// Copyright (c) 1996-2010 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:
// Test capture key
// Coverted from TMan test code (TMCAPKEY.CPP) October 2000
//
//
/**
@file
@test
@internalComponent - Internal Symbian test code
*/
#include "TCapKey.H"
#define LOGGING on
//
// CAbortHandler
CAbortHandler::CAbortHandler(RWsSession *aWs, CCKAbortConnection *aConnection) : CTEventBase(aWs, 10), iConnection(aConnection)
{
}
CAbortHandler::~CAbortHandler()
{
Cancel();
}
void CAbortHandler::Request()
{
iWs->PriorityKeyReady(&iStatus);
SetActive();
}
void CAbortHandler::DoCancel()
{
iWs->PriorityKeyReadyCancel();
}
void CAbortHandler::doRunL()
{
TWsPriorityKeyEvent abortEvent;
iWs->GetPriorityKey(abortEvent);
iConnection->ReceivedAbortEvent(abortEvent.Handle(),abortEvent.Key());
}
//
// CCKConnection
CCKConnectionBase::CCKConnectionBase(CTCaptureKey *aTest) : iTest(aTest)
{
}
void CCKConnectionBase::ConstructL()
{
CTClient::SetScreenNumber(iTest->ScreenNumber());
CTClient::ConstructL();
iGroup=new(ELeave) CCKWindowGroup(this, iTest);
iGroup->ConstructL();
}
CCKConnection::CCKConnection(CTCaptureKey *aTest, TInt aConnIndex) : CCKConnectionBase(aTest), iConnIndex(aConnIndex)
{
}
CCKConnection::~CCKConnection()
{
for(TInt index=0;index<numCapKeys;index++)
if (capKeys[index].connIndex==iConnIndex)
iGroup->GroupWin()->CancelCaptureKey(capKeyHandle[index]);
for(TInt index1=0;index1<numCapKeysWithPriority;index1++)
if (capKeysWithPriority[index1].connIndex==iConnIndex)
iGroup->GroupWin()->CancelCaptureKey(capKeyWithPriorityHandle[index1]);
for(TInt index2=0;index2<numUpDownKeys;index2++)
if (capUpAndDownKeys[index2].connIndex==iConnIndex)
iGroup->GroupWin()->CancelCaptureKeyUpAndDowns(capUpDownKeyHandle[index2]);
for(TInt index3=0;index3<numUpDownKeysWithPriority;index3++)
if (capUpAndDownKeysWithPriority[index3].connIndex==iConnIndex)
iGroup->GroupWin()->CancelCaptureKeyUpAndDowns(capUpDownKeyWithPriorityHandle[index3]);
CTWin::Delete(iWin);
}
void CCKConnection::SubStateChanged()
{
iWin->Invalidate();
iWs.Flush();
}
void CCKConnection::ConstructL()
{
CCKConnectionBase::ConstructL();
for(TInt index=0;index<numCapKeys;index++)
if (capKeys[index].connIndex==iConnIndex)
capKeyHandle[index]=User::LeaveIfError(iGroup->GroupWin()->CaptureKey(capKeys[index].keyCode,capKeys[index].modifier_mask,capKeys[index].modifiers));
for(TInt index1=0;index1<numCapKeysWithPriority;index1++)
if (capKeysWithPriority[index1].connIndex==iConnIndex)
capKeyWithPriorityHandle[index1]=User::LeaveIfError(iGroup->GroupWin()->CaptureKey(capKeysWithPriority[index1].keyCode,capKeysWithPriority[index1].modifier_mask,capKeysWithPriority[index1].modifiers,capKeysWithPriority[index1].priority));
for(TInt index2=0;index2<numUpDownKeys;index2++)
if (capUpAndDownKeys[index2].connIndex==iConnIndex)
capUpDownKeyHandle[index2]=User::LeaveIfError(iGroup->GroupWin()->CaptureKeyUpAndDowns(capUpAndDownKeys[index2].keyCode,
capUpAndDownKeys[index2].modifier_mask,capUpAndDownKeys[index2].modifiers));
for(TInt index3=0;index3<numUpDownKeysWithPriority;index3++)
