Chop out the code that handles "additional _E32Dll entry point after last ordinal position". I can't agree with that as how the DLL is supposed to work, and gives errors for me. Maybe the scripts to re-generate the jump tables have not been tried recently so its not a problem that's been hit by others.
// Copyright (c) 1994-2010 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "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:
// Client handling
//
//
#include "CLIENT.H"
#include "ANIM.H"
#include "Direct.H"
#include "EVENT.H"
#include "KEYCLICK.H"
#include "server.h"
#include "gc.h"
#include "rootwin.h"
#include "windowgroup.h"
#include "wstop.h"
#include "panics.h"
#include "../CLIENT/w32comm.h"
#include "password.h"
#include "pointer.h"
#include <u32hal.h> // EHalGroupEmulator
#include "WsMemMgr.h"
GLREF_C void HeapDump();
GLREF_D CDebugLogBase *wsDebugLog;
GLREF_D TPtr nullDescriptor;
TWsCmdHeaderBase CWsClient::iCurrentCommand;
TBuf8<EClientBufferMaxSize> CWsClient::iCmdBuf;
TUint CWsClient::iConnectionId=CDebugLogBase::EDummyConnectionId+1;
CArrayFixFlat<TWsCursorArrayItem> *CWsClient::iSystemPointerCursors=NULL;
TInt CWsClient::iDefaultSystemPointerCursorIndex=0; //Negative when there isn't one
CWsPointerCursor *CWsClient::iDefaultSystemPointerCursor;
CWsClient *CWsClient::iSystemPointerCursorListOwner=NULL;
CArrayFixFlat<TWsCursorArrayItem> *CWsClient::iTextCursorArray=NULL;
TInt CWsClient::iReply;
TInt CWsClient::iReplyOffset;
CWsClient *CWsClient::iCurrentClient;
/**
Used for enforcing the redraw calling convention (in preparation for BR2412) in emulator builds.
When enabled this will panic any client calling a CWindowGc draw operation outside a
RWindow::BeginRedraw() / RWindow::EndRedraw() pair (known as non-redraw drawing).
Enable by adding "debug_wserv_exe_EnforceRedrawCallingConvention X" to epoc.ini
where X is either 0 (zero) for "off" or 1 (one) for "on".
Then enable globaly in WServ AutoFlush by defining __AUTO_FLUSH in ../client/client.h
or locally by calling RWsSession::SetAutoFlush(ETrue) for a specific client programatically,
or locally pressing Ctrl-Alt-Shift-F in the emulator.
*/
TBool CWsClient::iDebug_EnforceRedrawCallingConvention = EFalse;
_LIT(KWSERVSessionPanicCategory,"WSERV");
TKeyArrayFix CursorKey(_FOFF(TWsCursorArrayItem,iIndex),ECmpTInt);
static _LIT_SECURITY_POLICY_C1(KSecurityPolicy_WriteDeviceData,ECapabilityWriteDeviceData);
static _LIT_SECURITY_POLICY_C1(KSecurityPolicy_SwEvent,ECapabilitySwEvent);
static _LIT_SECURITY_POLICY_C1(KSecurityPolicy_PowerMgmt,ECapabilityPowerMgmt);
CWsClient::CWsClient(RThread aClient) : iClient(aClient), iGraphicMessageQueue(this), iIsInitialised(EFalse)
#if defined(__WINS__)
,iRemoveKeyCode(ETrue)
#endif
{
iScreen=CWsTop::Screen(); //## Need to find better way to set this
}
CWsClient::~CWsClient()
{
WindowServer().RemoveAllGraphicDrawers(*this); // deindexes all graphic drawers owned by this client
delete iTempCustomTextCursor.iCursor;
FreeSystemPointerCursorList();
CWsTop::ClientDestroyed(this);
if (wsDebugLog)
{
_LIT(ClientDestuct,"Client %d destructing");
wsDebugLog->MiscMessage(CDebugLogBase::ELogIntermediate,ClientDestuct, iConnectionHandle);
}
iInternalFlags|=EClientIsClosing;
delete iObjectIndex;
delete iEventQueue;
delete iRedrawQueue;
delete iPriorityKeyEvent;
CWsTop::SessionExited(this);
iScreen->Update(); /* Mathias: Don't care about multiple screens yet
CWsTop::UpdateAllScreens(EFalse);
*/
iClient.Close();
}
void CWsClient::CompleteInitializationL()
{
iObjectIndex=new(ELeave) CWsObjectIx();
iObjectIndex->ConstructL();
iEventQueue=new(ELeave) CEventQueue(this);
iEventQueue->ConstructL();
iRedrawQueue=new(ELeave) CRedrawQueue(this);
iRedrawQueue->ConstructL();
iPriorityKeyEvent=new(ELeave) CPriorityKey(this);
CWsCliObj::NewL(this);
iComputeMode=RWsSession::EPriorityControlComputeOff;
CWsTop::NewSession(this);
#ifdef __WINS__
TBool halValue = EFalse;
if (UserSvr::HalFunction(EHalGroupEmulator, EEmulatorHalIntProperty,
(TAny*)"debug_wserv_exe_EnforceRedrawCallingConvention", &halValue) == KErrNone)
{
iDebug_EnforceRedrawCallingConvention = halValue;
}
#endif
iIsInitialised = ETrue;
}
TBool CWsClient::DebugEnforceRedrawCallingConvention()
{
return iDebug_EnforceRedrawCallingConvention;
}
void CWsClient::StartInitializationL(TUint aConnectionHandle)
{
if (wsDebugLog)
wsDebugLog->NewClient(aConnectionHandle);
if (iObjectIndex)
{
PPanic(EWservPanicReInitialise);
}
else
{
iConnectionHandle=aConnectionHandle;
CompleteInitializationL();
}
}
void CWsClient::HandleToWindow(TInt handle,CWsWindowBase **pWin)
//
// Convert a handle to object checking it is of the correct type.
//
{
if ((*pWin=(CWsWindowBase *)HandleToObjUntyped(handle))==NULL ||
((*pWin)->Type()!=WS_HANDLE_WINDOW && (*pWin)->Type()!=WS_HANDLE_GROUP_WINDOW))
PPanic(EWservPanicWindow);
}
void CWsClient::HandleToClientWindow(TInt handle,CWsClientWindow **pWin)
//
// Convert a handle to object checking it is of the correct type.
