The Comwatt Python Client is a Python library that provides a convenient way to interact with the Comwatt API. It allows you to authenticate users, retrieve authenticated user information, and access site and device data.
Please note that the Comwatt client is exclusively for gen4 devices: it use energy.comwatt.com/api. Versions below gen4 will not be compatible. If you're looking for the go.comwatt.com/api go to python-comwatt-client-legacy.
The client currently supports the following methods:
authenticate(self, username, password): Authenticates a user with the provided username and password. The client re-authenticates automatically on session expiry (HTTP 401) and retries the request once; passComwattClient(auto_reauth=False)to disable this.is_authenticated(self): Returns whether the current session is still valid (probes the API;True/False, re-raises unexpected errors).logout(self): Logs the current session out server-side (POST /v1/logout) and clears the stored credentials soauto_reauthcannot silently restore the session. Idempotent (a 401 when already logged out is a no-op). Note this is distinct fromclose(), which only releases the local HTTP session without logging out.get_authenticated_user(self): Retrieves information about the authenticated user.get_sites(self): Retrieves a list of sites associated with the authenticated user.get_site_networks_ts_time_ago(self, site_id, measure_kind = "FLOW", aggregation_level = "NONE", aggregation_type = None, time_ago_unit = "HOUR", time_ago_value = 1, start = None, end = None): Retrieves the time series data for the networks of a specific site, based on the provided parameters. Deprecated — useget_site_time_seriesinstead (emits aDeprecationWarning; the endpoint still works but the app has moved tosite-time-series).get_site_consumption_breakdown_time_ago(self, site_id, aggregation_level = "HOUR", time_ago_unit = "DAY", time_ago_value = 1, start = None, end = None)Retrieves the consumption breakdown data for a specific site, based on the provided parameters. Deprecated — useget_top_consumptioninstead (emits aDeprecationWarning; the endpoint still works but the app has moved totop-consumption).get_devices(self, site_id): Retrieves a list of devices for the specified site.get_connected_objects(self, site_id=None, gateway_uid=None): Retrieves the connected objects for a site or a gateway. Exactly one ofsite_id/gateway_uidis required (raisesValueErrorotherwise).get_connected_object(self, connected_object_id): Retrieves information about a specific connected object.get_measure_keys(self, site_id): Retrieves the measure keys (flat measurement inventory) for a site — each a(device, measureKind)pair with a stable id andmeasureKeyUUID.get_tiles(self, site_id): Retrieves the dashboard tile configuration for a site (tile type + which device each points at; configuration only, no live values).get_electricity_price(self, site_id): Retrieves the EDF Tempo calendar / tariff structure for a site (tempoSyntheses,daily, ...).get_device_kinds(self, site_uid): Retrieves the device-kind catalogue for a site (the "add a device" picker). Takes the shortsiteUidstring (fromsite["siteUid"]), not the numeric site id.get_device_ts_time_ago(self, device_id, measure_kind = "FLOW", aggregation_level = "HOUR", aggregation_type = "MAX", time_ago_unit = "DAY", time_ago_value = "1", start = None, end = None): Retrieves the time series data for a specific device, based on the provided parameters.get_site_time_series(self, site_id, measure_kind = "FLOW", aggregation_level = "HOUR", aggregation_type = None, time_ago_unit = "DAY", time_ago_value = 1, start = None, end = None): Retrieves the whole-site rollup time series data for a specific site, based on the provided parameters.get_top_consumption(self, site_id, aggregation_level = "DAY", time_ago_unit = "DAY", time_ago_value = 1, start = None, end = None): Retrieves the per-device consumption breakdown (top 5 devices + "others") for a specific site.get_ecowatt(self): Retrieves the RTE EcoWatt grid-stress forecast (array of daily entries with a GREEN/ORANGE/RED status and 24 hourly values). Takes no parameters.switch_capacity(self, capacity_id, enable): Turns a switch/relay capacity on or off (PUT /capacities/{id}/switch). Takes the numeric capacityid.set_pilot_wire(self, capacity_id, state): Sets the pilot-wire order of a heating capacity (PUT /capacities/{id}/pilot-wire).stateis passed through as-is; valid values are backend-defined (check the capacity'sselectValues) and were not verified against a live pilot-wire device.set_thermal_mode(self, capacity_id, state): Sets the thermal mode of a thermostat capacity, e.g. eco / comfort (PUT /capacities/{id}/thermal-mode). Samestatepass-through caveat asset_pilot_wire.set_thermostat_set_point(self, capacity_id, value): Sets the target set-point of a thermostat capacity (PUT /capacities/{id}/thermostat-set-point).value(temperature) is passed through as-is.
start/end accept a datetime or ISO-8601 string and select an absolute window instead of the relative time_ago_* params; a naive datetime is treated as UTC:
from datetime import datetime
client.get_device_ts_time_ago(
"device-1",
start=datetime(2026, 7, 4, 0, 0, 0),
end=datetime(2026, 7, 5, 0, 0, 0),
)get_device(self, device_id): Retrieves information about a specific device.put_device(self, device_id, payload): Updates a specific device with the provided payload.
You can install the Comwatt Python Client using pip. Run the following command:
pip install comwatt-client
Here's a simple example of how to use the Comwatt Python Client:
from comwatt_client import ComwattClient
# Create a Comwatt client instance
client = ComwattClient()
# Authenticate the user
client.authenticate('username', 'password')
# Get information about the authenticated user
user_info = client.get_authenticated_user()
print(user_info)
# Get a list of sites associated with the authenticated user
sites = client.get_sites()
print(sites)
# Get the whole-site rollup time series (productions, consumptions, injections, ...)
site_time_series_data = client.get_site_time_series(sites[0]['id'])
print(site_time_series_data)
# Get the per-device consumption breakdown for a specific site (top 5 + "others")
top_consumption_data = client.get_top_consumption(sites[0]['id'])
print(top_consumption_data)
# Get a list of devices for a specific site
devices = client.get_devices(sites[0]['id'])
print(devices)
# Get time series data for a specific device
time_series_data = client.get_device_ts_time_ago(devices[0]['id'])
print(time_series_data)
# Set the control mode of a specific device to MANUL
device = client.get_device(devices[0]['id'])
device['configuration']['controlMode'] = 'MANUAL'
client.put_device(device['id'], device)
# Switch the POWER_SWITCH capacity
for feature in device['features']:
for capacity in feature['capacities']:
if capacity.get('capacity', {}).get('nature') == "POWER_SWITCH":
capacity_id = capacity['capacity']['id']
client.switch_capacity(capacity_id, False)
client.switch_capacity(capacity_id, True)Make sure to replace 'username', 'password' with the actual values for your Comwatt account.
All errors raised by the client subclass ComwattError:
ComwattAuthError— the credentials were rejected (HTTP 401/403 on login) or the session expired (HTTP 401). Re-authenticate.ComwattAPIError— any other unexpected HTTP status, including non-credential failures ofauthenticate()(e.g. a 5xx during an outage, or a 200 response missing the session cookie). Exposes.status_code,.url,.detail.
from comwatt_client import ComwattClient, ComwattAuthError, ComwattAPIError
client = ComwattClient()
try:
client.authenticate("username", "password")
sites = client.get_sites()
except ComwattAuthError:
... # credentials wrong or session expired — re-authenticate
except ComwattAPIError as e:
print(e.status_code, e.url, e.detail)Contributions to the Comwatt Python Client are welcome! If you find any issues or have suggestions for improvement, please open an issue or submit a pull request on the GitHub repository.