mmsharing/mmshavailability/tsrc/ut_availability/src/UT_CMusAvaDefaultOptionHandler.cpp
/*
* Copyright (c) 2004 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:
*
*/
// CLASS HEADER
#include "UT_CMusAvaDefaultOptionHandler.h"
#include "musavaavailabilityobserver.h"
#include "musavaavailabilityobserverimp.h"
#include "musavasettingsimp.h"
#include "musavaobserverimp.h"
#include "musavadefaultoptionhandler.h"
#include "musavasettingsobserverimp.h"
#include "mussettingskeys.h"
#include "mussettings.h"
#include "muslogger.h"
#include "musavacapabilitytesthelper.h"
#include "CSipSseTestTls.h"
#include "musavacapabilitycontext.h"
// EXTERNAL INCLUDES
#include <digia/eunit/eunitmacros.h>
#include <sipstrings.h>
#include <stringpool.h>
#include <sipservertransaction.h>
#include <siptransactionbase.h>
#include <sipheaderbase.h>
#include <SipStrConsts.h>
#include <sipresponseelements.h>
#include <sipmessageelements.h>
#include <siprequestelements.h>
#include <Uri8.h>
// INTERNAL INCLUDES
_LIT8( KMUSAVATESTSipAddress, "sip:test@10.20.30.40");
// CONSTRUCTION
UT_CMusAvaDefaultOptionHandler* UT_CMusAvaDefaultOptionHandler::NewL()
{
UT_CMusAvaDefaultOptionHandler* self = UT_CMusAvaDefaultOptionHandler::NewLC();
CleanupStack::Pop();
return self;
}
UT_CMusAvaDefaultOptionHandler* UT_CMusAvaDefaultOptionHandler::NewLC()
{
UT_CMusAvaDefaultOptionHandler* self = new( ELeave ) UT_CMusAvaDefaultOptionHandler();
CleanupStack::PushL( self );
self->ConstructL();
return self;
}
// Destructor (virtual by CBase)
UT_CMusAvaDefaultOptionHandler::~UT_CMusAvaDefaultOptionHandler()
{
}
// Default constructor
UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler()
{
}
// Second phase construct
void UT_CMusAvaDefaultOptionHandler::ConstructL()
{
// The ConstructL from the base class CEUnitTestSuiteClass must be called.
// It generates the test case table.
CEUnitTestSuiteClass::ConstructL();
}
// METHODS
void UT_CMusAvaDefaultOptionHandler::SetupL( )
{
TRAP_IGNORE( SIPStrings::OpenL() )
CSipSseTestTls::OpenL();
iStorage = CSipSseTestTls::Storage();
MultimediaSharingSettings::SetOperatorVariantSettingL( MusSettingsKeys::EStandard );
MultimediaSharingSettings::SetEdgeDtmSupportSettingL( MusSettingsKeys::EDtmModeAllowed );
iAvailabilityObserver = CMusAvaAvailabilityObserverImp::NewL();
iConcreteSettings = CMusAvaSettingsImp::NewL();
iSettingsObserverImp = CMusAvaSettingsObserverImp::NewL();
iConcreteSettings->SetObserver( *iSettingsObserverImp );
iOptionDefaultHandler = CMusAvaDefaultOptionHandler::NewL( *iAvailabilityObserver,
*iConcreteSettings );
MultimediaSharingSettings::SetCapabilityQuerySettingL(
MusSettingsKeys::ENoOptions );
}
void UT_CMusAvaDefaultOptionHandler::SetupOpSpecificL( )
{
TRAP_IGNORE( SIPStrings::OpenL() )
CSipSseTestTls::OpenL();
iStorage = CSipSseTestTls::Storage();
MultimediaSharingSettings::SetOperatorVariantSettingL( MusSettingsKeys::EOperatorSpecific );
MultimediaSharingSettings::SetEdgeDtmSupportSettingL( MusSettingsKeys::EDtmModeAllowed );
iAvailabilityObserver = CMusAvaAvailabilityObserverImp::NewL();
iConcreteSettings = CMusAvaSettingsImp::NewL();
iSettingsObserverImp = CMusAvaSettingsObserverImp::NewL();
iConcreteSettings->SetObserver( *iSettingsObserverImp );
iOptionDefaultHandler = CMusAvaDefaultOptionHandler::NewL( *iAvailabilityObserver,
*iConcreteSettings );
MultimediaSharingSettings::SetCapabilityQuerySettingL(
MusSettingsKeys::ENoOptions );
}
void UT_CMusAvaDefaultOptionHandler::Teardown( )
{
if ( iStorage )
{
iStorage->Clear();
CSipSseTestTls::Close();
iStorage = NULL;
}
SIPStrings::Close();
delete iAvailabilityObserver;
delete iConcreteSettings;
delete iSettingsObserverImp;
delete iOptionDefaultHandler;
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_NewLL( )
{
EUNIT_ASSERT( iOptionDefaultHandler );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_IncomingRequestL()
{
MultimediaSharingSettings::SetActivationSettingL( MusSettingsKeys::EAlwaysActive );
CSIPServerTransaction* serverTransaction = NULL;
serverTransaction = CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KCapabilityTestAddress_A ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
