access to devices, "home" being now required (Netatmo redesign)
>2023-07-12, Breaking changes due to deprecation of grant_type "password" for ALL apps
>2023-07-24, Adding rawAPI call to direct access the netatmo API when no additional support is provided by the library
>2023-12-04, New update to Netatmo authentication rules, no longer long lived refresh token -> credentials MUST be writable, Hard coding credentials in the library no longer possible (bad luck for small home automation device)
>2024-01-03, New authentication method priorities, credential file as a parameter
No additional library other than standard Python library is required.
Both Python V2.7x and V3.x.x are supported without change.
More information about the Netatmo REST API can be obtained from http://dev.netatmo.com/doc/
This package support only preauthenticated scoped tokens created along apps.
### 1 Setup your environment from Netatmo Web interface ###
Before being able to use the module you will need :
* A Netatmo user account having access to, at least, one station
* An application registered from the user account (see http://dev.netatmo.com/dev/createapp) to obtain application credentials.
* Create a couple access_token/refresh_token at the same time with your required scope (depending of your intents on library use)
In the netatmo philosophy, both the application itself and the user have to be registered thus have authentication credentials to be able to access any station. Registration is free for both.
Possible NETATMO_SCOPES ;
read_station read_smarther write_smarther read_thermostat write_thermostat read_camera write_camera read_doorbell
read_presence write_precense read_homecoach read_carbonmonoxidedetector read_smokedetector read_magellen write_magellan
read_bubendorff write_bubendorff read_mx write_mx read_mhs1 write_mhs1
### 2 Setup your authentication information ###
Copy the lnetatmo.py file in your work directory (or use pip install lnetatmo).
Authentication data can be supplied with 3 different methods (each method override any settings of previous methods) :
1. Some or all values can be defined by explicit call to initializer of ClientAuth class
̀```bash
# Example: REFRESH_TOKEN supposed to be defined by an other method
authData = lnetatmo.ClientAuth( clientId="netatmo-client-id",
clientSecret="secret" )
```
2. Some or all values can stored in ~/.netatmo.credentials (in your platform home directory) or a file path specified using the ̀`credentialFile` parameter. The file containing the keys in JSON format
̀̀```bash
$ cat .netatmo.credentials # Here all values are defined but it is not mandatory
{
"CLIENT_ID" : "`xxx",
"CLIENT_SECRET" : "xxx",
"REFRESH_TOKEN" : "xxx"
}
$
̀̀```
3. Some or all values can be overriden by environment variables. This is the easiest method if your are packaging your application with Docker.
̀̀```bash
$ export REFRESH_TOKEN="yyy"
$ python3 MyCodeUsingLnetatmo.py
̀̀```
> Due to Netatmo continuous changes, the credential file is the recommended method for production use as the refresh token will be frequently refreshed and this file MUST be writable by the library to keep a usable refresh token. You can also recover the `authorization.refreshToken` before your program termination and save it to be able to pass it back when your program restart.
If you provide all the values in a credential file, you can test that everything is working properly by simply running the package as a standalone program.
This will run a full access test to the account and stations and return 0 as return code if everything works well. If run interactively, it will also display an OK message.
```bash
$ python3 lnetatmo.py # or python2 as well
lnetatmo.py : OK
$ echo $?
0
```
Whatever is your choice for the library authentication setup, your application code if you were using previous library version, will not be affected.
### 3 Package guide ###
Most of the time, the sequence of operations will be :
1. Authenticate your program against Netatmo web server
2. Get the device list accessible to the user
3. Request data on one of these devices or directly access last data sent by the station
Example :
```python
#!/usr/bin/python3
# encoding=utf-8
import lnetatmo
# 1 : Authenticate
authorization = lnetatmo.ClientAuth()
# 2 : Get devices list
weatherData = lnetatmo.WeatherStationData(authorization)
# 3 : Access most fresh data directly
print ("Current temperature (inside/outside): %s / %s °C" %
( weatherData.lastData()['indoor']['Temperature'],
weatherData.lastData()['outdoor']['Temperature'])
)
```
In this example, no init parameters are supplied to ClientAuth, the library is supposed to have been customized with the required values (see §2). The user must have nammed the sensors indoor and outdoor through the Web interface (or any other name as long as the program is requesting the same name).
The Netatmo design is based on stations (usually the in-house module) and modules (radio sensors reporting to a station, usually an outdoor sensor).
Sensor design is not exactly the same for station and external modules and they are not addressed the same way wether in the station or an external module. This is a design issue of the API that restrict the ability to write generic code that could work for station sensor the same way than other modules sensors. The station role (the reporting device) and module role (getting environmental data) should not have been mixed. The fact that a sensor is physically built in the station should not interfere with this two distincts objects.
The consequence is that, for the API, we will use terms of station data (for the sensors inside the station) and module data (for external(s) module). Lookup methods like moduleByName look for external modules and **NOT station
modules**.
Having two roles, the station has a 'station_name' property as well as a 'module_name' for its internal sensor.
>Exception : to reflect again the API structure, the last data uploaded by the station is indexed by module_name (wether it is a station module or an external module).
