// Copyright (c) 2007-2009 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:
// ctlbsMoLrIntByX3P.cpp
// This is the class implementation for the Mo-Lr Interrupted By X3P.cpp Result scenario Tests
//
//
// LBS includes.
#include <lbs/test/lbsnetprotocolproxy.h>
#include <lbs/lbsnetprotocolbase.h>
#include <lbs/lbsassistancedatabuilderset.h>
// LBS test includes.
#include "ctlbsX3PIntByMoLr.h"
#include <lbs/test/tlbsutils.h>
#include "argutils.h"
#include <lbs/test/activeyield.h>
const TInt KN(2); // Number of times to send the measurement from GPS to NW
/**
Static Constructor
*/
CT_LbsX3PIntByMoLr* CT_LbsX3PIntByMoLr::New(CT_LbsHybridConflictServer& aParent)
{
// Note that we do not use ELeave.
// This means that having insufficient memory will return NULL;
CT_LbsX3PIntByMoLr* testStep = new CT_LbsX3PIntByMoLr(aParent);
if (testStep)
{
TInt err = KErrNone;
TRAP(err, testStep->ConstructL());
if (err)
{
delete testStep;
testStep = NULL;
}
}
return testStep;
}
/**
* Constructor
*/
CT_LbsX3PIntByMoLr::CT_LbsX3PIntByMoLr(CT_LbsHybridConflictServer& aParent) : CT_LbsHybridConflictStep(aParent)
{
SetTestStepName(KLbsX3PIntByMoLr);
iSessionId.SetSessionOwner(KRequestUid);
iSessionId.SetSessionNum(0x0005);
}
void CT_LbsX3PIntByMoLr::ConstructL()
{
// Create the base class objects.
CT_LbsHybridConflictStep::ConstructL();
}
/**
* Destructor
*/
CT_LbsX3PIntByMoLr::~CT_LbsX3PIntByMoLr()
{
}
// Hybrid - UE Assisted MO-LR GPS ok
TVerdict CT_LbsX3PIntByMoLr::doTestStepL()
{
INFO_PRINTF1(_L("CT_LbsX3PIntByMoLr::doTestStepL()"));
// Stop the test if the preable failed
TESTL(TestStepResult() == EPass);
const TInt KTimeOut = 60*1000*1000;
// Create Network Protocol Proxy
CNetProtocolProxy* proxy = CNetProtocolProxy::NewL();
CleanupStack::PushL(proxy);
// >> AdviceSystemStatus(0) - GetCurrentCapabilitiesResponse
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgGetCurrentCapabilitiesResponse);
CLbsNetworkProtocolBase::TLbsSystemStatus status;
TInt cleanupCnt;
cleanupCnt = proxy->GetArgsLC(ENetMsgGetCurrentCapabilitiesResponse, &status);
TESTL(status == CLbsNetworkProtocolBase::ESystemStatusNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// Start Test Step
RPositionServer server;
TESTL(KErrNone == server.Connect());
CleanupClosePushL(server);
RPositioner pos;
TESTL(KErrNone == pos.Open(server));
CleanupClosePushL(pos);
// Set the max fix time for the client request to ensure the location server does not complete the request too soon during the test.
TPositionUpdateOptions posOpts(TTimeIntervalMicroSeconds(0), TTimeIntervalMicroSeconds(240000000));
pos.SetUpdateOptions(posOpts);
CPosServerWatcher *pWatch = CPosServerWatcher::NewLC(pos, *this);
// Request a self-locate MoLr.
pWatch->IssueNotifyPositionUpdate();
// >> RequestSelfLocation()
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestSelfLocation);
// Process the response.
TLbsNetSessionId* sessionId = NULL;
TLbsNetPosRequestOptionsAssistance* opts = NULL;
cleanupCnt = proxy->GetArgsLC(ENetMsgRequestSelfLocation, &sessionId, &opts);
iSessionId.SetSessionNum(sessionId->SessionNum());
iSessionId.SetSessionOwner(sessionId->SessionOwner());
CleanupStack::PopAndDestroy(cleanupCnt);
sessionId = NULL;
opts = NULL;
// << ProcessStatusUpdate(EServiceSelfLocation)
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask activeServiceMask = MLbsNetworkProtocolObserver::EServiceSelfLocation;
proxy->CallL(ENetMsgProcessStatusUpdate, &activeServiceMask);
// << ProcessLocationUpdate(SessionId, RefPosition)
TPositionInfo refPosInfo = ArgUtils::MolrReferencePositionInfo();
proxy->CallL(ENetMsgProcessLocationUpdate, &iSessionId, &refPosInfo);
// TEST: Get the ref pos app side.
CheckForObserverEventTestsL(KTimeOut, *this);
// << ProcessAssistanceData()
TLbsAsistanceDataGroup dataMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
TInt reason = KErrNone;
proxy->CallL(ENetMsgProcessAssistanceData, &dataMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(); // assistanceData
// << ProcessLocationRequest(SessionId, HybridMode, alpha2)
TBool emergency = EFalse;
MLbsNetworkProtocolObserver::TLbsNetProtocolService service = MLbsNetworkProtocolObserver::EServiceSelfLocation;
TLbsNetPosRequestQuality quality = ArgUtils::Quality();
quality.SetMaxFixTime(ArgUtils::Alpha2());
TLbsNetPosRequestMethod method = ArgUtils::RequestHybridMethod();
proxy->CallL(ENetMsgProcessLocationRequest, &iSessionId, &emergency, &service, &quality, &method);
// Now that the hybrid/alpha2 has been requested, record current time to verify alpha2 timer expires correctly.
