RxCentral: Uber’s Open Source Library for Seamless Bluetooth Integrations
3 December 2019 / GlobalAt Uber, we innovate through products that connect users to both the digital and physical worlds, making services such as transportation and food delivery as easy as possible. An increasing number of these products share a common need: to discover, connect, and communicate using Bluetooth. To enable a new generation of innovations, we need to make Bluetooth easier for engineers to implement and enable cross-platform designs that can be repeated across applications.
Enter RxCentral, Uber-developed open sourced libraries for Android (RxCentralBle) and iOS (RxCBCentral), to communicate with Bluetooth LE peripherals in a reliable, repeatable fashion via a platform-agnostic, reactive design. RxCentral’s reactive functions can be used individually or in combination to orchestrate elegant, reactive user experiences with Bluetooth LE peripherals.
Our initial integration connects our driver-partners’ phones with our next-generation Uber beacon. Beacon combines color-matching technology with an advanced sensor suite to enhance the experience of both driver-partners and riders. To enable its complex features, beacon requires high throughput and reliability that pushes the limits of Bluetooth: RxCentral delivers this functionality, and in the process, improves transportation experiences on our platform for riders and driver-partners alike, who can only use Bluetooth in-app while leveraging beacon.
RxCentralBle at a glance
RxCentralBle allows us to rapidly implement four primary functions: detect state, scan, connect, and communicate. Each function is performed in a reactive manner; subscribe to enable functionality and dispose to stop, letting engineers design services that cleanly integrate into a modern, reactive application.
Detect Bluetooth
The BluetoothDetector detects an Android device’s Bluetooth state, determining if Bluetooth is live and available to connect:
BluetoothDetector bluetoothDetector;
Disposable detection;
// Use the detector to detect Bluetooth state.
detection = bluetoothDetector
.enabled()
.subscribe(
enabled -> {
// Tell the user to turn on Bluetooth if not enabled
}
);
In our reactive paradigm, we can dispose our detection subscription to stop detection:
// Stop Bluetooth detection.
detection.dispose();
Scan
The Scanner tells the device to scan for Bluetooth LE peripherals advertising their availability:
Scanner scanner;
Disposable scanning;
// Use the scanner to scan for advertising peripherals.
scanning = scanner
.scan())
.subscribe(
scanData -> {
// We found the peripheral we are looking for
}
);
Disposing the scanner subscription stops scanning for other Bluetooth peripherals, automatically cleaning up after ourselves and releasing all scanning resources:
// Stop scanning.
scanner.dispose();
Connect
RxCentralBle’s code for establishing a connection is similarly easy to using the BluetoothDetector and Scanner. Building on the above example, we can scan for devices and connect to them with a single ConnectionManager function:
ScanData scanData;
ConnectionManager connectionManager
PeripheralManager peripheralManager;
Disposable connection;
// Connect to a device.
connection = connectionManager
.connect(scanData)
.subscribe(
peripheral -> {
// Inject our newly connected peripheral into the PeripheralManager.
peripheralManager.setPeripheral(peripheral);
}
);
If we start to see a pattern developing, we can just dispose our connection subscription to disconnect and clean up all resources:
// Disconnect from the device.
connection.dispose();
Communicate
Once the above functions have created a Bluetooth connection to a peripheral and given it to the PeripheralManager, we can queue operations, like Generic Attribute Profile (GATT) reads and writes, to perform on the peripheral:
PeripheralManager peripheralManager;
Read read;
Disposable operation;
// Perform a write operation.
operation = peripheralManager
.queueOperation(read))
.subscribe(
bytes -> {
// The bytes read from the peripheral.
});
We retain the subscription to the operation as well, letting us cancel an operation if it has not yet run:
// Cancel the read.
operation.dispose();
Enhanced, reactive Bluetooth LE
RxCentralBle makes it easy to orchestrate elaborate sequences of actions in a reliable, repeatable fashion. Since each function adheres to the Observable contract, we can combine them into seamless reactive streams that translate to seamless user experiences with beacon or any other Bluetooth-enabled hardware it powers.
Detect, scan, and connect
We can detect state, scan for peripherals, and connect to a peripheral on a single reactive stream:
BluetoothDetector bluetoothDetector;
Scanner scanner;
ScanMatcher scanMatcher;
ConnectionManager connectionManager
PeripheralManager peripheralManager;
Disposable connection;
// When Bluetooth is enabled, scan for and connect to a peripheral.
connection = bluetoothDetector
.enabled()
.filter(enabled -> enabled)
.switchMap(enabled -> scanner.scan())
.compose(scanMatcher.match()
.switchMap(match -> connectionManager.connect(match))
.subscribe(
peripheral -> {
// Inject our newly connected peripheral into the PeripheralManager.
peripheralManager.setPeripheral(peripheral);
}
);
Because connecting to a peripheral is a common use case, RxCentralBle makes these connections possible with a single function using the ConnectionManager and ScanMatcher. In this typical example, we connect to, then configure a peripheral before handing off to the PeripheralManager for communication. We also implement retry logic to automatically reconnect if a connection error occurs:
UUID service;
ScanMatcher scanMatcher;
ConnectionManager connectionManager
PeripheralManager peripheralManager;
Disposable connection;
// Connect, configure, and retry on connection errors.
connection = connectionManager
.connect(scanMatcher))
.switchMap(peripheral ->
peripheral.registerNotification(service).flatMap(irr -> Single.just(peripheral))
.switchMap(peripheral ->
peripheral.requestMtu(512).flatMap(mtu -> Single.just(peripheral))
.retryWhen(errors ->
errors.switchMap(error -> {
if (error instanceof ConnectionError) {
return Observable.just(true);
} else {
return Observable.error(error);
}}))
.subscribe(
peripheral -> {
peripheralManager.setPeripheral(peripheral);
}
);
The ability to retry any operation that fails is a key feature in RxCentralBle, which handles retries without the need to manage or reset state.
Connected operations
Oftentimes peripherals implement a command/response protocol where commands are written to a characteristic and a response is sent back to the mobile app via a notification:
UUID characteristic;
AbstractWrite<Boolean> writeCommand = new AbstractWrite<Boolean>(…) {
@Override
protected SingleTransformer<Peripheral, Boolean> postWrite() {
return peripheralSingle -> peripheralSingle
.flatMap(peripheral -> peripheral
.notification(characteristic)
.filter(bytes -> checkResponse(bytes))
.map(bytes -> true));
}
};
Below, we perform a series of operations each time we connect to our peripheral. lf any operation in the series fails, we can retry the entire stream or individual operations:
PeripheralManager peripheralManager;
Read read1;
Read read2;
Disposable operations;
// Perform a stream of operations each time we are connected to a Peripheral
operations = peripheralManager
.connected()
.filter(connected -> connected) // Begin operations when connected.
.switchMap(connected ->
peripheralManager
.queueOperation(read1))
.switchMap(readResult1 ->
peripheralManager
.queueOperation(writeCommand)
.retry(2)) // Retry the write command up to two times.
.filter(writeResult -> writeResult)
.switchMap(writeSuccessful ->
peripheralManager
.queueOperation(read2))
.retry(3) // Retry the entire stream up to three times.
.subscribe(
readResult2 -> {
// Finally, we receive the second read result.
}
);
When using RxCentralBle, an application can have multiple streams, as depicted above, across different threads; the PeripheralManager provides a thread-safe FIFO operation queue.
Enabling innovation
At Uber, we’re using RxCentralBle across several products in production and under development to help users have more seamless transportation experiences on our platform. The flagship RxCentralBle integration is for beacon.
RxCentralBle’s design makes it easy to extend and compose functionality on top of the core implementations of ConnectionManager and PeripheralManager. The design shown in Figure 1, below, captures how we play animations on beacon:
Each logical manager (e.g., AnimationManager and FileTransferManager) composes reactive streams that extend upstream Observables rooted in the reactive bridge RxCentralBle provides to platform-level Bluetooth APIs.
To play an animation on beacon’s rear-facing screen, the consuming application simply subscribes to a stream exposed by the AnimationManager. This pattern allows engineers to easily integrate beacon into their application without concern for the intricacies of Bluetooth.
What’s next
We designed RxCentral to make Bluetooth interaction simple. It eliminates the need to struggle with platform-level Bluetooth APIs and varying system designs between Android and iOS, letting engineers fully exploit the capabilities of Bluetooth peripherals.
We’ve chosen to open source RxCentral to help move the community forward and maintain a library that works with all peripherals, not just those used by Uber. With each Bluetooth peripheral comes a new set of challenges, and collecting feedback is key to improving RxCentral.
Engineers can raise issues or contribute new features at the following Github pages:
- iOS: RxCBCentral
- Android: RxCentralBle
Kevin Babcock
Kevin Babcock is an Android engineer by trade, with extensive experience developing Bluetooth LE connected devices, their protocols, and end-to-end technology stacks. At Uber, he leads engineering for Uber beacon and sees a future where Uber has the most impactful IoT network in the world.
Joe Soultanis
Joe Soultanis is an iOS engineer currently working on Uber Freight, focusing on search and marketplace dynamics. He previously led iOS engineering for Uber beacon, where he developed a love for working with Bluetooth and hardware. In his free time he enjoys powerlifting, reading about technology, and watching critically-acclaimed television programs such as The Bachelor, Survivor, and Top Chef.
Posted by Kevin Babcock, Joe Soultanis
Related articles
Most popular
Enabling Security for Hadoop Data Lake on Google Cloud Storage
Making Uber’s ExperimentEvaluation Engine 100x Faster
Differential Backups in MyRocks Based Distributed Databases at Uber
Genie: Uber’s Gen AI On-Call Copilot
Products
Company