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) 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:
//
#include <memmodel.h>
#include "mmu/mm.h"
#include "mmboot.h"
/********************************************
* Thread
********************************************/
TInt DThread::AllocateSupervisorStack()
{
__KTRACE_OPT(KTHREAD,Kern::Printf("DThread::AllocateSupervisorStack %O %x",this,iSupervisorStackSize));
iSupervisorStackSize = MM::RoundToPageSize(iSupervisorStackSize);
if(iThreadType==EThreadInitial)
return KErrNone;
TUint guardSize = PP::SupervisorThreadStackGuard;
TUint virtualSize = guardSize+iSupervisorStackSize;
DMemoryObject* memory;
TInt r = MM::MemoryNew(memory,EMemoryObjectUnpaged,MM::BytesToPages(virtualSize));
if(r==KErrNone)
{
r = MM::MemoryAlloc(memory,MM::BytesToPages(guardSize),MM::BytesToPages(iSupervisorStackSize));
if(r==KErrNone)
{
DMemoryMapping* mapping;
r = MM::MappingNew(mapping,memory,ESupervisorReadWrite,KKernelOsAsid);
if(r==KErrNone)
{
__NK_ASSERT_DEBUG(!((DMemModelThread*)this)->iKernelStackMapping);
((DMemModelThread*)this)->iKernelStackMapping = mapping;
iSupervisorStack = (TAny*)(MM::MappingBase(mapping)+guardSize);
__KTRACE_OPT(KTHREAD,Kern::Printf("Supervisor stack at %x, size %x",iSupervisorStack,iSupervisorStackSize));
}
}
if(r!=KErrNone)
MM::MemoryDestroy(memory);
else
{
#ifdef BTRACE_FLEXIBLE_MEM_MODEL
BTrace8(BTrace::EFlexibleMemModel,BTrace::EMemoryObjectIsSupervisorStack,memory,&iNThread);
#endif
}
}
return r;
}
void DThread::FreeSupervisorStack()
{
__KTRACE_OPT(KTHREAD,Kern::Printf("DThread::FreeSupervisorStack %O",this));
if(iThreadType==EThreadInitial) // !!!???
return;
MM::MappingAndMemoryDestroy(((DMemModelThread*)this)->iKernelStackMapping);
}
TInt DThread::AllocateUserStack(TInt aSize, TBool aPaged)
{
__KTRACE_OPT(KTHREAD,Kern::Printf("DThread::AllocateUserStack %O %x",this,aSize));
aSize = MM::RoundToPageSize(aSize);
if(aSize>PP::MaxUserThreadStack)
return KErrTooBig;
TMemoryObjectType memoryType = (aPaged)? EMemoryObjectPaged : EMemoryObjectMovable;
TUint guardSize = PP::UserThreadStackGuard;
TUint virtualSize = guardSize+aSize;
// wipe user thread stack with 0x29292929
TMemoryCreateFlags flags = (TMemoryCreateFlags)(EMemoryCreateDefault | EMemoryCreateUseCustomWipeByte | (0x29 << EMemoryCreateWipeByteShift));
DMemoryObject* memory;
TInt r = MM::MemoryNew(memory, memoryType, MM::BytesToPages(virtualSize),flags);
if(r==KErrNone)
{
r = MM::MemoryAlloc(memory,MM::BytesToPages(guardSize),MM::BytesToPages(aSize));
if(r==KErrNone)
{
DMemoryMapping* mapping;
// Get os asid, no need to open a reference as this only invoked where
// the current thread is owned by iOwningProcess, iOwningProcess is
// the kernel process or this is the first thread of a process that
// isn't fully created yet.
