Latest bug-fixes with added tests.
// Copyright (c) 2000-2009 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:
// \file t_gprs.cpp
// This file implements all GPRS and Context test cases. The test cases are built
// for using against a Motorola GPRS and Ericsson T39/520 phones.
// All test cases that are in tgprsinter are also in this file.
//
//
#include <e32base.h>
#include <e32test.h>
#include <c32comm.h>
#include "f32file.h"
#include <etel.h>
#include <autotest.h>
#include <es_sock.h>
#include <in_sock.h>
#include "tmain.h"
#include <etelQoS.h>
#include <pcktcs.h>
// Globals
CAutoTest* gAutoTest;
//GLREF_D RConnection conn;
// Support functions
LOCAL_C void TestConfigParams(RPacketContext::TContextConfigGPRS& aArg1, RPacketContext::TContextConfigGPRS& aArg2);
LOCAL_C TInt ListRoutes(RSocket& aSocket);
void WaitWithTimeout(TRequestStatus& aStatus)
/** Waits untill end or request or time out
* @param request itself
* @param number Of microseconds
*/
{
TRequestStatus timerStatus;
RTimer timer;
timer.CreateLocal() ;
const TInt KOneSecondInMicroSeconds=1000000L;
timer.After(timerStatus,120*KOneSecondInMicroSeconds); // x second timer
User::WaitForRequest(aStatus, timerStatus);
// Cancel timer if it did not complete
if (timerStatus == KRequestPending)
{
timer.Cancel();
User::WaitForRequest(timerStatus);
}
else
{
aStatus=-999; // Hopefully -999 reported in the test result log will make it obvious
// that the request was cancelled due to it taking to long
gTest.Printf(_L("User::WaitForRequest cancelled as it did not complete within a reasonable time\n"));
}
timer.Close() ;
}
LOCAL_C void GprsDefaultContextParamsTest()
/**
* This tests the default context params
*/
{
RPacketContext::TContextConfigGPRS setDefaultParams;
RPacketContext::TContextConfigGPRS getDefaultParams;
// Some default params to set, does not matter what it is.
_LIT(KAccesspoint, "www.Symbian.com");
_LIT(KPpdpaddress, "192.168.111.100");
gTest(gPacketService.Open(gPhone ) == KErrNone);
setDefaultParams.iPdpType = RPacketContext::EPdpTypeIPv4;
setDefaultParams.iAccessPointName = KAccesspoint;
setDefaultParams.iPdpAddress = KPpdpaddress;
setDefaultParams.iPdpCompression = 1;
TPckg<RPacketContext::TContextConfigGPRS> setcontextConfigPckg(setDefaultParams);
TPckg<RPacketContext::TContextConfigGPRS> getcontextConfigPckg(getDefaultParams);
gTest(gPacketService.SetDefaultContextParams(setcontextConfigPckg) == KErrNone);
gTest(gPacketService.GetDefaultContextParams(getcontextConfigPckg) == KErrNone);
TestConfigParams(setDefaultParams, getDefaultParams);
gPacketService.Close();
User::After(500000);
}
LOCAL_C void GprsUnSupportedTest()
/**
* Tests all unsupported GPRS API calls to the TSY.
