En dispositivos con Android 8.0 (nivel de API 26) y versiones posteriores, el dispositivo complementario
La vinculación realiza una búsqueda de dispositivos cercanos por Bluetooth o Wi-Fi en nombre de tu
app sin solicitar
ACCESS_FINE_LOCATION
permiso. Esto ayuda a maximizar las protecciones de la privacidad del usuario. Usa este método para
realizar la configuración inicial del dispositivo complementario, como una acción
reloj inteligente. Además, la vinculación de dispositivos complementarios requiere que los Servicios de ubicación
habilitarse.
La vinculación de dispositivos complementarios no crea conexiones por sí sola ni habilita el análisis continuo. Las apps pueden usar las APIs de conectividad Wi-Fi o Bluetooth para establecer conexiones.
Una vez que el dispositivo esté vinculado, podrá usar el
REQUEST_COMPANION_RUN_IN_BACKGROUND
y
REQUEST_COMPANION_USE_DATA_IN_BACKGROUND
permisos para iniciar la app en segundo plano. Las apps también pueden usar
REQUEST_COMPANION_START_FOREGROUND_SERVICES_FROM_BACKGROUND
permiso para iniciar un servicio en primer plano desde el segundo plano.
Un usuario puede seleccionar un dispositivo de una lista y otorgar a la app permisos para acceder
el dispositivo. Estos permisos se revocan si desinstalas la app o llamas
disassociate()
La aplicación complementaria es responsable de borrar sus propias asociaciones si el usuario
ya no los necesita, como cuando sale de la cuenta o quita los dispositivos vinculados.
Cómo implementar la vinculación de dispositivos complementarios
En esta sección, se explica cómo usar CompanionDeviceManager para vincular tu
con dispositivos complementarios a través de Bluetooth, BLE y Wi-Fi.
Cómo especificar dispositivos complementarios
En la siguiente muestra de código, se indica cómo agregar el
Marca <uses-feature> en un
. De esta manera, se indica al sistema que tu app tiene la intención de configurar las apps complementarias.
dispositivos.
<uses-feature android:name="android.software.companion_device_setup"/>
Mostrar dispositivos por DeviceFilter
Puedes mostrar todos los dispositivos complementarios del rango que coincidan con
DeviceFilter
que proporciones (se muestra en la figura 1). Si quieres limitar el análisis a solo uno
de red, puedes
setSingleDevice()
a true (como se muestra en la figura 2).
Las siguientes son las subclases de DeviceFilter que
se puede especificar en AssociationRequest:
Las tres subclases tienen compiladores que optimizan la configuración de los filtros.
En el siguiente ejemplo, un dispositivo busca un dispositivo Bluetooth con un
BluetoothDeviceFilter
Kotlin
val deviceFilter: BluetoothDeviceFilter = BluetoothDeviceFilter.Builder()
// Match only Bluetooth devices whose name matches the pattern.
.setNamePattern(Pattern.compile("My device"))
// Match only Bluetooth devices whose service UUID matches this pattern.
.addServiceUuid(ParcelUuid(UUID(0x123abcL, -1L)), null)
.build()
Java
BluetoothDeviceFilter deviceFilter = new BluetoothDeviceFilter.Builder()
// Match only Bluetooth devices whose name matches the pattern.
.setNamePattern(Pattern.compile("My device"))
// Match only Bluetooth devices whose service UUID matches this pattern.
.addServiceUuid(new ParcelUuid(new UUID(0x123abcL, -1L)), null)
.build();
Establece un DeviceFilter en AssociationRequest de modo que
CompanionDeviceManager puede determinar qué tipo de dispositivos buscar.
Kotlin
val pairingRequest: AssociationRequest = AssociationRequest.Builder()
// Find only devices that match this request filter.
.addDeviceFilter(deviceFilter)
// Stop scanning as soon as one device matching the filter is found.
.setSingleDevice(true)
.build()
Java
AssociationRequest pairingRequest = new AssociationRequest.Builder()
// Find only devices that match this request filter.