TUint osAsid = ((DMemModelProcess*)iOwningProcess)->OsAsid();
r = MM::MappingNew(mapping,memory,EUserReadWrite,osAsid);
if(r==KErrNone)
{
__NK_ASSERT_DEBUG(!((DMemModelThread*)this)->iUserStackMapping);
((DMemModelThread*)this)->iUserStackMapping = mapping;
iUserStackSize = aSize;
iUserStackRunAddress = MM::MappingBase(mapping)+guardSize;
__KTRACE_OPT(KTHREAD,Kern::Printf("User stack at %x, size %x",iUserStackRunAddress,iUserStackSize));
}
}
if(r!=KErrNone)
MM::MemoryDestroy(memory);
else
{
#ifdef BTRACE_FLEXIBLE_MEM_MODEL
BTrace8(BTrace::EFlexibleMemModel,BTrace::EMemoryObjectIsUserStack,memory,&iNThread);
#endif
}
}
return r;
}
void DThread::FreeUserStack()
{
__KTRACE_OPT(KTHREAD,Kern::Printf("DThread::FreeUserStack %O",this));
MM::MappingAndMemoryDestroy(((DMemModelThread*)this)->iUserStackMapping);
}
void DMemModelThread::SetPaging(TUint& aCreateFlags)
{
TUint pagingAtt = aCreateFlags & EThreadCreateFlagPagingMask;
TUint dataPolicy = TheSuperPage().KernelConfigFlags() & EKernelConfigDataPagingPolicyMask;
if (dataPolicy == EKernelConfigDataPagingPolicyNoPaging ||
!(K::MemModelAttributes & EMemModelAttrDataPaging))
{// No paging policy set or no data paging device installed.
pagingAtt = EThreadCreateFlagUnpaged;
}
else if (dataPolicy == EKernelConfigDataPagingPolicyAlwaysPage)
{
pagingAtt = EThreadCreateFlagPaged;
}
else if (pagingAtt == EThreadCreateFlagPagingUnspec)
{// No data paging attribute specified for this chunk so use the process's.
if (iOwningProcess->iAttributes & DProcess::EDataPaged)
pagingAtt = EThreadCreateFlagPaged;
else
pagingAtt = EThreadCreateFlagUnpaged;
}
#ifdef _DEBUG
else
{
__NK_ASSERT_DEBUG( pagingAtt == EThreadCreateFlagPaged ||
pagingAtt == EThreadCreateFlagUnpaged);
}
#endif
// Save the paging attributes for when the stack and heap are created later.
aCreateFlags &= ~EThreadCreateFlagPagingMask;
aCreateFlags |= pagingAtt;
}
void DMemModelThread::DoExit1()
{
// Regularize the thread state before main exit processing.
// We must remove any existing alias before we do any operation
// which requires aliasing (e.g. logon completion).
__KTRACE_OPT(KTHREAD,Kern::Printf("DMemModelThread %O DoExit1",this));
RemoveAlias();
}
void DThread::IpcExcHandler(TExcTrap* aTrap, DThread* aThread, TAny* aContext)
{
aThread->iIpcClient = 0;
TIpcExcTrap& xt=*(TIpcExcTrap*)aTrap;
switch (xt.ExcLocation(aThread, aContext))
{
case TIpcExcTrap::EExcRemote:
// problem accessing remote address - 'leave' so an error code will be returned
((DMemModelThread*)aThread)->RemoveAlias();
xt.Exception(KErrBadDescriptor); // does not return
case TIpcExcTrap::EExcLocal:
// problem accessing local address - return and panic current thread as usual
((DMemModelThread*)aThread)->RemoveAlias();
return;
default:
// otherwise return and fault kernel
NKern::LockSystem();
return;
}
}
void DMemModelThread::BTracePrime(TInt aCategory)
{
DThread::BTracePrime(aCategory);
#ifdef BTRACE_FLEXIBLE_MEM_MODEL
if(aCategory==BTrace::EFlexibleMemModel || aCategory==-1)
{
if (iKernelStackMapping)
{
DMemoryObject* memory = MM::MappingGetAndOpenMemory(iKernelStackMapping);
if (memory)
{
MM::MemoryBTracePrime(memory);
BTrace8(BTrace::EFlexibleMemModel,BTrace::EMemoryObjectIsSupervisorStack,memory,&iNThread);
MM::MemoryClose(memory);
}
}
if (iUserStackMapping)
{
DMemoryObject* memory = MM::MappingGetAndOpenMemory(iUserStackMapping);
if (memory)
{
MM::MemoryBTracePrime(memory);
BTrace8(BTrace::EFlexibleMemModel,BTrace::EMemoryObjectIsUserStack,memory,&iNThread);
MM::MemoryClose(memory);
}
}
}
#endif
}