if (capUpAndDownKeysWithPriority[index3].connIndex==iConnIndex)
capUpDownKeyWithPriorityHandle[index3]=User::LeaveIfError(iGroup->GroupWin()->CaptureKeyUpAndDowns(capUpAndDownKeysWithPriority[index3].keyCode,
capUpAndDownKeysWithPriority[index3].modifier_mask,capUpAndDownKeysWithPriority[index3].modifiers,capUpAndDownKeysWithPriority[index3].priority));
TSize screenSize=iGroup->Size();
TInt winWidth=screenSize.iWidth/2;
TInt winHeight=screenSize.iHeight-10;
iGroup->GroupWin()->AutoForeground(EFalse); // Don't allow clicking to cause foreground, might mess up test
CCKWindow *win=new(ELeave) CCKWindow(iTest, iConnIndex);
win->SetUpL(TPoint(5,5),TSize(winWidth,winHeight),iGroup,*iGc);
iWin=win;
}
void CCKConnection::KeyTestL(TInt aBool)
{
if (!aBool)
{
CTDialog *dialog= new(ELeave) CTDialog();
TInt ret=0;
if (dialog)
{
dialog->ConstructLD(*iGroup,*iGc);
dialog->SetTitle(_L("Invalid key press"));
dialog->SetLine1(_L("Try again?"));
dialog->SetNumButtons(2);
dialog->SetButtonText(0,_L("Fail"));
dialog->SetButtonText(1,_L("Retry"));
ret=dialog->Display();
}
User::Leave(ret==1 ? ECapKeyRetry : ECapKeyFail);
}
}
void CCKConnection::CheckKeyL(const SCapKeyTestParams &aKeyTest, const TKeyEvent &aKey)
{
KeyTestL(aKeyTest.keyCode==aKey.iCode);
KeyTestL(aKeyTest.modifiers==(aKey.iModifiers&aKeyTest.modifier_mask));
}
void CCKConnection::CheckUpDownL(const SCapKeyTestParams &aKeyTest, const TKeyEvent &aKey)
{
if(iTest->Mode()==EModeKeyUpsAndDownsWithPriority)
KeyTestL(aKeyTest.connIndex==iTest->SubState()-15);
KeyTestL(aKeyTest.connIndex==iConnIndex);
KeyTestL(aKeyTest.keyCode==(TUint)aKey.iScanCode);
KeyTestL(aKeyTest.modifiers==(aKey.iModifiers&aKeyTest.modifier_mask));
}
void CCKConnection::KeyL(const TKeyEvent &aKey,const TTime &)
{
#if defined(LOGGING)
_LIT(KLog,"CCKConnection::KeyL State=%d SubState=%d Mode=%d KeyCode=%d ScanCode=%d Mod=0x%x");
iTest->LOG_MESSAGE7(KLog,iTest->State(),iTest->SubState(),iTest->Mode(),aKey.iCode,aKey.iScanCode,aKey.iModifiers);
#endif
if (iTest->Mode()==EModeNormalCapture || iTest->Mode()==EModeNormalCaptureWithPriority)
{
//if (aKey.iCode==EKeyEscape)
// iTest->Abort();
if(iTest->Mode()==EModeNormalCaptureWithPriority)
{
SCapKeyTestParams tmpCapKeyTest=capKeyTests[iTest->SubState()];
KeyTestL(tmpCapKeyTest.connIndex==iTest->SubState()-8);
}
TRAPD(ret,CheckKeyL(capKeyTests[iTest->SubState()],aKey));
if (ret==ECapKeyOkay)
iTest->IncSubState();
else
{
iTest->TEST(ret==ECapKeyRetry);
if (ret!=ECapKeyRetry)
iTest->INFO_PRINTF3(_L("CheckKeyL(capKeyTests[iTest->SubState()],aKey) return value - Expected: %d, Actual: %d"), ECapKeyRetry, ret);
}
}
}
void CCKConnection::CheckUpDownL(const TKeyEvent &aKey)
{
CheckUpDownL(capKeyTests[iTest->SubState()],aKey);
}
CCKAbortConnection::CCKAbortConnection(CTCaptureKey *aTest) : CCKConnectionBase(aTest)
{
}
CCKAbortConnection::~CCKAbortConnection()
{
iGroup->GroupWin()->RemovePriorityKey(3,EModifierCtrl,EModifierCtrl);
delete iAbortHandler;
}
void CCKAbortConnection::ConstructL()
{
CCKConnectionBase::ConstructL();