Sensors (stations and modules) are managed in the API using ID's (network hardware adresses). The Netatmo web account management gives you the capability to associate names to station sensor and module (and to the station itself). This is by far more comfortable and the interface provides service to locate a station or a module by name or by Id depending of your taste. Module lookup by name includes the optional station name in case
multiple stations would have similar module names (if you monitor multiple stations/locations, it would not be a surprise that each of them would have an 'outdoor' module). This is a benefit in the sense it give you the ability to write generic code (for exemple, collect all 'outdoor' temperatures for all your stations).
The results are Python data structures, mostly dictionaries as they mirror easily the JSON returned data. All supplied classes provides simple properties to use as well as access to full data returned by the netatmo web services (rawData property for most classes).
### 4 Package classes and functions ###
#### 4-1 Global variables ####
```python
_CLIENT_ID, _CLIENT_SECRET = Application ID and secret provided by Netatmo
application registration in your user account
_REFRESH_TOKEN : Refresh token created along the app client credentials
_BASE_URL and _*_REQ : Various URL to access Netatmo web services. They are
documented in http://dev.netatmo.com/doc/ They should not be changed unless
Netatmo API changes.
```
#### 4-2 ClientAuth class ####
Constructor
```python
authorization = lnetatmo.ClientAuth( clientId = _CLIENT_ID,
clientSecret = _CLIENT_SECRET,
refreshToken = _REFRESH_TOKEN,
credentialFile = "~/.netatmo.credentials"
)
```
Requires : Application and User credentials to access Netatmo API. if all this parameters are put in global variables they are not required (in library source code or in the main program through lnetatmo._CLIENT_ID = …)
Return : an authorization object that will supply the access token required by other web services. This class will handle the renewal of the access token if expiration is reached.
Properties, all properties are read-only unless specified :
* **accessToken** : Retrieve a valid access token (renewed if necessary)
* **refreshToken** : The token used to renew the access token (normally should not be used explicitely)
* **expiration** : The expiration time (epoch) of the current token
#### 4-3 User class ####
Constructor
```python
user = lnetatmo.User( authorization )
```
Requires : an authorization object (ClientAuth instance)
Return : a User object. This object provides multiple informations on the user account such as the mail address of the user, the preferred language, …
Properties, all properties are read-only unless specified :
* **rawData** : Full dictionary of the returned JSON GETUSER Netatmo API service
* **ownerMail** : eMail address associated to the user account
* **devList** : List of Station's id accessible to the user account
In most cases, you will not need to use this class that is oriented toward an application that would use the other authentication method to an unknown user and then get information about him.
#### 4-4 WeatherStationData class ####
Constructor
```python
weatherData = lnetatmo.WeatherStationData( authorization, home=None, station=None )
```
* Input : an authorization object (ClientAuth instance), an optional home name, an optional station name or id
Return : a WeatherStationData object. This object contains most administration properties of stations and modules accessible to the user and the last data pushed by the station to the Netatmo servers.
Raise a lnetatmo.NoDevice exception if no weather station is available for the given account.
If no home is specified, the first returned home will be set as default home. Same apply to station.
If you have only one home and one station, you can safely ignore these new parameters. Note that return order is undefined. If you have multiple homes and a weather station in only one, the default home may be the one without station and the call will fail.
>**Breaking change:**
If you used the station name in the past in any method call, you should be aware that Netatmo decided to rename your station with their own value thus your existing code will have to be updated.
Properties, all properties are read-only unless specified:
* **rawData** : Full dictionary of the returned JSON DEVICELIST Netatmo API service
* **default_station** : Name of the first station returned by the web service (warning, this is mainly for the ease of use of peoples having only 1 station).
* **stations** : Dictionary of stations (indexed by ID) accessible to this user account
* **modules** : Dictionary of modules (indexed by ID) accessible to the user account (whatever station there are plugged in)
Methods :
* **getStation** (station=None) : Find a station by it's station name or station ID
* Input : Station name or ID to lookup (str)
* Output : station dictionary or None
* **stationByName** (station=None) : Find a station by it's station name
* Input : Station name to lookup (str)
* Output : station dictionary or None
* **stationById** (sid) : Find a station by it's Netatmo ID (mac address)
* Input : Station ID
* Output : station dictionary or None
* **moduleByName** (module, station=None) : Find a module by it's module name
* Input : module name and optional station name
* Output : module dictionary or None
The station name parameter, if provided, is used to check wether the module belongs to the appropriate station (in case multiple stations would have same module name).
* **moduleById** (mid, sid=None) : Find a module by it's ID and belonging station's ID
* Input : module ID and optional Station ID
* Output : module dictionary or None
* **modulesNamesList** (station=None) : Get the list of modules names, including the station module name. Each of them should have a corrsponding entry in lastData. It is an equivalent (at lower cost) for lastData.keys()
* **lastData** (station=None, exclude=0) : Get the last data uploaded by the station, exclude sensors with measurement older than given value (default return all)
* Input : station name OR id. If not provided default_station is used. Exclude is the delay in seconds from now to filter sensor readings.
