Latest bug-fixes with added tests.
// Copyright (c) 2009-2009 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 "smsstackbaseteststeps.h"
#include <testconfigfileparser.h>
#include <simtsy.h>
#include <commsdattypesv1_1.h>
#include <gsmubuf.h>
#include <Gsmumsg.h>
#include <gsmuset.h>
#include <es_sock.h>
#include <smsustrm.h>
#include <c32root.h>
#include <sacls.h>
#include <e32math.h>
#include <smspver.h>
#include "smsstacktestutilities.h"
#include "smsstacktestconsts.h"
#include "smsstacktestcase.h"
#include "smspdudb.h"
using namespace CommsDat;
EXPORT_C CSmsBaseTestStep::CSmsBaseTestStep()
{
// empty
}
EXPORT_C CSmsBaseTestStep::~CSmsBaseTestStep()
{
// empty
}
/**
Creates the file server session and marks the heap
*/
EXPORT_C TVerdict CSmsBaseTestStep::doTestStepPreambleL()
{
RDebug::Print(_L("%S"), &TestStepName());
User::LeaveIfError(iFs.Connect());
__UHEAP_MARK;
SetTestNumberFromConfigurationFileL();
iSmsStackTestUtils = CSmsStackTestUtils::NewL(this, iFs);
iScheduler = new(ELeave) CActiveScheduler;
CActiveScheduler::Install(iScheduler);
TRAPD(ret, ParseSettingsFromFileL());
TESTCHECK(ret, KErrNone, "ParseSettingsFromFileL");
if (!iPartOfMultiStepTestCase)
{
ConnectSocketServerL(iSocketServer);
}
return TestStepResult();
}
/**
Closes file server session and unmarks the heap
*/
EXPORT_C TVerdict CSmsBaseTestStep::doTestStepPostambleL()
{
if (!iPartOfMultiStepTestCase)
{
iSocketServer.Close();
}
delete iScheduler;
iScheduler = NULL;
delete iSmsStackTestUtils;
iSmsStackTestUtils = NULL;
__UHEAP_MARKEND;
iFs.Close();
if ( !iPartOfMultiStepTestCase && !iNotLastTestStep)
{
DoESockMemoryLeakTestL();
}
return TestStepResult();
}
// TODO Method not needed - should be removed and replaced where appropriate
EXPORT_C void CSmsBaseTestStep::ParseSettingsFromFileL()
{
CTestConfig* configFile = CTestConfig::NewLC(iFs,KGmsSmsConfigFileDir,KGmsSmsConfigFileName);
const CTestConfigSection* cfgFile = configFile->Section(KSetupTelNumbers);
TESTCHECKCONDITIONL(cfgFile!=NULL, "Open SMS configuration file");
const CTestConfigItem* item = cfgFile->Item(KServiceCenter,0);
TESTCHECKCONDITIONL(item!=NULL, "Read ServiceCentre value from the configuration file");
iServiceCenterNumber.Copy(item->Value());
item = cfgFile->Item(KTelefoneNumber,0);
TESTCHECKCONDITIONL(item!=NULL, "Read TelephoneNumber value from the configuration file");
iTelephoneNumber.Copy(item->Value());
CleanupStack::PopAndDestroy(configFile);
}
/**
* Read the test number from the configuration file.
* The test number is passed via property KUidPSSimTsyCategory.
* The SIM tsy uses test number to parse correct script from config.txt
* @return ETrue, if the test number has been assigned successfully, otherwise EFalse.
*/
EXPORT_C void CSmsBaseTestStep::SetTestNumberFromConfigurationFileL()
{
TInt testNumber (0);
if(GetIntFromConfig( ConfigSection(), KTestCaseNumber, testNumber))
{
SetSimTSYTestNumberL(testNumber);
}
}
EXPORT_C void CSmsBaseTestStep::SetSimTSYTestNumberL(TInt aTestNumber)
/**
Set the SIM TSY Test number
@param aTestNumber is the test number in SIM TSY config file
*/
{
SetTestNumberL(KPSSimTsyTestNumber, aTestNumber);
}
/**
* The test number is set with property aTestNumberProperty. This will notify the SIM tsy.
* SIM tsy uses test number to parse correct script from the configuration file.
* @param aTestNumberProperty The test number property UID
* @param aTestNumber The test number corresponding the test case
*/
EXPORT_C void CSmsBaseTestStep::SetTestNumberL(TInt aTestNumberProperty, TInt aTestNumber)
{
//
// Set the SIM.TSY test number...
//
RProperty testNumberProperty;
User::LeaveIfError(testNumberProperty.Attach(KUidPSSimTsyCategory, aTestNumberProperty));
CleanupClosePushL(testNumberProperty);
TRequestStatus status;
testNumberProperty.Subscribe(status);
INFO_PRINTF3(_L("Setting SimTsy test number property (0x%X) to %d"), aTestNumberProperty, aTestNumber);
User::LeaveIfError(testNumberProperty.Set(KUidPSSimTsyCategory, aTestNumberProperty, aTestNumber));
User::WaitForRequest(status);
TESTCHECK(status.Int(), KErrNone, "Setting SimTsy test number property ");
TInt testNumberCheck;
User::LeaveIfError(testNumberProperty.Get(testNumberCheck));
TESTCHECK(aTestNumber, testNumberCheck, "Checking correct test number");
CleanupStack::PopAndDestroy(&testNumberProperty);
}
EXPORT_C void CSmsBaseTestStep::ConnectSocketServerL(RSocketServ& aSocketServer)
{
INFO_PRINTF1(_L("Connecting to the Socket Server..."));
TInt ret = aSocketServer.Connect(KSocketMessageSlots);
if (ret != KErrNone)
{
ERR_PRINTF2(_L("Connecting to socket server failed [ret=%d]"), ret);
}
INFO_PRINTF1(_L("Clearing private data..."));
_LIT(KWapReassemblyStoreName, "C:\\Private\\101F7989\\sms\\wapreast.dat");
ret = iFs.Delete(KWapReassemblyStoreName);
if( ret != KErrNone && ret != KErrNotFound && ret != KErrPathNotFound )
{
ERR_PRINTF2(_L("Deleted WAP reassembly Store failed [ret=%d]"), ret);
}
_LIT(KReassemblyStoreName, "C:\\Private\\101F7989\\sms\\smsreast.dat");
ret = iFs.Delete(KReassemblyStoreName);
if( ret != KErrNone && ret != KErrNotFound && ret != KErrPathNotFound )
{
ERR_PRINTF2(_L("Deleted reassembly Store failed [ret=%d]"), ret);
}
_LIT(KSegmentationStoreName, "C:\\Private\\101F7989\\sms\\smssegst.dat");
ret = iFs.Delete(KSegmentationStoreName);
if( ret != KErrNone && ret != KErrNotFound && ret != KErrPathNotFound )
{
ERR_PRINTF2(_L("Deleted segmentation Store failed [ret=%d]"), ret);
}
_LIT(KSmsClass0PreallocatedStoreName, "C:\\Private\\101F7989\\sms\\smsclass0preallocated.dat");
ret = iFs.Delete(KSmsClass0PreallocatedStoreName);
if( ret != KErrNone && ret != KErrNotFound && ret != KErrPathNotFound )
{
ERR_PRINTF2(_L("Deleted SmsClass0Preallocated Store failed [ret=%d]"), ret);
}
_LIT(KSmsClass0ReassemblyStoreName, "C:\\Private\\101F7989\\sms\\smsclass0reast.dat");
ret = iFs.Delete(KSmsClass0ReassemblyStoreName);
if( ret != KErrNone && ret != KErrNotFound && ret != KErrPathNotFound )
{
ERR_PRINTF2(_L("Deleted SmsClass0Reassembly Store failed [ret=%d]"), ret);
}
_LIT(KSmsUtilityResourceFileName, "C:\\Private\\101F7989\\sms\\smsu.rsc");
ret = iFs.Delete(KSmsUtilityResourceFileName);
if( ret != KErrNone && ret != KErrNotFound && ret != KErrPathNotFound )
{
ERR_PRINTF2(_L("Deleted SMS stack resource file failed [ret=%d]"), ret);
}
}
EXPORT_C void CSmsBaseTestStep::ConnectSocketServerLC(RSocketServ& aSocketServer)
{
ConnectSocketServerL(aSocketServer);
CleanupClosePushL(aSocketServer);
}
EXPORT_C CSmsMessage* CSmsBaseTestStep::CreateSmsMessageL(const TDesC& aDes, TSmsDataCodingScheme::TSmsAlphabet aAlphabet, CSmsPDU::TSmsPDUType aType)
/**
* Create a uninitialised SMS message
* @param aDes contains text that will be inserted to the pdu
* @param aAlphabet describes the alphabet of the pdu
* @return CSmsMessage* :Pointer to the created CSmsMessage object.
*/
{
CSmsMessage* smsMessage = CreateSmsMessageLC(aDes, aAlphabet, aType);
CleanupStack::Pop(smsMessage);
return smsMessage;
}
EXPORT_C CSmsMessage* CSmsBaseTestStep::CreateSmsMessageLC(const TDesC& aDes, TSmsDataCodingScheme::TSmsAlphabet aAlphabet, CSmsPDU::TSmsPDUType aType)
/**
* Create a uninitialised SMS message
* @param aDes contains text that will be inserted to the pdu
* @param aAlphabet describes the alphabet of the pdu
* @return CSmsMessage* :Pointer to the created CSmsMessage object.