User::LeaveIfError(iGroup->GroupWin()->AddPriorityKey(abortKeyTests[0].keyCode,abortKeyTests[0].modifier_mask,abortKeyTests[0].modifiers));
User::LeaveIfError(iGroup->GroupWin()->AddPriorityKey(abortKeyTests[1].keyCode,abortKeyTests[1].modifier_mask,abortKeyTests[1].modifiers));
User::LeaveIfError(iGroup->GroupWin()->AddPriorityKey(abortKeyTests[2].keyCode,abortKeyTests[2].modifier_mask,abortKeyTests[2].modifiers));
iAbortHandler=new(ELeave) CAbortHandler(&iWs, this);
iAbortHandler->Construct();
iWs.Flush();
}
void CCKAbortConnection::ReceivedAbortEvent(TInt aHandle,TKeyEvent* aKey)
{
#if defined(LOGGING)
_LIT(KLog,"CCKAbortConnection::ReceivedAbortEvent State=%d SubState=%d Mode=%d KeyCode=%d ScanCode=%d Mod=0x%x");
iTest->LOG_MESSAGE7(KLog,iTest->State(),iTest->SubState(),iTest->Mode(),aKey->iCode,aKey->iScanCode,aKey->iModifiers);
#endif
TInt group=reinterpret_cast<TInt>(iGroup);
iTest->TEST(aHandle==group);
if (aHandle!=group)
{
_LIT(KLog,"Event Handle is not for the right group, expected=%d actual=%d");
iTest->LOG_MESSAGE3(KLog,group,aHandle);
}
iTest->TEST(aKey->iCode==abortKeyTests[iAbortKeyIndex].keyCode);
if (aKey->iCode!=abortKeyTests[iAbortKeyIndex].keyCode)
{
_LIT(KLog,"The event KeyCode is not right, expected=%d actual=%d");
iTest->LOG_MESSAGE3(KLog,abortKeyTests[iAbortKeyIndex].keyCode,aKey->iCode);
}
iTest->TEST((aKey->iModifiers&abortKeyTests[iAbortKeyIndex].modifier_mask)==abortKeyTests[iAbortKeyIndex].modifiers);
if ((aKey->iModifiers&abortKeyTests[iAbortKeyIndex].modifier_mask)!=abortKeyTests[iAbortKeyIndex].modifiers)
{
_LIT(KLog,"The event modifiers are not right, expected=0x%x actual=0x%x (0x%x) mask=0x%x");
iTest->LOG_MESSAGE5(KLog,abortKeyTests[iAbortKeyIndex].modifiers,aKey->iModifiers&abortKeyTests[iAbortKeyIndex].modifier_mask
,aKey->iModifiers,abortKeyTests[iAbortKeyIndex].modifier_mask);
}
iAbortKeyIndex++;
iTest->IncSubState();
}
void CCKAbortConnection::Foreground()
{
iGroup->GroupWin()->SetOrdinalPosition(0);
iWs.Flush();
}
//
// CCKWindowGroup class //
//
CCKWindowGroup::CCKWindowGroup(CTClient *aClient, CTCaptureKey *aTest) : CTWindowGroup(aClient), iTest(aTest)
{}
void CCKWindowGroup::KeyL(const TKeyEvent &aKey,const TTime &time)
{
#if defined(LOGGING)
_LIT(KLog,"CCKWindowGroup::KeyL State=%d SubState=%d Mode=%d KeyCode=%d ScanCode=%d Mod=0x%x");
iTest->LOG_MESSAGE7(KLog,iTest->State(),iTest->SubState(),iTest->Mode(),aKey.iCode,aKey.iScanCode,aKey.iModifiers);
#endif
if (iTest->Mode()==EModeWaitingForFirstNormalCapWithPriority)
iTest->SetMode(EModeNormalCaptureWithPriority);
if (iCurWin)
iCurWin->WinKeyL(aKey,time);
else
((CCKConnection *)iClient)->KeyL(aKey,time);
}
void CCKWindowGroup::KeyDownL(const TKeyEvent &aKey,const TTime &)
{
#if defined(LOGGING)
_LIT(KLog,"CCKWindowGroup::KeyDownL State=%d SubState=%d Mode=%d KeyCode=%d ScanCode=%d Mod=0x%x");
iTest->LOG_MESSAGE7(KLog,iTest->State(),iTest->SubState(),iTest->Mode(),aKey.iCode,aKey.iScanCode,aKey.iModifiers);
#endif
if (aKey.iScanCode!=EStdKeyLeftShift && aKey.iScanCode!=EStdKeyRightShift)
