// 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:
// This is the class implementation for the MTLR GPS Mode Tests
// EPOC includes.sue
//
//
// LBS includes.
#include <lbssatellite.h>
#include <lbs/lbsnetprotocolbase.h>
#include <lbs/lbsassistancedatabuilderset.h>
#include <e32math.h>
#include <lbs/lbsloccommon.h>
#include <lbs/lbsnetprotocolbase.h>
#include <lbs/lbslocdatasourceclasstypes.h>
#include <lbs/lbslocdatasourcegpsbase.h>
#include <e32property.h>
#include <lbserrors.h>
#include "lbsnetinternalapi.h"
#include "LbsInternalInterface.h"
#include "LbsExtendModuleInfo.h"
#include "lbsdevloggermacros.h"
// LBS test includes.
#include "ctlbsmtlrresetassistance.h"
#include <lbs/test/tlbsutils.h>
#include "argutils.h"
#include <lbs/test/activeyield.h>
const TInt KTimeOut = 60*1000*1000;
const TInt KAdviceSystemStatusTimeout = 40*1000*1000;
const TInt KSmallTimeOut = 3*1000*1000;
const TInt KTimeoutWaitingForResetAssistanceData = 2 * 1000 * 1000;
/**
Static Constructor
*/
CT_LbsMTLRResetAssistance* CT_LbsMTLRResetAssistance::New(CT_LbsHybridMTLRServer& aParent)
{
// Note the lack of ELeave.
// This means that having insufficient memory will return NULL;
CT_LbsMTLRResetAssistance* testStep = new CT_LbsMTLRResetAssistance(aParent);
if (testStep)
{
TInt err = KErrNone;
TRAP(err, testStep->ConstructL());
if (err)
{
delete testStep;
testStep = NULL;
}
}
return testStep;
}
/**
* Constructor
*/
CT_LbsMTLRResetAssistance::CT_LbsMTLRResetAssistance(CT_LbsHybridMTLRServer& aParent)
: CT_LbsHybridMTLRStep(aParent), iProxy(NULL),
iNetworkMethod(ENetworkMethodInvalid),
iPlannedPositionOriginator(EPositionOriginatorUnkown),
iNetRequestRejected(EFalse),
iAdminGpsMode(CLbsAdmin::EGpsModeUnknown)
{
SetTestStepName(KLbsMTLRResetAssistance);
iState = EInitializing;
iSessionId.SetSessionOwner(KRequestUid);
iSessionId.SetSessionNum(0x0005);
}
void CT_LbsMTLRResetAssistance::ConstructL()
{
// Create the base class objects.
CT_LbsHybridMTLRStep::ConstructL();
iController = CLbsPrivacyController::NewL(*this);
}
/**
* Destructor
*/
CT_LbsMTLRResetAssistance::~CT_LbsMTLRResetAssistance()
{
delete iController;
}
TVerdict CT_LbsMTLRResetAssistance::doTestStepPreambleL()
{
INFO_PRINTF1(_L(">>CT_LbsMTLRResetAssistance::doTestStepPreambleL()"));
CT_LbsHybridMTLRStep::doTestStepPreambleL();
iNetworkExpectsMeasurements = EFalse;
iNetworkExpectsPositions = EFalse;
// Get the GPS mode set in the Admin
CLbsAdmin* admin = CLbsAdmin::NewL();
CleanupStack::PushL(admin);
TESTL(KErrNone == admin->Get(KLbsSettingRoamingGpsMode, iAdminGpsMode));
CleanupStack::PopAndDestroy(admin);
// Set the network step
iNetworkMethod = ENetworkMethodInvalid;
SetTestStepResult(EPass);
T_LbsUtils utils;
// Get the Network Method
_LIT(KNetworkMethod, "NetworkMethod");
TInt networkMethodInt;
if(GetIntFromConfig(ConfigSection(), KNetworkMethod, networkMethodInt))
{
iNetworkMethod = static_cast<TChosenNetworkMethod>(networkMethodInt);
TEST(iNetworkMethod != ENetworkMethodInvalid);
}
else
{
INFO_PRINTF1(_L("CT_LbsMTLRResetAssistance::doTestStepPreambleL() - FAILED: no network method configured"));
TEST(EFalse);
}
// Is network method supported by module?