*/
{
CSmsBuffer* buffer=CSmsBuffer::NewL();
CSmsMessage* smsMessage=CSmsMessage::NewL(iFs, aType, buffer);
CleanupStack::PushL(smsMessage);
TSmsUserDataSettings smsSettings;
smsSettings.SetAlphabet(aAlphabet);
smsSettings.SetTextCompressed(EFalse);
smsMessage->SetUserDataSettingsL(smsSettings);
smsMessage->SetToFromAddressL(iTelephoneNumber);
smsMessage->SmsPDU().SetServiceCenterAddressL(iServiceCenterNumber);
buffer->InsertL(0,aDes);
return smsMessage;
}
EXPORT_C CSmsMessage* CSmsBaseTestStep::CreateSmsWithStatusReportReqL(const TDesC& aDes, TSmsDataCodingScheme::TSmsAlphabet aAlphabet)
/**
* Create a uninitialised SMS message with Status Report request
* @param aDes contains text that will be inserted to the pdu
* @param aAlphabet describes the alphabet of the pdu
* @return CSmsMessage* :Pointer to the created CSmsMessage object.
*/
{
CSmsMessage* smsMessage=CreateSmsMessageLC(aDes, aAlphabet);
//Set Status report request
CSmsSubmit& submitPdu=(CSmsSubmit&)smsMessage->SmsPDU();
submitPdu.SetStatusReportRequest(ETrue);
CleanupStack::Pop(smsMessage);
return smsMessage;
}
EXPORT_C CSmsMessage* CSmsBaseTestStep::RecvSmsL(RSocket& aSocket, TInt aIoctl)
/**
* Receive an Sms
* @param aSocket is used to stream the sms message from the socket server
* @return CSmsMessage* :Sms message from Sms stack
* @leave Leaves if streaming the message from the socket server doesn't succeed
*/
{
CSmsBuffer* buffer=CSmsBuffer::NewL();
CSmsMessage* smsMessage=CSmsMessage::NewL(iFs, CSmsPDU::ESmsSubmit,buffer);
CleanupStack::PushL(smsMessage);
RSmsSocketReadStream readstream(aSocket);
TRAPD(ret, readstream >> *smsMessage);
TPckgBuf<TUint> sbuf;
TRequestStatus status;
if(ret==KErrNone)
{
aSocket.Ioctl(aIoctl, status, &sbuf, KSolSmsProv);
User::WaitForRequest(status);
CleanupStack::Pop(smsMessage);
TESTCHECK(status.Int(), KErrNone, "Notifying the SMS stack that message was received successfully");
INFO_PRINTF1(_L("Message received successfully"));
}
//An error has occured, no message has been received
else
{
aSocket.Ioctl(KIoctlReadMessageFailed, status, &sbuf, KSolSmsProv);
User::WaitForRequest(status);
TESTCHECK(status.Int(), KErrNone, "Notifying the SMS stack that message was not received");
ERR_PRINTF2(_L("Receiving message failed %d"), ret);
User::Leave(ret);
}
return smsMessage;
}
EXPORT_C CSmsMessage* CSmsBaseTestStep::RecvSmsFailedL(RSocket& aSocket)
/**
* Receive an Sms, first nack the receive several times before succeeding
* @param aSocket is used to stream the sms message from the socket server
* @return CSmsMessage* :Sms message from Sms stack
* @leave Leaves if streaming the message from the socket server doesn't succeed
* @leave Leaves if nack of receiving is completed with error code
* @leave Leaves if ack of receiving is completed with error code
*/
{
CSmsBuffer* buffer=CSmsBuffer::NewL();
CSmsMessage* smsMessage=CSmsMessage::NewL(iFs, CSmsPDU::ESmsSubmit,buffer);
CleanupStack::PushL(smsMessage);
RSmsSocketReadStream readstream(aSocket);
TPckgBuf<TUint> sbuf;
TRequestStatus status;
for(TInt i=0; i<10; i++)
{
TRAPD(ret,readstream >> *smsMessage);
TEST(ret == KErrNone);
aSocket.Ioctl(KIoctlReadMessageFailed, status, &sbuf, KSolSmsProv);
User::WaitForRequest(status);
TEST(status.Int() == KErrNone);
}
TRAPD(ret,readstream >> *smsMessage);
TEST(ret == KErrNone);
aSocket.Ioctl(KIoctlReadMessageSucceeded, status, NULL, KSolSmsProv);
User::WaitForRequest(status);
TEST(status.Int() == KErrNone);
CleanupStack::Pop(smsMessage);
return smsMessage;
}
EXPORT_C void CSmsBaseTestStep::SendSmsL(const CSmsMessage* aSms, RSocket& aSocket, TInt aExpectedError/*=KErrNone*/, TInt aMaxRetries/*=3*/)
/**
* Stream aSms out to the socket server
* @param aSms contains the sms tpdu that will be streamed to the sms stack
* @param aSocket is used to stream the aSms to the sms stack
* @param aExpectedError The error expected from the send request
* @param aMaxRetries The max number of retries is send request does not match expected error
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if sending is completed with error code
*/
{
INFO_PRINTF1(_L("Sending SMS... "));
PrintMessageL(aSms);
TBool tryAgain = ETrue;
TInt sendTry (0);
TRequestStatus status = KErrNone;
while( tryAgain && sendTry < aMaxRetries )
{
RSmsSocketWriteStream writestream(aSocket);
TRAPD(ret,writestream << *aSms);
TRAP(ret, writestream.CommitL());
TPckgBuf<TUint> sbuf;
aSocket.Ioctl(KIoctlSendSmsMessage,status,&sbuf, KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF3(_L("SendSmsL [status=%d, aExpectedError=%d]"), status.Int(), aExpectedError);
if ( status.Int() != aExpectedError )
{
tryAgain = ETrue;
INFO_PRINTF1(_L("Try again... "));
++sendTry;
}
else tryAgain = EFalse;
}
TESTCHECKL(status.Int(), aExpectedError, "Sending Message with an expected error");
}
EXPORT_C void CSmsBaseTestStep::SendSmsCancelL(CSmsMessage* aSms, RSocket& aSocket1, RSocket& aSocket2)
/**
* Stream Sms out to the socket server by two RSmsSocketWriteStream object.
* The first request is canceled and then the second request is completed with error code.
* @param aSms contains the sms tpdu that will be streamed to the sms stack
* @param aSocket1 The socket used with message that will be canceled
* @param aSocket2 The socket used with message that will be completed with error code
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if sending is completed with KErrNone
*/
{
RSmsSocketWriteStream writestream(aSocket1);
TRAPD(ret,writestream << *aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream.CommitL());
TEST(ret == KErrNone);
TPckgBuf<TUint> sbuf;
TRequestStatus status1,status2;
//stream to socket2
RSmsSocketWriteStream writestream2(aSocket2);
TRAP(ret,writestream2 << *aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream2.CommitL());
TEST(ret == KErrNone);
aSocket1.Ioctl(KIoctlSendSmsMessage,status1,&sbuf, KSolSmsProv);
aSocket2.Ioctl(KIoctlSendSmsMessage,status2,&sbuf, KSolSmsProv);
User::After(2000000);
// Test cancel first
aSocket1.CancelIoctl();
User::WaitForRequest(status1);
TEST(status1.Int()==KErrCancel);
User::After(50000);
User::WaitForRequest(status2);
INFO_PRINTF2(_L("SendSmsL - sendSmsMessage returned %d"),status2.Int());
PrintMessageL(aSms);
//Ensure the request is completed with error code ;)
TEST(status2.Int() != KErrNone);
INFO_PRINTF2(_L("Sending failed! %d"), status2.Int());
}
EXPORT_C TInt CSmsBaseTestStep::SendSmsErrorL(CSmsMessage* aSms, RSocket& aSocket)
/**
* Stream aSms out to the socket server. Sending is completed with error code.
