Android蓝牙服务启动流程分析探索
首先我们要知道,主要系统服务都是在 SystemServer 启动的,蓝牙也是如此:
1、SystemServer
源码路径:/frameworks/base/services/java/com/android/server/SystemServer.java
private void startOtherServices(@NonNull TimingsTraceAndSlog t) { if (mFactoryTestMode == FactoryTest.FACTORY_TEST_LOW_LEVEL) { Slog.i(TAG, "No Bluetooth Service (factory test)"); } else if (!context.getPackageManager().hasSystemFeature(PackageManager.FEATURE_BLUETOOTH)) { Slog.i(TAG, "No Bluetooth Service (Bluetooth Hardware Not Present)"); } else { t.traceBegin("StartBluetoothService"); mSystemServiceManager.startService(BluetoothService.class); t.traceEnd(); } }
SystemServer 在启动其他服务的方法里,启动了 BluetoothService。
2、BluetoothService
class BluetoothService extends SystemService { private BluetoothManagerService mBluetoothManagerService; public BluetoothService(Context context) { super(context); //创建BluetoothManagerService的实例 mBluetoothManagerService = new BluetoothManagerService(context); } ...... @Override public void onBootPhase(int phase) { if (phase == SystemService.PHASE_SYSTEM_SERVICES_READY) { //将BluetoothManagerService实例发布到系统中,这样就可以Context根据BT的service名去获取它的Binder代理操作API了 publishBinderService(BluetoothAdapter.BLUETOOTH_MANAGER_SERVICE, mBluetoothManagerService); } else if (phase == SystemService.PHASE_ACTIVITY_MANAGER_READY) { //此时系统应该启动到一个比较晚的阶段了,可以使用AMS去Bind需要的Service了 mBluetoothManagerService.handleOnBootPhase(); } } ...... }
可以看到,真正获取的服务是BluetoothManagerService 而非 BluetoothService。可以通过 ServiceManager.getService(BLUETOOTH_MANAGER _SERVICE) 获取蓝牙服务。
onBootPhase(int):这个函数应该是 systemserver 在启动的时候会多次调用,参数代表当前启动进行到了什么阶段,用户定义的 service 针对各个阶段需要做怎样的处理或者是不做任何处理。
3、BluetoothManagerService
BluetoothManagerService(Context context) { //创建内部处理msg的handler mHandler = new BluetoothHandler(IoThread.get().getLooper()); mContext = context; ...... //false表示此次enable需要触发auto connect device和保存状态,BluetoothAdapter::enableNoAutoConnect()可以改变此状态 mQuietEnableExternal = false; mEnableExternal = false; ...... IntentFilter filter = new IntentFilter(); //监听App通过接口修改BT 名称的广播 filter.addAction(BluetoothAdapter.ACTION_LOCAL_NAME_CHANGED); //监听bt地址改变的广播 filter.addAction(BluetoothAdapter.ACTION_BLUETOOTH_ADDRESS_CHANGED); //监听当前设置需要restore回上一次设置的广播,此时需要重新保存name和addr为上一次的信息 filter.addAction(Intent.ACTION_SETTING_RESTORED); filter.setPriority(IntentFilter.SYSTEM_HIGH_PRIORITY); mContext.registerReceiver(mReceiver, filter); //从数据库中加载本机Bt的local name和address loadStoredNameAndAddress(); //查看上一次关机时,BT是否为enable状态;如果是,这次开机也需要enable BT if (isBluetoothPersistedStateOn()) { if (DBG) { Slog.d(TAG, "Startup: Bluetooth persisted state is ON."); } mEnableExternal = true;//表明开机过程中需要enable BT } }
在服务启动到一定阶段就会回调到 SystemService 的 onBootPhase(int) 方法,即 2 中的该方法,然后调用 BMS 中的 handleOnBootPhase() 方法。
public void handleOnBootPhase() { ...... final boolean isSafeMode = mContext.getPackageManager().isSafeMode(); if (mEnableExternal && isBluetoothPersistedStateOnBluetooth() && && !isSafeMode) { sendEnableMsg(mQuietEnableExternal/*默认false,表示此次enable需要自动连接device/保存enable状态*/, BluetoothProtoEnums.ENABLE_DISABLE_REASON_SYSTEM_BOOT, mContext.getPackageName()); } else if (!isNameAndAddressSet()) { Message getMsg = mHandler.obtainMessage(MESSAGE_GET_NAME_AND_ADDRESS); mHandler.sendMessage(getMsg); } ...... }
handleOnBootPhase()的内容比较单一,根据一些flag判断是否需要enable BT;而enable蓝牙这里是通过触发send msg实现。
private void sendEnableMsg(boolean quietMode, int reason, String packageName) { //发送MESSAGE_ENABLE msg mHandler.sendMessage(mHandler.obtainMessage(MESSAGE_ENABLE, quietMode ? 1 : 0, 0)); addActiveLog(reason, packageName, true); mLastEnabledTime = SystemClock.elapsedRealtime(); } case MESSAGE_ENABLE: int quietEnable = msg.arg1; mQuietEnable = (quietEnable == 1);//此时为false //mBluetooth是后面绑定Bt apk中AdapterService时拿到的Binder代理对象;用以把操作bypass到BT核心框架中 if (mBluetooth == null) { handleEnable(mQuietEnable); } else {//如果mBluetooth不是null,说明之前已经启动过了;此时是Restart flow,以MESSAGE_RESTART_BLUETOOTH_SERVICE触发 mWaitForEnableRetry = 0; Message enableDelayedMsg = mHandler.obtainMessage(MESSAGE_HANDLE_ENABLE_DELAYED); mHandler.sendMessageDelayed(enableDelayedMsg, ENABLE_DISABLE_DELAY_MS); } break;