.addDeviceFilter(deviceFilter)
// Stop scanning as soon as one device matching the filter is found.
.setSingleDevice(true)
.build();
Después de que tu app inicialice un AssociationRequest, ejecuta el siguiente comando:
associate()
en el CompanionDeviceManager. La función associate()
recibe un AssociationRequest y un Callback.
El objeto Callback muestra un
IntentSender en
onAssociationPending cuando CompanionDeviceManager localiza un dispositivo
y está listo para abrir un cuadro
de diálogo de consentimiento del usuario.
Después de que el usuario confirma el dispositivo, se produce una AssociationInfo
del dispositivo se devuelve en onAssociationCreated.
Si la app no encuentra ningún dispositivo, la devolución de llamada mostrará onFailure.
con un mensaje de error.
En dispositivos con Android 13 (nivel de API 33) y versiones posteriores, haz lo siguiente:
Kotlin
val deviceManager =
requireContext().getSystemService(Context.COMPANION_DEVICE_SERVICE)
val executor: Executor = Executor { it.run() }
deviceManager.associate(pairingRequest,
executor,
object : CompanionDeviceManager.Callback() {
// Called when a device is found. Launch the IntentSender so the user
// can select the device they want to pair with.
override fun onAssociationPending(intentSender: IntentSender) {
intentSender?.let {
startIntentSenderForResult(it, SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0)
}
}
override fun onAssociationCreated(associationInfo: AssociationInfo) {
// An association is created.
}
override fun onFailure(errorMessage: CharSequence?) {
// To handle the failure.
}
})
Java
CompanionDeviceManager deviceManager =
(CompanionDeviceManager) getSystemService(Context.COMPANION_DEVICE_SERVICE);
Executor executor = new Executor() {
@Override
public void execute(Runnable runnable) {
runnable.run();
}
};
deviceManager.associate(pairingRequest, new CompanionDeviceManager.Callback() {
executor,
// Called when a device is found. Launch the IntentSender so the user can
// select the device they want to pair with.
@Override
public void onDeviceFound(IntentSender chooserLauncher) {
try {
startIntentSenderForResult(
chooserLauncher, SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0
);
} catch (IntentSender.SendIntentException e) {
Log.e("MainActivity", "Failed to send intent");
}
}
@Override
public void onAssociationCreated(AssociationInfo associationInfo) {
// An association is created.
}
@Override
public void onFailure(CharSequence errorMessage) {
// To handle the failure.
});
En dispositivos que ejecutan Android 12L (nivel de API 32) o versiones anteriores (obsoleto):
Kotlin
val deviceManager =
requireContext().getSystemService(Context.COMPANION_DEVICE_SERVICE)
deviceManager.associate(pairingRequest,
object : CompanionDeviceManager.Callback() {
// Called when a device is found. Launch the IntentSender so the user
// can select the device they want to pair with.
override fun onDeviceFound(chooserLauncher: IntentSender) {
startIntentSenderForResult(chooserLauncher,
SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0)
}
override fun onFailure(error: CharSequence?) {
// To handle the failure.
}
}, null)
Java
CompanionDeviceManager deviceManager =
(CompanionDeviceManager) getSystemService(Context.COMPANION_DEVICE_SERVICE);
deviceManager.associate(pairingRequest, new CompanionDeviceManager.Callback() {
// Called when a device is found. Launch the IntentSender so the user can
// select the device they want to pair with.
@Override
public void onDeviceFound(IntentSender chooserLauncher) {
try {
startIntentSenderForResult(
chooserLauncher, SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0
);
} catch (IntentSender.SendIntentException e) {
Log.e("MainActivity", "Failed to send intent");
}
}
@Override
public void onFailure(CharSequence error) {
// To handle the failure.
}
}, null);
El resultado de la selección del usuario se envía de vuelta al fragmento en la
onActivityResult()
de tu actividad. Luego, podrás acceder al dispositivo seleccionado.