//
{
if ((*pWin=(CWsClientWindow *)HandleToObj(handle, WS_HANDLE_WINDOW))==NULL)
PPanic(EWservPanicWindow);
}
void CWsClient::CreateNewPointerCursorL(const TWsClCmdCreatePointerCursor &aCmd)
{
CWsPointerCursor *pc=new(ELeave) CWsPointerCursor(this);
CleanupStack::PushL(pc);
pc->ConstructL(aCmd);
CleanupStack::Pop();
}
// Create a new custom text cursor
void CWsClient::StartSetCustomTextCursorL(const TWsClCmdCustomTextCursorData& aCmd)
{
if (!iTextCursorArray)
{
const TInt textCursorArrayGranularity = 4;
iTextCursorArray = new(ELeave) CArrayFixFlat<TWsCursorArrayItem>(textCursorArrayGranularity);
}
TInt arrayIndex;
if (FindCursorArrayItem(iTextCursorArray, aCmd.identifier, arrayIndex))
User::Leave(KErrAlreadyExists);
delete iTempCustomTextCursor.iCursor;
iTempCustomTextCursor.iCursor = NULL;
iTempCustomTextCursor.iCursor = new(ELeave) CWsCustomTextCursor(this, aCmd.alignment);
static_cast<CWsCustomTextCursor*>(iTempCustomTextCursor.iCursor)->ConstructL(aCmd.flags);
iTempCustomTextCursor.iIndex = aCmd.identifier;
}
// Add new custom text cursor to global list
void CWsClient::CompleteSetCustomTextCursorL(TInt aError)
{
if (aError != KErrNone)
{
delete iTempCustomTextCursor.iCursor;
iTempCustomTextCursor.iCursor = NULL;
User::Leave(aError);
}
TWsCursorArrayItem entry = iTempCustomTextCursor;
iTempCustomTextCursor.iCursor = NULL;
CleanupStack::PushL(entry.iCursor);
TInt arrayIndex;
if (FindCursorArrayItem(iTextCursorArray, entry.iIndex, arrayIndex))
{
User::Leave(KErrAlreadyExists);
}
else
{
iTextCursorArray->InsertIsqL(entry, CursorKey);
}
CleanupStack::Pop(entry.iCursor);
}
CWsCustomTextCursor* CWsClient::FindCustomTextCursor(TInt aIdentifier)
{
TInt arrayIndex;
if (!FindCursorArrayItem(iTextCursorArray, aIdentifier, arrayIndex))
{
return NULL;
}
return TextCursor(arrayIndex);
}
void CWsClient::CreateNewSpriteL(const TWsClCmdCreateSprite &aCmd)
{
CWsSprite *sprite=new(ELeave) CWsSprite(this);
CleanupStack::PushL(sprite);
sprite->ConstructL(aCmd);
CleanupStack::Pop();
}
void CWsClient::CreateNewBitmapL(const TWsClCmdCreateBitmap &aCmd)
{
DWsBitmap *bitmap=new(ELeave) DWsBitmap(this);
CleanupStack::PushL(bitmap);
bitmap->ConstructL(aCmd);
CleanupStack::Pop();
}
/** Creates a new window.
@param aCmd The command received from the client
@internalComponent
@released
*/
void CWsClient::CreateNewWindowL(const TWsClCmdCreateWindow &aCmd)
{
CWsWindowBase *parent;
HandleToWindow(aCmd.parent,&parent);
CWsClientWindow *win=NULL;
TBool deviceIsInvalid=EFalse;
CScreen* screen = parent->Screen();
if (parent->WinType()==EWinTypeGroup)
{
__ASSERT_DEBUG(!((CWsWindowGroup*)parent)->ScreenDeviceDeleted(),PPanic(EWservPanicGroupWinScreenDeviceDeleted));
win=new(ELeave) CWsClientWindow(this, screen);
deviceIsInvalid=!((CWsWindowGroup *)parent)->ScreenDeviceValid();
}
else
{
win=new(ELeave) CWsClientWindow(this, screen);
}
CleanupStack::PushL(win);
win->ConstructL(aCmd,parent,deviceIsInvalid);
CleanupStack::Pop(win);
}
void CWsClient::CreateNewWindowGroupL(const TWsClCmdCreateWindowGroup &aCmd)
{
CWsWindowGroup::NewL(this, NULL, aCmd); //Screen is set inside the ConstructL since support for multiple screens was introduced
}
void CWsClient::CreateNewAnimDllL(const TWsClCmdUnion &aParams)
{
CWsAnimDll *animDll=new(ELeave) CWsAnimDll(this);
CleanupStack::PushL(animDll);
animDll->LoadL(BufferTPtr((TText *)(aParams.LoadAnimDll+1),aParams.LoadAnimDll->length));
CleanupStack::Pop();
}
void CWsClient::CreateNewScreenDeviceL( TInt aDefaultScreenNumber, TUint aClientScreenDevicePointer)
{
DWsScreenDevice *screenDevice=new(ELeave) DWsScreenDevice( this, aDefaultScreenNumber,aClientScreenDevicePointer);
CleanupStack::PushL(screenDevice);
screenDevice->ConstructL();
CleanupStack::Pop(screenDevice);
if (iPrimaryScreenDevice==NULL)
{
iPrimaryScreenDevice=screenDevice;
// When client create screen device, change default screen to the one specified.
// Client should do this immediately after establishing session
iScreen = iPrimaryScreenDevice->Screen();
InitialiseScreenDevices();
}
}
void CWsClient::InitialiseScreenDevices()
{
const TWsObject* ptr=iObjectIndex->FirstObject();
const TWsObject* end=ptr+iObjectIndex->Length();
WS_ASSERT_DEBUG(ptr->iObject==NULL, EWsPanicObjectIndexError);
while(++ptr<end)
{
if (ptr->iObject && ptr->iObject->Type()==WS_HANDLE_GROUP_WINDOW)
{
CWsWindowGroup *gw =STATIC_CAST(CWsWindowGroup*,ptr->iObject);
if(gw->Device()==NULL)
{
gw->SetScreenDevice(iPrimaryScreenDevice);
}
}
}
}
void CWsClient::CreateNewClickL(const TUid& aUid)
{
CClick *click=new(ELeave) CClick(this);
CleanupStack::PushL(click);
click->ConstructL(aUid);
CleanupStack::Pop(click);
}
void CWsClient::RequestComplete(TRequestStatus * &aStatus, TInt aErr)
{
Client().RequestComplete(aStatus,aErr);
}
void CWsClient::PanicCurrentClient(TClientPanic aPanic)
{
iCurrentClient->PPanic(aPanic);
}
void CWsClient::PPanic(TClientPanic aPanic) const
//This function is allowed to leave with out the 'L' convention for special reasons
{
SessionPanic(aPanic);
User::Leave(EPanicLeave);
}
void CWsClient::SessionPanic(TClientPanic aReason) const
{
if (wsDebugLog)
wsDebugLog->Panic(iConnectionHandle, aReason);
if (!iInternalFlags&EPanicClientAsSoonAsPossible) // keep the first error code
{
iInternalFlags|=EPanicClientAsSoonAsPossible;
iPanicReason=aReason;
}
}
void CWsClient::SessionTerminate()
{
if (wsDebugLog)
wsDebugLog->Panic(iConnectionHandle, 0);
const RThread thread=Client();
RProcess process;
if (thread.Process(process)==KErrNone)
{
process.Terminate(0);
process.Close();
}
}
void CWsClient::ReplyBuf(const TDesC16 &aDes)
{
WS_ASSERT_DEBUG(!iCurrentClient->ClientMessage().IsNull(), EWsPanicInvalidMessageHandle);
if(iCurrentClient->ClientMessage().Write(KReplyBufferMessageSlot,aDes,iReplyOffset) != KErrNone)
PanicCurrentClient(EWservPanicDescriptor);
iReplyOffset+=aDes.Length();
if (wsDebugLog)
wsDebugLog->ReplyBuf(aDes);
}
void CWsClient::ReplyBuf(const TDesC8 &aDes)
{
WS_ASSERT_DEBUG(!iCurrentClient->ClientMessage().IsNull(), EWsPanicInvalidMessageHandle);
if(iCurrentClient->ClientMessage().Write(KReplyBufferMessageSlot,aDes,iReplyOffset) != KErrNone)
PanicCurrentClient(EWservPanicDescriptor);
iReplyOffset+=aDes.Length();
if (wsDebugLog)
wsDebugLog->ReplyBuf(aDes);
}
void CWsClient::ReplyBuf(const TAny *aSource, TInt aLength)
//
// Send a buffer to the client process.
