// 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 Module Information 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/lbsx3p.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 "ctlbsmolrresetassistance.h"
#include <lbs/test/tlbsutils.h>
#include "argutils.h"
#include <lbs/test/activeyield.h>
const TInt KTimeOut = 60*1000*1000;
const TInt KTimeoutWaitingForResetAssistanceData = 2 * 1000 * 1000;
/**
Static Constructor
*/
CT_LbsMolrResetAssistance* CT_LbsMolrResetAssistance::New(CT_LbsHybridMOLRServer& aParent)
{
// Note the lack of ELeave.
// This means that having insufficient memory will return NULL;
CT_LbsMolrResetAssistance* testStep = new CT_LbsMolrResetAssistance(aParent);
if (testStep)
{
TInt err = KErrNone;
TRAP(err, testStep->ConstructL());
if (err)
{
delete testStep;
testStep = NULL;
}
}
return testStep;
}
/**
* Constructor
*/
CT_LbsMolrResetAssistance::CT_LbsMolrResetAssistance(CT_LbsHybridMOLRServer& aParent)
: CT_LbsHybridMOLRStep(aParent), iNetworkMethod(ENetworkMethodInvalid),
iNetworkProtocolProxyStep(ENetworkProtocolProxyStepInitial), iProxy(NULL),
iAdminGpsMode(CLbsAdmin::EGpsModeUnknown), iPlannedPositionOriginator(EPositionOriginatorUnkown),
iGPSModeNotSupported(EFalse)
{
SetTestStepName(KLbsMolrResetAssistance);
iSessionId.SetSessionOwner(KRequestUid);
iSessionId.SetSessionNum(0x0001);
}
void CT_LbsMolrResetAssistance::ConstructL()
{
// Create the base class objects.
CT_LbsHybridMOLRStep::ConstructL();
}
/**
* Destructor
*/
CT_LbsMolrResetAssistance::~CT_LbsMolrResetAssistance()
{
}
TVerdict CT_LbsMolrResetAssistance::doTestStepPreambleL()
{
INFO_PRINTF1(_L(">>CT_LbsMolrResetAssistance::doTestStepPreambleL()"));
CT_LbsHybridMOLRStep::doTestStepPreambleL();
iNetworkExpectsMeasurments = 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 test up so it expects that the GPS mode won't be supported if there is an incompatibility
TPositionModuleInfoExtended::TDeviceGpsModeCapabilities deviceCapabilities;
TInt err = LbsModuleInfo::GetDeviceCapabilities(KLbsGpsLocManagerUid, deviceCapabilities);
if(!(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeSimultaneousTATB) && !(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeTerminalAssisted))
{
if(iAdminGpsMode == CLbsAdmin::EGpsPreferTerminalAssisted ||
iAdminGpsMode == CLbsAdmin::EGpsAlwaysTerminalAssisted)
{
iGPSModeNotSupported = ETrue;
}
}
if(!(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeSimultaneousTATB) && !(deviceCapabilities & TPositionModuleInfoExtended::EDeviceGpsModeTerminalBased))
{
if(iAdminGpsMode == CLbsAdmin::EGpsPreferTerminalBased ||
iAdminGpsMode == CLbsAdmin::EGpsAlwaysTerminalBased ||
iAdminGpsMode == CLbsAdmin::EGpsAutonomous)
{
iGPSModeNotSupported = ETrue;
}
}
// Set the network step
iNetworkMethod = ENetworkMethodInvalid;
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepInitial;
SetTestStepResult(EPass);
T_LbsUtils utils;
// Get the Network Method
_LIT(KNetworkMethod, "NetworkMethod");
TInt networkMethodInt;
if(GetIntFromConfig(ConfigSection(), KNetworkMethod, networkMethodInt))
{
iNetworkMethod = static_cast<TChosenNetworkMethod>(networkMethodInt);
}
else
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::doTestStepPreambleL() - FAILED: no network method configured"));
TEST(EFalse);
}
// 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_LbsMolrResetAssistance::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;
if(!iGPSModeNotSupported)
{
iProxy = CNetProtocolProxy::NewL();
}
return TestStepResult();
}
TVerdict CT_LbsMolrResetAssistance::doTestStepPostambleL()
{
INFO_PRINTF1(_L(">>CT_LbsMolrResetAssistance::doTestStepPostambleL()"));
iNetworkExpectsMeasurments = EFalse;
iNetworkExpectsPositions = EFalse;
iNetworkMethod = ENetworkMethodInvalid;
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepInitial;
iPlannedPositionOriginator = EPositionOriginatorUnkown;
iAdminGpsMode = CLbsAdmin::EGpsModeUnknown;
delete iProxy;
iProxy = NULL;
CT_LbsHybridMOLRStep::doTestStepPostambleL();
return TestStepResult();
}
TVerdict CT_LbsMolrResetAssistance::doTestStepL()
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::doTestStepL()"));
// Stop the test if the preable failed
TESTL(TestStepResult() == EPass);
iModuleWarmedUp = EFalse;
iExpectExtraRequestForAssistanceData = EFalse;
DoNetworkProtocolProxyStepL();
do
{
iState = EInitializing;
// Do the /actual/ test step!
