A tool to inform a Sense Home Energy Monitor of known energy usage in your home, written in Python. A Docker image is also provided!
If you're sourcing your energy usage from ESP8266/ESP32 devices via ESPHome, check out my partner project ESPSense! You might be able to report power usage to Sense directly from your device, including other cheap commercial Smart Plugs!
SenseLink is a tool that emulates the energy monitoring functionality of TP-Link Kasa HS110 Smart Plugs, and allows you to report "custom" power usage to your Sense Home Energy Monitor based on other parameters.
SenseLink can emulate multiple plugs at the same time, and can report:
- Static/unchanging power usage
- Dynamic power usage based on other parameters through API integrations (e.g. a dimmer brightness value)
- Aggregate usage of any number of other plugs (static or dynamic)
At the moment, dynamic power plugs can source data from the Home Assistant (Websockets API) and MQTT. Plus, other integrations should be relatively easy to implement!
Aggregate "plugs" sum the power usage data from the specified sub-elements, and report usage just as dynamically.
While Sense doesn't currently use the data from smart plugs for device detection algorithm training, you should be a good citizen and try only provide accurate data! Not to mention, incorrectly reporting your own data hurts your own monitoring as well!
You should use this tool at your own risk! Sense is not obligated to provide any support related to issues with this tool, and there's no guarantee everything will reliably work, or even work. Neither I or Sense can guarantee it won't affect your Sense data, particularly if things go wrong!
Configuration is defined through a YAML file, that should be passed in when creating an instance of the SenseLink
class. See the config_example.yml
file for a an example setup.
The YAML configuration file should start with a top level sources
key, which defines an array of sources for power data. Each source then has a plugs
key to define an array of individual emulated plugs, plugs other configuration details as needed for that particular source. The current supported sources types are:
hass
: Home Assistant, via the Websockets APImqtt
: MQTT, via a MQTT brokerstatic
: Plugs with unchanging power valuesaggregate
: Summed values of other plugs, for example for a whole room - useful for staying under the Sense limit of ~20 plugs!
See the config_example.yml
for a full example, and the wiki for configuration details!
Each plug definition needs, at the minimum, the following parameters:
alias
: The plug name - this is the name you'd see if this was a real plug configured in the TP-Link Kasa appmac
: A unique MAC address for the emulated plug. This is how Sense differentiates plugs!
If a mac
value is not supplied, SenseLink will generate one at runtime - but this is almost certainly not what you want. With a random MAC address, a Sense will detect the SenseLink instances as "new" plug each time SenseLink is started!
You can use the PlugInstance
module to generate a random MAC address if you don't want to just make one up. When in the project folder, use: python3 -m PlugInstance
Each real TP-Link plug also supplies a unique device_id
value, however based on my testing Sense doesn't care about this value. If not provided in your configuration, SenseLink will generate a random one at runtime for each plug. Sense could change this in the future, so it is probably a good idea to generate and define a static device_id
value in your configuration. The PlugInstances
module will provide one if run as described above.
A minimum plug definition will look like the following:
- BasicPlug:
mac: 50:c7:bf:f6:4b:07
device_id: 57f6811dea6d2767b5c7b29098241d8988984a07 # Optional
max_watts: 15
alias: "Basic Plug"
More "advanced" plugs using smarthome/IoT integrations will require more details - see the wiki configuration pages for more information!
Aggregate plugs can be used to sum the power usage of any number of other defined plugs (inside SenseLink). For example: if you have Caseta dimmers on multiple light switches in your Kitchen, you can define individual HASS plugs for each switch, and then specify a "Kitchen" aggregate plug comprised of all those individual HASS plugs. The Aggregate plug will report the sum power of the individual plugs, and the individual plugs will not be reported to Sense independently.
Each Aggregate plug requires the following definition (similar to the Basic plug, but without the max_watts
key):
sources:
... # other plugs defined here!
- aggregate:
plugs:
- Kitchen_Aggregate:
mac: 50:c7:bf:f6:4d:01
alias: "Kitchen Lights"
elements:
- Kitchen_Overhead
- Kitchen_LEDs
- Kitchen_Spot
First of all, note that whatever computer or device running SenseLink needs to be on the same subnet as your Sense Home Energy Meter! Otherwise SenseLink won't get the UDP broadcasts from the Sense requesting plug updates. There might be ways around this with UDP reflectors, but that's beyond the scope of this document.
SenseLink can be started directly via the command line:
python3 ./SenseLink.py -c "/path/to/your/config.yml
The -l
option can also be used to set the logging level (-l "DEBUG"
). SenseLink needs to be able to listen on UDP port 9999
, so be sure you allow incoming on any firewalls.
A Docker image is available from Dockerhub, as: theta142/SenseLink
. When running in Docker SenseLink needs to be passed the configuration file, and needs to be able to listen on UDP port 9999
. Unfortunately Docker doesn't currently seem to play nice with UDP broadcasts, so --net=host
is required and therefore the specific port exposure is unnecessary. An example run command is:
docker run -v $(pwd)/your_config.yml:/etc/senselink/config.yml -e LOGLEVEL=INFO --net=host theta142/senselink:latest
An example docker-compose
file is also provided in the repository.
See the usage in the usage_example.py
file.
- Add additional integrations!
- Add a HTTP GET/POST semi-static data source type
- Make things more Pythonic (this is my first major tool written in Python!)
- Allow non-linear attribute-to-power relationships
Copyright 2020, Charles Powell