{
if (iTest->Mode()==EModeWaitingForFirstDown)
iTest->SetMode(EModeKeyUpsAndDowns);
if (iTest->Mode()==EModeWaitingForFirstDownWithPriority)
iTest->SetMode(EModeKeyUpsAndDownsWithPriority);
if (iTest->Mode()==EModeKeyUpsAndDowns || iTest->Mode()==EModeKeyUpsAndDownsWithPriority)
((CCKConnection *)iClient)->CheckUpDownL(aKey);
}
}
void CCKWindowGroup::KeyUpL(const TKeyEvent &aKey,const TTime &)
{
#if defined(LOGGING)
_LIT(KLog,"CCKWindowGroup::KeyUpL State=%d SubState=%d Mode=%d KeyCode=%d ScanCode=%d Mod=0x%x");
iTest->LOG_MESSAGE7(KLog,iTest->State(),iTest->SubState(),iTest->Mode(),aKey.iCode,aKey.iScanCode,aKey.iModifiers);
#endif
if (aKey.iScanCode!=EStdKeyLeftShift && aKey.iScanCode!=EStdKeyRightShift)
{
if (iTest->Mode()==EModeKeyUpsAndDowns || iTest->Mode()==EModeKeyUpsAndDownsWithPriority)
{
((CCKConnection *)iClient)->CheckUpDownL(aKey);
iTest->IncSubState();
}
}
}
//
// CCKWindow, class //
//
CCKWindow::CCKWindow(CTCaptureKey *aTest, TInt aConnIndex) : CTWin(), iConnIndex(aConnIndex), iTest(aTest)
{
iBack=TRgb::Gray256(230);
}
void CCKWindow::SetUpL(TPoint pos,TSize size,CTWinBase *parent, CWindowGc &aGc)
{
ConstructExtLD(*parent,pos,size);
iWin.SetBackgroundColor(iBack);
Activate();
AssignGC(aGc);
}
void CCKWindow::Draw()
{
iGc->Clear();
if (iConnIndex==0)
{
TInt test=iTest->SubState();
if (test<numTests)
iGc->DrawText(TPtrC(capKeyTests[test].txt), TPoint(10,20));
}
}
//
CTCaptureKey::CTCaptureKey(CTestStep* aStep) : CTWsGraphicsBase(aStep)
{
}
CTCaptureKey::~CTCaptureKey()
{
((CTCaptureKeyStep*)iStep)->CloseTMSGraphicsStep();
delete iConn1;
delete iConn2;
delete iConn3;
delete iAbortConn;
}
void CTCaptureKey::ConstructL()
{
iAbortConn=new(ELeave) CCKAbortConnection(this);
iAbortConn->ConstructL();
iConn3=new(ELeave) CCKConnection(this,2);
iConn3->ConstructL();
iConn2=new(ELeave) CCKConnection(this,1);
iConn2->ConstructL();
iConn1=new(ELeave) CCKConnection(this,0);
iConn1->ConstructL();
iMode=EModeNormalCapture;
SetSelfDrive(ETrue);
TUint mods=TheClient->iWs.GetModifierState();
_LIT(KLog,"Initial Modifiers state 0x%x (ideally should be zero)");
LOG_MESSAGE2(KLog,mods);
}
TInt CTCaptureKey::SubState() const
{
return(iSubState);
}
void CTCaptureKey::IncSubState()
{
iSubState++;
#if defined(LOGGING)
_LIT(KLog,"IncSubState State=%d SubState=%d Mode=%d");
LOG_MESSAGE4(KLog,iState,iSubState,iMode);
#endif
iConn1->SubStateChanged();
iConn2->SubStateChanged();
iConn3->SubStateChanged();
switch(iMode)
{
case EModeNormalCapture:
if (iSubState==numCapKeyTests)
{
CaseComplete();
return;
}
break;
case EModeNormalCaptureWithPriority:
if (iSubState==numCapKeyTests+numCapKeyWithPriorityTests)
{
CaseComplete();
return;
}
break;
case EModeKeyUpsAndDowns:
if (iSubState==(numCapKeyTests+numCapKeyWithPriorityTests+numUpDownKeyTests))
{
CaseComplete();
return;
}
break;
case EModeKeyUpsAndDownsWithPriority:
if (iSubState==(numCapKeyTests+numCapKeyWithPriorityTests+numUpDownKeyTests+numUpDownKeyWithPriorityTests))
{
SetSelfDrive(EFalse);
return;
}
break;
case EModeAbortKeys:
if (iSubState==(numCapKeyTests+numCapKeyWithPriorityTests+numUpDownKeyTests+numUpDownKeyWithPriorityTests+numAbortKeyTests))
++iState;
TheClient->WaitForRedrawsToFinish();
return;
default:
break;
}
TheClient->WaitForRedrawsToFinish();
SendEvents();
}
void CTCaptureKey::CapKeyPurgingL()
{
TInt base=Client()->iWs.ResourceCount();
RWindowGroup groupWin(Client()->iWs);
User::LeaveIfError(groupWin.Construct(ENullWsHandle));
TInt capHandle=User::LeaveIfError(groupWin.CaptureKey('a',EModifierFunc,EModifierFunc));
User::LeaveIfError(groupWin.CaptureKey('b',EModifierFunc,EModifierFunc));
TInt retVal = Client()->iWs.ResourceCount();
TEST(retVal==(base+3));
if (retVal!=(base+3))
INFO_PRINTF3(_L("Client()->iWs.ResourceCount() return value - Expected: %d, Actual: %d"), retVal, (base+3));
groupWin.CancelCaptureKey(capHandle);
retVal = Client()->iWs.ResourceCount();
TEST(retVal==(base+2));
if (retVal!=(base+2))
INFO_PRINTF3(_L("Client()->iWs.ResourceCount() return value - Expected: %d, Actual: %d"), retVal, (base+2));
groupWin.Close();
// Check it also freed the extra capture key
retVal = Client()->iWs.ResourceCount();
TEST(retVal==base);
if (retVal!=base)
INFO_PRINTF3(_L("Client()->iWs.ResourceCount() return value - Expected: %d, Actual: %d"), retVal, base);
}
void CTCaptureKey::BadParams()
{
TInt retVal;
TInt resCount=Client()->iWs.ResourceCount();
for(TInt index=0;index<numErrorKeys;index++)
{
retVal = Client()->iGroup->GroupWin()->CaptureKey(errorKeys[index].keyCode,errorKeys[index].modifier_mask,errorKeys[index].modifiers, errorKeys[index].priority);
TEST(retVal==KErrArgument);
if (retVal!=KErrArgument)
{
_LIT(KMsg, "CaptureKey() with bad parameter set %d returned %d - expected KErrArgument (%d)");
LOG_MESSAGE4(KMsg, index, retVal, KErrArgument);
}
retVal = Client()->iGroup->GroupWin()->CaptureKeyUpAndDowns(errorKeys[index].keyCode, errorKeys[index].modifier_mask, errorKeys[index].modifiers, errorKeys[index].priority);
TEST(retVal == KErrArgument);
if (retVal != KErrArgument)
{
_LIT(KMsg, "CaptureKeyUpAndDowns() with bad parameter set %d returned %d - expected KErrArgument (%d)");
LOG_MESSAGE4(KMsg, index, retVal, KErrArgument);
}
retVal = Client()->iGroup->GroupWin()->CaptureLongKey(errorKeys[index].keyCode, errorKeys[index].keyCode, errorKeys[index].modifier_mask, errorKeys[index].modifiers, errorKeys[index].priority, ELongCaptureNormal);
TEST(retVal == KErrArgument);
if (retVal != KErrArgument)
{
_LIT(KMsg, "CaptureLongKey() with bad parameter set %d returned %d - expected KErrArgument (%d)");
LOG_MESSAGE4(KMsg, index, retVal, KErrArgument);
}
}
retVal = Client()->iWs.ResourceCount();
TEST(retVal==resCount);
if (retVal!=resCount)
{
_LIT(KMsg, "Resource count %d - expected %d");
LOG_MESSAGE3(KMsg, retVal, resCount);
}
}
void CTCaptureKey::SetMode(TTestMode aMode)
{
#if defined(LOGGING)
_LIT(KLog,"SetMode State=%d SubState=%d OldMode=%d NewMode=%d");
LOG_MESSAGE5(KLog,State(),SubState(),iMode,aMode);
#endif
iMode=aMode;
}
TTestMode CTCaptureKey::Mode()
{
return(iMode);
}
void CTCaptureKey::SetUpPriorityKeyTest()
{
