/* * 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. */ /** * @hide */ package com.android.bluetooth.btservice; import android.app.AlarmManager; import android.app.Application; import android.app.PendingIntent; import android.app.Service; import android.bluetooth.BluetoothAdapter; import android.bluetooth.BluetoothDevice; import android.bluetooth.BluetoothProfile; import android.bluetooth.BluetoothUuid; import android.bluetooth.IBluetooth; import android.bluetooth.IBluetoothCallback; import android.bluetooth.IBluetoothManager; import android.bluetooth.IBluetoothManagerCallback; import android.bluetooth.BluetoothActivityEnergyInfo; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.SharedPreferences; import android.os.Binder; import android.os.Bundle; import android.os.Handler; import android.os.IBinder; import android.os.Message; import android.os.ParcelFileDescriptor; import android.os.ParcelUuid; import android.os.PowerManager; import android.os.Process; import android.os.RemoteCallbackList; import android.os.RemoteException; import android.os.SystemClock; import android.provider.Settings; import android.util.Log; import android.util.Pair; import com.android.bluetooth.a2dp.A2dpService; import com.android.bluetooth.hid.HidService; import com.android.bluetooth.hfp.HeadsetService; import com.android.bluetooth.hdp.HealthService; import com.android.bluetooth.pan.PanService; import com.android.bluetooth.R; import com.android.bluetooth.Utils; import com.android.bluetooth.btservice.RemoteDevices.DeviceProperties; import java.io.FileDescriptor; import java.io.IOException; import java.util.ArrayList; import java.util.HashMap; import java.util.Set; import java.util.Map; import java.util.Iterator; import java.util.Map.Entry; import java.util.List; import android.content.pm.PackageManager; import android.os.ServiceManager; public class AdapterService extends Service { private static final String TAG = "BluetoothAdapterService"; private static final boolean DBG = false; private static final boolean TRACE_REF = true; 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; //For Debugging only private static int sRefCount=0; private int mStackReportedState; private int mTxTimeTotalMs; private int mRxTimeTotalMs; private int mIdleTimeTotalMs; private int mEnergyUsedTotalVoltAmpSecMicro; 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_CONNECTED = 1; 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_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 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 int ADAPTER_SERVICE_TYPE=Service.START_STICKY; static { classInitNative(); } private static AdapterService sAdapterService; public static synchronized AdapterService getAdapterService(){ if (sAdapterService != null && !sAdapterService.mCleaningUp) { Log.d(TAG, "getAdapterService() - returning " + sAdapterService); return sAdapterService; } if (DBG) { if (sAdapterService == null) { Log.d(TAG, "getAdapterService() - Service not available"); } else if (sAdapterService.mCleaningUp) { Log.d(TAG,"getAdapterService() - Service is cleaning up"); } } return null; } private static synchronized void setAdapterService(AdapterService instance) { if (instance != null && !instance.mCleaningUp) { if (DBG) Log.d(TAG, "setAdapterService() - set to: " + sAdapterService); sAdapterService = instance; } else { if (DBG) { if (sAdapterService == null) { Log.d(TAG, "setAdapterService() - Service not available"); } else if (sAdapterService.mCleaningUp) { Log.d(TAG,"setAdapterService() - Service is cleaning up"); } } } } private static synchronized void clearAdapterService() { sAdapterService = null; } private AdapterProperties mAdapterProperties; private AdapterState mAdapterStateMachine; private BondStateMachine mBondStateMachine; private JniCallbacks mJniCallbacks; private RemoteDevices mRemoteDevices; private boolean mProfilesStarted; private boolean mNativeAvailable; private