* @param aSms contains the sms tpdu that will be streamed to the sms stack
* @param aSocket is used to stream the aSms to the sms stack
* @return error code
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if sending is completed with KErrNone
*/
{
RSmsSocketWriteStream writestream(aSocket);
TRAPD(ret,writestream << *aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream.CommitL());
TEST(ret == KErrNone);
TPckgBuf<TUint> sbuf;
TRequestStatus status;
User::After(50000);
// test cancel first
aSocket.Ioctl(KIoctlSendSmsMessage,status,&sbuf, KSolSmsProv);
aSocket.CancelIoctl();
User::WaitForRequest(status);
TEST(status.Int()==KErrCancel);
//Now send again, completed with error
TRAP(ret,writestream << *aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream.CommitL());
TEST(ret == KErrNone);
aSocket.Ioctl(KIoctlSendSmsMessage,status,&sbuf, KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF2(_L("SendSmsL - sendSmsMessage returned %d"), status.Int());
PrintMessageL(aSms);
INFO_PRINTF2(_L("Sending failed! %d"), status.Int());
TEST(status.Int() != KErrNone);
return status.Int();
}
EXPORT_C void CSmsBaseTestStep::SendCommandSmsL(CSmsMessage* aSms, RSocket& aSocket)
/**
* Stream command message out to the socket server and wait for the return status
* @param aSms contains the sms tpdu that will be streamed to the sms stack
* @param aSocket is used to stream the aSms to the sms stack
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if sending is completed with error code
*/
{
RSmsSocketWriteStream writestream(aSocket);
TRAPD(ret,writestream << *aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream.CommitL());
TEST(ret == KErrNone);
TRequestStatus status;
TPckgBuf<TUint> sbuf;
aSocket.Ioctl(KIoctlSendSmsMessage,status,&sbuf,KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF2(_L("SendCommandSmsL, sendSms returned %d"), status.Int());
User::After(1000000);
TEST(status.Int() == KErrNone);
}
EXPORT_C void CSmsBaseTestStep::SendAndRecvTestMessageL(const TTestCase& aTestCase, RSocket& aSocket)
/**
* Send a test message. This method is used to send and receive different DCS type messages
* @param aTestCase has information about the used test message, e.g. message data and DCS
* @leave Leaves if any of the leaving functions used at this function leaves
*/
{
SendTestMessageL(aTestCase, aSocket);
WaitForRecvL(aSocket);
CSmsMessage* smsMessage = RecvSmsL(aSocket);
CleanupStack::PushL(smsMessage);
TestMessageContentsL(smsMessage,aTestCase);
CleanupStack::PopAndDestroy(smsMessage);
}
EXPORT_C void CSmsBaseTestStep::SendTestMessageL(const TTestCase& aTestCase, RSocket& aSocket)
/**
* Send a test message
* Assumes recv is already done.
* @param aTestCase has information about the used test message, e.g. message data and DCS
* @leave Leaves if any of the leaving functions used at this function leaves
*/
{
CSmsMessage* smsMessage = CreateSmsMessageLC(aTestCase.iMsg, TSmsDataCodingScheme::ESmsAlphabet7Bit);
CSmsPDU& pdu = smsMessage->SmsPDU();
CSmsUserData& userData = pdu.UserData();
if (aTestCase.iMatchType == ESmsAddrMatchIEI)
userData.AddInformationElementL(aTestCase.iIdentifierMatch,_L8("98"));
if (aTestCase.iTestSmsClass)
{
pdu.SetBits7To4(TSmsDataCodingScheme::ESmsDCSTextUncompressedWithClassInfo);
pdu.SetClass(ETrue,aTestCase.iSmsClass);
}
if (aTestCase.iTestValidityPeriod && pdu.Type()==CSmsPDU::ESmsSubmit)
{
CSmsSubmit* submitPdu = REINTERPRET_CAST(CSmsSubmit*,&pdu);
submitPdu->SetValidityPeriod(aTestCase.iValidityPeriod);
}
if (aTestCase.iTestIndicators && pdu.Type()==CSmsPDU::ESmsSubmit)
{
SetIndicatorL(aTestCase, smsMessage);
}
SendSmsL(smsMessage, aSocket);
CleanupStack::PopAndDestroy(smsMessage);
}
EXPORT_C void CSmsBaseTestStep::SendSmsDontCheckReturnValueL(CSmsMessage* aSms, RSocket& aSocket)
/**
* Stream aSms out to the socket server and don't check return value.
* @param aSms contains the sms tpdu that will be streamed to the sms stack
* @param aSocket is used to stream the aSms to the sms stack
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if sending is completed with KErrNone
*/
{
RSmsSocketWriteStream writestream(aSocket);
writestream << *aSms;
writestream.CommitL();
TPckgBuf<TUint> sbuf;
TRequestStatus status;
aSocket.Ioctl(KIoctlSendSmsMessage,status,&sbuf, KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF2(_L("Send SMS message returned %d"), status.Int());
if(status.Int() != KErrNone)
{
User::Leave(status.Int());
}
}
EXPORT_C void CSmsBaseTestStep::SendAndRecvSms7BitL(const TDesC& aDes, RSocket& aSocket)
/**
* Send and receive one 7bit sms
* @param aDes contains the text to be send
* @leave Leaves if DoSendAndRecvSmsL leaves
*/
{
DoSendAndRecvSmsL(aDes,TSmsDataCodingScheme::ESmsAlphabet7Bit, aSocket);
}
EXPORT_C void CSmsBaseTestStep::DoSendAndRecvSmsL(const TDesC& aDes, TSmsDataCodingScheme::TSmsAlphabet aAlphabet, RSocket& aSocket)
/**
* Send and recv one sms,
* then check that the sent message corresponds with the received message
* @param aDes contains the text that will be inserted to the pdu at CreateSmsMessageL
* @param aAlphabet describes the alphabet of the pdu that will be created at CreateSmsMessageL
* @leave Leaves if any of the leaving functions used at this function leaves
*/
{
CSmsMessage* smsMessage=CreateSmsMessageLC(aDes, aAlphabet);
SendSmsL(smsMessage, aSocket);
CleanupStack::PopAndDestroy(smsMessage); //destroyed because created again in RecvSmsL
WaitForRecvL( aSocket);
smsMessage = RecvSmsL( aSocket);
CleanupStack::PushL(smsMessage);
TestSmsContentsL(smsMessage,aDes);
// TODO: is this a way to go?
User::After(1000000);
CleanupStack::PopAndDestroy(smsMessage);
}
EXPORT_C void CSmsBaseTestStep::PrintMessageDetailedL(const CSmsMessage* aSms)
{
TPtrC from = aSms->ToFromAddress();
INFO_PRINTF2(_L("ToFromAddress: %S"), &from);
TPtrC sc = aSms->ServiceCenterAddress();
INFO_PRINTF2(_L("ServiceCenterAddress: %S"), &sc);
if(aSms->Storage() == CSmsMessage::ESmsSIMStorage)
{
INFO_PRINTF1(_L("Store: SIM"));
}
else if (aSms->Storage() == CSmsMessage::ESmsPhoneStorage)
{
INFO_PRINTF1(_L("Store: Phone"));
}
else if (aSms->Storage() == CSmsMessage::ESmsCombinedStorage)
{
INFO_PRINTF1(_L("Store: Combined"));
}
else
{
INFO_PRINTF1(_L("Store: Unknown"));
}
switch (aSms->Status())
{
case RMobileSmsStore::EStoredMessageUnread:
INFO_PRINTF1(_L("Status: Unread"));
break;
case RMobileSmsStore::EStoredMessageRead:
INFO_PRINTF1(_L("Status: Read"));
break;
case RMobileSmsStore::EStoredMessageUnsent:
INFO_PRINTF1(_L("Status: Unsent"));
break;
case RMobileSmsStore::EStoredMessageSent:
INFO_PRINTF1(_L("Status: Sent"));
break;
case RMobileSmsStore::EStoredMessageDelivered:
INFO_PRINTF1(_L("Status: Delivered"));
break;
case RMobileSmsStore::EStoredMessageUnknownStatus:
default:
INFO_PRINTF1(_L("Status: Unknown"));
break;
}
PrintMessageL(aSms);
}
EXPORT_C void CSmsBaseTestStep::PrintMessageL(const CSmsMessage* aSms)
/**
* Print the content of SMS to the console
*/
{
if (aSms == NULL)
{
return;
}
CSmsBuffer& smsbuffer = (CSmsBuffer&)aSms->Buffer();
const TInt len = smsbuffer.Length();
HBufC* hbuf = HBufC::NewL(len);
TPtr ptr = hbuf->Des();
smsbuffer.Extract(ptr, 0, len);
for (TInt j = 0; j < len; ++j)
{
if (ptr[j] < 0x20 || ptr[j] > 0xFF)
{
// Non-displayable character, print "." instead
ptr[j] = 0x007F;
}
}
INFO_PRINTF2(_L("SMS contains: %S"), &ptr);
delete hbuf;
}
EXPORT_C TSmsStatus::TSmsStatusValue CSmsBaseTestStep::RecvStatusReportL(TSmsServiceCenterAddress& aRecipientNumber, RSocket& aSocket)
/**
* Receive a Status report
* @param aRecipientNumber The supposed recipient number
* @param aSocket is used to stream the sms message from the socket server
*/
{
//Receive SMS
INFO_PRINTF1(_L("waiting for incoming status report...") );
WaitForRecvL(aSocket);
CSmsMessage* smsMessage = RecvSmsL(aSocket);
//Check the status report
CleanupStack::PushL(smsMessage);
TBool isSR = (smsMessage->Type()==CSmsPDU::ESmsStatusReport);