iMode=EModeAbortKeys;
iAbortConn->Foreground();
}
void CTCaptureKey::CaptureWithPriorityTest() //normal key capture but with priority
{
iMode=EModeWaitingForFirstNormalCapWithPriority;
}
void CTCaptureKey::CaptureUpsAndDownsTest()
{
iMode=EModeWaitingForFirstDown;
}
void CTCaptureKey::CaptureUpsAndDownsWithPriorityTest()
{
iMode=EModeWaitingForFirstDownWithPriority;
}
void CTCaptureKey::SendEvents()
{
#if defined(LOGGING)
_LIT(KLog,"SendEvents State=%d SubState=%d");
LOG_MESSAGE3(KLog,iState,iSubState);
#endif
switch (iSubState)
{
case 0:
iTest->SimulateKeyDownUp('Q');
break;
case 1:
iTest->SimulateKeyDownUpWithModifiers('W',EModifierAlt);
break;
case 2:
iTest->SimulateKeyDownUp('A');
break;
case 3:
iTest->SimulateKeyDownUpWithModifiers('S',EModifierAlt|EModifierCtrl);
break;
case 4:
iTest->SimulateKeyDownUpWithModifiers('N',EModifierAlt);
break;
case 5:
iTest->SimulateKeyDownUpWithModifiers('B',EModifierAlt|EModifierCtrl);
break;
case 6:
iTest->SimulateKeyDownUpWithModifiers('D',EModifierAlt);
break;
case 7:
iTest->SimulateKeyDownUpWithModifiers('C',EModifierAlt|EModifierCtrl);
break;
case 8:
iTest->SimulateKeyDownUp('H');//state EModeNormalCaptureWithPriority
break;
case 9:
iTest->SimulateKeyDownUp('J');
break;
case 10:
iTest->SimulateKeyDownUp('K');
break;
case 11:
iTest->SimulateKeyDownUp(EStdKeySpace);
break;
case 12:
iTest->SimulateKeyDownUp(EStdKeyEnter);
break;
case 13:
iTest->SimulateKeyDownUpWithModifiers(EStdKeySpace,EModifierShift);
break;
case 14:
iTest->SimulateKeyDownUpWithModifiers(EStdKeyEnter,EModifierShift);
break;
case 15:
iTest->SimulateKeyDownUp('H');//state EModeKeyUpsAndDownsWithPriority
break;
case 16:
iTest->SimulateKeyDownUp('J');
break;
case 17:
iTest->SimulateKeyDownUp('K');
break;
case 18:
iTest->SimulateKeyDownUpWithModifiers('C',EModifierCtrl);
break;
case 19:
iTest->SimulateKeyDownUpWithModifiers('D',EModifierCtrl);
break;
case 20:
iTest->SimulateKeyDownUp('Z');
break;
default:
TEST(EFalse);
}
TheClient->iWs.Flush();
}
void CTCaptureKey::CapKeyPowerOffL()
{
const TUint protKey=0xF844; //This value needs to be defined in the WSINI.INI file as a key only capturable by a certain application
RWsSession ws;
User::LeaveIfError(ws.Connect());
CleanupClosePushL(ws);
// assign to the correct screen
CWsScreenDevice* screen = new (ELeave) CWsScreenDevice(ws);
CleanupStack::PushL(screen);
User::LeaveIfError(screen->Construct(iTest->iScreenNumber));
RWindowGroup group(ws);
group.Construct(ENullWsHandle);
CleanupClosePushL(group);
group.EnableReceiptOfFocus(EFalse);
group.SetOrdinalPosition(0,5);
RBlankWindow blank(ws);
blank.Construct(group,ENullWsHandle);
CleanupClosePushL(blank);
blank.EnableBackup();
blank.Activate();
_LIT(kGroupName1,"Hello");
group.SetName(kGroupName1);
TInt capHandle = group.CaptureKey(EKeyDevice2,EModifierFunc,EModifierFunc);
TEST(capHandle==KErrPermissionDenied);
if (capHandle!=KErrPermissionDenied)
{
_LIT(KLog1,"Capture Key suceeded when it should of failed, Error/Handle=%d (expected: %d)");
LOG_MESSAGE3(KLog1,capHandle,KErrPermissionDenied);
