// Copyright (c) 1994-2009 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\memmodel\epoc\direct\mprocess.cpp
//
//
#include <memmodel.h>
#include <kernel/cache.h>
#define iMState iWaitLink.iSpare1
_LIT(KDollarDat,"$DAT");
/********************************************
* Process
********************************************/
void DMemModelProcess::Destruct()
{
DProcess::Destruct();
}
TInt DMemModelProcess::NewChunk(DChunk*& aChunk, SChunkCreateInfo& aInfo, TLinAddr& aRunAddr)
{
aChunk=NULL;
DMemModelChunk* pC=new DMemModelChunk;
if (!pC)
return KErrNoMemory;
pC->iChunkType=aInfo.iType;
if (!aInfo.iGlobal && (iAttributes & DMemModelProcess::EPrivate)!=0)
pC->iAttributes |= DMemModelChunk::EPrivate;
pC->iOwningProcess=(aInfo.iGlobal)?NULL:this;
TInt r=pC->Create(aInfo);
if (r==KErrNone && (aInfo.iOperations & SChunkCreateInfo::EAdjust))
{
if (aInfo.iRunAddress!=0)
pC->SetFixedAddress(aInfo.iRunAddress,aInfo.iPreallocated);
if (aInfo.iPreallocated==0)
{
if (pC->iAttributes & DChunk::EDisconnected)
{
r=pC->Commit(aInfo.iInitialBottom,aInfo.iInitialTop-aInfo.iInitialBottom);
}
else if (pC->iAttributes & DChunk::EDoubleEnded)
{
r=pC->AdjustDoubleEnded(aInfo.iInitialBottom,aInfo.iInitialTop);
}
else
{
r=pC->Adjust(aInfo.iInitialTop);
}
}
if (r==KErrNone)
{
aRunAddr=(TLinAddr)pC->Base();
}
}
if (r==KErrNone)
{
pC->iDestroyedDfc = aInfo.iDestroyedDfc;
aChunk=(DChunk*)pC;
}
else
pC->Close(NULL); // NULL since chunk can't have been added to process
return r;
}
TInt DMemModelProcess::DoCreate(TBool aKernelProcess, TProcessCreateInfo&)
{
__KTRACE_OPT(KPROC,Kern::Printf("DMemModelProcess::DoCreate %O",this))
if (aKernelProcess)
iAttributes=ESupervisor|EPrivate;
else
iAttributes=0;
return KErrNone;
}
TInt DMemModelProcess::CreateDataBssStackArea(TProcessCreateInfo& aInfo)
{
__KTRACE_OPT(KPROC,Kern::Printf("DMemModelProcess::CreateDataBssStackArea %O",this));
TInt dataBssSize=MM::RoundToBlockSize(aInfo.iTotalDataSize);
TInt r=KErrNone;
DMemModelCodeSeg* cs=(DMemModelCodeSeg*)iTempCodeSeg;
if (!cs->iXIP && dataBssSize)
{
// only RAM loaded processes need data chunks
// ROM processes have their .data/.bss areas reserved by ROMBUILD
SChunkCreateInfo cinfo;
cinfo.iGlobal=EFalse;
cinfo.iAtt=TChunkCreate::ENormal;
cinfo.iForceFixed=EFalse;
cinfo.iOperations=SChunkCreateInfo::EAdjust|SChunkCreateInfo::EAdd;
cinfo.iType=EUserData;
cinfo.iMaxSize=dataBssSize;
cinfo.iInitialBottom=0;
cinfo.iInitialTop=dataBssSize;
cinfo.iPreallocated=0;
cinfo.iName.Set(KDollarDat);
cinfo.iOwner=this;
cinfo.iRunAddress=0;
r=NewChunk((DChunk*&)iDataBssStackChunk, cinfo, iDataBssRunAddress);
__KTRACE_OPT(KPROC,Kern::Printf("RAM process, ret=%d, data at %08x+%x",r,iDataBssRunAddress,dataBssSize));
}
else if (cs->iXIP)
{
iDataBssRunAddress=cs->RomInfo().iDataBssLinearBase;
__KTRACE_OPT(KPROC,Kern::Printf("ROM process, data at %08x+%x",iDataBssRunAddress,dataBssSize));
}
return r;
}
TInt DMemModelProcess::AddChunk(DChunk* aChunk,TBool isReadOnly)
{
return KErrNone;
}
void DMemModelProcess::FinalRelease()
{
}
void DMemModelProcess::RemoveDllData()
//
// Call with CodeSegLock held
//
{
}
TInt DMemModelProcess::MapCodeSeg(DCodeSeg*)
{
return KErrNone;
}
void DMemModelProcess::UnmapCodeSeg(DCodeSeg*)
{
}
TInt DMemModelProcess::NewShPool(DShPool*& /* aPool */, TShPoolCreateInfo& /* aInfo */)
{
return KErrNotSupported;
}
TInt DThread::RawRead(const TAny* aSrc, TAny* aDest, TInt aLength, TInt aFlags, TIpcExcTrap* /*aExcTrap*/)
//
// Read from the thread's process.
