/* * Copyright (C) 2015 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.car; import android.Manifest; import android.car.Car; import android.car.hardware.CarSensorEvent; import android.car.hardware.CarSensorManager; import android.car.hardware.ICarSensor; import android.car.hardware.ICarSensorEventListener; import android.car.hardware.CarSensorManager.CarSensorEventListener; import android.content.Context; import android.content.pm.PackageManager; import android.hardware.SensorEvent; import android.os.Binder; import android.os.Handler; import android.os.HandlerThread; import android.os.IBinder; import android.os.Looper; import android.os.Message; import android.os.Process; import android.os.RemoteException; import android.os.SystemClock; import android.util.Log; import android.util.SparseArray; import android.util.SparseBooleanArray; import com.android.car.hal.VehicleHal; import com.android.car.hal.SensorHalService; import com.android.car.hal.SensorHalServiceBase; import com.android.car.hal.SensorHalServiceBase.SensorListener; import com.android.internal.annotations.GuardedBy; import java.io.PrintWriter; import java.util.Arrays; import java.util.ConcurrentModificationException; import java.util.HashMap; import java.util.LinkedList; import java.util.List; import java.util.concurrent.TimeUnit; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.locks.ReentrantLock; public class CarSensorService extends ICarSensor.Stub implements CarServiceBase, SensorHalService.SensorListener { /** * Abstraction for logical sensor which is not physical sensor but presented as sensor to * upper layer. Currently {@link CarSensorManager#SENSOR_TYPE_NIGHT} and * {@link CarSensorManager#SENSOR_TYPE_DRIVING_STATUS} falls into this category. * Implementation can call {@link CarSensorService#onSensorData(CarSensorEvent)} when there * is state change for the given sensor after {@link SensorHalServiceBase#init()} * is called. */ public static abstract class LogicalSensorHalBase extends SensorHalServiceBase { /** Sensor service is ready and all vehicle sensors are available. */ public abstract void onSensorServiceReady(); } /** * When set, sensor service sets its own dispatching rate limit. * VehicleNetworkService is already doing this, so not necessary to set it for now. */ private static final boolean ENABLE_DISPATCHING_LIMIT = false; /** {@link #mSensorLock} is not waited forever for handling disconnection */ private static final long MAX_SENSOR_LOCK_WAIT_MS = 1000; /** lock to access sensor structures */ private final ReentrantLock mSensorLock = new ReentrantLock(); /** hold clients callback */ @GuardedBy("mSensorLock") private final LinkedList mClients = new LinkedList(); /** key: sensor type. */ @GuardedBy("mSensorLock") private final SparseArray mSensorListeners = new SparseArray<>(); /** key: sensor type. */ @GuardedBy("mSensorLock") private final SparseArray mSensorRecords = new SparseArray<>(); private final SensorHalService mSensorHal; private int[] mCarProvidedSensors; private int[] mSupportedSensors; private final AtomicBoolean mSensorDiscovered = new AtomicBoolean(false); private final Context mContext; private final DrivingStatePolicy mDrivingStatePolicy; private boolean mUseDefaultDrivingPolicy = true; private final DayNightModePolicy mDayNightModePolicy; private boolean mUseDefaultDayNightModePolicy = true; private final HandlerThread mHandlerThread; private final SensorDispatchHandler mSensorDispatchHandler; public CarSensorService(Context context) { mContext = context; if (ENABLE_DISPATCHING_LIMIT) { mHandlerThread = new HandlerThread("SENSOR", Process.THREAD_PRIORITY_AUDIO); mHandlerThread.start(); mSensorDispatchHandler = new SensorDispatchHandler(mHandlerThread.getLooper()); } else { mHandlerThread = null; mSensorDispatchHandler = null; } // This triggers sensor hal init as well. mSensorHal = VehicleHal.getInstance().getSensorHal(); mDrivingStatePolicy = new DrivingStatePolicy(context); mDayNightModePolicy = new DayNightModePolicy(context); } @Override public void init() { // Watch out the order. registerSensorListener can lead into onSensorHalReady call. // So it should be done last. mSensorLock.lock(); try { mSupportedSensors = refreshSupportedSensorsLocked(); CarSensorEvent event = null; if (mUseDefaultDrivingPolicy) { mDrivingStatePolicy.init(); mDrivingStatePolicy.registerSensorListener(this); } else { event = mSensorHal.getCurrentSensorValue( CarSensorManager.SENSOR_TYPE_DRIVING_STATUS); } if (event == null) { event = DrivingStatePolicy.getDefaultValue( CarSensorManager.SENSOR_TYPE_DRIVING_STATUS); } // always populate default value addNewSensorRecordLocked(CarSensorManager.SENSOR_TYPE_DRIVING_STATUS, event); event = null; if (mUseDefaultDayNightModePolicy) { mDayNightModePolicy.init(); mDayNightModePolicy.registerSensorListener(this); } else { event = mSensorHal.getCurrentSensorValue(CarSensorManager.SENSOR_TYPE_NIGHT); } if (event == null) { event = DayNightModePolicy.getDefaultValue(CarSensorManager.SENSOR_TYPE_NIGHT); } // always populate default value addNewSensorRecordLocked(CarSensorManager.SENSOR_TYPE_NIGHT, event); } finally { mSensorLock.unlock(); } mSensorHal.registerSensorListener(this); } private void addNewSensorRecordLocked(int type, CarSensorEvent event) { SensorRecord record = new SensorRecord(); record.lastEvent = event; mSensorRecords.put(type,record); } @Override public void release() { if (mHandlerThread != null) { mHandlerThread.quit(); } tryHoldSensorLock(); try { if (mUseDefaultDrivingPolicy) { mDrivingStatePolicy.release(); } if (mUseDefaultDayNightModePolicy) { mDayNightModePolicy.release(); } for (int i = mSensorListeners.size() - 1; i >= 0; --i) { SensorListeners listener = mSensorListeners.valueAt(i); listener.release(); } mSensorListeners.clear(); mSensorRecords.clear(); mClients.clear(); } finally { releaseSensorLockSafely(); } } private void tryHoldSensorLock() { try { mSensorLock.tryLock(MAX_SENSOR_LOCK_WAIT_MS, TimeUnit.MILLISECONDS); } catch (InterruptedException e) { //ignore } } private void releaseSensorLockSafely() { if (mSensorLock.isHeldByCurrentThread()) { mSensorLock.unlock(); } } @Override public void onSensorHalReady(SensorHalServiceBase hal) { if (hal == mSensorHal) { mCarProvidedSensors = mSensorHal.getSupportedSensors(); if (Log.isLoggable(CarLog.TAG_SENSOR, Log.VERBOSE)) { Log.v(CarLog.TAG_SENSOR, "sensor Hal ready, available sensors:" + Arrays.toString(mCarProvidedSensors)); } mSensorLock.lock(); try { mSupportedSensors = refreshSupportedSensorsLocked(); if (mUseDefaultDrivingPolicy) { mDrivingStatePolicy.onSensorServiceReady(); } if (mUseDefaultDayNightModePolicy) { mDayNightModePolicy.onSensorServiceReady(); } } finally { mSensorLock.unlock(); } } } private void processSensorData(List events) { mSensorLock.lock(); for (CarSensorEvent event: events) { SensorRecord record = mSensorRecords.get(event.sensorType); if (record != null) { if (record.lastEvent == null) { record.lastEvent = event; } else if (record.lastEvent.timeStampNs < event.timeStampNs) { record.lastEvent = event; //TODO recycle event } else { // wrong timestamp, throw away this. //TODO recycle new event continue; } SensorListeners listeners = mSensorListeners.get(event.sensorType); if (listeners != null) { listeners.queueSensorEvent(event); } } } for (SensorClient client: mClients) { client.dispatchSensorUpdate(); } mSensorLock.unlock(); } /** * Received sensor data from car. * * @param event */ @Override public void onSensorEvents(List events) { if (ENABLE_DISPATCHING_LIMIT) { mSensorDispatchHandler.handleSensorEvents(events); } else { processSensorData(events); } } @Override public int[] getSupportedSensors() { return mSupportedSensors; } @Override public boolean registerOrUpdateSensorListener(int sensorType, int rate, ICarSensorEventListener listener) { boolean shouldStartSensors = false; SensorRecord sensorRecord = null; SensorClient sensorClient = null; Integer oldRate = null; SensorListeners sensorListeners = null; mSensorLock.lock(); try { sensorRecord = mSensorRecords.get(sensorType); if (sensorRecord == null) { if (Log.isLoggable(CarLog.TAG_SENSOR, Log.INFO)) { Log.i(CarLog.TAG_SENSOR, "Requested sensor " + sensorType + " not supported"); } return false; } if (Binder.getCallingUid() != Process.myUid()) { switch (getSensorPermission(sensorType)) { case PackageManager.PERMISSION_DENIED: throw new SecurityException("client does not have permission:" + getPermissionName(sensorType) + " pid:" + Binder.getCallingPid() + " uid:" + Binder.getCallingUid()); case PackageManager.PERMISSION_GRANTED: break; } } if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "registerOrUpdateSensorListener " + sensorType + " " + listener); } sensorClient = findSensorClientLocked(listener); SensorClientWithRate sensorClientWithRate = null; sensorListeners = mSensorListeners.get(sensorType); if (sensorClient == null) { sensorClient = new SensorClient(listener); try { listener.asBinder().linkToDeath(sensorClient, 0); } catch (RemoteException e) { if (Log.isLoggable(CarLog.TAG_SENSOR, Log.INFO)) { Log.i(CarLog.TAG_SENSOR, "Adding listener failed."); } return false; } mClients.add(sensorClient); } // If we have a cached event for this sensor, send the event. SensorRecord record = mSensorRecords.get(sensorType); if (record != null && record.lastEvent != null) { sensorClient.queueSensorEvent(record.lastEvent); sensorClient.dispatchSensorUpdate(); } if (sensorListeners == null) { sensorListeners = new SensorListeners(rate); mSensorListeners.put(sensorType, sensorListeners); shouldStartSensors = true; } else { oldRate = Integer.valueOf(sensorListeners.getRate()); sensorClientWithRate = sensorListeners.findSensorClientWithRate(sensorClient); } if (sensorClientWithRate == null) { sensorClientWithRate = new SensorClientWithRate(sensorClient, rate); sensorListeners.addSensorClientWithRate(sensorClientWithRate); } else { sensorClientWithRate.setRate(rate); } if (sensorListeners.getRate() > rate) { sensorListeners.setRate(rate); shouldStartSensors = sensorSupportRate(sensorType); } sensorClient.addSensor(sensorType); } finally { mSensorLock.unlock(); } // start sensor outside lock as it can take time. if (shouldStartSensors) { if (!startSensor(sensorRecord, sensorType, rate)) { // failed. so remove from active sensor list. mSensorLock.lock(); try { sensorClient.removeSensor(sensorType); if (oldRate != null) { sensorListeners.setRate(oldRate); } else { mSensorListeners.remove(sensorType); } } finally { mSensorLock.unlock(); } return false; } } return true; } private boolean sensorSupportRate(int sensorType) { switch (sensorType) { case CarSensorManager.SENSOR_TYPE_CAR_SPEED: case CarSensorManager.SENSOR_TYPE_RPM: return true; case CarSensorManager.SENSOR_TYPE_ODOMETER: case CarSensorManager.SENSOR_TYPE_FUEL_LEVEL: case CarSensorManager.SENSOR_TYPE_PARKING_BRAKE: case CarSensorManager.SENSOR_TYPE_GEAR: case CarSensorManager.SENSOR_TYPE_NIGHT: case CarSensorManager.SENSOR_TYPE_DRIVING_STATUS: case CarSensorManager.SENSOR_TYPE_ENVIRONMENT: return false; default: Log.w(CarLog.TAG_SENSOR, "sensorSupportRate not listed sensor:" + sensorType); return false; } } private int getSensorPermission(int sensorType) { String permission = getPermissionName(sensorType); int result = PackageManager.PERMISSION_GRANTED; if (permission != null) { return mContext.checkCallingOrSelfPermission(permission); } // If no permission is required, return granted. return result; } //TODO handle per property OEM permission private String getPermissionName(int sensorType) { if ((sensorType >= CarSensorManager.SENSOR_TYPE_VENDOR_EXTENSION_START) && (sensorType >= CarSensorManager.SENSOR_TYPE_VENDOR_EXTENSION_END)) { return Car.PERMISSION_VENDOR_EXTENSION; } String permission = null; switch (sensorType) { case CarSensorManager.SENSOR_TYPE_CAR_SPEED: permission = Car.PERMISSION_SPEED; break; case CarSensorManager.SENSOR_TYPE_ODOMETER: permission = Car.PERMISSION_MILEAGE; break; case CarSensorManager.SENSOR_TYPE_FUEL_LEVEL: permission = Car.PERMISSION_FUEL; break; default: break; } return permission; } private boolean startSensor(SensorRecord record, int sensorType, int rate) { //TODO choose proper sensor rate per each sensor. //Some sensors which report only when there is change should be always set with maximum //rate. For now, set every sensor to the maximum. if (Log.isLoggable(CarLog.TAG_SENSOR, Log.VERBOSE)) { Log.v(CarLog.TAG_SENSOR, "startSensor " + sensorType + " with rate " + rate); } SensorHalServiceBase sensorHal = getSensorHal(sensorType); if (sensorHal != null) { if (!sensorHal.isReady()) { Log.w(CarLog.TAG_SENSOR, "Sensor channel not available."); return false; } if (record.enabled) { return true; } if (sensorHal.requestSensorStart(sensorType, 0)) { record.enabled = true; return true; } } Log.w(CarLog.TAG_SENSOR, "requestSensorStart failed, sensor type:" + sensorType); return false; } @Override public void unregisterSensorListener(int sensorType, ICarSensorEventListener listener) { boolean shouldStopSensor = false; boolean shouldRestartSensor = false; SensorRecord record = null; int newRate = 0; mSensorLock.lock(); try { record = mSensorRecords.get(sensorType); if (record == null) { // unregister not supported sensor. ignore. if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "unregister for unsupported sensor"); } return; } SensorClient sensorClient = findSensorClientLocked(listener); if (sensorClient == null) { // never registered or already unregistered. if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "unregister for not existing client"); } return; } sensorClient.removeSensor(sensorType); if (sensorClient.getNumberOfActiveSensor() == 0) { sensorClient.release(); mClients.remove(sensorClient); } SensorListeners sensorListeners = mSensorListeners.get(sensorType); if (sensorListeners == null) { // sensor not active if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "unregister for non-active sensor"); } return; } SensorClientWithRate clientWithRate = sensorListeners.findSensorClientWithRate(sensorClient); if (clientWithRate == null) { if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "unregister for not registered sensor"); } return; } sensorListeners.removeSensorClientWithRate(clientWithRate); if (sensorListeners.getNumberOfClients() == 0) { shouldStopSensor = true; mSensorListeners.remove(sensorType); } else if (sensorListeners.updateRate()) { // rate changed newRate = sensorListeners.getRate(); shouldRestartSensor = sensorSupportRate(sensorType); } if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "unregister succeeded"); } } finally { mSensorLock.unlock(); } if (shouldStopSensor) { stopSensor(record, sensorType); } else if (shouldRestartSensor) { startSensor(record, sensorType, newRate); } } private void stopSensor(SensorRecord record, int sensorType) { if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "stopSensor " + sensorType); } SensorHalServiceBase sensorHal = getSensorHal(sensorType); if (sensorHal == null || !sensorHal.isReady()) { Log.w(CarLog.TAG_SENSOR, "Sensor channel not available."); return; } if (!record.enabled) { return; } record.enabled = false; // make lastEvent invalid as old data can be sent to client when subscription is restarted // later. record.lastEvent = null; if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "stopSensor requestStop " + sensorType); } sensorHal.requestSensorStop(sensorType); } private SensorHalServiceBase getSensorHal(int sensorType) { try { mSensorLock.lock(); switch (sensorType) { case CarSensorManager.SENSOR_TYPE_DRIVING_STATUS: if (mUseDefaultDrivingPolicy) { return mDrivingStatePolicy; } break; case CarSensorManager.SENSOR_TYPE_NIGHT: if (mUseDefaultDayNightModePolicy) { return mDayNightModePolicy; } break; } return mSensorHal; } finally { mSensorLock.unlock(); } } @Override public CarSensorEvent getLatestSensorEvent(int sensorType) { SensorRecord record = null; mSensorLock.lock(); try { record = mSensorRecords.get(sensorType); } finally { mSensorLock.unlock(); } if (record != null) { return record.lastEvent; } return null; } private int[] refreshSupportedSensorsLocked() { int numCarSensors = (mCarProvidedSensors == null) ? 0 : mCarProvidedSensors.length; for (int i = 0; i < numCarSensors; i++) { int sensor = mCarProvidedSensors[i]; if (sensor == CarSensorManager.SENSOR_TYPE_DRIVING_STATUS) { mUseDefaultDrivingPolicy = false; } else if (sensor == CarSensorManager.SENSOR_TYPE_NIGHT) { mUseDefaultDayNightModePolicy = false; } } int totalNumSensors = numCarSensors; if (mUseDefaultDrivingPolicy) { totalNumSensors++; } if (mUseDefaultDayNightModePolicy) { totalNumSensors++; } // Two logical sensors are always added. int[] supportedSensors = new int[totalNumSensors]; int index = 0; if (mUseDefaultDrivingPolicy) { supportedSensors[index] = CarSensorManager.SENSOR_TYPE_DRIVING_STATUS; index++; } if (mUseDefaultDayNightModePolicy) { supportedSensors[index] = CarSensorManager.SENSOR_TYPE_NIGHT; index++; } for (int i = 0; i < numCarSensors; i++) { int sensor = mCarProvidedSensors[i]; if (mSensorRecords.get(sensor) == null) { SensorRecord record = new SensorRecord(); mSensorRecords.put(sensor, record); } supportedSensors[index] = sensor; index++; } return supportedSensors; } private boolean isSensorRealLocked(int sensorType) { if (mCarProvidedSensors != null) { for (int sensor : mCarProvidedSensors) { if (sensor == sensorType ) { return true; } } } return false; } /** * Find SensorClient from client list and return it. * This should be called with mClients locked. * @param listener * @return null if not found. */ private SensorClient findSensorClientLocked(ICarSensorEventListener listener) { IBinder binder = listener.asBinder(); for (SensorClient sensorClient : mClients) { if (sensorClient.isHoldingListernerBinder(binder)) { return sensorClient; } } return null; } private void removeClient(SensorClient sensorClient) { mSensorLock.lock(); try { for (int sensor: sensorClient.getSensorArray()) { unregisterSensorListener(sensor, sensorClient.getICarSensorEventListener()); } mClients.remove(sensorClient); } finally { mSensorLock.unlock(); } } private class SensorDispatchHandler extends Handler { private static final long SENSOR_DISPATCH_MIN_INTERVAL_MS = 16; // over 60Hz private static final int MSG_SENSOR_DATA = 0; private long mLastSensorDispatchTime = -1; private int mFreeListIndex = 0; private final LinkedList[] mSensorDataList = new LinkedList[2]; private SensorDispatchHandler(Looper looper) { super(looper); for (int i = 0; i < mSensorDataList.length; i++) { mSensorDataList[i] = new LinkedList(); } } private synchronized void handleSensorEvents(List data) { LinkedList list = mSensorDataList[mFreeListIndex]; list.addAll(data); requestDispatchLocked(); } private synchronized void handleSensorEvent(CarSensorEvent event) { LinkedList list = mSensorDataList[mFreeListIndex]; list.add(event); requestDispatchLocked(); } private