/*
* Set new source file in central repository and open new RPositioner session.
* Opened session will be left on cleanup stack.
* @param aName Name of file to set in central repository.
* @param aPositioner reference to constructed but unopened RPositioner that will use data from this particular file.
* This parameter will opened and the session will be left on cleanup stack.
*/
void CT_LbsSimulationPsyPosTp400::OpenNewSourceFileLC(const TDesC& aName,
RPositioner& aPositioner)
{
_LIT(KOpenPositionerErr, "Error when opening positioner, %d");
_LIT(KSettingRequestorErr, "Error when setting requester, %d");
TInt err = KErrNone;
SetSimDataFileL(aName);
err = aPositioner.Open(iPosServer, iUidSimulationPsy);
AssertTrueL(err == KErrNone, KOpenPositionerErr, err);
CleanupClosePushL(aPositioner);
_LIT(KService, "service");
err = aPositioner.SetRequestor(CRequestor::ERequestorService,
CRequestor::EFormatApplication, KService);
AssertTrueL(err == KErrNone, KSettingRequestorErr, err);
}
QGeoPositionInfo CPsyContainer::lastKnownPosition(bool aFromSatellitePositioningMethodsOnly)
{
QGeoPositionInfo posUpdate;
TPosition pos;
TInt error = KErrNone;
RPositioner lastKnownpositioner;
TRequestStatus status;
error = lastKnownpositioner.Open(PosServer());
//request for lastknown position update and wait for the request to complete
if (error == KErrNone) {
TPositionInfo posInfo;
lastKnownpositioner.SetRequestor(CRequestor::ERequestorService ,
CRequestor::EFormatApplication, _L("QTmobility_Location"));
lastKnownpositioner.GetLastKnownPosition(posInfo, status);
//Sub-optimal implementation inherited from the previous implementation
//Since this is a 'once in a while' usecase, this should be ok
//An optimal implementation will be much more complex and will need changes
//in the symbian locaiton stack
User::WaitForRequest(status);
error = status.Int();
lastKnownpositioner.Close();
if ((error == KErrNone) || (error == KPositionPartialUpdate)) {
TPositionModuleInfo modInfo;
iPosServer.GetModuleInfoById(posInfo.ModuleId(), modInfo);
if (!aFromSatellitePositioningMethodsOnly ||
(aFromSatellitePositioningMethodsOnly && (modInfo.Capabilities() & TPositionModuleInfo::ECapabilitySatellite))) {
PsyUtils::TPositionInfo2QGeoPositionInfo(posInfo, posUpdate);
}
}
}
return posUpdate;
}
void CT_LbsClientPosTp178::TestOptionL()
{
SetupPsyL(iUidTestPsy3);
RPositioner positioner;
ConnectL();
User::LeaveIfError(positioner.Open(iPosServer,iUidTestPsy3));
CleanupClosePushL(positioner);
_LIT(KKalle, "Kalle");
positioner.SetRequestor(CRequestor::ERequestorService,
CRequestor::EFormatApplication, KKalle);
TPositionUpdateOptions updateOptions;
TTimeIntervalMicroSeconds timeoutInterval(4000000);
TTimeIntervalMicroSeconds periodicInterval(7000000);
updateOptions.SetUpdateTimeOut(timeoutInterval);
updateOptions.SetUpdateInterval(periodicInterval);
TInt err = positioner.SetUpdateOptions(updateOptions);
if (err != KErrArgument)
{
_LIT(KErrArg, "Possible to set timout < update interval, error code = %d");
TBuf<100> buf;
buf.Format(KErrArg, err);
INFO_PRINTF1(buf);
LogErrorAndLeaveL(buf);
}
//should never be runned;
CleanupStack::PopAndDestroy(1); //positioner
Disconnect();
}
// ---------------------------------------------------------
// CT_LbsClientPosTp178::StartL
//
// (other items were commented in a header).
