// Copyright (c) 2005-2010 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:
//
#include <hal.h>
#include <w32debug.h>
#include <e32std.h>
#include <graphics/fbsdefs.h>
#include "apgrfxfacade.h"
#include "TGraphicsHarness.h"
#include "GraphicsTestUtilsServer.h"
_LIT(KGraphicsTestFrameworkPanic, "Graphics Test Framework");
const TInt KTestCleanupStack = 0x40;
const TDisplayMode testDisplayModes[] =
{
EGray2,
EGray4,
EGray16,
EGray256,
EColor16,
EColor256,
EColor64K,
EColor16M,
EColor4K,
EColor16MU,
EColor16MA,
EColor16MAP,
};
/**
The test code manager, provides functions to set active object
with lowest priority for running tests in auto mode.
*/
class CTestManager : public CActive
{
friend class CTGraphicsBase;
protected:
static CTestManager* NewL(MTestCases* aAutoTestApp);
~CTestManager();
void FinishAllTestCases();
void StartTest(); //initialize an active object and set it status as active
void SetSelfDrive(TBool aSelfDrive);
void CaseComplete();
private:
CTestManager(MTestCases* aAutoTestApp);
void NextTest();
// from CActive
void RunL();
void DoCancel();
TInt RunError(TInt aError);
private:
MTestCases* iTestCase;
TInt iCurTestCaseNumber; //a current test case, every time when function RunTestCaseL is called this member inc by one
TBool iTestCompleted;
TBool iSelfDrive;
};
/** Construct an active object with the lowest priority */
CTestManager::CTestManager(MTestCases* aTestCases) :
CActive(EPriorityIdle), iTestCase(aTestCases), iSelfDrive(EFalse)
{}
CTestManager::~CTestManager()
{
Cancel();
}
CTestManager* CTestManager::NewL(MTestCases* aTestCases)
{
CTestManager *theTestManager=new (ELeave) CTestManager(aTestCases);
CActiveScheduler::Add(theTestManager);
return theTestManager;
}
void CTestManager::RunL()
{
__ASSERT_ALWAYS(iTestCase, User::Panic(KGraphicsTestFrameworkPanic, KErrBadHandle));
if( iTestCompleted)
{
return;
}
// debug statement to indicate progress of test suite by
// printing the sub-test that is currently active
TTime timeStamp;
timeStamp.HomeTime();
TBuf<50> dateStr;
_LIT(KDateString3,"%-B%:0%J%:1%T%:2%S%:3.%Cms");
timeStamp.FormatL(dateStr, KDateString3);
++iCurTestCaseNumber;
RDebug::Print(_L("%S - Test Case Number: %d"), &dateStr, iCurTestCaseNumber);
iTestCase->RunTestCaseL(iCurTestCaseNumber);
if (iTestCompleted)
{
_LIT(KFinished,"Finished test case %d and test completed");
RDebug::Print(KFinished,iCurTestCaseNumber);
}
else
{
if (iSelfDrive)
{
_LIT(KStarted,"Started test case %d");
RDebug::Print(KStarted,iCurTestCaseNumber);
}
else
{
NextTest();
}
}
}
void CTestManager::DoCancel()
{
if (!iSelfDrive)
iTestCompleted = ETrue;
}
TInt CTestManager::RunError(TInt aError)
{
TTime timeStamp;
timeStamp.HomeTime();
TBuf<50> dateStr;
_LIT(KDateString3,"%-B%:0%J%:1%T%:2%S%:3 %Cms");
timeStamp.FormatL(dateStr, KDateString3);
_LIT(KTestLeft,"RunTestCaseL left of %S - Test Case Number: %d");
RDebug::Print(KTestLeft, &dateStr, iCurTestCaseNumber);
aError = iTestCase->RunTestCaseLeft(aError);
FinishAllTestCases();
return aError;
}
/**
Initialize an active object and set it as active
*/
void CTestManager::StartTest()
{
TRequestStatus *pS= (&iStatus);
User::RequestComplete(pS, 0);
SetActive();
}
/**
Time to move on to the next test step
*/
void CTestManager::NextTest()
{
_LIT(KFinished,"Finished test case %d");
RDebug::Print(KFinished,iCurTestCaseNumber);
StartTest();
}
/**
Stop active scheduler, and quit a test step
*/
void CTestManager::FinishAllTestCases()
{
iTestCompleted = ETrue;
CActiveScheduler::Stop();
}
/**
Controls wether the manager calls RunTestCaseL whenever the system is otherwise idol
*/
void CTestManager::SetSelfDrive(TBool aSelfDrive)
{
if (iSelfDrive!=aSelfDrive)
{
iSelfDrive = aSelfDrive;
if (aSelfDrive)
{
if (IsActive())
Cancel();
}
else
{
if (!IsActive() && !iTestCompleted)
NextTest();
}
}
}
/**
Tells the manager this case is finished so you can call RunTestCaseL again
*/