* Output : Sensors data dictionary (Key is sensor name)
AT the time of this document, Available measures types are :
* a full or subset of Temperature, Pressure, Noise, Co2, Humidity, Rain (mm of precipitation during the last 5 minutes, or since the previous data upload), When (measurement timestamp) for modules including station module
* battery_vp : likely to be total battery voltage for external sensors (running on batteries) in mV (undocumented)
* rf_status : likely to be the % of radio signal between the station and a module (undocumented)
See Netatmo API documentation for units of regular measurements
If you named the internal sensor 'indoor' and the outdoor one 'outdoor' (simple is'n it ?) for your station in the user Web account station properties, you will access the data by :
```python
# Last data access example
theData = weatherData.lastData()
print('Available modules : ', theData.keys() )
print('In-house CO2 level : ', theData['indoor']['Co2'] )
print('Outside temperature : ', theData['outdoor']['Temperature'] )
print('External module battery : ', "OK" if int(theData['outdoor']['battery_vp']) > 5000 \
else "NEEDS TO BE REPLACED" )
```
* **checkNotUpdated** (station=None, delay=3600) :
* Input : optional station name (else default_station is used)
* Output : list of modules name for which last data update is older than specified delay (default 1 hour). If the station itself is lost, the module_name of the station will be returned (the key item of lastData information).
For example (following the previous one)
```python
# Ensure data sanity
for m in weatherData.checkNotUpdated("<optional station name>"):
print("Warning, sensor %s information is obsolete" % m)
if moduleByName(m) == None : # Sensor is not an external module
print("The station is lost")
```
* **checkUpdated** (station=None, delay=3600) :
* Input : optional station name (else default_station is used)
* Output : list of modules name for which last data update is newer than specified delay (default 1 hour).
Complement of the previous service
* **getMeasure** (device_id, scale, mtype, module_id=None, date_begin=None, date_end=None, limit=None, optimize=False) :
* Input : All parameters specified in the Netatmo API service GETMEASURE (type being a python reserved word as been replaced by mtype).
* Output : A python dictionary reflecting the full service response. No transformation is applied.
* **MinMaxTH** (station=None, module=None, frame="last24") : Return min and max temperature and humidity for the given station/module in the given timeframe
* Input :
* An optional station Name or ID, default_station is used if not supplied,
* An optional module name or ID, default : station sensor data is used
* A time frame that can be :
* "last24" : For a shifting window of the last 24 hours
* "day" : For all available data in the current day
* Output :
* A 4 values tuple (Temp mini, Temp maxi, Humid mini, Humid maxi)
>Note : I have been oblliged to determine the min and max manually, the built-in service in the API doesn't always provide the actual min and max. The double parameter (scale) and aggregation request (min, max) is not satisfying
at all if you slip over two days as required in a shifting 24 hours window.
#### 4-5 HomeData class ####
Constructor
```python
homeData = lnetatmo.HomeData( authorization )
```
Requires : an authorization object (ClientAuth instance)
Return : a homeData object. This object contains most administration properties of home security products and notably Welcome & Presence cameras.
Note : the is_local property of camera is most of the time unusable if your IP changes, use cameraUrls to try to get a local IP as a replacement.
Properties, all properties are read-only unless specified:
* **rawData** : Full dictionary of the returned JSON DEVICELIST Netatmo API service
* **default_home** : Name of the first home returned by the web service (warning, this is mainly for the ease of use of peoples having cameras in only 1 house).
* **default_camera** : Data of the first camera in the default home returned by the web service (warning, this is mainly for the ease of use of peoples having only 1 camera).
* **homes** : Dictionary of homes (indexed by ID) accessible to this user account
* **cameras** : Dictionnary of cameras (indexed by home name and cameraID) accessible to this user
* **persons** : Dictionary of persons (indexed by ID) accessible to the user account
* **events** : Dictionary of events (indexed by cameraID and timestamp) seen by cameras
Methods :
* **homeById** (hid) : Find a home by its Netatmo ID
* Input : Home ID
* Output : home dictionary or None
* **homeByName** (home=None) : Find a home by it's home name
* Input : home name to lookup (str)
* Output : home dictionary or None
* **cameraById** (hid) : Find a camera by its Netatmo ID
* Input : camera ID
* Output : camera dictionary or None
* **cameraByName** (camera=None, home=None) : Find a camera by it's camera name
* Input : camera name and home name to lookup (str)
* Output : camera dictionary or None
* **cameraUrls** (camera=None, home=None, cid=None) : return Urls to access camera live feed
* Input : camera name and optional home name or cameraID to lookup (str)
* Output : tuple with the vpn_url (for remote access) and local url to access the camera (commands)
* **url** (camera=None, home=None, cid=None) : return the best url to access camera live feed
* Input : camera name and optional home name or cameraID to lookup (str)
* Output : the local url if available to reduce internet bandwith usage else the vpn url
* **personsAtHome** (home=None) : return the list of known persons who are at home
* Input : home name to lookup (str)
* Output : list of persons seen
* **getCameraPicture** (image_id, key): Download a specific image (of an event or user face) from the camera
* Input : image_id and key of an events or person face
* Output: Tuple with image data (to be stored in a file) and image type (jpg, png...)
