A Finite State Machine abstraction over the Bleak Bluetooth library for simplified state management in production Python applications.
Project description
Bleak-FSM
A Finite State Machine abstraction over the Bleak Bluetooth library for simplified state management in production Python applications.
Introduction
Bleak provides an excellent cross-platform API for connecting to Bluetooth devices using Python.
However, it lacks any guidance for incorporating it into a production application. Developers using the Bleak library are expected to keep track of the bluetooth connection status for the bluetooth adapter and for each device. This can result in applications storing bluetooth state shared between various components of the frontend and backend. We believe this to be an anti-pattern.
Bleak-FSM makes it easy to keep track of all state in the same program that actually interfaces with bluetooth. This library is an opinionated abstraction over Bleak that uses the concept of Finite State Machines to make explicit the status of scanned / connected devices across a full user application lifecycle. Basically, bleak-fsm
defines several possible "states" and specific methods to transition between those states.
This library inherits all of the cross-platform compatibility of Bleak, supporting Mac, Linux, Windows, and Android. It's tested on the first three.
Concepts
BleakModel
(found in bleak_model.py) represents the bluetooth adapter on your system. This library supports one adapter per program. It follows that scanning is a class method of the BleakModel
, like so: await BleakModel.start_scan()
. You must scan before setting the connection targets for instances of the BleakModel
class.
As a rule, transitions may fail but no runtime exceptions are raised. In other words, the worst that can happen is that the state didn't change, even when you told it to.
You are responsible for detecting failed transitions by:
- Checking the return value (boolean) of the transition function. E.g.
successful = await model.connect(); assert successful
- Or, by checking the state of the model after the attempted transition:
await model.connect(); assert model.state=="Connected"
If you fail to do the above, a MachineError
may be thrown to prevent illegal transition attempts.
Instances of BleakModel
represents individual BLE devices that you wish to connect to. You may transition between the following states: Init
, TargetSet
, Connected
, and Streaming
using methods: set_target()
, connect()
, stream()
, disconnect()
, and unset_target
. The clean_up()
method can be used as a shortcut to transition instances of BleakModel in any state back to Init
for whenever exceptions are raised or the program quits.
Installation
pip3 install bleak-fsm
Bleak-FSM is compatible with Python versions 3.8 to 3.12. See pyproject.toml
Quickstart
Bleak-FSM is designed for use within Python scripts. Nevertheless, the following demonstration uses the Python REPL:
From your command line, start the interactive Python interpeter:
python3 # or python, depending on OS and installation.
All following commands are to be copy-pasted into the Python REPL, after >>>
.
from bleak_fsm import BleakModel
import asyncio
Create asyncio event loop:
loop = asyncio.new_event_loop()
Start scan
loop.run_until_complete(BleakModel.start_scan())
Here, we use loop.run_until_complete()
, but typically you would await BleakModel.start_scan()
inside a pre-existing async function.
Wait for a few seconds for the scan to find some devices.
End scan
loop.run_until_complete(BleakModel.stop_scan())
List discovered devices:
BleakModel.bt_devices
It might fill up your screen in a messy way. Here's a prettier way to print it:
for k, v in BleakModel.bt_devices.items(): print(f"Address: {k}. Name: {v[0].name}")
Use one of the addresses. For this example, we'll pick a device that implement bluetooth heart rate monitoring.
target_address = "14863C4D-BF71-4EA3-C6B4-98001056AAF8" # ENTER YOUR OWN HERE
Create a BleakModel object representing that device.
model = BleakModel(connection_timeout=10)
loop.run_until_complete(model.set_target(target_address))
model.state # prints: "TargetSet"
Connect to it:
loop.run_until_complete(model.connect())
model.state # should print: "Connected".
If the state isn't "Connected", try increasing the connection_timeout
.
At this point, we need to tell our model
the details on how to connect and process the data from it.
Define the GATT characteristic UUID that you want to query:
HEART_RATE_MEASUREMENT_CHARACTERISTIC_UUID = "00002a37-0000-1000-8000-00805f9b34fb"
For this example, we'll save the output to a text file.
def handle_hr_measurement(sender, data): open("hr_output.txt", "a").write(f"Data received from {sender}: {data}\nHeart Rate: {data[1]} beats per minute\n")
Define three important methods on our model
. You need to pass in a Callable (a function) that takes a single client
argument.
