path: root/src/systeminfo/symbian/batterystatus_s60.cpp

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#include "batterystatus_s60.h"
#include "trace.h"

CBatteryCommonInfo::CBatteryCommonInfo() : iBatteryStatus(NULL), iBatteryChargingStatus(NULL), iCapacityBars(NULL), iUsbConnected(EFalse),iChargingON(EFalse)
    {
    #ifdef SYMBIAN_3_PLATFORM
    iBatteryStatus = CPubSubKeyHandler::New(KPSUidHWRMPowerState, KHWRMBatteryStatus,*this );
    iBatteryChargingStatus = CPubSubKeyHandler::New(KPSUidHWRMPowerState, KHWRMChargingStatus,*this);
    iCapacityBars = CPubSubKeyHandler::New(KPSUidHWRMPowerState, KHWRMBatteryLevel,*this );
    iBatteryStatData=iRemainingCapacityBars=-1; //Assigning each to error code
    if (iBatteryChargingStatus)
        {
        TInt chargingState = iBatteryChargingStatus->GetValue();
        switch(chargingState)
            {
            case EChargingStatusCharging:
            case EChargingStatusAlmostComplete:
            case EChargingStatusChargingContinued: iChargingON = ETrue;
            break ;
            case EChargingStatusNotConnected:
            case EChargingStatusChargingComplete:
            case EChargingStatusNotCharging:
            default : iChargingON = EFalse;
            break;
            }

        if ( iChargingON )
            {
            RUsb usbMan;
            if ( KErrNone == usbMan.Connect() )
                {
                TUsbDeviceState deviceState (EUsbDeviceStateUndefined );
                usbMan.GetDeviceState(deviceState);
                if ( EUsbDeviceStateConfigured == deviceState )
                    iUsbConnected = ETrue;
                }
            }
        }
    if (iBatteryStatus)
        iBatteryStatData = iBatteryStatus->GetValue();
    if (iCapacityBars)
        iRemainingCapacityBars = iCapacityBars->GetValue();
    #else
    iRemainingCapacityBars = -1;
    iPreviousUsbConnected = EFalse;
    iBatteryStatData = -1;
    #endif
    }

CBatteryCommonInfo::~CBatteryCommonInfo()
    {
    if (iBatteryStatus)
        delete iBatteryStatus;
    if (iBatteryChargingStatus)
        delete iBatteryChargingStatus;
    if (iCapacityBars)
        delete iCapacityBars;
    iBatteryStatus = iBatteryChargingStatus = iCapacityBars =NULL;
    }

void CBatteryCommonInfo::AddObserver(MBatteryInfoObserver *aObserver)
    {
    if (aObserver)
        iObservers.append(aObserver);
    }

void CBatteryCommonInfo::RemoveObserver(MBatteryInfoObserver *aObserver)
    {
    if ( aObserver )
        iObservers.removeOne(aObserver);
    }

TBool CBatteryCommonInfo::ChargingState() const
    {
    return iChargingON;
    }

void CBatteryCommonInfo::ChargerType(bool& aChargerState, bool& aUsbState) const
    {
    aChargerState = iChargingON;
    aUsbState = iUsbConnected;
    }

#ifdef SYMBIAN_3_PLATFORM
TBool CBatteryCommonInfo::BatteryCapacity(CHWRMPower::TBatteryConsumptionData& aBatteryData) const
    {
    CHWRMPower* hwrmPower = NULL;
    TRAPD( err, hwrmPower = CHWRMPower::NewL() );
    if ( KErrNone == err )
        {
        TRequestStatus aStatus;
        hwrmPower->GetBatteryInfo( aStatus, aBatteryData );
        User::WaitForRequest(aStatus);
        delete hwrmPower;
        return ETrue;
        }
    return EFalse;
    }
#endif

TInt CBatteryCommonInfo::NominalCapacity() const
    {
    #ifdef SYMBIAN_3_PLATFORM
    CHWRMPower::TBatteryConsumptionData batterydata;
    if ( BatteryCapacity(batterydata) )
        return batterydata.iNominalCapacity;
    #endif
    return -1;
    }
TInt CBatteryCommonInfo::RemainingCapacityPercent() const
    {
    #ifdef SYMBIAN_3_PLATFORM
    CHWRMPower::TBatteryConsumptionData batterydata;
    if ( BatteryCapacity(batterydata) )
        return batterydata.iRemainingPercentageCapacity;
    #endif
    return -1;
    }
TInt CBatteryCommonInfo::RemainingCapacity() const
    {
    #ifdef SYMBIAN_3_PLATFORM
    CHWRMPower::TBatteryConsumptionData batterydata;
    if ( BatteryCapacity(batterydata) )
        return batterydata.iRemainingCapacity;
    #endif
    return -1;
    }
TInt CBatteryCommonInfo::Voltage() const
    {
    #ifdef SYMBIAN_3_PLATFORM
    CHWRMPower::TBatteryVoltageData batteryVoltageData;
    CHWRMPower* hwrmPower = NULL;
    TRAPD( err, hwrmPower = CHWRMPower::NewL() );
    if ( KErrNone == err )
        {
        TRequestStatus aStatus;
        hwrmPower->GetBatteryVoltageInfo( aStatus, batteryVoltageData );
        User::WaitForRequest(aStatus);
        delete hwrmPower;
        return batteryVoltageData.iRemainingVoltage;
        }
    #endif
    return -1;
    }