void requestDispatchLocked() { Message msg = obtainMessage(MSG_SENSOR_DATA); long now = SystemClock.uptimeMillis(); long delta = now - mLastSensorDispatchTime; if (delta > SENSOR_DISPATCH_MIN_INTERVAL_MS) { sendMessage(msg); } else { sendMessageDelayed(msg, SENSOR_DISPATCH_MIN_INTERVAL_MS - delta); } } @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_SENSOR_DATA: doHandleSensorData(); break; default: break; } } private void doHandleSensorData() { List listToDispatch = null; synchronized (this) { mLastSensorDispatchTime = SystemClock.uptimeMillis(); int nonFreeListIndex = mFreeListIndex ^ 0x1; List nonFreeList = mSensorDataList[nonFreeListIndex]; List freeList = mSensorDataList[mFreeListIndex]; if (nonFreeList.size() > 0) { Log.w(CarLog.TAG_SENSOR, "non free list not empty"); // copy again, but this should not be normal case nonFreeList.addAll(freeList); listToDispatch = nonFreeList; freeList.clear(); } else if (freeList.size() > 0) { listToDispatch = freeList; mFreeListIndex = nonFreeListIndex; } } // leave this part outside lock so that time-taking dispatching can be done without // blocking sensor event notification. if (listToDispatch != null) { processSensorData(listToDispatch); listToDispatch.clear(); } } } /** internal instance for pending client request */ private class SensorClient implements IBinder.DeathRecipient { /** callback for sensor events */ private final ICarSensorEventListener mListener; private final SparseBooleanArray mActiveSensors = new SparseBooleanArray(); private final LinkedList mSensorsToDispatch = new LinkedList(); /** when false, it is already released */ private volatile boolean mActive = true; SensorClient(ICarSensorEventListener listener) { this.mListener = listener; } @Override public boolean equals(Object o) { if (o instanceof SensorClient && mListener.asBinder() == ((SensorClient) o).mListener.asBinder()) { return true; } return false; } boolean isHoldingListernerBinder(IBinder listenerBinder) { return mListener.asBinder() == listenerBinder; } void addSensor(int sensor) { mActiveSensors.put(sensor, true); } void removeSensor(int sensor) { mActiveSensors.delete(sensor); } int getNumberOfActiveSensor() { return mActiveSensors.size(); } int[] getSensorArray() { int[] sensors = new int[mActiveSensors.size()]; for (int i = sensors.length - 1; i >= 0; --i) { sensors[i] = mActiveSensors.keyAt(i); } return sensors; } ICarSensorEventListener getICarSensorEventListener() { return mListener; } /** * Client dead. should remove all sensor requests from client */ @Override public void binderDied() { mListener.asBinder().unlinkToDeath(this, 0); removeClient(this); } void queueSensorEvent(CarSensorEvent event) { mSensorsToDispatch.add(event); } void dispatchSensorUpdate() { if (mSensorsToDispatch.size() == 0) { return; } if (mActive) { try { mListener.onSensorChanged(mSensorsToDispatch); } catch (RemoteException e) { //ignore. crash will be handled by death handler } } else { if (Log.isLoggable(CarLog.TAG_SENSOR, Log.DEBUG)) { Log.d(CarLog.TAG_SENSOR, "sensor update while client is already released"); } } mSensorsToDispatch.clear(); } void release() { if (mActive) { mListener.asBinder().unlinkToDeath(this, 0); mActiveSensors.clear(); mSensorsToDispatch.clear(); mActive = false; } } } private class SensorClientWithRate { private final SensorClient mSensorClient; /** rate requested from client */ private int mRate; SensorClientWithRate(SensorClient client, int rate) { mSensorClient = client; mRate = rate; } @Override public boolean equals(Object o) { if (o instanceof SensorClientWithRate && mSensorClient == ((SensorClientWithRate) o).mSensorClient) { return true; } return false; } int getRate() { return mRate; } void setRate(int rate) { mRate = rate; } SensorClient getSensorClient() { return