*/
{
TRequestStatus status;
gTest(gPacketService.Open(gPhone ) == KErrNone);
gPacketService.RejectActivationRequest(status);
User::WaitForRequest(status);
gTest(status.Int()== KErrNotSupported);
gPacketService.RejectActivationRequest(status);
gPacketService.CancelAsyncRequest(EPacketRejectActivationRequest);
User::WaitForRequest(status);
gTest(status.Int() == KErrNotSupported);
RPacketService::TMSClass msClass;
gPacketService.NotifyMSClassChange(status, msClass);
User::WaitForRequest(status);
gTest(status.Int() == KErrNotSupported);
RPacketService::TDynamicCapsFlags dynCaps;
gTest(gPacketService.GetDynamicCaps(dynCaps) == KErrNotSupported);
gPacketService.NotifyDynamicCapsChange(status, dynCaps);
User::WaitForRequest(status);
gTest(status.Int() == KErrNotSupported);
RPacketService::TAttachMode attachMode = RPacketService::EAttachWhenPossible;
gTest(gPacketService.SetAttachMode(attachMode) == KErrNotSupported);
gTest(gPacketService.GetAttachMode(attachMode) == KErrNotSupported);
RPacketService::TRegistrationStatus registrationStatus = RPacketService::ERegisteredRoaming;
gPacketService.GetNtwkRegStatus(status, registrationStatus);
User::WaitForRequest(status);
gTest(status.Int() == KErrNone || status.Int() == KErrNotSupported);
gPacketService.Close();
User::After(500000);
}
LOCAL_C void GprsContextAttachTest()
/**
* This tests the context attach and detach
*/
{
TRequestStatus stat1;
TRequestStatus stat2;
TBuf<30> contextName;
RPacketContext::TContextStatus contextStatus;
gTest(gPacketService.Open(gPhone ) == KErrNone);
gTest(gPacketContext[0].OpenNewContext(gPacketService, contextName) == KErrNone);
gPacketContext[0].NotifyStatusChange(stat1, contextStatus);
gPacketContext[0].CancelAsyncRequest(EPacketContextNotifyStatusChange);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrCancel);
gPacketContext[0].NotifyStatusChange(stat1, contextStatus);
gPacketContext[0].Activate(stat2);
User::WaitForRequest(stat2);
gTest(stat2.Int()== KErrNone);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gTest(contextStatus == RPacketContext::EStatusActivating);
gPacketContext[0].NotifyStatusChange(stat1, contextStatus);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gTest(contextStatus == RPacketContext::EStatusActive);
gPacketContext[0].NotifyStatusChange(stat1, contextStatus);
gPacketContext[0].Deactivate(stat2);
User::WaitForRequest(stat2);
gTest(stat2.Int() == KErrNone);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gTest(contextStatus == RPacketContext::EStatusDeactivating);
gPacketContext[0].NotifyStatusChange(stat1, contextStatus);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gTest(contextStatus == RPacketContext::EStatusInactive);
gPacketContext[0].Close();
gPacketService.Close();
User::After(500000);
}
LOCAL_C void GprsContextDeleteTest()
/**
* This tests the context delete.
*/
{
TRequestStatus stat1;
TBuf<30> contextName;
RPacketContext::TContextStatus contextStatus;
gTest(gPacketService.Open(gPhone ) == KErrNone);
gTest(gPacketContext[0].OpenNewContext(gPacketService, contextName) == KErrNone);
gPacketContext[0].Delete(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].Activate(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrAccessDenied);
gTest(gPacketContext[0].GetStatus(contextStatus) == KErrNone);
gTest(contextStatus == RPacketContext::EStatusDeleted);
gPacketContext[0].Close();
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsContextLoanComport()
/**
* This tests the comport loan.
*/
{
TRequestStatus stat1;
TBuf<30> contextName;
RCall::TCommPort dataPort;
gTest(gPacketService.Open(gPhone ) == KErrNone);
gTest(gPacketContext[0].OpenNewContext(gPacketService, contextName) == KErrNone);
gPacketContext[0].RecoverCommPort(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrEtelPortNotLoanedToClient);
gPacketContext[0].LoanCommPort(stat1, dataPort);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNotReady);
gPacketContext[0].Activate(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].LoanCommPort(stat1, dataPort);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].Activate(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrInUse);
gPacketContext[0].RecoverCommPort(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].Deactivate(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].Close();
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsContextUnSupportedTest()
/**
* This tests all GPRS context API calls.
*/
{
TRequestStatus stat1;
TBuf<30> contextName;
TInt err = 0;
RPacketContext::TDataVolume volume;
gTest(gPacketService.Open(gPhone ) == KErrNone);
gTest(gPacketContext[0].OpenNewContext(gPacketService, contextName) == KErrNone);
gTest(gPacketContext[0].GetDataVolumeTransferred(volume) == KErrNotSupported);
gPacketContext[0].NotifyDataTransferred(stat1, volume);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNotSupported);
gTest(gPacketContext[0].GetLastErrorCause(err) == KErrNotSupported);
gPacketContext[0].Close();
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsMsClassTest()
/**
* This tests the MS Class.
