// Copyright (c) 2005-2009 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:
// e32test\demandpaging\d_pagestrss.cpp
//
//
#include <kernel/kern_priv.h>
#include <kernel/cache.h>
#include "d_pagestress.h"
//
// Class definitions
//
class DPageStressTestFactory : public DLogicalDevice
{
public:
~DPageStressTestFactory();
virtual TInt Install();
virtual void GetCaps(TDes8& aDes) const;
virtual TInt Create(DLogicalChannelBase*& aChannel);
};
class DPageStressTestChannel : public DLogicalChannelBase
{
public:
DPageStressTestChannel();
~DPageStressTestChannel();
virtual TInt DoCreate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
virtual TInt Request(TInt aFunction, TAny* a1, TAny* a2);
TInt DoConsumeRamSetup(TInt aNumPagesLeft, TInt aPagesInBlock);
TInt DoConsumeRamFinish(void);
TInt DoConsumeSomeRam(TInt aBlocks);
TInt DoReleaseSomeRam(TInt aBlocks);
TInt FreeRam();
TInt DoSetDebugFlag(TInt aState);
public:
DPageStressTestFactory* iFactory;
private:
TBool iRamAllocd;
TInt iInitialFreeRam;
TInt iTotalBlocks;
TInt iBlockSize;
TInt iLastBlockAllocd;
TPhysAddr* iAddrArray;
TInt iDebug;
DMutex* iMutex;
TInt iThreadCounter;
TPhysAddr iAddrMin;
TPhysAddr iAddrMax;
TBool iDemandPaging;
};
//
// DPageStressTestFactory
//
TInt DPageStressTestFactory::Install()
{
return SetName(&KPageStressTestLddName);
}
DPageStressTestFactory::~DPageStressTestFactory()
{
}
void DPageStressTestFactory::GetCaps(TDes8& /*aDes*/) const
{
// Not used but required as DLogicalDevice::GetCaps is pure virtual
}
TInt DPageStressTestFactory::Create(DLogicalChannelBase*& aChannel)
{
aChannel = NULL;
DPageStressTestChannel* channel=new DPageStressTestChannel;
if(!channel)
return KErrNoMemory;
channel->iFactory = this;
aChannel = channel;
return KErrNone;
}
DECLARE_STANDARD_LDD()
{
return new DPageStressTestFactory;
}
//
// DPageStressTestChannel
//
TInt DPageStressTestChannel::DoCreate(TInt /*aUnit*/, const TDesC8* /*aInfo*/, const TVersion& /*aVer*/)
{
return KErrNone;
}
DPageStressTestChannel::DPageStressTestChannel()
: iRamAllocd(EFalse), iInitialFreeRam(0), iTotalBlocks(0), iBlockSize(0), iLastBlockAllocd(0),
iAddrArray(NULL), iDebug(0), iThreadCounter(1), iAddrMin(0), iAddrMax(0), iDemandPaging(ETrue)
{
_LIT(KMutexName,"TPageStressMutex");
NKern::ThreadEnterCS();
Kern::MutexCreate(iMutex, KMutexName,KMutexOrdNone);
NKern::ThreadLeaveCS();
SVMCacheInfo tempPages;
if (Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) != KErrNone)
{
iDemandPaging = EFalse;
}
}
DPageStressTestChannel::~DPageStressTestChannel()
{
if (iRamAllocd)
{
DoConsumeRamFinish();
}
if (iMutex)
{
iMutex->Close(NULL);
iMutex = NULL;
}
}
TInt DPageStressTestChannel::Request(TInt aFunction, TAny* a1, TAny* a2)
{
TInt threadCount = __e32_atomic_tas_ord32(&iThreadCounter, 1, 1, 0);
if (threadCount >= 2)
{
Kern::Printf("DPageStressTestChannel::Request threadCount = %d\n", threadCount);
}
NKern::ThreadEnterCS();
Kern::MutexWait(*iMutex);
TInt retVal = KErrNotSupported;
switch(aFunction)
{
case RPageStressTestLdd::EDoConsumeRamSetup:
{
retVal = DPageStressTestChannel::DoConsumeRamSetup((TInt)a1, (TInt)a2);
}
break;
case RPageStressTestLdd::EDoConsumeRamFinish:
{
retVal = DPageStressTestChannel::DoConsumeRamFinish();
}
break;
case RPageStressTestLdd::EDoConsumeSomeRam:
{
retVal = DPageStressTestChannel::DoConsumeSomeRam((TInt)a1);
}
break;
case RPageStressTestLdd::EDoReleaseSomeRam:
{
retVal = DPageStressTestChannel::DoReleaseSomeRam((TInt)a1);
}
break;
case RPageStressTestLdd::EDoSetDebugFlag:
{
retVal = DoSetDebugFlag((TInt) a1);
}
break;
default: break;
}
Kern::MutexSignal(*iMutex);
NKern::ThreadLeaveCS();
__e32_atomic_tas_ord32(&iThreadCounter, 1, -1, 0);
return retVal;
}
//
// DPageStressTestChannel::DoConsumeRamSetup
//
// This test attempts to consume most of the available Contiguous Ram until we need to ask the
// demand paging code to release memory for it.
