/*
* Copyright (c) 2002-2009 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:
*
*/
#include <c32comm.h>
#if defined (__WINS__)
#define PDD_NAME _L("ECDRV")
#else
#define PDD_NAME _L("EUART1")
#define PDD2_NAME _L("EUART2")
#define PDD3_NAME _L("EUART3")
#define PDD4_NAME _L("EUART4")
#endif
#define LDD_NAME _L("ECOMM")
/**
* @file
*
* Pipe test server implementation
*/
#include "tsocketserver.h"
#include "tsocket.h"
_LIT(KServerName, "tsocket");
CSocketTestServer* CSocketTestServer::NewL()
{
CSocketTestServer *server = new(ELeave) CSocketTestServer();
CleanupStack::PushL(server);
server->ConstructL(KServerName);
CleanupStack::Pop(server);
return server;
}
static void InitCommsL()
{
TInt ret = User::LoadPhysicalDevice(PDD_NAME);
User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret);
#ifndef __WINS__
ret = User::LoadPhysicalDevice(PDD2_NAME);
ret = User::LoadPhysicalDevice(PDD3_NAME);
ret = User::LoadPhysicalDevice(PDD4_NAME);
#endif
ret = User::LoadLogicalDevice(LDD_NAME);
User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret);
ret = StartC32();
User::LeaveIfError(ret == KErrAlreadyExists?KErrNone:ret);
}
LOCAL_C void MainL()
{
// Leave the hooks in for platform security
#if (defined __DATA_CAGING__)
RProcess().DataCaging(RProcess::EDataCagingOn);
RProcess().SecureApi(RProcess::ESecureApiOn);
#endif
InitCommsL();
CActiveScheduler* sched=NULL;
sched=new(ELeave) CActiveScheduler;
CActiveScheduler::Install(sched);
CSocketTestServer* server = NULL;
// Create the CTestServer derived server
TRAPD(err, server = CSocketTestServer::NewL());
if(!err)
{
// Sync with the client and enter the active scheduler
RProcess::Rendezvous(KErrNone);
sched->Start();
}
delete server;
delete sched;
}
/**
* Server entry point
* @return Standard Epoc error code on exit
*/
TInt main()
{
__UHEAP_MARK;
CTrapCleanup* cleanup = CTrapCleanup::New();
if(cleanup == NULL)
{
return KErrNoMemory;
}
TRAP_IGNORE(MainL());
delete cleanup;
__UHEAP_MARKEND;
return KErrNone;
}
CTestStep* CSocketTestServer::CreateTestStep(const TDesC& aStepName)
{
CTestStep* testStep = NULL;
// This server creates just one step but create as many as you want
// They are created "just in time" when the worker thread is created
// install steps
if(aStepName == KExampleL)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KUDP)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTCP)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetSocketName)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetSocketNameUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetSocketNameUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetSocketNameInvalidLength)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetSocketNameInvalidSocketBuffer)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetPeerSocketName)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetPeerSocketNameUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetPeerSocketNameUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetPeerSocketNameforUnconnectedSocket)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetPeerSocketNameInvalidLengthSockAddr)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindTest)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KMultipleBindOnSameSocket)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindInvalidAddress)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KShutdownTest)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KShutDownTestWithInvalidShutdownOption)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KShutdownUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KShutdownUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KShutdownDisconnectedSocket)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSocketTest)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KListenTest)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KListenUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KListenUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KAcceptTest)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KUDPAccept)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KAcceptUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KAcceptUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KConnectTestFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KConnectUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KConnectUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KRecvTestFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KRecvUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KRecvUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendTestFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSocketOptions)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetSockOptFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSetSockOptFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendToTestFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendToUsingFileDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendToUsingInvalidSocketDescriptor)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSendReturnValue)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KRecvFromTestFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSockAtMark)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindResvPort)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindResvPortFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KHErrNoLocation)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSendMsgRecvMsg)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestRecv)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestReadStream)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestReadDatagram)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KBindFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KAcceptFailCases)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KAcceptTestZeroAddrLen)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KAcceptTestNullAddr)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KListenUdp)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetHostName)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetHostNameNull)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KGetHostNameZero)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSktlseek)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSockAfLocal)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSktfstat)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSktfsync)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestGreaterThan16kReadWrite)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestNotify)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestRecvMsgPeekTCP)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestRecvMsgPeekUDP)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestLargeUDP)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestFionread)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestBind1)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestConnectNonBlocking)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTCP1)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestV4MappedAddress)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KReadTestFailCase)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestNotify1)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSockFcntl)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KTestSockIoctl)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSockErrnoTest)
{
testStep = new CTestSocket(aStepName);
}
if(aStepName == KSockSendOnClosedConn )
{
testStep = new CTestSocket(aStepName);
}
return testStep;
}