*/
{
TRequestStatus stat1;
gTest(gPacketService.Open(gPhone ) == KErrNone);
RPacketService::TMSClass currentClass;
RPacketService::TMSClass maxClass;
gPacketService.GetMSClass(stat1, currentClass, maxClass);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
if(GPhoneBrand == EMotorola)
{
gPacketService.SetMSClass(stat1, currentClass);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gTest(currentClass == RPacketService::EMSClassSuspensionRequired);
gTest(maxClass == RPacketService::EMSClassSuspensionRequired);
}
gPacketService.Close();
}
LOCAL_C void GprsAttachTestL()
/**
* This tests the attach and detach.
*/
{
TRequestStatus stat1;
RPacketService::TStatus status;
User::LeaveIfError(gPacketService.Open(gPhone));
gPacketService.Attach(stat1);
User::WaitForRequest(stat1);
User::LeaveIfError(stat1.Int());
gPacketService.GetStatus(status);
GLOBAL_CHECKPOINT_COMPARE(status,RPacketService::EStatusAttached,_L("Expected RPacketService::EStatusAttached"));
gPacketService.Detach(stat1);
User::WaitForRequest(stat1);
User::LeaveIfError(stat1.Int());
gPacketService.GetStatus(status);
GLOBAL_CHECKPOINT_COMPARE(status,RPacketService::EStatusUnattached,_L("Expected RPacketService::EStatusUnattached"));
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsNotificationTest()
/**
* Tests Notify Context added, Tests Notify status
*/
{
TRequestStatus stat1,stat2,stat3;
TBuf<20> context= _L("");
gTest(gPacketService.Open(gPhone ) == KErrNone);
TBuf<40> contextId;
gPacketService.NotifyContextAdded(stat1, contextId);
gPacketService.CancelAsyncRequest(EPacketNotifyContextAdded);
User::WaitForRequest(stat1);
gTest(stat1.Int()== KErrCancel);
gPacketService.NotifyContextAdded(stat1, contextId);
gTest(gPacketContext[0].OpenNewContext(gPacketService, context) == KErrNone);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
RPacketService::TStatus gprsStatus;
gPacketService.NotifyStatusChange(stat2, gprsStatus);
gPacketService.CancelAsyncRequest(EPacketNotifyStatusChange);
User::WaitForRequest(stat2);
gTest(stat2.Int() == KErrCancel);
gPacketService.NotifyStatusChange(stat2, gprsStatus);
gPacketService.Attach(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
User::WaitForRequest(stat2);
gTest(stat2.Int() == KErrNone);
gTest(gprsStatus == RPacketService::EStatusAttached);
User::After(1000000); // Delay to allow phone to settle
gPacketService.NotifyStatusChange(stat3, gprsStatus);
gPacketService.Detach(stat1);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
User::WaitForRequest(stat3);
gTest(stat3.Int() == KErrNone);
gTest(gprsStatus == RPacketService::EStatusUnattached);
gPacketContext[0].Close();
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsContextConfigTest()
/**
* Test context config.
