This library implements access to Viessmann devices by using the official API from the Viessmann Developer Portal.
- The circuit, burner (Gaz) and compressor (Heat Pump) is now separted. Accessing the properties of the burner/compressor is moved from
device.curcuits
todevice.burners
anddevice.compressor
.
- The API to access your device changed to a general
PyViCare
class. Use this class to load all available devices. - The API to access the heating circuit of the device has moved to the
Device
class. You can now access and iterate over all available circuits viadevice.curcuits
. This allows to easily see which properties are depending on the circuit.
See the example below for how you can use that.
- The versions prior to 1.x used an inofficial API which stopped working on July, 15th 2021. All users need to migrate to version 1.0.0 to continue using the API.
- Exception is raised if the library runs into a API rate limit. (See feature flag
raise_exception_on_rate_limit
) - Exception is raised if an unsupported device feature is used. (See feature flag
raise_exception_on_not_supported_device_feature
) - Python 3.4 is no longer supported.
- Python 3.9 is now supported.
We need help testing and improving PyViCare, since the maintainers only have specific types of heating systems. For bugs, questions or feature requests join the PyViCare channel on Discord or create an issue in this repository.
Depending on the device, some features are not available/supported. This results in a raising of a PyViCareNotSupportedFeatureError
if the dedicated method is called. This is most likely not a bug, but a limitation of the device itself.
Tip: You can use Pythons contextlib.suppress to handle it gracefully.
- Use
asGazBoiler
for gas heatings - Use
asHeatPump
for heat pumps - Use
asFuelCell
for fuel cells - Use
asPelletsBoiler
for pellets heatings - Use
asOilBoiler
for oil heatings - Use
asHybridDevice
for gas/heat pump hybrid heatings
import sys
import logging
from PyViCare.PyViCare import PyViCare
client_id = "INSERT CLIENT ID"
email = "email@domain"
password = "password"
vicare = PyViCare()
vicare.initWithCredentials(email, password, client_id, "token.save")
device = vicare.devices[0]
print(device.getModel())
print("Online" if device.isOnline() else "Offline")
t = device.asAutoDetectDevice()
print(t.getDomesticHotWaterConfiguredTemperature())
print(t.getDomesticHotWaterStorageTemperature())
print(t.getOutsideTemperature())
print(t.getRoomTemperature())
print(t.getBoilerTemperature())
print(t.setDomesticHotWaterTemperature(59))
circuit = t.circuits[0] #select heating circuit
print(circuit.getSupplyTemperature())
print(circuit.getHeatingCurveShift())
print(circuit.getHeatingCurveSlope())
print(circuit.getActiveProgram())
print(circuit.getPrograms())
print(circuit.getCurrentDesiredTemperature())
print(circuit.getDesiredTemperatureForProgram("comfort"))
print(circuit.getActiveMode())
print(circuit.getDesiredTemperatureForProgram("comfort"))
print(circuit.setProgramTemperature("comfort",21))
print(circuit.activateProgram("comfort"))
print(circuit.deactivateComfort())
burner = t.burners[0] #select burner
print(burner.getActive())
compressor = t.compressors[0] #select compressor
print(compressor.getActive())
Follow these steps to access the API in Postman:
-
Create an access token in the
Authorization
tab with typeOAuth 2.0
and following inputs:- Token Name:
PyViCare
- Grant Type:
Authorization Code (With PKCE)
- Callback URL:
vicare://oauth-callback/everest
- Authorize using browser: Disabled
- Auth URL:
https://iam.viessmann.com/idp/v2/authorize
- Access Token URL:
https://iam.viessmann.com/idp/v2/token
- Client ID: Your personal Client ID created in the developer portal.
- Client Secret: Blank
- Code Challenge Method:
SHA-256
- Code Veriefier: Blank
- Scope:
IoT User
- State: Blank
- Client Authentication:
Send client credentials in body
.
A login popup will open. Enter your ViCare username and password.
- Token Name:
-
Use this URL to access your
installationId
andgatewaySerial
:https://api.viessmann.com/iot/v1/equipment/installations?includeGateways=true
installationId
isdata[0].id
gatewaySerial
isdata[0].gateways[0].serial
-
Use above data to replace
{installationId}
and{gatewaySerial}
in this URL to investigate the Viessmann API:https://api.viessmann.com/iot/v1/equipment/installations/{installationId}/gateways/{gatewaySerial}/devices/0/features
To use PyViCare 1.x, every user has to register and create their private API key. Follow these steps to create your API key:
- Login to the Viessmann Developer Portal with your existing ViCare username from the ViCare app.
- In the menu navigate to
API Keys
. - Create a new OAuth client using following data:
- Name: PyViCare
- Google reCAPTCHA: Disabled
- Redirect URIs:
vicare://oauth-callback/everest
- Copy the
Client ID
to use in your code. Pass it as constructor parameter to the device.
Please not that not all previous properties are available in the new API. Missing properties were removed and might be added later if they are available again.
Due to latest changes in the Viessmann API rate limits can be hit. In that case a PyViCareRateLimitError
is raised. You can read from the error (limitResetDate
) when the rate limit is reset.
In order to help ensuring making it easier to create more test cases you can run this code and make a pull request with the new test of your device type added. Your test shoudl be commited into tests/response and named .
The code to run to make this happen is below. This automatically removes "sensitive" information like installation id and serial numbers.
You can either replace default values or use the PYVICARE_*
environment variables.
import sys
import os
from PyViCare.PyViCare import PyViCare
client_id = os.getenv("PYVICARE_CLIENT_ID", "INSERT CLIENT_ID")
email = os.getenv("PYVICARE_EMAIL", "email@domain")
password = os.getenv("PYVICARE_PASSWORD", "password")
vicare = PyViCare()
vicare.initWithCredentials(email, password, client_id, "token.save")
with open(f"dump.json", mode='w') as output:
output.write(vicare.devices[0].dump_secure())