//
//
//
#define CHECK(c) { if(!(c)) { Kern::Printf("Fail %d", __LINE__); ; retVal = __LINE__;} }
TInt DPageStressTestChannel::DoConsumeRamSetup(TInt aNumPagesLeft, TInt aPagesInBlock)
{
if (iRamAllocd)
{
Kern::Printf("DPageStressTestChannel trying to start again when RAM alloc'd\n");
DoConsumeRamFinish();
}
TInt retVal = KErrNone;
TInt pageSize = 0;
CHECK(Kern::HalFunction(EHalGroupKernel,EKernelHalPageSizeInBytes,&pageSize,0)==KErrNone);
iBlockSize = aPagesInBlock * pageSize;
iInitialFreeRam = FreeRam();
iTotalBlocks = (iInitialFreeRam/iBlockSize) + 10;
iAddrArray = (TPhysAddr *)Kern::AllocZ(sizeof(TPhysAddr) * iTotalBlocks);
CHECK(iAddrArray);
if(!iAddrArray)
{
return KErrNoMemory;
}
SVMCacheInfo tempPages;
iRamAllocd = ETrue;
// get the initial free ram again as the heap may have grabbed a page during the alloc
iInitialFreeRam = FreeRam();
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
if (iDebug)
{
Kern::Printf("Start : min %d max %d current %d maxFree %d freeRam %d",
tempPages.iMinSize, tempPages.iMaxSize, tempPages.iCurrentSize ,tempPages.iMaxFreeSize, FreeRam());
}
}
// allocate blocks to use up RAM until we fail to allocate any further...
TInt index;
// only alloc upto the point where we have a number of pages left.
iLastBlockAllocd = iTotalBlocks - (aNumPagesLeft / aPagesInBlock);
for (index = 0; index < iLastBlockAllocd; index ++)
{
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
}
if (KErrNone != Epoc::AllocPhysicalRam(iBlockSize, iAddrArray[index], 0))
{
iAddrArray[index] = NULL;
break;
}
if ((iAddrMin == 0) || (iAddrMin > iAddrArray[index]))
{
iAddrMin = iAddrArray[index];
}
if (iAddrMax < iAddrArray[index])
{
iAddrMax = iAddrArray[index];
}
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
}
}
iLastBlockAllocd = index - 1;
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
if (iDebug)
{
Kern::Printf("Alloc'd : min %d max %d current %d maxFree %d freeRam %d lastIndex %d addrMin 0x%08x addrMax 0x%08x",
tempPages.iMinSize, tempPages.iMaxSize, tempPages.iCurrentSize ,tempPages.iMaxFreeSize, FreeRam(), iLastBlockAllocd, iAddrMin, iAddrMax);
}
}
return retVal;
}
TInt DPageStressTestChannel::DoConsumeRamFinish(void)
{
TInt retVal = KErrNone;
if (iRamAllocd)
{
SVMCacheInfo tempPages;
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
if (iDebug)
{
Kern::Printf("Cleanup cache info: iMinSize %d iMaxSize %d iCurrentSize %d iMaxFreeSize %d",
tempPages.iMinSize, tempPages.iMaxSize, tempPages.iCurrentSize ,tempPages.iMaxFreeSize);
}
}
TInt index = iTotalBlocks - 1;
TBool firstTime = ETrue;
// free the memory we allocated...
