/* * Copyright (C) 2012 The Android Open Source Project * * 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. */ package com.android.bluetooth.btservice; import static com.android.bluetooth.Utils.addressToBytes; import static com.android.bluetooth.Utils.callerIsSystemOrActiveOrManagedUser; import static com.android.bluetooth.Utils.callerIsSystemOrActiveUser; import static com.android.bluetooth.Utils.enforceBluetoothAdminPermission; import static com.android.bluetooth.Utils.enforceBluetoothPermission; import static com.android.bluetooth.Utils.enforceBluetoothPrivilegedPermission; import static com.android.bluetooth.Utils.enforceDumpPermission; import static com.android.bluetooth.Utils.enforceLocalMacAddressPermission; import android.annotation.Nullable; import android.app.ActivityManager; import android.app.AlarmManager; import android.app.AppOpsManager; import android.app.PendingIntent; import android.app.PropertyInvalidatedCache; import android.app.Service; import android.app.admin.DevicePolicyManager; import android.bluetooth.BluetoothActivityEnergyInfo; import android.bluetooth.BluetoothAdapter; import android.bluetooth.BluetoothAdapter.ActiveDeviceUse; import android.bluetooth.BluetoothClass; import android.bluetooth.BluetoothDevice; import android.bluetooth.BluetoothProfile; import android.bluetooth.BluetoothProtoEnums; import android.bluetooth.BluetoothUuid; import android.bluetooth.IBluetooth; import android.bluetooth.IBluetoothCallback; import android.bluetooth.IBluetoothMetadataListener; import android.bluetooth.IBluetoothSocketManager; import android.bluetooth.OobData; import android.bluetooth.UidTraffic; import android.content.BroadcastReceiver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.SharedPreferences; import android.content.pm.PackageManager; import android.os.AsyncTask; import android.os.BatteryStats; import android.os.Binder; import android.os.Bundle; import android.os.Handler; import android.os.IBinder; import android.os.Looper; import android.os.Message; import android.os.ParcelUuid; import android.os.PowerManager; import android.os.RemoteCallbackList; import android.os.RemoteException; import android.os.ResultReceiver; import android.os.ServiceManager; import android.os.SystemClock; import android.os.SystemProperties; import android.os.UserHandle; import android.os.UserManager; import android.provider.Settings; import android.text.TextUtils; import android.util.Base64; import android.util.Log; import android.util.SparseArray; import com.android.bluetooth.BluetoothMetricsProto; import com.android.bluetooth.BluetoothStatsLog; import com.android.bluetooth.Utils; import com.android.bluetooth.a2dp.A2dpService; import com.android.bluetooth.a2dpsink.A2dpSinkService; import com.android.bluetooth.btservice.RemoteDevices.DeviceProperties; import com.android.bluetooth.btservice.bluetoothkeystore.BluetoothKeystoreService; import com.android.bluetooth.btservice.storage.DatabaseManager; import com.android.bluetooth.btservice.storage.MetadataDatabase; import com.android.bluetooth.gatt.GattService; import com.android.bluetooth.hearingaid.HearingAidService; import com.android.bluetooth.hfp.HeadsetService; import com.android.bluetooth.hfpclient.HeadsetClientService; import com.android.bluetooth.hid.HidDeviceService; import com.android.bluetooth.hid.HidHostService; import com.android.bluetooth.map.BluetoothMapService; import com.android.bluetooth.mapclient.MapClientService; import com.android.bluetooth.pan.PanService; import com.android.bluetooth.pbap.BluetoothPbapService; import com.android.bluetooth.pbapclient.PbapClientService; import com.android.bluetooth.sap.SapService; import com.android.bluetooth.sdp.SdpManager; import com.android.internal.R; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.app.IBatteryStats; import com.android.internal.util.ArrayUtils; import com.google.protobuf.InvalidProtocolBufferException; import java.io.FileDescriptor; import java.io.FileOutputStream; import java.io.IOException; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; import java.util.HashMap; import java.util.List; public class AdapterService extends Service { private static final String TAG = "BluetoothAdapterService"; private static final boolean DBG = true; private static final boolean VERBOSE = false; private static final int MIN_ADVT_INSTANCES_FOR_MA = 5; private static final int MIN_OFFLOADED_FILTERS = 10; private static final int MIN_OFFLOADED_SCAN_STORAGE_BYTES = 1024; private final Object mEnergyInfoLock = new Object(); private int mStackReportedState; private long mTxTimeTotalMs; private long mRxTimeTotalMs; private long mIdleTimeTotalMs; private long mEnergyUsedTotalVoltAmpSecMicro; private final SparseArray mUidTraffic = new SparseArray<>(); private final ArrayList mRegisteredProfiles = new ArrayList<>(); private final ArrayList mRunningProfiles = new ArrayList<>(); public static final String ACTION_LOAD_ADAPTER_PROPERTIES = "com.android.bluetooth.btservice.action.LOAD_ADAPTER_PROPERTIES"; public static final String ACTION_SERVICE_STATE_CHANGED = "com.android.bluetooth.btservice.action.STATE_CHANGED"; public static final String EXTRA_ACTION = "action"; public static final int PROFILE_CONN_REJECTED = 2; private static final String ACTION_ALARM_WAKEUP = "com.android.bluetooth.btservice.action.ALARM_WAKEUP"; static final String BLUETOOTH_BTSNOOP_LOG_MODE_PROPERTY = "persist.bluetooth.btsnooplogmode"; static final String BLUETOOTH_BTSNOOP_DEFAULT_MODE_PROPERTY = "persist.bluetooth.btsnoopdefaultmode"; private String mSnoopLogSettingAtEnable = "empty"; private String mDefaultSnoopLogSettingAtEnable = "empty"; public static final String BLUETOOTH_ADMIN_PERM = android.Manifest.permission.BLUETOOTH_ADMIN; public static final String BLUETOOTH_PRIVILEGED = android.Manifest.permission.BLUETOOTH_PRIVILEGED; static final String BLUETOOTH_PERM = android.Manifest.permission.BLUETOOTH; static final String LOCAL_MAC_ADDRESS_PERM = android.Manifest.permission.LOCAL_MAC_ADDRESS; static final String RECEIVE_MAP_PERM = android.Manifest.permission.RECEIVE_BLUETOOTH_MAP; private static final String PHONEBOOK_ACCESS_PERMISSION_PREFERENCE_FILE = "phonebook_access_permission"; private static final String MESSAGE_ACCESS_PERMISSION_PREFERENCE_FILE = "message_access_permission"; private static final String SIM_ACCESS_PERMISSION_PREFERENCE_FILE = "sim_access_permission"; private static final int CONTROLLER_ENERGY_UPDATE_TIMEOUT_MILLIS = 30; private final ArrayList mDiscoveringPackages = new ArrayList<>(); static { classInitNative(); } private static AdapterService sAdapterService; public static synchronized AdapterService getAdapterService() { Log.d(TAG, "getAdapterService() - returning " + sAdapterService); return sAdapterService; } private static synchronized void setAdapterService(AdapterService instance) { Log.d(TAG, "setAdapterService() - trying to set service to " + instance); if (instance == null) { return; } sAdapterService = instance; } private static synchronized void clearAdapterService(AdapterService current) { if (sAdapterService == current) { sAdapterService = null; } } private AdapterProperties mAdapterProperties; private AdapterState mAdapterStateMachine; private BondStateMachine mBondStateMachine; private JniCallbacks mJniCallbacks; private RemoteDevices mRemoteDevices; /* TODO: Consider to remove the search API from this class, if changed to use call-back */ private SdpManager mSdpManager = null; private boolean mNativeAvailable; private boolean mCleaningUp; private final HashMap> mMetadataListeners = new HashMap<>(); private final HashMap mProfileServicesState = new HashMap(); //Only BluetoothManagerService should be registered private RemoteCallbackList mCallbacks; private int mCurrentRequestId; private boolean mQuietmode = false; private AlarmManager mAlarmManager; private PendingIntent mPendingAlarm; private IBatteryStats mBatteryStats; private PowerManager mPowerManager; private PowerManager.WakeLock mWakeLock; private String mWakeLockName; private UserManager mUserManager; private PhonePolicy mPhonePolicy; private ActiveDeviceManager mActiveDeviceManager; private DatabaseManager mDatabaseManager; private SilenceDeviceManager mSilenceDeviceManager; private AppOpsManager mAppOps; private BluetoothSocketManagerBinder mBluetoothSocketManagerBinder; private BluetoothKeystoreService mBluetoothKeystoreService; private A2dpService mA2dpService; private A2dpSinkService mA2dpSinkService; private HeadsetService mHeadsetService; private HeadsetClientService mHeadsetClientService; private BluetoothMapService mMapService; private MapClientService mMapClientService; private HidDeviceService mHidDeviceService; private HidHostService mHidHostService; private PanService mPanService; private BluetoothPbapService mPbapService; private PbapClientService mPbapClientService; private HearingAidService mHearingAidService; private SapService mSapService; /** * Register a {@link ProfileService} with AdapterService. * * @param profile the service being added. */ public void addProfile(ProfileService profile) { mHandler.obtainMessage(MESSAGE_PROFILE_SERVICE_REGISTERED, profile).sendToTarget(); } /** * Unregister a ProfileService with AdapterService. * * @param profile the service being removed. */ public void removeProfile(ProfileService profile) { mHandler.obtainMessage(MESSAGE_PROFILE_SERVICE_UNREGISTERED, profile).sendToTarget(); } /** * Notify AdapterService that a ProfileService has started or stopped. * * @param profile the service being removed. * @param state {@link BluetoothAdapter#STATE_ON} or {@link BluetoothAdapter#STATE_OFF} */ public void onProfileServiceStateChanged(ProfileService profile, int state) { if (state != BluetoothAdapter.STATE_ON && state != BluetoothAdapter.STATE_OFF) { throw new IllegalArgumentException(BluetoothAdapter.nameForState(state)); } Message m = mHandler.obtainMessage(MESSAGE_PROFILE_SERVICE_STATE_CHANGED); m.obj = profile; m.arg1 = state; mHandler.sendMessage(m); } private static final int MESSAGE_PROFILE_SERVICE_STATE_CHANGED = 1; private static final int MESSAGE_PROFILE_SERVICE_REGISTERED = 2; private static final int MESSAGE_PROFILE_SERVICE_UNREGISTERED = 3; class AdapterServiceHandler extends Handler { @Override public void handleMessage(Message msg) { verboseLog("handleMessage() - Message: " + msg.what); switch (msg.what) { case MESSAGE_PROFILE_SERVICE_STATE_CHANGED: verboseLog("handleMessage() - MESSAGE_PROFILE_SERVICE_STATE_CHANGED"); processProfileServiceStateChanged((ProfileService) msg.obj, msg.arg1); break; case MESSAGE_PROFILE_SERVICE_REGISTERED: verboseLog("handleMessage() - MESSAGE_PROFILE_SERVICE_REGISTERED"); registerProfileService((ProfileService) msg.obj); break; case MESSAGE_PROFILE_SERVICE_UNREGISTERED: verboseLog("handleMessage() - MESSAGE_PROFILE_SERVICE_UNREGISTERED"); unregisterProfileService((ProfileService) msg.obj); break; } } private void registerProfileService(ProfileService profile) { if (mRegisteredProfiles.contains(profile)) { Log.e(TAG, profile.getName() + " already registered."); return; } mRegisteredProfiles.add(profile); } private void unregisterProfileService(ProfileService profile) { if (!mRegisteredProfiles.contains(profile)) { Log.e(TAG, profile.getName() + " not registered (UNREGISTER)."); return; } mRegisteredProfiles.remove(profile); } private void processProfileServiceStateChanged(ProfileService profile, int state) { switch (state) { case BluetoothAdapter.STATE_ON: if (!mRegisteredProfiles.contains(profile)) { Log.e(TAG, profile.getName() + " not registered (STATE_ON)."); return; } if (mRunningProfiles.contains(profile)) { Log.e(TAG, profile.getName() + " already running."); return; } mRunningProfiles.add(profile); if (GattService.class.getSimpleName().equals(profile.getName())) { enableNative(); } else if (mRegisteredProfiles.size() == Config.getSupportedProfiles().length && mRegisteredProfiles.size() == mRunningProfiles.size()) { mAdapterProperties.onBluetoothReady(); updateUuids(); setBluetoothClassFromConfig(); initProfileServices(); getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_LOCAL_IO_CAPS); getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_LOCAL_IO_CAPS_BLE); mAdapterStateMachine.sendMessage(AdapterState.BREDR_STARTED); } break; case BluetoothAdapter.STATE_OFF: if (!mRegisteredProfiles.contains(profile)) { Log.e(TAG, profile.getName() + " not registered (STATE_OFF)."); return; } if (!mRunningProfiles.contains(profile)) { Log.e(TAG, profile.getName() + " not running."); return; } mRunningProfiles.remove(profile); // If only GATT is left, send BREDR_STOPPED. if ((mRunningProfiles.size() == 1 && (GattService.class.getSimpleName() .equals(mRunningProfiles.get(0).getName())))) { mAdapterStateMachine.sendMessage(AdapterState.BREDR_STOPPED); } else if (mRunningProfiles.size() == 0) { disableNative(); } break; default: Log.e(TAG, "Unhandled profile state: " + state); } } } private final AdapterServiceHandler mHandler = new AdapterServiceHandler(); private void updateInteropDatabase() { interopDatabaseClearNative(); String interopString = Settings.Global.getString(getContentResolver(), Settings.Global.BLUETOOTH_INTEROPERABILITY_LIST); if (interopString == null) { return; } Log.d(TAG, "updateInteropDatabase: [" + interopString + "]"); String[] entries = interopString.split(";"); for (String entry : entries) { String[] tokens = entry.split(","); if (tokens.length != 2) { continue; } // Get feature int feature = 0; try { feature = Integer.parseInt(tokens[1]); } catch (NumberFormatException e) { Log.e(TAG, "updateInteropDatabase: Invalid feature '" + tokens[1] + "'"); continue; } // Get address bytes and length int length = (tokens[0].length() + 1) / 3; if (length < 1 || length > 6) { Log.e(TAG, "updateInteropDatabase: Malformed address string '" + tokens[0] + "'"); continue; } byte[] addr = new byte[6]; int offset = 0; for (int i = 0; i < tokens[0].length(); ) { if (tokens[0].charAt(i) == ':') { i += 1; } else { try { addr[offset++] = (byte) Integer.parseInt(tokens[0].substring(i, i + 2), 16); } catch (NumberFormatException e) { offset = 0; break; } i += 2; } } // Check if address was parsed ok, otherwise, move on... if (offset == 0) { continue; } // Add entry interopDatabaseAddNative(feature, addr, length); } } @Override public void onCreate() { super.onCreate(); debugLog("onCreate()"); mRemoteDevices = new RemoteDevices(this, Looper.getMainLooper()); mRemoteDevices.init(); clearDiscoveringPackages(); mBinder = new AdapterServiceBinder(this); mAdapterProperties = new AdapterProperties(this); mAdapterStateMachine = AdapterState.make(this); mJniCallbacks = new JniCallbacks(this, mAdapterProperties); mBluetoothKeystoreService = new BluetoothKeystoreService(isNiapMode()); mBluetoothKeystoreService.start(); int configCompareResult = mBluetoothKeystoreService.getCompareResult(); initNative(isGuest(), isNiapMode(), configCompareResult); mNativeAvailable = true; mCallbacks = new RemoteCallbackList(); mAppOps = getSystemService(AppOpsManager.class); //Load the name and address getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_BDADDR); getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_BDNAME); getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_CLASS_OF_DEVICE); mAlarmManager = (AlarmManager) getSystemService(Context.ALARM_SERVICE); mPowerManager = (PowerManager) getSystemService(Context.POWER_SERVICE); mUserManager = (UserManager) getSystemService(Context.USER_SERVICE); mBatteryStats = IBatteryStats.Stub.asInterface( ServiceManager.getService(BatteryStats.SERVICE_NAME)); mBluetoothKeystoreService.initJni(); mSdpManager = SdpManager.init(this); registerReceiver(mAlarmBroadcastReceiver, new IntentFilter(ACTION_ALARM_WAKEUP)); // Phone policy is specific to phone implementations and hence if a device wants to exclude // it out then it can be disabled by using the flag below. if (getResources().getBoolean(com.android.bluetooth.R.bool.enable_phone_policy)) { Log.i(TAG, "Phone policy enabled"); mPhonePolicy = new PhonePolicy(this, new ServiceFactory()); mPhonePolicy.start(); } else { Log.i(TAG, "Phone policy disabled"); } mActiveDeviceManager = new ActiveDeviceManager(this, new ServiceFactory()); mActiveDeviceManager.start(); mDatabaseManager = new DatabaseManager(this); mDatabaseManager.start(MetadataDatabase.createDatabase(this)); mSilenceDeviceManager = new SilenceDeviceManager(this, new ServiceFactory(), Looper.getMainLooper()); mSilenceDeviceManager.start(); mBluetoothSocketManagerBinder = new BluetoothSocketManagerBinder(this); setAdapterService(this); invalidateBluetoothCaches(); // First call to getSharedPreferences will result in a file read into // memory cache. Call it here asynchronously to avoid potential ANR // in the future new AsyncTask() { @Override protected Void doInBackground(Void... params) { getSharedPreferences(PHONEBOOK_ACCESS_PERMISSION_PREFERENCE_FILE, Context.MODE_PRIVATE); getSharedPreferences(MESSAGE_ACCESS_PERMISSION_PREFERENCE_FILE, Context.MODE_PRIVATE); getSharedPreferences(SIM_ACCESS_PERMISSION_PREFERENCE_FILE, Context.MODE_PRIVATE); return null; } }.execute(); try { int systemUiUid = getApplicationContext().getPackageManager().getPackageUid( "com.android.systemui", PackageManager.MATCH_SYSTEM_ONLY); Utils.setSystemUiUid(systemUiUid); } catch (PackageManager.NameNotFoundException e) { // Some platforms, such as wearables do not have a system ui. Log.w(TAG, "Unable to resolve SystemUI's UID.", e); } IntentFilter filter = new IntentFilter(Intent.ACTION_USER_SWITCHED); getApplicationContext().registerReceiverForAllUsers(sUserSwitchedReceiver, filter, null, null); int fuid = ActivityManager.getCurrentUser(); Utils.setForegroundUserId(fuid); } @Override public IBinder onBind(Intent intent) { debugLog("onBind()"); return mBinder; } @Override public boolean onUnbind(Intent intent) { debugLog("onUnbind() - calling cleanup"); cleanup(); return super.onUnbind(intent); } @Override public void onDestroy() { debugLog("onDestroy()"); if (!isMock()) { // TODO(b/27859763) Log.i(TAG, "Force exit to cleanup internal state in Bluetooth stack"); System.exit(0); } } public static final BroadcastReceiver sUserSwitchedReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { if (Intent.ACTION_USER_SWITCHED.equals(intent.getAction())) { int fuid = intent.getIntExtra(Intent.EXTRA_USER_HANDLE, 0); Utils.setForegroundUserId(fuid); } } }; void bringUpBle() { debugLog("bleOnProcessStart()"); if (getResources().getBoolean( R.bool.config_bluetooth_reload_supported_profiles_when_enabled)) { Config.init(getApplicationContext()); } // Reset |mRemoteDevices| whenever BLE is turned off then on // This is to replace the fact that |mRemoteDevices| was // reinitialized in previous code. // // TODO(apanicke): The reason is unclear but // I believe it is to clear the variable every time BLE was // turned off then on. The same effect can be achieved by // calling cleanup but this may not be necessary at all // We should figure out why this is needed later mRemoteDevices.reset(); mAdapterProperties.init(mRemoteDevices); debugLog("bleOnProcessStart() - Make Bond State Machine"); mBondStateMachine = BondStateMachine.make(this, mAdapterProperties, mRemoteDevices); mJniCallbacks.init(mBondStateMachine, mRemoteDevices); try { mBatteryStats.noteResetBleScan(); } catch (RemoteException e) { Log.w(TAG, "RemoteException trying to send a reset to BatteryStats"); } BluetoothStatsLog.write_non_chained(BluetoothStatsLog.BLE_SCAN_STATE_CHANGED, -1, null, BluetoothStatsLog.BLE_SCAN_STATE_CHANGED__STATE__RESET, false, false, false); //Start Gatt service setProfileServiceState(GattService.class, BluetoothAdapter.STATE_ON); } void bringDownBle() { stopGattProfileService(); } void stateChangeCallback(int status) { if (status == AbstractionLayer.BT_STATE_OFF) { debugLog("stateChangeCallback: disableNative() completed"); mAdapterStateMachine.sendMessage(AdapterState.BLE_STOPPED); } else if (status == AbstractionLayer.BT_STATE_ON) { mAdapterStateMachine.sendMessage(AdapterState.BLE_STARTED); } else { Log.e(TAG, "Incorrect status " + status + " in stateChangeCallback"); } } /** * Sets the Bluetooth CoD value of the local adapter if there exists a config value for it. */ void setBluetoothClassFromConfig() { int bluetoothClassConfig = retrieveBluetoothClassConfig(); if (bluetoothClassConfig != 0) { mAdapterProperties.setBluetoothClass(new BluetoothClass(bluetoothClassConfig)); } } private int retrieveBluetoothClassConfig() { return Settings.Global.getInt( getContentResolver(), Settings.Global.BLUETOOTH_CLASS_OF_DEVICE, 0); } void startProfileServices() { debugLog("startCoreServices()"); Class[] supportedProfileServices = Config.getSupportedProfiles(); if (supportedProfileServices.length == 1 && GattService.class.getSimpleName() .equals(supportedProfileServices[0].getSimpleName())) { mAdapterProperties.onBluetoothReady(); updateUuids(); setBluetoothClassFromConfig(); mAdapterStateMachine.sendMessage(AdapterState.BREDR_STARTED); } else { setAllProfileServiceStates(supportedProfileServices, BluetoothAdapter.STATE_ON); } } void stopProfileServices() { // Make sure to stop classic background tasks now cancelDiscoveryNative(); mAdapterProperties.setScanMode(AbstractionLayer.BT_SCAN_MODE_NONE); Class[] supportedProfileServices = Config.getSupportedProfiles(); if (supportedProfileServices.length == 1 && (mRunningProfiles.size() == 1 && GattService.class.getSimpleName().equals(mRunningProfiles.get(0).getName()))) { debugLog("stopProfileServices() - No profiles services to stop or already stopped."); mAdapterStateMachine.sendMessage(AdapterState.BREDR_STOPPED); } else { setAllProfileServiceStates(supportedProfileServices, BluetoothAdapter.STATE_OFF); } } private void stopGattProfileService() { mAdapterProperties.onBleDisable(); if (mRunningProfiles.size() == 0) { debugLog("stopGattProfileService() - No profiles services to stop."); mAdapterStateMachine.sendMessage(AdapterState.BLE_STOPPED); } setProfileServiceState(GattService.class, BluetoothAdapter.STATE_OFF); } private