replicant-frameworks_native/services/sensorservice/SensorService.h

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/*
* Copyright (C) 2010 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.
*/
#ifndef ANDROID_SENSOR_SERVICE_H
#define ANDROID_SENSOR_SERVICE_H
#include <stdint.h>
#include <sys/types.h>
#include <utils/Vector.h>
#include <utils/SortedVector.h>
#include <utils/KeyedVector.h>
#include <utils/threads.h>
#include <utils/AndroidThreads.h>
#include <utils/RefBase.h>
#include <utils/Looper.h>
#include <binder/BinderService.h>
#include <gui/Sensor.h>
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#include <gui/BitTube.h>
#include <gui/ISensorServer.h>
#include <gui/ISensorEventConnection.h>
#include "SensorInterface.h"
// ---------------------------------------------------------------------------
#define DEBUG_CONNECTIONS false
// Max size is 100 KB which is enough to accept a batch of about 1000 events.
#define MAX_SOCKET_BUFFER_SIZE_BATCHED 100 * 1024
// For older HALs which don't support batching, use a smaller socket buffer size.
#define SOCKET_BUFFER_SIZE_NON_BATCHED 4 * 1024
#define WAKE_UP_SENSOR_EVENT_NEEDS_ACK (1U << 31)
struct sensors_poll_device_t;
struct sensors_module_t;
namespace android {
// ---------------------------------------------------------------------------
class SensorService :
public BinderService<SensorService>,
public BnSensorServer,
protected Thread
{
friend class BinderService<SensorService>;
static const char* WAKE_LOCK_NAME;
static char const* getServiceName() ANDROID_API { return "sensorservice"; }
SensorService() ANDROID_API;
virtual ~SensorService();
virtual void onFirstRef();
// Thread interface
virtual bool threadLoop();
// ISensorServer interface
virtual Vector<Sensor> getSensorList();
virtual sp<ISensorEventConnection> createSensorEventConnection();
virtual status_t dump(int fd, const Vector<String16>& args);
class SensorEventConnection : public BnSensorEventConnection, public LooperCallback {
friend class SensorService;
virtual ~SensorEventConnection();
virtual void onFirstRef();
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virtual sp<BitTube> getSensorChannel() const;
virtual status_t enableDisable(int handle, bool enabled, nsecs_t samplingPeriodNs,
nsecs_t maxBatchReportLatencyNs, int reservedFlags);
virtual status_t setEventRate(int handle, nsecs_t samplingPeriodNs);
virtual status_t flush();
// Count the number of flush complete events which are about to be dropped in the buffer.
// Increment mPendingFlushEventsToSend in mSensorInfo. These flush complete events will be
// sent separately before the next batch of events.
void countFlushCompleteEventsLocked(sensors_event_t* scratch, int numEventsDropped);
// Check if there are any wake up events in the buffer. If yes, increment the ref count.
// Increment it by exactly one unit for each packet sent on the socket. SOCK_SEQPACKET for
// the socket ensures that either the entire packet is read or dropped.
// Return 1 if mWakeLockRefCount has been incremented, zero if not.
int countWakeUpSensorEventsLocked(sensors_event_t* scratch, int count);
// Writes events from mEventCache to the socket.
void writeToSocketFromCacheLocked();
// Compute the approximate cache size from the FIFO sizes of various sensors registered for
// this connection. Wake up and non-wake up sensors have separate FIFOs but FIFO may be
// shared amongst wake-up sensors and non-wake up sensors.
int computeMaxCacheSizeLocked() const;
// LooperCallback method. If there is data to read on this fd, it is an ack from the
// app that it has read events from a wake up sensor, decrement mWakeLockRefCount.
// If this fd is available for writing send the data from the cache.
virtual int handleEvent(int fd, int events, void* data);
sp<SensorService> const mService;
sp<BitTube> mChannel;
uid_t mUid;
mutable Mutex mConnectionLock;
// Number of events from wake up sensors which are still pending and haven't been delivered
// to the corresponding application. It is incremented by one unit for each write to the
// socket.
int mWakeLockRefCount;
struct FlushInfo {
// The number of flush complete events dropped for this sensor is stored here.