* **getProfileImage** (name) : Retreive the face of a given person
* Input : person name (str)
* Output: **getCameraPicture** data
* **updateEvent** (event=None, home=None): Update the list of events
* Input: Id of the latest event and home name to update event list
* **personSeenByCamera** (name, home=None, camera=None): Return true is a specific person has been seen by the camera in the last event
* **someoneKnownSeen** (home=None, camera=None) : Return true is a known person has been in the last event
* **someoneUnknownSeen** (home=None, camera=None) : Return true is an unknown person has been seen in the last event
* **motionDetected** (home=None, camera=None) : Return true is a movement has been detected in the last event
* **presenceLight** (camera=None, home=None, cid=None, setting=None) : return or set the Presence camera lighting mode
* Input : camera name and optional home name or cameraID to lookup (str), setting must be None|auto|on|off. *currently not supported*
* Output : setting requested if supplied else current camera setting
* **presenceStatus** (mode, camera=None, home=None, cid=None) : set the camera on or off (current status in camera properties)
* Input : mode (on|off) (str), camera name and optional home name or cameraID to lookup (str)
* Output : requested mode if changed else None
* **getLiveSnapshot** (camera=None, home=None, cid=None) : Get a jpeg of current live view of the camera
* Input : camera name and optional home name or cameraID to lookup (str)
* Output : jpeg binary content
```
homedata = lnetatmo.HomeData(authorization)
for k, v in homedata.homes.items():
homeid = k
S = v.get('smokedetectors')
C = v.get('cameras')
P = v.get('persons')
E = v.get('events')
if S or C or P or E:
print ('devices in HomeData')
for smokedetector in homedata.homes[homeid].get('smokedetectors'):
print (smokedetector['name'])
for camera in homedata.homes[homeid].get('cameras'):
print (camera['name'])
for persons in homedata.homes[homeid].get('persons'):
print (persons['name'])
for events in homedata.homes[homeid].get('events'):
print (events['name'])
return homeid
else:
homeid = k
return homeid
```
#### 4-6 HomeStatus class ####
Constructor
```
homeStatus = lnetatmo.HomeStatus( authorization, home_id )
```
Requires :
- an authorization object (ClientAuth instance)
- home_id which can be found in https://dev.netatmo.com/apidocumentation/control by using "class homedata"
Return : a homeStatus object. This object contains most administration properties of Home+ Control devices such as Smarther thermostat, Socket, Cable Output, Centralized fan, Micromodules, ...
Methods :
* **getRoomsId** : return all room ID
* Output : list of IDs of every single room (only the one with Smarther thermostat)
* **getListRoomParam** : return every parameters of a room
* Input : room ID
* Output : list of parameters of a room
* **getRoomParam** : return a specific parameter for a specific room
* Input : room ID and parameter
* Output : value
* **getModulesId** : return all module IDs
* Output : list of IDs of every single module (socket, cable outlet, ...)
* **getListModuleParam** : return every parameters of a module
* Input : module ID
* Output : list of parameters of a module
* **getModuleParam** : return a specific parameter for a specific module
* Input : module ID and parameter
* Output : value
```
homestatus = lnetatmo.HomeStatus(authorization, homeid)
print ('Rooms in Homestatus')
for r in homestatus.rooms:
print (r)
print ('Persons in Homestatus')
if 'persons' in homestatus.rawData.keys():
for pp in homestatus.rawData['persons']:
print (pp)
print ('Modules in Homestatus')
for m in homestatus.modules:
for kt, vt in m.items():
if kt == 'type':
print (m['type'])
print (m['id'])
print (lnetatmo.TYPES[vt])
print (m.keys())
```
#### 4-7 ThermostatData class ####
Constructor
```
device = lnetatmo.ThermostatData ( authorization, home_id )
```
Requires :
- an authorization object (ClientAuth instance)
- home_id which can be found in https://dev.netatmo.com/apidocumentation/control by using "class homedata"
Return : a device object. This object contains the Relay_Plug with Thermostat and temperature modules.
Methods :
* **rawData** : Full dictionary of the returned JSON DEVICELIST Netatmo API service
* Output : list of IDs of every relay_plug
* **Relay_Plug** :
* Output : Dictionairy of First Relay object
* **Thermostat_Data** :
* Output : Dictionairy of Thermostat object in First Relay[Modules].
Example :
```
device = lnetatmo.ThermostatData(authorization, homeid)
for i in device.rawData:
print ('rawData')
print (i['_id'])
print (i['station_name'])
print (dir(i))
print ('modules in rawData')
print (i['modules'][0]['_id'])
print (i['modules'][0]['module_name'])
print (' ')
print ('Relay Data')
Relay = device.Relay_Plug()
print (Relay.keys())
print ('Thermostat Data')
TH = device.Thermostat_Data()
print (TH.keys())
```
#### 4-8 HomesData class ####
Constructor
```python
homesData = lnetatmo.HomesData ( authorization, home_id )
```
Requires :
- an authorization object (ClientAuth instance)
- home_id which can be found in https://dev.netatmo.com/apidocumentation/control by using "class homedata"
Return : a homesdata object. This object contains the Netatmo actual topology and static information of
all devices present into a user account. It is also possible to specify a home_id to focus on one home.