//
{
TPtrC8 src(reinterpret_cast<const TUint8*>(aSource),aLength);
ReplyBuf(src);
}
void CWsClient::ReplySize(const TSize &aSize)
{
ReplyBuf(&aSize,sizeof(aSize));
}
void CWsClient::ReplyPoint(const TPoint &aPoint)
{
ReplyBuf(&aPoint,sizeof(aPoint));
}
void CWsClient::ReplyRect(const TRect &aRect)
{
ReplyBuf(&aRect,sizeof(aRect));
}
void CWsClient::SetReply(TInt reply)
{
iReply=reply;
if (wsDebugLog)
wsDebugLog->Reply(reply);
}
const TUint8 *CWsClient::EndOfCommandBuffer()
{
return(iCmdBuf.Ptr()+iCmdBuf.Size());
}
const TPtrC CWsClient::BufferTPtr(TText *aStart,TInt aLen)
{
TPtrC ptr;
if (!BufferTPtrGc(aStart,aLen,ptr))
PanicCurrentClient(EWservPanicBufferPtr);
return(ptr);
}
TBool CWsClient::BufferTPtrGc(TText* aStart,TInt aLen, TPtrC& aPtr)
{
if (iCurrentCommand.iOpcode>0)
{
if ((REINTERPRET_CAST(TUint8*,aStart)<iCmdBuf.Ptr()
|| REINTERPRET_CAST(TUint8*,aStart+aLen)>(iCmdBuf.Ptr()+iCmdBuf.Size())))
return(EFalse);
}
else
{
if (aLen>=iCurrentCommand.iCmdLength)
return(EFalse);
}
aPtr.Set(aStart,aLen);
return(ETrue);
}
const TPtrC8 CWsClient::BufferTPtr8(TUint8* aStart,TInt aLen)
{
if (iCurrentCommand.iOpcode>0 && (REINTERPRET_CAST(TUint8*,aStart)<iCmdBuf.Ptr()
|| REINTERPRET_CAST(TUint8*,aStart+aLen)>(iCmdBuf.Ptr()+iCmdBuf.Size())))
PanicCurrentClient(EWservPanicBufferPtr);
return(TPtrC8(aStart,aLen));
}
/**
Process a command buffer
@internalComponent
@released
*/
void CWsClient::CommandBufL()
{
if (wsDebugLog)
{
wsDebugLog->CommandBuf(iConnectionHandle);
RThread client = Client();
wsDebugLog->MiscMessage(CDebugLogBase::ELogEverything, client.FullName());
}
iReplyOffset=0;
iCurrentClient=this;
CWsObject *destObj=NULL;
const TUint8 *nextCmd=iCmdBuf.Ptr();
const TUint8 *endCmd=nextCmd+iCmdBuf.Length();
do
{
const TWsCmdHeader *pCmd=(TWsCmdHeader *)nextCmd;
TUint opcode=pCmd->iBase.iOpcode;
TInt headerLen=sizeof(pCmd->iBase);
iCurrentCommand=pCmd->iBase;
// For performance reasons the handle is only included
// if it is different from the previous command. The EWsOpcodeHandle
// flag indicates whether a new handle has been included in the
// current command. If not we use the same handle as the previous
// command.
if (opcode&EWsOpcodeHandle)
{
opcode&=~EWsOpcodeHandle;
iCurrentCommand.iOpcode=reinterpret_cast<TUint16&>(opcode);
destObj=HandleToObjUntyped(pCmd->iDestHandle);
headerLen=sizeof(*pCmd);
}
nextCmd+=headerLen;
const TAny *cmdParams=nextCmd;
nextCmd+=pCmd->iBase.iCmdLength;
if (destObj==NULL || nextCmd>endCmd) // Invalid handle or Corrupt buffer
{
SessionPanic(destObj==NULL ? EWservPanicHandle : EWservPanicBuffer);
break;
}
#if defined(_DEBUG)
iLastCommand=(nextCmd==endCmd);
#endif
// Storing destObj->Type() to a temporary variable objType allows the value of destObj->Type()
// to be used if destObj is deleted during destObj->CommandL().
WH_HANDLES objType=destObj->Type();
if (wsDebugLog)
wsDebugLog->Command(objType, opcode, cmdParams, destObj->LogHandle());
destObj->CommandL(opcode, cmdParams);
} while(nextCmd<endCmd);
#if defined(_DEBUG)
User::Heap().Check();
#endif
}
void CWsClient::CommandL(TInt aOpcode, const RMessage2& aMessage)
{
switch(aOpcode)
{
case EWsClOpEventReady:
EventReady(aMessage);
break;
case EWsClOpPriorityKeyReady:
PriorityKeyEventReady(aMessage);
break;
case EWsClOpRedrawReady:
RedrawEventReady(aMessage);
break;
case EWsClOpGraphicMessageReady:
iGraphicMessageQueue.EventReady(aMessage);
break;
default:
{
PPanic(EWservPanicOpcode);
break;
}
}
}
void CWsClient::CommandL(TInt aOpcode, const TAny *aCmdData)
{
TWsClCmdUnion pData;
pData.any=aCmdData;
switch(aOpcode)
{
case EWsClOpCreateWindowGroup:
CreateNewWindowGroupL(*pData.CreateWindowGroup);
break;
case EWsClOpCreateWindow:
CreateNewWindowL(*pData.CreateWindow);
break;
case EWsClOpCreateGc:
CWsGc::NewL(this);
break;
case EWsClOpCreateAnimDll:
if (!CheckBuffer(pData.LoadAnimDll->length, KMaxFileName))
PanicCurrentClient(EWservPanicBufferPtr);
CreateNewAnimDllL(pData);
break;
case EWsClOpCreateGraphic:
CWsGraphicDrawerObject::NewL(this,pData);
break;
case EWsClOpCreateScreenDevice:
{
TInt screenNumber = pData.CreateScreenDevice->screenNumber;
TUint clientScreenDevicePointer = pData.CreateScreenDevice->clientScreenDevicePointer;
if (screenNumber<0 || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
CreateNewScreenDeviceL(screenNumber,clientScreenDevicePointer);
}
}
break;
case EWsClOpCreateSprite:
CreateNewSpriteL(*pData.CreateSprite);
break;
case EWsClOpCreatePointerCursor:
CreateNewPointerCursorL(*pData.CreatePointerCursor);
break;
case EWsClOpStartSetCustomTextCursor:
StartSetCustomTextCursorL(*pData.CustomTextCursorData);
break;
case EWsClOpCompleteSetCustomTextCursor:
CompleteSetCustomTextCursorL(*pData.Int);
break;
case EWsClOpCreateBitmap:
CreateNewBitmapL(*pData.CreateBitmap);
break;
case EWsClOpCreateDirectScreenAccess:
CWsDirectScreenAccess::NewL(this);
break;
case EWsClOpCreateClick:
CreateNewClickL(*pData.Uid);
break;
case EWsClOpSetHotKey:
{
if(!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetHotKey API")))
{
User::Leave(KErrPermissionDenied);
}
TWindowServerEvent::SetHotKeyL(*pData.SetHotKey);
}
break;
case EWsClOpClearHotKeys:
{
if(!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::ClearHotKeys API")))
{
User::Leave(KErrPermissionDenied);
}
TWindowServerEvent::ClearHotKeysL(*pData.UInt);
}
break;
case EWsClOpRestoreDefaultHotKey:
TWindowServerEvent::ResetDefaultHotKeyL(*pData.UInt);
break;
case EWsClOpSetShadowVector:
{
for(TInt i=0;i<CWsTop::NumberOfScreens();i++)
