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/*
* 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 android.hardware;
import android.content.Context;
import android.os.Handler;
import android.os.Looper;
import android.os.MessageQueue;
import android.util.Log;
import android.util.SparseArray;
import android.util.SparseBooleanArray;
import android.util.SparseIntArray;
import dalvik.system.CloseGuard;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
/**
* Sensor manager implementation that communicates with the built-in
* system sensors.
*
* @hide
*/
public class SystemSensorManager extends SensorManager {
private static native void nativeClassInit();
private static native int nativeGetNextSensor(Sensor sensor, int next);
private static boolean sSensorModuleInitialized = false;
private static final Object sSensorModuleLock = new Object();
private static final ArrayList<Sensor> sFullSensorsList = new ArrayList<Sensor>();
private static final SparseArray<Sensor> sHandleToSensor = new SparseArray<Sensor>();
// Listener list
private final HashMap<SensorEventListener, SensorEventQueue> mSensorListeners =
new HashMap<SensorEventListener, SensorEventQueue>();
private final HashMap<TriggerEventListener, TriggerEventQueue> mTriggerListeners =
new HashMap<TriggerEventListener, TriggerEventQueue>();
// Looper associated with the context in which this instance was created.
private final Looper mMainLooper;
private final int mTargetSdkLevel;
/** {@hide} */
public SystemSensorManager(Context context, Looper mainLooper) {
mMainLooper = mainLooper;
mTargetSdkLevel = context.getApplicationInfo().targetSdkVersion;
synchronized(sSensorModuleLock) {
if (!sSensorModuleInitialized) {
sSensorModuleInitialized = true;
nativeClassInit();
// initialize the sensor list
final ArrayList<Sensor> fullList = sFullSensorsList;
int i = 0;
do {
Sensor sensor = new Sensor();
i = nativeGetNextSensor(sensor, i);
if (i>=0) {
//Log.d(TAG, "found sensor: " + sensor.getName() +
// ", handle=" + sensor.getHandle());
fullList.add(sensor);
sHandleToSensor.append(sensor.getHandle(), sensor);
}
} while (i>0);
}
}
}
/** @hide */
@Override
protected List<Sensor> getFullSensorList() {
return sFullSensorsList;
}
/** @hide */
@Override
protected boolean registerListenerImpl(SensorEventListener listener, Sensor sensor,
int delay, Handler handler)
{
// Invariants to preserve:
// - one Looper per SensorEventListener
// - one Looper per SensorEventQueue
// We map SensorEventListener to a SensorEventQueue, which holds the looper
if (sensor == null) throw new IllegalArgumentException("sensor cannot be null");
// Trigger Sensors should use the requestTriggerSensor call.
if (Sensor.getReportingMode(sensor) == Sensor.REPORTING_MODE_ONE_SHOT) return false;
synchronized (mSensorListeners) {
SensorEventQueue queue = mSensorListeners.get(listener);
if (queue == null) {
Looper looper = (handler != null) ? handler.getLooper() : mMainLooper;
queue = new SensorEventQueue(listener, looper, this);
if (!queue.addSensor(sensor, delay)) {
queue.dispose();
return false;
}
mSensorListeners.put(listener, queue);
return true;
} else {
return queue.addSensor(sensor, delay);
}
}
}
/** @hide */
@Override
protected void unregisterListenerImpl(SensorEventListener listener, Sensor sensor) {
// Trigger Sensors should use the cancelTriggerSensor call.