TInt ret = iOptionDefaultHandler->IncomingRequest( serverTransaction );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
CleanupStack::Pop( serverTransaction );
serverTransaction = CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EInvite ) );
CleanupStack::PushL( serverTransaction );
ret = iOptionDefaultHandler->IncomingRequest( serverTransaction );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNotFound );
CleanupStack::PopAndDestroy( serverTransaction );
iSettingsObserverImp->iOptionAllowed = EFalse;
iAvailabilityObserver->AvailabilityChanged(
MMusAvaObserver::EMusAvaDefaultOptionHandler,
MMusAvaObserver::EMusAvaStatusAvailable );
serverTransaction = CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
uri = CUri8::NewLC( Uri );
requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
ret = iOptionDefaultHandler->IncomingRequest( serverTransaction );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
CleanupStack::Pop( serverTransaction );
//IAP Request
iAvailabilityObserver->AvailabilityChanged(
MMusAvaObserver::EMusAvaDefaultOptionHandler,
MMusAvaObserver::EMusAvaStatusNotExecuted );
serverTransaction = CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
uri = CUri8::NewLC( Uri );
requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
ret = iOptionDefaultHandler->IncomingRequest( 1, serverTransaction );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
CleanupStack::Pop( serverTransaction );
serverTransaction = CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EInvite ) );
CleanupStack::PushL( serverTransaction );
ret = iOptionDefaultHandler->IncomingRequest( 1, serverTransaction );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNotFound );
CleanupStack::PopAndDestroy( serverTransaction );
iSettingsObserverImp->iOptionAllowed = EFalse;
iAvailabilityObserver->AvailabilityChanged(
MMusAvaObserver::EMusAvaOptionHandler,
MMusAvaObserver::EMusAvaStatusAvailable );
serverTransaction = CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
uri = CUri8::NewLC( Uri );
requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
ret = iOptionDefaultHandler->IncomingRequest( 1, serverTransaction );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNotFound );
CleanupStack::PopAndDestroy( serverTransaction );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_DoExecuteLL()
{
TRAPD( error, iOptionDefaultHandler->DoExecuteL() );
if ( error == KErrNoMemory ) User::Leave( error );
EUNIT_ASSERT( error == KErrNone );
EUNIT_ASSERT( iOptionDefaultHandler->State() == MMusAvaObserver::EMusAvaStatusAvailable );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_NameL()
{
EUNIT_ASSERT( iOptionDefaultHandler->Name() == MMusAvaObserver::EMusAvaDefaultOptionHandler );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_StatusL()
{
EUNIT_ASSERT( iOptionDefaultHandler->State() == MMusAvaObserver::EMusAvaStatusAvailable );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_StopL()
{
iOptionDefaultHandler->Stop();
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_IncomingOptionRequestLL()
{
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KCapabilityTestAddress_A ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
MultimediaSharingSettings::SetActivationSettingL( MusSettingsKeys::EAlwaysActive );
TRAPD( ret, iOptionDefaultHandler->IncomingOptionRequestL( serverTransaction ) );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
TUint statusCode = iStorage->iClientResponse->StatusCode();
EUNIT_ASSERT( statusCode == KMUSAVASIPTemporarilyUnavailable );
iSettingsObserverImp->iOptionAllowed = ETrue;
iAvailabilityObserver->AvailabilityChanged(
MMusAvaObserver::EMusAvaDefaultOptionHandler,
MMusAvaObserver::EMusAvaStatusAvailable );
TRAP( ret, iOptionDefaultHandler->IncomingOptionRequestL( serverTransaction ) );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
iSettingsObserverImp->iOptionAllowed = EFalse;
MultimediaSharingSettings::SetActivationSettingL( MusSettingsKeys::EActiveInHomeNetworks );
TRAP( ret, iOptionDefaultHandler->IncomingOptionRequestL( serverTransaction ) );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
