sl@0: // Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).
sl@0: // All rights reserved.
sl@0: // This component and the accompanying materials are made available
sl@0: // under the terms of "Eclipse Public License v1.0"
sl@0: // which accompanies this distribution, and is available
sl@0: // at the URL "http://www.eclipse.org/legal/epl-v10.html".
sl@0: //
sl@0: // Initial Contributors:
sl@0: // Nokia Corporation - initial contribution.
sl@0: //
sl@0: // Contributors:
sl@0: //
sl@0: // Description:
sl@0: // Name        : tclockserver.cpp
sl@0: // 
sl@0: //
sl@0: 
sl@0: #include <c32comm.h>
sl@0: 
sl@0: #if defined (__WINS__)
sl@0: #define PDD_NAME		_L("ECDRV")
sl@0: #else
sl@0: #define PDD_NAME		_L("EUART1")
sl@0: #define PDD2_NAME		_L("EUART2")
sl@0: #define PDD3_NAME		_L("EUART3")
sl@0: #define PDD4_NAME		_L("EUART4")
sl@0: #endif
sl@0: 
sl@0: #define LDD_NAME		_L("ECOMM")
sl@0: 
sl@0: #include "tclockserver.h"
sl@0: #include "tclock.h"
sl@0: 
sl@0: 
sl@0: _LIT(KServerName, "tclock");
sl@0: 
sl@0: CClockTestServer* CClockTestServer::NewL()
sl@0: 	{
sl@0: 	CClockTestServer *server = new(ELeave) CClockTestServer();
sl@0: 	CleanupStack::PushL(server);
sl@0: 	server->ConstructL(KServerName);
sl@0: 	CleanupStack::Pop(server);
sl@0: 	return server;
sl@0: 	}
sl@0: 
sl@0: static void InitCommsL()
sl@0:     {
sl@0:     TInt ret = User::LoadPhysicalDevice(PDD_NAME);
sl@0:     User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret);
sl@0: 
sl@0: #ifndef __WINS__
sl@0:     ret = User::LoadPhysicalDevice(PDD2_NAME);
sl@0:     ret = User::LoadPhysicalDevice(PDD3_NAME);
sl@0:     ret = User::LoadPhysicalDevice(PDD4_NAME);
sl@0: #endif
sl@0: 
sl@0:     ret = User::LoadLogicalDevice(LDD_NAME);
sl@0:     User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret);
sl@0:     ret = StartC32();
sl@0:     User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret);
sl@0:     }
sl@0: 
sl@0: LOCAL_C void MainL()
sl@0: 	{
sl@0: 	// Leave the hooks in for platform security
sl@0: #if (defined __DATA_CAGING__)
sl@0: 	RProcess().DataCaging(RProcess::EDataCagingOn);
sl@0: 	RProcess().SecureApi(RProcess::ESecureApiOn);
sl@0: #endif
sl@0: 	//InitCommsL();
sl@0: 	
sl@0: 	CActiveScheduler* sched=NULL;
sl@0: 	sched=new(ELeave) CActiveScheduler;
sl@0: 	CActiveScheduler::Install(sched);
sl@0: 	CClockTestServer* server = NULL;
sl@0: 	// Create the CTestServer derived server
sl@0: 	TRAPD(err, server = CClockTestServer::NewL());
sl@0: 	if(!err)
sl@0: 		{
sl@0: 		// Sync with the client and enter the active scheduler
sl@0: 		RProcess::Rendezvous(KErrNone);
sl@0: 		sched->Start();
sl@0: 		}
sl@0: 	delete server;
sl@0: 	delete sched;
sl@0: 	}
sl@0: 
sl@0: /**
sl@0:  * Server entry point
sl@0:  * @return Standard Epoc error code on exit
sl@0:  */
sl@0: TInt main()
sl@0: 	{
sl@0: 	__UHEAP_MARK;
sl@0: 	CTrapCleanup* cleanup = CTrapCleanup::New();
sl@0: 	if(cleanup == NULL) 
sl@0: 		{
sl@0: 		return KErrNoMemory;  
sl@0: 		}
sl@0: 	TRAP_IGNORE(MainL());
sl@0: 	delete cleanup;
sl@0: 	__UHEAP_MARKEND;
sl@0: 	
sl@0: 	return KErrNone;
sl@0: 	}
sl@0: 
sl@0: CTestStep* CClockTestServer::CreateTestStep(const TDesC& aStepName)
sl@0: 	{
sl@0: 	CTestStep* testStep = NULL;
sl@0: 
sl@0: 	if(aStepName == KTestgetclockid1)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestgetclockid2)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestgetclockid3)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestgetclockid4)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestgetclockid5)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclockresolution1)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclockresolution2)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclockresolution3)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocknanosleep1)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocknanosleep2)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocknanosleep3)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocknanosleep4)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocknanosleep5)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocknanosleep6)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclockgettime1)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclockgettime2)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclockgettime3)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocksettime1)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocksettime2)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	if(aStepName == KTestclocksettime3)
sl@0: 		{
sl@0: 			testStep = new CTestclock(aStepName);
sl@0: 		}
sl@0: 	return testStep;
sl@0: 	 }
sl@0: