An API to read the status of an intellifire wifi module
Project description
Intellifire (New and Improved)
This is a 100% unofficial python module for working with the IntelliFire API for Intellifire WIFI Modules.
Intellifire is a wifi module for a variety of fireplaces. It has both ios/android apps - but they dont like to publish the api.
From my research I've identified 4 endpoints:
/poll
/get_serial
/get_challenge
/post
This module will parse data from botht he /get_serial
and /poll
endpoints and parse the resultatn JSON into something readable.
If anybody knows more about OAuth and wants to help me reverse engineer the control endpoints I'd love the help!
Hit me up on github: https://github.com/jeeftor
Local Polling
Both Intellifire
and IntellifireAsync
classes will poll an intellifire interface on the local network for a read-only view of the device. All that is required is the ip address. If you need to discover that see further on in this document.
Sync
# Define an intellifre instance
fire = Intellifire("192.168.1.80")
# Poll to update the internal data source
fire.poll()
# Print out all values
print(fire.data)
Async
async def main():
fire = IntellifireAsync("127.0.0.1")
await fire.poll()
# Poll the fire
print(f"{fire.data.temperature_c} c")
print(f"{fire.data.temperature_f} f")
print(f"{fire.data.thermostat_setpoint_c} c")
print(f"{fire.data.thermostat_setpoint_f} f")
if __name__ == "__main__":
loop = asyncio.get_event_loop()
loop.run_until_complete(main())
Fireplace Control
The Async Control Interface gives you the ability to directly send commands to your IFT unit. To instantiate one you will need
ip
- Fireplace ip on the network - used for initial instantiationusername
- Username (email) used in intellifire app - used for loginpassword
- Password - used for login
SSL Considerations
Sometimes we live in a tough SSL world and as such you can disable SSL (https) mode for communicating with iftapi.net
as well as disable SSL Certificate Verification. In most cases you will not need to deal with this.
# No SSH Inspection and use HTTP mode
ift_control = IntellifireControlAsync(
fireplace_ip=ip,
use_http=True,
verify_ssl=False
)
Local Control
Local control can take advantage of the units /post
endpoint. However these commands require an ApiKey that must to be retreived from iftapi.net
.
This is currently only implemnted in the IntellifireControlAsync
control module.
Local control is the default state but if you need to manually set it you can use:
ift_control.send_mode = IntellifireSendMode.LOCAL
Cloud Control
Taking advantage of the iftapi.net
REST API - the module can send commands to the cloud in order to control a specific fireplace. In order to enable this you need to set the .send_mode
to something like:
ift_control.send_mode = IntellifireSendMode.CLOUD
API Overview
Conceptually the API is divided into Users
who have control of Locations
which contain Fireplaces
.
┌───────────┐
│ Users │
└─────┬─────┘
│
│
┌─────▼─────┐
│ Location │
└─────┬─────┘
│
│
┌─────▼─────┐
│ Fireplace │
└───────────┘
The IFT-API requires cookie based authentication for sending control commands via its REST API endpoint. These cookies are generated by the login method:
username = os.environ['IFT_USER']
password = os.environ['IFT_PASS']
# Init and login
control_interface = IntellifireControl(fireplace_ip='192.168.1.65')
control_interface.login(username=username, password=password)
Once the login is complete all further control requests will use the cookies to authenticate and control things.
All commands will reference a specific IntellifireFireplace
, however in the case that you have a single Intellifire Device installed in your user account you can just use the .default_fireplace
property
default_fireplace = ift_control.default_fireplace
print("Serial:", default_fireplace.serial)
print("APIKey:", default_fireplace.apikey)
Power (Flame on/off)
The following calls will toggle the flame on or off:
control_interface.flame_on(fireplace=fireplace)
control_interface.flame_off(fireplace=fireplace)
Flame Height
You can control the flame height with set_flame_height
method. Height ranges from 0 to 4:
control_interface.set_flame_height(fireplace=fireplace, height=3)
Fan Speed
Fan speed is controled via the set_fan_speed
method. Valid ranges for speed
0 to 4.
control_interface.set_fan_speed(fireplace=fireplace, speed=1)
Lights
You can control lights with set_lights
method. Valid ranges for level
are 0 to 3.
control_interface.set_lights(fireplace=fireplace, speed=1)
Beep
Apparently, if the fireplace is on (flame on) you can send a beep.
control_interface.beep(fireplace=fireplace)
Control Exceptions
LoginException
- problem with the login process (username/password).InputRangeException
- control value is out of valid range.ApiCallException
- Some sort of api exception occured.
Where have all the firepalces gone!
The fireplace moduels are configured to respond to a specific UDP packet and return information. As such we can discover fireplaces on the network. Currently this will only return the ip address of the first fireplace to respond... (oh well).
# Creates a Fireplace Finder
finder = UDPFireplaceFinder()
# Prints IP of first fireplace to respond
print(finder.search_fireplace())
TODO: Listen for a set time and return a list of all fireplaces that respond.
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
Hashes for intellifire4py-0.9.0-py3-none-any.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | a40edfbd8efefcbb212b836161f1ff9da2dca2e481220f53b544a61da3d1a6e3 |
|
MD5 | 9417740de286fdf97edd3f347835e36c |
|
BLAKE2b-256 | 5bec12c0ad627aba5c33adfe5fdc36dc0d5747edc9016caa8171b1d6d945ba59 |