MultimediaSharingSettings::SetActivationSettingL( MusSettingsKeys::ENever );
TRAP( ret, iOptionDefaultHandler->IncomingOptionRequestL( serverTransaction ) );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
statusCode = iStorage->iClientResponse->StatusCode();
EUNIT_ASSERT( statusCode == KMUSAVASIPDecline );
CleanupStack::PopAndDestroy( serverTransaction );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_IncomingOptionRequestLOpSpecificL()
{
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KCapabilityTestAddress_A ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
TRAPD( ret, iOptionDefaultHandler->IncomingOptionRequestL( serverTransaction ) );
if ( ret == KErrNoMemory ) User::Leave( ret );
EUNIT_ASSERT( ret == KErrNone );
TUint statusCode = iStorage->iClientResponse->StatusCode();
EUNIT_ASSERT( statusCode == KMUSAVASIP200 );
CleanupStack::PopAndDestroy( serverTransaction );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_ResponseLL()
{
TInt statusCode = KMUSAVASIPDecline;
RStringF reasonPhrase =
SIPStrings::StringF( SipStrConsts::EPhraseDecline);
CSIPResponseElements* respElem =
CSIPResponseElements::NewL( statusCode, reasonPhrase );
CleanupStack::PushL( respElem );
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KCapabilityTestAddress_A ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
//This transaction is not client TR
serverTransaction->iIsClientTransaction = ETrue;
serverTransaction->iState = CSIPTransactionBase::ETerminated;
TRAPD( error, iOptionDefaultHandler->ResponseL( respElem, serverTransaction ) );
if ( error == KErrNoMemory ) User::Leave( error );
EUNIT_ASSERT( error == KErrNotReady );
// Transaction state proceeding
serverTransaction->ChangeState( CSIPTransactionBase::EProceeding );
TRAP( error, iOptionDefaultHandler->ResponseL( respElem, serverTransaction ) );
if ( error == KErrNoMemory ) User::Leave( error );
EUNIT_ASSERT( error == KErrNone );
CleanupStack::PopAndDestroy( serverTransaction );
CleanupStack::Pop( respElem );
//Sent response
serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
respElem =
CSIPResponseElements::NewL( statusCode, reasonPhrase );
CleanupStack::PushL( respElem );
uri = CUri8::NewLC( Uri );
requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
serverTransaction->iIsClientTransaction = ETrue;
serverTransaction->iState = CSIPTransactionBase::ETrying;
iOptionDefaultHandler->ResponseL( respElem, serverTransaction );
CleanupStack::Pop( respElem );
statusCode = iStorage->iClientResponse->StatusCode();
EUNIT_ASSERT( statusCode == KMUSAVASIPDecline );
CleanupStack::PopAndDestroy( serverTransaction );
serverTransaction = NULL;
// response not allowed
serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EAck ) );
CleanupStack::PushL( serverTransaction );
respElem =
CSIPResponseElements::NewL( statusCode, reasonPhrase );
CleanupStack::PushL( respElem );
TRAP( error, iOptionDefaultHandler->ResponseL( respElem, serverTransaction ) );
if ( error == KErrNoMemory ) User::Leave( error );
CleanupStack::PopAndDestroy( respElem );
EUNIT_ASSERT( error == KErrNotReady );
CleanupStack::PopAndDestroy( serverTransaction );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_NoCapabilityResponseLL()
{
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KCapabilityTestAddress_A ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
serverTransaction->iIsClientTransaction = ETrue;
serverTransaction->iState = CSIPTransactionBase::ETrying;
iSettingsObserverImp->iOptionAllowed = ETrue;
iOptionDefaultHandler->NoCapabilityResponseL( serverTransaction,
KMUSAVASIPTemporarilyUnavailable,
SipStrConsts::EPhraseTemporarilyNotAvailable );
TUint statusCode = iStorage->iClientResponse->StatusCode();
EUNIT_ASSERT( statusCode == KMUSAVASIPTemporarilyUnavailable );
CleanupStack::PopAndDestroy( serverTransaction );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_NoCapabilityResponseLOpSpecificL()
{
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KCapabilityTestAddress_A ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
requestelements->SetMethodL( SIPStrings::StringF( SipStrConsts::EOptions ) );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