{
CScreen *screen = CWsTop::Screen(i);
screen->SetShadowVector(*pData.Point);
}
}
break;
case EWsClOpShadowVector:
{
TPoint vector(iScreen->ShadowVector());
ReplyBuf(&vector,sizeof(TPoint));
}
break;
case EWsClOpSetKeyboardRepeatRate:
{
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetKeyboardRepeatRate API")))
{
User::Leave(KErrPermissionDenied);
}
if ((pData.SetKeyboardRepeatRate->initial.Int()<0) || (pData.SetKeyboardRepeatRate->time.Int()<0))
{
User::Leave(KErrArgument);
}
CKeyboardRepeat::SetRepeatTime(pData.SetKeyboardRepeatRate->initial,pData.SetKeyboardRepeatRate->time);
}
break;
case EWsClOpGetKeyboardRepeatRate:
{
SKeyRepeatSettings settings;
CKeyboardRepeat::GetRepeatTime(settings.iInitialTime,settings.iTime);
ReplyBuf(&settings,sizeof(settings));
}
break;
case EWsClOpSetDoubleClick:
{
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetDoubleClick API")))
{
User::Leave(KErrPermissionDenied);
}
WsPointer::SetDoubleClick(pData.SetDoubleClick->interval,pData.SetDoubleClick->distance);
}
break;
case EWsClOpGetDoubleClickSettings:
{
SDoubleClickSettings settings;
WsPointer::GetDoubleClickSettings(settings.iInterval,settings.iDistance);
ReplyBuf(&settings,sizeof(settings));
}
break;
case EWsClOpEventReady:
break;
case EWsClOpGetEvent:
GetEventData();
break;
case EWsClOpPurgePointerEvents:
PurgePointerEvents();
break;
case EWsClOpEventReadyCancel:
CancelEvent();
break;
case EWsClOpRedrawReady:
break;
case EWsClOpRedrawReadyCancel:
CancelRedrawEvent();
break;
case EWsClOpGetRedraw:
GetRedrawData();
break;
case EWsClOpPriorityKeyReady:
break;
case EWsClOpPriorityKeyReadyCancel:
CancelPriorityKeyEvent();
break;
case EWsClOpGetPriorityKey:
GetPriorityKeyData();
break;
case EWsClOpNumWindowGroups:
SetReply(CWsWindowGroup::NumWindowGroups(EFalse, *pData.Int));
break;
case EWsClOpNumWindowGroupsAllPriorities:
SetReply(CWsWindowGroup::NumWindowGroups(ETrue, 0));
break;
case EWsClOpNumWindowGroupsOnScreen:
{
TInt screenNumber=pData.NumWinGroups->screenNumber;
if (screenNumber<0 || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
SetReply(CWsWindowGroup::NumWindowGroupsOnScreen(CWsTop::Screen(screenNumber)->RootWindow()->Child(),(pData.NumWinGroups->priority==EAllPriorities),pData.NumWinGroups->priority));
}
}
break;
case EWsClOpWindowGroupList:
{
TInt screenNumber=pData.WindowGroupList->screenNumber;
if (screenNumber<KDummyScreenNumber || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
SetReply(CWsWindowGroup::SendWindowGroupListL(screenNumber,(pData.WindowGroupList->priority==EAllPriorities), pData.WindowGroupList->priority, pData.WindowGroupList->count));
}
}
break;
case EWsClOpWindowGroupListAllPriorities:
{
TInt screenNumber=pData.WindowGroupList->screenNumber;
if (screenNumber<KDummyScreenNumber || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
SetReply(CWsWindowGroup::SendWindowGroupListL(screenNumber,ETrue, 0, pData.WindowGroupList->count));
}
}
break;
case EWsClOpWindowGroupListAndChain:
SetReply(CWsWindowGroup::SendWindowGroupListAndChainL(EFalse, pData.WindowGroupList->priority, pData.WindowGroupList->count));
break;
case EWsClOpWindowGroupListAndChainAllPriorities:
SetReply(CWsWindowGroup::SendWindowGroupListAndChainL(ETrue, 0, pData.WindowGroupList->count));
break;
case EWsClOpGetDefaultOwningWindow:
{
TInt screenNumber = *pData.Int;
if (screenNumber<KDummyScreenNumber || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
CScreen* screen = (screenNumber ==KDummyScreenNumber) ? iScreen : CWsTop::Screen(screenNumber);
SetReply(screen->DefaultOwningWindowGroup() ? screen->DefaultOwningWindowGroup()->Identifier():0);
}
}
break;
case EWsClOpGetFocusWindowGroup:
{
TInt screenNumber = *pData.Int;
if (screenNumber<KDummyScreenNumber || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
CWsWindowGroup::GetFocusWindowGroupL(screenNumber);
}
}
break;
case EWsClOpSetWindowGroupOrdinalPosition:
CWsWindowGroup::WindowGroupFromIdentifierL(pData.SetWindowGroupOrdinalPosition->identifier)->SetOrdinalPosition(pData.SetWindowGroupOrdinalPosition->position);
break;
case EWsClOpGetWindowGroupHandle:
SetReply(CWsWindowGroup::WindowGroupFromIdentifierL(*pData.Int)->ClientHandle());
break;
case EWsClOpGetWindowGroupOrdinalPriority:
SetReply(CWsWindowGroup::WindowGroupFromIdentifierL(*pData.Int)->OrdinalPriority());
break;
case EWsClOpGetWindowGroupClientThreadId:
{
TThreadId id=CWsWindowGroup::WindowGroupFromIdentifierL(*pData.Int)->WsOwner()->Client().Id();
ReplyBuf(&id,sizeof(id));
}
break;
case EWsClOpSendEventToWindowGroup:
{
CWsWindowGroup *group=CWsWindowGroup::WindowGroupFromIdentifierL(pData.SendEventToWindowGroup->parameter);
TWsEvent event=pData.SendEventToWindowGroup->event;
event.SetHandle(group->ClientHandle());
// Events in enum TEventCode is protected by capabilities
if (group->WsOwner()!=this && event.Type()>=EEventNull && event.Type()<EEventUser)
{
if (event.Type()<EEventPowerMgmt || event.Type()>=EEventReserved)
{
if(!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SendEventToWindowGroup API")))
User::Leave(KErrPermissionDenied);
}
else
{
if (!KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SendEventToWindowGroup API")))
User::Leave(KErrPermissionDenied);
}
}
if (event.Type()==EEventKey && event.Key()->iRepeats!=0)
CKeyboardRepeat::CancelRepeat(NULL); //Otherwise we will trip an invarient
if (!group->EventQueue()->QueueEvent(event))
User::Leave(KErrNoMemory);
}
break;
case EWsClOpSendEventToAllWindowGroup:
case EWsClOpSendEventToAllWindowGroupPriority:
case EWsClOpSendEventToOneWindowGroupPerClient:
{
TWsEvent event=pData.SendEventToWindowGroup->event;
if (event.Type()<0)
{
User::Leave(KErrArgument);
}
if(event.Type()<EEventUser)
{
if (event.Type()<EEventPowerMgmt || event.Type()>=EEventReserved)
{
if(!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SendEventToAllWindowGroup API")))
User::Leave(KErrPermissionDenied);
}
else
{
if (!KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SendEventToAllWindowGroup API")))
User::Leave(KErrPermissionDenied);
}
}
if (!CWsWindowGroup::SendEventToAllGroups(aOpcode!=EWsClOpSendEventToAllWindowGroupPriority
,aOpcode==EWsClOpSendEventToOneWindowGroupPerClient,*pData.SendEventToWindowGroup))
User::Leave(KErrNoMemory);
}
break;
case EWsClOpSendMessageToWindowGroup:
{
CWsWindowGroup *group=CWsWindowGroup::WindowGroupFromIdentifierL(pData.SendMessageToWindowGroup->identifierOrPriority);
if (group->WsOwner()!=this)
{
if (!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SendMessageToWindowGroup API")))
{
User::Leave(KErrPermissionDenied);
}
}
group->QueueMessageL(pData.SendMessageToWindowGroup->uid, pData.SendMessageToWindowGroup->dataLength, *this);
}
break;
case EWsClOpSendMessageToAllWindowGroups:
case EWsClOpSendMessageToAllWindowGroupsPriority:
{
if ((pData.SendMessageToWindowGroup->dataLength<0) || (pData.SendMessageToWindowGroup->dataLength>=(KMaxTInt/2)))
{
User::Leave(KErrArgument);
}
CWsWindowGroup::SendMessageToAllGroupsL(*this,aOpcode==EWsClOpSendMessageToAllWindowGroups,*pData.SendMessageToWindowGroup);
}
break;
case EWsClOpFetchMessage:
CWsWindowGroup::WindowGroupFromIdentifierL(pData.FetchMessage->windowGroupIdentifier)->FetchMessageL();
break;
case EWsClOpGetWindowGroupNameFromIdentifier:
ReplyGroupName(CWsWindowGroup::WindowGroupFromIdentifierL(pData.GetWindowGroupNameFromIdentifier->identifier)->GroupName(),pData.GetWindowGroupNameFromIdentifier->maxLength);
break;
case EWsClOpFindWindowGroupIdentifier:
{
if (pData.FindWindowGroupIdentifier->length<0)
User::Leave(KErrArgument);
TPtrC ptr(BufferTPtr((TText *)(pData.FindWindowGroupIdentifier+1),pData.FindWindowGroupIdentifier->length));
SetReply(CWsWindowGroup::FindWindowGroupL(this, pData.FindWindowGroupIdentifier->identifier,
pData.FindWindowGroupIdentifier->offset,&ptr,NULL)->Identifier());
}
break;
case EWsClOpFindWindowGroupIdentifierThread:
SetReply(CWsWindowGroup::FindWindowGroupL(this, pData.FindWindowGroupIdentifierThread->identifier,0,NULL,
&pData.FindWindowGroupIdentifierThread->threadId)->Identifier());
break;
case EWsClOpSetBackgroundColor:
for(TInt i=0;i<CWsTop::NumberOfScreens();i++)
{
CWsTop::Screen(i)->RootWindow()->SetColor(*pData.rgb);
}
break;
case EWsClOpGetBackgroundColor:
SetReply(iScreen->RootWindow()->BackColor().Internal());
break;
case EWsClOpClaimSystemPointerCursorList:
{
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::ClaimSystemPointerCursorList API")))
{
User::Leave(KErrPermissionDenied);
}
ClaimSystemPointerCursorListL();
}
break;
case EWsClOpFreeSystemPointerCursorList:
FreeSystemPointerCursorList();
break;
case EWsClOpSetSystemPointerCursor:
CWsObject *pointercursor;
if ((pointercursor=HandleToObj(pData.SetSystemPointerCursor->handle, WS_HANDLE_POINTER_CURSOR))==NULL)
PPanic(EWservPanicSprite);
SetSystemPointerCursorL(pData.SetSystemPointerCursor->number, (CWsPointerCursor *)pointercursor);
break;
case EWsClOpClearSystemPointerCursor:
ClearSystemPointerCursor(*pData.Int);
break;
case EWsClOpSetPointerCursorArea:
{
if(KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetPointerCursorArea API")))
{
if (!iScreen->IsValidScreenSizeMode(*pData.Int))
PPanic(EWservPanicScreenModeNumber);
iScreen->SetPointerCursorArea(pData.SetPointerCursorArea->mode,pData.SetPointerCursorArea->area);
}
}
break;
case EWsClOpPointerCursorArea:
if (!iScreen->IsValidScreenSizeMode(*pData.Int))
PPanic(EWservPanicScreenModeNumber);
ReplyRect(iScreen->GetPointerCursorArea(*pData.Int));
break;
case EWsClOpSetPointerCursorMode:
{
CWsWindowGroup* focusWinGp=CWsTop::FocusWindowGroup();
if (focusWinGp && focusWinGp->WsOwner()==this)
{
WsPointer::SetPointerCursorMode(*pData.Mode);
WsPointer::UpdatePointerCursor();
}
}
break;
case EWsClOpSetClientCursorMode :
{
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetPointerCursorModeIfFocused API")))
{
User::Leave(KErrPermissionDenied);
}
WsPointer::SetPointerCursorMode(*pData.Mode);
WsPointer::UpdatePointerCursor();
}
break;
case EWsClOpPointerCursorMode:
SetReply(WsPointer::PointerCursorMode());
break;
case EWsClOpSetDefaultSystemPointerCursor:
SetDefaultSystemPointerCursor(*pData.Int);
break;
case EWsClOpClearDefaultSystemPointerCursor:
SetDefaultSystemPointerCursor(ENoDefaultSystemPointerCursor);
break;
case EWsClOpSetPointerCursorPosition:
{
CWsWindowGroup* focusWinGp=CWsTop::FocusWindowGroup();
if ((!focusWinGp || focusWinGp->WsOwner()!=this)&&
(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetPointerCursorPosition API"))))
{
User::Leave(KErrPermissionDenied);
}
WsPointer::SetPointerCursorPos(*pData.Point);
}
break;
case EWsClOpPointerCursorPosition:
ReplyPoint(WsPointer::PointerCursorPos());
break;
case EWsClOpSetModifierState:
{
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetModifierState API")))
{
User::Leave(KErrPermissionDenied);
}
TWindowServerEvent::SetModifierState(pData.SetModifierState->modifier,pData.SetModifierState->state);
}
break;