// ---------------------------------------------------------
//
void CT_LbsClientPosTp178::StartL()
{
_LIT(KServiceAccept, "SAAA");
SetupPsyL(iUidTestPsy3);
RPositioner positioner;
TPositionInfo info = TPositionInfo();
ConnectL();
User::LeaveIfError(positioner.Open(iPosServer,iUidTestPsy3));
CleanupClosePushL(positioner);
TInt Err = positioner.SetRequestor(CRequestor::ERequestorService,
CRequestor::EFormatApplication, KServiceAccept);
TPositionUpdateOptions updateOptionsLong, updateOptionsShort;
TTimeIntervalMicroSeconds longInterval(7000000);
updateOptionsLong.SetUpdateTimeOut(longInterval);
Err = positioner.SetUpdateOptions(updateOptionsLong);
TTimeIntervalMicroSeconds shortInterval(2000000);
updateOptionsShort.SetUpdateTimeOut(shortInterval);
TPositionUpdateOptions theUpdateOptions;
Err = positioner.GetUpdateOptions(theUpdateOptions);
if (theUpdateOptions.UpdateTimeOut() != updateOptionsLong.UpdateTimeOut() ||
updateOptionsLong.UpdateTimeOut() != longInterval)
{
_LIT(KUpdateOptions, "The update option was not set correctly");
LogErrorAndLeaveL(KUpdateOptions);
}
_LIT(KDelayMsg, "The successfull requests was completed within %d microsecs.");
_LIT(KCancelMsg, "The canceled requests was completed within %d microsecs.");
TRequestStatus status;
for (TInt i = 0; i < 10; i++) // makes 10 test inorder to get some statistic
{
positioner.SetUpdateOptions(updateOptionsLong);
TTime requestStartTime;
requestStartTime.UniversalTime();
positioner.NotifyPositionUpdate(info, status);
User::WaitForRequest(status);
TTime requestStopTime;
requestStopTime.UniversalTime();
TTimeIntervalMicroSeconds durationMicro = requestStopTime.MicroSecondsFrom(requestStartTime);
TInt duration = durationMicro.Int64();
TBuf<100> timeMsg;
timeMsg.Format(KDelayMsg, duration);
INFO_PRINTF1(timeMsg);
//check error status
if (status != KErrNone)
{
_LIT(KErrPositionRequest, "error code returned from NotifyPositionUpdate, error code = %d");
TBuf<100> buf;
buf.Format(KErrPositionRequest, status.Int());
LogErrorAndLeaveL(buf);
}
TTimeIntervalMicroSeconds shortInterval(2000000);
updateOptionsShort.SetUpdateTimeOut(shortInterval);
positioner.SetUpdateOptions(updateOptionsShort);
requestStartTime.UniversalTime();
positioner.NotifyPositionUpdate(info, status);
User::WaitForRequest(status);
requestStopTime.UniversalTime();
durationMicro = requestStopTime.MicroSecondsFrom(requestStartTime);
duration = durationMicro.Int64();
#ifdef __WINS__
TTimeIntervalMicroSeconds winsFail(100000);
durationMicro = TTimeIntervalMicroSeconds(durationMicro.Int64()+winsFail.Int64());
#endif
timeMsg.Format(KCancelMsg, duration);
INFO_PRINTF1(timeMsg);
if (status != KErrTimedOut)
{
_LIT(KErrPositionRequest, "Request did not returned KErrTimedOut, status code = %d.");
TBuf<100> buf;
buf.Format(KErrPositionRequest, status.Int());
LogErrorAndLeaveL(buf);
}
//Check that the request was not aborted before the Interval
//Remove this condition if a lot of data is needed in test log.
if (durationMicro < shortInterval)
{
_LIT(KErrInterval, " The request was aborted before the set timed out ");
LogErrorAndLeaveL(KErrInterval);
}
} // end for loop
CleanupStack::PopAndDestroy(1); //positioner
Disconnect();
// Do timeout test
TestTimeoutL();
// Do cancel test
TestCancelL();
// ESLI-5QRA7U just check that it is not possible to set a timeout that is less than
// the update interval
TestOptionL();
}
//
// Performes the test by connecting to MLFW
// (and makes a number of Location requests if aFullTest is true
//
void DoTestL(TBool aFullTest, TInt aNumberOfRuns, TInt *aResult)
{
RPositionServer posServer;
TInt errorCode = errorCode = posServer.Connect();
if (errorCode != KErrNone)
{
*aResult = KErrCouldNotConnect;
return;
}
CleanupClosePushL(posServer);
RPositioner positioner;
// Full test means requesting position updates
if (aFullTest)
{
TPositionInfo positionInfo = TPositionInfo();
const TInt32 KUidMultiPsy = 0x01010176;
TUid uidMultiPsy;
uidMultiPsy.iUid = KUidMultiPsy;