void invalidateBluetoothGetStateCache() { BluetoothAdapter.invalidateBluetoothGetStateCache(); } void updateAdapterState(int prevState, int newState) { mAdapterProperties.setState(newState); invalidateBluetoothGetStateCache(); if (mCallbacks != null) { int n = mCallbacks.beginBroadcast(); debugLog("updateAdapterState() - Broadcasting state " + BluetoothAdapter.nameForState( newState) + " to " + n + " receivers."); for (int i = 0; i < n; i++) { try { mCallbacks.getBroadcastItem(i).onBluetoothStateChange(prevState, newState); } catch (RemoteException e) { debugLog("updateAdapterState() - Callback #" + i + " failed (" + e + ")"); } } mCallbacks.finishBroadcast(); } // Turn the Adapter all the way off if we are disabling and the snoop log setting changed. if (newState == BluetoothAdapter.STATE_BLE_TURNING_ON) { mSnoopLogSettingAtEnable = SystemProperties.get(BLUETOOTH_BTSNOOP_LOG_MODE_PROPERTY, "empty"); mDefaultSnoopLogSettingAtEnable = Settings.Global.getString(getContentResolver(), Settings.Global.BLUETOOTH_BTSNOOP_DEFAULT_MODE); SystemProperties.set(BLUETOOTH_BTSNOOP_DEFAULT_MODE_PROPERTY, mDefaultSnoopLogSettingAtEnable); } else if (newState == BluetoothAdapter.STATE_BLE_ON && prevState != BluetoothAdapter.STATE_OFF) { String snoopLogSetting = SystemProperties.get(BLUETOOTH_BTSNOOP_LOG_MODE_PROPERTY, "empty"); String snoopDefaultModeSetting = Settings.Global.getString(getContentResolver(), Settings.Global.BLUETOOTH_BTSNOOP_DEFAULT_MODE); if (!TextUtils.equals(mSnoopLogSettingAtEnable, snoopLogSetting) || !TextUtils.equals(mDefaultSnoopLogSettingAtEnable, snoopDefaultModeSetting)) { mAdapterStateMachine.sendMessage(AdapterState.BLE_TURN_OFF); } } } void cleanup() { debugLog("cleanup()"); if (mCleaningUp) { errorLog("cleanup() - Service already starting to cleanup, ignoring request..."); return; } clearAdapterService(this); mCleaningUp = true; invalidateBluetoothCaches(); unregisterReceiver(mAlarmBroadcastReceiver); if (mPendingAlarm != null) { mAlarmManager.cancel(mPendingAlarm); mPendingAlarm = null; } // This wake lock release may also be called concurrently by // {@link #releaseWakeLock(String lockName)}, so a synchronization is needed here. synchronized (this) { if (mWakeLock != null) { if (mWakeLock.isHeld()) { mWakeLock.release(); } mWakeLock = null; } } if (mDatabaseManager != null) { mDatabaseManager.cleanup(); } if (mAdapterStateMachine != null) { mAdapterStateMachine.doQuit(); } if (mBondStateMachine != null) { mBondStateMachine.doQuit(); } if (mRemoteDevices != null) { mRemoteDevices.cleanup(); } if (mSdpManager != null) { mSdpManager.cleanup(); mSdpManager = null; } if (mBluetoothKeystoreService != null) { mBluetoothKeystoreService.cleanup(); } if (mNativeAvailable) { debugLog("cleanup() - Cleaning up adapter native"); cleanupNative(); mNativeAvailable = false; } if (mAdapterProperties != null) { mAdapterProperties.cleanup(); } if (mJniCallbacks != null) { mJniCallbacks.cleanup(); } if (mPhonePolicy != null) { mPhonePolicy.cleanup(); } if (mSilenceDeviceManager != null) { mSilenceDeviceManager.cleanup(); } if (mActiveDeviceManager != null) { mActiveDeviceManager.cleanup(); } if (mProfileServicesState != null) { mProfileServicesState.clear(); } if (mBluetoothSocketManagerBinder != null) { mBluetoothSocketManagerBinder.cleanUp(); mBluetoothSocketManagerBinder = null; } if (mBinder != null) { mBinder.cleanup(); mBinder = null; //Do not remove. Otherwise Binder leak! } if (mCallbacks != null) { mCallbacks.kill(); } } private void invalidateBluetoothCaches() { BluetoothAdapter.invalidateGetProfileConnectionStateCache(); BluetoothAdapter.invalidateIsOffloadedFilteringSupportedCache(); BluetoothDevice.invalidateBluetoothGetBondStateCache(); BluetoothAdapter.invalidateBluetoothGetStateCache(); } private void setProfileServiceState(Class service, int state) { Intent intent = new Intent(this, service); intent.putExtra(EXTRA_ACTION, ACTION_SERVICE_STATE_CHANGED); intent.putExtra(BluetoothAdapter.EXTRA_STATE, state); startService(intent); } private void setAllProfileServiceStates(Class[] services, int state) { for (Class service : services) { if (GattService.class.getSimpleName().equals(service.getSimpleName())) { continue; } setProfileServiceState(service, state); } } /** * Verifies whether the profile is supported by the local bluetooth adapter by checking a * bitmask of its supported profiles * * @param remoteDeviceUuids is an array of all supported profiles by the remote device * @param localDeviceUuids is an array of all supported profiles by the local device * @param profile is the profile we are checking for support * @param device is the remote device we wish to connect to * @return true if the profile is supported by both the local and remote device, false otherwise */ private boolean isSupported(ParcelUuid[] localDeviceUuids, ParcelUuid[] remoteDeviceUuids, int profile, BluetoothDevice device) { if (remoteDeviceUuids == null || remoteDeviceUuids.length == 0) { Log.e(TAG, "isSupported: Remote Device Uuids Empty"); } if (profile == BluetoothProfile.HEADSET) { return (ArrayUtils.contains(localDeviceUuids, BluetoothUuid.HSP_AG) && ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.HSP)) || (ArrayUtils.contains(localDeviceUuids, BluetoothUuid.HFP_AG) && ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.HFP)); } if (profile == BluetoothProfile.HEADSET_CLIENT) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.HFP_AG) && ArrayUtils.contains(localDeviceUuids, BluetoothUuid.HFP); } if (profile == BluetoothProfile.A2DP) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.ADV_AUDIO_DIST) || ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.A2DP_SINK); } if (profile == BluetoothProfile.A2DP_SINK) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.ADV_AUDIO_DIST) || ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.A2DP_SOURCE); } if (profile == BluetoothProfile.OPP) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.OBEX_OBJECT_PUSH); } if (profile == BluetoothProfile.HID_HOST) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.HID) || ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.HOGP); } if (profile == BluetoothProfile.HID_DEVICE) { return mHidDeviceService.getConnectionState(device) == BluetoothProfile.STATE_DISCONNECTED; } if (profile == BluetoothProfile.PAN) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.NAP); } if (profile == BluetoothProfile.MAP) { return mMapService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED; } if (profile == BluetoothProfile.PBAP) { return mPbapService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED; } if (profile == BluetoothProfile.MAP_CLIENT) { return true; } if (profile == BluetoothProfile.PBAP_CLIENT) { return ArrayUtils.contains(localDeviceUuids, BluetoothUuid.PBAP_PCE) && ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.PBAP_PSE); } if (profile == BluetoothProfile.HEARING_AID) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.HEARING_AID); } if (profile == BluetoothProfile.SAP) { return ArrayUtils.contains(remoteDeviceUuids, BluetoothUuid.SAP); } Log.e(TAG, "isSupported: Unexpected profile passed in to function: " + profile); return false; } /** * Checks if any profile is enabled for the given device * * @param device is the device for which we are checking if any profiles are enabled * @return true if any profile is enabled, false otherwise */ private boolean isAnyProfileEnabled(BluetoothDevice device) { if (mA2dpService != null && mA2dpService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mA2dpSinkService != null && mA2dpSinkService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mHeadsetService != null && mHeadsetService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mHeadsetClientService != null && mHeadsetClientService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mMapClientService != null && mMapClientService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mHidHostService != null && mHidHostService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mPanService != null && mPanService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mPbapClientService != null && mPbapClientService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } if (mHearingAidService != null && mHearingAidService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { return true; } return false; } /** * Connects only available profiles * (those with {@link BluetoothProfile.CONNECTION_POLICY_ALLOWED}) * * @param device is the device with which we are connecting the profiles * @return true */ private boolean connectEnabledProfiles(BluetoothDevice device) { ParcelUuid[] remoteDeviceUuids = getRemoteUuids(device); ParcelUuid[] localDeviceUuids = mAdapterProperties.getUuids(); if (mA2dpService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.A2DP, device) && mA2dpService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting A2dp"); mA2dpService.connect(device); } if (mA2dpSinkService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.A2DP_SINK, device) && mA2dpSinkService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting A2dp Sink"); mA2dpSinkService.connect(device); } if (mHeadsetService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HEADSET, device) && mHeadsetService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting Headset Profile"); mHeadsetService.connect(device); } if (mHeadsetClientService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HEADSET_CLIENT, device) && mHeadsetClientService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting HFP"); mHeadsetClientService.connect(device); } if (mMapClientService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.MAP_CLIENT, device) && mMapClientService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting MAP"); mMapClientService.connect(device); } if (mHidHostService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HID_HOST, device) && mHidHostService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting Hid Host Profile"); mHidHostService.connect(device); } if (mPanService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.PAN, device) && mPanService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting Pan Profile"); mPanService.connect(device); } if (mPbapClientService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.PBAP_CLIENT, device) && mPbapClientService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting Pbap"); mPbapClientService.connect(device); } if (mHearingAidService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HEARING_AID, device) && mHearingAidService.getConnectionPolicy(device) > BluetoothProfile.CONNECTION_POLICY_FORBIDDEN) { Log.i(TAG, "connectEnabledProfiles: Connecting Hearing Aid Profile"); mHearingAidService.connect(device); } return true; } /** * Verifies that all bluetooth profile services are running * * @return true if all bluetooth profile services running, false otherwise */ private boolean profileServicesRunning() { if (mRegisteredProfiles.size() == Config.getSupportedProfiles().length && mRegisteredProfiles.size() == mRunningProfiles.size()) { return true; } Log.e(TAG, "profileServicesRunning: One or more supported services not running"); return false; } /** * Initializes all the profile services fields */ private void initProfileServices() { Log.i(TAG, "initProfileServices: Initializing all bluetooth profile services"); mA2dpService = A2dpService.getA2dpService(); mA2dpSinkService = A2dpSinkService.getA2dpSinkService(); mHeadsetService = HeadsetService.getHeadsetService(); mHeadsetClientService = HeadsetClientService.getHeadsetClientService(); mMapService = BluetoothMapService.getBluetoothMapService(); mMapClientService = MapClientService.getMapClientService(); mHidDeviceService = HidDeviceService.getHidDeviceService(); mHidHostService = HidHostService.getHidHostService(); mPanService = PanService.getPanService(); mPbapService = BluetoothPbapService.getBluetoothPbapService(); mPbapClientService = PbapClientService.getPbapClientService(); mHearingAidService = HearingAidService.getHearingAidService(); mSapService = SapService.getSapService(); } private boolean isAvailable() { return !mCleaningUp; } /** * Handlers for incoming service calls */ private AdapterServiceBinder mBinder; /** * The Binder implementation must be declared to be a static class, with * the AdapterService instance passed in the constructor. Furthermore, * when the AdapterService shuts down, the reference to the AdapterService * must be explicitly removed. * * Otherwise, a memory leak can occur from repeated starting/stopping the * service...Please refer to android.os.Binder for further details on * why an inner instance class should be avoided. * */ @VisibleForTesting public static class AdapterServiceBinder extends IBluetooth.Stub { private AdapterService mService; AdapterServiceBinder(AdapterService svc) { mService = svc; mService.invalidateBluetoothGetStateCache(); BluetoothAdapter.getDefaultAdapter().disableBluetoothGetStateCache(); } public void cleanup() { mService = null; } public AdapterService getService() { if (mService != null && mService.isAvailable()) { return mService; } return null; } @Override public int getState() { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return BluetoothAdapter.STATE_OFF; } enforceBluetoothPermission(service); return service.getState(); } @Override public boolean enable(boolean quietMode) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "enable")) { return false; } enforceBluetoothAdminPermission(service); return service.enable(quietMode); } @Override public boolean disable() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "disable")) { return false; } enforceBluetoothAdminPermission(service); return service.disable(); } @Override public String getAddress() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getAddress")) { return null; } enforceBluetoothPermission(service); enforceLocalMacAddressPermission(service); return Utils.getAddressStringFromByte(service.mAdapterProperties.getAddress()); } @Override public ParcelUuid[] getUuids() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getUuids")) { return new ParcelUuid[0]; } enforceBluetoothPermission(service); return service.mAdapterProperties.getUuids(); } @Override public String getName() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getName")) { return null; } enforceBluetoothPermission(service); return service.getName(); } @Override public boolean setName(String name) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setName")) { return false; } enforceBluetoothAdminPermission(service); return service.mAdapterProperties.setName(name); } @Override public BluetoothClass getBluetoothClass() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getBluetoothClass")) { return null; } enforceBluetoothAdminPermission(service); return service.mAdapterProperties.getBluetoothClass(); } @Override public boolean setBluetoothClass(BluetoothClass bluetoothClass) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setBluetoothClass")) { return false; } enforceBluetoothPrivilegedPermission(service); if (!service.mAdapterProperties.setBluetoothClass(bluetoothClass)) { return false; } return Settings.Global.putInt( service.getContentResolver(), Settings.Global.BLUETOOTH_CLASS_OF_DEVICE, bluetoothClass.getClassOfDevice()); } @Override public int getIoCapability() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getIoCapability")) { return BluetoothAdapter.IO_CAPABILITY_UNKNOWN; } enforceBluetoothAdminPermission(service); return service.mAdapterProperties.getIoCapability(); } @Override public boolean setIoCapability(int capability) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setIoCapability")) { return false; } enforceBluetoothPrivilegedPermission(service); if (!isValidIoCapability(capability)) { return false; } return service.mAdapterProperties.setIoCapability(capability); } @Override public int getLeIoCapability() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getLeIoCapability")) { return BluetoothAdapter.IO_CAPABILITY_UNKNOWN; } enforceBluetoothAdminPermission(service); return service.mAdapterProperties.getLeIoCapability(); } @Override public boolean setLeIoCapability(int capability) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setLeIoCapability")) { return false; } enforceBluetoothPrivilegedPermission(service); if (!isValidIoCapability(capability)) { return false; } return service.mAdapterProperties.setLeIoCapability(capability); } @Override public int getScanMode() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getScanMode")) { return BluetoothAdapter.SCAN_MODE_NONE; } enforceBluetoothPermission(service); return service.mAdapterProperties.getScanMode(); } @Override public boolean setScanMode(int mode, int duration) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setScanMode")) { return false; } enforceBluetoothPermission(service); service.mAdapterProperties.setDiscoverableTimeout(duration); return service.mAdapterProperties.setScanMode(convertScanModeToHal(mode)); } @Override public int getDiscoverableTimeout() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getDiscoverableTimeout")) { return 0; } enforceBluetoothPermission(service); return service.mAdapterProperties.getDiscoverableTimeout(); } @Override public boolean setDiscoverableTimeout(int timeout) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setDiscoverableTimeout")) { return false; } enforceBluetoothPermission(service); return service.mAdapterProperties.setDiscoverableTimeout(timeout); } @Override public boolean startDiscovery(String callingPackage, String callingFeatureId) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "startDiscovery")) { return false; } enforceBluetoothAdminPermission(service); return service.startDiscovery(callingPackage, callingFeatureId); } @Override public boolean cancelDiscovery() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "cancelDiscovery")) { return false; } enforceBluetoothAdminPermission(service); service.debugLog("cancelDiscovery"); return service.cancelDiscoveryNative(); } @Override public boolean isDiscovering() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "isDiscovering")) { return false; } enforceBluetoothPermission(service); return service.mAdapterProperties.isDiscovering(); } @Override public long getDiscoveryEndMillis() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getDiscoveryEndMillis")) { return -1; } enforceBluetoothPrivilegedPermission(service); return service.mAdapterProperties.discoveryEndMillis(); } @Override public List getMostRecentlyConnectedDevices() { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return new ArrayList<>(); } enforceBluetoothAdminPermission(service); return service.mDatabaseManager.getMostRecentlyConnectedDevices(); } @Override public BluetoothDevice[] getBondedDevices() { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return new BluetoothDevice[0]; } enforceBluetoothPermission(service); return service.getBondedDevices(); } @Override public int getAdapterConnectionState() { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return BluetoothAdapter.STATE_DISCONNECTED; } enforceBluetoothPermission(service); return service.mAdapterProperties.getConnectionState(); } /** * This method has an associated binder cache. The invalidation * methods must be changed if the logic behind this method changes. */ @Override public int getProfileConnectionState(int profile) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getProfileConnectionState")) { return BluetoothProfile.STATE_DISCONNECTED; } enforceBluetoothPermission(service); return service.mAdapterProperties.getProfileConnectionState(profile); } @Override public boolean createBond(BluetoothDevice device, int transport, OobData oobData) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "createBond")) { return false; } enforceBluetoothAdminPermission(service); return service.createBond(device, transport, oobData); } @Override public boolean cancelBondProcess(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "cancelBondProcess")) { return false; } enforceBluetoothAdminPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); if (deviceProp != null) { deviceProp.setBondingInitiatedLocally(false); } return service.cancelBondNative(addressToBytes(device.getAddress())); } @Override public boolean removeBond(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "removeBond")) { return false; } enforceBluetoothAdminPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || deviceProp.getBondState() != BluetoothDevice.BOND_BONDED) { return false; } deviceProp.setBondingInitiatedLocally(false); Message msg = service.mBondStateMachine.obtainMessage(BondStateMachine.REMOVE_BOND); msg.obj = device; service.mBondStateMachine.sendMessage(msg); return true; } @Override public int getBondState(BluetoothDevice device) { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return BluetoothDevice.BOND_NONE; } enforceBluetoothPermission(service); return service.getBondState(device); } @Override public boolean isBondingInitiatedLocally(BluetoothDevice device) { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); return deviceProp != null && deviceProp.isBondingInitiatedLocally(); } @Override public long getSupportedProfiles() { AdapterService service = getService(); if (service == null) { return 0; } return Config.getSupportedProfilesBitMask(); } @Override public int getConnectionState(BluetoothDevice device) { AdapterService service = getService(); if (service == null) { return 0; } enforceBluetoothPermission(service); return service.getConnectionState(device); } @Override public boolean removeActiveDevice(@ActiveDeviceUse int profiles) { if (!Utils.checkCaller()) { Log.w(TAG, "removeActiveDevice() - Not allowed for non-active user"); return false; } AdapterService service = getService(); if (service == null) { return false; } return