os/kernelhwsrv/kerneltest/e32test/system/t_inact.cpp
author sl@SLION-WIN7.fritz.box
Fri, 15 Jun 2012 03:10:57 +0200
changeset 0 bde4ae8d615e
permissions -rw-r--r--
First public contribution.
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// Copyright (c) 1995-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of the License "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// e32test\system\t_inact.cpp
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// Test inactivity timers
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// 
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//
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#include <e32test.h>
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RTest test(_L("T_INACT"));
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class CTimer1 : public CTimer
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	{
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public:
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	static CTimer1* NewL();
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	CTimer1();
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	void Start();
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	virtual void RunL();
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	};
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class CTimer2 : public CTimer
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	{
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public:
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	static CTimer2* NewL();
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	CTimer2();
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	void Start();
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	virtual void RunL();
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	};
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class CTimer3 : public CTimer
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	{
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public:
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	static CTimer3* NewL();
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	CTimer3();
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	void Start();
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	virtual void RunL();
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public:
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	TInt iInactive;
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	};
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class CRepeatedTimer : public CTimer
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	{
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public:
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	static CRepeatedTimer* NewL(TInt aCount, TInt aPeriod);
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	CRepeatedTimer();
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	void Start();
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	virtual void RunL();
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public:
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	TInt iCount;
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	TInt iPeriod;
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	};
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CActiveScheduler* ActiveSched;
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CTimer1* Timer1;
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CTimer2* Timer2;
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CTimer3* Timer3;
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CRepeatedTimer* RepTimer;
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CTimer1::CTimer1()
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	: CTimer(EPriorityStandard)
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	{
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	}
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CTimer1* CTimer1::NewL()
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	{
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	CTimer1* pT=new (ELeave) CTimer1;
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	CleanupStack::PushL(pT);
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	pT->ConstructL();
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	CleanupStack::Pop();
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	return pT;
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	}
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void CTimer1::Start()
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	{
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	Inactivity(7);
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	}
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void CTimer1::RunL()
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	{
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	test.Printf(_L("CTimer1 expired\n"));
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	Start();
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	}
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CTimer2::CTimer2()
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	: CTimer(EPriorityStandard)
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	{
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	}
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CTimer2* CTimer2::NewL()
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	{
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	CTimer2* pT=new (ELeave) CTimer2;
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	CleanupStack::PushL(pT);
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	pT->ConstructL();
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	CleanupStack::Pop();
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	return pT;
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	}
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void CTimer2::Start()
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	{
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	Inactivity(13);
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	}
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void CTimer2::RunL()
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	{
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	test.Printf(_L("CTimer2 expired\n"));
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	Start();
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	}
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CTimer3::CTimer3()
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	: CTimer(EPriorityStandard)
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	{
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	}
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CTimer3* CTimer3::NewL()
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	{
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	CTimer3* pT=new (ELeave) CTimer3;
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	CleanupStack::PushL(pT);
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	pT->ConstructL();
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	CleanupStack::Pop();
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	return pT;
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	}
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void CTimer3::Start()
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	{
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	iInactive=User::InactivityTime().Int();
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	After(500000);
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	}
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void CTimer3::RunL()
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	{
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	TInt inactive=User::InactivityTime().Int();
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	if (inactive!=iInactive)
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		{
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		iInactive=inactive;
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		test.Printf(_L("%d\n"),inactive);
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		}
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	After(500000);
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	}
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CRepeatedTimer::CRepeatedTimer()
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	: CTimer(EPriorityStandard)
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	{
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	}
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CRepeatedTimer* CRepeatedTimer::NewL(TInt aCount, TInt aPeriod)
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	{
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	CRepeatedTimer* pT=new (ELeave) CRepeatedTimer;
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	pT->iCount=aCount;
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	pT->iPeriod=aPeriod;
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	CleanupStack::PushL(pT);
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	pT->ConstructL();
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	CleanupStack::Pop();
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	return pT;
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	}
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void CRepeatedTimer::Start()
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	{
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	Inactivity(iPeriod);
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	}
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void CRepeatedTimer::RunL()
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	{
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	test.Printf(_L("RepeatTimer expired %d\n"),iCount);
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	if (--iCount)
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		Start();
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	else
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		CActiveScheduler::Stop();
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	}
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void InitialiseL()
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	{
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	ActiveSched=new (ELeave) CActiveScheduler;
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	Timer1=CTimer1::NewL();
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	Timer2=CTimer2::NewL();
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	Timer3=CTimer3::NewL();
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	RepTimer=CRepeatedTimer::NewL(5,10);
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	CActiveScheduler::Install(ActiveSched);
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	CActiveScheduler::Add(Timer1);
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	CActiveScheduler::Add(Timer2);
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	CActiveScheduler::Add(Timer3);
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	CActiveScheduler::Add(RepTimer);
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	Timer1->Start();
