// 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\multiple\arm\xkernel.cpp
//
//
#include "arm_mem.h"
/********************************************
* Thread
********************************************/
TInt DArmPlatThread::SetupContext(SThreadCreateInfo& aInfo)
{
switch(iThreadType)
{
case EThreadSupervisor:
case EThreadMinimalSupervisor:
case EThreadInitial:
case EThreadAPInitial:
break;
case EThreadUser:
#ifndef __SMP__
iNThread.iSpare3 /*iUserContextType*/ = NThread::EContextUndefined;
#endif
break;
}
iNThread.SetAddressSpace(iOwningProcess);
iNThread.SetAttributes(KThreadAttAddressSpace);
iAliasPdePtr = &PageDirectory(((DMemModelProcess*)iOwningProcess)->iOsAsid)[KIPCAlias>>KChunkShift];
return KErrNone;
}
/********************************************
* Process
********************************************/
DArmPlatProcess::DArmPlatProcess()
{
iAddressCheckMaskR=0x000fffffu; // addresses<0xA0000000 OK
iAddressCheckMaskW=0x0000ffffu; // addresses<0x80000000 OK
}
void FlushTLBs();
DArmPlatProcess::~DArmPlatProcess()
{
__KTRACE_OPT(KMMU,Kern::Printf("DArmPlatProcess destruct"));
FlushTLBs();
DMemModelProcess::Destruct();
}
TInt DArmPlatProcess::GetNewChunk(DMemModelChunk*& aChunk, SChunkCreateInfo& aInfo)
{
aChunk=NULL;
DArmPlatChunk* pC=new DArmPlatChunk;
if (!pC)
return KErrNoMemory;
aChunk=pC;
TChunkType type = aInfo.iType;
pC->iChunkType=type;
TInt r=pC->SetAttributes(aInfo);
if(r==KErrNone)
{
if(type==ESharedKernelSingle || type==ESharedKernelMultiple || type==ESharedIo)
{
DArmPlatChunk* pM=new DArmPlatChunk;
if (!pM)
return KErrNoMemory;
pC->iKernelMirror = pM;
pM->iChunkType = ESharedKernelMirror;
r=pM->SetAttributes(aInfo);
}
}
return r;
}
TInt DArmPlatChunk::SetAttributes(SChunkCreateInfo& aInfo)
{
switch(iChunkType)
{
case EKernelData:
iAttributes = EAddressFixed|EMapTypeGlobal|EPrivate;
break;
case ERamDrive:
iAttributes = EAddressFixed|EMapTypeGlobal|EPrivate;
break;
case EKernelStack:
iAttributes = EAddressKernel|EMapTypeGlobal|EPrivate;
break;
case EKernelCode:
iAttributes = EAddressKernel|EMapTypeGlobal|EPrivate|ECode;
break;
case EDll:
case EUserCode:
if (aInfo.iGlobal)
iAttributes = EAddressUserGlobal|EMapTypeGlobal|ECode;
else
iAttributes = EAddressFixed|EMapTypeLocal|EPrivate|ECode;
break;
case EUserData:
if (aInfo.iGlobal)
iAttributes = EAddressShared|EMapTypeShared;
else
iAttributes = EAddressLocal|EMapTypeLocal|EPrivate;
break;
case EDllData:
iAttributes = EAddressFixed|EMapTypeLocal|EPrivate;
break;
case EUserSelfModCode:
if (aInfo.iGlobal)
iAttributes = EAddressShared|EMapTypeShared|ECode;
else
iAttributes = EAddressLocal|EMapTypeLocal|EPrivate|ECode;
break;
case ESharedKernelSingle:
case ESharedKernelMultiple:
case ESharedIo:
iAttributes = EAddressShared|EMapTypeShared;
break;
case ESharedKernelMirror:
iAttributes = EAddressKernel|EMapTypeGlobal|EPrivate;
break;
case EKernelMessage:
iAttributes = EAddressKernel|EMapTypeGlobal|EPrivate;
break;
default:
FAULT();
}
return KErrNone;
}
/********************************************
* Chunk
********************************************/
DArmPlatChunk::DArmPlatChunk()
{}
DArmPlatChunk::~DArmPlatChunk()
{
DMemModelChunk::Destruct();
}
TInt DArmPlatChunk::SetupPermissions()
{
Mmu& m=Mmu::Get();
if(iChunkType==ESharedKernelSingle || iChunkType==ESharedKernelMultiple || iChunkType==ESharedIo || iChunkType==ESharedKernelMirror)
{
// override map attributes for shared kernel chunks
TUint ma = (iMapAttr &~ EMapAttrAccessMask) | (iChunkType==ESharedKernelMirror?EMapAttrSupRw:EMapAttrUserRw);
TInt r = m.PdePtePermissions(ma, iPdePermissions, iPtePermissions);
if (r != KErrNone)
return r;
iMapAttr = ma;
}
else
{
iPtePermissions=m.PtePermissions(iChunkType);
iPdePermissions=m.PdePermissions(iChunkType,EFalse);
}
__KTRACE_OPT(KMMU,Kern::Printf("Chunk permissions PTE=%08x PDE=%08x",iPtePermissions,iPdePermissions));
return KErrNone;
}
TIpcExcTrap::TExcLocation TIpcExcTrap::ExcLocation(DThread* aThread, TAny* aContext)
{
TArmExcInfo& info=*(TArmExcInfo*)aContext;
if (info.iExcCode==EArmExceptionDataAbort)
{
TLinAddr va=(TLinAddr)info.iFaultAddress;
TLinAddr aliasAddr = ((DMemModelThread*)aThread)->iAliasLinAddr;
TBool remoteError;
if(aliasAddr)
remoteError = TUint(va^aliasAddr)<TUint(KPageSize);
else
// The second clause in the statement below was "va < iRemoteBase + iSize".
// iRemoteBase + iSize might conceivably wrap round.
// The usual fix for this is to change
// va >= base && va < base + size
// to va >= base && (va - base) < size
// but this requires the first clause (va >= base) so that va-base doesn't wrap negative.
// Since the first clause in this expression is va >= (iRemoteBase & ~3)
// we have to re-write the expression as follows:
// Let base' = iRemoteBase & ~3
// so base = base' + (base & 3)
// then we have va >= base' && va < base' + (base & 3) + iSize
// (effectively the & ~3 on the first clause extends the range downwards by base & 3)
remoteError = va>=(iRemoteBase&~3) &&
(va - (iRemoteBase & ~3)) < iSize + (iRemoteBase & 3);
if (remoteError)
return EExcRemote;
// Third clause was va < iLocalBase + iSize, fixed as in the "remoteError =" line above
if (iLocalBase && va>=(iLocalBase&~3) &&
(va - (iLocalBase & ~3)) < iSize + (iLocalBase & 3))
return EExcLocal;
}
return EExcUnknown;
}