Пример #1
0
void CPingAppUi::StorePreferencesL(const TPreferences &aPreferences)
{
    CDictionaryStore *iniFile = Application()->OpenIniFileLC(iCoeEnv->FsSession());
    RDictionaryWriteStream writeStream;
    writeStream.AssignLC(*iniFile, KUidPingApp);
    writeStream.WriteUint8L (aPreferences.iFlags);
    writeStream.WriteUint16L (aPreferences.iLastSecWait);
    writeStream.WriteUint16L (aPreferences.iPacketDataSize);
    writeStream.WriteUint16L (aPreferences.iSecWait);
    writeStream.WriteUint16L (aPreferences.iTotalPackets);
    writeStream.WriteInt16L (aPreferences.iHostname.Length());
    writeStream.WriteL (aPreferences.iHostname);
    writeStream.WriteInt16L (aPreferences.iPattern.Length());
    writeStream.WriteL (aPreferences.iPattern);
   
#ifdef IAPSETTING
	writeStream.WriteUint16L (aPreferences.iIAP);
#endif
    //.... // and whatever

    writeStream.CommitL();
    CleanupStack::PopAndDestroy(); // write stream

    // in this replace XXVersionUid with another unique UID - usually the next one up from XXUid
    writeStream.AssignLC(*iniFile, KUidPingVersionUid); // write version 1.0 (major.minor)
    writeStream.WriteInt8L(1); // major
    writeStream.WriteInt8L(0); // minor
    writeStream.CommitL(); // flush
    CleanupStack::PopAndDestroy(); // writeStream;

    // commit changes to the store
    if (iniFile->Commit()!=KErrNone)
        iniFile->RevertL();

    CleanupStack::PopAndDestroy();
}
Пример #2
0
// -----------------------------------------------------------------------------
// CGbaServer::WriteOptionL()
// -----------------------------------------------------------------------------
//
void CGbaServer::WriteOptionL(const TUid& aOptionID, const TDesC8& aValue) const
{
    GBA_TRACE_DEBUG(("WriteOptionL"));
    TInt pushCount = 0;
    RFs fs;
    User::LeaveIfError(fs.Connect());
    CleanupClosePushL( fs );
    pushCount++;
    TFindFile folder( fs );

    TFileName fullPath;
    MakePrivateFilenameL(fs, KGbaIniFileName, fullPath);
    EnsurePathL(fs, fullPath );

    GBA_TRACE_DEBUG(fullPath);

    TInt err = folder.FindByDir( fullPath, KNullDesC);

    if (  err == KErrNotFound || err == KErrNone )
    {
        CDictionaryFileStore* pStore = CDictionaryFileStore::OpenLC( fs, fullPath, KGbaIniUid );
        pushCount++;

        RDictionaryWriteStream wrs;
        CleanupClosePushL( wrs );
        wrs.AssignL(*pStore,aOptionID);

        wrs.WriteInt32L(aValue.Length());
        wrs.WriteL(aValue);
        wrs.CommitL();

        pStore->CommitL();
        CleanupStack::PopAndDestroy( &wrs );
        CleanupStack::PopAndDestroy( pushCount );
        GBA_TRACE_DEBUG(aValue);
    }
    else
    {
        CleanupStack::PopAndDestroy( pushCount );
        User::LeaveIfError( err );
    }
}
Пример #3
0
/**
@SYMTestCaseID          SYSLIB-LOGENG-CT-1008
@SYMTestCaseDesc	    Tests for writing different events to a store
@SYMTestPriority 	    High
@SYMTestActions  	    Calls up TestStoreL() function
@SYMTestExpectedResults Test must not fail
@SYMREQ                 REQ0000
*/
LOCAL_C void TestEventL()
	{
	TheTest.Next(_L(" @SYMTestCaseID:SYSLIB-LOGENG-CT-1008 "));
	CLogEvent* event1 = CLogEvent::NewL();
	CleanupStack::PushL(event1);

	// Event Id
	TEST(event1->Id() == KLogNullId);
	TestStoreL(*event1);

	event1->SetId(0x12345678);
	TEST(event1->Id() == 0x12345678);
	TestStoreL(*event1);

	event1->SetId(KMaxTInt32);
	TEST(event1->Id() == KMaxTInt32);
	TestStoreL(*event1);

	event1->SetId(0);
	TEST(event1->Id() == 0);
	TestStoreL(*event1);