*/
{
TRequestStatus stat1;
gTest(gPacketService.Open(gPhone ) == KErrNone);
TBuf<30> contextName;
gTest(gPacketContext[0].OpenNewContext(gPacketService, contextName) == KErrNone);
gTest(gPacketContext[1].OpenNewContext(gPacketService, contextName) == KErrNone);
RPacketContext::TContextConfigGPRS Getparams;
RPacketContext::TContextConfigGPRS Setparams;
TPckg<RPacketContext::TContextConfigGPRS> GetcontextConfigPckg(Getparams);
gPacketContext[0].GetConfig(stat1, GetcontextConfigPckg);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
Setparams = Getparams;
TPckg<RPacketContext::TContextConfigGPRS> SetcontextConfigPckg(Setparams);
gPacketContext[0].SetConfig(stat1, SetcontextConfigPckg);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[1].SetConfig(stat1, SetcontextConfigPckg);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].GetConfig(stat1, SetcontextConfigPckg);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
TestConfigParams(Getparams, Setparams);
TRequestStatus stat;
gPacketContext[0].SetConfig(stat, SetcontextConfigPckg);
gPacketContext[0].CancelAsyncRequest(EPacketContextSetConfig);
User::WaitForRequest(stat);
gTest(stat.Int() == KErrCancel);
gPacketContext[0].GetConfig(stat, GetcontextConfigPckg);
gPacketContext[0].CancelAsyncRequest(EPacketContextGetConfig);
User::WaitForRequest(stat);
gTest(stat.Int() == KErrCancel);
Setparams.iPdpType = RPacketContext::TProtocolType(20); // Set out of range
TPckg<RPacketContext::TContextConfigGPRS> errorPackage(Setparams);
gPacketContext[0].SetConfig(stat1, errorPackage);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNotSupported);
gPacketContext[0].Close();
gPacketContext[1].Close();
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsContextConfigNotificationsTest()
/**
* Test context notifications.
*/
{
TRequestStatus stat1, stat2;
TBuf<30> contextName;
RPacketContext::TContextConfigGPRS params, notifyParams;
TPckg<RPacketContext::TContextConfigGPRS> contextConfigPckg(params);
TPckg<RPacketContext::TContextConfigGPRS> notifyContextConfigPckg(notifyParams);
gTest(gPacketService.Open(gPhone ) == KErrNone);
gTest(gPacketContext[0].OpenNewContext(gPacketService, contextName) == KErrNone);
gTest(gPacketContext[1].OpenNewContext(gPacketService, contextName) == KErrNone);
gPacketContext[0].NotifyConfigChanged(stat1, notifyContextConfigPckg);
gPacketContext[0].CancelAsyncRequest(EPacketContextNotifyConfigChanged);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrCancel);
gPacketContext[0].GetConfig(stat1, contextConfigPckg);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
gPacketContext[0].NotifyConfigChanged(stat1, notifyContextConfigPckg);
gPacketContext[0].SetConfig(stat2, contextConfigPckg);
User::WaitForRequest(stat2);
gTest(stat2.Int() == KErrNone);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrNone);
TestConfigParams(params, notifyParams);
gPacketContext[0].Close();
gPacketContext[1].Close();
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void OpenGprsMaxContextsTest()
/**
* Tests enumerate contexts, open new context, open existing context.
*/
{
TRequestStatus stat1;
TBuf<20> contextName = _L("");
gTest(gPacketService.Open(gPhone ) == KErrNone);
TInt countContexts;
TInt maxAllowedContexts;
gPacketService.EnumerateContexts(stat1, countContexts, maxAllowedContexts);
User::WaitForRequest(stat1);
gTest(countContexts == 0);
if(GPhoneBrand == EMotorola)
gTest(maxAllowedContexts == 3);
else if(GPhoneBrand == EEricsson)
gTest(maxAllowedContexts == 10);
TInt i = 0;
RPacketService::TContextInfo contextinfo;
for(i = 0; i < maxAllowedContexts;i++)
{
RPacketContext contextPacket;
TBuf<30> tmpContextName;
tmpContextName = _L("GPRS_CONTEXT");
tmpContextName.AppendNum(i+1);
gTest(gPacketContext[i].OpenNewContext(gPacketService, contextName) == KErrNone);
gPacketService.GetContextInfo(stat1, i, contextinfo);
User::WaitForRequest(stat1);
gTest(contextinfo.iName == tmpContextName);
gTest(contextinfo.iStatus == RPacketContext::EStatusUnknown);
gTest(contextPacket.OpenExistingContext(gPacketService, contextName) == KErrNone);
gTest(contextName == tmpContextName);
contextPacket.Close();
}
gTest(gPacketContext[i+5].OpenNewContext(gPacketService, contextName) == KErrOverflow);
gPacketService.GetContextInfo(stat1, i+1, contextinfo);
User::WaitForRequest(stat1);
gTest(stat1.Int() == KErrArgument);
for(i = 0; i < maxAllowedContexts;i++)
{
gPacketContext[i].Close();
}
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsCancelTest()
/**
* This test will call all GPRS API calls
* that can be canceled with an outstanding request
* to the phone.