_LIT(KLog2,"This is indicative of a bad WSINI file");
LOG_MESSAGE(KLog2);
}
capHandle=group.CaptureKeyUpAndDowns(protKey,0,0);
TEST(capHandle==KErrPermissionDenied);
if (capHandle!=KErrPermissionDenied)
{
_LIT(KLog,"Capture Key Up & Down suceeded when it should of failed, Error/Handle=%d (expected: %d)");
LOG_MESSAGE3(KLog,capHandle,KErrPermissionDenied);
}
_LIT(kGroupName2,"SysApp");
group.SetName(kGroupName2);
capHandle = group.CaptureKey(EKeyDevice2,EModifierFunc,EModifierFunc);
TEST(capHandle > 0);
if (capHandle<=0)
{
_LIT(KLog,"Capture Key failed when it should of succeeded, Error=%d");
LOG_MESSAGE2(KLog,capHandle);
}
group.CancelCaptureKey(capHandle);
capHandle=group.CaptureKeyUpAndDowns(protKey,0,0);
TEST(capHandle > 0);
if (capHandle<=0)
{
_LIT(KLog,"Capture Key Up & Down failed when it should of succeeded, Error=%d");
LOG_MESSAGE2(KLog,capHandle);
}
group.CancelCaptureKeyUpAndDowns(capHandle);
CleanupStack::PopAndDestroy(4,&ws);
}
void CTCaptureKey::RunTestCaseL(TInt /*aCurTestCase*/)
{
_LIT(Test0,"Normal capture with priority");
_LIT(TestNormalCaptureWithPriority,"Normal capture with priority");
_LIT(TestUpDown,"Capture ups and downs");
_LIT(TestUpDownWithPriority,"Capture ups and downs with priority");
_LIT(TestAbort,"Abort key");
_LIT(TestAbort2,"Abort key extended");
_LIT(TestErrors,"Errors");
_LIT(TestCaptureKey,"Capture Key");
_LIT(TestCapturePowerOffKey,"Capture PowerOff Key");
iTest->iState=iState;
((CTCaptureKeyStep*)iStep)->SetTestStepID(KUnknownSYMTestCaseIDName);
switch(iState)
{
/**
@SYMTestCaseID GRAPHICS-WSERV-0140
@SYMDEF DEF081259
@SYMTestCaseDesc Normal key capture test
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions The test uses 3 wserv clients with their own window groups. The
clients are registered for different keys to capture. The test
simulates key presses.
@SYMTestExpectedResults Checks that the key presses are captured correctly .
*/
case 0: // Dummy one to let capture key tests run
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0140"));
iTest->LogSubTest(Test0);
iState++;
SendEvents();
break;
/**
@SYMTestCaseID GRAPHICS-WSERV-0141
@SYMDEF DEF081259
@SYMTestCaseDesc Normal key capture test with priorities
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions The test uses 3 wserv clients with their own window groups. The
clients are registered for different keys to capture and with
different priorities. The test simulates key presses.
@SYMTestExpectedResults Checks that the key presses are captured correctly .
*/
case 1:
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0141"));
iTest->LogSubTest(TestNormalCaptureWithPriority);
CaptureWithPriorityTest();
iState++;
SendEvents();
break;
/**
@SYMTestCaseID GRAPHICS-WSERV-0142
@SYMDEF DEF081259
@SYMTestCaseDesc Up-down key capture test
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions The test uses 3 wserv clients with their own window groups. The
clients are registered for different keys to capture their
up and down events. The test simulates key presses and releases.