Methods :
* **rawData** : Full dictionary of the returned JSON DEVICELIST Netatmo API service
* Output : list of IDs of every devices
Example :
```
homesData = lnetatmo.HomesData ( authorization, home_id )
print (homesdata.Homes_Data['name'])
print (homesdata.Homes_Data['altitude'])
print (homesdata.Homes_Data['coordinates'])
print (homesdata.Homes_Data['country'])
print (homesdata.Homes_Data['timezone'])
print ('rooms in HomesData')
for r in homesdata.Homes_Data.get('rooms'):
print (r)
print ('Devices in HomesData')
for m in homesdata.Homes_Data.get('modules'):
print (m)
print ('Persons in HomesData')
if 'persons' in homesdata.Homes_Data.keys():
for P in homesdata.Homes_Data.get('persons'):
print (P)
print ('Schedules in HomesData')
print (homesdata.Homes_Data['schedules'][0].keys())
```
#### 4-9 Homecoach class ####
Constructor
```python
homecoach = lnetatmo.HomeCoach(authorization, home_id )
```
Requires :
- an authorization object (ClientAuth instance)
- home_id which can be found in https://dev.netatmo.com/apidocumentation/control by using "class homedata"
Return : a homecoach object. This object contains all Homecoach Data.
Methods :
* **rawData** : Full dictionary of the returned JSON DEVICELIST Netatmo API service
* Output : list of all Homecoach in user account
* **checkNotUpdated** :
* Output : list of modules name for which last data update is older than specified delay (default 1 hour).
* **checkUpdated** :
* Output : list of modules name for which last data update is newer than specified delay (default 1 hour).
Example :
```
homecoach = lnetatmo.HomeCoach(authorization, homeid)
#
Not_updated = []
updated = []
d = {}
for device in homecoach.rawData:
_id = device['_id']
d.update({'When': device['dashboard_data']['time_utc']})
a = homecoach.checkNotUpdated(d, _id)
b = homecoach.checkUpdated(d, _id)
print (device['station_name'])
print (device['date_setup'])
print (device['last_setup'])
print (device['type'])
print (device['last_status_store'])
print (device['firmware'])
print (device['last_upgrade'])
print (device['wifi_status'])
print (device['reachable'])
print (device['co2_calibrating'])
print (device['data_type'])
print (device['place'])
print (device['dashboard_data'])
Not_updated.append(a)
updated.append(b)
D = homecoach.HomecoachDevice['dashboard_data']
print (D.keys())
# dict_keys(['time_utc', 'Temperature', 'CO2', 'Humidity', 'Noise', 'Pressure', 'AbsolutePressure', 'health_idx', 'min_temp', 'max_temp', 'date_max_temp', 'date_min_temp'])
print (Not_updated)
print (updated)
```
#### 4-10 Utilities functions ####
* **rawAPI** (authentication, APIkeyword, parameters) : Direct call an APIkeyword from Netatmo and return a dictionary with the raw response the APIkeywork is the path without the / before as specified in the documentation (eg. "gethomesdata" or "homestatus")
* **toTimeString** (timestamp) : Convert a Netatmo time stamp to a readable date/time format.
* **toEpoch**( dateString) : Convert a date string (form YYYY-MM-DD_HH:MM:SS) to timestamp
* **todayStamps**() : Return a couple of epoch time (start, end) for the current day
#### 4-11 All-in-One function ####
If you just need the current temperature and humidity reported by a sensor with associated min and max values on the last 24 hours, you can get it all with only one call that handle all required steps including authentication :
**getStationMinMaxTH**(station=None, module=None, home=None) :
* Input : optional station name and/or module name (if no station name is provided, default_station will be used, if no module name is provided, station sensor will be reported).