Cuando el usuario selecciona un dispositivo Bluetooth, espera un
BluetoothDevice
Cuando el usuario selecciona un dispositivo Bluetooth LE, espera un
android.bluetooth.le.ScanResult
Cuando el usuario selecciona un dispositivo Wi-Fi, espera un
android.net.wifi.ScanResult
Kotlin
override fun onActivityResult(requestCode: Int, resultCode: Int, data: Intent?) {
when (requestCode) {
SELECT_DEVICE_REQUEST_CODE -> when(resultCode) {
Activity.RESULT_OK -> {
// The user chose to pair the app with a Bluetooth device.
val deviceToPair: BluetoothDevice? =
data?.getParcelableExtra(CompanionDeviceManager.EXTRA_DEVICE)
deviceToPair?.let { device ->
device.createBond()
// Continue to interact with the paired device.
}
}
}
else -> super.onActivityResult(requestCode, resultCode, data)
}
}
Java
@Override
protected void onActivityResult(int requestCode, int resultCode, @Nullable Intent data) {
if (resultCode != Activity.RESULT_OK) {
return;
}
if (requestCode == SELECT_DEVICE_REQUEST_CODE && data != null) {
BluetoothDevice deviceToPair =
data.getParcelableExtra(CompanionDeviceManager.EXTRA_DEVICE);
if (deviceToPair != null) {
deviceToPair.createBond();
// Continue to interact with the paired device.
}
} else {
super.onActivityResult(requestCode, resultCode, data);
}
}
Consulta el ejemplo completo:
En dispositivos con Android 13 (nivel de API 33) y versiones posteriores, haz lo siguiente:
Kotlin
private const val SELECT_DEVICE_REQUEST_CODE = 0
class MainActivity : AppCompatActivity() {
private val deviceManager: CompanionDeviceManager by lazy {
getSystemService(Context.COMPANION_DEVICE_SERVICE) as CompanionDeviceManager
}
val mBluetoothAdapter: BluetoothAdapter by lazy {
val java = BluetoothManager::class.java
getSystemService(java)!!.adapter }
val executor: Executor = Executor { it.run() }
override fun onCreate(savedInstanceState: Bundle?) {
super.onCreate(savedInstanceState)
setContentView(R.layout.activity_main)
// To skip filters based on names and supported feature flags (UUIDs),
// omit calls to setNamePattern() and addServiceUuid()
// respectively, as shown in the following Bluetooth example.
val deviceFilter: BluetoothDeviceFilter = BluetoothDeviceFilter.Builder()
.setNamePattern(Pattern.compile("My device"))
.addServiceUuid(ParcelUuid(UUID(0x123abcL, -1L)), null)
.build()
// The argument provided in setSingleDevice() determines whether a single
// device name or a list of them appears.
val pairingRequest: AssociationRequest = AssociationRequest.Builder()
.addDeviceFilter(deviceFilter)
.setSingleDevice(true)
.build()
// When the app tries to pair with a Bluetooth device, show the
// corresponding dialog box to the user.
deviceManager.associate(pairingRequest,
executor,
object : CompanionDeviceManager.Callback() {
// Called when a device is found. Launch the IntentSender so the user
// can select the device they want to pair with.
override fun onAssociationPending(intentSender: IntentSender) {
intentSender?.let {
startIntentSenderForResult(it, SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0)
}
}
override fun onAssociationCreated(associationInfo: AssociationInfo) {
// AssociationInfo object is created and get association id and the
// macAddress.
var associationId: int = associationInfo.id
var macAddress: MacAddress = associationInfo.deviceMacAddress
}
override fun onFailure(errorMessage: CharSequence?) {
// Handle the failure.
}
)
override fun onActivityResult(requestCode: Int, resultCode: Int, data: Intent?) {
when (requestCode) {
SELECT_DEVICE_REQUEST_CODE -> when(resultCode) {
Activity.RESULT_OK -> {
// The user chose to pair the app with a Bluetooth device.
val deviceToPair: BluetoothDevice? =
data?.getParcelableExtra(CompanionDeviceManager.EXTRA_DEVICE)
deviceToPair?.let { device ->
device.createBond()
// Maintain continuous interaction with a paired device.