void CTestManager::CaseComplete()
{
__ASSERT_DEBUG(!IsActive(), User::Panic(KGraphicsTestFrameworkPanic, ETestPanicAlreadyActive));
if (iSelfDrive && !iTestCompleted)
NextTest();
}
//-------------
EXPORT_C const TDesC& CTGraphicsBase::ColorModeName(TDisplayMode aMode)
{
_LIT(KNone,"None");
_LIT(KGray2,"Grey2");
_LIT(KGray4,"Grey4");
_LIT(KGray16,"Grey16");
_LIT(KGray256,"Grey256");
_LIT(KColor16,"Color16");
_LIT(KColor256,"Color256");
_LIT(KColor4K,"Color4K");
_LIT(KColor64K,"Color64K");
_LIT(KColor16M,"Color16M");
_LIT(KColor16MU,"Color16MU");
_LIT(KColor16MA,"Color16MA");
_LIT(KColor16MAP,"Color16MAP");
_LIT(KRgb,"RGB");
_LIT(KUnknown,"Unknown");
switch(aMode)
{
case ENone:
return KNone;
case EGray2:
return KGray2;
case EGray4:
return KGray4;
case EGray16:
return KGray16;
case EGray256:
return KGray256;
case EColor16:
return KColor16;
case EColor256:
return KColor256;
case EColor64K:
return KColor64K;
case EColor16M:
return KColor16M;
case ERgb:
return KRgb;
case EColor4K:
return KColor4K;
case EColor16MU:
return KColor16MU;
case EColor16MA:
return KColor16MA;
case EColor16MAP:
return KColor16MAP;
default:
return KUnknown;
}
}
EXPORT_C const TDesC& CTGraphicsBase::RotationName(CFbsBitGc::TGraphicsOrientation aOrientation)
{
_LIT(K0,"Normal");
_LIT(K90,"Rotated90");
_LIT(K180,"Rotated180");
_LIT(K270,"Rotated270");
_LIT(KUnknown,"Unknown");
switch(aOrientation)
{
case CFbsBitGc::EGraphicsOrientationNormal:
return K0;
case CFbsBitGc::EGraphicsOrientationRotated90:
return K90;
case CFbsBitGc::EGraphicsOrientationRotated180:
return K180;
case CFbsBitGc::EGraphicsOrientationRotated270:
return K270;
default:
return KUnknown;
}
}
EXPORT_C void CTGraphicsBase::SaveScreenShotL(CFbsScreenDevice* aScdv)
{
#ifdef __WINS__
_LIT(KBitmapDrive, "c:");
#else
_LIT(KBitmapDrive, "e:");
#endif
_LIT(KBitmapPath, "\\screenshot.mbm");
TDisplayMode dispMode = aScdv->DisplayMode();
TSize scrSize = aScdv->SizeInPixels();
CFbsBitmap* dstBmp = new(ELeave) CFbsBitmap;
CleanupStack::PushL(dstBmp);
User::LeaveIfError(dstBmp->Create(scrSize, dispMode));
HBufC8* row = HBufC8::NewLC(scrSize.iWidth*4);
TPtr8 prow = row->Des();
for (TInt ii = 0; ii < scrSize.iHeight; ++ii)
{
aScdv->GetScanLine(prow, TPoint(0, ii), scrSize.iWidth, dispMode);
dstBmp->SetScanLine(prow,ii);
}
CleanupStack::PopAndDestroy(row);
TFileName mbmFile;
mbmFile.Append(KBitmapDrive);
mbmFile.Append(KBitmapPath);
User::LeaveIfError(dstBmp->Save(mbmFile));
CleanupStack::PopAndDestroy(dstBmp);
}
EXPORT_C CTGraphicsBase::CTGraphicsBase(CTestStep* aStep) :
iStep(aStep)
{}
EXPORT_C CTGraphicsBase::~CTGraphicsBase()
{
if(iTestManager)
{
iTestManager -> Cancel();
}
delete iTestManager;
}
void CTGraphicsBase::InitializeL()
{
__ASSERT_DEBUG(iStep, User::Panic(KGraphicsTestFrameworkPanic, KErrBadHandle));
iTestManager = CTestManager::NewL(this);
}
/**
The function must be called after all test cases completed
*/
EXPORT_C void CTGraphicsBase::TestComplete()
{
if(iTestManager)
{
iTestManager -> FinishAllTestCases();
}
}
EXPORT_C void CTGraphicsBase::SetSelfDrive(TBool aSelfDrive)
{
if (iTestManager)
iTestManager->SetSelfDrive(aSelfDrive);
}
EXPORT_C void CTGraphicsBase::CaseComplete()
{
if (iTestManager)
iTestManager->CaseComplete();
}
EXPORT_C TInt CTGraphicsBase::RunTestCaseLeft(TInt aError)
{
_LIT(KRunTestCaseLLeft,"The RunTestCaseL left with %d");
ERR_PRINTF2(KRunTestCaseLLeft,aError);
iStep->SetTestStepResult(EFail);
return KErrNone;
}
/** Start a test cases loop */
void CTGraphicsBase::Execute()
{
__ASSERT_DEBUG(iTestManager, User::Panic(KGraphicsTestFrameworkPanic, KErrBadHandle));
__ASSERT_DEBUG(CActiveScheduler::Current(), User::Panic(KGraphicsTestFrameworkPanic, KErrBadHandle));
iTestManager -> StartTest();
CActiveScheduler::Start();
}
/**
Reset test cases counter to a new value. Can be used for running the same consequence of test
cases with different initial parameters.