Compare this code to bleak
examples.
In this example, our client
is a straightforward BleakClient
. See examples directory for using Pycycling objects and other abstractions.
model.enable_notifications = lambda client: client.start_notify(HEART_RATE_MEASUREMENT_CHARACTERISTIC_UUID, handle_hr_measurement)
model.disable_notifications = lambda client: client.stop_notify(HEART_RATE_MEASUREMENT_CHARACTERISTIC_UUID)
model.set_measurement_handler = lambda client: handle_hr_measurement
Stream the heart rate measurements from it:
loop.run_until_complete(model.stream())
You won't immediately see any output. The Python REPL doesn't really support that. But after you disconnect, you should see a new text file hr_output.txt
that has the recorded heart rate (as defined by our handle_hr_measurement
callback).
loop.run_until_complete(model.clean_up())
Examples
Clone this repository and check out the guides in the examples directory to get more familiar with Bleak-FSM.
Start with the basic Jupyter notebook tutorial. It uses Heart Rate monitor as an example. For all of these demos, you need to modify the target bluetooth device address/name.
If you don't have a device with heart rate service, refer to the Migration Guide notebook to use your Bluetooth device with Bleak-FSM.
dual_notebook_example.ipynb builds on the basic tutorial and demonstrates simultaneous connection to two different Bluetooth devices.
For a regular python script version, see single_hr_script_example.py.
For developer convenience, this library implements Python context managers (with
blocks). See context manager notebook example for a quick demonstration.
Migrating from Vanilla Bleak
The following is a non-functioning code snippet that shows what your bleak
code would look like after migrating to bleak-fsm
:
Vanilla Bleak | Bleak-FSM |
---|---|
# Setup
from bleak import BleakClient
def handle_hr_measurement(sender, data):
heart_rate = data[1]
print(f"HR: {heart_rate}")
# Scanning process not shown
# Somewhere in your application logic
async with BleakClient(device) as client:
logger.info("Connected")
await client.start_notify(
HEART_RATE_CHARACTERISTIC,
handle_hr_measurement)
await asyncio.sleep(5.0)
await client.stop_notify(
HEART_RATE_CHARACTERISTIC)
|
# Setup
from bleak_fsm import BleakModel
model = BleakModel()
def handle_hr_measurement(value):
print(f"HR: {value}")
# pass in the same Callable as used in
# Vanilla Bleak
model.enable_notifications =
lambda client: client.start_notify(
HEART_RATE_CHARACTERISTIC,
handle_hr_measurement)
model.disable_notifications =
lambda client: client.stop_notify(
HEART_RATE_CHARACTERISTIC)
# Scanning process not shown
# Somewhere in your application logic
await model.connect()
print(model.state) # "Connected"
await model.stream()
print(model.state) # "Streaming"
await asyncio.sleep(5)
print(model.state) # "Streaming"
await model.disonnect()
print(model.state) # "TargetSet"
|
Error Handling
The methods of BleakModel
do not raise Exceptions, and only return True or False.
The Finite State Machine machine
uses that Boolean to determine if transition is successful or not.
Therefore, for you, the worst case scenario is that the transition fails. Runtime exceptions are never thrown.
Pycycling Compatibility
bleak-fsm
is designed to accomodate pycycling
. The basic tutorial notebook has parallel examples of using either raw BleakClient or a Pycycling object.
Limitations & Future Features
- Only unidirectional (peripheral to computer) communication is supported. Bidirectional support coming in a future version.
- While this framework enforces correct order of states and transitions, there is no mechanism for constantly checking for the validity of the current state. For example, a supposedly 'Connected' device may power down, move outside of Bluetooth range, etc. A supposedly 'Streaming' device may also power down, stop its stream, etc. This library has no-built in machinery to detect this. However, if you do want to build such a thing, this library provides good building blocks for it.
Further Resources & Recommendations
This library uses async
Python. Familiarize yourself with the basics of async Python before using this library.
If you end up nesting asyncio (for example, if your web server is already async and you want to call this code), you may want to install and use nest-asyncio
.
import nest_asyncio
nest_asyncio.apply()
Read the pytransitions
README for an excellent follow-along tutorial on Finite State Machines.
Bleak-FSM in the Wild
A list of projects that use this library
- react-pycycling-demo
- (Your Project Here) - let me know via Github issues or tensorturtle@gmail.com
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