service.setActiveDevice(null, profiles); } @Override public boolean setActiveDevice(BluetoothDevice device, @ActiveDeviceUse int profiles) { if (!Utils.checkCaller()) { Log.w(TAG, "setActiveDevice() - Not allowed for non-active user"); return false; } AdapterService service = getService(); if (service == null) { return false; } return service.setActiveDevice(device, profiles); } @Override public boolean connectAllEnabledProfiles(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "connectAllEnabledProfiles")) { return false; } enforceBluetoothPrivilegedPermission(service); return service.connectAllEnabledProfiles(device); } @Override public boolean disconnectAllEnabledProfiles(BluetoothDevice device) { AdapterService service = getService(); if (service == null | !callerIsSystemOrActiveUser(TAG, "disconnectAllEnabledProfiles")) { return false; } enforceBluetoothPrivilegedPermission(service); return service.disconnectAllEnabledProfiles(device); } @Override public String getRemoteName(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getRemoteName")) { return null; } enforceBluetoothPermission(service); return service.getRemoteName(device); } @Override public int getRemoteType(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getRemoteType")) { return BluetoothDevice.DEVICE_TYPE_UNKNOWN; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); return deviceProp != null ? deviceProp.getDeviceType() : BluetoothDevice.DEVICE_TYPE_UNKNOWN; } @Override public String getRemoteAlias(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getRemoteAlias")) { return null; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); return deviceProp != null ? deviceProp.getAlias() : null; } @Override public boolean setRemoteAlias(BluetoothDevice device, String name) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setRemoteAlias")) { return false; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) { return false; } deviceProp.setAlias(device, name); return true; } @Override public int getRemoteClass(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getRemoteClass")) { return 0; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); return deviceProp != null ? deviceProp.getBluetoothClass() : 0; } @Override public ParcelUuid[] getRemoteUuids(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "getRemoteUuids")) { return new ParcelUuid[0]; } enforceBluetoothPermission(service); return service.getRemoteUuids(device); } @Override public boolean fetchRemoteUuids(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveOrManagedUser(service, TAG, "fetchRemoteUuids")) { return false; } enforceBluetoothPermission(service); service.mRemoteDevices.fetchUuids(device); return true; } @Override public boolean setPin(BluetoothDevice device, boolean accept, int len, byte[] pinCode) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setPin")) { return false; } enforceBluetoothAdminPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); // Only allow setting a pin in bonding state, or bonded state in case of security upgrade. if (deviceProp == null || !deviceProp.isBondingOrBonded()) { return false; } if (pinCode.length != len) { android.util.EventLog.writeEvent(0x534e4554, "139287605", -1, "PIN code length mismatch"); return false; } service.logUserBondResponse(device, accept, BluetoothProtoEnums.BOND_SUB_STATE_LOCAL_PIN_REPLIED); return service.pinReplyNative(addressToBytes(device.getAddress()), accept, len, pinCode); } @Override public boolean setPasskey(BluetoothDevice device, boolean accept, int len, byte[] passkey) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setPasskey")) { return false; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || !deviceProp.isBonding()) { return false; } if (passkey.length != len) { android.util.EventLog.writeEvent(0x534e4554, "139287605", -1, "Passkey length mismatch"); return false; } service.logUserBondResponse(device, accept, BluetoothProtoEnums.BOND_SUB_STATE_LOCAL_SSP_REPLIED); return service.sspReplyNative( addressToBytes(device.getAddress()), AbstractionLayer.BT_SSP_VARIANT_PASSKEY_ENTRY, accept, Utils.byteArrayToInt(passkey)); } @Override public boolean setPairingConfirmation(BluetoothDevice device, boolean accept) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setPairingConfirmation")) { return false; } enforceBluetoothPrivilegedPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || !deviceProp.isBonding()) { return false; } service.logUserBondResponse(device, accept, BluetoothProtoEnums.BOND_SUB_STATE_LOCAL_SSP_REPLIED); return service.sspReplyNative( addressToBytes(device.getAddress()), AbstractionLayer.BT_SSP_VARIANT_PASSKEY_CONFIRMATION, accept, 0); } @Override public boolean getSilenceMode(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getSilenceMode")) { return false; } enforceBluetoothPrivilegedPermission(service); return service.mSilenceDeviceManager.getSilenceMode(device); } @Override public boolean setSilenceMode(BluetoothDevice device, boolean silence) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setSilenceMode")) { return false; } enforceBluetoothPrivilegedPermission(service); service.mSilenceDeviceManager.setSilenceMode(device, silence); return true; } @Override public int getPhonebookAccessPermission(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getPhonebookAccessPermission")) { return BluetoothDevice.ACCESS_UNKNOWN; } enforceBluetoothPermission(service); return service.getDeviceAccessFromPrefs(device, PHONEBOOK_ACCESS_PERMISSION_PREFERENCE_FILE); } @Override public boolean setPhonebookAccessPermission(BluetoothDevice device, int value) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setPhonebookAccessPermission")) { return false; } enforceBluetoothPrivilegedPermission(service); service.setPhonebookAccessPermission(device, value); return true; } @Override public int getMessageAccessPermission(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getMessageAccessPermission")) { return BluetoothDevice.ACCESS_UNKNOWN; } enforceBluetoothPermission(service); return service.getDeviceAccessFromPrefs(device, MESSAGE_ACCESS_PERMISSION_PREFERENCE_FILE); } @Override public boolean setMessageAccessPermission(BluetoothDevice device, int value) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setMessageAccessPermission")) { return false; } enforceBluetoothPrivilegedPermission(service); service.setMessageAccessPermission(device, value); return true; } @Override public int getSimAccessPermission(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getSimAccessPermission")) { return BluetoothDevice.ACCESS_UNKNOWN; } enforceBluetoothPermission(service); return service.getDeviceAccessFromPrefs(device, SIM_ACCESS_PERMISSION_PREFERENCE_FILE); } @Override public boolean setSimAccessPermission(BluetoothDevice device, int value) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setSimAccessPermission")) { return false; } enforceBluetoothPrivilegedPermission(service); service.setSimAccessPermission(device, value); return true; } @Override public IBluetoothSocketManager getSocketManager() { AdapterService service = getService(); if (service == null) { return null; } return IBluetoothSocketManager.Stub.asInterface(service.mBluetoothSocketManagerBinder); } @Override public boolean sdpSearch(BluetoothDevice device, ParcelUuid uuid) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "sdpSearch")) { return false; } enforceBluetoothPermission(service); if (service.mSdpManager == null) { return false; } service.mSdpManager.sdpSearch(device, uuid); return true; } @Override public int getBatteryLevel(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getBatteryLevel")) { return BluetoothDevice.BATTERY_LEVEL_UNKNOWN; } enforceBluetoothPermission(service); DeviceProperties deviceProp = service.mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) { return BluetoothDevice.BATTERY_LEVEL_UNKNOWN; } return deviceProp.getBatteryLevel(); } @Override public int getMaxConnectedAudioDevices() { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return AdapterProperties.MAX_CONNECTED_AUDIO_DEVICES_LOWER_BOND; } enforceBluetoothPermission(service); return service.getMaxConnectedAudioDevices(); } //@Override public boolean isA2dpOffloadEnabled() { // don't check caller, may be called from system UI AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); return service.isA2dpOffloadEnabled(); } @Override public boolean factoryReset() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPrivilegedPermission(service); if (service.mDatabaseManager != null) { service.mDatabaseManager.factoryReset(); } if (service.mBluetoothKeystoreService != null) { service.mBluetoothKeystoreService.factoryReset(); } return service.factoryResetNative(); } @Override public void registerCallback(IBluetoothCallback callback) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "registerCallback")) { return; } enforceBluetoothPrivilegedPermission(service); service.mCallbacks.register(callback); } @Override public void unregisterCallback(IBluetoothCallback callback) { AdapterService service = getService(); if (service == null || service.mCallbacks == null || !callerIsSystemOrActiveUser(TAG, "unregisterCallback")) { return; } enforceBluetoothPrivilegedPermission(service); service.mCallbacks.unregister(callback); } @Override public boolean isMultiAdvertisementSupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); int val = service.mAdapterProperties.getNumOfAdvertisementInstancesSupported(); return val >= MIN_ADVT_INSTANCES_FOR_MA; } /** * This method has an associated binder cache. The invalidation * methods must be changed if the logic behind this method changes. */ @Override public boolean isOffloadedFilteringSupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); int val = service.getNumOfOffloadedScanFilterSupported(); return val >= MIN_OFFLOADED_FILTERS; } @Override public boolean isOffloadedScanBatchingSupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); int val = service.getOffloadedScanResultStorage(); return val >= MIN_OFFLOADED_SCAN_STORAGE_BYTES; } @Override public boolean isLe2MPhySupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); return service.isLe2MPhySupported(); } @Override public boolean isLeCodedPhySupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); return service.isLeCodedPhySupported(); } @Override public boolean isLeExtendedAdvertisingSupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); return service.isLeExtendedAdvertisingSupported(); } @Override public boolean isLePeriodicAdvertisingSupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPermission(service); return service.isLePeriodicAdvertisingSupported(); } @Override public int getLeMaximumAdvertisingDataLength() { AdapterService service = getService(); if (service == null) { return 0; } enforceBluetoothPermission(service); return service.getLeMaximumAdvertisingDataLength(); } @Override public boolean isActivityAndEnergyReportingSupported() { AdapterService service = getService(); if (service == null) { return false; } enforceBluetoothPrivilegedPermission(service); return service.mAdapterProperties.isActivityAndEnergyReportingSupported(); } @Override public BluetoothActivityEnergyInfo reportActivityInfo() { AdapterService service = getService(); if (service == null) { return null; } enforceBluetoothPrivilegedPermission(service); return service.reportActivityInfo(); } @Override public boolean registerMetadataListener(IBluetoothMetadataListener listener, BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "registerMetadataListener")) { return false; } enforceBluetoothPrivilegedPermission(service); if (service.mMetadataListeners == null) { return false; } ArrayList list = service.mMetadataListeners.get(device); if (list == null) { list = new ArrayList<>(); } else if (list.contains(listener)) { // The device is already registered with this listener return true; } list.add(listener); service.mMetadataListeners.put(device, list); return true; } @Override public boolean unregisterMetadataListener(BluetoothDevice device) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "unregisterMetadataListener")) { return false; } enforceBluetoothPrivilegedPermission(service); if (service.mMetadataListeners == null) { return false; } if (service.mMetadataListeners.containsKey(device)) { service.mMetadataListeners.remove(device); } return true; } @Override public boolean setMetadata(BluetoothDevice device, int key, byte[] value) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "setMetadata")) { return false; } enforceBluetoothPrivilegedPermission(service); if (value.length > BluetoothDevice.METADATA_MAX_LENGTH) { return false; } return service.mDatabaseManager.setCustomMeta(device, key, value); } @Override public byte[] getMetadata(BluetoothDevice device, int key) { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "getMetadata")) { return null; } enforceBluetoothPrivilegedPermission(service); return service.mDatabaseManager.getCustomMeta(device, key); } @Override public void requestActivityInfo(ResultReceiver result) { Bundle bundle = new Bundle(); bundle.putParcelable(BatteryStats.RESULT_RECEIVER_CONTROLLER_KEY, reportActivityInfo()); result.send(0, bundle); } @Override public void onLeServiceUp() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "onLeServiceUp")) { return; } enforceBluetoothPrivilegedPermission(service); service.mAdapterStateMachine.sendMessage(AdapterState.USER_TURN_ON); } @Override public void onBrEdrDown() { AdapterService service = getService(); if (service == null || !callerIsSystemOrActiveUser(TAG, "onBrEdrDown")) { return; } enforceBluetoothPrivilegedPermission(service); service.mAdapterStateMachine.sendMessage(AdapterState.BLE_TURN_OFF); } @Override public void dump(FileDescriptor fd, String[] args) { PrintWriter writer = new PrintWriter(new FileOutputStream(fd)); AdapterService service = getService(); if (service == null) { return; } enforceDumpPermission(service); service.dump(fd, writer, args); writer.close(); } } // ----API Methods-------- public int getState() { if (mAdapterProperties != null) { return mAdapterProperties.getState(); } return BluetoothAdapter.STATE_OFF; } public synchronized boolean enable(boolean quietMode) { // Enforce the user restriction for disallowing Bluetooth if it was set. if (mUserManager.hasUserRestriction(UserManager.DISALLOW_BLUETOOTH, UserHandle.SYSTEM)) { debugLog("enable() called when Bluetooth was disallowed"); return false; } debugLog("enable() - Enable called with quiet mode status = " + quietMode); mQuietmode = quietMode; mAdapterStateMachine.sendMessage(AdapterState.BLE_TURN_ON); return true; } boolean disable() { debugLog("disable() called with mRunningProfiles.size() = " + mRunningProfiles.size()); mAdapterStateMachine.sendMessage(AdapterState.USER_TURN_OFF); return true; } public String getName() { return mAdapterProperties.getName(); } private static boolean isValidIoCapability(int capability) { if (capability < 0 || capability >= BluetoothAdapter.IO_CAPABILITY_MAX) { Log.e(TAG, "Invalid IO capability value - " + capability); return false; } return true; } ArrayList getDiscoveringPackages() { return mDiscoveringPackages; } void clearDiscoveringPackages() { synchronized (mDiscoveringPackages) { mDiscoveringPackages.clear(); } } boolean startDiscovery(String callingPackage, @Nullable String callingFeatureId) { UserHandle callingUser = UserHandle.of(UserHandle.getCallingUserId()); debugLog("startDiscovery"); mAppOps.checkPackage(Binder.getCallingUid(), callingPackage); boolean isQApp = Utils.isQApp(this, callingPackage); String permission = null; if (Utils.checkCallerHasNetworkSettingsPermission(this)) { permission = android.Manifest.permission.NETWORK_SETTINGS; } else if (Utils.checkCallerHasNetworkSetupWizardPermission(this)) { permission = android.Manifest.permission.NETWORK_SETUP_WIZARD; } else if (isQApp) { if (!Utils.checkCallerHasFineLocation(this, mAppOps, callingPackage, callingFeatureId, callingUser)) { return false; } permission = android.Manifest.permission.ACCESS_FINE_LOCATION; } else { if (!Utils.checkCallerHasCoarseLocation(this, mAppOps, callingPackage, callingFeatureId, callingUser)) { return false; } permission = android.Manifest.permission.ACCESS_COARSE_LOCATION; } synchronized (mDiscoveringPackages) { mDiscoveringPackages.add(new DiscoveringPackage(callingPackage, permission)); } return startDiscoveryNative(); } /** * Same as API method {@link BluetoothAdapter#getBondedDevices()} * * @return array of bonded {@link BluetoothDevice} or null on error */ public BluetoothDevice[] getBondedDevices() { return mAdapterProperties.getBondedDevices(); } /** * Get the database manager to access Bluetooth storage * * @return {@link DatabaseManager} or null on error */ @VisibleForTesting public DatabaseManager getDatabase() { return mDatabaseManager; } boolean createBond(BluetoothDevice device, int transport, OobData oobData) { DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp != null && deviceProp.getBondState() != BluetoothDevice.BOND_NONE) { return false; } mRemoteDevices.setBondingInitiatedLocally(Utils.getByteAddress(device)); // Pairing is unreliable while scanning, so cancel discovery // Note, remove this when native stack improves cancelDiscoveryNative(); Message msg = mBondStateMachine.obtainMessage(BondStateMachine.CREATE_BOND); msg.obj = device; msg.arg1 = transport; if (oobData != null) { Bundle oobDataBundle = new Bundle(); oobDataBundle.putParcelable(BondStateMachine.OOBDATA, oobData); msg.setData(oobDataBundle); } mBondStateMachine.sendMessage(msg); return true; } public boolean isQuietModeEnabled() { debugLog("isQuetModeEnabled() - Enabled = " + mQuietmode); return mQuietmode; } public void updateUuids() { debugLog("updateUuids() - Updating UUIDs for bonded devices"); BluetoothDevice[] bondedDevices = getBondedDevices(); if (bondedDevices == null) { return; } for (BluetoothDevice device : bondedDevices) { mRemoteDevices.updateUuids(device); } } /** * Update device UUID changed to {@link BondStateMachine} * * @param device remote device of interest */ public void deviceUuidUpdated(BluetoothDevice device) { // Notify BondStateMachine for SDP complete / UUID changed. Message msg = mBondStateMachine.obtainMessage(BondStateMachine.UUID_UPDATE); msg.obj = device; mBondStateMachine.sendMessage(msg); } /** * Get the bond state of a particular {@link BluetoothDevice} * * @param device remote device of interest * @return bond state

Possible values are * {@link BluetoothDevice#BOND_NONE}, * {@link BluetoothDevice#BOND_BONDING}, * {@link BluetoothDevice#BOND_BONDED}. */ @VisibleForTesting public int getBondState(BluetoothDevice device) { DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) { return BluetoothDevice.BOND_NONE; } return deviceProp.getBondState(); } int getConnectionState(BluetoothDevice device) { return getConnectionStateNative(addressToBytes(device.getAddress())); } /** * Sets device as the active devices for the profiles passed into the function * * @param device is the remote bluetooth device * @param profiles is a constant that references for which profiles we'll be setting the remote * device as our active device. One of the following: * {@link BluetoothAdapter#ACTIVE_DEVICE_AUDIO}, * {@link BluetoothAdapter#ACTIVE_DEVICE_PHONE_CALL} * {@link BluetoothAdapter#ACTIVE_DEVICE_ALL} * @return false if profiles value is not one of the constants we accept, true otherwise */ public boolean setActiveDevice(BluetoothDevice device, @ActiveDeviceUse int profiles) { enforceCallingOrSelfPermission( BLUETOOTH_PRIVILEGED, "Need BLUETOOTH_PRIVILEGED permission"); boolean setA2dp = false; boolean setHeadset = false; // Determine for which profiles we want to set device as our active device switch(profiles) { case BluetoothAdapter.ACTIVE_DEVICE_AUDIO: setA2dp = true; break; case BluetoothAdapter.ACTIVE_DEVICE_PHONE_CALL: setHeadset = true; break; case BluetoothAdapter.ACTIVE_DEVICE_ALL: setA2dp = true; setHeadset = true; break; default: return false; } if (setA2dp && mA2dpService != null && (device == null || mA2dpService.getConnectionPolicy(device) == BluetoothProfile.CONNECTION_POLICY_ALLOWED)) { Log.i(TAG, "setActiveDevice: Setting active A2dp device " + device); mA2dpService.setActiveDevice(device); } if (mHearingAidService != null && (device == null || mHearingAidService.getConnectionPolicy(device) == BluetoothProfile.CONNECTION_POLICY_ALLOWED)) { Log.i(TAG, "setActiveDevice: Setting active Hearing Aid " + device); mHearingAidService.setActiveDevice(device); } if (setHeadset && mHeadsetService != null && (device == null || mHeadsetService.getConnectionPolicy(device) == BluetoothProfile.CONNECTION_POLICY_ALLOWED)) { Log.i(TAG, "setActiveDevice: Setting active Headset " + device); mHeadsetService.setActiveDevice(device); } return true; } /** * Connects all enabled and supported bluetooth profiles between the local and remote device * * @param device is the remote device with which to connect these profiles * @return true if all profiles successfully connected, false if an error occurred */ public boolean connectAllEnabledProfiles(BluetoothDevice device) { if (!profileServicesRunning()) { Log.e(TAG, "connectAllEnabledProfiles: Not all profile services running"); return false; } // Checks if any profiles are enabled and if so, only connect enabled profiles if (isAnyProfileEnabled(device)) { return connectEnabledProfiles(device); } int numProfilesConnected = 0; ParcelUuid[] remoteDeviceUuids = getRemoteUuids(device); ParcelUuid[] localDeviceUuids = mAdapterProperties.getUuids(); // All profile toggles disabled, so connects all supported profiles if (mA2dpService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.A2DP, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting A2dp"); // Set connection policy also connects the profile with CONNECTION_POLICY_ALLOWED mA2dpService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mA2dpSinkService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.A2DP_SINK, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting A2dp Sink"); mA2dpSinkService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mHeadsetService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HEADSET, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting Headset Profile"); mHeadsetService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mHeadsetClientService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HEADSET_CLIENT, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting HFP"); mHeadsetClientService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mMapClientService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.MAP_CLIENT, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting MAP"); mMapClientService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mHidHostService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HID_HOST, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting Hid Host Profile"); mHidHostService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mPanService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.PAN, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting Pan Profile"); mPanService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mPbapClientService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.PBAP_CLIENT, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting Pbap"); mPbapClientService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } if (mHearingAidService != null && isSupported(localDeviceUuids, remoteDeviceUuids, BluetoothProfile.HEARING_AID, device)) { Log.i(TAG, "connectAllEnabledProfiles: Connecting Hearing Aid Profile"); mHearingAidService.setConnectionPolicy(device, BluetoothProfile.CONNECTION_POLICY_ALLOWED); numProfilesConnected++; } Log.i(TAG, "connectAllEnabledProfiles: Number of Profiles Connected: " + numProfilesConnected); return true; } /** * Disconnects all enabled and supported bluetooth profiles between the local and remote device * * @param device is the remote device with which to disconnect these profiles * @return true if all profiles successfully disconnected, false if an error occurred */ public boolean disconnectAllEnabledProfiles(BluetoothDevice device) { if (!profileServicesRunning()) { Log.e(TAG, "disconnectAllEnabledProfiles: Not all profile services bound"); return false; } if (mA2dpService != null && mA2dpService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting A2dp"); mA2dpService.disconnect(device); } if (mA2dpSinkService != null && mA2dpSinkService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting A2dp Sink"); mA2dpSinkService.disconnect(device); } if (mHeadsetService != null && mHeadsetService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Headset Profile"); mHeadsetService.disconnect(device); } if (mHeadsetClientService != null && mHeadsetClientService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting HFP"); mHeadsetClientService.disconnect(device); } if (mMapClientService != null && mMapClientService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting MAP Client"); mMapClientService.disconnect(device); } if (mMapService != null && mMapService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting MAP"); mMapService.disconnect(device); } if (mHidDeviceService != null && mHidDeviceService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Hid Device Profile"); mHidDeviceService.disconnect(device); } if (mHidHostService != null && mHidHostService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Hid Host Profile"); mHidHostService.disconnect(device); } if (mPanService != null && mPanService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Pan Profile"); mPanService.disconnect(device); } if (mPbapClientService != null && mPbapClientService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Pbap Client"); mPbapClientService.disconnect(device); } if (mPbapService != null && mPbapService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Pbap Server"); mPbapService.disconnect(device); } if (mHearingAidService != null && mHearingAidService.getConnectionState(device) == BluetoothProfile.STATE_CONNECTED) { Log.i(TAG, "disconnectAllEnabledProfiles: Disconnecting Hearing Aid Profile"); mHearingAidService.disconnect(device); } return true; } /** * Same as API method {@link BluetoothDevice#getName()} * * @param device remote device of interest * @return remote device name */ public String getRemoteName(BluetoothDevice device) { if (mRemoteDevices == null) { return null; } DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) { return null; } return deviceProp.getName(); } /** * Get UUIDs for service supported by a remote device * * @param device the remote device that we want to get UUIDs from * @return */ @VisibleForTesting public ParcelUuid[] getRemoteUuids(BluetoothDevice device) { DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) { return null; } return deviceProp.getUuids(); } void logUserBondResponse(BluetoothDevice device, boolean accepted, int event) { BluetoothStatsLog.write(BluetoothStatsLog.BLUETOOTH_BOND_STATE_CHANGED, obfuscateAddress(device), 0, device.getType(), BluetoothDevice.BOND_BONDING, event, accepted ? 0 : BluetoothDevice.UNBOND_REASON_AUTH_REJECTED); } int getDeviceAccessFromPrefs(BluetoothDevice device, String prefFile) { SharedPreferences prefs = getSharedPreferences(prefFile, Context.MODE_PRIVATE); if (!prefs.contains(device.getAddress())) { return BluetoothDevice.ACCESS_UNKNOWN; } return prefs.getBoolean(device.getAddress(), false) ? BluetoothDevice.ACCESS_ALLOWED : BluetoothDevice.ACCESS_REJECTED; } void setDeviceAccessFromPrefs(BluetoothDevice device, int value, String prefFile) { SharedPreferences pref = getSharedPreferences(prefFile, Context.MODE_PRIVATE); SharedPreferences.Editor editor = pref.edit(); if (value == BluetoothDevice.ACCESS_UNKNOWN) { editor.remove(device.getAddress()); } else { editor.putBoolean(device.getAddress(), value == BluetoothDevice.ACCESS_ALLOWED); } editor.apply(); } void setPhonebookAccessPermission(BluetoothDevice device, int value) { setDeviceAccessFromPrefs(device, value, PHONEBOOK_ACCESS_PERMISSION_PREFERENCE_FILE); } void setMessageAccessPermission(BluetoothDevice device, int value) { setDeviceAccessFromPrefs(device, value, MESSAGE_ACCESS_PERMISSION_PREFERENCE_FILE); } void setSimAccessPermission(BluetoothDevice device, int value) { setDeviceAccessFromPrefs(device, value, SIM_ACCESS_PERMISSION_PREFERENCE_FILE); } public boolean isRpaOffloadSupported() { enforceBluetoothPermission(this); return mAdapterProperties.isRpaOffloadSupported(); } public int getNumOfOffloadedIrkSupported() { enforceBluetoothPermission(this); return mAdapterProperties.getNumOfOffloadedIrkSupported(); } public int getNumOfOffloadedScanFilterSupported() { return mAdapterProperties.getNumOfOffloadedScanFilterSupported(); } public int getOffloadedScanResultStorage() { return mAdapterProperties.getOffloadedScanResultStorage(); } public boolean isLe2MPhySupported() { return mAdapterProperties.isLe2MPhySupported(); } public boolean isLeCodedPhySupported() { return mAdapterProperties.isLeCodedPhySupported(); } public boolean isLeExtendedAdvertisingSupported() { return mAdapterProperties.isLeExtendedAdvertisingSupported(); } public boolean isLePeriodicAdvertisingSupported() { return mAdapterProperties.isLePeriodicAdvertisingSupported(); } public int getLeMaximumAdvertisingDataLength() { return mAdapterProperties.getLeMaximumAdvertisingDataLength(); } /** * Get the maximum number of connected audio devices. * * @return the maximum number of connected audio devices */ public int getMaxConnectedAudioDevices() { return mAdapterProperties.getMaxConnectedAudioDevices(); } /** * Check whether A2DP offload is enabled. * * @return true if A2DP offload is enabled */ public boolean isA2dpOffloadEnabled() { return mAdapterProperties.isA2dpOffloadEnabled(); } private BluetoothActivityEnergyInfo reportActivityInfo() { if (mAdapterProperties.getState() != BluetoothAdapter.STATE_ON || !mAdapterProperties.isActivityAndEnergyReportingSupported()) { return null; } // Pull the data. The callback will notify mEnergyInfoLock. readEnergyInfo(); synchronized (mEnergyInfoLock) { try { mEnergyInfoLock.wait(CONTROLLER_ENERGY_UPDATE_TIMEOUT_MILLIS); } catch (InterruptedException e) { // Just continue, the energy data may be stale but we won't miss anything next time // we query. } final BluetoothActivityEnergyInfo info = new BluetoothActivityEnergyInfo(SystemClock.elapsedRealtime(), mStackReportedState, mTxTimeTotalMs, mRxTimeTotalMs, mIdleTimeTotalMs, mEnergyUsedTotalVoltAmpSecMicro); // Count the number of entries that have byte counts > 0 int arrayLen = 0; for (int i = 0; i < mUidTraffic.size(); i++) { final UidTraffic traffic = mUidTraffic.valueAt(i); if (traffic.getTxBytes() != 0 || traffic.getRxBytes() != 0) { arrayLen++; } } // Copy the traffic objects whose byte counts are > 0 final UidTraffic[] result = arrayLen > 0 ? new UidTraffic[arrayLen] : null; int putIdx = 0; for (int i = 0; i < mUidTraffic.size(); i++) { final UidTraffic traffic = mUidTraffic.valueAt(i); if (traffic.getTxBytes() != 0 || traffic.getRxBytes() != 0) { result[putIdx++] = traffic.clone(); } } info.setUidTraffic(result); return info; } } public int getTotalNumOfTrackableAdvertisements() { enforceBluetoothPermission(this); return mAdapterProperties.getTotalNumOfTrackableAdvertisements(); } private static int convertScanModeToHal(int mode) { switch (mode) { case BluetoothAdapter.SCAN_MODE_NONE: return AbstractionLayer.BT_SCAN_MODE_NONE; case BluetoothAdapter.SCAN_MODE_CONNECTABLE: return AbstractionLayer.BT_SCAN_MODE_CONNECTABLE; case BluetoothAdapter.SCAN_MODE_CONNECTABLE_DISCOVERABLE: return AbstractionLayer.BT_SCAN_MODE_CONNECTABLE_DISCOVERABLE; } // errorLog("Incorrect scan mode in convertScanModeToHal"); return -1; } static int convertScanModeFromHal(int mode) { switch (mode) { case AbstractionLayer.BT_SCAN_MODE_NONE: return BluetoothAdapter.SCAN_MODE_NONE; case AbstractionLayer.BT_SCAN_MODE_CONNECTABLE: return BluetoothAdapter.SCAN_MODE_CONNECTABLE; case AbstractionLayer.BT_SCAN_MODE_CONNECTABLE_DISCOVERABLE: return BluetoothAdapter.SCAN_MODE_CONNECTABLE_DISCOVERABLE; } //errorLog("Incorrect scan mode in convertScanModeFromHal"); return -1; } // This function is called from JNI. It allows native code to set a single wake // alarm. If an alarm is already pending and a new request comes in, the alarm // will be rescheduled (i.e. the previously set alarm will be cancelled). private boolean setWakeAlarm(long delayMillis, boolean shouldWake) { synchronized (this) { if (mPendingAlarm != null) { mAlarmManager.cancel(mPendingAlarm); } long wakeupTime = SystemClock.elapsedRealtime() + delayMillis; int type = shouldWake ? AlarmManager.ELAPSED_REALTIME_WAKEUP : AlarmManager.ELAPSED_REALTIME; Intent intent = new Intent(ACTION_ALARM_WAKEUP); mPendingAlarm = PendingIntent.getBroadcast(this, 