Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 2007-2009 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 "memmodel.h"
#include "mm.h"
#include "mmu.h"
#include "mpdalloc.h"
#include "mobject.h"
#include "cache_maintenance.inl"
// check enough space for page directories...
__ASSERT_COMPILE(KNumOsAsids <= (KPageDirectoryEnd-KPageDirectoryBase)/KPageDirectorySize);
PageDirectoryAllocator PageDirectories;
const TUint KLocalPdShift = KPageDirectoryShift > KPageShift ? KPageDirectoryShift-1 : KPageShift;
const TUint KLocalPdSize = 1<<KLocalPdShift;
const TUint KLocalPdPages = 1<<(KLocalPdShift-KPageShift);
__ASSERT_COMPILE((KPageDirectoryBase&(31*KPageDirectorySize))==0); // following code assumes this alignment
void PageDirectoryAllocator::GlobalPdeChanged(TPde* aPde)
{
__NK_ASSERT_DEBUG(MmuLock::IsHeld());
__NK_ASSERT_DEBUG(TLinAddr(aPde)>=KPageDirectoryBase);
__NK_ASSERT_DEBUG(TLinAddr(aPde)<KPageDirectoryEnd);
__NK_ASSERT_DEBUG(KLocalPdSize==(TUint)KPageDirectorySize); // shouldn't be called if we have separate global PDs
TLinAddr addr = (TLinAddr(aPde)&KPageDirectoryMask)*(KChunkSize/sizeof(TPde));
if(addr<KGlobalMemoryBase)
return; // change was in local part of PD, so nothing to do
if(addr-KIPCAlias<KIPCAliasAreaSize)
return; // change was in IPC alias area, so nothing to do
if(!iAllocator)
return; // not yet initialised
TRACE2(("PageDirectoryAllocator::GlobalPdeChanged(0x%08x)",aPde));
TPde pde = *aPde;
TLinAddr pPde = KPageDirectoryBase+(TLinAddr(aPde)&KPageDirectoryMask); // first page directory
// copy PDE to all allocated page directories
pPde -= KPageDirectorySize; // start off at PD minus one
TLinAddr lastPd = KPageDirectoryBase+(KNumOsAsids-1)*KPageDirectorySize;
TUint32* ptr = iAllocator->iMap;
do
{
TUint32 bits = ~*ptr++;
do
{
pPde += KPageDirectorySize; // step to next page directory
if(bits&0x80000000u)
{
TRACE2(("!PDE %x=%x",pPde,pde));
*(TPde*)pPde = pde;
CacheMaintenance::SinglePdeUpdated(pPde);
}
}
while(bits<<=1);
pPde |= 31*KPageDirectorySize; // step to next group of 32 PDs
}
while(pPde<lastPd);
}
void PageDirectoryAllocator::Init2()
{
TRACEB(("PageDirectoryAllocator::Init2()"));
// construct memory object for page directories...
#if defined(__CPU_PAGE_TABLES_FULLY_CACHED)
TMemoryAttributes memAttr = EMemoryAttributeStandard;
#else
TMemoryAttributes memAttr = (TMemoryAttributes)(EMemoryAttributeNormalUncached|EMemoryAttributeDefaultShareable);
#endif
TInt r = MM::InitFixedKernelMemory(iPageDirectoryMemory, KPageDirectoryBase, KPageDirectoryEnd, KPageDirectorySize, EMemoryObjectHardware, EMemoryCreateNoWipe, memAttr, EMappingCreateFixedVirtual);
__NK_ASSERT_ALWAYS(r==KErrNone);
// initialise kernel page directory...
TPhysAddr kernelPd = Mmu::LinearToPhysical((TLinAddr)Mmu::PageDirectory(KKernelOsAsid));
iKernelPageDirectory = kernelPd;
((DMemModelProcess*)K::TheKernelProcess)->iPageDir = kernelPd;
AssignPages(KKernelOsAsid*(KPageDirectorySize>>KPageShift),KPageDirectorySize>>KPageShift,kernelPd);
// construct allocator...
