/*
* Copyright (c) 2002 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: Camcorder MMF API Test DLL, State transition tests
*
*/
// INCLUDE FILES
#include "camcTest_4.h"
#include "camcTest.h"
// EXTERNAL DATA STRUCTURES
// EXTERNAL FUNCTION PROTOTYPES
// CONSTANTS
// MACROS
// LOCAL CONSTANTS AND MACROS
// MODULE DATA STRUCTURES
// LOCAL FUNCTION PROTOTYPES
// FORWARD DECLARATIONS
///////////////////////////////////////////////////////////////////
// Automated API Tests
//
///////////////////////////////////////////////////////////////////
CCamcTest_4::CCamcTest_4 ()
{
}
CCamcTest_4::~CCamcTest_4 ()
{
delete iCamcTestClient;
iCamcTestClient = NULL;
}
void CCamcTest_4::setUpL ()
{
iCamcTestClient = CCamcTestClient_4::NewL( );
iWaitScheduler = new (ELeave) CActiveSchedulerWait;
// Create a new Camera API implementation object, if supported
TRAPD( err, iUiLevelCamera = CCamera::New2L( static_cast<MCameraObserver2&>(*this), 0 /*index*/, 0 /*Priority*/ ) );
if ( err )
{
PRINT( ( _L( "CCamcTest_4::setUpL CCamera::New2L return code=%d" ), err ) );
// Create old Camera API implementation object.
iUiLevelCamera = CCamera::NewL( static_cast<MCameraObserver&>(*this), 0 /*Index*/ );
}
else
{
PRINT( ( _L( "CCamcTest_4::setUp() using new MCameraObserver2" )) );
}
iUiLevelCameraHandle = iUiLevelCamera->Handle();
iUiLevelCamera->Reserve();
iWaitScheduler->Start();
}
void CCamcTest_4::tearDown ()
{
delete iCamcTestClient;
iCamcTestClient = NULL;
delete iWaitScheduler;
delete iUiLevelCamera;
REComSession::FinalClose();
}
//
// Own test functions.
//
// //////////////////////////////////////////////////////////////////
// RecordTimeAvailableL tests
// //////////////////////////////////////////////////////////////////
// Allows a 10% margin for the filesize
#define TC4_ALLOWED_MARGIN ( TC4_FILE_SIZE_LIMIT * 0.1 )
void CCamcTest_4::RecordTimeAvailableL_001_L()
{
///////////////////////////////////////
// ID: CAMC_API.RECORDTIMEAVAILABLEL_001
// Action :
// Ask time available frequently using timer
// Output :
// Value is decreasing all the time
// Precondition :
// File Size limit set.
// Recording
///////////////////////////////////////
iCamcTestClient->Start_Active_ObjectL(
CCamcTestClient_4::K4RecordTimeAvailSizeLimit, iUiLevelCameraHandle );
/* Check if size is according to previously set Size limit */
RFile file;
TInt filesize;
RFs fsSession;
fsSession.Connect();
TFileName fileName;
AddDriveLetterToPath(_L("recordQCIF.3gp"),fileName);
TInt err;
if ( err = file.Open(fsSession,fileName,EFileShareAny) )
{
fsSession.Close();
}
assertTIntsEqualL( KErrNone, err );
err = file.Size(filesize);
file.Close();
fsSession.Close();
if ( ( filesize > TC4_FILE_SIZE_LIMIT + TC4_ALLOWED_MARGIN ) ||
(filesize < TC4_FILE_SIZE_LIMIT - TC4_ALLOWED_MARGIN ) )
{
assertL(0);
}
}
void CCamcTest_4::RecordTimeAvailableL_002_L()
{
///////////////////////////////////////
// ID: CAMC_API.RECORDTIMEAVAILABLEL_002
// Action :
// Ask time available frequently using timer
// Output :
// Value is decreasing all the time
// Precondition :
// File Size limit is NOT set.