@SYMTestExpectedResults Checks that the key presses and releases are captured correctly .
*/
case 2:
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0142"));
iTest->LogSubTest(TestUpDown);
CaptureUpsAndDownsTest();
iState++;
SendEvents();
break;
/**
@SYMTestCaseID GRAPHICS-WSERV-0143
@SYMDEF DEF081259
@SYMTestCaseDesc Up-down key capture test with priorities
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions The test uses 3 wserv clients with their own window groups. The
clients are registered with different priorities for different keys to capture their
up and down events. The test simulates key presses and releases.
@SYMTestExpectedResults Checks that the key presses and releases are captured correctly .
*/
case 3:
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0143"));
iTest->LogSubTest(TestUpDownWithPriority);
CaptureUpsAndDownsWithPriorityTest();
iState++;
SendEvents();
break;
/**
@SYMTestCaseID GRAPHICS-WSERV-0144
@SYMDEF DEF081259
@SYMTestCaseDesc Priority key events test
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions The test simulates key events and make sure that the events are
recieved by the registered wserv client.
@SYMTestExpectedResults Makes sure that key code is the same as a key simulated, event modifiers comply
with registered priority key's modifirs and mask, and that event handle
is a window group of the session.
*/
case 4:
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0144"));
if (iSubState==numCapKeyTests+numUpDownKeyWithPriorityTests+numUpDownKeyTests+numUpDownKeyWithPriorityTests)
{
iTest->LogSubTest(TestAbort);
SetUpPriorityKeyTest();
}
else
iTest->LogSubTest(TestAbort2);
//iState++;
SendEvents();
TheClient->WaitUntilEventPending();
break;
/**
@SYMTestCaseID GRAPHICS-WSERV-0145
@SYMDEF DEF081259
@SYMTestCaseDesc Invalid capture keys test
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions Memorizes amount of objects that the server has allocated for that client.
Tries to register capture keys with invalid modifiers and
modifier mask pairs, using each of the RWindowGroup capture
functions CaptureKey(), CaptureKeyUpAndDowns() and
CaptureLongKey().
@SYMTestExpectedResults Makes sure that the number of server-side objects for the
session didn't change.
*/
case 5:
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0145"));
iTest->LogSubTest(TestErrors);
BadParams();
((CTCaptureKeyStep*)iStep)->RecordTestResultL();
/**
@SYMTestCaseID GRAPHICS-WSERV-0146
@SYMDEF DEF081259
@SYMTestCaseDesc Capture keys clean up test
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions Memorizes amount of objects that the server has allocated for that client.
Creates a window group and requests two keys to be captured.
Cancels one key capture request and closes the window group.
@SYMTestExpectedResults Checks that creation of the group or registering a capture key
increased this amount by 1 each time.
Makes sure that the number of server-side objects for the
session in the end of the test is the same as in the beginning.
*/
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0146"));
iTest->LogSubTest(TestCaptureKey);
CapKeyPurgingL();
iState++;
break;
/**
@SYMTestCaseID GRAPHICS-WSERV-0147
@SYMDEF DEF081259
@SYMTestCaseDesc Capture power off key test
@SYMTestPriority High
@SYMTestStatus Implemented
@SYMTestActions The test creates a new session, new window group and a new window
in the group. After that the test gives "Hello" name to the group
and tries to register for key capture of FN+EKeyDevice2 and 0xF844
buttons. Makes sure that registration fails due to KErrPermissionDenied
error.
Then the test changes the name of the window group to "SysApp"
and tries the registration again. Makes sure that operation
completed successfully.
@SYMTestExpectedResults See actions
*/
case 6:
((CTCaptureKeyStep*)iStep)->SetTestStepID(_L("GRAPHICS-WSERV-0147"));
iTest->LogSubTest(TestCapturePowerOffKey);
CapKeyPowerOffL();
iState++;
break;
default:
((CTCaptureKeyStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
TestComplete();
}
((CTCaptureKeyStep*)iStep)->RecordTestResultL();
}
__WS_CONSTRUCT_STEP__(CaptureKey)