case EWsClOpGetModifierState:
SetReply(TWindowServerEvent::GetModifierState());
break;
case EWsClOpHeapCount:
SetReply(CWsMemoryManager::Static()->Count());
break;
case EWsClOpDebugInfo:
DebugInfoL(pData.DebugInfo->iFunction,pData.DebugInfo->iParam,EFalse);
break;
case EWsClOpDebugInfoReplyBuf:
DebugInfoL(pData.DebugInfo->iFunction,pData.DebugInfo->iParam,ETrue);
break;
case EWsClOpResourceCount:
SetReply(iObjectIndex->Count());
break;
case EWsClOpHeapSetFail:
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::HeapSetFail API")))
{
PPanic(EWservPanicPermissionDenied);
}
#if !defined(_DEBUG)
if (pData.HeapSetFail->type!=RHeap::ENone)
TWindowServerEvent::NotifyOom();
#endif
User::__DbgSetAllocFail(RHeap::EUser,pData.HeapSetFail->type,pData.HeapSetFail->value);
//__UHEAP_SETFAIL(pData.HeapSetFail->type,pData.HeapSetFail->value);
break;
case EWsClOpRawEvent:
{
if(!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SimulateRawEvent API")))
{
PPanic(EWservPanicPermissionDenied);
}
TRawEvent event(*pData.RawEvent);
if (WsPointer::PreProcessEvent(event))
TWindowServerEvent::ProcessRawEvent(event);
}
break;
case EWsClOpKeyEvent:
{
if(!KSecurityPolicy_SwEvent().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SimulateKeyEvent API")))
{
PPanic(EWservPanicPermissionDenied);
}
TWindowServerEvent::ProcessKeyEvent(*pData.KeyEvent,0);
}
break;
case EWsClOpLogMessage:
if (wsDebugLog)
{
if (CheckBuffer(*pData.Int, KLogMessageLength))
wsDebugLog->MiscMessage(CDebugLogBase::ELogImportant,BufferTPtr((TText *)(pData.Int+1),*pData.Int),0);
}
break;
case EWsClOpPasswordEntered:
CWsPassword::PasswordEntered(this);
break;
case EWsClOpComputeMode:
SetComputeMode(*pData.ComputeMode);
break;
case EWsClOpSendOffEventsToShell:
{
if(!KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::RequestOffEvents API")))
{
User::Leave(KErrPermissionDenied);
}
SetReply(CWsTop::SetSendOffEventsToShell(this,*pData.OffEventsToShell));
}
break;
case EWsClOpGetDefModeMaxNumColors:
{
SDefModeMaxNumColors colors;
TInt screenNumber = *pData.Int;
if (screenNumber<KDummyScreenNumber || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
CScreen* screen = (screenNumber==KDummyScreenNumber)?iScreen:CWsTop::Screen(screenNumber);
screen->MaxNumColors(colors.iColors,colors.iGrays);
colors.iDisplayMode=screen->FirstDefaultDisplayMode();
}
ReplyBuf(&colors,sizeof(colors));
}
break;
case EWsClOpGetColorModeList:
{
TInt screenNumber = *pData.Int;
if (screenNumber<KDummyScreenNumber || screenNumber>=CWsTop::NumberOfScreens())
{
PPanic(EWservPanicScreenNumber);
}
else
{
SetReply((screenNumber==KDummyScreenNumber) ? iScreen->ColorModesFlag() : CWsTop::Screen(screenNumber)->ColorModesFlag());
}
}
break;
case EWsClOpSetDefaultFadingParams:
{
if(KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetDefaultFadingParameters API")))
{
iScreen->SetFadingParams(WservEncoding::ExtractFirst8BitValue(*pData.UInt),WservEncoding::ExtractSecond8BitValue(*pData.UInt));
}
}
break;
case EWsClOpPrepareForSwitchOff:
{
if(KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::PrepareForSwitchOff API")))
{
// Andy - this used to stop the heartbeat - should it now stop animations?
}
}
break;
case EWsClOpSetFaded:
{
// Deprecated - retained for BC with applications that retrieve the fade count
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetSystemFaded API")))
{
User::Leave(KErrPermissionDenied);
}
TUint8 blackMap;
TUint8 whiteMap;
if (pData.SetSystemFaded->UseDefaultMap())
{
iScreen->GetFadingParams(blackMap,whiteMap);
}
else
{
pData.SetSystemFaded->GetFadingParams(blackMap,whiteMap);
}
iScreen->RootWindow()->SetSystemFaded(pData.SetSystemFaded->Faded(),blackMap,whiteMap);
if (CWsTop::IsFadeEnabled())
{
Screen()->AcceptFadeRequest( iScreen->RootWindow(),
pData.SetSystemFaded->Faded(),
EFalse,
ETrue );
}
}
break;
case EWsClOpLogCommand:
CWsTop::LogCommand(*pData.LogCommand);
break;
#if defined(__WINS__)
case EWsClOpRemoveKeyCode:
iRemoveKeyCode=*pData.Bool;
break;
case EWsClOpSimulateXyInput:
WsPointer::SetXyInputType(static_cast<TXYInputType>(*pData.XyInput));
break;
#endif
case EWsClOpNoFlickerFree:
{
// should only be used by WServ test code
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for EWsClOpNoFlickerFree message")))
{
PPanic(EWservPanicPermissionDenied);
}
iScreen->FreeOffScreenBitmap();
break;
}
case EWsClOpSetFocusScreen:
{
if(!KSecurityPolicy_WriteDeviceData().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::SetFocusScreen API")))
{
User::Leave(KErrPermissionDenied);
}
TInt focusScreen=*pData.Int;
if (focusScreen>=0 && focusScreen<CWsTop::NumberOfScreens())
SetReply(CWsTop::SetCurrentFocusScreen(focusScreen));
else
SessionPanic(EWservPanicScreenNumber);
break;
}
case EWsClOpGetFocusScreen:
SetReply(CWsTop::CurrentFocusScreen()->ScreenNumber());
break;
case EWsClOpGetNumberOfScreens:
SetReply(CWsTop::NumberOfScreens());
break;
case EWsClOpClearAllRedrawStores:
CWsTop::ClearAllRedrawStores();
break;
case EWsClOpGetGraphicMessage:
iGraphicMessageQueue.GetGraphicMessage();
break;
case EWsClOpGraphicMessageCancel:
iGraphicMessageQueue.CancelRead();
break;
case EWsClOpGraphicAbortMessage:
iGraphicMessageQueue.AbortMessage(*pData.Int);
break;
case EWsClOpGraphicFetchHeaderMessage:
SetReply(iGraphicMessageQueue.TopClientHandle());
break;
default:
PPanic(EWservPanicOpcode);
break;
}
}
void CWsClient::DebugInfoL(TInt aFunction, TInt aParam, TBool aHasReplyBuf) const
{
switch(aFunction)
{
case EWsDebugInfoHeap:
if (aHasReplyBuf)
{
TWsDebugHeapInfo heapInfo;
RHeap& heap=User::Heap();
heapInfo.iCount=heap.AllocSize(heapInfo.iTotal);
heapInfo.iAvailable=heap.Available(heapInfo.iLargestAvailable);
ReplyBuf(&heapInfo,sizeof(heapInfo));
}
SetReply(KErrArgument);
break;
case EWsDebugSetCheckHeapOnDisconnectClient:
if (!KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::DebugInfoL API")))
{
User::Leave(KErrPermissionDenied);
}
CWsTop::SetCheckHeapOnDisconnectClient(this);
break;
case EWsDebugSetCheckHeapOnDisconnectMode:
if (!KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for RWsSession::DebugInfoL API")))
{
User::Leave(KErrPermissionDenied);
}
CWsTop::SetCheckHeapOnDisconnectMode(STATIC_CAST(TWsCheckHeapOnDisconnectMode,aParam));
break;
case EWsDebugFetchCheckHeapResult:
SetReply(CWsTop::FetchCheckHeapResult());
break;
default:
SetReply(KErrNotSupported);
break;
}
}
void CWsClient::ReplyGroupName(HBufC *aName, TInt aMaxLength) const
{
if (aName)
{
if (aName->Length()>aMaxLength)
{
ReplyBuf(aName->Left(aMaxLength));
SetReply(KErrOverflow);
}
else
ReplyBuf(*aName);
}
else
ReplyBuf(nullDescriptor);
}
void CWsClient::TriggerRedraw()
{
RedrawQueue()->TriggerRedraw();
}
void CWsClient::UpdateWindowOrdinalPrioritys()
{
for(CWsWindowGroup *win=iScreen->RootWindow()->Child();win;win=win->NextSibling())
if (win->WsOwner()==this)
win->UpdateOrdinalPriority(ETrue);
}
void CWsClient::DeleteSystemPointerListEntry(TInt aIndex)
{
PointerCursor (aIndex)->Close();
iSystemPointerCursors->Delete(aIndex);
}
CWsPointerCursor *CWsClient::SystemPointerCursor(TInt aIndex)
{
TInt arrayIndex;
if (iSystemPointerCursors)
{
if (FindCursorArrayItem(iSystemPointerCursors, aIndex, arrayIndex))
{
return PointerCursor (arrayIndex);
}
// Cursor not defined so try for default cursor
if (FindCursorArrayItem(iSystemPointerCursors, 0, arrayIndex))
{
return PointerCursor (arrayIndex);
}
}
// If that fails simply return NULL for no cursor
return(NULL);
}
void CWsClient::SetSystemPointerCursorL(TInt aIndex, CWsPointerCursor *aCursor)
{
if (iSystemPointerCursorListOwner!=this)
PPanic(EWservPanicNotSystemPointerCursorListOwner);
TInt arrayIndex;
if (FindCursorArrayItem(iSystemPointerCursors, aIndex, arrayIndex))
{
PointerCursor (arrayIndex)->Close();
PointerCursor (arrayIndex) = aCursor;
}
else
{
TWsCursorArrayItem entry;
entry.iIndex=aIndex;
entry.iCursor=aCursor;
iSystemPointerCursors->InsertIsqL(entry, CursorKey);
}
aCursor->Open();
if (aIndex==iDefaultSystemPointerCursorIndex)
iDefaultSystemPointerCursor=aCursor;
WsPointer::UpdatePointerCursor();
}
void CWsClient::ClearSystemPointerCursor(TInt aIndex)
{
if (iSystemPointerCursorListOwner!=this)
PPanic(EWservPanicNotSystemPointerCursorListOwner);
TInt arrayIndex;
if (FindCursorArrayItem(iSystemPointerCursors, aIndex, arrayIndex))
{
DeleteSystemPointerListEntry(arrayIndex);
if (aIndex==iDefaultSystemPointerCursorIndex)
iDefaultSystemPointerCursor=NULL;
}
}
void CWsClient::ClaimSystemPointerCursorListL()
{
if (iSystemPointerCursorListOwner)
User::Leave(KErrInUse);
const TInt systemPointerCursorGranularity = 4;
iSystemPointerCursors = new(ELeave) CArrayFixFlat<TWsCursorArrayItem> (systemPointerCursorGranularity);
iSystemPointerCursorListOwner=this;
}
void CWsClient::FreeSystemPointerCursorList()
{
if (iSystemPointerCursorListOwner==this)
{
iSystemPointerCursorListOwner=NULL;
while(iSystemPointerCursors->Count()>0)
DeleteSystemPointerListEntry(0);
iDefaultSystemPointerCursor=NULL;
iDefaultSystemPointerCursorIndex=0;
delete iSystemPointerCursors;
iSystemPointerCursors=NULL;
}
}
void CWsClient::SetDefaultSystemPointerCursor(TInt aIndex)
{
TInt arrayIndex;
if (iSystemPointerCursorListOwner!=this)
PPanic(EWservPanicNotSystemPointerCursorListOwner);
iDefaultSystemPointerCursorIndex=aIndex;
iDefaultSystemPointerCursor=NULL;
if (aIndex != ENoDefaultSystemPointerCursor &&
FindCursorArrayItem(iSystemPointerCursors, aIndex, arrayIndex))
iDefaultSystemPointerCursor = PointerCursor (arrayIndex);
else
iDefaultSystemPointerCursor=NULL;
WsPointer::UpdatePointerCursor();
}
TBool CWsClient::FindCursorArrayItem(CArrayFixFlat<TWsCursorArrayItem>* aCursorArray,
TInt aIndex,TInt& aPosition)
{
if (!aCursorArray)
{
return EFalse; // No hit if the array isn't even allocated
}
TWsCursorArrayItem entry;
entry.iIndex=aIndex;
return aCursorArray->FindIsq(entry, CursorKey, aPosition)==KErrNone;
}
void CWsClient::SetClientPriority()
{
if (iComputeMode!=RWsSession::EPriorityControlDisabled)
{
Client().SetProcessPriority(
iComputeMode==RWsSession::EPriorityControlComputeOn || CWsTop::FocusWindowGroupOwner()!=this ?
EPriorityBackground :
EPriorityForeground);
}
}
void CWsClient::SetComputeMode(RWsSession::TComputeMode aComputeMode)
{
if (aComputeMode!=RWsSession::EPriorityControlDisabled &&
aComputeMode!=RWsSession::EPriorityControlComputeOn &&
aComputeMode!=RWsSession::EPriorityControlComputeOff)
PPanic(EWservPanicSetComputeMode);
iComputeMode=aComputeMode;
SetClientPriority();
}
void CWsClient::CompleteMessage(const RMessage2& aMessage,TInt aReason)
{
if (!aMessage.IsNull())
{
if (iInternalFlags&EPanicClientAsSoonAsPossible)
{
aMessage.Panic(KWSERVSessionPanicCategory,iPanicReason);
iInternalFlags&=~EPanicClientAsSoonAsPossible;
}
else
{
aMessage.Complete(aReason);
}
}
}
void CWsClient::ServiceError(const RMessage2& /*aMessage*/,TInt aError)
{
CompleteMessage(iClientMessage,aError);
}
void CWsClient::ServiceL(const RMessage2 &aMessage)
//
// Handle messages for the window server server.