// Recording
///////////////////////////////////////
iCamcTestClient->Start_Active_ObjectL(
CCamcTestClient_4::K4RecordTimeAvailNoSizeLimit, iUiLevelCameraHandle );
}
void CCamcTest_4::RecordTimeAvailableL_003_L()
{
///////////////////////////////////////
// ID: CAMC_API.RECORDTIMEAVAILABLEL_003
// Action :
// Not recording, size limit set
// Asking RecordTimeAvailable()
// Output :
// Value is proportional to size limit set
// Precondition :
// File Size limit is set.
///////////////////////////////////////
iCamcTestClient->Start_Active_ObjectL(
CCamcTestClient_4::K4RecordTimeAvailNotRecordingSizeLimit, iUiLevelCameraHandle );
}
void CCamcTest_4::RecordTimeAvailableL_004_L()
{
///////////////////////////////////////
// ID: CAMC_API.RECORDTIMEAVAILABLEL_004
// Action :
// Asking RecordTimeAvailable()
// Output :
// Value is acceptable
// Precondition :
// Not recording, size limit NOT set
///////////////////////////////////////
iCamcTestClient->Start_Active_ObjectL(
CCamcTestClient_4::K4RecordTimeAvailNotRecordingNoSizeLimit, iUiLevelCameraHandle );
}
void CCamcTest_4::RecordTimeAvailableL_006_L()
{
///////////////////////////////////////
// ID: CAMC_API.RECORDTIMEAVAILABLEL_006
// Action :
// Asking RecordTimeAvailable(), every seconds,
// and keep in memory last value for Time Remaining
// Output :
// Value is acceptable. Last value of Time Remaining <= 5 sec.
// Precondition :
// Recording, size limit NOT set
///////////////////////////////////////
TRAPD(err, iCamcTestClient->Start_Active_ObjectL(
CCamcTestClient_4::K4RecordTimeAvailUntilDiskFull, iUiLevelCameraHandle ));
assertTIntsEqualL( KErrDiskFull, err );
}
//
// An own static function to collect the test functions into one
// suite of tests. The framework will run the tests and free the
// memory allocated for the test suite.
//
// //////////////////////////////////////////////////////////////////
// Dummy Camera API callback functions
// //////////////////////////////////////////////////////////////////
void CCamcTest_4::ReserveComplete(TInt /*aError*/)
{
RDebug::Print(_L("CCamcTest_4::ReserveComplete"));
// UI level camera is being initialized
if (iWaitScheduler->IsStarted())
{
iUiLevelCamera->PowerOn();
return;
}
}
void CCamcTest_4::PowerOnComplete(TInt /*aError*/)
{
RDebug::Print(_L("CCamcTest_4::PowerOnComplete"));
// UI level camera is being initialized
if (iWaitScheduler->IsStarted())
{
iWaitScheduler->AsyncStop();
return;
}
}
void CCamcTest_4::ViewFinderFrameReady(CFbsBitmap& /*aFrame*/)
{
}
void CCamcTest_4::ImageReady(CFbsBitmap* /*aBitmap */,HBufC8* /*aData*/,TInt /*aError*/)
{
}
void CCamcTest_4::FrameBufferReady(MFrameBuffer* /*aFrameBuffer*/,TInt /*aError*/ )
{
}
// -----------------------------------------------------------------------------
// CCamcTest_4::HandleEvent
// MCameraObserver2 call-back handler
// -----------------------------------------------------------------------------
//
void CCamcTest_4::HandleEvent( const TECAMEvent& aEvent)
{
PRINT(( _L( "CCamcTest_4::HandleEvent() entering, type=%x, err=%d" ), aEvent.iEventType.iUid, aEvent.iErrorCode ));
if ( aEvent.iEventType == KUidECamEventCameraNoLongerReserved )
{
PRINT(( _L( "CCamcTest_4::HandleEvent() KUidECamEventCameraNoLongerReserved" ) ));
