Updating the config scripts for use with beagle ROMs and updating the PDD name for the UART connection used on target along with some .iby file updates
// Copyright (c) 2005-2009 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 "Te_SimPacketPenultimateContextTest.h"
CSimPacketPenultimateContextTest::CSimPacketPenultimateContextTest()
{
SetTestStepName(_L("PenultimateContextTest"));
}
TVerdict CSimPacketPenultimateContextTest::doTestStepL()
{
INFO_PRINTF1(_L("BeginPacketPenultimateContextTest"));
CreateConfigFileL(_L("c:\\config3.txt"));
SetTestNumberL(6);
TInt x=0;
TInt ret = iPhone.Open(iTelServer,KPhoneName);
INFO_PRINTF2(_L("Result: %d"),ret);
TESTL(ret == KErrNone);
INFO_PRINTF1(_L("Opened phone object"));
TESTL(iPacketService.Open(iPhone)==KErrNone);
INFO_PRINTF1(_L("Opened Packet object"));
// test RPacketContext::OpenNewContext
TName contextName;
TName contextNameCompare;
TESTL(iFirstPrimaryPacketContext.OpenNewContext(iPacketService, contextName)==KErrNone);
contextNameCompare.Append(KSimPrimaryPacketContextName);
contextNameCompare.AppendNum(1);
TESTL(contextName.Compare(contextNameCompare)==KErrNone);
INFO_PRINTF1(_L("Opened Context object"));
TName anotherContextName;
TName anotherContextNameCompare;
TESTL(iSecondPrimaryPacketContext.OpenNewContext(iPacketService, anotherContextName)==KErrNone);
anotherContextNameCompare.Append(KSimPrimaryPacketContextName);
anotherContextNameCompare.AppendNum(2);
TESTL(anotherContextName.Compare(anotherContextNameCompare)==KErrNone);
INFO_PRINTF1(_L("Opened another Primary Context object"));
// test RPacketContext::Activate - before calling InitialiseContext
TRequestStatus reqStatus;
StartNTRasSimulation();
iFirstPrimaryPacketContext.Activate(reqStatus);
User::WaitForRequest(reqStatus);
TESTL(reqStatus.Int()==KErrNone);
INFO_PRINTF1(_L("Activate test passed"));
// test RPacketContext::InitialiseContext
RPacketContext::TDataChannelV2 channelV2;
RPacketContext::TDataChannelV2Pckg channelV2pckg(channelV2);
iFirstPrimaryPacketContext.InitialiseContext(reqStatus, channelV2pckg);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.41"));
// test RPacketContext::OpenNewSecondaryContext
TName aNewContextName;
iPacketContext.OpenNewSecondaryContext(iPacketService,
contextName,
aNewContextName);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.29"));
INFO_PRINTF1(_L("OpenNewSeondaryContext called successfully"));
// test RPacketService::EnumerateNifs
TInt count;
iPacketService.EnumerateNifs(reqStatus, count);
iPacketService.CancelAsyncRequest(EPacketEnumerateNifs);
User::WaitForRequest(reqStatus);
TESTL(count == 2);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.30"));
INFO_PRINTF1(_L("EnumerateNifs tested successfully"));
// test RPacketService::GetNifInfo
TInt index = count-1;
RPacketService::TNifInfoV2 nifInfoV2;
RPacketService::TNifInfoV2Pckg nifInfoV2Pckg(nifInfoV2);
iPacketService.GetNifInfo(reqStatus, index, nifInfoV2Pckg);
iPacketService.CancelAsyncRequest(EPacketGetNifInfo);
User::WaitForRequest(reqStatus);
TESTL(nifInfoV2.iContextName.Compare(anotherContextName)==0);
TESTL(nifInfoV2.iContextType == RPacketService::EUnspecified);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.31"));
INFO_PRINTF1(_L("GetNifInfo Test Passed"));
// test RPacketService::EnumerateContextsInNif
iPacketService.EnumerateContextsInNif(reqStatus, nifInfoV2.iContextName, count);
iPacketService.CancelAsyncRequest(EPacketEnumerateContextsInNif);
User::WaitForRequest(reqStatus);
TESTL(count == 1);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.32"));
INFO_PRINTF1(_L("EnumerateContextsInNif Test Passed"));
// test RPacketService::GetContextNameInNif
index = count-1;
iPacketService.GetContextNameInNif(reqStatus, nifInfoV2.iContextName, index, anotherContextNameCompare);
iPacketService.CancelAsyncRequest(EPacketGetContextNameInNif);
