ed57563e8b
* Convert to use poetry and pyproject.toml, update README * add some resources for contributors * minor adjustments * ci: separate tests from linting, run using poetry * add pytest-mock to dev requirements * combine running tests and reporting to codecov * generate both xml and html coverage reports * add codecov to dev dependencies |
||
---|---|---|
kasa | ||
.flake8 | ||
.gitchangelog.rc | ||
.gitignore | ||
.hound.yml | ||
.pre-commit-config.yaml | ||
azure-pipelines.yml | ||
CHANGELOG | ||
HOWTO_RELEASE | ||
LICENSE | ||
pyproject.toml | ||
README.md | ||
tox.ini |
python-kasa
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.
Supported devices
- Plugs
- HS100
- HS103
- HS105
- HS107
- HS110
- Power Strips
- HS300
- KP303
- Wall switches
- HS200
- HS210
- HS220
- Bulbs
- LB100
- LB110
- LB120
- LB130
- LB230
- KL60
- KL110
- KL120
- KL130
Contributions (be it adding missing features, fixing bugs or improving documentation) are more than welcome, feel free to submit pull requests! See below for instructions for setting up a development environment.
Usage
The package is shipped with a console tool named kasa, please refer to kasa --help
for detailed usage.
The device to which the commands are sent is chosen by KASA_HOST
environment variable or passing --host <address>
as an option.
To see what is being sent to and received from the device, specify option --debug
.
To avoid discovering the devices when executing commands its type can be passed by specifying either --plug
or --bulb
,
if no type is given its type will be discovered automatically with a small delay.
Some commands (such as reading energy meter values and setting color of bulbs) additional parameters are required,
which you can find by adding --help
after the command, e.g. kasa emeter --help
or kasa hsv --help
.
If no command is given, the state
command will be executed to query the device state.
Initial Setup
You can provision your device without any extra apps by using the kasa wifi
command:
- If the device is unprovisioned, connect to its open network
- Use
kasa discover
(or check the routes) to locate the IP address of the device (likely 192.168.0.1) - Scan for available networks using
kasa wifi scan
- Join/change the network using
kasa wifi join
command, see--help
for details.
Discovering devices
The devices can be discovered either by using kasa discover
or by calling kasa
without any parameters.
In both cases supported devices are discovered from the same broadcast domain, and their current state will be queried and printed out.
$ 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}
Basic controls
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
Energy meter
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}
Bulb-specific commands
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.
Library usage
The property accesses use the data obtained before by awaiting update()
.
The values are cached until the next update call.
Each method changing the state of the device will automatically update the cached state.
Errors are raised as SmartDeviceException
instances for the user to handle.
Discovering devices
Discover.discover()
can be used to discover supported devices in the local network.
The return value is a dictionary keyed with the IP address and the value holds a ready-to-use instance of the detected device type.
Example:
import asyncio
from kasa import Discover
devices = asyncio.run(Discover.discover())
for addr, dev in devices.items():
asyncio.run(dev.update())
print(f"{addr} >> {dev}")
$ python example.py
<SmartPlug at 192.168.XXX.XXX (My Smart Plug), is_on: True - dev specific: {'LED state': True, 'On since': datetime.datetime(2017, 3, 26, 18, 29, 17, 52073)}>
Querying basic information
import asyncio
from kasa import SmartPlug
from pprint import pformat as pf
plug = SmartPlug("192.168.XXX.XXX")
asyncio.run(plug.update())
print("Hardware: %s" % pf(plug.hw_info))
print("Full sysinfo: %s" % pf(plug.sys_info))
The rest of the examples assume that you have initialized an instance.
State & switching
Devices can be turned on and off by either calling appropriate methods on the device object.
print("Current state: %s" % plug.is_on)
await plug.turn_off()
await plug.turn_on()
Getting emeter status (if applicable)
print("Current consumption: %s" % await plug.get_emeter_realtime())
print("Per day: %s" % await plug.get_emeter_daily(year=2016, month=12))
print("Per month: %s" % await plug.get_emeter_monthly(year=2016))
Bulb and dimmer-specific APIs
The bulb API is likewise straightforward, so please refer to its API documentation.
Information about supported features can be queried by using properties prefixed with is_
, e.g. is_dimmable
.
Setting the brightness
import asyncio
from kasa import SmartBulb
bulb = SmartBulb("192.168.1.123")
asyncio.run(bulb.update())
if bulb.is_dimmable:
asyncio.run(bulb.set_brightness(100))
print(bulb.brightness)
Setting the color temperature
if bulb.is_variable_color_temp:
await bulb.set_color_temp(3000)
print(bulb.color_temp)
Setting the color
Hue is given in degrees (0-360) and saturation and value in percentage.
if bulb.is_color:
await bulb.set_hsv(180, 100, 100) # set to cyan
print(bulb.hsv)
Contributing
Contributions are very welcome! To simplify the process, we are leveraging automated checks and tests for contributions.
Resources
- softScheck's github contains lot of information and wireshark dissector
- https://github.com/plasticrake/tplink-smarthome-simulator
Setting up development environment
poetry install
pre-commit install
Code-style checks
We use several tools to automatically check all contributions, which are run automatically when you commit your code.
If you want to manually execute the checks, you can run tox -e lint
to do the linting checks or tox
to also execute the tests.