boolean mCleaningUp; private HashMap mProfileServicesState = new HashMap(); private RemoteCallbackList mCallbacks;//Only BluetoothManagerService should be registered private int mCurrentRequestId; private boolean mQuietmode = false; private AlarmManager mAlarmManager; private PendingIntent mPendingAlarm; private PowerManager mPowerManager; private PowerManager.WakeLock mWakeLock; private String mWakeLockName; public AdapterService() { super(); if (TRACE_REF) { synchronized (AdapterService.class) { sRefCount++; debugLog("AdapterService() - REFCOUNT: CREATED. INSTANCE_COUNT" + sRefCount); } } } public void onProfileConnectionStateChanged(BluetoothDevice device, int profileId, int newState, int prevState) { Message m = mHandler.obtainMessage(MESSAGE_PROFILE_CONNECTION_STATE_CHANGED); m.obj = device; m.arg1 = profileId; m.arg2 = newState; Bundle b = new Bundle(1); b.putInt("prevState", prevState); m.setData(b); mHandler.sendMessage(m); } public void initProfilePriorities(BluetoothDevice device, ParcelUuid[] mUuids) { if(mUuids == null) return; Message m = mHandler.obtainMessage(MESSAGE_PROFILE_INIT_PRIORITIES); m.obj = device; m.arg1 = mUuids.length; Bundle b = new Bundle(1); for(int i=0; i> i = mProfileServicesState.entrySet().iterator(); while (i.hasNext()) { Map.Entry entry = i.next(); if (BluetoothAdapter.STATE_ON != entry.getValue()) { debugLog("onProfileServiceStateChange() - Profile still not running:" + entry.getKey()); return; } } } debugLog("onProfileServiceStateChange() - All profile services started."); mProfilesStarted=true; //Send message to state machine mAdapterStateMachine.sendMessage(mAdapterStateMachine.obtainMessage(AdapterState.STARTED)); } } @Override public void onCreate() { super.onCreate(); debugLog("onCreate()"); mBinder = new AdapterServiceBinder(this); mAdapterProperties = new AdapterProperties(this); mAdapterStateMachine = AdapterState.make(this, mAdapterProperties); mJniCallbacks = new JniCallbacks(mAdapterStateMachine, mAdapterProperties); initNative(); mNativeAvailable=true; mCallbacks = new RemoteCallbackList(); //Load the name and address getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_BDADDR); getAdapterPropertyNative(AbstractionLayer.BT_PROPERTY_BDNAME); mAlarmManager = (AlarmManager) getSystemService(Context.ALARM_SERVICE); mPowerManager = (PowerManager) getSystemService(Context.POWER_SERVICE); registerReceiver(mAlarmBroadcastReceiver, new IntentFilter(ACTION_ALARM_WAKEUP)); } @Override public IBinder onBind(Intent intent) { debugLog("onBind()"); return mBinder; } public boolean onUnbind(Intent intent) { debugLog("onUnbind() - calling cleanup"); cleanup(); return super.onUnbind(intent); } public void onDestroy() { debugLog("onDestroy()"); } void processStart() { debugLog("processStart()"); Class[] supportedProfileServices = Config.getSupportedProfiles(); //Initialize data objects for (int i=0; i < supportedProfileServices.length;i++) { mProfileServicesState.put(supportedProfileServices[i].getName(),BluetoothAdapter.STATE_OFF); } mRemoteDevices = new RemoteDevices(this); mAdapterProperties.init(mRemoteDevices); debugLog("processStart() - Make Bond State Machine"); mBondStateMachine = BondStateMachine.make(this, mAdapterProperties, mRemoteDevices); mJniCallbacks.init(mBondStateMachine,mRemoteDevices); //FIXME: Set static instance here??? setAdapterService(this); //Start profile services if (!mProfilesStarted && supportedProfileServices.length >0) { //Startup all profile services setProfileServiceState(supportedProfileServices,BluetoothAdapter.STATE_ON); }else { debugLog("processStart() - Profile Services alreay started"); mAdapterStateMachine.sendMessage(mAdapterStateMachine.obtainMessage(AdapterState.STARTED)); } } void startBluetoothDisable() { mAdapterStateMachine.sendMessage(mAdapterStateMachine.obtainMessage(AdapterState.BEGIN_DISABLE)); } boolean stopProfileServices() { Class[] supportedProfileServices = Config.getSupportedProfiles(); if (mProfilesStarted && supportedProfileServices.length>0) { setProfileServiceState(supportedProfileServices,BluetoothAdapter.STATE_OFF); return true; } debugLog("stopProfileServices() - No profiles services to stop or already stopped."); return false; } void updateAdapterState(int prevState, int newState){ if (mCallbacks !=null) { int n=mCallbacks.beginBroadcast(); debugLog("updateAdapterState() - Broadcasting state to " + n + " receivers."); for (int i=0; i = MIN_ADVT_INSTANCES_FOR_MA); } public boolean isOffloadedFilteringSupported() { AdapterService service = getService(); if (service == null) return false; int val = service.getNumOfOffloadedScanFilterSupported(); return (val >= MIN_OFFLOADED_FILTERS); } public boolean isOffloadedScanBatchingSupported() { AdapterService service = getService(); if (service == null) return false; int val = service.getOffloadedScanResultStorage(); return (val >= MIN_OFFLOADED_SCAN_STORAGE_BYTES); } public boolean isActivityAndEnergyReportingSupported() { AdapterService service = getService(); if (service == null) return false; return service.isActivityAndEnergyReportingSupported(); } public void getActivityEnergyInfoFromController() { AdapterService service = getService(); if (service == null) return; service.getActivityEnergyInfoFromController(); } public BluetoothActivityEnergyInfo reportActivityInfo() { AdapterService service = getService(); if (service == null) return null; return service.reportActivityInfo(); } }; //----API Methods-------- boolean isEnabled() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getState() == BluetoothAdapter.STATE_ON; } int getState() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); if (mAdapterProperties == null){ return BluetoothAdapter.STATE_OFF; } else { debugLog("getState() - mAdapterProperties: " + mAdapterProperties); return mAdapterProperties.getState(); } } boolean enable() { return enable (false); } public boolean enableNoAutoConnect() { return enable (true); } public synchronized boolean enable(boolean quietMode) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); debugLog("enable() - Enable called with quiet mode status = " + mQuietmode); mQuietmode = quietMode; Message m = mAdapterStateMachine.obtainMessage(AdapterState.USER_TURN_ON); mAdapterStateMachine.sendMessage(m); return true; } boolean disable() { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); debugLog("disable() called..."); Message m = mAdapterStateMachine.obtainMessage(AdapterState.USER_TURN_OFF); mAdapterStateMachine.sendMessage(m); return true; } String getAddress() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); String addrString = null; byte[] address = mAdapterProperties.getAddress(); return Utils.getAddressStringFromByte(address); } ParcelUuid[] getUuids() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getUuids(); } String getName() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); try { return mAdapterProperties.getName(); } catch (Throwable t) { debugLog("getName() - Unexpected exception (" + t + ")"); } return null; } boolean setName(String name) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); return mAdapterProperties.setName(name); } int getScanMode() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getScanMode(); } boolean setScanMode(int mode, int duration) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); setDiscoverableTimeout(duration); int newMode = convertScanModeToHal(mode); return mAdapterProperties.setScanMode(newMode); } int getDiscoverableTimeout() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getDiscoverableTimeout(); } boolean setDiscoverableTimeout(int timeout) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.setDiscoverableTimeout(timeout); } boolean startDiscovery() { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); return startDiscoveryNative(); } boolean