// Copyright (c) 2002-2009 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:
//
#include <kernel/kernel.h>
#include <upd35001_timer.h>
#include "k32bm.h"
class DBMNE1Device : public DPhysicalDevice
{
public:
DBMNE1Device();
virtual TInt Install();
virtual void GetCaps(TDes8& aDes) const;
virtual TInt Create(DBase*& aChannel, TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
virtual TInt Validate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
};
class DBMNE1Channel : public DBMPChannel
{
public:
DBMNE1Channel();
~DBMNE1Channel();
virtual TBMTicks TimerPeriod();
virtual TBMTicks TimerStamp();
virtual TBMNs TimerTicksToNs(TBMTicks);
virtual TBMTicks TimerNsToTicks(TBMNs);
virtual TInt BindInterrupt(MBMIsr*);
virtual TInt BindInterrupt(MBMInterruptLatencyIsr*);
virtual void RequestInterrupt();
virtual void CancelInterrupt();
private:
static const TBMTicks KBMNE1Period = (((TBMTicks) 1) << 32);
static void Isr(TAny*);
MBMIsr* iIsr;
MBMInterruptLatencyIsr* iInterruptLatencyIsr;
TUint iPrescale;
TUint iNsPerTick;
NTimer iTimer;
volatile TUint iStartCount;
volatile TUint iRunCount;
volatile TUint iCancelCount;
};
DECLARE_STANDARD_PDD()
//
// Create a new device
//
{
__ASSERT_CRITICAL;
return new DBMNE1Device;
}
DBMNE1Device::DBMNE1Device()
//
// Constructor
//
{
//iUnitsMask=0;
iVersion = TVersion(1,0,1);
}
TInt DBMNE1Device::Install()
//
// Install the device driver.
//
{
TInt r = SetName(&KBMPdName);
return r;
}
void DBMNE1Device::GetCaps(TDes8& aDes) const
//
// Return the Comm capabilities.
//
{
}
TInt DBMNE1Device::Create(DBase*& aChannel, TInt /*aUnit*/, const TDesC8* /*aInfo*/, const TVersion& /*aVer*/)
//
// Create a channel on the device.
//
{
__ASSERT_CRITICAL;
aChannel = new DBMNE1Channel;
return aChannel?KErrNone:KErrNoMemory;
}
TInt DBMNE1Device::Validate(TInt /*aUnit*/, const TDesC8* /*anInfo*/, const TVersion& aVer)
{
if (!Kern::QueryVersionSupported(iVersion,aVer))
{
return KErrNotSupported;
}
return KErrNone;
}
DBMNE1Channel::DBMNE1Channel()
: iTimer(&Isr, this)
{
// iIsr = NULL;
// iInterruptLatencyIsr = NULL;
NETimer& T2 = NETimer::Timer(2);
iPrescale = __e32_find_ms1_32(T2.iPrescaler & 0x3f);
iNsPerTick = 15u << iPrescale;
}
DBMNE1Channel::~DBMNE1Channel()
{
CancelInterrupt();
}
TBMTicks DBMNE1Channel::TimerPeriod()
{
return KBMNE1Period;
}
TBMTicks DBMNE1Channel::TimerStamp()
{
return NETimer::Timer(2).iTimerCount;
}
TBMNs DBMNE1Channel::TimerTicksToNs(TBMTicks ticks)
{
return ticks * (TBMTicks)iNsPerTick;
}
TBMTicks DBMNE1Channel::TimerNsToTicks(TBMNs ns)
{
return ns / (TBMTicks)iNsPerTick;
}
void DBMNE1Channel::Isr(TAny* ptr)
{
DBMNE1Channel* mCh = (DBMNE1Channel*) ptr;
BM_ASSERT(mCh->iIsr || mCh->iInterruptLatencyIsr);
if (mCh->iIsr)
{
mCh->iIsr->Isr(NETimer::Timer(2).iTimerCount);
}
else
{
TUint x = NETimer::Timer(0).iTimerCount;
x = (x + (1u<<mCh->iPrescale) - 1) >> mCh->iPrescale;
mCh->iInterruptLatencyIsr->InterruptLatencyIsr(x);
}
__e32_atomic_add_ord32(&mCh->iRunCount, 1);
}
TInt DBMNE1Channel::BindInterrupt(MBMIsr* aIsr)
{
BM_ASSERT(!iIsr);
BM_ASSERT(!iInterruptLatencyIsr);
iIsr = aIsr;
return KErrNone;
}
TInt DBMNE1Channel::BindInterrupt(MBMInterruptLatencyIsr* aIsr)
{
BM_ASSERT(!iIsr);
BM_ASSERT(!iInterruptLatencyIsr);
iInterruptLatencyIsr = aIsr;
return KErrNone;
}
void DBMNE1Channel::RequestInterrupt()
{
BM_ASSERT(iIsr || iInterruptLatencyIsr);
if (iTimer.OneShot(1)==KErrNone)
__e32_atomic_add_ord32(&iStartCount, 1);
}
void DBMNE1Channel::CancelInterrupt()
{
if (iTimer.Cancel())
__e32_atomic_add_ord32(&iCancelCount, 1);
while (iStartCount != iCancelCount + iRunCount)
{}
}