	// Event type
	event1->SetEventType(TUid::Null());
	TestStoreL(*event1);

	event1->SetEventType(TUid::Uid(0x12345678));
	TEST(event1->EventType() == TUid::Uid(0x12345678));
	TestStoreL(*event1);

	event1->SetEventType(TUid::Uid(KMaxTInt32));
	TEST(event1->EventType() == TUid::Uid(KMaxTInt32));
	TestStoreL(*event1);

	event1->SetEventType(TUid::Null());
	TEST(event1->EventType() == TUid::Null());
	TestStoreL(*event1);

	// Remote Party
	TEST(event1->RemoteParty() == KNullDesC);
	TestStoreL(*event1);

	HBufC* buf = TestUtils::CreateBufLC(KLogMaxRemotePartyLength / 2);
	event1->SetRemoteParty(buf->Des());
	TEST(event1->RemoteParty() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxRemotePartyLength);
	event1->SetRemoteParty(buf->Des());
	TEST(event1->RemoteParty() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxRemotePartyLength * 2);
	event1->SetRemoteParty(buf->Des());
	TEST(event1->RemoteParty() == buf->Des().Left(KLogMaxRemotePartyLength));
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	event1->SetRemoteParty(KNullDesC);
	TEST(event1->RemoteParty() == KNullDesC);
	TestStoreL(*event1);

	// Direction
	TEST(event1->Direction() == KNullDesC);
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxDirectionLength / 2);
	event1->SetDirection(buf->Des());
	TEST(event1->Direction() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxDirectionLength);
	event1->SetDirection(buf->Des());
	TEST(event1->Direction() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxDirectionLength * 2);
	event1->SetDirection(buf->Des());
	TEST(event1->Direction() == buf->Des().Left(KLogMaxDirectionLength));
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	event1->SetDirection(KNullDesC);
	TEST(event1->Direction() == KNullDesC);
	TestStoreL(*event1);

	// Time
	TTime time;

	time.UniversalTime();
	event1->SetTime(time);
	TEST(event1->Time() == time);
	TestStoreL(*event1);

	time.HomeTime();
	event1->SetTime(time);
	TEST(event1->Time() == time);
	TestStoreL(*event1);

	// Duration Type
	TEST(event1->DurationType() == KLogNullDurationType);

	event1->SetDurationType(0xf);
	TEST(event1->DurationType() == 0xf);
	TestStoreL(*event1);

	event1->SetDurationType(KMaxTInt8);
	TEST(event1->DurationType() == KMaxTInt8);
	TestStoreL(*event1);

	event1->SetDurationType(KLogNullDurationType);
	TEST(event1->DurationType() == KLogNullDurationType);
	TestStoreL(*event1);

	// Duration
	TEST(event1->Duration() == KLogNullDuration);

	event1->SetDuration(0x12345678);
	TEST(event1->Duration() == 0x12345678);
	TestStoreL(*event1);

	event1->SetDuration(KMaxTUint32);
	TEST(event1->Duration() == KMaxTUint32);
	TestStoreL(*event1);

	event1->SetDuration(KLogNullDuration);
	TEST(event1->Duration() == KLogNullDuration);
	TestStoreL(*event1);

	// Status
	TEST(event1->Status() == KNullDesC);

	buf = TestUtils::CreateBufLC(KLogMaxStatusLength / 2);
	event1->SetStatus(buf->Des());
	TEST(event1->Status() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxStatusLength);
	event1->SetStatus(buf->Des());
	TEST(event1->Status() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxStatusLength * 2);
	event1->SetStatus(buf->Des());
	TEST(event1->Status() == buf->Des().Left(KLogMaxStatusLength));
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	event1->SetStatus(KNullDesC);
	TEST(event1->Status() == KNullDesC);
	TestStoreL(*event1);

	// Subject
	TEST(event1->Subject() == KNullDesC);

	buf = TestUtils::CreateBufLC(KLogMaxSubjectLength / 2);
	event1->SetSubject(buf->Des());
	TEST(event1->Subject() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxSubjectLength);
	event1->SetSubject(buf->Des());
	TEST(event1->Subject() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxSubjectLength * 2);
	event1->SetSubject(buf->Des());
	TEST(event1->Subject() == buf->Des().Left(KLogMaxSubjectLength));
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	event1->SetSubject(KNullDesC);
	TEST(event1->Subject() == KNullDesC);
	TestStoreL(*event1);