if (isSR)
{
INFO_PRINTF1(_L("Received status report"));
TSmsServiceCenterAddress telephoneNumber=smsMessage->ToFromAddress();
TEST(telephoneNumber==aRecipientNumber);
INFO_PRINTF2(_L("Message delivered to %S"), &telephoneNumber);
}
else
{
INFO_PRINTF1(_L("Received SMS is NOT a Status report!"));
}
TEST(isSR);
//Get the status report
CSmsStatusReport& statusReport = STATIC_CAST(CSmsStatusReport&, smsMessage->SmsPDU());
TSmsStatus::TSmsStatusValue status = statusReport.Status();
CleanupStack::PopAndDestroy(smsMessage);
return status;
}
EXPORT_C void CSmsBaseTestStep::WaitForRecvL(RSocket& aSocket)
/**
* Wait for an Sms to be received
* @param aSocket The status is return to this socket
* @leave Leaves if receiving is completed with error code
*/
{
INFO_PRINTF1(_L("Waiting for incoming SMS...") );
TPckgBuf<TUint> sbuf;
sbuf()=KSockSelectRead;
TRequestStatus status;
aSocket.Ioctl(KIOctlSelect,status,&sbuf,KSOLSocket);
User::WaitForRequest(status);
TESTCHECK(status.Int(), KErrNone, "Waiting for incoming SMS");
}
EXPORT_C void CSmsBaseTestStep::TestSmsContentsL(CSmsMessage* aSms, const TDesC& aDes, TBool aIgnorePrintOutput)
/**
* Check that aSms contains text that matches to aDes
* @param aSms SMS message that has been come from SMS stack
* @param aDes SMS message's text that is defined at client side
* @leave Leaves if aSms doesn't match to aDes
*/
{
CSmsBufferBase& smsBuffer=aSms->Buffer();
TInt bufLen=smsBuffer.Length();
INFO_PRINTF2(_L("Length of buffer is : %d"),bufLen);
HBufC* textBuf=HBufC::NewL(bufLen);
CleanupStack::PushL(textBuf);
TPtr textPtr(textBuf->Des());
smsBuffer.Extract(textPtr,0,bufLen);
INFO_PRINTF1(_L("Comparing messages..."));
TInt compareResult = textPtr.Compare(aDes);
if (!aIgnorePrintOutput)
{
TInt bufLen2 = aDes.Length();
HBufC* textBuf2 = HBufC::NewL(aDes.Length());
CleanupStack::PushL(textBuf2);
TPtr textPtr2(textBuf2->Des());
TInt index;
for (index = 0; index < bufLen; index++)
{
if (textPtr[index] < 0x20 || textPtr[index] > 0xff)
{
textPtr[index] = 0x007f;
}
}
INFO_PRINTF2(_L("%S"), &textPtr);
INFO_PRINTF1(_L("with expected"));
textPtr2.Copy(aDes);
for (index = 0; index < bufLen2; index++)
{
if (textPtr2[index] < 0x20 || textPtr2[index] > 0xff)
{
textPtr2[index] = 0x007f;
}
}
INFO_PRINTF2(_L("%S"), &textPtr2);
CleanupStack::PopAndDestroy(textBuf2);
}
if (compareResult != 0)
{
SetTestStepResult(EFail);
ERR_PRINTF1(_L("Message content does not match the provided string"));
}
else
{
INFO_PRINTF1(_L("Message content matches the provided string"));
}
CleanupStack::PopAndDestroy(textBuf);
}
EXPORT_C void CSmsBaseTestStep::TestMessageContentsL(CSmsMessage* aSms, const TTestCase& aTestCase)
/**
* Check the sms matches the expected test result
* @param aSms has the message to be tested with aTestCase.iMsg
* @param aTestCase has information about the used test message, e.g. message data and DCS
* @leave Leaves if TSmsClass isn't defined at the pdu
* @leave Leaves if class of pdu doesn't match to supposed class (aTestCase.iSmsClass)
*/
{
TestSmsContentsL(aSms,aTestCase.iMsg);
CSmsPDU& pdu = aSms->SmsPDU();
if (aTestCase.iTestSmsClass)
{
TSmsDataCodingScheme::TSmsClass smsClass;
TBool isDefined = pdu.Class(smsClass);
TEST(isDefined);
TEST(smsClass == aTestCase.iSmsClass);
}
if (aTestCase.iTestIndicators)
{
TEST(pdu.Bits7To4() == aTestCase.iBits7To4);
TEST(pdu.IndicationType() == aTestCase.iIndicationType);
TEST(pdu.IndicationState() == aTestCase.iIndicationState);
}
}
EXPORT_C void CSmsBaseTestStep::WriteSmsToSimL(CSmsMessage& aSms, RSocket& aSocket)
/**
* This method stores SMS messages to the SMS storage.
* @param aSms SMS message that will be stored
* @param aSocket Used to stream SMS message to the sms stack
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if store request is completed with error code
*/
{
INFO_PRINTF1(_L("Write message to SIM"));
TRequestStatus status;
RSmsSocketWriteStream writestream(aSocket);
TRAPD(ret,writestream << aSms);
TESTCHECK(ret, KErrNone, "Write SMS to stream");
TRAP(ret,writestream.CommitL());
TESTCHECK(ret, KErrNone, "Commit the stream writing");
aSocket.Ioctl(KIoctlWriteSmsMessage,status,NULL,KSolSmsProv);
User::WaitForRequest(status);
TESTCHECK(status.Int(), KErrNone, "Write message to SIM");
}
EXPORT_C void CSmsBaseTestStep::WriteSmsLeaveIfErrorL(const CSmsMessage& aSms, RSocket& aSocket)
/**
* This method stores SMS messages to the SMS storage.
* @param aSms SMS message that will be stored
* @param aSocket Used to stream SMS message to the sms stack
*/
{
TRequestStatus status;
RSmsSocketWriteStream writestream(aSocket);
writestream << aSms;
writestream.CommitL();
aSocket.Ioctl(KIoctlWriteSmsMessage,status,NULL, KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF2(_L("Write SMS message returned %d"), status.Int());
if(status.Int() != KErrNone)
{
User::Leave(status.Int());
}
}
EXPORT_C void CSmsBaseTestStep::ReadSmsStoreL(RSocket& aSocket, RPointerArray<CSmsMessage>& aMessages)
/**
* This method retrieves SMS messages from SMS storage and print them out.
* @param aSocket Used to stream SMS messages from the socket server
* @param aMessages Sms messages will be streamed to this array
* @leave Leaves if first request is NOT completed with KErrCancel
* @leave Leaves if second request is completed with error code
* @leave Leaves if streaming the message from the socket server doesn't succeed
* @leave Leaves if nack of reading is completed with error code
* @leave Leaves if ack of reading is completed with error code
*/
{
TRequestStatus status;
ReadSmsStoreL(aSocket, aMessages, status);
}
EXPORT_C void CSmsBaseTestStep::ReadSmsStoreL(RSocket& aSocket, RPointerArray<CSmsMessage>& aMessages, TRequestStatus& aStatus)
/**
* This method retrieves SMS messages from SMS storage and print them out.
* @param aSocket Used to stream SMS messages from the socket server
* @param aMessages Sms messages will be streamed to this array
* @param aStatus Status of request to enumerate messages from store
* @leave Leaves if first request is NOT completed with KErrCancel
* @leave Leaves if second request is completed with error code
* @leave Leaves if streaming the message from the socket server doesn't succeed
* @leave Leaves if nack of reading is completed with error code
* @leave Leaves if ack of reading is completed with error code
*/
{
INFO_PRINTF1(_L("Enumerating messages"));
TPckgBuf<TUint> sbuf;
sbuf()=0;
// Enumerate messages from store - NOTE - sometimes SIM.TSY returns
// KErrInUse (strange timing things!). In this case wait and repeat.
const TInt KMaxAttempts = 3;
TInt attempts = 0;
do
{
User::After(2000000); // Wait a couple of seconds...
aSocket.Ioctl(KIoctlEnumerateSmsMessages, aStatus, &sbuf, KSolSmsProv);
User::WaitForRequest(aStatus);
INFO_PRINTF3(_L("Enumerating completed [status=%d, attempts=%d]"), aStatus.Int(), ++attempts);
} while( aStatus.Int() == KErrInUse && attempts < KMaxAttempts );
if( aStatus.Int() == KErrNone )
{
// sbuf() includes the count of messages on Store
TInt count = sbuf();
INFO_PRINTF2(_L("%d enumerated messages"), count);
RSmsSocketReadStream readstream(aSocket);
//Read each message from the stream
for(TInt i=0; i< count; ++i)
{
CSmsBuffer* buffer=CSmsBuffer::NewL();
CSmsMessage* smsmessage=CSmsMessage::NewL(iFs, CSmsPDU::ESmsDeliver,buffer);
CleanupStack::PushL(smsmessage);
TRAPD(ret,readstream >> *smsmessage);
TEST(ret == KErrNone);
aSocket.Ioctl(KIoctlReadMessageSucceeded, aStatus, NULL, KSolSmsProv);
User::WaitForRequest(aStatus);
TEST(aStatus.Int() == KErrNone);
PrintMessageDetailedL(smsmessage);
User::LeaveIfError(aMessages.Append(smsmessage));
CleanupStack::Pop(smsmessage);
}
}
else
{
ERR_PRINTF2(_L("Enumerating failed [status=%d]"), aStatus.Int());
SetTestStepResult(EFail);
}
}
EXPORT_C TInt CSmsBaseTestStep::DeleteSmsL(const CSmsMessage& aSms, RSocket& aSocket, TInt aExpectedError /*KErrNone*/)
/**
* This method deletes SMS message from the SMS storage.