handleEnable() 去 Bind AdapterService 拿到它的Binder句柄。同样的在调用 BluetoothManagerService 中的 enable()、disable()等方法时,也是调到 handleEnable() 方法,从而最终调用 AdapterService 中的 enable()、disable() 方法。
private void handleEnable(boolean quietMode) { mQuietEnable = quietMode; try { mBluetoothLock.writeLock().lock(); if ((mBluetooth == null) && (!mBinding)) { //Start bind timeout and bind Message timeoutMsg = mHandler.obtainMessage(MESSAGE_TIMEOUT_BIND); mHandler.sendMessageDelayed(timeoutMsg, TIMEOUT_BIND_MS); Intent i = new Intent(IBluetooth.class.getName()); if (!doBind(i, mConnection, Context.BIND_AUTO_CREATE | Context.BIND_IMPORTANT, UserHandle.CURRENT)) { mHandler.removeMessages(MESSAGE_TIMEOUT_BIND); } else { mBinding = true; } } } finally { mBluetoothLock.writeLock().unlock(); } }
然后我们看一下 doBind() 方法中的 mConnection 参数:
private BluetoothServiceConnection mConnection = new BluetoothServiceConnection(); private class BluetoothServiceConnection implements ServiceConnection { public void onServiceConnected(ComponentName componentName, IBinder service) { String name = componentName.getClassName(); Message msg = mHandler.obtainMessage(MESSAGE_BLUETOOTH_SERVICE_CONNECTED); if (name.equals("com.android.bluetooth.btservice.AdapterService")) { msg.arg1 = SERVICE_IBLUETOOTH; } else if (name.equals("com.android.bluetooth.gatt.GattService")) { msg.arg1 = SERVICE_IBLUETOOTHGATT; } else { Slog.e(TAG, "Unknown service connected: " + name); return; } msg.obj = service; mHandler.sendMessage(msg); } public void onServiceDisconnected(ComponentName componentName) { // Called if we unexpectedly disconnect. String name = componentName.getClassName(); Message msg = mHandler.obtainMessage(MESSAGE_BLUETOOTH_SERVICE_DISCONNECTED); if (name.equals("com.android.bluetooth.btservice.AdapterService")) { msg.arg1 = SERVICE_IBLUETOOTH; } else if (name.equals("com.android.bluetooth.gatt.GattService")) { msg.arg1 = SERVICE_IBLUETOOTHGATT; } else { Slog.e(TAG, "Unknown service disconnected: " + name); return; } mHandler.sendMessage(msg); } }
拿到 AdapterService 服务后,发送MESSAGE_BLUETOOTH_SERVICE_CONNECTED消息且 arg1 = SERVICE_IBLUETOOTH。
case MESSAGE_BLUETOOTH_SERVICE_CONNECTED: { IBinder service = (IBinder) msg.obj; try { mBluetoothLock.writeLock().lock(); mBinding = false; mBluetoothBinder = service; mBluetooth = IBluetooth.Stub.asInterface(Binder.allowBlocking(service)); //Register callback object try { mBluetooth.registerCallback(mBluetoothCallback, mContext.getAttributionSource()); } catch (RemoteException re) { Slog.e(TAG, "Unable to register BluetoothCallback", re); } //Inform BluetoothAdapter instances that service is up sendBluetoothServiceUpCallback(); //Do enable request try { if (!mBluetooth.enable(mQuietEnable, mContext.getAttributionSource())) { Slog.e(TAG, "IBluetooth.enable() returned false"); } } catch (RemoteException e) { Slog.e(TAG, "Unable to call enable()", e); } } finally { mBluetoothLock.writeLock().unlock(); } if (!mEnable) { waitForState(Set.of(BluetoothAdapter.STATE_ON)); handleDisable(); waitForState(Set.of(BluetoothAdapter.STATE_OFF, BluetoothAdapter.STATE_TURNING_ON, BluetoothAdapter.STATE_TURNING_OFF, BluetoothAdapter.STATE_BLE_TURNING_ON, BluetoothAdapter.STATE_BLE_ON, BluetoothAdapter.STATE_BLE_TURNING_OFF)); } }
主要操作:
1、拿到 bind 服务的 onBinder() 句柄,并转成 IBluetooth 类型
2、通过 IBluetooth 类型的 obj,调用 enable() 接口,将 flow 转到 AdapterService 中,做一些初始化、并向 stack 下 enable 蓝牙的 cmd
至此,enable 蓝牙的 flow 就从 BluetoothManagerService 转到 AdapterService 中了;实际上,通过 BluetoothAdapter 下来的大部分 API 调用最终都是调用到 AdapterService,再通过它下cmd 给 stack。
两个常见到的flag:
mEnable:用来标记系统运行时,蓝牙状态的变化,它有些时候跟 mEnableExternal 值一致。但如果蓝牙的状态是因为某些原因,如 stack 崩溃,导致蓝牙需要重启,重新启动时,需要靠这个 flag 来标记这种 case 的 enable/disable 状态。
mEnableExternal:它主要是记录通过用户手动操作导致的BT使能状态,如通过蓝牙功能按钮来 enable/disable 蓝牙。
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