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	Timer2->Start();
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	Timer3->Start();
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	RepTimer->Start();
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	}
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void TestNonPositiveTimeout()
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	{
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	TInt ret;
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	TRequestStatus x1,x2;
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	RTimer rt1,rt2;
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	test.Next(_L("Test RTimer::Inactivity() with zero timeout"));
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	ret=rt1.CreateLocal();
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	ret=rt2.CreateLocal();
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	rt1.Inactivity(x1, 2);
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	User::After(500000);
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	rt2.Inactivity(x2, 0);
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	User::ResetInactivityTime();
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	User::WaitForRequest(x1);
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	test(x1==KErrNone);
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	User::WaitForRequest(x2);
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	test(x2==KErrNone);
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	test.Next(_L("Test RTimer::Inactivity() with negative timeout"));
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	rt1.Inactivity(x1, -1);
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	User::WaitForRequest(x1);
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	test(x1==KErrArgument);
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	}
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GLDEF_C TInt E32Main()
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	{
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	test.Title();
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	__UHEAP_MARK;
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	test.Start(_L("Test RTimer::Inactivity"));
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	TestNonPositiveTimeout();
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	RTimer t1;
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	RTimer t2;
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	TInt r=t1.CreateLocal();
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	test(r==KErrNone);
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	r=t2.CreateLocal();
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	test(r==KErrNone);
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	test.Printf(_L("\nPress a key...\n"));
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	test.Getch();
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	TRequestStatus s;
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	t1.Inactivity(s,5);
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	TTime before;
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	before.UniversalTime();
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	test.Printf(_L("Wait... "));
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	User::WaitForRequest(s);
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	TTime after;
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	after.UniversalTime();
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	TTimeIntervalMicroSeconds interval=after.MicroSecondsFrom(before);
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	TInt interval_int=I64INT(interval.Int64());
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	test.Printf(_L("Timer expired after %d us\n"),interval_int);
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	test.Printf(_L("Press a key...\n"));
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	test.Getch();
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	t1.Inactivity(s,5);
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	before.UniversalTime();
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	test.Printf(_L("Test changing time"));
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	r=User::SetUTCTime(before+TTimeIntervalDays(1));
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	test(r==KErrNone);
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	test(s==KRequestPending);	// make sure time change doesn't trigger inactivity timers
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	r=User::SetUTCTime(before-TTimeIntervalDays(1));
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	test(r==KErrNone);
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	test(s==KRequestPending);	// make sure time change doesn't trigger inactivity timers
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	r=User::SetUTCTime(before);
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	test(r==KErrNone);
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	test(s==KRequestPending);	// make sure time change doesn't trigger inactivity timers
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	TTime secure;
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	if ((r = secure.UniversalTimeSecure()) == KErrNone)
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		r = User::SetUTCTimeSecure(secure-TTimeIntervalDays(1));
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	if (r != KErrNone)
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		{
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		RDebug::Printf("WARNING: Secure clock change test skipped because secure time could not be changed!");
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		}
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	else
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		{
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		User::SetUTCTimeSecure(secure+TTimeIntervalDays(1));
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		User::SetUTCTimeSecure(secure);
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		test(s == KRequestPending);	// make sure secure time change doesn't trigger inactivity timers
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		}
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	User::WaitForRequest(s);
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	after.UniversalTime();
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	interval=after.MicroSecondsFrom(before);
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	interval_int=I64INT(interval.Int64());
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	test.Printf(_L("Timer expired after %d us\n"),interval_int);
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	test.Printf(_L("Press a key...\n"));
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	test.Getch();
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	TInt inactive=User::InactivityTime().Int();
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	TRequestStatus s1;
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	TRequestStatus s2;
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	t1.Inactivity(s1, 10);
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	t2.Inactivity(s2, 15);
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	FOREVER
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		{
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		TInt new_inact=User::InactivityTime().Int();
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		if (new_inact!=inactive)
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			{
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			inactive=new_inact;
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			test.Printf(_L("%d\n"),inactive);
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			}
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		if (s2!=KRequestPending)
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			{
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			User::WaitForRequest(s2);
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			test(s2.Int()==KErrNone);
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			test.Printf(_L("Timer 2 expired\n"));
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			break;
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			}
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		if (s1!=KRequestPending)
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			{
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			User::WaitForRequest(s1);
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			test(s1.Int()==KErrNone);
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			test.Printf(_L("Timer 1 expired\n"));
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			s1=KRequestPending;
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			}
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		}
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	test.Next(_L("Test RTimer::Cancel()"));
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	test.Printf(_L("Press a key...\n"));
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	test.Getch();
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	t1.Inactivity(s1, 300);
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	t1.Cancel();
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	User::WaitForRequest(s1);
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	test(s1==KErrCancel);
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	test.Next(_L("Test CTimer::Inactivity()"));
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	test.Printf(_L("Press a key...\n"));
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	test.Getch();
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	CTrapCleanup* pC=CTrapCleanup::New();
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	test(pC!=NULL);
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	TRAP(r,InitialiseL());
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	test(r==KErrNone);
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	CActiveScheduler::Start();
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	Timer1->Cancel();
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	Timer2->Cancel();
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	Timer3->Cancel();
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	RepTimer->Cancel();
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	delete Timer1;
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	delete Timer2;
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	delete Timer3;
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	delete RepTimer;
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	delete ActiveSched;
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	delete pC;
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	test.Printf(_L("Press a key...\n"));
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	test.Getch();
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	test.End();
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	__UHEAP_MARKEND;
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	return KErrNone;
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	}