User::WaitForRequest(reqStatus);
TESTL(anotherContextNameCompare.Compare(anotherContextName)==0);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.33"));
INFO_PRINTF1(_L("GetContextNameInNif Test Passed"));
// test RPacketService::GetCurrentReleaseMode
RPacketService::TPacketReleaseMode releaseMode;
iPacketService.GetCurrentReleaseMode(reqStatus, releaseMode);
iPacketService.CancelAsyncRequest(EPacketGetCurrentReleaseMode);
User::WaitForRequest(reqStatus);
TESTL(releaseMode==5);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.34"));
INFO_PRINTF1(_L("GetCurrentReleaseMode Test Passed"));
// test RPacketService::NotifyReleaseModeChange
iPacketService.NotifyReleaseModeChange(reqStatus, releaseMode);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.35"));
INFO_PRINTF1(_L("NotifyReleaseModeChange Test Passed"));
TUint8 addrArray[RPacketContext::KIPAddressSize] = {0,0,0,0,
0,0,0,0,
0,0,255,255,
102,23,224,132};
TUint8 subArray[RPacketContext::KIPAddressSize] = {0,0,0,0,
0,0,0,0,
0,0,255,255,
255,255,255,255};
RPacketContext::TPacketFilterV2 packetFilterV2;
packetFilterV2.iId = 0;
packetFilterV2.iEvaluationPrecedenceIndex = 1;
for(x = 0; x<RPacketContext::KIPAddressSize; x++)
{
packetFilterV2.iSrcAddr[x] = addrArray[x];
packetFilterV2.iSrcAddrSubnetMask[x] = subArray[x];
}
packetFilterV2.iProtocolNumberOrNextHeader = 1;
packetFilterV2.iSrcPortMin = 0;
packetFilterV2.iSrcPortMax = 1;
packetFilterV2.iDestPortMin = 2;
packetFilterV2.iDestPortMax = 0;
packetFilterV2.iIPSecSPI = 0;
packetFilterV2.iTOSorTrafficClass = 1;
packetFilterV2.iFlowLabel = 2;
//TFTfilter = 0, 1, 10.32.2.1, 10.32.5.5, 1, 0, 1, 2, 0, 0, 1, 2 - as in configuration file
RPacketContext::TPacketFilterV2Pckg packetFilterV2pckg(packetFilterV2);
// test RPacketContext::AddPacketFilter (V2)
iFirstPrimaryPacketContext.AddPacketFilter(reqStatus, packetFilterV2pckg);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.38"));
INFO_PRINTF1(_L("AddPacketFilter V2 Test Passed"));
INFO_PRINTF1(_L("AddPacketFilter V2 Test Passed"));
//Set up Source adress and Source address subnet Mask for V3 Packet Filter test
RPacketContext::TPacketFilterV3 packetFilterV3(RPacketContext::EPacketFilterTypeOne);
RPacketContext::TIPAddress srcAddr = {0,0,0,0,
0,0,0,0,
0,0,255,255,
102,23,224,132};
RPacketContext::TIPAddress srcAddrSubnetMask = {0,0,0,0,
0,0,0,0,
0,0,255,255,
255,255,255,255};
packetFilterV3.iId=V3_PCKT_FILTER_ID;
packetFilterV3.iEvaluationPrecedenceIndex=V3_PCKT_FILTER_EVALUATION_PRECEDENCE_INDEX;
packetFilterV3.SetSrcAddr(srcAddr);
packetFilterV3.SetSrcAddrSubnetMask(srcAddrSubnetMask);
packetFilterV3.SetProtocolNumberOrNextHeader(V3_PCKT_FILTER_PROTOCOLNUMBER_OR_NEXTHEADER);
packetFilterV3.SetSrcPortMin(V3_PCKT_FILTER_MINIMUM_SOURCE_PORT_NUMBER);
packetFilterV3.SetSrcPortMax(V3_PCKT_FILTER_MAXIMUM_SOURCE_PORT_NUMBER);
packetFilterV3.SetDestPortMin(V3_PCKT_FILTER_MINIMUM_DESTINATION_PORT_NUMBER);
packetFilterV3.SetDestPortMax(V3_PCKT_FILTER_MAXIMUM_DESTINATION_PORT_NUMBER);
packetFilterV3.SetTOSorTrafficClass(V3_PCKT_FILTER_TYPE_OF_SERVICE_OR_TRAFFIC_CLASS);
RPacketContext::TPacketFilterV3Pckg packetFilterV3pckg(packetFilterV3);
// test RPacketContext::AddPacketFilter (V3)
iFirstPrimaryPacketContext.AddPacketFilter(reqStatus, packetFilterV3pckg);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_IMS_CASE("P.12"));
INFO_PRINTF1(_L("AddPacketFilter V3 Test Passed"));
// test RPacketContext::EnumeratePacketFilters
iFirstPrimaryPacketContext.EnumeratePacketFilters(reqStatus, count);
User::WaitForRequest(reqStatus);
TESTL(count == 2);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_IMS_CASE("P.13"));
INFO_PRINTF1(_L("EnumeratePacketFilters Test Passed"));
// test RPacketContext::GetPacketFilterInfo (V2)
index = 0;