* @param aSms SMS message that will be deleted
* @param aSocket Used to stream SMS message to the sms stack
* @return TInt :error code
*/
{
INFO_PRINTF2(_L("Delete message from store [aExpectedError=%d]"), aExpectedError);
TRequestStatus status;
RSmsSocketWriteStream writestream(aSocket);
TRAPD(ret,writestream << aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream.CommitL());
TEST(ret == KErrNone);
aSocket.Ioctl(KIoctlDeleteSmsMessage, status, NULL, KSolSmsProv);
User::WaitForRequest(status);
TInt error = status.Int();
INFO_PRINTF2(_L("Delete SMS message - returned %d"), error);
if( error != aExpectedError )
{
ERR_PRINTF3(_L("Delete SMS message failed [aExpectedError=%d, error=%d]"), aExpectedError, error);
SetTestStepResult(EFail);
}
return error;
}
EXPORT_C void CSmsBaseTestStep::DeleteSmsLeaveIfErrorL(const CSmsMessage& aSms, RSocket& aSocket)
/**
* This method deletes SMS message from the SMS storage.
* @param aSms SMS message that will be deleted
* @param aSocket Used to stream SMS message to the sms stack
*/
{
TRequestStatus status;
RSmsSocketWriteStream writestream(aSocket);
writestream << aSms;
writestream.CommitL();
aSocket.Ioctl(KIoctlDeleteSmsMessage, status, NULL, KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF2(_L("Delete SMS returned %d"), status.Int());
if(status.Int() != KErrNone)
{
User::Leave(status.Int());
}
}
EXPORT_C void CSmsBaseTestStep::SetIndicatorL(const TTestCase& aTestCase, CSmsMessage* aSms)
/**
*
*/
{
TSmsDataCodingScheme::TSmsAlphabet alphabet;
if (aTestCase.iBits7To4 == TSmsDataCodingScheme::ESmsDCSMessageWaitingIndicationUCS2)
alphabet = TSmsDataCodingScheme::ESmsAlphabetUCS2;
else
alphabet = TSmsDataCodingScheme::ESmsAlphabet7Bit;
TSmsUserDataSettings smsSettings;
smsSettings.SetAlphabet(alphabet);
smsSettings.SetTextCompressed(EFalse);
aSms->SetUserDataSettingsL(smsSettings);
CSmsPDU& pdu = aSms->SmsPDU();
pdu.SetBits7To4(aTestCase.iBits7To4);
pdu.SetIndicationType(aTestCase.iIndicationType);
pdu.SetIndicationState(aTestCase.iIndicationState);
}
EXPORT_C void CSmsBaseTestStep::FillDes(TDes& aDes,TInt aLength)
/**
* Fill aDes with randomly generated 7bit data
* @param aDes will be filled with random data
* @param aLength has the length to be set to aDes
*/
{
TText baseChar='A';
aDes.SetLength(aLength);
for (TInt i=0; i<aLength; i++)
{
aDes[i]=TText(baseChar + i%26);
}
}
EXPORT_C TInt CSmsBaseTestStep::MakeReadSmsStoreRequestL(RSocket& aSocket)
/**
* This method retrieves SMS messages from SMS storage.
* Main purpose is to test out of memory conditions.
* @param aSocket Used to stream SMS messages from the sms stack
* @param aMessages reference to CSmsMessage pointer array.
*/
{
TRequestStatus status;
TPckgBuf<TUint> sbuf;
sbuf()=0;
//Now enumerate messages from SIM
aSocket.Ioctl(KIoctlEnumerateSmsMessages,status,&sbuf, KSolSmsProv);
User::WaitForRequest(status);
INFO_PRINTF2(_L("Read SMS returned %d"), status.Int());
if(status.Int() != KErrNone)
{
User::Leave(status.Int());
}
//sbuf() includes the count of messages on SIM
return sbuf();
}
EXPORT_C TBool CSmsBaseTestStep::TimedWaitForRecvL(RSocket& aSocket, TUint aDelay)
/**
* Wait for up to the delay for an Sms to be received
* @param aSocket The status is return to this socket
* @param aDelay Maximum time to wait for receipt
* @return ETrue if data received
* @leave Leaves if receiving is completed with error code
*/
{
TRequestStatus timerStatus;
RTimer timer;
timer.CreateLocal();
timer.After(timerStatus, TTimeIntervalMicroSeconds32(aDelay));
TPckgBuf<TUint> sbuf;
sbuf()=KSockSelectRead;
TRequestStatus ioctlStatus;
aSocket.Ioctl(KIOctlSelect, ioctlStatus, &sbuf, KSOLSocket);
User::WaitForRequest(timerStatus, ioctlStatus);
TBool retval;
if(ioctlStatus.Int() != KErrNone)
{
aSocket.CancelIoctl();
User::WaitForRequest(ioctlStatus);
retval = EFalse;
}
else
{
timer.Cancel();
User::WaitForRequest(timerStatus);
retval = ETrue;
}
timer.Close();
return retval;
}
EXPORT_C TInt CSmsBaseTestStep::CancelWriteSmsToSimL(CSmsMessage& aSms, RSocket& aSocket, TInt aDelay)
/**
* This method stores SMS messages to the SMS storage.
* @param aSms SMS message that will be stored
* @param aSocket Used to stream SMS message to the sms stack
* @leave Leaves if streaming the message to the socket server doesn't succeed
* @leave Leaves if store request is completed with error code
*/
{
INFO_PRINTF1(_L("Write message"));
TRequestStatus status;
RSmsSocketWriteStream writestream(aSocket);
TRAPD(ret,writestream << aSms);
TEST(ret == KErrNone);
TRAP(ret,writestream.CommitL());
TEST(ret == KErrNone);
aSocket.Ioctl(KIoctlWriteSmsMessage,status,NULL, KSolSmsProv);
INFO_PRINTF1(_L("Cancel"));
User::After(aDelay);
aSocket.CancelIoctl();
User::WaitForRequest(status);
INFO_PRINTF2(_L("WriteSmsToSimL - returned %d"), status.Int());
return status.Int();
}
EXPORT_C TBool CSmsBaseTestStep::DoSingleTestCaseL( const TDesC8& aSection, TInt aCount )
{
CTestConfig* configFile = CTestConfig::NewLC(iFs, KGmsSmsConfigFileDir, KConfigFilename);
TBuf8<64> sectionName(aSection);
sectionName.AppendNum(aCount);
const CTestConfigSection* section = NULL;
TBool found( ETrue );
if ( ( section = configFile->Section( sectionName ) ) != NULL )
{
if ( aSection == KTestSendAndRecvMsgsWithDifferentTON )
{
TInt num( 1 );
CArrayFixFlat<TInt>* alphabetArray = new ( ELeave ) CArrayFixFlat<TInt>( 1 );
CleanupStack::PushL(alphabetArray);
CArrayFixFlat<TInt>* typeOfNumberArray = new ( ELeave ) CArrayFixFlat<TInt>( 1 );
CleanupStack::PushL(typeOfNumberArray);
TBuf8<32> itemName( KAlphabet );
itemName.AppendNum( num );
TInt param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
while ( param != KErrNotFound )
{
alphabetArray->AppendL(param);
itemName = KAlphabet;
itemName.AppendNum( ++num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
}
num = 1;
itemName = KTypeOfNumber;
itemName.AppendNum( num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
while ( param != KErrNotFound )
{
typeOfNumberArray->AppendL(param);
itemName = KTypeOfNumber;
itemName.AppendNum( ++num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
}
RPointerArray<CSmsPduDbMessage> array;
CleanupResetAndDestroyPushL(array);
ReadPduL( sectionName, array );
TestSendAndRecvMsgsWithDifferentTONL( array, alphabetArray, typeOfNumberArray );
CleanupStack::PopAndDestroy(&array);
CleanupStack::PopAndDestroy(typeOfNumberArray);
CleanupStack::PopAndDestroy(alphabetArray);
}
else if ( aSection == KTestSendAndReceiveIndicatorMsgs )
{
TInt num( 1 );
CArrayFixFlat<TInt>* indicationTypeArray = new ( ELeave ) CArrayFixFlat<TInt>( 1 );
CleanupStack::PushL(indicationTypeArray);
CArrayFixFlat<TInt>* dcsBits7To4Array = new ( ELeave ) CArrayFixFlat<TInt>( 1 );
CleanupStack::PushL(dcsBits7To4Array);
CArrayFixFlat<TInt>* indicationStateArray = new ( ELeave ) CArrayFixFlat<TInt>( 1 );
CleanupStack::PushL(indicationStateArray);
TBuf8<32> itemName( KIndicationType );
itemName.AppendNum( num );
TInt param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
while ( param != KErrNotFound )
{
indicationTypeArray->AppendL(param);
itemName = KIndicationType;
itemName.AppendNum( ++num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
}
num = 1;
itemName = KDCSBits7To4;
itemName.AppendNum( num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
while ( param != KErrNotFound )
{
dcsBits7To4Array->AppendL(param);
itemName = KDCSBits7To4;
itemName.AppendNum( ++num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
}