0, intent, PendingIntent.FLAG_ONE_SHOT); mAlarmManager.setExact(type, wakeupTime, mPendingAlarm); return true; } } // This function is called from JNI. It allows native code to acquire a single wake lock. // If the wake lock is already held, this function returns success. Although this function // only supports acquiring a single wake lock at a time right now, it will eventually be // extended to allow acquiring an arbitrary number of wake locks. The current interface // takes |lockName| as a parameter in anticipation of that implementation. private boolean acquireWakeLock(String lockName) { synchronized (this) { if (mWakeLock == null) { mWakeLockName = lockName; mWakeLock = mPowerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, lockName); } if (!mWakeLock.isHeld()) { mWakeLock.acquire(); } } return true; } // This function is called from JNI. It allows native code to release a wake lock acquired // by |acquireWakeLock|. If the wake lock is not held, this function returns failure. // Note that the release() call is also invoked by {@link #cleanup()} so a synchronization is // needed here. See the comment for |acquireWakeLock| for an explanation of the interface. private boolean releaseWakeLock(String lockName) { synchronized (this) { if (mWakeLock == null) { errorLog("Repeated wake lock release; aborting release: " + lockName); return false; } if (mWakeLock.isHeld()) { mWakeLock.release(); } } return true; } private void energyInfoCallback(int status, int ctrlState, long txTime, long rxTime, long idleTime, long energyUsed, UidTraffic[] data) throws RemoteException { if (ctrlState >= BluetoothActivityEnergyInfo.BT_STACK_STATE_INVALID && ctrlState <= BluetoothActivityEnergyInfo.BT_STACK_STATE_STATE_IDLE) { // Energy is product of mA, V and ms. If the chipset doesn't // report it, we have to compute it from time if (energyUsed == 0) { try { final long txMah = Math.multiplyExact(txTime, getTxCurrentMa()); final long rxMah = Math.multiplyExact(rxTime, getRxCurrentMa()); final long idleMah = Math.multiplyExact(idleTime, getIdleCurrentMa()); energyUsed = (long) (Math.addExact(Math.addExact(txMah, rxMah), idleMah) * getOperatingVolt()); } catch (ArithmeticException e) { Log.wtf(TAG, "overflow in bluetooth energy callback", e); // Energy is already 0 if the exception was thrown. } } synchronized (mEnergyInfoLock) { mStackReportedState = ctrlState; long totalTxTimeMs; long totalRxTimeMs; long totalIdleTimeMs; long totalEnergy; try { totalTxTimeMs = Math.addExact(mTxTimeTotalMs, txTime); totalRxTimeMs = Math.addExact(mRxTimeTotalMs, rxTime); totalIdleTimeMs = Math.addExact(mIdleTimeTotalMs, idleTime); totalEnergy = Math.addExact(mEnergyUsedTotalVoltAmpSecMicro, energyUsed); } catch (ArithmeticException e) { // This could be because we accumulated a lot of time, or we got a very strange // value from the controller (more likely). Discard this data. Log.wtf(TAG, "overflow in bluetooth energy callback", e); totalTxTimeMs = mTxTimeTotalMs; totalRxTimeMs = mRxTimeTotalMs; totalIdleTimeMs = mIdleTimeTotalMs; totalEnergy = mEnergyUsedTotalVoltAmpSecMicro; } mTxTimeTotalMs = totalTxTimeMs; mRxTimeTotalMs = totalRxTimeMs; mIdleTimeTotalMs = totalIdleTimeMs; mEnergyUsedTotalVoltAmpSecMicro = totalEnergy; for (UidTraffic traffic : data) { UidTraffic existingTraffic = mUidTraffic.get(traffic.getUid()); if (existingTraffic == null) { mUidTraffic.put(traffic.getUid(), traffic); } else { existingTraffic.addRxBytes(traffic.getRxBytes()); existingTraffic.addTxBytes(traffic.getTxBytes()); } } mEnergyInfoLock.notifyAll(); } } verboseLog("energyInfoCallback() status = " + status + "txTime = " + txTime + "rxTime = " + rxTime + "idleTime = " + idleTime + "energyUsed = " + energyUsed + "ctrlState = " + ctrlState + "traffic = " + Arrays.toString(data)); } /** * Update metadata change to registered listeners */ @VisibleForTesting public void metadataChanged(String address, int key, byte[] value) { BluetoothDevice device = mRemoteDevices.getDevice(Utils.getBytesFromAddress(address)); if (mMetadataListeners.containsKey(device)) { ArrayList list = mMetadataListeners.get(device); for (IBluetoothMetadataListener listener : list) { try { listener.onMetadataChanged(device, key, value); } catch (RemoteException e) { Log.w(TAG, "RemoteException when onMetadataChanged"); } } } } private int getIdleCurrentMa() { return getResources().getInteger(R.integer.config_bluetooth_idle_cur_ma); } private int getTxCurrentMa() { return getResources().getInteger(R.integer.config_bluetooth_tx_cur_ma); } private int getRxCurrentMa() { return getResources().getInteger(R.integer.config_bluetooth_rx_cur_ma); } private double getOperatingVolt() { return getResources().getInteger(R.integer.config_bluetooth_operating_voltage_mv) / 1000.0; } @Override protected void dump(FileDescriptor fd, PrintWriter writer, String[] args) { if (args.length == 0) { writer.println("Skipping dump in APP SERVICES, see bluetooth_manager section."); writer.println("Use --print argument for dumpsys direct from AdapterService."); return; } verboseLog("dumpsys arguments, check for protobuf output: " + TextUtils.join(" ", args)); if (args[0].equals("--proto-bin")) { dumpMetrics(fd); return; } writer.println(); mAdapterProperties.dump(fd, writer, args); writer.println("mSnoopLogSettingAtEnable = " + mSnoopLogSettingAtEnable); writer.println("mDefaultSnoopLogSettingAtEnable = " + mDefaultSnoopLogSettingAtEnable); writer.println(); mAdapterStateMachine.dump(fd, writer, args); StringBuilder sb = new StringBuilder(); for (ProfileService profile : mRegisteredProfiles) { profile.dump(sb); } mSilenceDeviceManager.dump(fd, writer, args); mDatabaseManager.dump(writer); writer.write(sb.toString()); writer.flush(); dumpNative(fd, args); } private void dumpMetrics(FileDescriptor fd) { BluetoothMetricsProto.BluetoothLog.Builder metricsBuilder = BluetoothMetricsProto.BluetoothLog.newBuilder(); byte[] nativeMetricsBytes = dumpMetricsNative(); debugLog("dumpMetrics: native metrics size is " + nativeMetricsBytes.length); if (nativeMetricsBytes.length > 0) { try { metricsBuilder.mergeFrom(nativeMetricsBytes); } catch (InvalidProtocolBufferException ex) { Log.w(TAG, "dumpMetrics: problem parsing metrics protobuf, " + ex.getMessage()); return; } } metricsBuilder.setNumBondedDevices(getBondedDevices().length); MetricsLogger.dumpProto(metricsBuilder); for (ProfileService profile : mRegisteredProfiles) { profile.dumpProto(metricsBuilder); } byte[] metricsBytes = Base64.encode(metricsBuilder.build().toByteArray(), Base64.DEFAULT); debugLog("dumpMetrics: combined metrics size is " + metricsBytes.length); try (FileOutputStream protoOut = new FileOutputStream(fd)) { protoOut.write(metricsBytes); } catch (IOException e) { errorLog("dumpMetrics: error writing combined protobuf to fd, " + e.getMessage()); } } private void debugLog(String msg) { if (DBG) { Log.d(TAG, msg); } } private void verboseLog(String msg) { if (VERBOSE) { Log.v(TAG, msg); } } private void errorLog(String msg) { Log.e(TAG, msg); } private final BroadcastReceiver mAlarmBroadcastReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { synchronized (AdapterService.this) { mPendingAlarm = null; alarmFiredNative(); } } }; private boolean isGuest() { return UserManager.get(this).isGuestUser(); } private boolean isNiapMode() { return ((DevicePolicyManager) getSystemService(Context.DEVICE_POLICY_SERVICE)) .isCommonCriteriaModeEnabled(null); } /** * Obfuscate Bluetooth MAC address into a PII free ID string * * @param device Bluetooth device whose MAC address will be obfuscated * @return a byte array that is unique to this MAC address on this device, * or empty byte array when either device is null or obfuscateAddressNative fails */ public byte[] obfuscateAddress(BluetoothDevice device) { if (device == null) { return new byte[0]; } return obfuscateAddressNative(Utils.getByteAddress(device)); } /** * Get an incremental id of Bluetooth metrics and log * * @param device Bluetooth device * @return int of id for Bluetooth metrics and logging, 0 if the device is invalid */ public int getMetricId(BluetoothDevice device) { if (device == null) { return 0; } return getMetricIdNative(Utils.getByteAddress(device)); } static native void classInitNative(); native boolean initNative(boolean startRestricted, boolean isNiapMode, int configCompareResult); native void cleanupNative(); /*package*/ native boolean enableNative(); /*package*/ native boolean disableNative(); /*package*/ native boolean setAdapterPropertyNative(int type, byte[] val); /*package*/ native boolean getAdapterPropertiesNative(); /*package*/ native boolean getAdapterPropertyNative(int type); /*package*/ native boolean setAdapterPropertyNative(int type); /*package*/ native boolean setDevicePropertyNative(byte[] address, int type, byte[] val); /*package*/ native boolean getDevicePropertyNative(byte[] address, int type); /*package*/ native boolean createBondNative(byte[] address, int transport); /*package*/ native boolean createBondOutOfBandNative(byte[] address, int transport, OobData oobData); /*package*/ native boolean removeBondNative(byte[] address); /*package*/ native boolean cancelBondNative(byte[] address); /*package*/ native boolean sdpSearchNative(byte[] address, byte[] uuid); /*package*/ native int getConnectionStateNative(byte[] address); private native boolean startDiscoveryNative(); private native boolean cancelDiscoveryNative(); private native boolean pinReplyNative(byte[] address, boolean accept, int len, byte[] pin); private native boolean sspReplyNative(byte[] address, int type, boolean accept, int passkey); /*package*/ native boolean getRemoteServicesNative(byte[] address); /*package*/ native boolean getRemoteMasInstancesNative(byte[] address); private native int readEnergyInfo(); /*package*/ native boolean factoryResetNative(); private native void alarmFiredNative(); private native void dumpNative(FileDescriptor fd, String[] arguments); private native byte[] dumpMetricsNative(); private native void interopDatabaseClearNative(); private native void interopDatabaseAddNative(int feature, byte[] address, int length); private native byte[] obfuscateAddressNative(byte[] address); private native int getMetricIdNative(byte[] address); /*package*/ native int connectSocketNative( byte[] address, int type, byte[] uuid, int port, int flag, int callingUid); /*package*/ native int createSocketChannelNative( int type, String serviceName, byte[] uuid, int port, int flag, int callingUid); /*package*/ native void requestMaximumTxDataLengthNative(byte[] address); // Returns if this is a mock object. This is currently used in testing so that we may not call // System.exit() while finalizing the object. Otherwise GC of mock objects unfortunately ends up // calling finalize() which in turn calls System.exit() and the process crashes. // // Mock this in your testing framework to return true to avoid the mentioned behavior. In // production this has no effect. public boolean isMock() { return false; } }