blemulator 1.2.1 copy "blemulator: ^1.2.1" to clipboard
blemulator: ^1.2.1 copied to clipboard

Flutter plugin for simulating BLE peripherals on FlutterBleLib

Build Status Frontside pub package

BLEmulator logo

BLEmulator #

Plugin for simulating Bluetooth Low Energy peripherals.

Note: Works only with FlutterBleLib.

It imitates the behaviour of MultiPlatformBleAdapter and lets you create simulated peripherals in Dart. Your Flutter code for handling BLE will not be aware that it doesn't run on the real implementation, since the simulation is plugged in beneath the native bridge of FlutterBleLib.

The simulation allows you to develop BLE applications on iOS simulator and/or Android emulator, and run automated tests.

How to use #

To start simulating a BLE peripheral:

  1. obtain an instance of Blemulator
  2. add a SimulatedPeripheral
  3. call blemulator.simulate()
  4. call FlutterBleLib's bleManager.createClient()
Blemulator blemulator = Blemulator();
blemulator.addSimulatedPeripheral(ExamplePeripheral());
blemulator.simulate();

BleManager bleManager = BleManager();
bleManager.createClient(); //this creates an instance of native BLE

Defining simple simulated peripheral #

The following peripheral is based on Texas Instruments CC2541 SensorTag. To keep the example clearer, only IR temperature service is simulated.

class SensorTag extends SimulatedPeripheral {
  SensorTag(
      {String id = "4C:99:4C:34:DE:76",
      String name = "SensorTag",
      String localName = "SensorTag"})
      : super(
            name: name,
            id: id,
            advertisementInterval: Duration(milliseconds: 800),
            services: [
              SimulatedService(
                  uuid: "F000AA00-0451-4000-B000-000000000000",
                  isAdvertised: true,
                  characteristics: [
                    SimulatedCharacteristic(
                        uuid: "F000AA01-0451-4000-B000-000000000000",
                        value: Uint8List.fromList([101, 254, 64, 12]),
                        convenienceName: "IR Temperature Data"),
                    SimulatedCharacteristic(
                        uuid: "F000AA02-0451-4000-B000-000000000000",
                        value: Uint8List.fromList([0]),
                        convenienceName: "IR Temperature Config"),
                    SimulatedCharacteristic(
                        uuid: "F000AA03-0451-4000-B000-000000000000",
                        value: Uint8List.fromList([50]),
                        convenienceName: "IR Temperature Period"),
                  ],
                  convenienceName: "Temperature service")
            ]) {
    scanInfo.localName = localName;
  }

  @override
  Future<bool> onConnectRequest() async {
    await Future.delayed(Duration(milliseconds: 200));
    return super.onConnectRequest();
  }
}

This creates a peripheral that advertises every 800 milliseconds while peripheral scan is on, waits for 200 milliseconds after receiving connection request before agreeing to connect and has a single service with three characteristics according to SensorTag documentation.

The convenienceName fields are optional and not used by the blemulator itself, but allow you to name created objects for better maintainability.

Changing advertisement data or scan info #

For your convenience you can mark SimulatedService as advertised, but be aware that this doesn't validate the size of advertised services array inside advertisement data.

If you want to have more granular control over what is advertised, simply modify the scanInfo property of the SimulatedPeripheral. The scanInfo is broadcasted automatically while peripheral scan is on each advertisementInterval.

ScanInfo supports following data:

class ScanInfo {
  int rssi;
  bool isConnectable;
  int txPowerLevel;

  Uint8List manufacturerData;
  Map<String, Uint8List> serviceData;
  List<String> serviceUuids;

  String localName;
  List<String> solicitedServiceUuids;
  List<String> overflowUuids;
}

You can also provide it in the constructor of the SimulatedPeripheral.

Custom characteristic behaviour #

Blemulator does most of the heavy lifting for you and takes care of the basic stuff, but there's always more complicated logic. If you need to validate values or writing to one characteristic has to trigger a change in the behaviour of different characteristic, you may need to extend SimulatedService or SimulatedCharacteristic classes.