	// Number
	TEST(event1->Number() == KNullDesC);

	buf = TestUtils::CreateBufLC(KLogMaxNumberLength / 2);
	event1->SetNumber(buf->Des());
	TEST(event1->Number() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxNumberLength);
	event1->SetNumber(buf->Des());
	TEST(event1->Number() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxNumberLength * 2);
	event1->SetNumber(buf->Des());
	TEST(event1->Number() == buf->Des().Left(KLogMaxNumberLength));
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	event1->SetNumber(KNullDesC);
	TEST(event1->Number() == KNullDesC);
	TestStoreL(*event1);

	// Contact
	TEST(event1->Contact() == KLogNullContactId);

	event1->SetContact(0x12345678);
	TEST(event1->Contact() == 0x12345678);
	TestStoreL(*event1);

	event1->SetContact(KMaxTInt32);
	TEST(event1->Contact() == KMaxTInt32);
	TestStoreL(*event1);

	event1->SetContact(KLogNullContactId);
	TEST(event1->Contact() == KLogNullContactId);
	TestStoreL(*event1);

	event1->SetContact(KMinTInt32);
	TEST(event1->Contact() == KMinTInt32);
	TestStoreL(*event1);

	// Link
	TEST(event1->Link() == KLogNullLink);

	event1->SetLink(0x12345678);
	TEST(event1->Link() == 0x12345678);
	TestStoreL(*event1);

	event1->SetLink(KMaxTUint32);
	TEST(event1->Link() == KMaxTUint32);
	TestStoreL(*event1);

	event1->SetLink(KLogNullLink);
	TEST(event1->Link() == KLogNullLink);

	// Description
	TEST(event1->Description() == KNullDesC);

	buf = TestUtils::CreateBufLC(KLogMaxDescriptionLength / 2);
	event1->SetDescription(buf->Des());
	TEST(event1->Description() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxDescriptionLength);
	event1->SetDescription(buf->Des());
	TEST(event1->Description() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	buf = TestUtils::CreateBufLC(KLogMaxDescriptionLength * 2);
	event1->SetDescription(buf->Des());
	TEST(event1->Description() == buf->Des().Left(KLogMaxDescriptionLength));
	CleanupStack::PopAndDestroy(); // buf
	TestStoreL(*event1);

	event1->SetDescription(KNullDesC);
	TEST(event1->Description() == KNullDesC);

	// Flags
	TEST(event1->Flags() == KLogNullFlags);
	event1->SetFlags(1);
	TEST(event1->Flags() == 1);
	TestStoreL(*event1);
	event1->SetFlags(2);
	TEST(event1->Flags() == 3);
	event1->SetFlags(4);
	TEST(event1->Flags() == 7);
	event1->SetFlags(8);
	TEST(event1->Flags() == KLogFlagsMask);
	event1->ClearFlags(8);
	TEST(event1->Flags() == 7);
	event1->ClearFlags(4);
	TEST(event1->Flags() == 3);
	event1->ClearFlags(2);
	TEST(event1->Flags() == 1);
	event1->ClearFlags(1);
	TEST(event1->Flags() == KLogNullFlags);

	event1->SetFlags(1);
	TEST(event1->Flags() == 1);
	event1->SetFlags(3);
	TEST(event1->Flags() == 3);
	event1->SetFlags(7);
	TEST(event1->Flags() == 7);
	event1->SetFlags(15);
	event1->SetFlags(KLogFlagsMask);
	TEST(event1->Flags() == KLogFlagsMask);
	event1->ClearFlags(KLogFlagsMask);
	TEST(event1->Flags() == KLogNullFlags);

	event1->SetFlags(0x5);
	TEST(event1->Flags() == 0x5);
	event1->SetFlags(0xA);
	TEST(event1->Flags() == KLogFlagsMask);
	event1->ClearFlags(0x5);
	TEST(event1->Flags() == 0xA);
	event1->ClearFlags(0xA);
	TEST(event1->Flags() == KLogNullFlags);

	// Data
	TEST(event1->Data() == KNullDesC8);

	HBufC8* buf8;

	buf8 = TestUtils::CreateBuf8LC(100);
	event1->SetDataL(buf8->Des());
	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy();
	TestStoreL(*event1);

	buf8 = TestUtils::CreateBuf8LC(200);
	event1->SetDataL(buf8->Des());
	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy();
	TestStoreL(*event1);

	buf8 = TestUtils::CreateBuf8LC(400);
	event1->SetDataL(buf8->Des());
	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy();
	TestStoreL(*event1);

	event1->SetDataL(KNullDesC8);
	TEST(event1->Data() == KNullDesC8);

	// streaming
	TFileName storename = _L("c:\\T_LOGEVENT_DATA");
	TUid uid={0x12345678};

	// create a store
	theFs.Delete(storename);
	CDictionaryFileStore* store = CDictionaryFileStore::OpenLC(theFs, storename, uid);
	
	RDictionaryWriteStream write;
	RDictionaryReadStream read;

	event1->SetDataL(KNullDesC8);

	uid.iUid++;
	write.AssignL(*store, uid);
	write << event1->Data();
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);
	event1->SetDataL(read, 0);
	read.Close();

	TEST(event1->Data() == KNullDesC8);

	buf8 = TestUtils::CreateBuf8LC(100);
	event1->SetDataL(buf8->Des());

	uid.iUid++;
	write.AssignL(*store, uid);
	write.WriteL(event1->Data());
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);
	event1->SetDataL(read, 100);
	read.Close();

	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy(); // buf8

	buf8 = TestUtils::CreateBuf8LC(200);
	event1->SetDataL(buf8->Des());

	uid.iUid++;
	write.AssignL(*store, uid);
	write.WriteL(event1->Data());
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);
	event1->SetDataL(read, 200);
	read.Close();

	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy(); // buf8

	buf8 = TestUtils::CreateBuf8LC(400);
	event1->SetDataL(buf8->Des());

	uid.iUid++;
	write.AssignL(*store, uid);
	write.WriteL(event1->Data());
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);
	event1->SetDataL(read, 400);
	read.Close();

	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy(2); // buf8, store

	// Copying
	event1->SetId(0x12345678);
	event1->SetEventType(TUid::Uid(0x12345678));

	buf = TestUtils::CreateBufLC(KLogMaxRemotePartyLength / 2);
	event1->SetRemoteParty(buf->Des());
	TEST(event1->RemoteParty() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf = TestUtils::CreateBufLC(KLogMaxDirectionLength / 2);
	event1->SetDirection(buf->Des());
	TEST(event1->Direction() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	event1->SetDurationType(0xf);
	TEST(event1->DurationType() == 0xf);

	event1->SetDuration(0x12345678);
	TEST(event1->Duration() == 0x12345678);

	buf = TestUtils::CreateBufLC(KLogMaxStatusLength / 2);
	event1->SetStatus(buf->Des());
	TEST(event1->Status() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf = TestUtils::CreateBufLC(KLogMaxSubjectLength / 2);
	event1->SetSubject(buf->Des());
	TEST(event1->Subject() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf = TestUtils::CreateBufLC(KLogMaxNumberLength / 2);
	event1->SetNumber(buf->Des());
	TEST(event1->Number() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	event1->SetContact(0x12345678);
	TEST(event1->Contact() == 0x12345678);

	event1->SetLink(0x12345678);
	TEST(event1->Link() == 0x12345678);

	buf = TestUtils::CreateBufLC(KLogMaxDescriptionLength / 2);
	event1->SetDescription(buf->Des());
	TEST(event1->Description() == buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf8 = TestUtils::CreateBuf8LC(200);
	event1->SetDataL(buf8->Des());
	TEST(event1->Data() == buf8->Des());
	CleanupStack::PopAndDestroy();

	CLogEvent* event2 = CLogEvent::NewL();
	CleanupStack::PushL(event2);
	TEST(!TestUtils::EventsEqual(*event1, *event2));

	event2->CopyL(*event1);
	TEST(TestUtils::EventsEqual(*event1, *event2));
	
	CleanupStack::PopAndDestroy(); // event2;

	event2 = CLogEvent::NewL();
	CleanupStack::PushL(event2);
	TEST(!TestUtils::EventsEqual(*event1, *event2));

	event1->CopyL(*event2);
	TEST(TestUtils::EventsEqual(*event1, *event2));

	CleanupStack::PopAndDestroy(2); // event1, event2;

	::DeleteDataFile(storename);
	}
Пример #4
0
/**
@SYMTestCaseID          SYSLIB-LOGENG-CT-1010
@SYMTestCaseDesc	    Tests for CLogEvent::NewL(),CLogEvent::SetDataL() functions
@SYMTestPriority 	    High
@SYMTestActions  	    Tests for setting event specific data read from the file and try to read the data back from the event.
                        Check for memory errors
@SYMTestExpectedResults Test must not fail
@SYMREQ                 REQ0000
*/
LOCAL_C void TestEventWithFileFailL()
	{
	TheTest.Next(_L(" @SYMTestCaseID:SYSLIB-LOGENG-CT-1010 "));
	CLogEvent* event = CLogEvent::NewL();
	CleanupStack::PushL(event);

	// streaming
	TFileName storename = _L("c:\\T_BASIC_DATA");
	TUid uid={0x12345678};

	// create a store
	theFs.Delete(storename);
	CDictionaryFileStore* store = CDictionaryFileStore::OpenLC(theFs, storename, uid);
	
	RDictionaryWriteStream write;
	RDictionaryReadStream read;

	uid.iUid++;
	write.AssignL(*store, uid);
	write << KNullDesC8;
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);

	TInt failCount = 0;
	TBool finished = EFalse;
	TInt error;

	theFs.SetErrorCondition(KErrGeneral, 0);
	event->SetDataL(read, 0);
	theFs.SetErrorCondition(KErrNone, 10000);

	read.Close();
	TEST(event->Data() == KNullDesC8);

	HBufC8* buf8 = TestUtils::CreateBuf8LC(100);

	uid.iUid++;
	write.AssignL(*store, uid);
	write.WriteL(buf8->Des());
	write.CommitL();
	write.Close();

	while(!finished)
		{
		read.OpenL(*store, uid);
		theFs.SetErrorCondition(KErrGeneral, failCount++);

		TRAP(error, event->SetDataL(read, 100));

		theFs.SetErrorCondition(KErrGeneral, 10000);

		read.Close();

		if (error == KErrNone)
			{
			TEST(event->Data() == buf8->Des());
			finished = ETrue;
			}
		else
			{
			TEST2(error, KErrGeneral);
			TEST(event->Data() == KNullDesC8);
			}
		}

	CleanupStack::PopAndDestroy(3); // buf8, store, event
	::DeleteDataFile(storename);
	}
Пример #5
0
/**
@SYMTestCaseID          SYSLIB-LOGENG-CT-1009
@SYMTestCaseDesc	    Tests for CLogEvent::NewL(),SetDataL() functions
@SYMTestPriority 	    High
@SYMTestActions  	    Tests for creation of log event on heap and 
                        test for setting  event specific data from the specified stream and try to read the data back.
                        Check for memory errors
@SYMTestExpectedResults Test must not fail
@SYMREQ                 REQ0000
*/
LOCAL_C void TestEventWithHeapFailL()
	{
	TheTest.Next(_L(" @SYMTestCaseID:SYSLIB-LOGENG-CT-1009 "));
#ifdef _DEBUG
	TInt failCount = 0;
#endif
	TInt error;
	TBool finished = EFalse;

	CLogEvent* event = NULL;

	while(!finished)
		{
		__UHEAP_FAILNEXT(failCount++);

		TRAP(error, event = CLogEvent::NewL());
		
		__UHEAP_RESET;

		if (error == KErrNone)
			{
			finished = ETrue;
			CleanupStack::PushL(event);
			}
		else
			TEST2(error, KErrNoMemory);
		}

	_LIT8(KDataTest1, "01234567890123456789");
	_LIT8(KDataTest2, "012345678901234567890123456789");

	finished = EFalse;
#ifdef _DEBUG
	failCount = 0;
#endif
	event->SetDataL(KNullDesC8);

	while(!finished)
		{
		__UHEAP_FAILNEXT(failCount++);

		TRAP(error, event->SetDataL(KDataTest1));

		__UHEAP_RESET;

		if (error == KErrNone)
			{
			finished = ETrue;
			TEST(event->Data() == KDataTest1);
			}
		else
			{
			TEST2(error, KErrNoMemory);
			TEST(event->Data() == KNullDesC8);
			}
		}

	finished = EFalse;
#ifdef _DEBUG
	failCount = 0;
#endif
	event->SetDataL(KNullDesC8);

	while(!finished)
		{
		__UHEAP_FAILNEXT(failCount++);

		TRAP(error, event->SetDataL(KDataTest2));

		__UHEAP_RESET;

		if (error == KErrNone)
			{
			finished = ETrue;
			TEST(event->Data() == KDataTest2);
			}
		else
			{
			TEST2(error, KErrNoMemory);
			TEST(event->Data() == KNullDesC8);
			}
		}

	finished = EFalse;
#ifdef _DEBUG
	failCount = 0;
#endif
	event->SetDataL(KNullDesC8);

	// Check we don't get any more failures
	__UHEAP_FAILNEXT(0);
	event->SetDataL(KDataTest2);
	TEST(event->Data() == KDataTest2);
	event->SetDataL(KDataTest1);
	TEST(event->Data() == KDataTest1);
	event->SetDataL(KNullDesC8);
	TEST(event->Data() == KNullDesC8);
	__UHEAP_RESET;

	// streaming
	TFileName storename = _L("c:\\T_BASIC_DATA");
	TUid uid={0x12345678};

	// create a store
	theFs.Delete(storename);
	CDictionaryFileStore* store = CDictionaryFileStore::OpenLC(theFs, storename, uid);
	
	RDictionaryWriteStream write;
	RDictionaryReadStream read;

	uid.iUid++;
	write.AssignL(*store, uid);
	write << KNullDesC8;
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);

#ifdef _DEBUG
	failCount = 0;
#endif
	finished = EFalse;

	__UHEAP_FAILNEXT(0);
	event->SetDataL(read, 0);
	__UHEAP_RESET;

	read.Close();	
	TEST(event->Data() == KNullDesC8);

	HBufC8* buf8 = TestUtils::CreateBuf8LC(100);

	uid.iUid++;
	write.AssignL(*store, uid);
	write.WriteL(buf8->Des());
	write.CommitL();
	write.Close();

	read.OpenL(*store, uid);

	while(!finished)
		{
		__UHEAP_FAILNEXT(failCount++);

		TRAP(error, event->SetDataL(read, 100));

		__UHEAP_RESET;

		if (error == KErrNone)
			{
			TEST(event->Data() == buf8->Des());
			read.Close();
			finished = ETrue;
			}
		else
			{
			TEST2(error, KErrNoMemory);
			TEST(event->Data() == KNullDesC8);
			}
		}

	event->SetId(0x12345678);
	event->SetEventType(TUid::Uid(0x12345678));

	HBufC* buf = TestUtils::CreateBufLC(KLogMaxRemotePartyLength / 2);
	event->SetRemoteParty(buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf = TestUtils::CreateBufLC(KLogMaxDirectionLength / 2);
	event->SetDirection(buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	TTime time;

	time.UniversalTime();
	event->SetTime(time);
	TEST(event->Time() == time);

	event->SetDurationType(0xf);
	event->SetDuration(0x12345678);

	buf = TestUtils::CreateBufLC(KLogMaxStatusLength / 2);
	event->SetStatus(buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf = TestUtils::CreateBufLC(KLogMaxSubjectLength / 2);
	event->SetSubject(buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	buf = TestUtils::CreateBufLC(KLogMaxNumberLength / 2);
	event->SetNumber(buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	event->SetContact(0x12345678);
	event->SetLink(0x12345678);

	buf = TestUtils::CreateBufLC(KLogMaxDescriptionLength / 2);
	event->SetDescription(buf->Des());
	CleanupStack::PopAndDestroy(); // buf

	event->SetFlags(0xA);

	buf8 = TestUtils::CreateBuf8LC(100);
	event->SetDataL(buf8->Des());
	TEST(event->Data() == buf8->Des());
	CleanupStack::PopAndDestroy(); // buf8

	CLogEvent* event1 = CLogEvent::NewL();
	CleanupStack::PushL(event1);

	CLogEvent* event2 = CLogEvent::NewL();
	CleanupStack::PushL(event2);

	TEST(TestUtils::EventsEqual(*event1, *event2));

	finished = EFalse;
#ifdef _DEBUG
	failCount = 0;
#endif

	while(!finished)
		{
		__UHEAP_FAILNEXT(failCount++);

		TRAP(error, event1->CopyL(*event));

		__UHEAP_RESET;

		if (error == KErrNone)
			{
			TEST(!TestUtils::EventsEqual(*event1, *event2));
			TEST(TestUtils::EventsEqual(*event1, *event));
			finished = ETrue;
			}
		else
			{
			TEST2(error, KErrNoMemory);
			TEST(TestUtils::EventsEqual(*event1, *event2));
			TEST(!TestUtils::EventsEqual(*event1, *event));
			}
		}

	CleanupStack::PopAndDestroy(5); // buf8, store, event, event1, event2
	::DeleteDataFile(storename);
	}