aNewCurrentTestCase cannot be negative.
*/
EXPORT_C void CTGraphicsBase::ResetCounter(TInt aNewCurrentTestCase )
{
__ASSERT_DEBUG(aNewCurrentTestCase >= 0, User::Panic(KGraphicsTestFrameworkPanic, KErrArgument));
iTestManager->iCurTestCaseNumber = aNewCurrentTestCase;
}
//---------------------
/**
Initialise the cleanup stack.
*/
void CTGraphicsStep::SetupCleanup(CTrapCleanup*& tc)
{
tc = CTrapCleanup::New();
if (!tc)
{
User::Panic(_L("Out of memory"), KErrNoMemory);
}
TRAPD(r,
{
for ( TInt ii = KTestCleanupStack; ii > 0; ii-- )
CleanupStack::PushL( (TAny*)1 );
TEST( r == KErrNone );
CleanupStack::Pop( KTestCleanupStack );
} );
}
void CTGraphicsStep::LogHeapInfo(RWsSession& aWs, TBool aStart)
{
_LIT(KInfoStart,"Start");
_LIT(KInfoEnd,"End");
_LIT(KInfoCheckPassed,"WsHeap leak check passed");
_LIT(KInfoCheckFailed,"Memory leak detected. Number of orphaned cells=%d.");
_LIT(KInfoCheckFailed2,"See epocwindout for the address of the first orphaned cell.");
_LIT(KInfoHeapSummary," WsHeap - Count=%d,Total=%d,Free=%d,Max free=%d");
_LIT(KInfoDisabled,"Memory leak testing has not been enabled.");
TPckgBuf<TWsDebugHeapInfo> heapInfo;
aWs.DebugInfo(EWsDebugInfoHeap,heapInfo);
TBuf<256> infoBuf;
if (aStart)
{
infoBuf.Append(KInfoStart);
}
else
{
infoBuf.Append(KInfoEnd);
TInt heapFailCount=aWs.DebugInfo(EWsDebugFetchCheckHeapResult);
if (heapFailCount==KErrNone)
{
INFO_PRINTF1(KInfoCheckPassed);
}
else if (heapFailCount>0) // Negative error should be ignored as it means the check has not been enabled
{
TEST(0);
ERR_PRINTF2(KInfoCheckFailed,heapFailCount);
ERR_PRINTF1(KInfoCheckFailed2);
}
else
{
WARN_PRINTF1(KInfoDisabled);
}
}
infoBuf.AppendFormat(KInfoHeapSummary,heapInfo().iCount,heapInfo().iTotal,heapInfo().iAvailable,heapInfo().iLargestAvailable);
INFO_PRINTF1(infoBuf);
}
/**
Main entry point from CTestStep class.