Limiting values supported by characteristic

Following is an example of a characteristic that accepts only 0 or 1.

class ExampleCharacteristic extends SimulatedCharacteristic {
  ExampleCharacteristic({@required String uuid, String convenienceName})
      : super(
            uuid: uuid,
            value: Uint8List.fromList([0]),
            convenienceName: convenienceName);

  @override
  Future<void> write(Uint8List value, { bool sendNotification = true }) {
    int valueAsInt = value[0];
    if (valueAsInt != 0 && valueAsInt != 1) {
      return Future.error(SimulatedBleError(
          BleErrorCode.CharacteristicWriteFailed, "Unsupported value"));
    } else {
      return super.write(value); //this propagates value through the blemulator,
      // allowing you to react to changes done to this characteristic
    }
  }
}

Publishing notifications

This time peripheral has additional logic. IR Temperature Config characteristic turns the IR thermometer on (1) and off (0). Regardless of that the IR Temperature Data emits data each (IR Temperature Period value times 10) milliseconds (as per specification linked above) and that may be actual reading or zero.

class SensorTag extends SimulatedPeripheral {
  static const String _serviceUuid = "F000AA00-0451-4000-B000-000000000000";
  static const String _temperatureDataUuid =
      "F000AA01-0451-4000-B000-000000000000";
  static const String _temperatureConfigUuid =
      "F000AA02-0451-4000-B000-000000000000";
  static const String _temperaturePeriodUuid =
      "F000AA03-0451-4000-B000-000000000000";

  bool _readingTemperature;

  SensorTag(
      {String id = "4B:99:4C:34:DE:77",
      String name = "SensorTag",
      String localName = "SensorTag"})
      : super(
            name: name,
            id: id,
            advertisementInterval: Duration(milliseconds: 800),
            services: [
              SimulatedService(
                  uuid: _serviceUuid,
                  isAdvertised: true,
                  characteristics: [
                    SimulatedCharacteristic(
                      uuid: _temperatureDataUuid,
                      value: Uint8List.fromList([0, 0, 0, 0]),
                      convenienceName: "IR Temperature Data",
                      isWritableWithoutResponse: false,
                      isWritableWithResponse: false,
                      isNotifiable: true,
                    ),
                    SimulatedCharacteristic(
                        uuid: _temperatureConfigUuid,
                        value: Uint8List.fromList([0]),
                        convenienceName: "IR Temperature Config"),
                    SimulatedCharacteristic(
                        uuid: _temperaturePeriodUuid,
                        value: Uint8List.fromList([50]),
                        convenienceName: "IR Temperature Period"),
                  ],
                  convenienceName: "Temperature service"),
            ]) {
    scanInfo.localName = localName;

    getCharacteristicForService(_serviceUuid, _temperatureConfigUuid)
        .monitor()
        .listen((value) {
      _readingTemperature = value[0] == 1;
    });

    _emitTemperature();
  }

  void _emitTemperature() async {
    while (true) {
      Uint8List delayBytes = await getCharacteristicForService(
              _serviceUuid, _temperaturePeriodUuid)
          .read();
      int delay = delayBytes[0] * 10;
      await Future.delayed(Duration(milliseconds: delay));
      SimulatedCharacteristic temperatureDataCharacteristic =
                  getCharacteristicForService(_serviceUuid, _temperatureDataUuid);
      if (temperatureDataCharacteristic.isNotifying) {
        if (_readingTemperature) {
          temperatureDataCharacteristic
              .write(Uint8List.fromList([101, 254, 64, Random().nextInt(255)]));
        } else {
          temperatureDataCharacteristic.write(Uint8List.fromList([0, 0, 0, 0]));
        }
      }
    }
  }

  @override
  Future<bool> onConnectRequest() async {
    await Future.delayed(Duration(milliseconds: 200));
    return super.onConnectRequest();
  }
}

The example above could be refactored to a custom SimulatedService with all the logic that handles cross-characteristic mechanisms and a simplified SimulatedPeripheral that takes an instance of the newly created class.

Descriptors #

Characteristics may hold descriptors using the optional parameter descriptors.

SimulatedCharacteristic(uuid: "F000AA13-0451-4000-B000-000000000000",
                        value: Uint8List.fromList([30]),
                        descriptors: [
                          SimulatedDescriptor(
                            uuid: "F0002901-0451-4000-B000-000000000000",
                            value: Uint8List.fromList([0]),
                            convenienceName:
                                "Example descriptor (Characteristic "
                                "User Description)",
                          ),
                        ],
                        convenienceName: "Accelerometer Period");

Working example #

If you'd like to poke around some more, clone the repository and run the provided example.

You can also check out the Simplified SensorTag implementation

Facilitated by Frontside #

Frontside provided architectural advice and financial support for this library on behalf of Resideo.

Maintained by #

This library is maintained by Polidea

Contact us

Learn more about Polidea's BLE services.

Maintainers #

License #

Copyright 2019 Polidea Sp. z o.o

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

16
likes
30
points
51
downloads

Publisher

verified publisherpolidea.com

Weekly Downloads

Flutter plugin for simulating BLE peripherals on FlutterBleLib

Repository (GitHub)
View/report issues

License

unknown (license)

Dependencies

async, flutter, flutter_ble_lib, meta, pedantic

More

Packages that depend on blemulator