TPositionModuleInfoExtended::TDeviceGpsModeCapabilities deviceCapabilities;
TInt err = LbsModuleInfo::GetDeviceCapabilities(KLbsGpsLocManagerUid, deviceCapabilities);
if((!(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeTerminalAssisted)) && (!(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeSimultaneousTATB)))
{
if(iNetworkMethod == ETerminalAssistedNetworkMethod)
{
iNetRequestRejected = ETrue;
}
}
if((!(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeTerminalBased)) && (!(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeSimultaneousTATB)))
{
if(iNetworkMethod == ETerminalBasedNetworkMethod)
{
iNetRequestRejected = ETrue;
}
}
// Get the position originator
_LIT(KPositionOriginator, "PositionOriginator");
TInt positionOriginatorInt;
if(GetIntFromConfig(ConfigSection(), KPositionOriginator, positionOriginatorInt))
{
iPlannedPositionOriginator = static_cast<TPlannedPositionOriginator>(positionOriginatorInt);
TEST(iPlannedPositionOriginator != EPositionOriginatorUnkown);
}
else
{
INFO_PRINTF1(_L("CT_LbsMTLRResetAssistance::doTestStepPreambleL() - FAILED: no position originator configured"));
TEST(EFalse);
}
// Get the step for sending reset
_LIT(KStepForSendingReset, "StepForReset");
TInt stepForResetInt;
if(GetIntFromConfig(ConfigSection(), KStepForSendingReset, stepForResetInt))
{
iStepForSendingReset = static_cast<TNetworkStep>(stepForResetInt);
TEST(iStepForSendingReset >= EInitial && iStepForSendingReset <= EAfterSessionClose);
}
else
{
INFO_PRINTF1(_L("CT_LbsMTLRResetAssistance::doTestStepPreambleL() - FAILED: no step for sending reset configured"));
TEST(EFalse);
}
// Get the warm up option
_LIT(KWarmUpModule, "WarmUpModule");
TInt warmUpModuleInt;
if(GetIntFromConfig(ConfigSection(), KWarmUpModule, warmUpModuleInt))
{
iWarmUpModule = warmUpModuleInt == 0 ? EFalse : ETrue;
}
else
{
iWarmUpModule = EFalse;
}
// Get the warm up option
_LIT(KResetMark, "ResetMask");
TInt resetMask;
if(!GetIntFromConfig(ConfigSection(), KResetMark, resetMask))
{
resetMask = 0xFFFFFFFF;
}
iResetMask = resetMask;
iProxy = CNetProtocolProxy::NewL();
return TestStepResult();
}
TVerdict CT_LbsMTLRResetAssistance::doTestStepPostambleL()
{
INFO_PRINTF1(_L(">>CT_LbsMTLRResetAssistance::doTestStepPostambleL()"));
iNetworkExpectsMeasurements = EFalse;
iNetworkExpectsPositions = EFalse;
iNetworkMethod = ENetworkMethodInvalid;
iPlannedPositionOriginator = EPositionOriginatorUnkown;
delete iProxy;
iProxy = NULL;
CT_LbsHybridMTLRStep::doTestStepPostambleL();
return TestStepResult();
}
TVerdict CT_LbsMTLRResetAssistance::doTestStepL()
{
INFO_PRINTF1(_L("CT_LbsMTLRResetAssistance::doTestStepL()"));
// Stop the test if the preamble failed
TESTL(TestStepResult() == EPass);
// >> AdviceSystemStatus(0)
TESTL(iProxy->WaitForResponse(KAdviceSystemStatusTimeout) == ENetMsgGetCurrentCapabilitiesResponse);
INFO_PRINTF1(_L(">> AdviceSystemStatus(ESystemStatusNone)"));
CLbsNetworkProtocolBase::TLbsSystemStatus status;
TInt cleanupCnt;
cleanupCnt = iProxy->GetArgsLC(ENetMsgGetCurrentCapabilitiesResponse, &status);
TESTL(status == CLbsNetworkProtocolBase::ESystemStatusNone);
CleanupStack::PopAndDestroy(cleanupCnt);
TBool moduleWarmedUp(EFalse);
TBool expectExtraRequestForAssistanceData(EFalse);
do
{
iState = EInitializing;
if(moduleWarmedUp)
{
iWarmUpModule = EFalse;
}
if(!iWarmUpModule && iStepForSendingReset == EBeforeSession)
{
SendResetAssistanceDataL();
}
// Initiate MTLR Start
// << ProcessStatusUpdate()
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask activeServiceMask = MLbsNetworkProtocolObserver::EServiceMobileTerminated;
INFO_PRINTF1(_L("<< ProcessStatusUpdate(EServiceMobileTerminated)"));
iProxy->CallL(ENetMsgProcessStatusUpdate, &activeServiceMask);
// << ProcessPrivacyRequest()
const TBool emergency = EFalse; // lrm - why is this true in hybrid mtlr testing!?