}
}
}
else -> super.onActivityResult(requestCode, resultCode, data)
}
}
}
Java
class MainActivityJava extends AppCompatActivity {
private static final int SELECT_DEVICE_REQUEST_CODE = 0;
Executor executor = new Executor() {
@Override
public void execute(Runnable runnable) {
runnable.run();
}
};
@Override
protected void onCreate(@Nullable Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
CompanionDeviceManager deviceManager =
(CompanionDeviceManager) getSystemService(
Context.COMPANION_DEVICE_SERVICE
);
// To skip filtering based on name and supported feature flags,
// do not include calls to setNamePattern() and addServiceUuid(),
// respectively. This example uses Bluetooth.
BluetoothDeviceFilter deviceFilter =
new BluetoothDeviceFilter.Builder()
.setNamePattern(Pattern.compile("My device"))
.addServiceUuid(
new ParcelUuid(new UUID(0x123abcL, -1L)), null
)
.build();
// The argument provided in setSingleDevice() determines whether a single
// device name or a list of device names is presented to the user as
// pairing options.
AssociationRequest pairingRequest = new AssociationRequest.Builder()
.addDeviceFilter(deviceFilter)
.setSingleDevice(true)
.build();
// When the app tries to pair with the Bluetooth device, show the
// appropriate pairing request dialog to the user.
deviceManager.associate(pairingRequest, new CompanionDeviceManager.Callback() {
executor,
// Called when a device is found. Launch the IntentSender so the user can
// select the device they want to pair with.
@Override
public void onDeviceFound(IntentSender chooserLauncher) {
try {
startIntentSenderForResult(
chooserLauncher, SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0
);
} catch (IntentSender.SendIntentException e) {
Log.e("MainActivity", "Failed to send intent");
}
}
@Override
public void onAssociationCreated(AssociationInfo associationInfo) {
// AssociationInfo object is created and get association id and the
// macAddress.
int associationId = associationInfo.getId();
MacAddress macAddress = associationInfo.getDeviceMacAddress();
}
@Override
public void onFailure(CharSequence errorMessage) {
// Handle the failure.
});
}
@Override
protected void onActivityResult(int requestCode, int resultCode, @Nullable Intent data) {
if (resultCode != Activity.RESULT_OK) {
return;
}
if (requestCode == SELECT_DEVICE_REQUEST_CODE) {
if (resultCode == Activity.RESULT_OK && data != null) {
BluetoothDevice deviceToPair = data.getParcelableExtra(
CompanionDeviceManager.EXTRA_DEVICE
);
if (deviceToPair != null) {
deviceToPair.createBond();
// ... Continue interacting with the paired device.
}
}
} else {
super.onActivityResult(requestCode, resultCode, data);
}
}
}
En dispositivos que ejecutan Android 12L (nivel de API 32) o versiones anteriores (obsoleto):
Kotlin
private const val SELECT_DEVICE_REQUEST_CODE = 0
class MainActivity : AppCompatActivity() {
private val deviceManager: CompanionDeviceManager by lazy {
getSystemService(Context.COMPANION_DEVICE_SERVICE) as CompanionDeviceManager
}
override fun onCreate(savedInstanceState: Bundle?) {
super.onCreate(savedInstanceState)
setContentView(R.layout.activity_main)
// To skip filters based on names and supported feature flags (UUIDs),
// omit calls to setNamePattern() and addServiceUuid()
// respectively, as shown in the following Bluetooth example.
val deviceFilter: BluetoothDeviceFilter = BluetoothDeviceFilter.Builder()
.setNamePattern(Pattern.compile("My device"))
.addServiceUuid(ParcelUuid(UUID(0x123abcL, -1L)), null)
.build()
// The argument provided in setSingleDevice() determines whether a single
// device name or a list of them appears.
val pairingRequest: AssociationRequest = AssociationRequest.Builder()
.addDeviceFilter(deviceFilter)
.setSingleDevice(true)
.build()
// When the app tries to pair with a Bluetooth device, show the
// corresponding dialog box to the user.
deviceManager.associate(pairingRequest,
object : CompanionDeviceManager.Callback() {
override fun onDeviceFound(chooserLauncher: IntentSender) {
startIntentSenderForResult(chooserLauncher,
SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0)
}
override fun onFailure(error: CharSequence?) {
// Handle the failure.