iAllocator = TBitMapAllocator::New(KNumOsAsids,ETrue);
__NK_ASSERT_ALWAYS(iAllocator);
iAllocator->Alloc(KKernelOsAsid,1); // kernel page directory already allocated
TRACEB(("PageDirectoryAllocator::Init2 done"));
}
void PageDirectoryAllocator::AssignPages(TUint aIndex, TUint aCount, TPhysAddr aPhysAddr)
{
__NK_ASSERT_DEBUG(aCount<=KMaxPageInfoUpdatesInOneGo);
MmuLock::Lock();
SPageInfo* pi = SPageInfo::FromPhysAddr(aPhysAddr);
SPageInfo* piEnd = pi+aCount;
while(pi<piEnd)
{
pi->SetPhysAlloc(iPageDirectoryMemory,aIndex);
++pi;
++aIndex;
}
MmuLock::Unlock();
}
TInt PageDirectoryAllocator::Alloc(TUint aOsAsid, TPhysAddr& aPageDirectory)
{
TRACE(("PageDirectoryAllocator::Alloc(%d)",aOsAsid));
// get memory for local page directory...
Mmu& m = TheMmu;
TUint offset = aOsAsid*KPageDirectorySize;
TPhysAddr pdPhys;
RamAllocLock::Lock();
TInt r = m.AllocContiguousRam(pdPhys, KLocalPdPages, KLocalPdShift-KPageShift, iPageDirectoryMemory->RamAllocFlags());
if(r==KErrNone)
AssignPages(offset>>KPageShift,KLocalPdPages,pdPhys);
RamAllocLock::Unlock();
if(r==KErrNone)
{
TRACE(("PageDirectoryAllocator::Alloc pdPhys = 0x%08x",pdPhys));
// map local page directory...
r = MM::MemoryAddContiguous(iPageDirectoryMemory,MM::BytesToPages(offset),KLocalPdPages,pdPhys);
if(r!=KErrNone)
{
RamAllocLock::Lock();
m.FreeContiguousRam(pdPhys,KLocalPdPages);
RamAllocLock::Unlock();
}
else
{
aPageDirectory = pdPhys;
TPde* pd = Mmu::PageDirectory(aOsAsid);
const TUint globalOffset = (KGlobalMemoryBase>>KChunkShift)*sizeof(TPde); // start of global part
// clear local entries in page directory...
memclr(pd,globalOffset);
CacheMaintenance::PdesInitialised((TLinAddr)pd,globalOffset);
if(KLocalPdSize<(TUint)KPageDirectorySize)
{
// map global page directory after local part...
__NK_ASSERT_DEBUG(KLocalPdSize==globalOffset);
r = MM::MemoryAddContiguous(iPageDirectoryMemory, MM::BytesToPages(offset+KLocalPdSize),
(KPageDirectorySize-KLocalPdSize)/KPageSize, iKernelPageDirectory+KLocalPdSize);
__NK_ASSERT_DEBUG(r==KErrNone); // can't fail
MmuLock::Lock(); // need lock because allocator not otherwise atomic
iAllocator->Alloc(aOsAsid,1);
MmuLock::Unlock();
}
else
{
// copy global entries to local page directory...
TPde* globalPd = Mmu::PageDirectory(KKernelOsAsid);
MmuLock::Lock(); // need lock because allocator not otherwise atomic, also to make sure GlobalPdeChanged() only accesses extant PDs
memcpy((TUint8*)pd+globalOffset,(TUint8*)globalPd+globalOffset,KPageDirectorySize-globalOffset);
iAllocator->Alloc(aOsAsid,1);
MmuLock::Unlock();
CacheMaintenance::PdesInitialised((TLinAddr)((TUint8*)pd+globalOffset),KPageDirectorySize-globalOffset);
}
}
}
TRACE(("PageDirectoryAllocator::Alloc returns %d",r));
return r;
}
void PageDirectoryAllocator::Free(TUint aOsAsid)
{
TRACE(("PageDirectoryAllocator::Free(%d)",aOsAsid));
MmuLock::Lock(); // need lock because allocator not otherwise atomic, also to make sure GlobalPdeChanged() only accesses extant PDs
iAllocator->Free(aOsAsid, 1);
MmuLock::Unlock();
const TUint KPageDirectoryPageCount = KPageDirectorySize>>KPageShift;
TPhysAddr pages[KPageDirectoryPageCount];
TUint n = MM::MemoryRemovePages(iPageDirectoryMemory,aOsAsid*KPageDirectoryPageCount,KPageDirectoryPageCount,pages);
(void)n;
__NK_ASSERT_DEBUG(n==KPageDirectoryPageCount);
RamAllocLock::Lock();
Mmu& m = TheMmu;
// Page directories are fixed.
m.FreeRam(pages, KLocalPdPages, EPageFixed);
RamAllocLock::Unlock();
}