EXPORT_C TBool T_LbsUtils::Compare_ModuleStatus(TPositionModuleStatus& aModStatusSideA, TPositionModuleStatus& aModStatusSideB)
{
// Compare device status.
if (aModStatusSideA.DeviceStatus() != aModStatusSideB.DeviceStatus())
{
return EFalse;
}
// Compare quality status.
if (aModStatusSideA.DataQualityStatus() != aModStatusSideB.DataQualityStatus())
{
return EFalse;
}
return TRUE;
}
TVerdict Cman3Step::doTestStepL()
/**
* @return - TVerdict code
* Override of base class pure virtual
* Our implementation only gets called if the base class doTestStepPreambleL() did
* not leave. That being the case, the current test result value will be EPass.
*/
{
if (TestStepResult()==EPass)
{
// Start test version of AGPS manager and use a test version if integration module
// The test version of AGPS manager is same as actual but does not use the
// ECOM plugin interface.
// Now test power mode advice when sent within a LocRequest command
TLbsPositionUpdateRequestStatus request;
request.SetPowerAdvice(TLbsPositionUpdateRequestBase::EPowerAdviceOff);
RLbsPositionUpdateRequests posReqs;
posReqs.OpenL(KChannelArray[0]);
CleanupClosePushL(posReqs);
RLbsModuleStatus modStatus;
modStatus.OpenL(KLbsGpsLocManagerUid);
CleanupClosePushL(modStatus);
TRequestStatus stat;
modStatus.NotifyModuleStatusChange(stat);
User::LeaveIfError(posReqs.SetPositionUpdateRequest(request));
User::WaitForRequest(stat);
if(stat.Int()!=KErrNone) User::Leave(KErrGeneral);
TPositionModuleStatus status;
TPositionModuleStatusEventBase::TModuleEvent occurredEvents =
TPositionModuleStatusEventBase::EEventNone;
User::LeaveIfError(modStatus.GetModuleStatus(&status, sizeof(TPositionModuleStatus), occurredEvents));
if(status.DeviceStatus() != TPositionModuleStatus::EDeviceInactive)
{
User::Leave(KErrNotFound);
}
INFO_PRINTF1(_L("Test integration module correctly responds with EDeviceStandBy"));
SendNgMsg(KSessionCompleteKErrNone);
CleanupStack::PopAndDestroy(&modStatus);
CleanupStack::PopAndDestroy(&posReqs);
// ************** Block end ****************
SetTestStepResult(EPass);
}
return TestStepResult();
}
TVerdict Cman12Step::doTestStepL()
/**
* @return - TVerdict code
*
* This test checks that when the NRH requests a hybrid location update, a measurement update
* is received (in addition to a location update).
* The test also checks that when the NRH request is cancelled, the Integration Module is reconfigured
* with the GPS Mode given by the corresponding admin setting and the location request is cancelled.
*/
{
if (TestStepResult()==EPass)
{
INFO_PRINTF1(_L("Simulate NRH sending a 'hybrid' location request"));
INFO_PRINTF1(_L("NRH sends location update request for NOW and MaxFixTime=5s acc=0.1"));
const RLbsPositionUpdateRequests::TChannelIdentifer KChannelIdentifierNRH =
{
{KLbsGpsLocManagerUidValue},{KLbsNetRequestHandlerUidValue}
};
const RLbsPositionUpdateRequests::TChannelIdentifer KChannelIdentifierLocServer =
{
{KLbsGpsLocManagerUidValue},{KLbsLocServerUidValue}
};
RLbsPositionUpdateRequests posUpdateReqLocSrv;
posUpdateReqLocSrv.OpenL(KChannelIdentifierLocServer);
CleanupClosePushL(posUpdateReqLocSrv);
RLbsPositionUpdateRequests posUpdateReqNRH;
posUpdateReqNRH.OpenL(KChannelIdentifierNRH);
CleanupClosePushL(posUpdateReqNRH);
RLbsPositionUpdates posUpdates;
posUpdates.OpenL(KLbsGpsLocManagerUid);
CleanupClosePushL(posUpdates);
TRequestStatus locStat;
posUpdates.NotifyPositionUpdate(locStat);
RLbsGpsMeasurementUpdates measurementUpdates;
measurementUpdates.OpenL();
CleanupClosePushL(measurementUpdates);
TRequestStatus measurementStat;
measurementUpdates.NotifyGpsMeasurementUpdate(measurementStat);
RLbsModuleStatus modStatus;
modStatus.OpenL(KLbsGpsLocManagerUid);
CleanupClosePushL(modStatus);
// Start the testcase with a cancel request both from the LocServer
// and the NRH to ensure the test AGPS Manager starts from scratch
// (previous testcases may not have cleaned up correctly)
