// 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 Hybrid MoLr Tests
// 
//


// EPOC includes.
#include <e32math.h>

// LBS includes. 
#include <lbssatellite.h>
#include <lbs/lbsgpsmeasurement.h>
#include <lbs/lbsnetprotocolbase.h>
#include <lbs/lbsassistancedatabuilderset.h>
#include <lbs/lbsloccommon.h>
#include <lbs/lbsx3p.h>
#include <lbs/lbsnetprotocolbase.h>

// LBS test includes.
//#include "ctlbsuebasedmolrself.h"
#include "ctlbsautonomousmolrfutile.h"
#include <lbs/test/tlbsutils.h>
#include "argutils.h"
#include <lbs/test/activeyield.h>


/**
Static Constructor
*/
CT_LbsAutonomousMOLRFutile* CT_LbsAutonomousMOLRFutile::New(CT_LbsHybridMOLRServer& aParent)
	{
	// Note the lack of ELeave.
	// This means that having insufficient memory will return NULL;
	CT_LbsAutonomousMOLRFutile* testStep = new CT_LbsAutonomousMOLRFutile(aParent);
	if (testStep)
		{
		TInt err = KErrNone;

		TRAP(err, testStep->ConstructL());
		if (err)
			{
			delete testStep;
			testStep = NULL;
			}
		}
	return testStep;
	}


/**
 * Constructor
 */
CT_LbsAutonomousMOLRFutile::CT_LbsAutonomousMOLRFutile(CT_LbsHybridMOLRServer& aParent) : CT_LbsHybridMOLRStep(aParent)
	{
	SetTestStepName(KLbsAutonomousMOLRFutile);
	}


void CT_LbsAutonomousMOLRFutile::ConstructL()
	{
	// Create the base class objects.
	CT_LbsHybridMOLRStep::ConstructL();
	}

/**
 * Destructor
 */
CT_LbsAutonomousMOLRFutile::~CT_LbsAutonomousMOLRFutile()
	{
	}


TVerdict CT_LbsAutonomousMOLRFutile::doTestStepL()
	{
	INFO_PRINTF1(_L("CT_LbsAutonomousMOLRFutile::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);

// Recv --> GetCurrentCapabilitiesResponse.
	// Soak up the Lbs System Status (produced by A-GPS Manager startup). 
	TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgGetCurrentCapabilitiesResponse);
	CLbsNetworkProtocolBase::TLbsSystemStatus status;
	TInt cleanupCnt;
	cleanupCnt = proxy->GetArgsLC(ENetMsgGetCurrentCapabilitiesResponse, &status);
	TESTL(status == CLbsNetworkProtocolBase::ESystemStatusNone);
	CleanupStack::PopAndDestroy(cleanupCnt);

// Do the /actual/ test step!

	// Setup location session and position watcher.
	RPositionServer server;
	TESTL(KErrNone == server.Connect());
	CleanupClosePushL(server);	

	RPositioner pos;
	TESTL(KErrNone == pos.Open(server));
	CleanupClosePushL(pos);
	
	CPosServerWatcher *pWatch = CPosServerWatcher::NewLC(pos, *this);


// Client Send - a self-locate request.
	pWatch->IssueNotifyPositionUpdate();


// Recv --> RequestSelfLocation.
	TESTL(proxy->WaitForResponse(KTimeOut) == ENetMsgRequestSelfLocation);

	// Process the response.
	TLbsNetSessionId* 					sessionId = NULL;
	TLbsNetPosRequestOptionsAssistance*	opts = NULL;
	
	cleanupCnt = proxy->GetArgsLC(ENetMsgRequestSelfLocation, &sessionId, &opts);

	TBool qualitycheck = 	ArgUtils::CompareQuality(	opts, 
														ETrue, 
														KMinHorizontalAcc, 
														KMinVerticalAcc, 
														KDefaultMaxFixTime,
														0, 
														EAssistanceDataNone, 
														TPositionModuleInfo::ETechnologyTerminal
													);
		
	TESTL(qualitycheck);

	iSessionId.SetSessionNum(sessionId->SessionNum());
	iSessionId.SetSessionOwner(sessionId->SessionOwner());

	CleanupStack::PopAndDestroy(cleanupCnt);
	sessionId = NULL;
	opts = NULL;	

		
// Send <-- ProcessStatusUpdate.
	MLbsNetworkProtocolObserver::TLbsNetProtocolService serviceMask = MLbsNetworkProtocolObserver::EServiceSelfLocation;
	proxy->CallL(ENetMsgProcessStatusUpdate, &serviceMask);

// Wait for AGPs module to send update
    TInt KTimeout = 1000000; // 1 seconds
    TESTL(proxy->WaitForResponse(KTimeout) == ENetMsgTimeoutExpired);


// Send <-- ProcessSessionComplete.
	TInt reason = KErrNone;
	proxy->CallL(ENetMsgProcessSessionComplete, &iSessionId, &reason);


// Send <-- ProcessStatusUpdate.
	serviceMask = MLbsNetworkProtocolObserver::EServiceNone;
	proxy->CallL(ENetMsgProcessStatusUpdate, &serviceMask);


// Client recv - the gps position determined by the gps module.
	CheckForObserverEventTestsL(KTimeOut, *this);

	// Wait for 10 seconds to ensure no additional responses turn up.
	TInt delta = 10 * 1000 * 1000;
	TNetProtocolResponseType mType = proxy->WaitForResponse(delta);
	TESTL(mType == ENetMsgTimeoutExpired);

	// Done. Now cleanup...
	CleanupStack::PopAndDestroy(pWatch);
	CleanupStack::PopAndDestroy(); // pos
	CleanupStack::PopAndDestroy(); // server	
	CleanupStack::PopAndDestroy(proxy);

		
	return TestStepResult();
	}


// MPosServerObserver
void CT_LbsAutonomousMOLRFutile::OnGetLastKnownPosition(TInt32 /*aErr*/, const TPositionInfoBase& /*aPosInfo*/)
	{
	TEST(EFalse); // Shouldn't see this...
	ReturnToTestStep();
	}


void CT_LbsAutonomousMOLRFutile::OnNotifyPositionUpdate(TInt32 aErr, const TPositionInfoBase& aPosInfo)
	{
	// Verify error.
	TEST(aErr == KPositionQualityLoss);

	if(iExpectedApiBehaviour == EApiVariant1)
		{ // only for variant1 of the api a position is returned with KPositionQualityLoss
		// Verify position.
		TEST(aPosInfo.PositionClassType() == EPositionInfoClass);
		TEST(aPosInfo.PositionMode() == TPositionModuleInfo::ETechnologyTerminal);
		}
	ReturnToTestStep();
	}