}
else if ( aEvent.iEventType == KUidECamEventPowerOnComplete )
{
PRINT(( _L( "CCamcTest_4::HandleEvent() KUidECamEventPowerOnComplete" ) ));
PowerOnComplete( aEvent.iErrorCode );
}
else if ( aEvent.iEventType == KUidECamEventReserveComplete )
{
PRINT(( _L( "CCamcTest_4::HandleEvent() KUidECamEventReserveComplete" ) ));
ReserveComplete( aEvent.iErrorCode );
}
PRINT(( _L( "CCamcTestClient_7::HandleEvent() returning" ) ));
}
// -----------------------------------------------------------------------------
// CCamcTest_4::ViewFinderReady
// MCameraObserver2 call-back handler
// -----------------------------------------------------------------------------
//
void CCamcTest_4::ViewFinderReady( MCameraBuffer& aCameraBuffer, TInt aError)
{
PRINT(( _L( "CCamcTest_4::ViewFinderReady() NOT HANDLED err=%d, NumFrames=%d" ), aError, aCameraBuffer.NumFrames() ));
CFbsBitmap *buffer = NULL;
if ( !aError )
{
aCameraBuffer.Release();
}
ViewFinderFrameReady( *buffer );
}
// -----------------------------------------------------------------------------
// CCamcTest_4::ImageBufferReady
// MCameraObserver2 call-back handler
// -----------------------------------------------------------------------------
//
void CCamcTest_4::ImageBufferReady( MCameraBuffer& aCameraBuffer, TInt aError)
{
PRINT(( _L( "CCamcTest_4::ImageBufferReady() BUFFER NOT HANDLED, err=%d, NumFrames=%d" ), aError, aCameraBuffer.NumFrames() ));
if ( !aError )
{
aCameraBuffer.Release();
}
ImageReady( NULL, NULL, aError );
}
// -----------------------------------------------------------------------------
// CCamcTest_4::VideoBufferReady
// MCameraObserver2 call-back handler
// -----------------------------------------------------------------------------
//
void CCamcTest_4::VideoBufferReady( MCameraBuffer& aCameraBuffer, TInt aError)
{
PRINT(( _L( "CCamcTest_4::VideoBufferReady() entering, err=%d, NumFrames=%d" ), aError, aCameraBuffer.NumFrames() ));
MFrameBuffer* buffer = NULL;
if ( !aError )
{
aCameraBuffer.Release();
}
// Call old Camera-API observer handler
FrameBufferReady( buffer, aError );
PRINT(( _L( "CCamcTest_4::VideoBufferReady() returning" )));
}
MTest* CCamcTest_4::suiteL ()
{
// Always use NewL (Do not use NewLC) !!!
CTestSuite *suite = CTestSuite::NewL(_L8("CCamcTest_4"));
CleanupStack::PushL( suite );
suite->addTestL(CTestCaller<CCamcTest_4>::NewL(_L8("CAMC_API.RECORDTIMEAVAILABLE_001"), &CCamcTest_4::RecordTimeAvailableL_001_L));
#if ! (defined (__WINS__) || defined (__WINSCW__) )
suite->addTestL(CTestCaller<CCamcTest_4>::NewL(_L8("CAMC_API.RECORDTIMEAVAILABLE_002"), &CCamcTest_4::RecordTimeAvailableL_002_L));
#endif
suite->addTestL(CTestCaller<CCamcTest_4>::NewL(_L8("CAMC_API.RECORDTIMEAVAILABLE_003"), &CCamcTest_4::RecordTimeAvailableL_003_L));
suite->addTestL(CTestCaller<CCamcTest_4>::NewL(_L8("CAMC_API.RECORDTIMEAVAILABLE_004"), &CCamcTest_4::RecordTimeAvailableL_004_L));
// RecordTimeAvailableL_006, only to be tested on HW
// Removed from MuDo tests
#if ! (defined (__WINS__) || defined (__WINSCW__) )
// suite->addTestL(CTestCaller<CCamcTest_4>::NewL(_L8("CAMC_API.RECORDTIMEAVAILABLE_006"), &CCamcTest_4::RecordTimeAvailableL_006_L));
#endif
CleanupStack::Pop( suite );
return suite;
}