TLbsPositionUpdateRequestCancel cancel;
User::LeaveIfError(posUpdateReqLocSrv.SetPositionUpdateRequest(cancel));
User::LeaveIfError(posUpdateReqNRH.SetPositionUpdateRequest(cancel));
// WaitAndValidateNgMsg(TLbsNetInternalMsgBase::ESelfLocationCancel);
User::After(1000000); // Allow one second for the cancel to take effect
// Simulate what is done by NRH when it wants a hybrid location update
TLbsPositionUpdateRequest locRequestNRH;
TLbsLocRequestQualityInt qualityNRH;
qualityNRH.SetMaxFixTime(5000000);
qualityNRH.SetMinHorizontalAccuracy(0.5);
qualityNRH.SetMinVerticalAccuracy(0.5);
locRequestNRH.RequestQuality() = qualityNRH;
TTime targetTime;
targetTime.UniversalTime(); // Target time is now and try for 5 seconds
locRequestNRH.TargetTime() = targetTime;
// Make the request a 'hybrid' one
TLbsNetPosRequestMethodInt methods;
TLbsNetPosMethodInt posMethods[2];
posMethods[0].SetPosMethod(KLbsRootUid, (TPositionModuleInfo::ETechnologyTerminal|TPositionModuleInfo::ETechnologyAssisted));
posMethods[1].SetPosMethod(KLbsRootUid, (TPositionModuleInfo::ETechnologyNetwork | TPositionModuleInfo::ETechnologyAssisted));
methods.SetPosMethods(posMethods, 2);
locRequestNRH.RequestMethod() = methods;
INFO_PRINTF1(_L("NRH sends a location request to integration module"));
User::LeaveIfError(posUpdateReqNRH.SetPositionUpdateRequest(locRequestNRH));
// Check first that the GPS Manager publishes a position update as provided
// by the test integration module (the test version of the integration module
// is hardwired to send a test TPositionExtendedSatelliteInfo)
//
User::WaitForRequest(locStat);
if(locStat.Int()!=KErrNone)
User::Leave(KErrGeneral);
TInt error = 1; // something other than KErrNone
TTime actualTime = 0;
targetTime = 0;
TPositionExtendedSatelliteInfo satInfo;
TBool conflictControl;
error = posUpdates.GetPositionInfo(conflictControl, &satInfo, sizeof(satInfo),targetTime, actualTime);
if(error!=KErrNone)
User::Leave(KErrGeneral);
if(targetTime!=locRequestNRH.TargetTime())
User::Leave(KErrGeneral);
if(satInfo.SatelliteTime()!=locRequestNRH.TargetTime())
User::Leave(KErrGeneral);
INFO_PRINTF1(_L("Test integration module correctly responds with location"));
// Check that the GPS Manager publishes a measurement update as provided
// by the test integration module (the test version of the integration module
// is hardwired to send a measurement update with 1 measured data)
//
User::WaitForRequest(measurementStat);
if(measurementStat.Int()!=KErrNone)
User::Leave(KErrGeneral);
error = 1; // something other than KErrNone
actualTime = 0;
TPositionGpsMeasurementInfo measurementUpdate;
error = measurementUpdates.GetGpsMeasurementInfo(&measurementUpdate, sizeof(measurementUpdate), actualTime);
if (measurementUpdate.NumMeasurements() != 1)
User::Leave(KErrGeneral);
if(error!=KErrNone)
User::Leave(KErrGeneral);
INFO_PRINTF1(_L("Test integration module correctly responds with measurement"));
// The last part of the test consists of cancelling the request and check the results
// The test GPS Module will show those results by changes to the module status (this wouldn't
// happen in production code, it is just for testing). Set the module status to some initial values
// before cancelling.
TPositionModuleStatus moduleStatus;
moduleStatus.SetDeviceStatus(TPositionModuleStatus::EDeviceReady);
moduleStatus.SetDataQualityStatus(TPositionModuleStatus::EDataQualityNormal);
TPositionModuleStatusEventBase::TModuleEvent occurredEvents =
TPositionModuleStatusEventBase::EEventDeviceStatus | TPositionModuleStatusEventBase::EEventDataQualityStatus;
User::LeaveIfError(modStatus.SetModuleStatus(&moduleStatus,sizeof(moduleStatus),occurredEvents));
User::After(1000000);
// Cancel NRH's location update request.
// The AGPS Manager should ask the Integration Module to:
// 1.- Cancel the location request (because there is no outstanding request from the Location Server)
// 2.- Configure GPS Mode as per Admin setting.