RPositionServer server;
TESTL(KErrNone == server.Connect());
CleanupClosePushL(server);
RPositioner pos;
TESTL(KErrNone == pos.Open(server));
CleanupClosePushL(pos);
CPosServerWatcher *pWatch = CPosServerWatcher::NewLC(pos, *this);
if(iModuleWarmedUp)
{
iWarmUpModule = EFalse;
}
if(!iWarmUpModule && iStepForSendingReset == EBeforeSession)
{
SendResetAssistanceDataL();
}
// <<(App) NotifyPositionUpdate().
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::doTestStepL() <<(App) NotifyPositionUpdate()"));
pWatch->IssueNotifyPositionUpdate();
DoNetworkProtocolProxyStepL();
// TEST: Get NotifyPositionUpdate app side - get the ref pos.
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::doTestStepL() Waiting for ref pos"));
CheckForObserverEventTestsL(KTimeOut, *this);
if(!iGPSModeNotSupported)
{ // if it can still carry on since the module didn't reject the request
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::doTestStepL() <<(App) NotifyPositionUpdate()"));
pWatch->IssueNotifyPositionUpdate();
DoNetworkProtocolProxyStepL();
// Client recv - the gps position determined by the gps module.
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::doTestStepL() Waiting for gps pos"));
CheckForObserverEventTestsL(KTimeOut, *this);
if(!iGPSModeNotSupported)
{
TESTL(iState == EGpsLocReceived);
DoNetworkProtocolProxyStepL();
}
}
// Done. Now cleanup...
CleanupStack::PopAndDestroy(pWatch);
CleanupStack::PopAndDestroy(&pos);
CleanupStack::PopAndDestroy(&server);
iModuleWarmedUp = ETrue;
} while(iWarmUpModule);
return TestStepResult();
}
// MPosServerObserver
void CT_LbsMolrResetAssistance::OnGetLastKnownPosition(TInt32 /*aErr*/, const TPositionInfoBase& /*aPosInfo*/)
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::OnGetLastKnownPosition() - FAILED: not expecting this call"));
TEST(EFalse); // Shouldn't see this...
ReturnToTestStep();
}
void CT_LbsMolrResetAssistance::OnNotifyPositionUpdate(TInt32 aErr, const TPositionInfoBase& aPosInfo)
{
INFO_PRINTF2(_L("CT_LbsMolrResetAssistance::OnNotifyPositionUpdate() >> NPUD() complete with %d"), aErr);
if(iGPSModeNotSupported)
{
TEST(aErr == KErrNotSupported);
}
else
{
// Verify error.
TEST(aErr == KErrNone);
// Verify position.