TLbsNetPosRequestPrivacy privacy = ArgUtils::Privacy(); // notify allow
TLbsExternalRequestInfo requestInfo = ArgUtils::RequestInfo();
INFO_PRINTF1(_L("<< ProcessPrivacyRequest()"));
iProxy->CallL(ENetMsgProcessPrivacyRequest, &iSessionId, &emergency, &privacy, &requestInfo);
// >> ProcessNetworkLocationRequest() callback
CheckForObserverEventTestsL(KTimeOut, *this);
// >> Respond Privacy Request
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRespondPrivacyRequest);
INFO_PRINTF1(_L(">> RespondPrivacyRequest(EPrivacyResponseAccepted)"));
TLbsNetSessionId* getSessionId = NULL;
CLbsNetworkProtocolBase::TLbsPrivacyResponse getPrivacy;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondPrivacyRequest, &getSessionId, &getPrivacy);
TESTL(getSessionId->SessionNum()==iSessionId.SessionNum());
TESTL(getPrivacy==CLbsNetworkProtocolBase::EPrivacyResponseAccepted);
CleanupStack::PopAndDestroy(cleanupCnt);//getSessionId
if(!iWarmUpModule && iStepForSendingReset == EBeginningOfSession)
{
SendResetAssistanceDataL();
}
// MTLR Reference Position Notification Start
// << ProcessLocationUpdate()
TPositionInfo positionInfo = ArgUtils::ReferencePositionInfo();
INFO_PRINTF1(_L("<< ProcessLocationUpdate(ref pos)"));
iProxy->CallL(ENetMsgProcessLocationUpdate, &iSessionId, &positionInfo);
// MTLR Reference Position Notification Stop
TInt reason = KErrNone;
if(iNetworkMethod != EAutonomousNetworkMethod || iWarmUpModule)
{
// MTLR Assistance Data Notification Start
// << ProcessAssistanceData()
TLbsAsistanceDataGroup dataRequestMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
reason = KErrNone;
INFO_PRINTF1(_L("<< ProcessAssistanceData(EAssistanceDataReferenceTime)"));
iProxy->CallL(ENetMsgProcessAssistanceData, &dataRequestMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(); //assistanceData
// MTLR Assistance Data Notification Stop
if(!iWarmUpModule && iStepForSendingReset == EAfterAssistanceData)
{
expectExtraRequestForAssistanceData = SendResetAssistanceDataL();
}
}
// MTLR Network Location Request Start
// << ProcessLocationRequest()
MLbsNetworkProtocolObserver::TLbsNetProtocolService service = MLbsNetworkProtocolObserver::EServiceMobileTerminated;
TLbsNetPosRequestQuality quality = ArgUtils::QualityAlpha2();
TLbsNetPosRequestMethod method = RequestNetworkMethod(iWarmUpModule);
INFO_PRINTF1(_L("<< ProcessLocationRequest(timeout = alpha2)"));
iProxy->CallL(ENetMsgProcessLocationRequest, &iSessionId, &emergency, &service, &quality, &method);
// MTLR Network Location Request Stop
// Initiate MTLR End
//Start the timer
TTime timerStart;
timerStart.HomeTime();
// >> ProcessNetworkPositionUpdate(refPosition) callback
CheckForObserverEventTestsL(KSmallTimeOut, *this);
if(!iNetRequestRejected)
{
// >> RequestAssistanceData()
TESTL(iProxy->WaitForResponse(KSmallTimeOut) == ENetMsgRequestAssistanceData);
TLbsAsistanceDataGroup dataGroup;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataGroup);
if(!expectExtraRequestForAssistanceData || (iNetworkMethod == EAutonomousNetworkMethod && !iWarmUpModule))
{
INFO_PRINTF1(_L(">> RequestAssistanceData(0)"));
TESTL(dataGroup == EAssistanceDataNone);
}
else
{
expectExtraRequestForAssistanceData = EFalse;
INFO_PRINTF1(_L(">> RequestAssistanceData(EAssistanceDataReferenceTime)"));
TESTL(dataGroup == EAssistanceDataReferenceTime);
// << ProcessAssistanceData(EAssistanceDataReferenceTime)
TLbsAsistanceDataGroup dataRequestMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
reason = KErrNone;
INFO_PRINTF1(_L("<< ProcessAssistanceData(EAssistanceDataReferenceTime)"));
iProxy->CallL(ENetMsgProcessAssistanceData, &dataRequestMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(&assistanceData);
}
CleanupStack::PopAndDestroy(cleanupCnt);
}
DecideWhatNetworkReceives(); // lrm - hit this line before request from network has been processed!?
/*** NRH's Alpha2 timer expires; should get a response now ***/
//Find the time elapsed from timer
TTimeIntervalMicroSeconds microseconds;
TTime timerStop;
timerStop.HomeTime();
microseconds = timerStop.MicroSecondsFrom(timerStart);
TInt64 timeElapsed = microseconds.Int64();
TInt delta = 1000*1000; // 1s
getSessionId = NULL;
TInt getReason = KErrNone;
TPositionSatelliteInfo* getPositionInfo = NULL;
TPositionGpsMeasurementInfo* getMeasurementInfo = NULL;
// >> RespondLocationRequest()
if(iNetRequestRejected) // network has asked for an unsupported gps mode
{// we may get an error response _before_ alpha2 timer expires
TESTL(iProxy->WaitForResponse(KAlpha2Timeout-timeElapsed+delta) == ENetMsgRespondLocationRequest);
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondLocationRequest, &getSessionId, &getReason, &getPositionInfo);
INFO_PRINTF2(_L(">> RespondLocationRequest(%d)"), getReason);
TEST(getReason==KErrNotSupported);
CleanupStack::PopAndDestroy(cleanupCnt);
}
else
{
// The measurements:
if(iNetworkExpectsMeasurements) // If network expecting measurements, they will come first
{
// >> RespondLocationRequest(meas)
//Test that we do not get response before alpha2 has expired
TESTL(iProxy->WaitForResponse(KAlpha2Timeout-timeElapsed-delta) == ENetMsgTimeoutExpired);
INFO_PRINTF1(_L(" No RespondLocationRequest before Alpha2 timer expired"));
TESTL(iProxy->WaitForResponse(2*delta) == ENetMsgRespondLocationRequest);
INFO_PRINTF1(_L(">> RespondLocationRequest(meas)"));
getSessionId = NULL;
TInt getReason = KErrNone;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondLocationRequest, &getSessionId, &getReason, &getMeasurementInfo);
TESTL(getSessionId->SessionNum() == iSessionId.SessionNum());
TESTL(getReason==KErrNone);
CleanupStack::PopAndDestroy(cleanupCnt);
if(!iWarmUpModule && iStepForSendingReset == EAfterMeasurements)
{
expectExtraRequestForAssistanceData = SendResetAssistanceDataL();
}
// Make another request from the network
//<< ProcessLocationRequest()
quality = ArgUtils::Quality(); //Set timeout to t
INFO_PRINTF1(_L("<< ProcessLocationRequest(timeout = t)"));
iProxy->CallL(ENetMsgProcessLocationRequest, &iSessionId, &emergency, &service, &quality, &method);
TESTL(iProxy->WaitForResponse(KSmallTimeOut) == ENetMsgRequestAssistanceData);
TLbsAsistanceDataGroup dataGroup;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataGroup);
if(!expectExtraRequestForAssistanceData)
{
INFO_PRINTF1(_L(">> RequestAssistanceData(0)"));
TESTL(dataGroup == EAssistanceDataNone);
}
else
{
expectExtraRequestForAssistanceData = EFalse;
INFO_PRINTF1(_L(">> RequestAssistanceData(EAssistanceDataReferenceTime)"));
TESTL(dataGroup == EAssistanceDataReferenceTime);
// << ProcessAssistanceData(EAssistanceDataReferenceTime)
TLbsAsistanceDataGroup dataRequestMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
reason = KErrNone;
INFO_PRINTF1(_L("<< ProcessAssistanceData(EAssistanceDataReferenceTime)"));
iProxy->CallL(ENetMsgProcessAssistanceData, &dataRequestMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(&assistanceData);
}
CleanupStack::PopAndDestroy(cleanupCnt);
}
// The final position:
if(iPlannedPositionOriginator == EPositionOriginatorModule)
{
// The module should return the position
INFO_PRINTF1(_L(" Network expecting position"));
// >> RespondLocationRequest() position.