}
}, null)
}
override fun onActivityResult(requestCode: Int, resultCode: Int, data: Intent?) {
when (requestCode) {
SELECT_DEVICE_REQUEST_CODE -> when(resultCode) {
Activity.RESULT_OK -> {
// The user chose to pair the app with a Bluetooth device.
val deviceToPair: BluetoothDevice? =
data?.getParcelableExtra(CompanionDeviceManager.EXTRA_DEVICE)
deviceToPair?.let { device ->
device.createBond()
// Maintain continuous interaction with a paired device.
}
}
}
else -> super.onActivityResult(requestCode, resultCode, data)
}
}
}
Java
class MainActivityJava extends AppCompatActivity {
private static final int SELECT_DEVICE_REQUEST_CODE = 0;
@Override
protected void onCreate(@Nullable Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
CompanionDeviceManager deviceManager =
(CompanionDeviceManager) getSystemService(
Context.COMPANION_DEVICE_SERVICE
);
// To skip filtering based on name and supported feature flags,
// don't include calls to setNamePattern() and addServiceUuid(),
// respectively. This example uses Bluetooth.
BluetoothDeviceFilter deviceFilter =
new BluetoothDeviceFilter.Builder()
.setNamePattern(Pattern.compile("My device"))
.addServiceUuid(
new ParcelUuid(new UUID(0x123abcL, -1L)), null
)
.build();
// The argument provided in setSingleDevice() determines whether a single
// device name or a list of device names is presented to the user as
// pairing options.
AssociationRequest pairingRequest = new AssociationRequest.Builder()
.addDeviceFilter(deviceFilter)
.setSingleDevice(true)
.build();
// When the app tries to pair with the Bluetooth device, show the
// appropriate pairing request dialog to the user.
deviceManager.associate(pairingRequest,
new CompanionDeviceManager.Callback() {
@Override
public void onDeviceFound(IntentSender chooserLauncher) {
try {
startIntentSenderForResult(chooserLauncher,
SELECT_DEVICE_REQUEST_CODE, null, 0, 0, 0);
} catch (IntentSender.SendIntentException e) {
// failed to send the intent
}
}
@Override
public void onFailure(CharSequence error) {
// handle failure to find the companion device
}
}, null);
}
@Override
protected void onActivityResult(int requestCode, int resultCode, @Nullable Intent data) {
if (requestCode == SELECT_DEVICE_REQUEST_CODE) {
if (resultCode == Activity.RESULT_OK && data != null) {
BluetoothDevice deviceToPair = data.getParcelableExtra(
CompanionDeviceManager.EXTRA_DEVICE
);
if (deviceToPair != null) {
deviceToPair.createBond();
// ... Continue interacting with the paired device.
}
}
} else {
super.onActivityResult(requestCode, resultCode, data);
}
}
}
Perfiles de dispositivos complementarios
En Android 12 (nivel de API 31) y versiones posteriores, las aplicaciones complementarias que administran dispositivos como relojes pueden usar perfiles de dispositivos complementarios para optimizar el proceso de configuración otorgando los permisos necesarios durante la vinculación. Para obtener más información, consulta Perfiles de dispositivo complementario.
Mantén activas las apps complementarias
En Android 12 (nivel de API 31) y versiones posteriores, puedes usar APIs adicionales para ayudarte la aplicación complementaria permanece activa mientras el dispositivo está dentro del alcance. Estas APIs te permiten hacer lo siguiente:
Activa la app cuando un dispositivo complementario esté dentro del alcance.
Para obtener más información, consulta
CompanionDeviceManager.startObservingDevicePresence().Garantizan que el proceso de una app continúe ejecutándose mientras la app complementaria el dispositivo se mantenga dentro del alcance.
Para obtener más información, consulta
CompanionDeviceService.onDeviceAppeared().