// Expecting ref pos.
if (iState == EInitializing)
{
iState = ERefLocReceived;
TEST(aPosInfo.PositionClassType() == EPositionInfoClass);
TEST(aPosInfo.PositionMode() == TPositionModuleInfo::ETechnologyNetwork);
// check for refpos details
const TPositionInfo posInfo = static_cast<const TPositionInfo&>(aPosInfo);
TEST(ArgUtils::ComparePositionInfoToMolrRefPos(posInfo));
}
// Expecting gps pos.
else if (iState == ERefLocReceived)
{
iState = EGpsLocReceived;
TEST(aPosInfo.PositionClassType() == EPositionInfoClass);
if(iPlannedPositionOriginator == EPositionOriginatorModule)
{
TEST(aPosInfo.PositionMode() == (TPositionModuleInfo::ETechnologyTerminal | TPositionModuleInfo::ETechnologyAssisted));
}
if(iPlannedPositionOriginator == EPositionOriginatorNetwork)
{
TEST(aPosInfo.PositionMode() == (TPositionModuleInfo::ETechnologyNetwork | TPositionModuleInfo::ETechnologyAssisted));
}
}
// Not expecting anything else.
else
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::OnNotifyPositionUpdate() - FAILED: unexpected state"));
TEST(EFalse);
}
}
ReturnToTestStep();
}
TLbsNetPosRequestMethod CT_LbsMolrResetAssistance::RequestNetworkMethod()
/**
This method will chose the appropiate method requested by the network, depending
on the test settings
@return The network method
*/
{
TLbsNetPosRequestMethod method;
if(iWarmUpModule)
{ // warm up in TB
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestTerminalBasedMethod();
return method;
}
switch(iNetworkMethod)
{
case ETerminalBasedNetworkMethod:
{
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestTerminalBasedMethod();
break;
}
case ETerminalBasedTerminalAssistedNetworkMethod:
{
iNetworkExpectsMeasurments = ETrue;
iNetworkExpectsPositions = ETrue;
method = ArgUtils::RequestHybridMethod();
break;
}
case ETerminalAssistedNetworkMethod:
{
iNetworkExpectsMeasurments = ETrue;
method = ArgUtils::RequestTAPMethod();
break;
}
case ETerminalAssistedTerminalBasedNetworkMethod:
{
iNetworkExpectsMeasurments = 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:
{
iNetworkExpectsMeasurments = ETrue;
break;
}
case CLbsAdmin::EGpsAutonomous: // test framework doesn't currently support this
default:
{
User::Invariant();
}
}
method = ArgUtils::RequestUnspecifiedMethod();
break;
}
default:
{
User::Invariant();
}
}
return method;
}
void CT_LbsMolrResetAssistance::DecideWhatNetworkDoesntReceive()
/**
This method checks what the module was finally set to and decides if the network
should not expect measuments, or positions
*/
{
//INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DecideWhatNetworkDoesntReceive()"));
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, the module is running in hybrid
return;
}
}
switch(options.GpsMode())
{
case CLbsAdmin::EGpsAutonomous:
{
iNetworkExpectsPositions = EFalse;
iNetworkExpectsMeasurments = EFalse;
break;
}
case CLbsAdmin::EGpsPreferTerminalBased:
case CLbsAdmin::EGpsAlwaysTerminalBased:
{
iNetworkExpectsMeasurments = EFalse;
break;
}
case CLbsAdmin::EGpsPreferTerminalAssisted:
case CLbsAdmin::EGpsAlwaysTerminalAssisted:
{
iNetworkExpectsPositions = EFalse;
break;
}
default:
{
// change nothing
}
return;
}
}
void CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL()
{
if(iGPSModeNotSupported)
{ // Do nothing, the network won't do much before the module rejects the request
return;
}
TInt cleanupCnt;
// INFO_PRINTF2(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() Step %d"),iNetworkProtocolProxyStep);
switch(iNetworkProtocolProxyStep)
{
case ENetworkProtocolProxyStepInitial:
{
// >> AdviceSystemStatus()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> AdviceSystemStatus()"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgGetCurrentCapabilitiesResponse);
CLbsNetworkProtocolBase::TLbsSystemStatus status;
cleanupCnt = iProxy->GetArgsLC(ENetMsgGetCurrentCapabilitiesResponse, &status);
TESTL(status == CLbsNetworkProtocolBase::ESystemStatusNone);
CleanupStack::PopAndDestroy(cleanupCnt);
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepAfterFirstNPUD;
break;
}
case ENetworkProtocolProxyStepAfterFirstNPUD:
{
// >> RequestSelfLocation()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestSelfLocation() - as result of assistance data request from module"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRequestSelfLocation);
if(!iWarmUpModule && iStepForSendingReset == EBeginningOfSession)
{
SendResetAssistanceDataL();
}
// Process the response.