*/
{
TRequestStatus stat;
gTest(gPacketService.Open(gPhone ) == KErrNone);
gPacketService.Attach(stat);
gPacketService.CancelAsyncRequest(EPacketAttach);
User::WaitForRequest(stat);
gTest(stat.Int() == KErrCancel);
gPacketService.Detach(stat);
gPacketService.CancelAsyncRequest(EPacketDetach);
User::WaitForRequest(stat);
gTest(stat.Int() == KErrCancel);
RPacketService::TMSClass currentClass;
RPacketService::TMSClass maxClass;
gPacketService.GetMSClass(stat, currentClass, maxClass);
gPacketService.CancelAsyncRequest(EPacketGetMSClass);
User::WaitForRequest(stat);
gTest((stat.Int() == KErrCancel)||(stat.Int() == KErrNone));
currentClass = RPacketService::EMSClassSuspensionRequired;
gPacketService.SetMSClass(stat, currentClass);
gPacketService.CancelAsyncRequest(EPacketSetMSClass);
User::WaitForRequest(stat);
gTest(stat.Int() == KErrCancel);
gPacketService.Close();
User::After(KOneSecond);
}
LOCAL_C void GprsDownloadWebbPageTestL()
/**
* This test will open a socket and download a
* page/file that is specified by KTestCfgHTTPServerIpAddress
* and KTestCfgHTTPPageAddress
*
*/
{
// Constants used for this test.
const TInt KWebPort = 80;
const TPtrC testAddr = testConfigParams->FindAlphaVar(KTestCfgHTTPServerIpAddress,KNullDesC);
const TPtrC testPage = testConfigParams->FindAlphaVar(KTestCfgHTTPPageAddress,KNullDesC);
HBufC8* iWebPage = HBufC8::NewMaxL(4096);
gTest.Printf(_L("Send HTML request\n"));
RSocket sock;
gTest.Printf(_L("Open tcpip socket\n"));
gTest(sock.Open(gSocketServer, KAfInet, KSockStream, KProtocolInetTcp) == KErrNone);
TInetAddr addr(KWebPort);
addr.Input(testAddr );
TRequestStatus stat;
gTest.Printf(_L("Connecting to socket\n"));
sock.Connect(addr, stat);
WaitWithTimeout(stat);
User::LeaveIfError(stat.Int());
// List the route to the server.
gTest.Printf(_L("List the route to the server\n"));
ListRoutes(sock);
TPtr8 des(iWebPage->Des());
des.Copy(_L("GET"));
des.Append(testPage);
des.Append(_L(" \r\n\r\n"));
gTest.Printf(_L("Writing data to socket\n"));
sock.Write(*iWebPage, stat);
WaitWithTimeout(stat);
User::LeaveIfError(stat.Int());
gTest.Printf(_L("Sent request OK\n"));
TSockXfrLength HTTPHeaderLen;
TInt rcount = 0;
TTime startTime;
startTime.UniversalTime();
FOREVER
{
des.Zero();
sock.RecvOneOrMore(des,0,stat,HTTPHeaderLen);
User::WaitForRequest(stat);//, readStat);
if(stat!=KErrNone)
break;
rcount += iWebPage->Length();
gTest.Console()->SetPos(0);
gTest.Printf(_L("\rRecved:%10d Bytes"), rcount);
}
if(stat.Int() != KErrEof)
User::Leave(KErrEof);
// Calculate the number of bytes per second.
TTime stopTime;
stopTime.UniversalTime();
TTimeIntervalMicroSeconds totalTime = stopTime.MicroSecondsFrom(startTime);
TInt64 byteRate(rcount);
byteRate *= KOneSecond;
byteRate /=totalTime.Int64();
gTest.Printf(_L("\n"));
gTest.Printf(_L("Rate: %d B/s\n"), I64INT(byteRate));
gTest.Printf(_L("Received HTML page OK\n"));
// Close the socket.
sock.Close();
// Stop the agent so that the we will be disconnected from the network.