num = 1;
itemName = KIndicationState;
itemName.AppendNum( num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
while ( param != KErrNotFound )
{
indicationStateArray->AppendL(param);
itemName = KIndicationState;
itemName.AppendNum( ++num );
param = section->ItemValue( (TPtrC8)itemName, KErrNotFound );
}
RPointerArray<CSmsPduDbMessage> array;
CleanupResetAndDestroyPushL(array);
ReadPduL( sectionName, array );
TestSendAndReceiveIndicatorMsgsL( array, indicationStateArray, dcsBits7To4Array, indicationTypeArray );
CleanupStack::PopAndDestroy(&array);
CleanupStack::PopAndDestroy(indicationStateArray);
CleanupStack::PopAndDestroy(dcsBits7To4Array);
CleanupStack::PopAndDestroy(indicationTypeArray);
}
else
found = EFalse;
}
else
found = EFalse;
CleanupStack::PopAndDestroy(configFile);//configFile
return found;
}
EXPORT_C void CSmsBaseTestStep::TestSendAndRecvMsgsWithDifferentTONL( const RPointerArray<CSmsPduDbMessage>& aArray,
const CArrayFixFlat<TInt>* aAlphabetArray,
const CArrayFixFlat<TInt>* aTypeOfNumberArray )
{
INFO_PRINTF1(_L("Send and receive messages with different type of number"));
const TInt testNumber = 39;
SetSimTSYTestNumberL(testNumber);
RSocketServ socketServer;
ConnectSocketServerLC(socketServer);
RSocket socket;
iSmsStackTestUtils->OpenSmsSocketLC(socketServer,socket,ESmsAddrRecvAny);
TSmsDataCodingScheme::TSmsAlphabet alphabet = ( TSmsDataCodingScheme::TSmsAlphabet )aAlphabetArray->At(0);
TInt bufLen=aArray[0]->iSmsMessage->Buffer().Length();
HBufC* textBuf=HBufC::NewL(bufLen);
CleanupStack::PushL(textBuf);
TPtr testText(textBuf->Des());
aArray[0]->iSmsMessage->Buffer().Extract(testText,0,bufLen);
CSmsMessage* sendMessage=CreateSmsMessageLC(testText,alphabet);
CSmsSubmit& submitPdu=(CSmsSubmit&)sendMessage->SmsPDU();
TGsmSmsTelNumber gsmSmsTelNumber;
gsmSmsTelNumber.iTelNumber.Append(iTelephoneNumber);
if(gsmSmsTelNumber.iTelNumber.Length() > 0 && gsmSmsTelNumber.iTelNumber[0] == '+')
{
// Remove "+" sign from telephony number
gsmSmsTelNumber.iTelNumber.Delete(0,1);
gsmSmsTelNumber.iTelNumber.Trim();
}
for ( TInt i = 0; i < aTypeOfNumberArray->Count(); i++ )
{
gsmSmsTelNumber.iTypeOfAddress.SetTON( ( TGsmSmsTypeOfNumber )aTypeOfNumberArray->At(i) );
sendMessage->SetParsedToFromAddressL(gsmSmsTelNumber);
if ( ( TGsmSmsTypeOfNumber )aTypeOfNumberArray->At(i) == EGsmSmsTONSubscriberNumber )
{
submitPdu.SetPIDType(TSmsProtocolIdentifier::ESmsPIDShortMessageType);
submitPdu.SetShortMessageType(TSmsProtocolIdentifier::ESmsReturnCallMesage);
}
INFO_PRINTF2(_L("Send SMS message. Type of number is %d"), aTypeOfNumberArray->At(i) );
SendSmsL(sendMessage,socket);
INFO_PRINTF1(_L("Waiting for incoming SMS...") );
WaitForRecvL(socket);
CSmsMessage* recvMessage = RecvSmsL(socket);
delete recvMessage;
}
CleanupStack::PopAndDestroy(4, &socketServer); // socketServer, socket, textBuf, sendMessage
}
EXPORT_C void CSmsBaseTestStep::TestSendAndReceiveIndicatorMsgsL( const RPointerArray<CSmsPduDbMessage>& aArray,
const CArrayFixFlat<TInt>* aIndicationStateArray,
const CArrayFixFlat<TInt>* aDcsBits7To4Array,
const CArrayFixFlat<TInt>* aIndicationTypeArray )
/**
* @test Send and receive different indicator messages
* TODO ESmsDCSMessageWaitingIndicationDiscardMessage test doesn't work with Nokia 6210 because phone
* doesn't route incoming message to the MM TSY.
*/
{
INFO_PRINTF1(_L("Send and receive different indicator messages"));
const TInt testNumber = 40;
SetSimTSYTestNumberL(testNumber);
RSocketServ socketServer;
ConnectSocketServerLC(socketServer);
RSocket socket;
iSmsStackTestUtils->OpenSmsSocketLC(socketServer,socket,ESmsAddrRecvAny);
for ( TInt i = 0; i < aArray.Count(); i++ )
{
TSmsDataCodingScheme::TSmsIndicationState indicationState =
( TSmsDataCodingScheme::TSmsIndicationState )aIndicationStateArray->At(i);
TSmsDataCodingScheme::TSmsDCSBits7To4 dcsBits7To4Array =
( TSmsDataCodingScheme::TSmsDCSBits7To4 )aDcsBits7To4Array->At(i);
TSmsDataCodingScheme::TSmsIndicationType indicationType =
( TSmsDataCodingScheme::TSmsIndicationType )aIndicationTypeArray->At(i);
TInt bufLen=aArray[i]->iSmsMessage->Buffer().Length();
HBufC* textBuf=HBufC::NewL(bufLen);
CleanupStack::PushL(textBuf);
TPtr testText(textBuf->Des());
aArray[i]->iSmsMessage->Buffer().Extract(testText,0,bufLen);
TTestCase msg(testText, indicationType, dcsBits7To4Array, indicationState );
SendAndRecvTestMessageL(msg,socket);
CleanupStack::PopAndDestroy(textBuf);
}
CleanupStack::PopAndDestroy(2, &socketServer); // socketServer, socket
}
EXPORT_C void CSmsBaseTestStep::ReadPduL( TBuf8<64> aSectionName, RPointerArray<CSmsPduDbMessage>& aArray )
{
CSmsPduDatabase* db = CSmsPduDatabase::NewL(iFs, aSectionName, KConfigFilename, KConfigFileDir);
CleanupStack::PushL(db);
db->GetMessageL(aArray, CSmsPDU::ESmsSubmit);
CleanupStack::PopAndDestroy(db);
}
EXPORT_C CSmsMessage* CSmsBaseTestStep::CreateSmsMessageLC(CSmsPDU::TSmsPDUType aType, CSmsBuffer* aBuffer, const TDesC& aAddress)
{
CSmsMessage* msg = CSmsMessage::NewL(iFs, aType, aBuffer);
CleanupStack::PushL(msg);
if (aAddress.Length() != 0)
{
msg->SetToFromAddressL(aAddress);
}
return msg;
}
/*
These functions were grabbed from SMSStackTestUtils.dll
*/
EXPORT_C void CSmsBaseTestStep::OpenSmsSocketL(RSocketServ& aSocketServer, RSocket& aSocket, TSmsAddrFamily aFamily)
/**
* Initialise an RSocket for SMS, aSocket is NOT pushed to CleanupStack.
* @param aSocketServer reference to the socket server object
* @param aSocket The socket that will be opened
* @param aFamily The sms address family
* @param aDualSimAware Flag indicating that client is dual-SIM aware
*/
{
TSmsAddr smsaddr;
smsaddr.SetSmsAddrFamily(aFamily);
OpenSmsSocketL(aSocketServer, aSocket, smsaddr);
}
EXPORT_C void CSmsBaseTestStep::OpenSmsSocketL(RSocketServ& aSocketServer, RSocket& aSocket, TSmsAddr& aSmsAddr)
/*
* Initialise an RSocket for SMS, aSocket is NOT pushed to CleanupStack.
* @param aSocketServer reference to the socket server object
* @param aSocket The socket that will be opened
* @param aSmsAddr The sms address to bind to
*/
{
INFO_PRINTF2(_L("Opening and binding socket [addrFamily=%d]"), aSmsAddr.SmsAddrFamily());
TInt ret=aSocket.Open(aSocketServer,KSMSAddrFamily,KSockDatagram,KSMSDatagramProtocol);
TESTCHECK(ret, KErrNone, "Opening socket");
ret=aSocket.Bind(aSmsAddr);
TESTCHECK(ret, KErrNone, "Binding to the socket");
TProtocolDesc desc;
aSocket.Info(desc);
INFO_PRINTF2(_L("Protocol name: %S"), &desc.iName);
TTimeIntervalMicroSeconds32 InitPause=9000000; //Required Pause to Allow SMSStack to Complete its Async Init
User::After(InitPause); //call to the TSY and finish its StartUp.
}
/*
Utility for creating a SMS message from test data (ini) file
*/
EXPORT_C CSmsMessage* CSmsBaseTestStep::CreateSMSL()
{
INFO_PRINTF1(_L("Creating SMS...") );
TInt codingScheme;
GetIntFromConfig(ConfigSection(), _L("messageCoding"), codingScheme);
TCodingScheme dataCodingScheme = (TCodingScheme)codingScheme;
TSmsDataCodingScheme::TSmsAlphabet alphabet;
if (dataCodingScheme == ESevenBit)
{
//8 bit coding scheme
alphabet = TSmsDataCodingScheme::ESmsAlphabet7Bit;
}
else
{
alphabet = TSmsDataCodingScheme::ESmsAlphabet8Bit;
}
TPtrC messageText;
GetStringFromConfig(ConfigSection(), _L("message"), messageText);
CSmsMessage *sms = CreateSmsMessageL(messageText, alphabet);
INFO_PRINTF1(_L("SMS created") );
PrintMessageL(sms);
return sms;
}
/**
* Sets high and low limits in .RSC file and then reserves disk space to match requested levels.
*
* Checks the current free space and then sets the high and low marks
* to be aHighDrop MB and aLowDrop MB below the current free space
* level.
*
* Then diskspace is reserved to aFreeDrop MB below the current free
* space level.
*
* If the current free space level is greater then aMax then the
* current free space level is set to aMax
*
* If the current free space level is less than aLowDrop MB then this
* method leaves with KErrArgument.
*
* @param aHighDrop The number of MB below the current free space level for the high level mark (in the .RSC file)
* @param aLowDrop The number of MB below the current free space level for the low level mark (in the .RSC file)
* @param aFreeDrop The number of MB below the current free space level for the low level mark
* @param aMax The maximum level for the high limit allowed
*
* @return The max current free space level used.
*
* @leave KErrArgument if the current free diskspace level is less than aLowDrop MB
* @leave KErrArgument if aMax is not greater than aLowDrop MB
* @leave KErrArgument if aHighDrop >= aLowDrop
*/
EXPORT_C TUint64 CSmsBaseTestStep::SetHighLowLimitsAndDiskSpaceLevelL(TUint aHighDrop, TUint aLowDrop, TUint aFreeDrop, TUint64 aMax/*=0x7fffffff*/)
{
INFO_PRINTF5(_L("Setting High-Low limits and Free Diskspace levels [aHighDrop=%u, aLowDrop=%u, aFreeDrop=%u, aMax=%ld]"), aHighDrop, aLowDrop, aFreeDrop, aMax);
__ASSERT_ALWAYS( (aMax > (aLowDrop*1024*1024)), User::Leave(KErrArgument));
__ASSERT_ALWAYS( (aLowDrop > aHighDrop), User::Leave(KErrArgument));
ReleaseDiskSpaceL();
TVolumeInfo volumeInfo;
User::LeaveIfError(iFs.Volume(volumeInfo, EDriveC));
INFO_PRINTF2(_L(" Drive C currently has %ld bytes free."), volumeInfo.iFree);
TUint64 current = volumeInfo.iFree;
if( current < (aLowDrop*1024*1024) )
{
INFO_PRINTF1(_L(" Drive C already has too little free space!"));
User::Leave(KErrArgument);
}
if( current > aMax )
{
current = aMax;
}
TUint64 high = current - (aHighDrop*1024*1024);
TUint64 low = current - (aLowDrop*1024*1024);
SetLowHighLimitsInSmsuRscL(low, high);
if( aFreeDrop != 0 )
{
TUint64 free = current - (aFreeDrop*1024*1024);
SetFreeDiskSpaceL(free);
}
return current;
}
/**
* Reserves disk space to match requested free space - a number MB below the current free space level.
*
* Checks the current free space and diskspace is reserved to aFreeDrop
* MB below the current free space level.
*
* If the current free space level is greater then aMax then the
* current free space level is set to aMax
*
* If the current free space level is less than aLowDrop MB then this
* method leaves with KErrArgument.
*
* @param aFreeDrop The number of MB below the current free space level for the low level mark
* @param aMax The maximum level for the high limit allowed
*
* @return The max current free space level used.
*
* @leave KErrArgument if the current free diskspace level is less than aLowDrop MB
* @leave KErrArgument if aMax is not greater than aLowDrop MB
* @leave KErrArgument if aHighDrop >= aLowDrop
*/
EXPORT_C void CSmsBaseTestStep::SetFreeDiskSpaceFromDropLevelL(TUint aFreeDrop, TUint64 aMax/*=0x7fffffff*/)
{
INFO_PRINTF3(_L("Setting Free Diskspace level [aFreeDrop=%u, aMax=%ld]"), aFreeDrop, aMax);
if( aFreeDrop == 0)
{
return;
}
TVolumeInfo volumeInfo;
User::LeaveIfError(iFs.Volume(volumeInfo, EDriveC));
TUint64 current = volumeInfo.iFree;
if( current > aMax )
{
current = aMax;
}
TUint64 free = current - (aFreeDrop*1024*1024);
SetFreeDiskSpaceL(free);
}
/**
* Reserves disk space so that a specified amount of free disk space is
* available.
*
* @param aNewFreeValue Amount of free space required.
*/
EXPORT_C void CSmsBaseTestStep::SetFreeDiskSpaceL(TInt64 aNewFreeValue)
{
#ifndef _DEBUG
(void)aNewFreeValue; // added to aviod compiler warning, as only used in test mode
ERR_PRINTF1(_L("Unexpected call: CSMSTestSteps::SetFreeDiskSpaceL() is expected to be called only in DEBUG mode."));
User::Leave(KErrNotSupported);
#else
INFO_PRINTF2(_L("Setting Drive C free disk space to %ld bytes."), aNewFreeValue);
__ASSERT_DEBUG( (aNewFreeValue <= 0x7fffffff), User::Leave(KErrArgument));
TInt err = RProperty::Set(KUidPSSMSStackCategory, KUidPSSMSStackFreeDiskSpaceKey, (TInt)aNewFreeValue);
if (err != KErrNone)
{
ERR_PRINTF2(_L("RProperty::Set() failure [err=%d]"), err);
User::Leave(err);
}
#endif
} // CSMSTestSteps::SetFreeDiskSpaceL
/**
* Release all reserved disk space.
*/
EXPORT_C void CSmsBaseTestStep::ReleaseDiskSpaceL()
{
#ifndef _DEBUG
ERR_PRINTF1(_L("Unexpected call: CSMSTestSteps::ReleaseDiskSpaceL() is expected to be called only in DEBUG mode."));
User::Leave(KErrNotSupported);
#else
INFO_PRINTF1(_L("CSMSTestSteps::ReleaseDiskSpaceL()"));
TVolumeInfo volumeInfo;
User::LeaveIfError(iFs.Volume(volumeInfo, EDriveC));
TUint64 current = volumeInfo.iFree;
if( current > 0x7fffffff )
{
current = 0x7fffffff;
}
SetFreeDiskSpaceL(current);
#endif
}
/**
* Set high and low limits in .RSC file. When the SMS Stack starts the limits
* will be loaded as if set by the licensee.
*
* @param aLowLimit Low limit value.
* @param aHighLimit High limit value.
*
* @note Only works in debug mode for security reasons.
*/
EXPORT_C void CSmsBaseTestStep::SetLowHighLimitsInSmsuRscL(TInt64 aLowLimit, TInt64 aHighLimit)
{
INFO_PRINTF3(_L("Setting high and low .RSC limits to %ld and %ld."),
aHighLimit, aLowLimit);
__ASSERT_ALWAYS(aLowLimit < 0x7fffffff, User::Leave(KErrArgument));
__ASSERT_ALWAYS(aHighLimit < 0x7fffffff, User::Leave(KErrArgument));
__ASSERT_ALWAYS(aLowLimit < aHighLimit, User::Leave(KErrArgument));
//
// Data for the SMSU resource file. The low limit is written at position
// 20 and the high limit at position 24.
//
const TInt smsuRscSize = 34;
TChar smsuRscData[smsuRscSize] =
{0x6b, 0x4a, 0x1f, 0x10, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x19, 0xfd, 0x48, 0xe8,
0x01, 0x04, 0x00, 0x00, 0x78, 0x56, 0x34, 0x12,
0x87, 0x65, 0x43, 0x21, 0x14, 0x00, 0x18, 0x00,
0x1c, 0x00};
smsuRscData[20] = (aLowLimit >> 0) & 0xff;
smsuRscData[21] = (aLowLimit >> 8) & 0xff;
smsuRscData[22] = (aLowLimit >> 16) & 0xff;
smsuRscData[23] = (aLowLimit >> 24) & 0xff;
smsuRscData[24] = (aHighLimit >> 0) & 0xff;
smsuRscData[25] = (aHighLimit >> 8) & 0xff;
smsuRscData[26] = (aHighLimit >> 16) & 0xff;
smsuRscData[27] = (aHighLimit >> 24) & 0xff;
TBuf8<smsuRscSize> smsuRscBuffer;
for (TInt index = 0; index < smsuRscSize; index++)
{
smsuRscBuffer.Append(smsuRscData[index]);
}
//
// Ensure the target directory exists...
//
TInt ret;
ret = iFs.MkDir(KSMSUResourceDir);
if (ret != KErrNone && ret != KErrAlreadyExists)
{
User::Leave(ret);
}
//
// Write the RSC file to the private C:\ directory...
//
RFile file;
User::LeaveIfError(file.Replace(iFs, KSMSUResourceFile, EFileWrite));
CleanupClosePushL(file);
User::LeaveIfError(file.Write(smsuRscSize, smsuRscBuffer));
CleanupStack::PopAndDestroy(&file);
} // CSmsBaseTestStep::SetLowHighLimitsInSmsuRscL
/**
* Removes the low and high limits and returns the SMSU.RSC to defauls.
*/
EXPORT_C void CSmsBaseTestStep::RemoveLowHighLimitsFromSmsuRscL()
{
INFO_PRINTF1(_L("Removing .RSC limits."));
//
// Remove the RSC file...