TLbsNetSessionId* sessionId = NULL;
TLbsNetPosRequestOptionsAssistance* opts = NULL;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestSelfLocation, &sessionId, &opts);
iSessionId.SetSessionNum(sessionId->SessionNum());
iSessionId.SetSessionOwner(sessionId->SessionOwner());
CleanupStack::PopAndDestroy(cleanupCnt);
sessionId = NULL;
opts = NULL;
// << ProcessStatusUpdate(EServiceSelfLocation)
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessStatusUpdate(EServiceSelfLocation)"));
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask activeServiceMask1 = MLbsNetworkProtocolObserver::EServiceSelfLocation;
iProxy->CallL(ENetMsgProcessStatusUpdate, &activeServiceMask1);
// << ProcessLocationUpdate(SessionId, RefPosition)
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessLocationUpdate(SessionId, RefPosition)"));
TPositionInfo refPosInfo = ArgUtils::MolrReferencePositionInfo();
iProxy->CallL(ENetMsgProcessLocationUpdate, &iSessionId, &refPosInfo);
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepAfterSecondNPUD;
break;
}
case ENetworkProtocolProxyStepAfterSecondNPUD:
{
// >> RequestAssistanceData - as a result of the second client request.
TLbsAsistanceDataGroup dataMask;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// << ProcessAssistanceData()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessAssistanceData()"));
dataMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
TInt reason = KErrNone;
iProxy->CallL(ENetMsgProcessAssistanceData, &dataMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(); // assistanceData
if(!iWarmUpModule && iStepForSendingReset == EAfterAssistanceData)
{
iExpectExtraRequestForAssistanceData = SendResetAssistanceDataL();
}
// << ProcessLocationRequest()
TBool emergency = EFalse;
MLbsNetworkProtocolObserver::TLbsNetProtocolService service = MLbsNetworkProtocolObserver::EServiceSelfLocation;
TLbsNetPosRequestQuality quality = ArgUtils::Quality();
//quality.SetMaxFixTime(ArgUtils::Alpha2()/10);
quality.SetMaxFixTime(ArgUtils::Alpha2()/4);
TLbsNetPosRequestMethod method = RequestNetworkMethod();
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessLocationRequest()"));
iProxy->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();
TInt response = iProxy->WaitForResponse(KTimeOut);
TLbsNetSessionId* sessionId = NULL;
if(response == ENetMsgRespondLocationRequest)
{
// >> RespondLocationRequest(KErrNotSupported) - as a result of the NRH request conflicting with the module capabilities
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RespondLocationRequest(KErrNotSupported)"));
sessionId = NULL;
TPositionInfo* positionInfo = NULL;
reason = KErrNone;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondLocationRequest, &sessionId, &reason, &positionInfo);
TESTL(positionInfo->PositionClassType() == EPositionInfoClass);
TESTL(sessionId->SessionNum() == iSessionId.SessionNum());
TESTL(reason == KErrNotSupported);
CleanupStack::PopAndDestroy(cleanupCnt);
// << ProcessSessionComplete()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessSessionComplete()"));
iProxy->CallL(ENetMsgProcessSessionComplete, &iSessionId, &reason);
iGPSModeNotSupported = ETrue;
// << ProcessStatusUpdate()
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask activeServiceMask2 = MLbsNetworkProtocolObserver::EServiceNone;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessStatusUpdate(EServiceNone)"));
iProxy->CallL(ENetMsgProcessStatusUpdate, &activeServiceMask2);
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepInitial;
}
else
{
// >> RequestAssistanceData() - as a result of the NRH request.