if no home is specified, first returned home will be used
* Output : A tuple of 6 values (Temperature, Humidity, minT, MaxT, minH, maxH)
```python
>>> import lnetatmo
>>> print(lnetatmo.getStationMinMaxTH())
[20, 33, 18.1, 20, 30, 34]
>>>
>>> print(lnetatmo.getStationMinMaxTH(module='outdoor'))
[2, 53, 1.2, 5.4, 51, 74]
gitextract_rkwnjby9/ ├── .github/ │ └── workflows/ │ └── lint_python.yml ├── .gitignore ├── .netatmo.credentials ├── LICENSE.txt ├── README.md ├── lnetatmo.py ├── samples/ │ ├── get_direct_camera_snapshot │ ├── graphLast3Days │ ├── printAllLastData.py │ ├── printThermostat.py │ ├── rawAPIsample.py │ ├── simpleLastData.py │ ├── smsAlarm.py │ ├── weather2file.md │ └── weather2file.py ├── setup.cfg ├── setup.py └── usage.md
SYMBOL INDEX (145 symbols across 2 files)
FILE: lnetatmo.py
class NoDevice (line 214) | class NoDevice( Exception ):
class NoHome (line 218) | class NoHome( Exception ):
class AuthFailure (line 222) | class AuthFailure( Exception ):
class OutOfScope (line 225) | class OutOfScope( Exception ):
class ClientAuth (line 228) | class ClientAuth:
method __init__ (line 238) | def __init__(self, clientId=None,
method accessToken (line 267) | def accessToken(self):
method renew_token (line 271) | def renew_token(self):
class User (line 291) | class User:
method __init__ (line 300) | def __init__(self, authData):
class UserInfo (line 310) | class UserInfo:
class HomeStatus (line 317) | class HomeStatus:
method __init__ (line 325) | def __init__(self, authData, home_id):
method getRoomsId (line 339) | def getRoomsId(self):
method getListRoomParam (line 342) | def getListRoomParam(self, room_id):
method getRoomParam (line 348) | def getRoomParam(self, room_id, param):
method getModulesId (line 354) | def getModulesId(self):
method getListModuleParam (line 357) | def getListModuleParam(self, module_id):
method getModuleParam (line 363) | def getModuleParam(self, module_id, param):
class ThermostatData (line 370) | class ThermostatData:
method __init__ (line 378) | def __init__(self, authData, home=None):
method Relay_Plug (line 407) | def Relay_Plug(self, Rid=""):
method Thermostat_Data (line 417) | def Thermostat_Data(self, tid=""):
method getThermostat (line 428) | def getThermostat(self, name=None, id=""):
method moduleNamesList (line 447) | def moduleNamesList(self, name=None, tid=None):
method getModuleByName (line 462) | def getModuleByName(self, name, tid=""):
class WeatherStationData (line 474) | class WeatherStationData:
method __init__ (line 481) | def __init__(self, authData, home=None, station=None):
method modulesNamesList (line 523) | def modulesNamesList(self, station=None):
method getStation (line 540) | def getStation(self, station=None):
method getModule (line 546) | def getModule(self, module):
method stationByName (line 553) | def stationByName(self, station=None):
method stationById (line 555) | def stationById(self, sid):
method moduleByName (line 557) | def moduleByName(self, module):
method moduleById (line 559) | def moduleById(self, mid):
method lastData (line 562) | def lastData(self, station=None, exclude=0):
method checkNotUpdated (line 589) | def checkNotUpdated(self, delay=3600):
method checkUpdated (line 596) | def checkUpdated(self, delay=3600):
method getMeasure (line 603) | def getMeasure(self, device_id, scale, mtype, module_id=None, date_beg...
method MinMaxTH (line 616) | def MinMaxTH(self, module=None, frame="last24"):
class DeviceList (line 648) | class DeviceList(WeatherStationData):
class HomeData (line 656) | class HomeData:
method __init__ (line 664) | def __init__(self, authData, home=None):
method homeById (line 735) | def homeById(self, hid):
method homeByName (line 738) | def homeByName(self, home=None):
method cameraById (line 744) | def cameraById(self, cid):
method cameraByName (line 750) | def cameraByName(self, camera=None, home=None):
method cameraUrls (line 768) | def cameraUrls(self, camera=None, home=None, cid=None):
method url (line 793) | def url(self, camera=None, home=None, cid=None):
method personsAtHome (line 798) | def personsAtHome(self, home=None):
method getCameraPicture (line 812) | def getCameraPicture(self, image_id, key):
method getProfileImage (line 824) | def getProfileImage(self, name):
method updateEvent (line 836) | def updateEvent(self, event=None, home=None):
method personSeenByCamera (line 861) | def personSeenByCamera(self, name, home=None, camera=None):
method _knownPersons (line 878) | def _knownPersons(self):
method someoneKnownSeen (line 885) | def someoneKnownSeen(self, home=None, camera=None):
method someoneUnknownSeen (line 900) | def someoneUnknownSeen(self, home=None, camera=None):
method motionDetected (line 915) | def motionDetected(self, home=None, camera=None):
method presenceUrl (line 928) | def presenceUrl(self, camera=None, home=None, cid=None):
method presenceLight (line 934) | def presenceLight(self, camera=None, home=None, cid=None, setting=None):
method presenceStatus (line 943) | def presenceStatus(self, mode, camera=None, home=None, cid=None):
method presenceSetAction (line 949) | def presenceSetAction(self, camera=None, home=None, cid=None,
method getLiveSnapshot (line 962) | def getLiveSnapshot(self, camera=None, home=None, cid=None):
class WelcomeData (line 969) | class WelcomeData(HomeData):
class HomesData (line 978) | class HomesData:
method __init__ (line 987) | def __init__(self, authData, home=None):
class HomeCoach (line 1012) | class HomeCoach:
method __init__ (line 1021) | def __init__(self, authData):
method HomecoachDevice (line 1037) | def HomecoachDevice(self, hid=""):