//
TInt ret;
ret = iFs.Delete(KSMSUResourceFile);
if (ret != KErrNone && ret != KErrNotFound)
{
User::Leave(ret);
}
} // CSmsBaseTestStep::RemoveLowHighLimitsFromSmsuRscL
EXPORT_C void CSmsBaseTestStep::ChangeReceiveModeL(RMobileSmsMessaging::TMobileSmsReceiveMode aNewRcvMode)
{
// Create comms database object
#ifdef SYMBIAN_NON_SEAMLESS_NETWORK_BEARER_MOBILITY
CMDBSession* db = CMDBSession::NewL(KCDVersion1_2);
#else
CMDBSession* db = CMDBSession::NewL(KCDVersion1_1);
#endif
CleanupStack::PushL(db);
INFO_PRINTF1(_L("Testing recvMode change to EReceiveUnstoredClientAck"));
// EReceiveUnstoredClientAck
CMDBField<TUint32>* smsReceiveModeField = new(ELeave) CMDBField<TUint32>(KCDTIdSMSReceiveMode);
CleanupStack::PushL(smsReceiveModeField);
smsReceiveModeField->SetRecordId(1); //it's GlobalSettingsRecord
*smsReceiveModeField = aNewRcvMode;
smsReceiveModeField->ModifyL(*db);
CleanupStack::PopAndDestroy(smsReceiveModeField);
CleanupStack::PopAndDestroy(db);
}
EXPORT_C TInt CSmsBaseTestStep::GetIntegerFromConfigL(const TDesC& aKey)
{
TInt value (0);
if(!GetIntFromConfig( ConfigSection(), aKey, value))
{
ERR_PRINTF2( _L("%S is missing in the configuration file!"), &aKey);
User::Leave(KErrNotFound);
}
return value;
}
EXPORT_C TPtrC CSmsBaseTestStep::GetStringFromConfigL(const TDesC& aKey)
{
TPtrC value;
if(!GetStringFromConfig(ConfigSection(), aKey, value))
{
ERR_PRINTF2(_L("%S is missing in the configuration file!"), &aKey);
User::Leave(KErrNotFound);
}
return value;
}
EXPORT_C void CSmsBaseTestStep::UpdatePhonePowerStatusL(RProperty& aPhonePowerProperty, TSAPhoneStatus aNewStatus)
{
INFO_PRINTF2(_L("Updating phone power status [aNewStatus=%d]"), aNewStatus);
TInt currentStatus;
User::LeaveIfError(aPhonePowerProperty.Get(currentStatus));
while( currentStatus != aNewStatus )
{
TRequestStatus status;
aPhonePowerProperty.Subscribe(status);
User::LeaveIfError(aPhonePowerProperty.Set(KUidSystemCategory, KUidPhonePwr.iUid, aNewStatus));
User::After(5 * 1000000); // sleep 5 secs;
User::WaitForRequest(status);
TEST(status.Int() == KErrNone);
User::LeaveIfError(aPhonePowerProperty.Get(currentStatus));
}
}
// Build a list of instances of CPMs running ESOCKSVR.DLL
void CSmsBaseTestStep::BuildESockCPMListL(RRootServ& aRootServer, RUnloadInfoArray& aInfo, TDes8& aDispList)
{
TRSIter iter;
TCFModuleName modName;
TRSModuleInfo modInfo;
aInfo.ResetAndDestroy();
aDispList.SetLength(0);
while (aRootServer.EnumerateModules(iter, modName) == KErrNone)
{
if (aRootServer.GetModuleInfo(modName, modInfo) == KErrNone &&
modInfo.iParams.iDll.MatchF(_L("*ESOCKSVR.DLL")) >= 0)
{
TESockSvrUnloadInfo* unloadInfo = new(ELeave) TESockSvrUnloadInfo;
unloadInfo->iName.Copy(modInfo.iParams.iName);
unloadInfo->iState=modInfo.iParams.iState;
unloadInfo->iStatus=KErrNone;
aDispList.Append(unloadInfo->iName);
aDispList.Append(_L8(" "));
TInt err = aInfo.Append(unloadInfo);
TESTCHECKL(err, KErrNone, "Appending unloading info");
}
}
}
EXPORT_C void CSmsBaseTestStep::DoESockMemoryLeakTestL()
{
INFO_PRINTF1(_L("Checking for ESock memory leaks..."));
TInt ret, startLeakCounter;
// Find the current number of leaked cells in ESock
ret = RProperty::Get(KUidCommsProcess, KUidCommsModuleLeakCounter, startLeakCounter);
if (ret == KErrNotFound)
{
// No variable to monitor, ESock is probably not in debug mode.
INFO_PRINTF1(_L("<font size=2 color=00FFCC><B>ESock is probably not in debug mode.</B></font>"));
return;
}
TESTCHECKL(ret, KErrNone, "Get the Comms Module Leak Counter")
// With the Staged Start-up Architecture it is likely that ESOCK modules continue to load after the ECoreComponentsStarted
// state which releases StartC32() and RSocketServ::Connect(). So here we wait until the RootServer is fully configured before
// starting the shutdown, which avoids various races (modules may not be bound yet, or even loaded at all by the Configurator
// and hence invisible to this unloading code)
RProperty configurationProperty;
CleanupClosePushL(configurationProperty);
configurationProperty.Attach(KUidSystemCategory, KUidC32StartPropertyKey.iUid); // needs the KEY
TInt propertyValue = EInitialising; // set to safe state
TInt propertyResult = configurationProperty.Get(propertyValue);
TRequestStatus propertyStatus;
while(propertyValue < EConfigurationComplete)
{
configurationProperty.Subscribe(propertyStatus);
if(configurationProperty.Get(propertyValue) == KErrNone && propertyValue == EConfigurationComplete)
{
configurationProperty.Cancel();
}
User::WaitForRequest(propertyStatus);
}
RRootServ rootserver;
User::LeaveIfError(rootserver.Connect());
CleanupClosePushL(rootserver);
// Find all instances of CPMs running ESOCKSVR.DLL
RUnloadInfoArray unloadArray(16);
CleanupClosePushL(unloadArray);
TBuf8<256> modList;
BuildESockCPMListL(rootserver, unloadArray, modList);
// Start by asking all of the ESOCK threads to unload when there are no sessions
TInt index = unloadArray.Count();
while( index-- > 0 )
{
TESockSvrUnloadInfo* info = unloadArray[index];
rootserver.UnloadCpm(info->iStatus, info->iName, EGraceful);
}
// Start polling to see when they all complete unloading
const TInt KPollPeriod = 2000 * 1000;
TUint maxPolls = 15;
RUnloadInfoArray pollUnloadArray(16);
BuildESockCPMListL(rootserver, pollUnloadArray, modList);
while( maxPolls-- > 0 && pollUnloadArray.Count() > 0 )
{
User::After(KPollPeriod);
BuildESockCPMListL(rootserver, pollUnloadArray, modList);
}
pollUnloadArray.ResetAndDestroy();
// Cancel any remaining unloads and eat the events
index = unloadArray.Count();
while( index-- >0 )
{
TESockSvrUnloadInfo* info = unloadArray[index];
rootserver.CancelUnloadCpm(info->iName);
User::WaitForRequest(info->iStatus);
}
// See what's left
BuildESockCPMListL(rootserver, unloadArray, modList);
TInt err = KErrNone; // Will use this to catch first error below
TInt count = unloadArray.Count();
if(count > 0)
{
// No more waiting; we order immediate unloads
for(TInt i = 0; i < count; ++i)
{
TESockSvrUnloadInfo* info = unloadArray[i];
rootserver.UnloadCpm(info->iStatus, info->iName, EImmediate);
}
// Wait for them all to return
for(TInt i = 0; i < count; ++i)
{
TESockSvrUnloadInfo* info = unloadArray[i];
User::WaitForRequest(info->iStatus);
}
// Display the status of any remaining modules
for(TInt i = count - 1; i >= 0; --i)
{
TESockSvrUnloadInfo* info = unloadArray[i];
TBuf16<32> tmp;
tmp.Copy(info->iName);
if(info->iStatus.Int() != KErrNone && info->iStatus.Int() != KErrRSModuleNotLoaded)
{
err = info->iStatus.Int();
INFO_PRINTF4(_L("%S cannot be gracefully or immediatly unloaded due to error %d and is stuck in state %d"), &tmp, info->iStatus.Int(), info->iState);
}
else
{
INFO_PRINTF4(_L("%S could not be gracefully unloaded and had to be immediatly unloaded while it was stuck in state %d, status %d"), &tmp, info->iState, info->iStatus.Int());
}
}
}
CleanupStack::PopAndDestroy(3, &configurationProperty); // configurationProperty, rootserver, unloadArray
// Leave with last seen error, if any
TESTCHECKL(err, KErrNone, "Unloading CPM modules");
// Get the latest number of leaked cells in ESock
TInt finalLeakCounter;
ret = RProperty::Get(KUidCommsProcess, KUidCommsModuleLeakCounter, finalLeakCounter);
TESTCHECKL(ret, KErrNone, "Getting Comms Module leak counter");
TESTCHECKCONDITION(finalLeakCounter <= startLeakCounter, "A memory leak has been detected inside ESock");
// TODO: reviewers - why is it here?
// Restart C32...
_LIT(KDummyCMI, "");
WarmBootC32(KDummyCMI);
}