TESTL(response == ENetMsgRequestAssistanceData);
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
if(!iExpectExtraRequestForAssistanceData || (iNetworkMethod == EAutonomousNetworkMethod && !iWarmUpModule))
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
TESTL(dataMask == EAssistanceDataNone);
}
else
{
iExpectExtraRequestForAssistanceData = EFalse;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(EAssistanceDataReferenceTime)"));
TESTL(dataMask == EAssistanceDataReferenceTime);
// << ProcessAssistanceData(EAssistanceDataReferenceTime)
TLbsAsistanceDataGroup dataRequestMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
reason = KErrNone;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessAssistanceData(EAssistanceDataReferenceTime)"));
iProxy->CallL(ENetMsgProcessAssistanceData, &dataRequestMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(&assistanceData);
}
CleanupStack::PopAndDestroy(cleanupCnt);
// lrm: need to update this for cases where network request is rejected:
// 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()
sessionId = NULL;
DecideWhatNetworkDoesntReceive();
const TInt t = 8 * 1000 * 1000; // 8 secs.
if(iNetworkExpectsMeasurments)
{ // measurements should be sent to the network
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() Network expecting measurements"));
// Test that we do not get response before alpha2 has expired:
TInt alpha2timeout = ArgUtils::Alpha2()/4 - timeElapsed - delta > 0 ? ArgUtils::Alpha2()/4 - timeElapsed - delta : 0;
TESTL(iProxy->WaitForResponse(alpha2timeout) == ENetMsgTimeoutExpired);
INFO_PRINTF1(_L(" No RespondLocationRequest before Alpha2 timer expired"));
// Wait for and process the response:
TESTL(iProxy->WaitForResponse(2 * delta) == ENetMsgRespondLocationRequest);
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RespondLocationRequest(meas)"));
sessionId = NULL;
TPositionGpsMeasurementInfo* measurementInfo = NULL;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondLocationRequest, &sessionId, &reason, &measurementInfo);
TESTL(sessionId->SessionNum() == iSessionId.SessionNum()); // module sends NAN measurement first
TESTL(measurementInfo->PositionClassType() == EPositionGpsMeasurementInfoClass);
if(reason != KErrNone)
{
INFO_PRINTF2(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() reason = 0x%x"), reason);
}
TESTL(reason == KErrNone);
CleanupStack::PopAndDestroy(cleanupCnt);//sessionId, measurementInfo
// Wait for Assistance Data before resetting assistance data ... otherwise
// who knows what mask we would receive!
// Recv -> RequestAssistanceData - we get an extra msg as the result of the A-GPS manager re-issuing a location request when it's
// max fix time timer expries.
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// now reset the asistance data
if(!iWarmUpModule && iStepForSendingReset == EAfterMeasurements)
{
iExpectExtraRequestForAssistanceData = SendResetAssistanceDataL();
}
quality.SetMaxFixTime(t);
// << ProcessLocationRequest()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessLocationRequest()"));
iProxy->CallL(ENetMsgProcessLocationRequest, &iSessionId, &emergency, &service, &quality, &method);
// now as we have reset the assistanvce datat we expect
// to get a non-zero mask.
// >> RequestAssistanceData()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
if(!iExpectExtraRequestForAssistanceData || (iNetworkMethod == EAutonomousNetworkMethod && !iWarmUpModule))
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(EAssistanceDataReferenceTime)"));
TESTL(dataMask == EAssistanceDataReferenceTime);
}
else
{
iExpectExtraRequestForAssistanceData = EFalse;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(EAssistanceDataReferenceTime)"));
TESTL(dataMask == EAssistanceDataReferenceTime);
// << ProcessAssistanceData(EAssistanceDataReferenceTime)
TLbsAsistanceDataGroup dataRequestMask = EAssistanceDataReferenceTime;
RLbsAssistanceDataBuilderSet assistanceData;
ArgUtils::PopulateLC(assistanceData);
reason = KErrNone;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessAssistanceData(EAssistanceDataReferenceTime)"));
iProxy->CallL(ENetMsgProcessAssistanceData, &dataRequestMask, &assistanceData, &reason);
CleanupStack::PopAndDestroy(&assistanceData);
}
CleanupStack::PopAndDestroy(cleanupCnt);
}
if(iPlannedPositionOriginator == EPositionOriginatorModule)
{ // the module will deliver the location
if(iNetworkExpectsPositions)
{
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() Network expecting position"));
TNetProtocolResponseType type = iProxy->WaitForResponse(t + delta);
if(type == ENetMsgRequestAssistanceData)
{
// >> RequestAssistanceData(0)
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
type = iProxy->WaitForResponse(t + delta);
}
// >> RespondLocationRequest() - first measurement, second position.