//
User::LeaveIfError(posUpdateReqNRH.SetPositionUpdateRequest(cancel));
//...let the cancel message do its thing for a second
User::After(1000000);
occurredEvents = TPositionModuleStatusEventBase::EEventNone;
User::LeaveIfError(modStatus.GetModuleStatus(&moduleStatus, sizeof(moduleStatus), occurredEvents));
// Check that the cancellation has resulted in a call to CancelLocationRequest of the
// integration module (hack: the test integration module switches the Data Quality Status
// to EDataQualityPartial when CancelLocationRequest is called while in 'hybrid'mode)
//
if (moduleStatus.DataQualityStatus() != TPositionModuleStatus::EDataQualityPartial)
{
INFO_PRINTF1(_L("Incorrect DataQualityStatus: CancelLocationRequest has not been called."));
User::Leave(KErrNotFound);
}
INFO_PRINTF1(_L("Test integration module correctly set TPositionModuleStatus::EDataQualityPartial"));
// Check that the AGPS manager has reconfigured the Integration Module' GPS mode with the
// Admin setting after leaving the hybrid mode. (NOTE: for testing purposes, the test integration
// module changes the Device Status when it is configured with a new admin setting)
//
if(moduleStatus.DeviceStatus() == TPositionModuleStatus::EDeviceReady)
{
INFO_PRINTF1(_L("Incorrect DeviceStatus: GPS Mode hasn't changed."));
User::Leave(KErrNotFound);
}
INFO_PRINTF1(_L("Checked that module status after cancelling is not EDeviceInitialising"));
WaitAndValidateNgMsg(TLbsNetInternalMsgBase::EAssistanceDataRequest);
SendNgMsg(KSessionCompleteKErrNone);
CleanupStack::PopAndDestroy(&modStatus);
CleanupStack::PopAndDestroy(&measurementUpdates);
CleanupStack::PopAndDestroy(&posUpdates);
CleanupStack::PopAndDestroy(&posUpdateReqNRH);
CleanupStack::PopAndDestroy(&posUpdateReqLocSrv);
// ************** Block end ****************
SetTestStepResult(EPass);
}
return TestStepResult();
}
void XQLocationPrivate::DeliverPositionServerResults(TPositionModuleStatus aModuleStatus)
{
XQLocation::DeviceStatus st;
switch (aModuleStatus.DeviceStatus()) {
case TPositionModuleStatus::EDeviceError:
// This state is used to indicate that there are problems when using the device.
// For example, there may be hardware errors. It should not be confused with
// complete loss of data quality (see TDataQualityStatus), which indicates that
// the device is functioning correctly, but is currently unable to obtain position
// information. The error state is reported if the device cannot be successfully
// brought on line. For example, the positioning module may have been unable to
// communicate with the device or it is not responding as expected.
st = XQLocation::StatusError;
break;
case TPositionModuleStatus::EDeviceDisabled:
// Although the device may be working properly, it has been taken off line and is
// regarded as being unavailable to obtain position information. This is generally
// done by the user via the control panel. In this state, Mobile Location FW will
// not use the device.
st = XQLocation::StatusDisabled;
break;
case TPositionModuleStatus::EDeviceInactive:
// This state signifies that the device is not being used by Mobile Location FW.
// This typically occurs because there are no clients currently obtaining positions
// from it.
st = XQLocation::StatusInactive;
break;
case TPositionModuleStatus::EDeviceInitialising:
// This is a transient state. The device is being brought out of the Inactive state
// but has not reached either the Ready or Standby modes. The initializing state
// occurs when the positioning module is first selected to provide a client
// application with location information.
st = XQLocation::StatusInitialising;
break;
case TPositionModuleStatus::EDeviceStandBy:
// This state indicates that the device has entered the Sleep or Power save mode.
// This signifies that the device is online, but it is not actively retrieving
// position information. A device generally enters this mode when the next position
// update is not required for some time and it is more efficient to partially power
// down.
// Note: Not all positioning modules support this state, particularly when there is
// external hardware.
st = XQLocation::StatusStandBy;
break;
case TPositionModuleStatus::EDeviceReady:
// The positioning device is online and is ready to retrieve position information.
st = XQLocation::StatusReady;
break;
case TPositionModuleStatus::EDeviceActive:
// The positioning device is actively in the process of retrieving position
// information.
// Note: Not all positioning modules support this state, particularly when there is
// external hardware.
st = XQLocation::StatusActive;
break;
default:
// EDeviceUnknown
// This is not a valid state and must never be reported.
st = XQLocation::StatusUnknown;
break;
}
if (st != status || firstStatusUpdate) {
status = st;
emit ipParent->statusChanged(status);
}
XQLocation::DataQuality dq;
switch (aModuleStatus.DataQualityStatus()) {
case TPositionModuleStatus::EDataQualityLoss:
// This state indicates that the accuracy and contents of the position information
// has been completely compromised. It is no longer possible to return any coherent
// data. This situation occurs if the device has lost track of all the transmitters
// (for example, satellites or base stations). It should be noted that although it
// is currently not possible to obtain position information, the device may still be
// functioning correctly. This state should not be confused with a device error
// (see TDeviceStatus above).
dq = XQLocation::DataQualityLoss;
break;
case TPositionModuleStatus::EDataQualityPartial:
// The state signifies that there has been a partial degradation in the available
// position information. In particular, it is not possible to provide the required
// (or expected) quality of information. This situation may occur if the device has
// lost track of one of the transmitters (for example, satellites or base stations).
dq = XQLocation::DataQualityPartial;
break;
case TPositionModuleStatus::EDataQualityNormal:
// The positioning device is functioning as expected.
dq = XQLocation::DataQualityNormal;
break;
default:
// EDataQualityUnknown
// This is an unassigned valued. This state should only be reported during an event
// indicating that a positioning module has been removed.
dq = XQLocation::DataQualityUnknown;
break;
}
if (dq != dataQuality || firstStatusUpdate) {
dataQuality = dq;
emit ipParent->dataQualityChanged(dataQuality);
}
firstStatusUpdate = false;
}