// aSrc is run address of memory to read
// aDest is current address of destination
// Enter and leave with system locked
//
{
const TUint8* pS=(const TUint8*)aSrc;
TUint8* pD=(TUint8*)aDest;
TBool check=ETrue;
while (aLength)
{
if (check)
{
if (iMState==EDead)
return KErrDied;
__KTRACE_OPT(KTHREAD2,Kern::Printf("DThread::Read %08x",pS));
}
TInt l=Min(aLength,K::MaxMemCopyInOneGo);
memcpy(pD,pS,l);
pD+=l;
pS+=l;
aLength-=l;
if (aLength)
check=NKern::FlashSystem();
}
return KErrNone;
}
TInt DThread::RawWrite(const TAny* aDest, const TAny* aSrc, TInt aLength, TInt aFlags, DThread* anOriginatingThread, TIpcExcTrap* /*aExcTrap*/)
//
// Write to the thread's process.
// aDest is run address of memory to write
// aSrc is current address of destination
// anOriginatingThread is the thread on behalf of which this operation is performed (eg client of device driver).
// Enter and leave with system locked
//
{
TUint8* pD=(TUint8*)aDest;
const TUint8* pS=(const TUint8*)aSrc;
TBool check=ETrue;
while (aLength)
{
if (check)
{
if (iMState==EDead)
return KErrDied;
__KTRACE_OPT(KTHREAD2,Kern::Printf("DThread::Write %08x",pD));
}
TInt l=Min(aLength,K::MaxMemCopyInOneGo);
memcpy(pD,pS,l);
pD+=l;
pS+=l;
aLength-=l;
if (aLength)
check=NKern::FlashSystem();
}
return KErrNone;
}
#ifdef __DEBUGGER_SUPPORT__
TInt CodeModifier::SafeWriteCode(DProcess* /*aProcess*/, TLinAddr /*aAddress*/, TInt /*aSize*/, TUint /*aValue*/, void* /*aOldValue*/)
{
return KErrNotSupported;
}
TInt CodeModifier::WriteCode(TLinAddr /*aAddress*/, TInt /*aSize*/, TUint /*aValue*/, void* /*aOldValue*/)
{
return KErrNotSupported;
}
#endif //__DEBUGGER_SUPPORT__
TInt DThread::ReadAndParseDesHeader(const TAny* aSrc, TDesHeader& aDest)
//
// Read and parse the header of a remote descriptor.
// Enter and leave with system locked.
//
{
TRawDesHeader& header = (TRawDesHeader&)aDest;
static const TUint8 LengthLookup[16]={4,8,12,8,12,0,0,0,0,0,0,0,0,0,0,0};
const TUint32* pS=(const TUint32*)aSrc;
if (!pS || (TInt(pS)&3)!=0)
return KErrBadDescriptor;
if (Kern::SafeRead(pS,&header,sizeof(TUint32)))
return KErrBadDescriptor;
TInt type=header[0]>>KShiftDesType8;
TInt l=LengthLookup[type];
if (l==0)
return KErrBadDescriptor;
if (l>(TInt)sizeof(TUint32) && Kern::SafeRead(pS+1,&header[1],l-sizeof(TUint32)))
return KErrBadDescriptor;
return K::ParseDesHeader(aSrc, header, aDest);
}
DChunk* DThread::OpenSharedChunk(const TAny* aAddress, TBool /*aWrite*/, TInt& aOffset)
{
DMemModelChunk* chunk=0;
DObjectCon& chunks=*K::Containers[EChunk];
NKern::LockSystem();
chunks.Lock()->Wait();
TInt count=chunks.Count();
TInt i;
TUint offset=0;
for(i=0;i<count;i++)
{
DMemModelChunk* pC=(DMemModelChunk*)chunks[i];
offset = (TUint)aAddress-(TUint)pC->Base();
if(offset<TUint(pC->iMaxSize))
{
chunk = pC;
break;
}
}
chunks.Lock()->Signal();
if(!chunk)
return 0;
if((chunk->iChunkType!=ESharedKernelSingle && chunk->iChunkType!=ESharedKernelMultiple))
return 0;
if(chunk->Open()!=KErrNone)
return 0;
aOffset = offset;
return chunk;
}
TInt DThread::PrepareMemoryForDMA(const TAny* aLinAddr, TInt aSize, TPhysAddr* aPhysicalPageList)
{
return KErrNotSupported;
}
TInt DThread::ReleaseMemoryFromDMA(const TAny* aLinAddr, TInt aSize, TPhysAddr* aPhysicalPageList)
{
return KErrNotSupported;
}