TInt CBatteryCommonInfo::RemainingCapacityBars() const
    {
    return iRemainingCapacityBars;
    }
TInt CBatteryCommonInfo::BatteryStatus() const
    {
    return iBatteryStatData;
    }

void CBatteryCommonInfo::CommanSignalHandler( const TUid aCategory, const TUint aKey )
    {
    #ifdef SYMBIAN_3_PLATFORM
    if ( KPSUidHWRMPowerState == aCategory )
        {
        switch ( aKey )
            {
            case KHWRMBatteryStatus :
                if (iBatteryStatus)
                    {
                    iBatteryStatData = iBatteryStatus->GetValue();
                    foreach (MBatteryInfoObserver *observer, iObservers)
                        {
                        observer->changedBatteryStatus();
                        }
                    }
                break;
            case KHWRMChargingStatus :
                //Get Charge Status
                if (iBatteryChargingStatus)
                    {
                    TInt chargeStatus = iBatteryChargingStatus->GetValue();
                    switch (chargeStatus)
                        {
                        case EChargingStatusCharging:
                        case EChargingStatusAlmostComplete:
                        case EChargingStatusChargingContinued: iChargingON = ETrue;
                        break ;
                        case EChargingStatusNotConnected:
                        case EChargingStatusChargingComplete:
                        case EChargingStatusNotCharging:
                        default : iChargingON = EFalse;
                        break;
                        }
                    //  Get Charger Type
                    RUsb usbMan;
                    if ( KErrNone == usbMan.Connect() )
                        {
                        TUsbDeviceState deviceState (EUsbDeviceStateUndefined );
                        usbMan.GetDeviceState(deviceState);
                        if ( EUsbDeviceStateConfigured == deviceState )
                            iUsbConnected = ETrue;
                        else
                            iUsbConnected =  EFalse;
                        }

                    foreach (MBatteryInfoObserver *observer, iObservers)
                        {
                        observer->changedChargingState();
                        observer->changedChargerType();
                        }
                    }
                break;
            case KHWRMBatteryLevel :
                if (iCapacityBars)
                    {
                    iRemainingCapacityBars = iCapacityBars->GetValue();
                    foreach (MBatteryInfoObserver *observer, iObservers)
                        {
                        observer->changedRemainingCapacityBars();
                        }
                    }
                break;
            default : break ; //do Nothing
            }
        }
    #endif
    }

CBatteryHWRM::CBatteryHWRM() : iObserver(NULL),iAverageCurrent(-1),iPowerReportingON(EFalse)
    {
    #ifdef SYMBIAN_3_PLATFORM
    iHwrmPower = NULL;
    TRAPD(err, iHwrmPower=CHWRMPower::NewL());
    if ( KErrNone == err )
        {
        iHwrmPower->SetPowerReportObserver(this);
        }
    #endif
    }

CBatteryHWRM* CBatteryHWRM::New( )
    {
    CBatteryHWRM *instance = NULL;
    instance = new CBatteryHWRM ();
    return instance;
    }

CBatteryHWRM::~CBatteryHWRM()
    {
    StopCurrentFlowMeasurement();
    #ifdef SYMBIAN_3_PLATFORM
    if ( iHwrmPower )
        {
        delete (iHwrmPower);
        iHwrmPower = NULL;
        }
    #endif
        delete iEventLoop;
    }

#ifdef SYMBIAN_3_PLATFORM
void CBatteryHWRM::PowerMeasurement(TInt aErr, CHWRMPower::TBatteryPowerMeasurementData& aMeasurement)
    {
    TRACES (qDebug() << "CBatteryHWRM::PowerMeasurement received error code:" << aErr);
    if ( KErrNone == aErr)
        {
        if ( iAverageCurrent != aMeasurement.iAverageCurrent )
            {
            TRACES (qDebug() << "Average current changed");
            //currentFlowChanged SIGNAL
            iAverageCurrent = aMeasurement.iAverageCurrent;
            if ( iObserver ){
                iObserver->changedCurrentFlow(iAverageCurrent);
                }

            if ( iEventLoop ) //for initializing average current
                {
                TRACES (qDebug() << "EventLoop::exiting");
                if ( iEventLoop->isRunning()) iEventLoop->exit();
                }
            }
        }
    else if (iPowerReportingON)
        StartCurrentFlowMeasurement();
    }
#endif

TInt CBatteryHWRM::GetAverageCurrent()
    {
#ifdef SYMBIAN_3_PLATFORM
    TInt result = StartCurrentFlowMeasurement();
    if ( !iEventLoop ) //Wait until PowerMeasurement callback is received
            {
            iEventLoop = new QEventLoop();
            TRACES ( qDebug() << "started event loop...");
            }

    iEventLoop->exec();
    StopCurrentFlowMeasurement();
#endif
    return iAverageCurrent;
    }

TInt CBatteryHWRM::StartCurrentFlowMeasurement()
    {
    TRACES (qDebug() << "CBatteryHWRM::StartCurrentFlowMeasurement");
    TRequestStatus status;
    iPowerReportingON = ETrue;
    #ifdef SYMBIAN_3_PLATFORM
    if ( iHwrmPower )
        {
        TRACES (qDebug() << "Start Average power state reporting");
        iHwrmPower->StartAveragePowerReporting(status, 1);
        User::WaitForRequest(status);
        return (status.Int());
        }
    #endif
    return -1;
    }

TInt CBatteryHWRM::StartMeasurementAndSetObserver(MBatteryHWRMObserver* aObserver)
    {
    TInt result = StartCurrentFlowMeasurement ();
    if ( 0 == result )
        iObserver = aObserver;
    return result;
    }

void CBatteryHWRM::StopCurrentFlowMeasurement()
    {
    TRACES (qDebug() << "CBatteryHWRM::StopCurrentFlowMeasurement");
    #ifdef SYMBIAN_3_PLATFORM
    if ( iHwrmPower )
        TRAP_IGNORE(iHwrmPower->StopAveragePowerReportingL() );
    #endif
    iPowerReportingON = false;
    }