// gGenericAgent.Stop();
conn.Stop();
// Delete the webpage buffer.
delete iWebPage;
User::After(KFiveSeconds);
}
LOCAL_C void TestGprsfaxCancel()
/**
* This function tests the opening of 2 call objects
* and doing a hang-up on them while there is a
* GPRS object in the system.
*/
{
TBuf<100> Context;
TRequestStatus stat1, stat2;
Context = _L("");
_LIT(KFaxLineName,"Fax");
_LIT(KVoiceLineName,"Voice");
gTest(gPacketService.Open(gPhone ) == KErrNone);
RLine faxLine;
RCall call;
RCall call2;
RLine voiceLine;
TName callName;
faxLine.Open(gPhone ,KFaxLineName);
voiceLine.Open(gPhone ,KVoiceLineName);
gTest(gPhone .Initialise()==KErrNone);
faxLine.NotifyIncomingCall(stat1,callName);
faxLine.NotifyIncomingCallCancel();
voiceLine.NotifyIncomingCall(stat1,callName);
voiceLine.NotifyIncomingCallCancel();
User::WaitForRequest(stat1);
User::WaitForRequest(stat2);
gTest(call.OpenNewCall(voiceLine)==KErrNone);
gTest(call.HangUp()==KErrNone);
gTest(call2.OpenNewCall(faxLine)==KErrNone);
gTest(call2.HangUp()==KErrNone);
call.Close();
call2.Close();
voiceLine.Close();
faxLine.Close();
gPacketService.Close();
}
LOCAL_C void TestOpenContextByNameL()
/**
* This test should verify that defect SHY-54SNHT is fixed.
*/
{
User::LeaveIfError(gPacketService.Open(gPhone));
TBuf<30> contextName;
User::LeaveIfError(gPacketContext[0].OpenNewContext(gPacketService,contextName));
User::LeaveIfError(gPacketContext[1].OpenExistingContext(gPacketService,contextName));
gPacketService.Close();
}
LOCAL_C void TestNetworkRegStatusL()
/**
* This test does a basic test on the Get Current Network
* Registration Status functionality.
*/
{
User::LeaveIfError(gPacketService.Open(gPhone));
RPacketService::TRegistrationStatus regStatus;
TRequestStatus status;
gPacketService.GetNtwkRegStatus(status,regStatus);
User::WaitForRequest(status);
if(status!=KErrNone && status!=KErrNotSupported) // Do not consider KErrNotSupported a failure
{
gPacketService.Close();
User::Leave(status.Int());
}
gPacketService.Close();
}
LOCAL_C void TestGetStaticCapsL()
/**
* Simple test for RPacketService::GetStaticCaps
*/
{
User::LeaveIfError(gPacketService.Open(gPhone));
//
// Call RPacketService::GetStaticCaps with EPdpTypeIPv6
// We would expect this call to fail with KErrNotSupported
TUint caps(0); // Create and initialise caps
TInt ret=gPacketService.GetStaticCaps(caps,RPacketContext::EPdpTypeIPv6);
GLOBAL_CHECKPOINT_COMPARE(ret,KErrNotSupported,_L("Expected KErrNotSupported for GetStaticCaps with EPdpTypeIPv6"));
//
// Call RPacketService::GetStaticCaps
caps=0; // Intialise caps
User::LeaveIfError(gPacketService.GetStaticCaps(caps,RPacketContext::EPdpTypeIPv4));
//
// Validate caps returned by GetStaticCaps.
// (we know what the values should be as they specified in the MMTSY design document
// are harcoded in the MMTSY)
GLOBAL_CHECKPOINT_COMPARE(caps,RPacketService::KCapsSetDefaultContextSupported|RPacketService::KCapsMSClassSupported,_L("Unexpcted Static Caps"));
gPacketService.Close();
}
LOCAL_C void TestOpenExistingContextL()
/**
* Simple test for RPacketService::OpenExistingContext.
* This test should verify the fix for defect SHY-54SNHT.
* If SHY-54SNHT has not been fixed an access violation will occur in Etel during the
* OPenExistingContext call.