Creates cleanup stack, background window and launches a test
*/
EXPORT_C TVerdict CTGraphicsStep::doTestStepL()
{
TInt memFree;
HAL::Get(HALData::EMemoryRAMFree, memFree);
INFO_PRINTF2(_L("Test started - RAM free: %d"), memFree);
__UHEAP_MARK;
CTrapCleanup* tc = NULL;
SetupCleanup(tc);
TInt err = RFbsSession::Connect();
if(err != KErrNone)
{
FbsStartup();
err = RFbsSession::Connect();
if(err != KErrNone)
{
User::Panic(_L("Font bitmap session connect"), err);
}
}
RWsSession ws;
err = ws.Connect();
if (iLogHeapInfo && err==KErrNone)
{
ws.DebugInfo(EWsDebugSetCheckHeapOnDisconnectClient);
LogHeapInfo(ws,ETrue);
}
TInt theId1 = NULL;
#ifdef __WINS__
RWindowGroup winGroup = RWindowGroup(ws);
RWindow theWindow(ws);
if (err==KErrNone)
{
const TUint32 ENullWsHandle = 0xFFFFFFFF; // Events delivered to this handle are thrown away
//creat background window with the size of the screen
//it is particulary important for tests which draw on the screen, read screen buffer
//and compare result. By default top TEF window is concole and blinking cursor can interfere
//with the work of the tests
TSize size(640, 240); //some default value
//retrieve screen size
err = GetScreenSize(size);
if(err)
{
WARN_PRINTF2(_L("Can't retrieve size from screen driver err = %d"), err);
}
winGroup.Construct(ENullWsHandle);
winGroup.AutoForeground(ETrue);
theId1 = winGroup.Identifier();
theWindow.Construct(winGroup, ENullWsHandle);
theWindow.SetExtent(TPoint(0, 0), size);
theWindow.SetVisible(ETrue);
theWindow.Activate();
//the following trick we need to put the window on the top
TApaTaskListFacade taskList(ws);
TApaTaskFacade task = taskList.FindByPos(1);
task.BringToForeground();
TApaTaskFacade task1(ws);
task1.SetWgId(theId1);
task1.BringToForeground();
}
#endif
if (err==KErrNone)
{
CloseAllPanicWindows(theId1, ws);
}
// initialize the test and kick off the test cases loop
TRAP(err, TestSetupL(); // initialize a test step
ExecuteL()); // run active scheduler, in order to complete test execution
// CTGraphicsStep::TestComplete function needs to be called
if (err)
{
SetTestStepResult(EFail);
}
TestClose(); // free all allocated resources here
if (ws.Handle())
{
CloseAllPanicWindows(theId1, ws);
#ifdef __WINS__
theWindow.Close();
winGroup.Close();
#endif
ws.Close();
User::After(50000);
// Prev close will trigger Wserv dummy shutdown and heap check
// We then re-connect to get the result of the shutdown.
RWsSession ws2;
TInt errConnection;
TInt MaxNumberOfAttempt=10;
TInt currentAttempt=0;
do
{
errConnection=ws2.Connect();
if (errConnection==KErrNone)
{
LogHeapInfo(ws2,EFalse);
ws2.Close();
}
else
{
RDebug::Printf("Connection Error with Wserv... %i",errConnection);
User::After(50000);
}
currentAttempt++;
}while( (errConnection!=KErrNone) && (currentAttempt<MaxNumberOfAttempt) );
}
RFbsSession::Disconnect();
delete tc;
__UHEAP_MARKEND;
return TestStepResult();
}
void CTGraphicsStep::CloseAllPanicWindows(TInt aId, RWsSession& ws) const
{
TInt idFocus = ws.GetFocusWindowGroup();
TWsEvent event;
event.SetType(EEventKey); //EEventKeyDown
TKeyEvent *keyEvent = event.Key();
keyEvent->iCode = EKeyEscape;
keyEvent->iScanCode = EStdKeyEscape;
keyEvent->iModifiers = 0;
TInt theLimit = 50;
while(idFocus != aId && (theLimit-- > 0))
{
ws.SendEventToAllWindowGroups(event);
idFocus = ws.GetFocusWindowGroup();
}
}
TInt CTGraphicsStep::GetScreenSize(TSize& aSize) const
{
CFbsScreenDevice* dev = NULL;
TInt err = KErrNone;
TInt sizeOfDisplayMode = sizeof (testDisplayModes) / sizeof(testDisplayModes[0]);
for(TInt theScreenModeIndex = sizeOfDisplayMode - 1; theScreenModeIndex ; theScreenModeIndex--)
{
TDisplayMode disp = testDisplayModes[theScreenModeIndex];
TRAP(err, dev = CFbsScreenDevice::NewL(_L(""), disp)); //scdv
if(err == KErrNone)
{
aSize = dev->SizeInPixels();
delete dev;
return KErrNone;
}
delete dev;
dev = NULL;
}
return err;
}
/** Installs an active scheduler and launches a test*/
void CTGraphicsStep::ExecuteL()
{
CActiveScheduler* theAs = new (ELeave) CActiveScheduler;
CleanupStack::PushL(theAs);
CActiveScheduler::Install(theAs);
CTGraphicsBase* autoTest = CreateTestL();
User::LeaveIfNull(autoTest);
CleanupStack::PushL(autoTest);
autoTest -> InitializeL();
autoTest -> ConstructL();
autoTest -> Execute();
CleanupStack::PopAndDestroy(2, theAs);
}
TInt E32Dll( )
{
return 0;
}