TESTL(iProxy->WaitForResponse(KTTimeout + delta) == ENetMsgRespondLocationRequest);
INFO_PRINTF1(_L(">> RespondLocationRequest(gpspos)"));
getPositionInfo = NULL;
getSessionId = NULL;
getReason = KErrNone;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondLocationRequest, &getSessionId, &getReason, &getPositionInfo);
// check it is a position
TESTL(getPositionInfo->PositionClassType() == (EPositionInfoClass|EPositionCourseInfoClass|EPositionSatelliteInfoClass|EPositionExtendedSatelliteInfoClass));
TESTL(getSessionId->SessionNum() == iSessionId.SessionNum());
TESTL(getReason == KErrNone);
TESTL(getPositionInfo->PositionMode() == TPositionModuleInfo::ETechnologyTerminal | TPositionModuleInfo::ETechnologyAssisted);
// Test position is the same as in the ini file data fed to the GPS module ($update,1,0,49.2,3.5,50,20,20*)
TPosition gpsPos;
getPositionInfo->GetPosition(gpsPos);
TESTL(gpsPos.Latitude()==49.2 && gpsPos.Longitude()==3.5 && gpsPos.Altitude()==50 && gpsPos.HorizontalAccuracy()==20 && gpsPos.VerticalAccuracy()==20);
CleanupStack::PopAndDestroy(cleanupCnt);
if(!iWarmUpModule && iStepForSendingReset == EAfterPosition)
{
SendResetAssistanceDataL();
}
//<< ProcessNetworkPositionUpdate(GPS Pos) Callback
CheckForObserverEventTestsL(KTimeOut, *this);
TESTL(iState==EGpsLocReceived);
}
else // position supplied by network
{
__ASSERT_DEBUG(iPlannedPositionOriginator == EPositionOriginatorNetwork, User::Invariant());
// privacy app doesn't see network-calculated position, so nothing much happens in this case
}
}
// MTLR Session Completion Start
// << ProcessSessionComplete()
if(iNetRequestRejected)
{
reason = KErrNotSupported;
}
else
{
reason = KErrNone;
}
INFO_PRINTF1(_L("<< ProcessSessionComplete()"));
iProxy->CallL(ENetMsgProcessSessionComplete, &iSessionId, &reason);
if(!iWarmUpModule && iStepForSendingReset == EAfterSessionClose)
{
SendResetAssistanceDataL();
}
// << ProcessStatusUpdate()
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask activeServiceMask2 = MLbsNetworkProtocolObserver::EServiceNone;
INFO_PRINTF1(_L("<< ProcessStatusUpdate(EServiceNone)"));
iProxy->CallL(ENetMsgProcessStatusUpdate, &activeServiceMask2);
// >> ProcessRequestComplete() callback
CheckForObserverEventTestsL(KTimeOut, *this);
// Verify that the last callback was to ProcessSessionComplete()
TESTL(iState==ERequestComplete);
moduleWarmedUp = ETrue;
} while(iWarmUpModule);
// MTLR Session Completion Stop
return TestStepResult();
}
TLbsNetPosRequestMethod CT_LbsMTLRResetAssistance::RequestNetworkMethod(TBool aWarmUp)
/**
This method will chose the appropiate method requested by the network, depending
on the test settings
@return The network method
*/
{
TLbsNetPosRequestMethod method;
if(aWarmUp)
{ // warm up in TB
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestTerminalBasedMethod();
return method;
}
switch(iNetworkMethod)
{
case ETerminalBasedNetworkMethod:
{
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestTerminalBasedMethod();
break;
}
case ETerminalBasedTerminalAssistedNetworkMethod:
{
iNetworkExpectsMeasurements = ETrue;
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestHybridMethod();
break;
}
case ETerminalAssistedNetworkMethod:
{
iNetworkExpectsMeasurements = ETrue;
method = ArgUtils::RequestTAPMethod();
break;
}
case ETerminalAssistedTerminalBasedNetworkMethod:
{
iNetworkExpectsMeasurements = ETrue;
