Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32\drivers\power\binary\bpower.cpp
// Binary power model
//
//
#include <assp.h>
#include <kernel/kern_priv.h>
#include <kernel/kpower.h>
#include "mconf.h"
#include <e32keys.h>
NONSHARABLE_CLASS(DBinaryBatteryMonitor) : public DBatteryMonitor
{
public: // from DBatteryMonitor
void SystemTimeChanged(TInt anOldTime, TInt aNewTime);
TSupplyStatus MachinePowerStatus();
public:
DBinaryBatteryMonitor();
void SupplyInfo(TSupplyInfoV1& si);
};
DBinaryBatteryMonitor* BinaryBatteryMonitor;
NONSHARABLE_CLASS(DBinaryPowerHal) : public DPowerHal
{
public: // from DPowerHal
TInt PowerHalFunction(TInt aFunction, TAny* a1, TAny* a2);
public:
DBinaryPowerHal();
private:
void InitData();
};
DBinaryPowerHal* BinaryPowerHal;
DBinaryBatteryMonitor::DBinaryBatteryMonitor()
{
Register();
}
void DBinaryBatteryMonitor::SystemTimeChanged(TInt /* aOldTime */, TInt /* aNewTime */)
{
}
void DBinaryBatteryMonitor::SupplyInfo(TSupplyInfoV1& si)
{
si.iMainBatteryStatus = EZero;
si.iMainBatteryMilliVolts = 0;
si.iMainBatteryMaxMilliVolts = 0;
si.iBackupBatteryStatus = EZero;
si.iBackupBatteryMilliVolts = 0;
si.iBackupBatteryMaxMilliVolts = 0;
si.iMainBatteryInsertionTime = 0;
si.iMainBatteryInUseMicroSeconds = 0;
si.iMainBatteryConsumedMilliAmpSeconds = 0;
si.iExternalPowerPresent = 0;
si.iExternalPowerInUseMicroSeconds = 0;
si.iCurrentConsumptionMilliAmps = 0;
si.iFlags = 0;
}
TSupplyStatus DBinaryBatteryMonitor::MachinePowerStatus()
{
return EGood;
}
DBinaryPowerHal::DBinaryPowerHal()
{
Register();
// initialise persistent data on cold start
if (Kern::ColdStart())
InitData();
}
void DBinaryPowerHal::InitData()
{
TActualMachineConfig& mc = TheActualMachineConfig();
TOnOffInfoV1& i = mc.iOnOffInfo;
i.iPointerSwitchesOn = EFalse;
i.iCaseOpenSwitchesOn = EFalse;
i.iCaseCloseSwitchesOff = EFalse;
}
TInt DBinaryPowerHal::PowerHalFunction(TInt aFunction, TAny* a1, TAny* /* a2 */)
{
__KTRACE_OPT(KPOWER,Kern::Printf("DBinaryPowerHal::PowerHalFunction() func=0x%x, a1=0x%x", aFunction, a1));
TActualMachineConfig& mc=TheActualMachineConfig();
TInt r=KErrNone;
switch(aFunction)
{
case EPowerHalSwitchOff:
if(!Kern::CurrentThreadHasCapability(ECapabilityPowerMgmt,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EPowerHalSwitchOff")))
return KErrPermissionDenied;
{
TRawEvent v;
v.Set(TRawEvent::ESwitchOff);
Kern::AddEvent(v);
}
break;
case EPowerHalOnOffInfo:
Kern::InfoCopy(*(TDes8*)a1, (TUint8*)&mc.iOnOffInfo, sizeof(mc.iOnOffInfo));
break;
case EPowerHalSupplyInfo:
{
TSupplyInfoV1 si;
BinaryBatteryMonitor->SupplyInfo(si);
Kern::InfoCopy(*(TDes8*)a1, (TUint8*)&si, sizeof(si));
break;
}
case EPowerHalSetPointerSwitchesOn:
if(!Kern::CurrentThreadHasCapability(ECapabilityWriteDeviceData,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal Function EPowerHalSetPointerSwitchesOn")))
return KErrPermissionDenied;
mc.iOnOffInfo.iPointerSwitchesOn = (TUint8)(TUint)a1;
break;
case EPowerHalPointerSwitchesOn:
kumemput32(a1, &mc.iOnOffInfo.iPointerSwitchesOn, sizeof(TBool));
break;
case EPowerHalSetCaseOpenSwitchesOn:
if(!Kern::CurrentThreadHasCapability(ECapabilityWriteDeviceData,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EPowerHalSetCaseOpenSwitchesOn")))
return KErrPermissionDenied;
mc.iOnOffInfo.iCaseOpenSwitchesOn = (TUint8)(TUint)a1;
break;
case EPowerHalCaseOpenSwitchesOn:
kumemput32(a1, &mc.iOnOffInfo.iCaseOpenSwitchesOn, sizeof(TBool));
break;
case EPowerHalSetCaseCloseSwitchesOff:
if(!Kern::CurrentThreadHasCapability(ECapabilityWriteDeviceData,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EPowerHalSetCaseCloseSwitchesOff")))
return KErrPermissionDenied;
mc.iOnOffInfo.iCaseCloseSwitchesOff = (TUint8)(TUint)a1;
break;
case EPowerHalCaseCloseSwitchesOff:
kumemput32(a1, &mc.iOnOffInfo.iCaseCloseSwitchesOff, sizeof(TBool));
break;
case EPowerHalTestBootSequence:
r = EFalse;
break;
case EPowerHalBackupPresent:
{
TBool ret=EFalse;
kumemput32(a1, &ret, sizeof(TBool));
}
break;
case EPowerHalAcessoryPowerPresent:
{
TBool ret=EFalse;
kumemput32(a1, &ret, sizeof(TBool));
}
break;
default:
r = KErrNotSupported;
break;
}
return r;
}
TInt BinaryPowerInit()
{
__KTRACE_OPT(KPOWER,Kern::Printf("BinaryPowerInit()"));
BinaryBatteryMonitor = new DBinaryBatteryMonitor();
if (!BinaryBatteryMonitor)
return KErrNoMemory;
BinaryPowerHal = new DBinaryPowerHal();
if (!BinaryPowerHal)
return KErrNoMemory;
return KErrNone;
}