if (sensor != null && Sensor.getReportingMode(sensor) == Sensor.REPORTING_MODE_ONE_SHOT) {
return;
}
synchronized (mSensorListeners) {
SensorEventQueue queue = mSensorListeners.get(listener);
if (queue != null) {
boolean result;
if (sensor == null) {
result = queue.removeAllSensors();
} else {
result = queue.removeSensor(sensor, true);
}
if (result && !queue.hasSensors()) {
mSensorListeners.remove(listener);
queue.dispose();
}
}
}
}
/** @hide */
@Override
protected boolean requestTriggerSensorImpl(TriggerEventListener listener, Sensor sensor) {
if (sensor == null) throw new IllegalArgumentException("sensor cannot be null");
if (Sensor.getReportingMode(sensor) != Sensor.REPORTING_MODE_ONE_SHOT) return false;
synchronized (mTriggerListeners) {
TriggerEventQueue queue = mTriggerListeners.get(listener);
if (queue == null) {
queue = new TriggerEventQueue(listener, mMainLooper, this);
if (!queue.addSensor(sensor, 0)) {
queue.dispose();
return false;
}
mTriggerListeners.put(listener, queue);
return true;
} else {
return queue.addSensor(sensor, 0);
}
}
}
/** @hide */
@Override
protected boolean cancelTriggerSensorImpl(TriggerEventListener listener, Sensor sensor,
boolean disable) {
if (sensor != null && Sensor.getReportingMode(sensor) != Sensor.REPORTING_MODE_ONE_SHOT) {
return false;
}
synchronized (mTriggerListeners) {
TriggerEventQueue queue = mTriggerListeners.get(listener);
if (queue != null) {
boolean result;
if (sensor == null) {
result = queue.removeAllSensors();
} else {
result = queue.removeSensor(sensor, disable);
}
if (result && !queue.hasSensors()) {
mTriggerListeners.remove(listener);
queue.dispose();
}
return result;
}
return false;
}
}
/*
* BaseEventQueue is the communication channel with the sensor service,
* SensorEventQueue, TriggerEventQueue are subclases and there is one-to-one mapping between
* the queues and the listeners.
*/
private static abstract class BaseEventQueue {
private native int nativeInitBaseEventQueue(BaseEventQueue eventQ, MessageQueue msgQ,
float[] scratch);
private static native int nativeEnableSensor(int eventQ, int handle, int us);
private static native int nativeDisableSensor(int eventQ, int handle);
private static native void nativeDestroySensorEventQueue(int eventQ);
private int nSensorEventQueue;
private final SparseBooleanArray mActiveSensors = new SparseBooleanArray();
protected final SparseIntArray mSensorAccuracies = new SparseIntArray();
protected final SparseBooleanArray mFirstEvent = new SparseBooleanArray();
private final CloseGuard mCloseGuard = CloseGuard.get();
private final float[] mScratch = new float[16];
protected final SystemSensorManager mManager;
BaseEventQueue(Looper looper, SystemSensorManager manager) {
nSensorEventQueue = nativeInitBaseEventQueue(this, looper.getQueue(), mScratch);
mCloseGuard.open("dispose");
mManager = manager;
}
public void dispose() {
dispose(false);
}
public boolean addSensor(Sensor sensor, int delay) {
// Check if already present.
int handle = sensor.getHandle();
if (mActiveSensors.get(handle)) return false;
// Get ready to receive events before calling enable.
mActiveSensors.put(handle, true);
addSensorEvent(sensor);
if (enableSensor(sensor, delay) != 0) {
removeSensor(sensor, false);
return false;
}
return true;
}
public boolean removeAllSensors() {
for (int i=0 ; i<mActiveSensors.size(); i++) {
if (mActiveSensors.valueAt(i) == true) {
int handle = mActiveSensors.keyAt(i);
Sensor sensor = sHandleToSensor.get(handle);
if (sensor != null) {
disableSensor(sensor);
mActiveSensors.put(handle, false);
removeSensorEvent(sensor);
} else {
// it should never happen -- just ignore.