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestTerminalAssistedAndTerminalBasedMethod();
break;
}
case EAutonomousNetworkMethod:
{
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestAutonomousMethod();
break;
}
case ENetworkMethodNotSet:
{
//we should set mode according to default admin
TEST(iAdminGpsMode != CLbsAdmin::EGpsModeUnknown);
switch(iAdminGpsMode)
{
case CLbsAdmin::EGpsPreferTerminalBased:
{
iNetworkExpectsPositions = ETrue;
break;
}
case CLbsAdmin::EGpsPreferTerminalAssisted:
case CLbsAdmin::EGpsAlwaysTerminalAssisted:
{
iNetworkExpectsMeasurements = ETrue;
break;
}
case CLbsAdmin::EGpsAutonomous: // test framework doesn't currently support this
default:
{
User::Invariant();
}
}
method = ArgUtils::RequestUnspecifiedMethod();
break;
}
default:
{
method = ArgUtils::RequestHybridMethod();
User::Invariant();
}
}
return method;
}
void CT_LbsMTLRResetAssistance::DecideWhatNetworkReceives()
/**
This method checks what the module was finally set to and decides if the network
should expect measuments, or positions
*/
{
TLbsGpsOptionsArray options;
TPckg<TLbsGpsOptionsArray> pckgOptions(options);
TEST(KErrNone == RProperty::Get(KUidSystemCategory, ELbsTestAGpsModuleModeChanges, pckgOptions));
if(options.ClassType() & ELbsGpsOptionsArrayClass)
{
if(options.NumOptionItems() > 1)
{
// don't change anything (from what was set in RequestNetworkMethod()), the module is running in hybrid
return;
}
}
switch(options.GpsMode())
{
case CLbsAdmin::EGpsAutonomous:
{
INFO_PRINTF1(_L(" Module was asked to use Autonomous mode"));
iNetworkExpectsPositions = EFalse;
iNetworkExpectsMeasurements = EFalse;
break;
}
case CLbsAdmin::EGpsPreferTerminalBased:
case CLbsAdmin::EGpsAlwaysTerminalBased:
{
INFO_PRINTF1(_L(" Module was asked to use Terminal Based mode"));
iNetworkExpectsMeasurements = EFalse;
break;
}
case CLbsAdmin::EGpsPreferTerminalAssisted:
case CLbsAdmin::EGpsAlwaysTerminalAssisted:
{
INFO_PRINTF1(_L(" Module was asked to use Terminal Assisted mode"));
iNetworkExpectsPositions = EFalse;
break;
}
default:
{
// change nothing
}
return;
}
}
void CT_LbsMTLRResetAssistance::ProcessNetworkLocationRequest(TUint aRequestId, const TLbsExternalRequestInfo& /*aRequestInfo*/, const TNotificationType& /*aNotificationType*/)
{
TEST(iState==EInitializing);
INFO_PRINTF1(_L(">> ProcessNetworkLocationRequest()"));
iController->RespondNetworkLocationRequest(aRequestId, CLbsPrivacyController::ERequestAccepted);
iState = EPrivacyCheckOk;
ReturnToTestStep();
}
void CT_LbsMTLRResetAssistance::ProcessNetworkPositionUpdate(TUint /*aRequestId*/, const TPositionInfo& aPosInfo)
{
if(iState==EPrivacyCheckOk) // waiting for ref pos
{
iState=ERefLocReceived;
INFO_PRINTF1(_L(">> Privacy App - ProcessNetworkPositionUpdate(Ref pos)"));
}
else if(iState==ERefLocReceived) // waiting for gps pos
{
TPosition getPos;
aPosInfo.GetPosition(getPos);
TESTL(aPosInfo.PositionModeReason() == EPositionModeReasonNone);
// Verify we got what network sent:
if(iPlannedPositionOriginator == EPositionOriginatorModule)
{
TESTL(aPosInfo.PositionMode() == TPositionModuleInfo::ETechnologyTerminal | TPositionModuleInfo::ETechnologyAssisted);
// compare to gps pos in test ini ($update,1,0,49.2,3.5,50,20,20*) :
TESTL(getPos.Latitude()==49.2 && getPos.Longitude()==3.5 && getPos.Altitude()==50 && getPos.HorizontalAccuracy()==20 && getPos.VerticalAccuracy()==20);
}
else
{// compare to gps pos supplied by network:
TPositionInfo positionInfo = ArgUtils::AccurateNetworkPositionInfo();
TPosition getFNP;
positionInfo.GetPosition(getFNP);
TESTL(aPosInfo.PositionMode() == TPositionModuleInfo::ETechnologyNetwork | TPositionModuleInfo::ETechnologyAssisted);
TESTL(getPos.Latitude()==getFNP.Latitude() && getPos.Longitude()==getFNP.Longitude() && getPos.Altitude()==getFNP.Altitude() && getPos.HorizontalAccuracy()==getFNP.HorizontalAccuracy() && getPos.VerticalAccuracy()==getFNP.VerticalAccuracy());
}
INFO_PRINTF1(_L(">> Privacy App - ProcessNetworkPositionUpdate(Gps pos)"));
iState=EGpsLocReceived;
}
ReturnToTestStep();
}
void CT_LbsMTLRResetAssistance::ProcessRequestComplete(TUint /*aRequestId*/, TInt aReason)
{
INFO_PRINTF2(_L(">> Privacy App - ProcessRequestComplete(%d)"), aReason);
if(!iNetRequestRejected && (iPlannedPositionOriginator == EPositionOriginatorModule))
{
TEST(iState==EGpsLocReceived);
}
if(iNetRequestRejected)
{
TEST(aReason == KErrNotSupported);
}
else
{
TEST(aReason == KErrNone);
}
iState=ERequestComplete;
ReturnToTestStep();
}
TBool CT_LbsMTLRResetAssistance::SendResetAssistanceDataL()
{
// First make sure that no reset of assistance data has been received by the GPS module
RProperty resetAssistanceDataReceivedProperty;
User::LeaveIfError(resetAssistanceDataReceivedProperty.Attach(KUidSystemCategory, ELbsTestAGpsModuleResetAssistanceDataFlag));
TInt resetReceivedStatus;
TInt err = resetAssistanceDataReceivedProperty.Get(resetReceivedStatus);
TESTL(err == KErrNone || err == KErrNotFound);
if(err == KErrNone)
{
TESTL(resetReceivedStatus == ELbsTestAGpsResetAssistanceDataNotReceived);
}
// << ProcessAssistanceData(KPositionAssistanceDataReset)
RLbsAssistanceDataBuilderSet assistanceData;
CleanupClosePushL(assistanceData);
assistanceData.OpenL();
TInt reason = KPositionAssistanceDataReset;
INFO_PRINTF1(_L("<< ProcessAssistanceData(KPositionAssistanceDataReset)"));
iProxy->CallL(ENetMsgProcessAssistanceData, &iResetMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(&assistanceData);
// Now check the the module receives and verifies the ResetAssistanceData
err = resetAssistanceDataReceivedProperty.Get(resetReceivedStatus);
TESTL(err == KErrNone || err == KErrNotFound);
if(err == KErrNotFound || resetReceivedStatus != ELbsTestAGpsResetAssistanceDataReceived)
{
RTimer timeout;
timeout.CreateLocal();
CleanupClosePushL(timeout);
TRequestStatus statTime = KRequestPending,
statProp = KRequestPending;
timeout.After(statTime, KTimeoutWaitingForResetAssistanceData);
resetAssistanceDataReceivedProperty.Subscribe(statProp);
User::WaitForRequest(statProp, statTime);
if(KRequestPending == statProp.Int())
{
resetAssistanceDataReceivedProperty.Cancel();
err = KErrTimedOut;
}
else
{
err = KErrNone;
timeout.Cancel();
}
User::WaitForRequest(statProp, statTime); // Coz the one that didn't signal earlier has
// just been completed with KErrCancel, and
// we want to avoid the otherwise inevitable
// stray signal in any (nested) schedulers.
if(err == KErrNone)
{
err = resetAssistanceDataReceivedProperty.Get(resetReceivedStatus);
}
CleanupStack::PopAndDestroy(&timeout);
TESTL(err == KErrNone && resetReceivedStatus == ELbsTestAGpsResetAssistanceDataReceived);
}
// Reset the status on the property
err = resetAssistanceDataReceivedProperty.Set(ELbsTestAGpsResetAssistanceDataNotReceived);
TESTL(err == KErrNone);
if((iResetMask & EAssistanceDataReferenceTime) != 0)
{
return ETrue;
}
else
{
return EFalse;
}
}