//
{
iClientMessage=aMessage; // from now on use always the message stored in the session
if (iInternalFlags&EPanicClientAsSoonAsPossible)
{
iClientMessage.Panic(KWSERVSessionPanicCategory,iPanicReason);
}
else
{
iPanicReason=KErrNone;
iReply=KErrNone;
TBool completeRequest=ETrue;
DoServiceL(iClientMessage, completeRequest);
if (completeRequest)
{
if(!iResponseHandle)
{
CompleteMessage(iClientMessage,iReply);
}
else
{
// Prior to 9.0 RMessagePtr2.Complete doesn't have the option of sending a handle back
// However, since the security is lower simply sending the handle id is ok
iClientMessage.Complete(*iResponseHandle);
iResponseHandle = NULL;
}
}
}
}
void CWsClient::SetResponseHandle(RHandleBase* aHandle)
{
iResponseHandle = aHandle;
}
void CWsClient::DoServiceL(const RMessage2& aMessage, TBool& aCompleteRequest)
{
const TInt function=aMessage.Function();
switch (function)
{
case EWservMessInit:
StartInitializationL(iConnectionId++);
break;
case EWservMessSyncMsgBuf:
case EWservMessCommandBuffer:
{
if (!IsInitialised())
{
PPanic(EWservPanicUninitialisedClient);
}
const TInt err=aMessage.Read(KBufferMessageSlot,iCmdBuf);
if (err==KErrNone)
{
TRAPD(error,CommandBufL());
iCurrentClient=NULL;
#if defined(_DEBUG)
if (!iLastCommand && err!=KErrNone)
{
SessionPanic(EWservPanicFunctionLeave);
}
#endif
if (error<KErrNone)
SetReply(error);
}
else if (err!=KErrDied)
{
PPanic(EWservPanicDescriptor);
}
if(function == EWservMessCommandBuffer && CWsTop::FinishEveryFlush())
{
if(Screen()->IsUpdatePending())
Screen()->DoRedrawNow();
}
else
aCompleteRequest=(function!=EWservMessAsynchronousService);
break;
}
case EWservMessShutdown:
{
if(!KSecurityPolicy_PowerMgmt().CheckPolicy(ClientMessage(),__PLATSEC_DIAGNOSTIC_STRING("Capability check failed for EWservMessShutdown message ")))
{
PPanic(EWservPanicPermissionDenied);
}
if (aMessage.Int0()==EWservShutdownCheck)
CWsTop::Exit();
else
{
PPanic(EWservPanicHandle);
}
}
break;
case EWservMessFinish:
{
if(Screen()->IsUpdatePending())
Screen()->DoRedrawNow();
break;
}
default:
if (function&EWservMessAsynchronousService)
{
TRAPD(err,CommandL((function&~EWservMessAsynchronousService), aMessage));
aCompleteRequest=(err!=KErrNone);
WS_ASSERT_DEBUG((!(iInternalFlags&EPanicClientAsSoonAsPossible))==(!aCompleteRequest), EWsPanicPanicFlagError);
}
else if (function&EWservMessAnimDllAsyncCommand)
{
CWsAnimDll* const animDll=STATIC_CAST(CWsAnimDll*,HandleToObj(aMessage.Int0(), WS_HANDLE_ANIM_DLL));
if (!animDll)
{
SessionPanic(EWservPanicHandle);
break;
}
// it looks wrong to call CommandReply here (not AsyncCommandReply, or something, which doesn't exist), but basically, we can't add a virtual AsyncCommandReplyL to CAnim to correspond to RAnim::AsyncCommandReply as that would break binary and source compatibility for Anim plug-ins; instead asynchronous commands are done by the plug-in having to complete the RMessagePtr2 returned by iFunctions->Message() (or a copy of of that object) for asynchronous commands only
TRAPD(err,animDll->AnimObjectL(aMessage.Int1())->CommandReply(function&~EWservMessAnimDllAsyncCommand,NULL));
aCompleteRequest=(err!=KErrNone);
WS_ASSERT_DEBUG((!(iInternalFlags&EPanicClientAsSoonAsPossible))==(!aCompleteRequest), EWsPanicPanicFlagError);
}
else
{
SetReply(KErrNotSupported);
}
break;
}
}
void CWsClient::RemoteRead(TDes16& aDes, TInt aOffset)
{
if (iClientMessage.Read(KRemoteBufferMessageSlot,aDes,aOffset)!=KErrNone)
{
SessionPanic(EWservPanicDescriptor);
}
}
void CWsClient::RemoteRead(TDes8& aDes, TInt aOffset)
{
if (iClientMessage.Read(KRemoteBufferMessageSlot,aDes,aOffset)!=KErrNone)
{
SessionPanic(EWservPanicDescriptor);
}
}
void CWsClient::RemoteReadL(TDes16& aDes, TInt aOffset)
{
iClientMessage.ReadL(KRemoteBufferMessageSlot,aDes,aOffset);
}
void CWsClient::RemoteReadL(TDes8& aDes, TInt aOffset)
{
iClientMessage.ReadL(KRemoteBufferMessageSlot,aDes,aOffset);
}
void CWsClient::DeleteStatics()
{
if (iTextCursorArray)
{
const TInt count = iTextCursorArray->Count();
for (TInt index=0;index<count;index++)
{
delete iTextCursorArray->At(index).iCursor;
}
delete iTextCursorArray;
iTextCursorArray = NULL;
}
}
// CWsClient implementing MWsClient \\\\\\\\\\\\\\\\\\\\\\\\
TBool CWsClient::HasCapability(TCapability aCapability) const
{
return iClient.HasCapability(aCapability);
}
TSecureId CWsClient::SecureId() const
{
return iClient.SecureId();
}
TVendorId CWsClient::VendorId() const
{
return iClient.VendorId();
}
/**
Makes a new copy of the aData. so it could be deleted after this call.
*/
TInt CWsClient::SendMessage(const CWsGraphicDrawer* aOnBehalfOf,const TDesC8& aData)
{
CWsGraphicMessageQueue::CMessage* msg = CWsGraphicMessageQueue::CMessage::New(aData);
if(msg)
{
return SendMessage(aOnBehalfOf,*msg);
}
return KErrGeneral;
}
TInt CWsClient::SendMessage(const CWsGraphicDrawer* aOnBehalfOf,CWsMessageData& aData)
{
WS_ASSERT_DEBUG(aData.Data().Size(), EWsPanicWsGraphic);
const CWsGraphicDrawerObject* obj = DrawerObject(aOnBehalfOf);
WS_ASSERT_DEBUG(obj, EWsPanicWsGraphic);
if(obj)
{
// assign message id
if(iMessageIdSeq == KMaxTInt) // Wrap if iMessageIdSeq has reached KMaxTInt
iMessageIdSeq = 0;
iMessageIdSeq++;
// correct other handles
aData.iClientHandle = (obj->ClientHandle() | (EWsGraphMessageTypeUser & 0x03));
aData.iDrawer = obj->Drawer();
aData.iId = iMessageIdSeq;
iGraphicMessageQueue.Queue(&aData);
return iMessageIdSeq;
}
return KErrGeneral;
}
/** adds a message to the message queue
@return a postive number to uniquely identify the message
*/
CWsGraphicDrawerObject* CWsClient::DrawerObject(const CWsGraphicDrawer* aDrawer)
{
const TInt count = ObjectIndex()->Length();
for(TInt i=0; i<count; i++)
{
CWsObject* obj = const_cast<CWsObject*>(ObjectIndex()->At(i));
if(obj && (WS_HANDLE_GRAPHIC_DRAWER == obj->Type()))
{
CWsGraphicDrawerObject* candidate = static_cast<CWsGraphicDrawerObject*>(obj);
if(candidate->Drawer() == aDrawer)
{
return candidate;
}
}
}
return NULL;
}
const CWsGraphicDrawerObject* CWsClient::DrawerObject(const CWsGraphicDrawer* aDrawer) const
{
CWsObjectIx* objectIndex = const_cast<CWsClient*>(this)->ObjectIndex();
const TInt count = objectIndex->Length();
for(TInt i=0; i<count; i++)
{
CWsObject* obj = const_cast<CWsObject*>(objectIndex->At(i));
if(obj && (WS_HANDLE_GRAPHIC_DRAWER == obj->Type()))
{
const CWsGraphicDrawerObject* candidate = static_cast<CWsGraphicDrawerObject*>(obj);
if(candidate->Drawer() == aDrawer)
{
return candidate;
}
}
}
return NULL;
}
//
CWsCliObj* CWsCliObj::NewL(CWsClient *aOwner)
{
CWsCliObj* self = new(ELeave) CWsCliObj(aOwner);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
CWsCliObj::CWsCliObj(CWsClient *aOwner) : CWsObject(aOwner,WS_HANDLE_CLIENT)
{
__DECLARE_NAME(_S("CWsCliObj"));
}
void CWsCliObj::ConstructL()
{
NewObjL();
}
void CWsCliObj::CommandL(TInt aOpcode, const TAny *aCmdData)
{
iWsOwner->CommandL(aOpcode,aCmdData);
}
CWsObject* CWsClient::HandleToObjUntyped(TInt aHandle)
{
return(iObjectIndex->HandleToObject(aHandle));
}
CWsObject* CWsClient::HandleToObj(TInt aHandle, WH_HANDLES aType)
{
CWsObject* object = HandleToObjUntyped(aHandle);
if (object && object->Type() == aType)
{
return object;
}
return NULL;
}