mSensorClient; } } private static class SensorRecord { /** Record the lastly received sensor event */ CarSensorEvent lastEvent = null; /** sensor was enabled by at least one client */ boolean enabled = false; } private static class SensorListeners { private final LinkedList mSensorClients = new LinkedList(); /** rate for this sensor, sent to car */ private int mRate; SensorListeners(int rate) { mRate = rate; } int getRate() { return mRate; } void setRate(int rate) { mRate = rate; } /** update rate from existing clients and return true if rate is changed. */ boolean updateRate() { int fastestRate = CarSensorManager.SENSOR_RATE_NORMAL; for (SensorClientWithRate clientWithRate: mSensorClients) { int clientRate = clientWithRate.getRate(); if (clientRate < fastestRate) { fastestRate = clientRate; } } if (mRate != fastestRate) { mRate = fastestRate; return true; } return false; } void addSensorClientWithRate(SensorClientWithRate clientWithRate) { mSensorClients.add(clientWithRate); } void removeSensorClientWithRate(SensorClientWithRate clientWithRate) { mSensorClients.remove(clientWithRate); } int getNumberOfClients() { return mSensorClients.size(); } SensorClientWithRate findSensorClientWithRate(SensorClient sensorClient) { for (SensorClientWithRate clientWithRates: mSensorClients) { if (clientWithRates.getSensorClient() == sensorClient) { return clientWithRates; } } return null; } void queueSensorEvent(CarSensorEvent event) { for (SensorClientWithRate clientWithRate: mSensorClients) { clientWithRate.getSensorClient().queueSensorEvent(event); } } void release() { for (SensorClientWithRate clientWithRate: mSensorClients) { clientWithRate.mSensorClient.release(); } mSensorClients.clear(); } } @Override public void dump(PrintWriter writer) { writer.println("*CarSensorService*"); writer.println("supported sensors:" + Arrays.toString(mSupportedSensors)); writer.println("**last events for sensors**"); if (mSensorRecords != null) { try { int sensorRecordSize = mSensorRecords.size(); for (int i = 0; i < sensorRecordSize; i++) { int sensor = mSensorRecords.keyAt(i); SensorRecord record = mSensorRecords.get(sensor); if (record != null && record.lastEvent != null) { writer.println("sensor: " + sensor + " active: " + record.enabled); writer.println(" " + record.lastEvent.toString()); } SensorListeners listeners = mSensorListeners.get(sensor); if (listeners != null) { writer.println(" rate: " + listeners.getRate()); } } } catch (ConcurrentModificationException e) { writer.println("concurrent modification happened"); } } else { writer.println("null records"); } writer.println("**clients**"); try { for (SensorClient client: mClients) { if (client != null) { try { writer.println("binder:" + client.mListener + " active sensors:" + Arrays.toString(client.getSensorArray())); } catch (ConcurrentModificationException e) { writer.println("concurrent modification happened"); } } else { writer.println("null client"); } } } catch (ConcurrentModificationException e) { writer.println("concurrent modification happened"); } writer.println("**sensor listeners**"); try { int sensorListenerSize = mSensorListeners.size(); for (int i = 0; i < sensorListenerSize; i++) { int sensor = mSensorListeners.keyAt(i); SensorListeners sensorListeners = mSensorListeners.get(sensor); if (sensorListeners != null) { writer.println(" Sensor:" + sensor + " num client:" + sensorListeners.getNumberOfClients() + " rate:" + sensorListeners.getRate()); } } } catch (ConcurrentModificationException e) { writer.println("concurrent modification happened"); } writer.println("**driving policy**"); if (mUseDefaultDrivingPolicy) { mDrivingStatePolicy.dump(writer); } writer.println("**day/night policy**"); if (mUseDefaultDayNightModePolicy) { mDayNightModePolicy.dump(writer); } } }