method Dashboard (line 1043) | def Dashboard(self, hid=""):
method lastData (line 1050) | def lastData(self, hid=None, exclude=0):
method checkNotUpdated (line 1062) | def checkNotUpdated(self, res, hid, delay=3600):
method checkUpdated (line 1067) | def checkUpdated(self, res, hid, delay=3600):
function rawAPI (line 1075) | def rawAPI(authData, url, parameters=None):
function filter_home_data (line 1082) | def filter_home_data(rawData, home):
function cameraCommand (line 1092) | def cameraCommand(cameraUrl, commande, parameters=None, timeout=3):
function processErrorResp (line 1096) | def processErrorResp(resp):
function postRequest (line 1103) | def postRequest(topic, url, params=None, timeout=10):
function toTimeString (line 1137) | def toTimeString(value):
function toEpoch (line 1140) | def toEpoch(value):
function todayStamps (line 1143) | def todayStamps():
function getStationMinMaxTH (line 1150) | def getStationMinMaxTH(station=None, module=None, home=None):
FILE: samples/weather2file.py
function valid_datetime_type (line 32) | def valid_datetime_type(arg_datetime_str):
function valid_hour_limit (line 39) | def valid_hour_limit(hour_limit):
function valid_ten_seconds_limit (line 51) | def valid_ten_seconds_limit(ten_sec_limit):
function userexpanded_path_str (line 71) | def userexpanded_path_str(path_str):
class DataFrameHandler (line 75) | class DataFrameHandler:
method __init__ (line 76) | def __init__(self, file_name, output_path, file_format, kwargs={}):
method _set_df (line 114) | def _set_df(self):
method _get_complete_file_name (line 129) | def _get_complete_file_name(self):
method _read_file (line 132) | def _read_file(self, file_path):
method _write_file (line 135) | def _write_file(self, file_path):
method save_to_file (line 138) | def save_to_file(self):
method append (line 149) | def append(self, df):
method get_newest_timestamp (line 152) | def get_newest_timestamp(self,module_mac):
method _remove_timezone (line 162) | def _remove_timezone(self):
class PickleHandler (line 167) | class PickleHandler(DataFrameHandler):
method __init__ (line 168) | def __init__(self, file_name, output_path):
method _read_file (line 171) | def _read_file(self, file_path):
method _write_file (line 174) | def _write_file(self, file_path):
class JSONHandler (line 180) | class JSONHandler(DataFrameHandler):
method __init__ (line 181) | def __init__(self, file_name, output_path):
method _read_file (line 186) | def _read_file(self, file_path):
method _write_file (line 189) | def _write_file(self, file_path):
class CSVHandler (line 196) | class CSVHandler(DataFrameHandler):
method __init__ (line 197) | def __init__(self, file_name, output_path):
method _read_file (line 200) | def _read_file(self, file_path):
method _write_file (line 203) | def _write_file(self, file_path):
class HDFHandler (line 207) | class HDFHandler(DataFrameHandler):
method __init__ (line 208) | def __init__(self, file_name, output_path):
method _read_file (line 213) | def _read_file(self, file_path):
method _write_file (line 216) | def _write_file(self, file_path):
class ParquetHandler (line 221) | class ParquetHandler(DataFrameHandler):
method __init__ (line 222) | def __init__(self, file_name, output_path):
method _read_file (line 226) | def _read_file(self, file_path):
method _write_file (line 229) | def _write_file(self, file_path):
class SQLHandler (line 233) | class SQLHandler(DataFrameHandler):
method __init__ (line 234) | def __init__(self, file_name, output_path):
method _read_file (line 241) | def _read_file(self, file_path):
method _write_file (line 244) | def _write_file(self, file_path):
class FeatherHandler (line 249) | class FeatherHandler(DataFrameHandler):
method __init__ (line 250) | def __init__(self, file_name, output_path):
method _read_file (line 254) | def _read_file(self, file_path):
method _write_file (line 257) | def _write_file(self, file_path):
class ExcelHandler (line 262) | class ExcelHandler(DataFrameHandler):
method __init__ (line 263) | def __init__(self, file_name, output_path):
method _read_file (line 266) | def _read_file(self, file_path):
method _write_file (line 269) | def _write_file(self, file_path):
class RateLimitHandler (line 289) | class RateLimitHandler:
method __init__ (line 290) | def __init__(self,
method _get_masked_series (line 321) | def _get_masked_series(self, time_d):
method _log_request (line 324) | def _log_request(self):
method _set_authorization (line 327) | def _set_authorization(self):
method _set_weather_data (line 333) | def _set_weather_data(self):
method _sleep (line 338) | def _sleep(self, until_time):
method _check_rate_limit_and_wait (line 352) | def _check_rate_limit_and_wait(self):
method _get_measurement (line 372) | def _get_measurement(self, input_dict):
method get_stations (line 386) | def get_stations(self):
method _get_field_dict (line 391) | def _get_field_dict(self, station_id,module_id,data_type,start_date,en...
method _get_date_from_timestamp (line 401) | def _get_date_from_timestamp(self, ts, tz=None):
method _get_timestamp_from_date (line 404) | def _get_timestamp_from_date(self, d, tz=None):
method _get_common_elements (line 410) | def _get_common_elements(self, keys, column_names):
method _to_dataframe (line 414) | def _to_dataframe(self, module_data_body, module_data, station_name, s...
method get_module_df (line 435) | def get_module_df(self, newest_utctime, station_name, station_mac, mod...
function main (line 514) | def main():
Condensed preview — 18 files, each showing path, character count, and a content snippet. Download the .json file or copy for the full structured content (166K chars).