serverTransaction->iIsClientTransaction = ETrue;
serverTransaction->iState = CSIPTransactionBase::ETrying;
iSettingsObserverImp->iOptionAllowed = ETrue;
iOptionDefaultHandler->NoCapabilityResponseL( serverTransaction,
KMUSAVASIPTemporarilyUnavailable,
SipStrConsts::EPhraseTemporarilyNotAvailable );
TUint statusCode = iStorage->iClientResponse->StatusCode();
EUNIT_ASSERT( statusCode == KMUSAVASIP200 );
CleanupStack::PopAndDestroy( serverTransaction );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_CreateResponseLL()
{
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
CleanupStack::PushL( serverTransaction );
TUriParser8 Uri;
User::LeaveIfError( Uri.Parse( KMUSAVATESTSipAddress() ) );
CUri8* uri = CUri8::NewLC( Uri );
CSIPRequestElements* requestelements = CSIPRequestElements::NewL( uri );
CleanupStack::Pop( uri );
CleanupStack::PushL( requestelements );
serverTransaction->SetRequestElements( requestelements );
CleanupStack::Pop( requestelements );
//Sent response
serverTransaction->iIsClientTransaction = ETrue;
serverTransaction->iState = CSIPTransactionBase::ETrying;
iSettingsObserverImp->iOptionAllowed = ETrue;
CSIPResponseElements* resp =
iOptionDefaultHandler->CreateResponseL( *serverTransaction );
CleanupStack::PopAndDestroy( serverTransaction );
CleanupStack::PushL( resp );
EUNIT_ASSERT( resp->MessageElements().Content().Length() > 0);
EUNIT_ASSERT( resp->StatusCode() == KMUSAVASIP200 );
CleanupStack::PopAndDestroy( resp );
}
void UT_CMusAvaDefaultOptionHandler::UT_CMusAvaDefaultOptionHandler_TimedOutL()
{
CSIPServerTransaction* serverTransaction =
CSIPServerTransaction::NewL( SIPStrings::StringF( SipStrConsts::EOptions ) );
EUNIT_ASSERT_EQUALS(
iOptionDefaultHandler->TimedOut( *serverTransaction ),
KErrNotSupported );
delete serverTransaction;
}
// TEST TABLE
EUNIT_BEGIN_TEST_TABLE(
UT_CMusAvaDefaultOptionHandler,
"CMusAvaDefaultOptionHandler",
"UNIT" )
EUNIT_TEST(
"NewL - test ",
"CMusAvaDefaultOptionHandler",
"NewL",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_NewLL, Teardown)
EUNIT_TEST(
"IncomingRequest - test ",
"CMusAvaDefaultOptionHandler",
"IncomingRequest",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_IncomingRequestL, Teardown)
EUNIT_TEST(
"DoExecuteL - test ",
"CMusAvaDefaultOptionHandler",
"DoExecuteL",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_DoExecuteLL, Teardown)
EUNIT_TEST(
"Name - test ",
"CMusAvaDefaultOptionHandler",
"Name",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_NameL, Teardown)
EUNIT_TEST(
"Status - test ",
"CMusAvaDefaultOptionHandler",
"Status",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_StatusL, Teardown)
EUNIT_TEST(
"Stop - test ",
"CMusAvaDefaultOptionHandler",
"Stop",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_StopL, Teardown)
EUNIT_TEST(
"IncomingOptionRequestL - test ",
"CMusAvaDefaultOptionHandler",
"IncomingOptionRequestL",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_IncomingOptionRequestLL, Teardown)
EUNIT_TEST(
"IncomingOptionRequestL - Op specific test ",
"CMusAvaDefaultOptionHandler",
"IncomingOptionRequestL",
"FUNCTIONALITY",
SetupOpSpecificL, UT_CMusAvaDefaultOptionHandler_IncomingOptionRequestLOpSpecificL, Teardown)
EUNIT_TEST(
"ResponseL - test ",
"CMusAvaDefaultOptionHandler",
"ResponseL",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_ResponseLL, Teardown)
EUNIT_TEST(
"NoCapabilityResponseL - test ",
"CMusAvaDefaultOptionHandler",
"NoCapabilityResponseL",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_NoCapabilityResponseLL, Teardown)
EUNIT_TEST(
"NoCapabilityResponseL Op specific- test ",
"CMusAvaDefaultOptionHandler",
"NoCapabilityResponseL",
"FUNCTIONALITY",
SetupOpSpecificL,UT_CMusAvaDefaultOptionHandler_NoCapabilityResponseLOpSpecificL, Teardown)
EUNIT_TEST(
"CreateResponseL - test ",
"CMusAvaDefaultOptionHandler",
"CreateResponseL",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_CreateResponseLL, Teardown)
EUNIT_TEST(
"TimedOut - test ",
"CMusAvaDefaultOptionHandler",
"TimedOut",
"FUNCTIONALITY",
SetupL,UT_CMusAvaDefaultOptionHandler_TimedOutL, Teardown)
EUNIT_END_TEST_TABLE
// END OF FILE