// They are sent separately before the next batch of events.
int mPendingFlushEventsToSend;
// Every activate is preceded by a flush. Only after the first flush complete is
// received, the events for the sensor are sent on that *connection*.
bool mFirstFlushPending;
// Number of time flush() was called on this connection. This is incremented every time
// flush() is called and decremented when flush_complete_event is received.
int mNumFlushCalls;
FlushInfo() : mPendingFlushEventsToSend(0), mFirstFlushPending(false),
mNumFlushCalls(0) {}
};
// protected by SensorService::mLock. Key for this vector is the sensor handle.
KeyedVector<int, FlushInfo> mSensorInfo;
sensors_event_t *mEventCache;
int mCacheSize, mMaxCacheSize;
#if DEBUG_CONNECTIONS
int mEventsReceived, mEventsSent, mEventsSentFromCache;
#endif
public:
SensorEventConnection(const sp<SensorService>& service, uid_t uid);
status_t sendEvents(sensors_event_t const* buffer, size_t count,
sensors_event_t* scratch);
bool hasSensor(int32_t handle) const;
bool hasAnySensor() const;
bool addSensor(int32_t handle);
bool removeSensor(int32_t handle);
void setFirstFlushPending(int32_t handle, bool value);
void dump(String8& result);
bool needsWakeLock();
uid_t getUid() const { return mUid; }
};
class SensorRecord {
SortedVector< wp<SensorEventConnection> > mConnections;
public:
SensorRecord(const sp<SensorEventConnection>& connection);
bool addConnection(const sp<SensorEventConnection>& connection);
bool removeConnection(const wp<SensorEventConnection>& connection);
size_t getNumConnections() const { return mConnections.size(); }
};
class SensorEventAckReceiver : public Thread {
sp<SensorService> const mService;
public:
virtual bool threadLoop();
SensorEventAckReceiver(const sp<SensorService>& service): mService(service) {}
};
String8 getSensorName(int handle) const;
bool isVirtualSensor(int handle) const;
Sensor getSensorFromHandle(int handle) const;
bool isWakeUpSensor(int type) const;
void recordLastValueLocked(const sensors_event_t* buffer, size_t count);
static void sortEventBuffer(sensors_event_t* buffer, size_t count);
Sensor registerSensor(SensorInterface* sensor);
Sensor registerVirtualSensor(SensorInterface* sensor);
status_t cleanupWithoutDisable(
const sp<SensorEventConnection>& connection, int handle);
status_t cleanupWithoutDisableLocked(
const sp<SensorEventConnection>& connection, int handle);
void cleanupAutoDisabledSensorLocked(const sp<SensorEventConnection>& connection,
sensors_event_t const* buffer, const int count);
static bool canAccessSensor(const Sensor& sensor);
static bool verifyCanAccessSensor(const Sensor& sensor, const char* operation);
// SensorService acquires a partial wakelock for delivering events from wake up sensors. This
// method checks whether all the events from these wake up sensors have been delivered to the
// corresponding applications, if yes the wakelock is released.
void checkWakeLockState();
void checkWakeLockStateLocked();
bool isWakeUpSensorEvent(const sensors_event_t& event) const;
sp<Looper> getLooper() const;
// constants
Vector<Sensor> mSensorList;
Vector<Sensor> mUserSensorListDebug;
Vector<Sensor> mUserSensorList;
DefaultKeyedVector<int, SensorInterface*> mSensorMap;
Vector<SensorInterface *> mVirtualSensorList;
status_t mInitCheck;
size_t mSocketBufferSize;
sp<Looper> mLooper;
// protected by mLock
mutable Mutex mLock;
DefaultKeyedVector<int, SensorRecord*> mActiveSensors;
DefaultKeyedVector<int, SensorInterface*> mActiveVirtualSensors;
SortedVector< wp<SensorEventConnection> > mActiveConnections;
bool mWakeLockAcquired;
// The size of this vector is constant, only the items are mutable
KeyedVector<int32_t, sensors_event_t> mLastEventSeen;
public:
void cleanupConnection(SensorEventConnection* connection);
status_t enable(const sp<SensorEventConnection>& connection, int handle,
nsecs_t samplingPeriodNs, nsecs_t maxBatchReportLatencyNs, int reservedFlags);
status_t disable(const sp<SensorEventConnection>& connection, int handle);
status_t setEventRate(const sp<SensorEventConnection>& connection, int handle, nsecs_t ns);
status_t flushSensor(const sp<SensorEventConnection>& connection, int handle);
};
// ---------------------------------------------------------------------------
}; // namespace android
#endif // ANDROID_SENSOR_SERVICE_H