[
{
"path": ".github/workflows/lint_python.yml",
"chars": 645,
"preview": "name: lint_python\non: [pull_request, push]\njobs:\n lint_python:\n runs-on: ubuntu-latest\n steps:\n - uses: acti"
},
{
"path": ".gitignore",
"chars": 120,
"preview": "\nbuild/\n\ndist/\n\nlnetatmo.egg-info/\n\n*.pyc\n\n__pycache__/\n\nMANIFEST*\n\n*.csv\n*.h5\n*.feather\n*.json\n*.parquet\n*.pkl\n*.xlsx\n\n"
},
{
"path": ".netatmo.credentials",
"chars": 78,
"preview": "{\n \"CLIENT_ID\" : \"\",\n \"CLIENT_SECRET\" : \"\",\n \"REFRESH_TOKEN\" : \"\"\n}\n\n"
},
{
"path": "LICENSE.txt",
"chars": 35147,
"preview": " GNU GENERAL PUBLIC LICENSE\n Version 3, 29 June 2007\n\n Copyright (C) 2007 Free "
},
{
"path": "README.md",
"chars": 2499,
"preview": "netatmo-api-python\n==================\n\nSimple API to access Netatmo weather station data from any python script\nFor more"
},
{
"path": "lnetatmo.py",
"chars": 52867,
"preview": "# Published Jan 2013\n# Author : Philippe Larduinat, ph.larduinat@wanadoo.fr\n# Multiple contributors : see https://github"
},
{
"path": "samples/get_direct_camera_snapshot",
"chars": 1156,
"preview": "#!/usr/bin/python3\n\n# Locate the camera name \"MyCam\" IP on the local LAN\n# to collect a snapshot of what the camera sees"
},
{
"path": "samples/graphLast3Days",
"chars": 2728,
"preview": "#!/usr/bin/python\n# coding=utf-8\n\n# 2013-01 : philippelt@users.sourceforge.net \n\n# This is an example of graphing Temper"
},
{
"path": "samples/printAllLastData.py",
"chars": 2556,
"preview": "#!/usr/bin/python3\n# encoding=utf-8\n\n# 2014-01 : philippelt@users.sourceforge.net \n\n# Just connect to a Netatmo account,"
},
{
"path": "samples/printThermostat.py",
"chars": 897,
"preview": "#!/usr/bin/python3\n# encoding=utf-8\n\n# 2018-02 : ph.larduinat@wanadoo.fr\n\n# Thermostat basic sample\n\nimport sys\nimport l"
},
{
"path": "samples/rawAPIsample.py",
"chars": 739,
"preview": "#!/usr/bin/python3\n\n# 2023-07 : ph.larduinat@wanadoo.fr\n# Library 3.2.0\n\n# Direct call of Netatmo API with authenticatio"
},
{
"path": "samples/simpleLastData.py",
"chars": 633,
"preview": "#!/usr/bin/python3\n# encoding=utf-8\n\n# 2013-01 : philippelt@users.sourceforge.net \n\n# Just connect to a Netatmo account,"
},
{
"path": "samples/smsAlarm.py",
"chars": 2114,
"preview": "#!/usr/bin/python3\n# encoding=utf-8\n\n# 2013-01 : philippelt@users.sourceforge.net \n\n# Simple example run in a cron job ("
},
{
"path": "samples/weather2file.md",
"chars": 4232,
"preview": "# weather2file\nThe script [weather2file](https://github.com/philippelt/netatmo-api-python/blob/master/samples/weather2fi"
},
{
"path": "samples/weather2file.py",
"chars": 22686,
"preview": "#!/usr/bin/env python3\n\n# Copyright (c) 2020 Joel Berglund <joebe975@protonmail.com>\n#\n# This program is free software; "
},
{
"path": "setup.cfg",
"chars": 41,
"preview": "[metadata]\ndescription-file = README.md\n\n"
},
{
"path": "setup.py",
"chars": 760,
"preview": "# python setup.py --dry-run --verbose install\n\nfrom distutils.core import setup\n\nsetup(\n name='lnetatmo',\n version"
},
{
"path": "usage.md",
"chars": 29961,
"preview": "Python Netatmo API programmers guide\n------------------------------------\n\n\n\n>2013-01-21, philippelt@users.sourceforge.n"
}
]
About this extraction
This page contains the full source code of the philippelt/netatmo-api-python GitHub repository, extracted and formatted as plain text for AI agents and large language models (LLMs). The extraction includes 18 files (156.1 KB), approximately 36.9k tokens, and a symbol index with 145 extracted functions, classes, methods, constants, and types. Use this with OpenClaw, Claude, ChatGPT, Cursor, Windsurf, or any other AI tool that accepts text input. You can copy the full output to your clipboard or download it as a .txt file.
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