cancelDiscovery() { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); return cancelDiscoveryNative(); } boolean isDiscovering() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.isDiscovering(); } BluetoothDevice[] getBondedDevices() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getBondedDevices(); } int getAdapterConnectionState() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getConnectionState(); } int getProfileConnectionState(int profile) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getProfileConnectionState(profile); } boolean createBond(BluetoothDevice device, int transport) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp != null && deviceProp.getBondState() != BluetoothDevice.BOND_NONE) { return false; } // 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; mBondStateMachine.sendMessage(msg); return true; } public boolean isQuietModeEnabled() { debugLog("isQuetModeEnabled() - Enabled = " + mQuietmode); return mQuietmode; } public void autoConnect(){ if (getState() != BluetoothAdapter.STATE_ON){ errorLog("autoConnect() - BT is not ON. Exiting autoConnect"); return; } if (isQuietModeEnabled() == false) { debugLog( "autoConnect() - Initiate auto connection on BT on..."); autoConnectHeadset(); autoConnectA2dp(); } else { debugLog( "autoConnect() - BT is in quiet mode. Not initiating auto connections"); } } private void autoConnectHeadset(){ HeadsetService hsService = HeadsetService.getHeadsetService(); BluetoothDevice bondedDevices[] = getBondedDevices(); if ((bondedDevices == null) ||(hsService == null)) { return; } for (BluetoothDevice device : bondedDevices) { if (hsService.getPriority(device) == BluetoothProfile.PRIORITY_AUTO_CONNECT ){ debugLog("autoConnectHeadset() - Connecting HFP with " + device.toString()); hsService.connect(device); } } } private void autoConnectA2dp(){ A2dpService a2dpSservice = A2dpService.getA2dpService(); BluetoothDevice bondedDevices[] = getBondedDevices(); if ((bondedDevices == null) ||(a2dpSservice == null)) { return; } for (BluetoothDevice device : bondedDevices) { if (a2dpSservice.getPriority(device) == BluetoothProfile.PRIORITY_AUTO_CONNECT ){ debugLog("autoConnectA2dp() - Connecting A2DP with " + device.toString()); a2dpSservice.connect(device); } } } public void connectOtherProfile(BluetoothDevice device, int firstProfileStatus){ if ((mHandler.hasMessages(MESSAGE_CONNECT_OTHER_PROFILES) == false) && (isQuietModeEnabled()== false)){ Message m = mHandler.obtainMessage(MESSAGE_CONNECT_OTHER_PROFILES); m.obj = device; m.arg1 = (int)firstProfileStatus; mHandler.sendMessageDelayed(m,CONNECT_OTHER_PROFILES_TIMEOUT); } } private void processConnectOtherProfiles (BluetoothDevice device, int firstProfileStatus){ if (getState()!= BluetoothAdapter.STATE_ON){ return; } HeadsetService hsService = HeadsetService.getHeadsetService(); A2dpService a2dpService = A2dpService.getA2dpService(); // if any of the profile service is null, second profile connection not required if ((hsService == null) ||(a2dpService == null )){ return; } List a2dpConnDevList= a2dpService.getConnectedDevices(); List hfConnDevList= hsService.getConnectedDevices(); // Check if the device is in disconnected state and if so return // We ned to connect other profile only if one of the profile is still in connected state // This is required to avoide a race condition in which profiles would // automaticlly connect if the disconnection is initiated within 6 seconds of connection //First profile connection being rejected is an exception if((hfConnDevList.isEmpty() && a2dpConnDevList.isEmpty())&& (PROFILE_CONN_CONNECTED == firstProfileStatus)){ return; } if((hfConnDevList.isEmpty()) && (hsService.getPriority(device) >= BluetoothProfile.PRIORITY_ON)){ hsService.connect(device); } else if((a2dpConnDevList.isEmpty()) && (a2dpService.getPriority(device) >= BluetoothProfile.PRIORITY_ON)){ a2dpService.connect(device); } } private void adjustOtherHeadsetPriorities(HeadsetService