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RespondLocationRequest(gpspos)"));
TESTL(type == ENetMsgRespondLocationRequest);
sessionId = NULL;
TPositionInfo* positionInfo = NULL;
cleanupCnt = iProxy->GetArgsLC(ENetMsgRespondLocationRequest, &sessionId, &reason, &positionInfo);
// check it is a position
TESTL(positionInfo->PositionClassType() == (EPositionInfoClass|EPositionCourseInfoClass|EPositionSatelliteInfoClass));
TESTL(sessionId->SessionNum() == iSessionId.SessionNum());
TESTL(reason == KErrNone);
if(!iWarmUpModule && iStepForSendingReset == EAfterPosition)
{
SendResetAssistanceDataL();
}
// << ProcessLocationUpdate(SessionId, FinalNetworkPosition)
// Return modules' position as FinalNetworkPosition
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessLocationUpdate(SessionId, FinalNetworkPosition)"));
iProxy->CallL(ENetMsgProcessLocationUpdate, &iSessionId, positionInfo);
CleanupStack::PopAndDestroy(cleanupCnt);
}
else
{ // network doesn't expect the module to be calculating the position and will terminate 'normally' when it's satisfied
// Not expecting anything else to arrive at the network, make sure it doesn't:
TESTL(iProxy->WaitForResponse(t + delta) == ENetMsgTimeoutExpired);
}
}
else if(iPlannedPositionOriginator == EPositionOriginatorNetwork)
{ // The network should return the position
TPositionInfo positionInfo = ArgUtils::AccurateNetworkPositionInfo();
// << ProcessLocationUpdate(SessionId, FinalNetworkPosition)
// Return FinalNetworkPosition
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessLocationUpdate(SessionId, FNP)"));
iProxy->CallL(ENetMsgProcessLocationUpdate, &iSessionId, &positionInfo);
// >> RequestAssistanceData(0)
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
// >> CancelSelfLocation()
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> CancelSelfLocation()"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgCancelSelfLocation);
// >> RequestAssistanceData(0)
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() >> RequestAssistanceData(0)"));
TESTL(iProxy->WaitForResponse(KTimeOut) == ENetMsgRequestAssistanceData);
TLbsAsistanceDataGroup dataMask;
TInt cleanupCnt = iProxy->GetArgsLC(ENetMsgRequestAssistanceData, &dataMask);
TESTL(dataMask == EAssistanceDataNone);
CleanupStack::PopAndDestroy(cleanupCnt);
}
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepFinal;
}
break;
}
case ENetworkProtocolProxyStepFinal:
{
// << ProcessSessionComplete()
TInt reason = KErrNone;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessSessionComplete()"));
iProxy->CallL(ENetMsgProcessSessionComplete, &iSessionId, &reason);
if(!iWarmUpModule && iStepForSendingReset == EAfterSessionClose)
{
SendResetAssistanceDataL();
}
// << ProcessStatusUpdate()
MLbsNetworkProtocolObserver::TLbsNetProtocolServiceMask activeServiceMask2 = MLbsNetworkProtocolObserver::EServiceNone;
INFO_PRINTF1(_L("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << ProcessStatusUpdate(EServiceNone)"));
iProxy->CallL(ENetMsgProcessStatusUpdate, &activeServiceMask2);
iProxy->WaitForResponse(KTimeoutWaitingForResetAssistanceData);
iNetworkProtocolProxyStep = ENetworkProtocolProxyStepAfterFirstNPUD;
break;
}
default:
{
User::Invariant();
}
}
}
TBool CT_LbsMolrResetAssistance::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("CT_LbsMolrResetAssistance::DoNetworkProtocolProxyStepL() << 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;
}
}