iFirstPrimaryPacketContext.GetPacketFilterInfo(reqStatus, index, packetFilterV2pckg);
User::WaitForRequest(reqStatus);
TESTL(packetFilterV2.iId == 0);
TESTL(packetFilterV2.iEvaluationPrecedenceIndex == 1);
for(x = 0; x<RPacketContext::KIPAddressSize; x++)
{
TESTL(packetFilterV2.iSrcAddr[x] == addrArray[x]);
TESTL(packetFilterV2.iSrcAddrSubnetMask[x] == subArray[x]);
}
TESTL(packetFilterV2.iProtocolNumberOrNextHeader == 1);
TESTL(packetFilterV2.iSrcPortMin == 0);
TESTL(packetFilterV2.iSrcPortMax == 1);
TESTL(packetFilterV2.iDestPortMin == 2);
TESTL(packetFilterV2.iDestPortMax == 0);
TESTL(packetFilterV2.iIPSecSPI == 0);
TESTL(packetFilterV2.iTOSorTrafficClass == 1);
TESTL(packetFilterV2.iFlowLabel == 2);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.37"));
//test RPacketContext::GetPacketFilterInfo (V3)
index = 1;
RPacketContext::TPacketFilterV3 packetFilterV3_2(RPacketContext::EPacketFilterTypeOne);
RPacketContext::TPacketFilterV3Pckg packetFilterV3_2pckg(packetFilterV3_2);
iFirstPrimaryPacketContext.GetPacketFilterInfo(reqStatus, index, packetFilterV3_2pckg);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_IMS_CASE("P.14"));
TESTL(packetFilterV3_2.iId == V3_PCKT_FILTER_ID);
TESTL(packetFilterV3_2.iEvaluationPrecedenceIndex == V3_PCKT_FILTER_EVALUATION_PRECEDENCE_INDEX);
for(x = 0; x<RPacketContext::KIPAddressSize; x++)
{
TESTL(packetFilterV3_2.SrcAddr()[x] == srcAddr[x]);
TESTL(packetFilterV3_2.SrcAddrSubnetMask()[x] == srcAddrSubnetMask[x]);
}
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterDestPortMin));
TESTL((packetFilterV3_2.DestPortMin() == V3_PCKT_FILTER_MINIMUM_DESTINATION_PORT_NUMBER));
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterDestPortMax));
TESTL((packetFilterV3_2.DestPortMax() == V3_PCKT_FILTER_MAXIMUM_DESTINATION_PORT_NUMBER));
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterProtocolNumberOrNextHeader));
TESTL((packetFilterV3_2.ProtocolNumberOrNextHeader() == V3_PCKT_FILTER_PROTOCOLNUMBER_OR_NEXTHEADER));
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterSrcPortMin));
TESTL((packetFilterV3_2.SrcPortMin() == V3_PCKT_FILTER_MINIMUM_SOURCE_PORT_NUMBER));
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterSrcPortMax));
TESTL((packetFilterV3_2.SrcPortMax() == V3_PCKT_FILTER_MAXIMUM_SOURCE_PORT_NUMBER));
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterTOSorTrafficClass));
TESTL((packetFilterV3_2.TOSorTrafficClass() == V3_PCKT_FILTER_TYPE_OF_SERVICE_OR_TRAFFIC_CLASS));
/* Because the Filter Type was One SPI will not be set and should be 0 */
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterIPSecSPI) == EFalse);
TESTL(packetFilterV3_2.IsPresent(RPacketContext::TPacketFilterV3::EPacketFilterFlowLabel) == EFalse);
INFO_PRINTF1(_L("GetPacketFilterInfo Test Passed"));
// test RPacketContext::ModifyActiveContext
iFirstPrimaryPacketContext.ModifyActiveContext(reqStatus);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.40"));
INFO_PRINTF1(_L("ModifyActiveContext Test Passed"));
index = 0;
RPacketService::TContextInfo contextInfo;
iPacketService.GetContextInfo(reqStatus, index, contextInfo);
iPacketService.CancelAsyncRequest(EPacketGetContextInfo);
User::WaitForRequest(reqStatus);
TESTL(reqStatus.Int()==KErrNone);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.6"));
INFO_PRINTF1(_L("Get Info Test Passed"));
// test RPacketContext::RemovePacketFilter
iFirstPrimaryPacketContext.RemovePacketFilter(reqStatus, index);
User::WaitForRequest(reqStatus);
CHECKPOINTL(reqStatus.Int(),KErrNone,CHP_CNTXT_CASE("E.39"));
INFO_PRINTF1(_L("RemovePacketFilter Test Passed"));
// End of RPacketContext and RPacketService tests
iPacketContext.Close();
iFirstPrimaryPacketContext.Close();
iSecondPrimaryPacketContext.Close();
iPacketService.Close();
iPhone.Close();
ASSERT(RThread().RequestCount()==0);
return TestStepResult();
}