hsService, List connectedDeviceList) { for (BluetoothDevice device : getBondedDevices()) { if (hsService.getPriority(device) >= BluetoothProfile.PRIORITY_AUTO_CONNECT && !connectedDeviceList.contains(device)) { hsService.setPriority(device, BluetoothProfile.PRIORITY_ON); } } } private void adjustOtherSinkPriorities(A2dpService a2dpService, BluetoothDevice connectedDevice) { for (BluetoothDevice device : getBondedDevices()) { if (a2dpService.getPriority(device) >= BluetoothProfile.PRIORITY_AUTO_CONNECT && !device.equals(connectedDevice)) { a2dpService.setPriority(device, BluetoothProfile.PRIORITY_ON); } } } void setProfileAutoConnectionPriority (BluetoothDevice device, int profileId){ if (profileId == BluetoothProfile.HEADSET) { HeadsetService hsService = HeadsetService.getHeadsetService(); List deviceList = hsService.getConnectedDevices(); if ((hsService != null) && (BluetoothProfile.PRIORITY_AUTO_CONNECT != hsService.getPriority(device))){ adjustOtherHeadsetPriorities(hsService, deviceList); hsService.setPriority(device,BluetoothProfile.PRIORITY_AUTO_CONNECT); } } else if (profileId == BluetoothProfile.A2DP) { A2dpService a2dpService = A2dpService.getA2dpService(); if ((a2dpService != null) && (BluetoothProfile.PRIORITY_AUTO_CONNECT != a2dpService.getPriority(device))){ adjustOtherSinkPriorities(a2dpService, device); a2dpService.setPriority(device,BluetoothProfile.PRIORITY_AUTO_CONNECT); } } } boolean cancelBondProcess(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); byte[] addr = Utils.getBytesFromAddress(device.getAddress()); return cancelBondNative(addr); } boolean removeBond(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || deviceProp.getBondState() != BluetoothDevice.BOND_BONDED) { return false; } Message msg = mBondStateMachine.obtainMessage(BondStateMachine.REMOVE_BOND); msg.obj = device; mBondStateMachine.sendMessage(msg); return true; } int getBondState(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) { return BluetoothDevice.BOND_NONE; } return deviceProp.getBondState(); } boolean isConnected(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); byte[] addr = Utils.getBytesFromAddress(device.getAddress()); return isConnectedNative(addr); } String getRemoteName(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) return null; return deviceProp.getName(); } int getRemoteType(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) return BluetoothDevice.DEVICE_TYPE_UNKNOWN; return deviceProp.getDeviceType(); } String getRemoteAlias(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) return null; return deviceProp.getAlias(); } boolean setRemoteAlias(BluetoothDevice device, String name) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) return false; deviceProp.setAlias(name); return true; } int getRemoteClass(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) return 0; return deviceProp.getBluetoothClass(); } ParcelUuid[] getRemoteUuids(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null) return null; return deviceProp.getUuids(); } boolean fetchRemoteUuids(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); mRemoteDevices.fetchUuids(device); return true; } boolean fetchRemoteMasInstances(BluetoothDevice device) { enforceCallingOrSelfPermission(RECEIVE_MAP_PERM, "Need RECEIVE BLUETOOTH MAP permission"); mRemoteDevices.fetchMasInstances(device); return true; } boolean setPin(BluetoothDevice device, boolean accept, int len, byte[] pinCode) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || deviceProp.getBondState() != BluetoothDevice.BOND_BONDING) { return false; } byte[] addr = Utils.getBytesFromAddress(device.getAddress()); return pinReplyNative(addr, accept, len, pinCode); } boolean setPasskey(BluetoothDevice device, boolean accept, int len, byte[] passkey) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || deviceProp.getBondState() != BluetoothDevice.BOND_BONDING) { return false; } byte[] addr = Utils.getBytesFromAddress(device.getAddress()); return sspReplyNative(addr, AbstractionLayer.BT_SSP_VARIANT_PASSKEY_ENTRY, accept, Utils.byteArrayToInt(passkey)); } boolean setPairingConfirmation(BluetoothDevice device, boolean accept) { enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM, "Need BLUETOOTH ADMIN permission"); DeviceProperties deviceProp = mRemoteDevices.getDeviceProperties(device); if (deviceProp == null || deviceProp.getBondState() != BluetoothDevice.BOND_BONDING) { return false; } byte[] addr = Utils.getBytesFromAddress(device.getAddress()); return sspReplyNative(addr, AbstractionLayer.BT_SSP_VARIANT_PASSKEY_CONFIRMATION, accept, 0); } int getPhonebookAccessPermission(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); SharedPreferences pref = getSharedPreferences(PHONEBOOK_ACCESS_PERMISSION_PREFERENCE_FILE, Context.MODE_PRIVATE); if (!pref.contains(device.getAddress())) { return BluetoothDevice.ACCESS_UNKNOWN; } return pref.getBoolean(device.getAddress(), false) ? BluetoothDevice.ACCESS_ALLOWED : BluetoothDevice.ACCESS_REJECTED; } boolean setPhonebookAccessPermission(BluetoothDevice device, int value) { enforceCallingOrSelfPermission(BLUETOOTH_PRIVILEGED, "Need BLUETOOTH PRIVILEGED permission"); SharedPreferences pref = getSharedPreferences(PHONEBOOK_ACCESS_PERMISSION_PREFERENCE_FILE, 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); } return editor.commit(); } int getMessageAccessPermission(BluetoothDevice device) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); SharedPreferences pref = getSharedPreferences(MESSAGE_ACCESS_PERMISSION_PREFERENCE_FILE, Context.MODE_PRIVATE); if (!pref.contains(device.getAddress())) { return BluetoothDevice.ACCESS_UNKNOWN; } return pref.getBoolean(device.getAddress(), false) ? BluetoothDevice.ACCESS_ALLOWED : BluetoothDevice.ACCESS_REJECTED; } boolean setMessageAccessPermission(BluetoothDevice device, int value) { enforceCallingOrSelfPermission(BLUETOOTH_PRIVILEGED, "Need BLUETOOTH PRIVILEGED permission"); SharedPreferences pref = getSharedPreferences(MESSAGE_ACCESS_PERMISSION_PREFERENCE_FILE, 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); } return editor.commit(); } void sendConnectionStateChange(BluetoothDevice device, int profile, int state, int prevState) { // TODO(BT) permission check? // Since this is a binder call check if Bluetooth is on still if (getState() == BluetoothAdapter.STATE_OFF) return; mAdapterProperties.sendConnectionStateChange(device, profile, state, prevState); } ParcelFileDescriptor connectSocket(BluetoothDevice device, int type, ParcelUuid uuid, int port, int flag) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); int fd = connectSocketNative(Utils.getBytesFromAddress(device.getAddress()), type, Utils.uuidToByteArray(uuid), port, flag); if (fd < 0) { errorLog("Failed to connect socket"); return null; } return ParcelFileDescriptor.adoptFd(fd); } ParcelFileDescriptor createSocketChannel(int type, String serviceName, ParcelUuid uuid, int port, int flag) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); int fd = createSocketChannelNative(type, serviceName, Utils.uuidToByteArray(uuid), port, flag); if (fd < 0) { errorLog("Failed to create socket channel"); return null; } return ParcelFileDescriptor.adoptFd(fd); } boolean configHciSnoopLog(boolean enable) { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return configHciSnoopLogNative(enable); } void registerCallback(IBluetoothCallback cb) { mCallbacks.register(cb); } void unregisterCallback(IBluetoothCallback cb) { mCallbacks.unregister(cb); } public int getNumOfAdvertisementInstancesSupported() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getNumOfAdvertisementInstancesSupported(); } public boolean isRpaOffloadSupported() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.isRpaOffloadSupported(); } public int getNumOfOffloadedIrkSupported() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getNumOfOffloadedIrkSupported(); } public