*/
{
RPacketService packetService;
User::LeaveIfError(packetService.Open(gPhone));
//
// Open context using an invalid context name (call should fail with KErrNotFound)
RPacketContext context;
_LIT(KUnknownContextName,"NonExistantContext");
TInt ret=context.OpenExistingContext(packetService,KUnknownContextName);
GLOBAL_CHECKPOINT_COMPARE(ret,KErrNotFound,_L("RPacketContext::OpenExistingContext did not fail when it should have"));
packetService.Close();
}
LOCAL_C void TestConfigParams(RPacketContext::TContextConfigGPRS& aArg1, RPacketContext::TContextConfigGPRS& aArg2)
{
gTest(aArg1.iPdpType == aArg2.iPdpType);
gTest(aArg1.iAccessPointName == aArg2.iAccessPointName );
gTest(aArg1.iPdpCompression == aArg2.iPdpCompression);
gTest(aArg1.iPdpAddress == aArg2.iPdpAddress);
gTest(aArg1.iAnonymousAccessReqd == aArg2.iAnonymousAccessReqd);
}
const TAutoTestCase KGPRSTestCases[] =
/**
* List of all test cases. It consists of a function pointer and a text label.
*/
{
{GprsDefaultContextParamsTest, _S("GprsDefaultContextParamsTest ")},
{GprsUnSupportedTest, _S("GprsUnSupportedTest ")},
{GprsContextAttachTest, _S("GprsContextAttachTest ")},
{GprsContextDeleteTest, _S("GprsContextDeleteTest ")},
{GprsContextLoanComport, _S("GprsContextLoanComport ")},
{GprsContextUnSupportedTest, _S("GprsContextUnSupportedTest ")},
{GprsAttachTestL, _S("GprsAttachTest ")},
{GprsNotificationTest, _S("GprsNotificationTest ")},
{GprsMsClassTest, _S("GprsMsClassTest ")},
{GprsContextConfigTest, _S("GprsContextConfigTest ")},
{GprsContextConfigNotificationsTest, _S("GprsContextConfigNotificationsTest ")},
{OpenGprsMaxContextsTest, _S("OpenGprsMaxContextsTest")},
{GprsCancelTest, _S("GprsCancelTest ")},
{TestGprsfaxCancel, _S("TestGprsfaxCancel ")},
{TestOpenContextByNameL, _S("TestOpenContextByName")},
{TestNetworkRegStatusL, _S("TestNetworkRegStatus")},
{TestGetStaticCapsL, _S("TestGetStaticCaps")},
{TestOpenExistingContextL, _S("TestOpenExistingContext")},
{GprsDownloadWebbPageTestL, _S("GprsDownloadWebbPageTest ")},
};
GLDEF_C void AutoTestExecute()
{
_LIT(KGPRSTestReport, "gprs_testreport.txt");
_LIT8(KGPRSCompInfo, "MM.TSY");
GLOBAL_AUTOTEST_EXECUTE(KGPRSTestCases, KGPRSTestReport, KGPRSCompInfo, gTest );
}
LOCAL_C TInt ListRoutes(RSocket& aSocket)
/**
* This function lists all the hops that the packet
* needs to make to reach the port on the server.
*/
{
TPckgBuf<TSoInetRouteInfo> opt;
TInt ret;
ret = aSocket.SetOpt(KSoInetEnumRoutes, KSolInetRtCtrl);
if (ret!=KErrNone)
return ret;
gTest.Printf(_L(" Destination NetMask Gateway Interface State Metric Type\r\n"));
while (ret==KErrNone)
{
ret = aSocket.GetOpt(KSoInetNextRoute, KSolInetRtCtrl, opt);
if (ret!=KErrNone)
continue;
TBuf<40> ia, ga, da, nm;
opt().iDstAddr.Output(da);
opt().iNetMask.Output(nm);
opt().iGateway.Output(ga);
opt().iIfAddr.Output(ia);
gTest.Printf(_L("%15S %15S %15S %15S %d %d %d\r\n"), &da, &nm, &ga, &ia, opt().iState, opt().iMetric, opt().iType);
}
return ret==KErrEof ? KErrNone : ret;
}