TTime startTime;
startTime.HomeTime();
// >> RequestAssistanceData(0)
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = proxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// << NotifyPositionUpdate()
pWatch->IssueNotifyPositionUpdate();
// >> RequestAssistanceData(0)
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = proxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// Determine the value to take off the alpha2 value. This is required because we had to wait for the assistance data response.
TTimeIntervalMicroSeconds microseconds;
TTime stopTime;
stopTime.HomeTime();
microseconds = stopTime.MicroSecondsFrom(startTime);
TInt64 timeElapsed = microseconds.Int64();
TInt delta = 2 * 1000 * 1000; // 2 secs.
// >> RespondLocationRequest()
TESTL(proxy->WaitForResponse(ArgUtils::Alpha2() - timeElapsed - delta) == ENetMsgTimeoutExpired);
// Wait for and process the response.
TESTL(proxy->WaitForResponse(2 * delta) == ENetMsgRespondLocationRequest); // DONT get because the measurement data bus has not been created...
sessionId = NULL;
TPositionGpsMeasurementInfo* measurementInfo = NULL;
cleanupCnt = proxy->GetArgsLC(ENetMsgRespondLocationRequest, &sessionId, &reason, &measurementInfo);
TESTL(sessionId->SessionNum() == iSessionId.SessionNum());
TESTL(reason == KErrNone);
CleanupStack::PopAndDestroy(cleanupCnt);//sessionId, measurementInfo
// Recv -> RequestAssistanceData - we get an extra msg as the result of the A-GPS manager re-issueing a location request when it's
// max fix time timer expries.
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = proxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
const TInt t = 8 * 1000 * 1000; // 8 secs.
quality.SetMaxFixTime(t);
TPositionInfo* positionInfo = NULL;
for (TInt i = 0; i < KN; i++)
{
// << ProcessLocationRequest(SessionId, HybridMode, t)
proxy->CallL(ENetMsgProcessLocationRequest, &iSessionId, &emergency, &service, &quality, &method);
// >> RequestAssistanceData(0)
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = proxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// >> RespondLocationRequest() - first measurement, second position.
TESTL(proxy->WaitForResponse(t + delta) == ENetMsgRespondLocationRequest);
sessionId = NULL;
// Expect measurement first time.
if (i < (KN-1))
{
measurementInfo = NULL;
cleanupCnt = proxy->GetArgsLC(ENetMsgRespondLocationRequest, &sessionId, &reason, &measurementInfo);
// Check it is measurement
TESTL(measurementInfo->PositionClassType() == EPositionGpsMeasurementInfoClass);
// >> RequestAssistanceData - we get an extra msg as the result of the A-GPS manager re-issueing a location request when it's
// max fix time timer expries.
TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt += proxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
TESTL(sessionId->SessionNum() == iSessionId.SessionNum());
TESTL(reason == KErrNone);
}
// Expect position second time.
else
{
cleanupCnt = proxy->GetArgsLC(ENetMsgRespondLocationRequest, &sessionId, &reason, &positionInfo);
// check it is a position
TESTL(positionInfo->PositionClassType() == (EPositionInfoClass|EPositionCourseInfoClass|EPositionSatelliteInfoClass|EPositionExtendedSatelliteInfoClass));
TESTL(sessionId->SessionNum() == iSessionId.SessionNum());
TESTL(reason == KErrNone);
// Client recv - the gps position determined by the gps module.
CheckForObserverEventTestsL(KTimeOut, *this);
TESTL(iState == EGpsLocReceived);
// << ProcessLocationUpdate(SessionId, FinalNetworkPosition)
// Return modules' position as FinalNetworkPosition
proxy->CallL(ENetMsgProcessLocationUpdate, &iSessionId, positionInfo);
}
CleanupStack::PopAndDestroy(cleanupCnt);// sessionId, measurementInfo/positionInfo
}
// << ProcessSessionComplete(SessionId, KErrNone)
reason = KErrNone;
proxy->CallL(ENetMsgProcessSessionComplete, &iSessionId, &reason);
// << ENetMsgProcessStatusUpdate()
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask serviceMask = MLbsNetworkProtocolObserver::EServiceNone;
proxy->CallL(ENetMsgProcessStatusUpdate, &serviceMask);
// Done. Now cleanup...
CleanupStack::PopAndDestroy(pWatch);
CleanupStack::PopAndDestroy(); // pos
CleanupStack::PopAndDestroy(); // server
CleanupStack::PopAndDestroy(proxy);
return TestStepResult();
}
// MPosServerObserver
void CT_LbsX3PIntByMoLr::OnGetLastKnownPosition(TInt32 /*aErr*/, const TPositionInfoBase& /*aPosInfo*/)
{
TEST(EFalse); // Shouldn't see this...
ReturnToTestStep();
}
void CT_LbsX3PIntByMoLr::OnNotifyPositionUpdate(TInt32 aErr, const TPositionInfoBase& aPosInfo)
{
// Verify error.
TEST(aErr == KErrNone);
// Verify position.
TEST(aPosInfo.PositionClassType() == EPositionInfoClass);
// Expecting ref pos.
if (iState == EInitializing)
{
iState = ERefLocReceived;
TEST(aPosInfo.PositionMode() == TPositionModuleInfo::ETechnologyNetwork);
}
// Expecting network pos.
else if (iState == ERefLocReceived)
{
iState = EGpsLocReceived;
TEST(aPosInfo.PositionMode() == (TPositionModuleInfo::ETechnologyTerminal | TPositionModuleInfo::ETechnologyAssisted));
}
// Not expecting anything else.
else
{
TEST(EFalse);
}
ReturnToTestStep();
}