int getNumOfOffloadedScanFilterSupported() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getNumOfOffloadedScanFilterSupported(); } public int getOffloadedScanResultStorage() { enforceCallingOrSelfPermission(BLUETOOTH_PERM, "Need BLUETOOTH permission"); return mAdapterProperties.getOffloadedScanResultStorage(); } private boolean isActivityAndEnergyReportingSupported() { enforceCallingOrSelfPermission(BLUETOOTH_PRIVILEGED, "Need BLUETOOTH permission"); return mAdapterProperties.isActivityAndEnergyReportingSupported(); } private void getActivityEnergyInfoFromController() { enforceCallingOrSelfPermission(BLUETOOTH_PRIVILEGED, "Need BLUETOOTH permission"); if (isActivityAndEnergyReportingSupported()) { readEnergyInfo(); } } private BluetoothActivityEnergyInfo reportActivityInfo() { enforceCallingOrSelfPermission(BLUETOOTH_PRIVILEGED, "Need BLUETOOTH permission"); BluetoothActivityEnergyInfo info = new BluetoothActivityEnergyInfo(mStackReportedState, mTxTimeTotalMs, mRxTimeTotalMs, mIdleTimeTotalMs, mEnergyUsedTotalVoltAmpSecMicro); // Read on clear values; a record of data is created with // timstamp and new samples are collected until read again mStackReportedState = 0; mTxTimeTotalMs = 0; mRxTimeTotalMs = 0; mIdleTimeTotalMs = 0; mEnergyUsedTotalVoltAmpSecMicro = 0; return info; } 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) { if (mWakeLock != null) { if (!lockName.equals(mWakeLockName)) { errorLog("Multiple wake lock acquisition attempted; aborting: " + lockName); return false; } // We're already holding the desired wake lock so return success. if (mWakeLock.isHeld()) { return true; } } mWakeLockName = lockName; mWakeLock = mPowerManager.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, lockName); 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; } mWakeLock.release(); mWakeLock = null; mWakeLockName = null; } return true; } private void energyInfoCallback (int status, int ctrl_state, long tx_time, long rx_time, long idle_time, long energy_used) throws RemoteException { // ToDo: Update only status is valid if (ctrl_state >= BluetoothActivityEnergyInfo.BT_STACK_STATE_INVALID && ctrl_state <= BluetoothActivityEnergyInfo.BT_STACK_STATE_STATE_IDLE) { mStackReportedState = ctrl_state; mTxTimeTotalMs += tx_time; mRxTimeTotalMs += rx_time; mIdleTimeTotalMs += idle_time; // Energy is product of mA, V and ms mEnergyUsedTotalVoltAmpSecMicro += energy_used; } if (DBG) { Log.d(TAG, "energyInfoCallback " + "status = " + status + "tx_time = " + tx_time + "rx_time = " + rx_time + "idle_time = " + idle_time + "energy_used = " + energy_used + "ctrl_state = " + ctrl_state); } } private void debugLog(String msg) { if (DBG) Log.d(TAG +"(" +hashCode()+")", msg); } private void errorLog(String msg) { Log.e(TAG +"(" +hashCode()+")", msg); } private final BroadcastReceiver mAlarmBroadcastReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { synchronized (AdapterService.this) { mPendingAlarm = null; alarmFiredNative(); } } }; private native static void classInitNative(); private native boolean initNative(); private 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 removeBondNative(byte[] address); /*package*/ native boolean cancelBondNative(byte[] address); /*package*/ native boolean isConnectedNative(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(); // TODO(BT) move this to ../btsock dir private native int connectSocketNative(byte[] address, int type, byte[] uuid, int port, int flag); private native int createSocketChannelNative(int type, String serviceName, byte[] uuid, int port, int flag); /*package*/ native boolean configHciSnoopLogNative(boolean enable); private native void alarmFiredNative(); protected void finalize() { cleanup(); if (TRACE_REF) { synchronized (AdapterService.class) { sRefCount--; debugLog("finalize() - REFCOUNT: FINALIZED. INSTANCE_COUNT= " + sRefCount); } } } }