}
}
}
return true;
}
public boolean removeSensor(Sensor sensor, boolean disable) {
final int handle = sensor.getHandle();
if (mActiveSensors.get(handle)) {
if (disable) disableSensor(sensor);
mActiveSensors.put(sensor.getHandle(), false);
removeSensorEvent(sensor);
return true;
}
return false;
}
public boolean hasSensors() {
// no more sensors are set
return mActiveSensors.indexOfValue(true) >= 0;
}
@Override
protected void finalize() throws Throwable {
try {
dispose(true);
} finally {
super.finalize();
}
}
private void dispose(boolean finalized) {
if (mCloseGuard != null) {
if (finalized) {
mCloseGuard.warnIfOpen();
}
mCloseGuard.close();
}
if (nSensorEventQueue != 0) {
nativeDestroySensorEventQueue(nSensorEventQueue);
nSensorEventQueue = 0;
}
}
private int enableSensor(Sensor sensor, int us) {
if (nSensorEventQueue == 0) throw new NullPointerException();
if (sensor == null) throw new NullPointerException();
return nativeEnableSensor(nSensorEventQueue, sensor.getHandle(), us);
}
private int disableSensor(Sensor sensor) {
if (nSensorEventQueue == 0) throw new NullPointerException();
if (sensor == null) throw new NullPointerException();
return nativeDisableSensor(nSensorEventQueue, sensor.getHandle());
}
protected abstract void dispatchSensorEvent(int handle, float[] values, int accuracy,
long timestamp);
protected abstract void addSensorEvent(Sensor sensor);
protected abstract void removeSensorEvent(Sensor sensor);
}
static final class SensorEventQueue extends BaseEventQueue {
private final SensorEventListener mListener;
private final SparseArray<SensorEvent> mSensorsEvents = new SparseArray<SensorEvent>();
public SensorEventQueue(SensorEventListener listener, Looper looper,
SystemSensorManager manager) {
super(looper, manager);
mListener = listener;
}
public void addSensorEvent(Sensor sensor) {
SensorEvent t = new SensorEvent(Sensor.getMaxLengthValuesArray(sensor,
mManager.mTargetSdkLevel));
mSensorsEvents.put(sensor.getHandle(), t);
}
public void removeSensorEvent(Sensor sensor) {
mSensorsEvents.delete(sensor.getHandle());
}
// Called from native code.
@SuppressWarnings("unused")
@Override
protected void dispatchSensorEvent(int handle, float[] values, int inAccuracy,
long timestamp) {
final Sensor sensor = sHandleToSensor.get(handle);
SensorEvent t = mSensorsEvents.get(handle);
if (t == null) {
Log.e(TAG, "Error: Sensor Event is null for Sensor: " + sensor);
return;
}
// Copy from the values array.
System.arraycopy(values, 0, t.values, 0, t.values.length);
t.timestamp = timestamp;
t.accuracy = inAccuracy;
t.sensor = sensor;
switch (t.sensor.getType()) {
// Only report accuracy for sensors that support it.
case Sensor.TYPE_MAGNETIC_FIELD:
case Sensor.TYPE_ORIENTATION:
// call onAccuracyChanged() only if the value changes
final int accuracy = mSensorAccuracies.get(handle);
if ((t.accuracy >= 0) && (accuracy != t.accuracy)) {
mSensorAccuracies.put(handle, t.accuracy);
mListener.onAccuracyChanged(t.sensor, t.accuracy);
}
break;
default:
// For other sensors, just report the accuracy once
if (mFirstEvent.get(handle) == false) {
mFirstEvent.put(handle, true);
mListener.onAccuracyChanged(
t.sensor, SENSOR_STATUS_ACCURACY_HIGH);
}
break;
}
mListener.onSensorChanged(t);
}
}
static final class TriggerEventQueue extends BaseEventQueue {
private final TriggerEventListener mListener;
private final SparseArray<TriggerEvent> mTriggerEvents = new SparseArray<TriggerEvent>();
public TriggerEventQueue(TriggerEventListener listener, Looper looper,
SystemSensorManager manager) {
super(looper, manager);
mListener = listener;
}
public void addSensorEvent(Sensor sensor) {
TriggerEvent t = new TriggerEvent(Sensor.getMaxLengthValuesArray(sensor,
mManager.mTargetSdkLevel));
mTriggerEvents.put(sensor.getHandle(), t);
}
public void removeSensorEvent(Sensor sensor) {
mTriggerEvents.delete(sensor.getHandle());
}
// Called from native code.
@SuppressWarnings("unused")
@Override
protected void dispatchSensorEvent(int handle, float[] values, int accuracy,
long timestamp) {
final Sensor sensor = sHandleToSensor.get(handle);
TriggerEvent t = mTriggerEvents.get(handle);
if (t == null) {
Log.e(TAG, "Error: Trigger Event is null for Sensor: " + sensor);
return;
}
// Copy from the values array.
System.arraycopy(values, 0, t.values, 0, t.values.length);
t.timestamp = timestamp;
t.sensor = sensor;
// A trigger sensor is auto disabled. So just clean up and don't call native
// disable.
mManager.cancelTriggerSensorImpl(mListener, sensor, false);
mListener.onTrigger(t);
}
}
}
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