python-kasa is a Python library to control TPLink smart home devices (plugs, wall switches, power strips, and bulbs) using asyncio. This project is a maintainer-made fork of pyHS100 project.
You can install the most recent release using pip:
pip install python-kasa
Alternatively, you can clone this repository and use poetry to install the development version:
git clone https://github.com/python-kasa/python-kasa.git
cd python-kasa/
poetry install
After installation, the devices can be discovered either by using kasa discover
or by calling kasa
without any parameters.
$ kasa
No --bulb nor --plug given, discovering..
Discovering devices for 3 seconds
== My Smart Plug - HS110(EU) ==
Device state: ON
IP address: 192.168.x.x
LED state: False
On since: 2017-03-26 18:29:17.242219
== Generic information ==
Time: 1970-06-22 02:39:41
Hardware: 1.0
Software: 1.0.8 Build 151101 Rel.24452
MAC (rssi): 50:C7:BF:XX:XX:XX (-77)
Location: {'latitude': XXXX, 'longitude': XXXX}
== Emeter ==
Current state: {'total': 133.082, 'power': 100.418681, 'current': 0.510967, 'voltage': 225.600477}
Use kasa --help
to get list of all available commands, or alternatively, consult the documentation.
All devices support a variety of common commands, including:
state
which returns state informationon
andoff
for turning the device on or offemeter
(where applicable) to return energy consumption informationsysinfo
to return raw system information
Passing no options to emeter
command will return the current consumption.
Possible options include --year
and --month
for retrieving historical state,
and reseting the counters is done with --erase
.
$ kasa emeter
== Emeter ==
Current state: {'total': 133.105, 'power': 108.223577, 'current': 0.54463, 'voltage': 225.296283}
At the moment setting brightness, color temperature and color (in HSV) are supported depending on the device.
The commands are straightforward, so feel free to check --help
for instructions how to use them.
You can find several code examples in the API documentation.
Contributions are very welcome! To simplify the process, we are leveraging automated checks and tests for contributions.
To get started, simply clone this repository and initialize the development environment.
We are using poetry for dependency management, so after cloning the repository simply execute
poetry install
which will install all necessary packages and create a virtual environment for you.
We use several tools to automatically check all contributions. The simplest way to verify that everything is formatted properly
before creating a pull request, consider activating the pre-commit hooks by executing pre-commit install
.
This will make sure that the checks are passing when you do a commit.
You can also execute the checks by running either tox -e lint
to only do the linting checks, or tox
to also execute the tests.
You can run tests on the library by executing pytest
in the source directory.
This will run the tests against contributed example responses, but you can also execute the tests against a real device:
pytest --ip <address>
Note that this will perform state changes on the device.
The simplest way to add support for a new device or to improve existing ones is to capture traffic between the mobile app and the device.
After capturing the traffic, you can either use the softScheck's wireshark dissector
or the parse_pcap.py
script contained inside the devtools
directory.
- HS100
- HS103
- HS105
- HS107
- HS110
- KP105
- KP115
- KP401
- EP40
- HS300
- KP303
- KP400
- HS200
- HS210
- HS220
- EP40
- LB100
- LB110
- LB120
- LB130
- LB230
- KL50
- KL60
- KL110
- KL120
- KL125
- KL130
- KL400
- KL430
Contributions (be it adding missing features, fixing bugs or improving documentation) are more than welcome, feel free to submit pull requests!