void UT_CNATFWStunConnectionHandler::UT_CNATFWStunConnectionHandler_GetConnectionIdLL( ) { // Matching candidate CNATFWCandidate* candidate = CNATFWCandidate::NewL(); CleanupStack::PushL( candidate ); candidate->SetStreamId( 222 ); candidate->SetType( CNATFWCandidate::EServerReflexive ); candidate->SetBase( KInetAddrAny ); candidate->SetTransportAddrL( KInetAddrAny ); // Non-matching candidate CNATFWCandidate* candidate2 = CNATFWCandidate::NewL(); CleanupStack::PushL( candidate2 ); candidate2->SetStreamId( 222 ); // create STUN Client iConnHandler->TryNextServerL(); // Store stream ID and create connection to array iConnHandler->FetchCandidateL( iStreamId, 0, KAFUnspec, KAFUnspec ); iConnHandler->iStreamArray[0].iConnArray[0].iConnectionId = 2; iConnHandler->iStreamArray[0].iConnArray[0].iLocalCandidate = candidate; TUint connectionId( 0 ); EUNIT_ASSERT_LEAVE( iConnHandler->GetConnectionIdL( *candidate2, 222, connectionId ) ); connectionId = 0; NATFW_EUNIT_ASSERT_NO_LEAVE( iConnHandler->GetConnectionIdL( *candidate, 222, connectionId ) ); CleanupStack::PopAndDestroy(); CleanupStack::PopAndDestroy(); }
void UT_CNATFWStunConnectionHandler::UT_CNATFWStunConnectionHandler_ConnectionByIdL( ) { // create STUN Client iConnHandler->TryNextServerL(); // Store stream ID and create connection to array iConnHandler->FetchCandidateL( iStreamId, 0, KAFUnspec, KAFUnspec ); TUint streamIndex( 0 ); TUint connectionId( 3 ); TConnectionData* connection = iConnHandler->ConnectionById( streamIndex, connectionId ); if ( connection ) { EUNIT_ASSERT( EFalse ); } connectionId = 2; connection = iConnHandler->ConnectionById( streamIndex, connectionId ); if ( !connection ) { EUNIT_ASSERT( EFalse ); } }
void UT_CIceHostResolver::UT_CICEHostResolver_GetConnectionIdLL() { UT_CICEHostResolver_FetchCandidateLL(); // test with host, stun & relay candidates TInt hostCandidateInd( KErrNotFound ); TUint connectionId( 0 ); for ( TInt i(0); i < iLocalCandidates.Count(); ++i ) { if ( TIceTestUtils::AllocTestEnabled() ) { iResolver->GetConnectionIdL( *iLocalCandidates[i], connectionId ); } else { if ( CNATFWCandidate::EHost == iLocalCandidates[i]->Type() ) { hostCandidateInd = i; EUNIT_ASSERT_NO_LEAVE( iResolver->GetConnectionIdL( *iLocalCandidates[i], connectionId ) ); } else { EUNIT_ASSERT_SPECIFIC_LEAVE( iResolver->GetConnectionIdL( *iLocalCandidates[i], connectionId ), KErrNotFound ); } } } // test with peer reflexive candidate if ( KErrNotFound != hostCandidateInd ) { CNATFWCandidate* peerCandidate = CNATFWCandidate::NewLC( *iLocalCandidates[hostCandidateInd] ); peerCandidate->SetType( CNATFWCandidate::EPeerReflexive ); if ( TIceTestUtils::AllocTestEnabled() ) { iResolver->GetConnectionIdL( *peerCandidate, connectionId ); } else { EUNIT_ASSERT_NO_LEAVE( iResolver->GetConnectionIdL( *peerCandidate, connectionId ) ); } CleanupStack::PopAndDestroy( peerCandidate ); } }
void NodeGraphNodeConnector::visit( he::io::StructuredVisitor* const visitor ) { if (m_Type == eNodeGraphNodeConnectorType_Input) { if (visitor->enterNode(m_Id)) { if (visitor->isReading()) disconnectAll(); visitor->visitCustomList<NodeGraphNodeConnector*>(he::HEFS::strConnections, m_Connections, [this](he::io::StructuredVisitor* visitor, size_t /*index*/, NodeGraphNodeConnector*& val) { he::Guid nodeId(val->m_Parent->getParent()->getGuid()); if (visitor->visit(HSFS::strNodeID, nodeId)) { he::FixedString connectionId(val->getId()); if (visitor->visit(HSFS::strConnectionID, connectionId)) { if (visitor->isReading()) { NodeGraphNode* node(m_Parent->getParent()->getParent()->getNode(nodeId)); if (node) { node->getAttachments().forEach([this, &connectionId](NodeGraphNodeAttachment* att) { NodeGraphNodeConnector* connector(att->getNodeConnector()); if (connector && connector->getId() == connectionId) { connector->connect(this); } }); } } } } }); visitor->exitNode(m_Id); } } }