Added ENotifyKeypresses and ECaptureCtrlC flags to CCommandBase.
Commands can now get keypresses and handle ctrl-C via callbacks instead of having to implement custom active objects. As part of this extended the CCommandBase extension interface to MCommandExtensionsV2 for the new virtual functions KeyPressed(TUint aKeyCode, TUint aModifiers) and CtrlCPressed(). sudo now cleans up correctly by using ECaptureCtrlC.
// proxyallocatorhelper.cpp
//
// Copyright (c) 2010 Accenture. All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the "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:
// Accenture - Initial contribution
//
#include <fshell/heaputils.h>
#include <fshell/common.mmh>
#include <fshell/ltkutils.h>
__ASSERT_COMPILE(sizeof(LtkUtils::RProxyAllocatorHelper) == 11*4);
#ifdef FSHELL_MEMORY_ACCESS_SUPPORT
#include <fshell/memoryaccess.h>
#endif
EXPORT_C LtkUtils::RProxyAllocatorHelper::RProxyAllocatorHelper()
: RAllocatorHelper()
{
}
EXPORT_C TInt LtkUtils::RProxyAllocatorHelper::Open(RMemoryAccess& aMem, TUint aThreadId)
{
iMemoryAccess = &aMem;
iThreadId = aThreadId;
#ifdef FSHELL_MEMORY_ACCESS_SUPPORT
TUint8* allocatorAddress;
TInt err = iMemoryAccess->GetAllocatorAddress(iThreadId, allocatorAddress);
if (!err)
{
iAllocatorAddress = (TLinAddr)allocatorAddress;
TInt udeb = EuserIsUdeb();
if (udeb < 0) return udeb; // error
err = IdentifyAllocatorType(udeb);
}
return err;
#else
return KErrNotSupported;
#endif
}
EXPORT_C TInt LtkUtils::RProxyAllocatorHelper::OpenChunkHeap(RMemoryAccess& aMem, TAny* aDChunkPtr)
{
#ifdef FSHELL_MEMORY_ACCESS_SUPPORT
iMemoryAccess = &aMem;
TChunkKernelInfo chunkInfo;
TPckg<TChunkKernelInfo> chunkInfoPckg(chunkInfo);
TInt err = iMemoryAccess->GetObjectInfo(EChunk, (TUint8*)aDChunkPtr, chunkInfoPckg);
if (err) return err;
RProcess process;
err = process.Open(chunkInfo.iControllingOwnerProcessId);
if (err == KErrNone)
{
TPckgBuf<TProcessKernelInfo> processInfo;
err = iMemoryAccess->GetObjectInfoByHandle(EProcess, RThread().Id(), process.Handle(), processInfo);
process.Close();
if (err == KErrNone)
{
iThreadId = processInfo().iFirstThreadId;
return RAllocatorHelper::OpenChunkHeap((TLinAddr)chunkInfo.iBase, chunkInfo.iMaxSize);
}
}
return err;
#else
(void)aMem;
(void)aDChunkPtr;
return KErrNotSupported;
#endif
}
TInt LtkUtils::RProxyAllocatorHelper::ReadData(TLinAddr aLocation, TAny* aResult, TInt aSize) const
{
#ifdef FSHELL_MEMORY_ACCESS_SUPPORT
TThreadMemoryAccessParams params;
params.iId = iThreadId;
params.iAddr = (TUint8*)aLocation;
params.iSize = aSize;
TPtr8 ptr((TUint8*)aResult, aSize, aSize);
return iMemoryAccess->GetThreadMem(params, ptr);
#else
return KErrNotSupported;
#endif
}
TInt LtkUtils::RProxyAllocatorHelper::WriteData(TLinAddr aLocation, const TAny* aData, TInt aSize)
{
#ifdef FSHELL_MEMORY_ACCESS_SUPPORT
const TPtrC8 ptr((const TUint8*)aData, aSize);
return iMemoryAccess->WriteMem(iThreadId, ptr, (TAny*)aLocation);
#else
return KErrNotSupported;
#endif
}
TInt LtkUtils::RProxyAllocatorHelper::TryLock()
{
return KErrNotSupported;
}
void LtkUtils::RProxyAllocatorHelper::TryUnlock()
{
// Not supported
}
EXPORT_C void LtkUtils::RProxyAllocatorHelper::Close()
{
iMemoryAccess = NULL;
iThreadId = 0;
RAllocatorHelper::Close();
}