errorCode = positioner.Open(posServer, uidMultiPsy);
if (errorCode != KErrNone)
{
*aResult = errorCode;
return;
}
CleanupClosePushL(positioner);
_LIT(KService ,"Service");
errorCode = positioner.SetRequestor(CRequestor::ERequestorService,
CRequestor::EFormatApplication, KService);
if (errorCode != KErrNone)
{
*aResult = 1001;
return;
}
TRequestStatus status;
TLocality loca(TCoordinate(0,0,0),0);
TPosition pos(loca, TTime(0));
for (TInt i = 0; i < aNumberOfRuns; i++)
{
positionInfo.SetPosition(pos);
positioner.NotifyPositionUpdate(positionInfo, status);
User::WaitForRequest(status);
TInt err = status.Int();
if (err != KErrNone)
{
*aResult = err;
}
TPosition result;
positionInfo.GetPosition(result);
//sanity check
if (result.Latitude() == pos.Latitude() ||
result.Longitude() == pos.Longitude() ||
result.Altitude() == pos.Altitude())
{
//_LIT(KErrorPositon, "ERROR:: The postion was not updated");
errorCode = 1005;
}
}
positioner.Close();
CleanupStack::PopAndDestroy(&positioner);
}
posServer.Close();
CleanupStack::PopAndDestroy(&posServer);
}
/**
* Performes the test by connecting to MLFW and makes 50 Location request
*/
TInt DoTestL()
{
TBuf<40> traceFile = GenerateFileNameForTraceL();
RFs fileserver;
RFile file;
User::LeaveIfError(fileserver.Connect());
CleanupClosePushL(fileserver);
User::LeaveIfError(file.Open(fileserver, traceFile, EFileWrite));
CleanupClosePushL(file);
_LIT(KClientStarted, "Client Started");
TraceL(KClientStarted, file);
const TInt32 KUidMultiPsy = 0x01010176;
TUid uidMultiPsy;
uidMultiPsy.iUid = KUidMultiPsy;
SetupPsyL(uidMultiPsy);
_LIT(KMultiPsySetup, "MultiPsy set up");
TraceL(KMultiPsySetup, file);
TInt numberOfRuns = 50;
RPositionServer posServer;
CleanupClosePushL(posServer);
RPositioner positioner;
CleanupClosePushL(positioner);
TPositionInfo positionInfo = TPositionInfo();
_LIT(KConnectErr, "ERROR: Error when connecing to EPos server, %d");
TInt err = posServer.Connect();
AssertTrueL(err == KErrNone, KConnectErr, err, file);
_LIT(KOpenErr, "ERROR: Error when opening positioner, %d");
err = positioner.Open(posServer, uidMultiPsy);
AssertTrueL(err == KErrNone, KOpenErr, err, file);
_LIT(KService ,"Service");
err = positioner.SetRequestor(CRequestor::ERequestorService,
CRequestor::EFormatApplication, KService);
_LIT(KRequestor, "ERROR: Not possible to set requestor");
AssertTrueL(err == KErrNone, KRequestor, err, file);
TTime now, startTime;
TTimeIntervalMicroSeconds requestTime;
TRequestStatus status;
TInt64 reqTime;
TCoordinate corr(0,0,0);
TLocality loca(corr,0);
TPosition pos(loca, TTime(0));
TBool success = ETrue;
_LIT(KStartingRequests, "Starting requests");
TraceL(KStartingRequests, file);
for (TInt i = 0; i < numberOfRuns; i++)
{
startTime.UniversalTime();
positionInfo.SetPosition(pos);
positioner.NotifyPositionUpdate(positionInfo, status);
User::WaitForRequest(status);
err = status.Int();
if (err != KErrNone)
{
success=EFalse;
}
now.UniversalTime();
requestTime = now.MicroSecondsFrom(startTime);
_LIT(KError, "Request time, %d µs. Error code from Notify = %d");
TBuf<100> buf;
reqTime = requestTime.Int64();
buf.Format(KError, reqTime, err);
TraceL(buf, file);
TPosition result;
positionInfo.GetPosition(result);
// Sanity check
if (result.Latitude() == pos.Latitude() ||
result.Longitude() == pos.Longitude() ||
result.Altitude() == pos.Altitude())
{
success = EFalse;
_LIT(KErrorPositon, "ERROR:: The postion was not updated");
TraceL(KErrorPositon, file);
}
}
CleanupStack::PopAndDestroy(&positioner);
CleanupStack::PopAndDestroy(&posServer);
if (success)
{
_LIT(KOk, "SUCCESS");
TraceL(KOk, file);
}
else
{
_LIT(KErr, "FAILED");
TraceL(KErr, file);
}
CleanupStack::PopAndDestroy(&file);
CleanupStack::PopAndDestroy(&fileserver);
return (success) ? 0 : 1;
}
TInt SetAuthenticRequestor(RPositioner& aPositioner)
{
// set service
return aPositioner.SetRequestor(DUMMY_REQUESTOR_TYPE_ACCEPTED1, DUMMY_REQUESTOR_FORMAT_ACCEPTED1, DUMMY_REQUESTOR_NAME_ACCEPTED1);
}