while(index >= 0)
{
if (iAddrArray[index])
{
if ((iAddrArray[index] < iAddrMin) || (iAddrArray[index] > iAddrMax))
{
Kern::Printf("ERROR: DoConsumeRamFinish : index %d addr 0x%08x min 0x%08x max 0x%08x\n : firstTime %d iLastBlockAllocd %d iTotalBlock %d", index, iAddrArray[index], iAddrMin, iAddrMax, firstTime, iLastBlockAllocd, iTotalBlocks);
TInt tempIndex = index - 8;
while (tempIndex < (index + 8))
{
Kern::Printf(" --> index %d addr 0x%08x", tempIndex, iAddrArray[tempIndex]);
tempIndex ++;
}
iAddrArray[index] = NULL;
}
else
{
TInt r = Epoc::FreePhysicalRam(iAddrArray[index], iBlockSize);
iAddrArray[index] = NULL;
CHECK(r==KErrNone);
}
}
firstTime = EFalse;
--index;
}
if (iDebug)
{
Kern::Printf("DoConsumeRamFinish : FreeRam Initial 0x%x now 0x%x",iInitialFreeRam, FreeRam());
}
//CHECK(FreeRam() == iInitialFreeRam)
if (FreeRam() != iInitialFreeRam)
{
Kern::Printf("DoConsumeRamFinish : FreeRam Initial 0x%x now 0x%x NOT EQUAL!",iInitialFreeRam, FreeRam());
}
Kern::Free(iAddrArray);
iAddrArray = NULL;
iAddrMin = 0;
iAddrMax = 0;
iLastBlockAllocd = -1;
iTotalBlocks = 0;
iRamAllocd = EFalse;
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
if (iDebug)
{
Kern::Printf("End cache info: iMinSize %d iMaxSize %d iCurrentSize %d iMaxFreeSize %d",
tempPages.iMinSize, tempPages.iMaxSize, tempPages.iCurrentSize ,tempPages.iMaxFreeSize);
}
}
}
return retVal;
}
TInt DPageStressTestChannel::DoConsumeSomeRam(TInt aBlocks)
{
TInt retVal = KErrNone;
return retVal;
}
TInt DPageStressTestChannel::DoReleaseSomeRam(TInt aBlocks)
{
if(iLastBlockAllocd<0)
return KErrUnderflow;
TInt retVal = KErrNone;
if (iRamAllocd)
{
SVMCacheInfo tempPages;
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
if (iDebug)
{
Kern::Printf("Release : min %d max %d current %d maxFree %d freeRam %d lastIndex %d",
tempPages.iMinSize, tempPages.iMaxSize, tempPages.iCurrentSize ,tempPages.iMaxFreeSize, FreeRam(), iLastBlockAllocd);
}
}
TInt index = iLastBlockAllocd;
iLastBlockAllocd -= aBlocks;
TBool firstTime = ETrue;
// free the memory we allocated...
while((index >= 0) && (index > iLastBlockAllocd))
{
if (iAddrArray[index])
{
//Kern::Printf("DoReleaseSomeRam : index %d addr 0x%08x size %d", index, iAddrArray[index], iBlockSize);
if ((iAddrArray[index] < iAddrMin) || (iAddrArray[index] > iAddrMax))
{
Kern::Printf("ERROR: DoReleaseSomeRam : index %d addr 0x%08x min 0x%08x max 0x%08x\n : firstTime %d iLastBlockAllocd %d iTotalBlock %d", index, iAddrArray[index], iAddrMin, iAddrMax, firstTime, iLastBlockAllocd + aBlocks, iTotalBlocks);
TInt tempIndex = index - 8;
while (tempIndex < (index + 8))
{
Kern::Printf(" --> index %d addr 0x%08x", tempIndex, iAddrArray[tempIndex]);
tempIndex ++;
}
iAddrArray[index] = NULL;
}
else
{
TInt r = Epoc::FreePhysicalRam(iAddrArray[index], iBlockSize);
iAddrArray[index] = NULL;
CHECK(r==KErrNone);
}
}
else
{
Kern::Printf("ERROR: DoReleaseSomeRam : trying to free NULL index %d", index, iAddrArray[index], iAddrMin, iAddrMax);
TInt tempIndex = index - 8;
while (tempIndex < (index + 8))
{
Kern::Printf(" --> index %d addr 0x%08x", tempIndex, iAddrArray[tempIndex]);
tempIndex ++;
}
}
firstTime = EFalse;
--index;
}
if (index <= 0)
{
Kern::Printf("WARNING : DoReleaseSomeRam : index %d !!!!!", index);
}
if (iDemandPaging)
{
CHECK(Kern::HalFunction(EHalGroupVM,EVMHalGetCacheSize,&tempPages,0) == KErrNone);
if (iDebug)
{
Kern::Printf("Released : min %d max %d current %d maxFree %d freeRam %d lastIndex %d",
tempPages.iMinSize, tempPages.iMaxSize, tempPages.iCurrentSize ,tempPages.iMaxFreeSize, FreeRam(), iLastBlockAllocd);
}
}
}
return retVal;
}
TInt DPageStressTestChannel::FreeRam()
{
return Kern::FreeRamInBytes();
}
TInt DPageStressTestChannel::DoSetDebugFlag(TInt aState)
{
iDebug = aState;
return KErrNone;
}