配套设备配对

在搭载 Android 8.0(API 级别 26)及更高版本的设备上,配套设备配对会代表您的应用对附近的设备执行蓝牙或 Wi-Fi 扫描,而不需要 ACCESS_FINE_LOCATION 权限。这有助于最大限度地保护用户隐私。使用此方法可对配套设备(例如支持 BLE 的智能手表)执行初始配置。此外,配对配套设备需要启用位置信息服务。

配对配套设备不会自行创建连接,也不会启用连续扫描。应用可以使用蓝牙或 Wi-Fi 连接 API 建立连接。

配对设备后,设备可以使用 REQUEST_COMPANION_RUN_IN_BACKGROUNDREQUEST_COMPANION_USE_DATA_IN_BACKGROUND 权限从后台启动应用。应用还可以使用 REQUEST_COMPANION_START_FOREGROUND_SERVICES_FROM_BACKGROUND 权限从后台启动前台服务。

用户可以从列表中选择设备,并向应用授予访问该设备的权限。如果您卸载应用或调用 disassociate(),系统会撤消这些权限。如果用户不再需要配套应用的关联(例如在用户退出账号或移除已绑定的设备时),配套应用负责清除自己的关联。

实现配套设备配对

本部分介绍了如何使用 CompanionDeviceManager 通过蓝牙、BLE 和 Wi-Fi 将应用与配套设备配对。

指定配套设备

以下代码示例展示了如何将 <uses-feature> 标志添加到清单文件中。这会告知系统您的应用打算设置配套设备。

<uses-feature android:name="android.software.companion_device_setup"/>

DeviceFilter 列出设备

您可以显示与您提供的 DeviceFilter 匹配的所有在范围内的配套设备(如图 1 所示)。如果您想将扫描范围限制为一台设备,可以将 setSingleDevice() 设为 true(如图 2 所示)。

配套设备配对
图 1. 配套设备配对
单设备配对
图 2. 单设备配对

以下是可在 AssociationRequest 中指定的 DeviceFilter 的子类:

这三个子类都有用于简化过滤器配置的构建器。在以下示例中,设备使用 BluetoothDeviceFilter 扫描蓝牙设备。

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();

DeviceFilter 设置为 AssociationRequest,以便 CompanionDeviceManager 确定要搜索的设备类型。

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();

应用初始化 AssociationRequest 后,请对 CompanionDeviceManager 运行 associate() 函数。associate() 函数接受 AssociationRequestCallback

CompanionDeviceManager 定位到设备且准备好启动用户意见征求对话框时,Callback 会在 onAssociationPending 中返回 IntentSender。用户确认设备后,系统会在 onAssociationCreated 中返回设备的 AssociationInfo。如果您的应用找不到任何设备,回调会返回 onFailure 和错误消息。

在搭载 Android 13(API 级别 33)及更高版本的设备上:

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.
    });

在搭载 Android 12L(API 级别 32)或更低版本的设备上(已废弃):

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);

用户选择的结果会发送回 activity 的 onActivityResult() 中的 fragment。然后,您就可以访问所选设备了。

当用户选择蓝牙设备时,应显示 BluetoothDevice。当用户选择蓝牙 LE 设备时,应显示 android.bluetooth.le.ScanResult。当用户选择 Wi-Fi 设备时,应显示 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);
    }
}

请参阅完整示例:

在搭载 Android 13(API 级别 33)及更高版本的设备上:

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);
        }
    }
}

在搭载 Android 12L(API 级别 32)或更低版本的设备上(已废弃):

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);
        }
    }
}

配套设备配置文件

在 Android 12(API 级别 31)及更高版本中,用于管理手表等设备的配套应用可以使用配套设备配置文件,通过在配对时授予必要的权限来简化设置流程。如需了解详情,请参阅配套设备配置文件

使配套应用保持唤醒状态

在 Android 12(API 级别 31)及更高版本中,您可以使用其他 API 来帮助配套应用在配套设备在范围内时保持运行。借助这些 API,您可以执行以下操作: