void CAddObexAttachmentAsEntryState::StartL(TRequestStatus& aStatus)
    {
    // Add an attachment as a child entry

    CBaseMtm& clientMtm = iClientTest.ObexTestUtils().GetCurrentObexClientMtm();

	CMsvEntry& entry = clientMtm.Entry();
	CMsvStore* store = entry.EditStoreL();
	CleanupStack::PushL(store);
	
	CAsyncWaiter* waiter = CAsyncWaiter::NewL();
	CleanupStack::PushL(waiter);
	CMsvAttachment* attachment = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
	CleanupStack::PushL(attachment);
	TParse fileNameParser;
	User::LeaveIfError(fileNameParser.Set(iFileName, NULL, NULL));
	attachment->SetAttachmentNameL(fileNameParser.NameAndExt());
	store->AttachmentManagerL().AddAttachmentL(iFileName, attachment, waiter->iStatus);
	CleanupStack::Pop(attachment);
	waiter->StartAndWait();
	User::LeaveIfError(waiter->Result());
	CleanupStack::PopAndDestroy(waiter);
	
	store->CommitL();
	CleanupStack::PopAndDestroy(store);

    TRequestStatus* status = &aStatus;
	User::RequestComplete(status, KErrNone);
    }
// ----------------------------------------------------------------------------
// CIpsPlgNewChildPartFromFileOperation::InitAttachmentManagerL
// ----------------------------------------------------------------------------
//
void CIpsPlgNewChildPartFromFileOperation::InitAttachmentManagerL()
    {
    iEntry = NULL;
    iMessage = NULL;
    RFile file;
    TInt fileSize( 0 );

    // Read attachment size
    User::LeaveIfError(
        file.Open( iMsvSession.FileSession(), iFilePath->Des(), EFileShareReadersOnly )
        );
 
    //in rare case that file has disappeared while sending
    //we just won't get the size for it
    file.Size( fileSize );
    file.Close();    

    // Initialize CMsvAttachment instance for the attachment creation
    CMsvAttachment* info = CMsvAttachment::NewL( CMsvAttachment::EMsvFile );
    CleanupStack::PushL( info );

    info->SetAttachmentNameL( iFilePath->Des() );
    info->SetSize( fileSize );

    // Create/acquire Symbian message entry objects
    GetMessageEntryL( iMessageId.Id(), iEntry, iMessage );

    // Start attachment creation
    iMessage->AttachmentManager().AddAttachmentL( 
        iFilePath->Des(), info, iStatus );
    CleanupStack::Pop( info ); // attachment manager takes ownership
    iStep = EPrepareMsvEntry; // Next step
    SetActive();
    }
void CMtfTestActionAddAttachmentAsLink::RunTestL()
	{
	CMsvStore* paramStore = ObtainParameterReferenceL<CMsvStore>(TestCase(),ActionParameters().Parameter(0));
	HBufC* paramFilePath   = ObtainParameterReferenceL<HBufC>(TestCase(),ActionParameters().Parameter(1));
	HBufC8* paramMimeType = ObtainParameterReferenceL<HBufC8>(TestCase(),ActionParameters().Parameter(2));
	
	
	CMtfAsyncWaiter* waiter = CMtfAsyncWaiter::NewL();
	CleanupStack::PushL(waiter);
	
	CMsvAttachment* attachment = CMsvAttachment::NewL(CMsvAttachment::EMsvLinkedFile);
	CleanupStack::PushL(attachment);
	
	attachment->SetMimeTypeL(*paramMimeType);
	
	TParse fileNameParser;
	User::LeaveIfError(fileNameParser.Set(*paramFilePath, NULL, NULL));
	attachment->SetAttachmentNameL(fileNameParser.NameAndExt());
	
	MMsvAttachmentManager& manager = paramStore->AttachmentManagerL();
	
	manager.AddLinkedAttachmentL(*paramFilePath, attachment, waiter->iStatus);
	CleanupStack::Pop(attachment); // ownership passed to manager

	waiter->StartAndWait();
	User::LeaveIfError(waiter->Result());
	CleanupStack::PopAndDestroy(waiter);
	
	TMsvAttachmentId attachmentId = attachment->Id();
	
	paramStore->CommitL();
	
	StoreParameterL<TMsvAttachmentId>(TestCase(),attachmentId,ActionParameters().Parameter(3));	
	}
void CMtfTestActionSmtpAddLinkedAttachment::RunTestL()
	{
	CMsvSession* paramSession = ObtainParameterReferenceL<CMsvSession>(TestCase(),ActionParameters().Parameter(0));
	TMsvId messageEntry = ObtainValueParameterL<TMsvId>(TestCase(),ActionParameters().Parameter(1));
	HBufC* paramFilePath   = ObtainParameterReferenceL<HBufC>(TestCase(),ActionParameters().Parameter(2));
	HBufC8* paramMimeType = ObtainParameterReferenceL<HBufC8>(TestCase(),ActionParameters().Parameter(3));

	CMsvEntry* entry = paramSession->GetEntryL(messageEntry);
	CleanupStack::PushL(entry);
	
	CImEmailMessage* emailMsg = CImEmailMessage::NewL(*entry);
	CleanupStack::PushL(emailMsg);
	
	CMtfAsyncWaiter* waiter = CMtfAsyncWaiter::NewL();
	CleanupStack::PushL(waiter);
	
	CMsvAttachment* attachment = CMsvAttachment::NewL(CMsvAttachment::EMsvLinkedFile);
	CleanupStack::PushL(attachment);
	
	attachment->SetMimeTypeL(*paramMimeType);
	
	TParse fileNameParser;
	User::LeaveIfError(fileNameParser.Set(*paramFilePath, NULL, NULL));
	attachment->SetAttachmentNameL(fileNameParser.NameAndExt());
	
	TEntry fileEntry;
	User::LeaveIfError(paramSession->FileSession().Entry( fileNameParser.FullName(), fileEntry));
	attachment->SetSize(fileEntry.iSize);

	MMsvAttachmentManager& manager = emailMsg->AttachmentManager();
	
	manager.AddLinkedAttachmentL(*paramFilePath, attachment, waiter->iStatus);
	CleanupStack::Pop(attachment); // ownership passed to manager
	waiter->StartAndWait();
	User::LeaveIfError(waiter->Result());
	CleanupStack::PopAndDestroy(waiter);
	
	attachment = NULL;
	
	TInt attachmentCount = manager.AttachmentCount();
	attachment = manager.GetAttachmentInfoL(attachmentCount - 1);
	CleanupStack::PushL(attachment);
	
	TMsvAttachmentId attachmentId = attachment->Id();
	
	CleanupStack::PopAndDestroy(attachment);
	
	CleanupStack::PopAndDestroy(2, entry); // emailMsg, entry
	
	StoreParameterL<TMsvAttachmentId>(TestCase(),attachmentId,ActionParameters().Parameter(4));
	}
Ejemplo n.º 5
0
LOCAL_C void TestReadOnlyDeletionL()
	{
	CDummyObserver* ob = new(ELeave)CDummyObserver;
	CleanupStack::PushL(ob);

	CMsvSession* session = CMsvSession::OpenSyncL(*ob);
	CleanupStack::PushL(session);

	CMsvEntry* cEntry = CMsvEntry::NewL(*session, KMsvDraftEntryId, TMsvSelectionOrdering());
	CleanupStack::PushL(cEntry);

	// Create an entry
	TMsvEntry entry;
	entry.iType = KUidMsvMessageEntry;
	entry.iMtm = KUidMsvLocalServiceMtm;
	entry.iServiceId = KMsvLocalServiceIndexEntryId;
	cEntry->CreateL(entry);

	// Generate name of attachment
	cEntry->SetEntryL(entry.Id());
	TFileName fileName;

	fileName.Append(_L("Test"));
	CMsvStore* store = cEntry->EditStoreL();
	CleanupStack::PushL(store);

	CAsyncWaiter* waiter = CAsyncWaiter::NewL();
	CleanupStack::PushL(waiter);
	CMsvAttachment* attachment = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
	CleanupStack::PushL(attachment);
	fileName.Append(_L("Test"));
	attachment->SetAttachmentNameL(fileName);
	RFile file;
	store->AttachmentManagerL().CreateAttachmentL(fileName, file, attachment, waiter->iStatus);
	CleanupStack::Pop(attachment); // ownership passed
	waiter->StartAndWait();
	User::LeaveIfError(waiter->Result());
	CleanupStack::PopAndDestroy(waiter);
	
	CleanupClosePushL(file);
	User::LeaveIfError(file.Write(_L8("some text")));
	User::LeaveIfError(file.SetAtt(KEntryAttReadOnly, KEntryAttNormal));
	CleanupStack::PopAndDestroy(2, store); // file, store

	// Now try and delete the file
	cEntry->SetEntryL(entry.Parent());
	cEntry->DeleteL(entry.Id());

	CleanupStack::PopAndDestroy(3); // cEntry, session, ob
	}
Ejemplo n.º 6
0
EXPORT_C void CSmtpClientMtm::AddLinkedAttachmentL(const TDesC& aFilePath, const TDesC8& aMimeType, TUint aCharset, TRequestStatus& aStatus)
	{
	__ASSERT_DEBUG(iMsvEntry->Entry().iType.iUid==KUidMsvMessageEntryValue, gPanic(ESmtcMTMNotAMessageEntry));

	if( iAttachmentWaiter == NULL )
		{
		iAttachmentWaiter = CImAttachmentWaiter::NewL();
		}

	if (iEmailMessage == NULL)
		{		
		iEmailMessage = CImEmailMessage::NewL(*iMsvEntry);
		}
	else if (iEmailMessage->EmailEntryId() != iMsvEntry->EntryId())
		{
		delete iEmailMessage;
		iEmailMessage = NULL;
		iEmailMessage = CImEmailMessage::NewL(*iMsvEntry);
		}
	
	CMsvAttachment* attachmentInfo = CMsvAttachment::NewL(CMsvAttachment::EMsvLinkedFile);
	CleanupStack::PushL(attachmentInfo);
	
	attachmentInfo->SetMimeTypeL(aMimeType);
	
	TParse fileNameParser;
	User::LeaveIfError(fileNameParser.Set(aFilePath, NULL, NULL));
	attachmentInfo->SetAttachmentNameL(fileNameParser.NameAndExt());

	if( aCharset!=0 )
		{
		CMsvMimeHeaders* headers = CMsvMimeHeaders::NewLC();
		headers->SetMimeCharset(aCharset);
		headers->StoreL(*attachmentInfo);
		CleanupStack::PopAndDestroy(headers);
		}
	
	iEmailMessage->AttachmentManager().AddLinkedAttachmentL(aFilePath, attachmentInfo, iAttachmentWaiter->iStatus);
	CleanupStack::Pop(attachmentInfo);// ownership passed to attachment manager	

	iAttachmentWaiter->StartWaitingL(aStatus, iEmailMessage, EFalse);
	}
Ejemplo n.º 7
0
//
//  StoreL() - Store bookmarks as an attachment file 
//	in the .eBM format. If the system runs out of memory while
//  the bookmarks are being written to the file, the file will be
//	deleted. For example, if 2 bookmarks have already been written
//	to the file, and the writing of the third bookmark fails, the
//	file will be deleted. Otherwise, a failure of file writing would
//	need to be handled differently from memory allocation failure.
//
void CWWWHotlistParser::StoreL(CMsvEntry& aEntry)
{
	TInt numberOfItems = iHotlistItemList->Count();
	
	if (numberOfItems>0)  // Only create a file if there is something to save!
	{

		// Generate fileName from msgId and bookmark file extension.
		// The file name consists of the msgId in hex format 
		// followed by .eBM. Sizeof operator returns the size of msgId
		// in bytes and each byte requires 2 hex digits to represent it,
		// hence sizeof is multipled by 2. Didn't want to make
		// fileNameLength constant because the size of TMsvId may change
		// in the future.

		TMsvId entryId = aEntry.Entry().Id();

		TInt fileNameLength = 2*sizeof(entryId) + 
				KEBookmarkExtension().Length();

		HBufC *fileName = HBufC::NewLC(fileNameLength);
			
		TPtr fileNameDes = fileName->Des();

		// The file name uses the hex representation of the entry Id.
		// If this changes to some other representation then
		// fileNameLength will need to be calculated differently.

		fileNameDes.Num(entryId,EHex);
			
		fileNameDes.Append(KEBookmarkExtension);

		// Get the attachment manager and create an empty attachment file
		CMsvStore* store = aEntry.EditStoreL();
		CleanupStack::PushL(store);
		
		MMsvAttachmentManagerSync& managerSync = store->AttachmentManagerExtensionsL();
		CMsvAttachment* attachment = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
		CleanupStack::PushL(attachment);
		attachment->SetAttachmentNameL(*fileName);
		RFile file;
		managerSync.CreateAttachmentL(*fileName, file, attachment);
		CleanupStack::Pop(attachment); // ownership passed
		CleanupClosePushL(file);

#ifdef SYMBIAN_BOOKMARK_DATABASE
		// Open the bookmark database ready to add the bookmarks
		RBkDatabase bookmarkDb;
		bookmarkDb.OpenL();
		CleanupClosePushL(bookmarkDb);
#endif // SYMBIAN_BOOKMARK_DATABASE

		// Stream each bookmark into the file.
		// The eBookmark file must contain only 8bit ascii.
		// Add a linefeed to the end of each line.
			
		for(TInt count=0; count < numberOfItems; count++)
			{
			CWWWHotlistItem &item = *iHotlistItemList->At(count);
			
			// Allocate enough space to hold the full bookmark entry.

			TInt length =	item.Name().Length() + 
							item.Url().Length()  + 
							KEBookmarkConstantChars;
			
			HBufC8 *writeBuf = HBufC8::NewLC(length);
			
			TPtr8 des = writeBuf->Des();

			des.Append(KEBookmarkItemBegin);
			des.Append(KEBookmarkItemURL);
			des.Append(item.Url());
			des.Append(KCRLinefeed);
			des.Append(KEBookmarkItemName);
			des.Append(item.Name());
			des.Append(KCRLinefeed);
			des.Append(KEBookmarkType);
			des.Append(KEBookmarkItemEnd);

			User::LeaveIfError(file.Write(des));
			
			CleanupStack::PopAndDestroy();
			
#ifdef SYMBIAN_BOOKMARK_DATABASE
			// Add the bookmark to the bookmark database
			RBkBookmark bookmark = bookmarkDb.CreateBookmarkL();
			CleanupClosePushL(bookmark);
			bookmark.SetTitleL(item.Name());
			// Convert Uri to 8-bit
			HBufC8* bookmarkUri = HBufC8::NewLC(item.Url().Length());
			bookmarkUri->Des().Copy(item.Url());
			bookmark.SetUriL(*bookmarkUri);
			CleanupStack::PopAndDestroy(2, &bookmark); // bookmarkUri, bookmark
#endif // SYMBIAN_BOOKMARK_DATABASE
			}
			
#ifdef SYMBIAN_BOOKMARK_DATABASE			
		// Commit all the added bookmarks and close bookmark db
		bookmarkDb.CommitL();
		CleanupStack::PopAndDestroy(&bookmarkDb);
#endif // SYMBIAN_BOOKMARK_DATABASE

		// File writing has completed, set the size in the attachment
		TInt fileSize = 0;
		User::LeaveIfError(file.Size(fileSize));
		attachment->SetSize(fileSize);
		
		// commit the changes
		store->CommitL();
		CleanupStack::PopAndDestroy(3, fileName); // file, store, fileName
	}
}
// ---------------------------------------------------------
// CMmsAttachmentHandler::CreateUTF8TextAttachmentFromFileL
// ---------------------------------------------------------
EXPORT_C void CMmsAttachmentHandler::CreateUTF8TextAttachmentFromFileL(
    CMsvStore& aStore,
    TMsvAttachmentId& aAttachmentId,
    RFile& aFile,
    RFs& aFs,
    TDriveUnit aMessageDrive )
    {
    
    _LIT8 ( KMmsCrLf8, "\x00D\x00A" ); // 8 bit line feed
    TInt size = 0;
    TInt error = KErrNone;
    error = aFile.Size( size );
    
    User::LeaveIfError( error ); // if can't get file size, we are in trouble

    TFileName* filename = new( ELeave ) TFileName;
    CleanupStack::PushL( filename );
    
    // 256 characters for each read
    HBufC* textBuffer = HBufC::NewL( KMmsTextBufferSize );
    CleanupStack::PushL( textBuffer );
    TPtr textPtr = textBuffer->Des();

    HBufC8* buffer = HBufC8::NewL( KMmsTextBufferSize * KMmsMaxBytesPerCharacter ); // paranoid.
    TInt fileSize = 0; // we don't know how big the file will be after conversion
    CleanupStack::PushL( buffer );
    TPtr8 buf8 = buffer->Des();

    CMsvMimeHeaders* mimeHeaders = CMsvMimeHeaders::NewL();
    CleanupStack::PushL( mimeHeaders );

    // attaInfo must be on top of stack because the ownership will be transferred
    // to attacment manager.    
    CMsvAttachment* attaInfo = CMsvAttachment::NewL( CMsvAttachment::EMsvFile );
    CleanupStack::PushL( attaInfo );
    
    TPtrC8 contentType;
    contentType.Set( KMmsTextPlain );
    
    TInt position = contentType.Find( KMmsSlash8 );
    mimeHeaders->SetContentTypeL( contentType.Left( position ) );
    mimeHeaders->SetContentSubTypeL( contentType.Mid( position + 1 ) );
    attaInfo->SetMimeTypeL( contentType );
    
    filename->Copy( TPtrC() );
  	aFile.Name( *filename ); // if this returns error, filename should be empty - no suggestion.
    attaInfo->SetAttachmentNameL( *filename );
    mimeHeaders->SetSuggestedFilenameL( *filename );
    mimeHeaders->SetMimeCharset( KMmsUtf8 );
    
    if ( TMmsGenUtils::DiskSpaceBelowCriticalLevelL( 
        &aFs,
        size * KMmsUnicodeToUtf2MaxIncrease + mimeHeaders->Size() + KMmsIndexEntryExtra,
        aMessageDrive ) )
        {
        // we use standard error code here
        User::Leave( KErrDiskFull );
        }
       
    mimeHeaders->StoreL( *attaInfo ); // Mime headers are streamed into atta info

    MMsvAttachmentManagerSync& attaManSync = aStore.AttachmentManagerExtensionsL();
    
    RFile attaFile;
    attaManSync.CreateAttachmentL( *filename, attaFile, attaInfo );
    CleanupStack::Pop( attaInfo ); // attaInfo ownership was transferred.
    aAttachmentId = attaInfo->Id();

    // Now our file handle is open for writing
    
    error = KErrNone;
    TMmsFileText textFile;
    textFile.Set( aFile );

    while ( error == KErrNone || error == KErrTooBig )
        {
        error = textFile.Read( textPtr );
        TBool appendCRLF = ETrue;
        if ( error == KErrTooBig )
            {
            appendCRLF = EFalse;
            error = KErrNone;
            }
        if ( error != KErrEof )
            {
            // if conversion fails, something is really seriously wrong
            error = CnvUtfConverter::ConvertFromUnicodeToUtf8( buf8, textPtr );
            }
        if ( error == KErrNone )
            {
            error = attaFile.Write( buf8 );
            if ( error == KErrNone )
                {
                fileSize += buf8.Length();
                if ( appendCRLF )
                    {
                    error = attaFile.Write( KMmsCrLf8 );
                    fileSize += KMmsLengthOfCRlf; // add length of carriage return/line feed
                    }
                }
            }
        }
        
    if ( error == KErrEof )
        {
        // end of file has been reached successfully
        error = KErrNone;
        }

    if ( error == KErrNone )
        {
        error = attaFile.Flush();
        }
    attaFile.Close();
    
    if ( error != KErrNone )
        {
        // Something went wrong when we tried to write our data.
        // We must delete the attachment as it does not contain the
        // intended data.
        RemoveAttachmentL( aAttachmentId, aStore );
        aAttachmentId = 0;
        }
    else
        {
        // If data writing was successful, the amount of data written
        // is now stored in fileSize.
        // Attachment info structure must be updated
        MMsvAttachmentManager& attaMan = aStore.AttachmentManagerL();
        attaInfo = attaMan.GetAttachmentInfoL( aAttachmentId );
        CleanupStack::PushL( attaInfo );
        attaInfo->SetSize( fileSize );
        attaManSync.ModifyAttachmentInfoL( attaInfo );
        // attachment manager now owns the attachment info
        CleanupStack::Pop( attaInfo ); // attaInfo
        }
        
    CleanupStack::PopAndDestroy( mimeHeaders );
    CleanupStack::PopAndDestroy( buffer );
    CleanupStack::PopAndDestroy( textBuffer );
    CleanupStack::PopAndDestroy( filename );
    
    User::LeaveIfError( error );
    
    }
// ---------------------------------------------------------
// CMmsAttachmentHandler::CreateTextAttachmentL
// ---------------------------------------------------------
EXPORT_C void CMmsAttachmentHandler::CreateTextAttachmentL(
    CMsvStore& aStore,
    TMsvAttachmentId& aAttachmentId,
    const TDesC& aText,
    const TDesC& aFile,
    RFs& aFs,
    TDriveUnit aMessageDrive,
    TBool aConvertParagraphSeparator /*= ETrue*/ )
    {
    
    HBufC* convertedText = NULL;
    TPtrC text;
    
    if ( aConvertParagraphSeparator )
        {
        convertedText = CMsgTextUtils::ConvertParagraphSeparatorsLC( aText );
        text.Set( convertedText->Des() );
        }
    else
        {
        text.Set( aText );
        }
    
    const TInt KMmsMaxBytesPerCharacter = 4;    
	// coverity[incorrect_multiplication][buffer_alloc]
    HBufC8* buffer = HBufC8::NewL( text.Length() * KMmsMaxBytesPerCharacter ); // paranoid.
    CleanupStack::PushL( buffer );
    TPtr8 buf8 = buffer->Des();

    CMsvMimeHeaders* mimeHeaders = CMsvMimeHeaders::NewL();
    CleanupStack::PushL( mimeHeaders );

    // attaInfo must be on top of stack because the ownership will be transferred
    // to attacment manager.    
    CMsvAttachment* attaInfo = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
    CleanupStack::PushL( attaInfo );
    
    TPtrC8 contentType;
    contentType.Set( KMmsTextPlain );
    
    TInt position = contentType.Find( KMmsSlash8 );
    mimeHeaders->SetContentTypeL( contentType.Left( position ) );
    mimeHeaders->SetContentSubTypeL( contentType.Mid( position + 1 ) );
    attaInfo->SetMimeTypeL( contentType );
    attaInfo->SetAttachmentNameL( aFile );
    
    mimeHeaders->SetMimeCharset( KMmsUtf8 );
    mimeHeaders->SetSuggestedFilenameL( aFile );
    
    // if conversion fails, something is really seriously wrong
    TInt error = CnvUtfConverter::ConvertFromUnicodeToUtf8( buf8, text );
  
    if ( TMmsGenUtils::DiskSpaceBelowCriticalLevelL( 
        &aFs,
        buf8.Length() + mimeHeaders->Size() + KMmsIndexEntryExtra,
        aMessageDrive ) )
        {
        // we use standard error code here
        User::Leave( KErrDiskFull );
        }
    else
        {
        User::LeaveIfError( error );    
        }
        
    attaInfo->SetSize( buf8.Length() );
    mimeHeaders->StoreL( *attaInfo ); // Mime headers are streamed into atta info

    MMsvAttachmentManagerSync& attaManSync = aStore.AttachmentManagerExtensionsL();
    
    RFile attaFile;
    attaManSync.CreateAttachmentL( aFile, attaFile, attaInfo );
    CleanupStack::Pop( attaInfo ); // attaInfo ownership was transferred.
    aAttachmentId = attaInfo->Id();

    // Now our file handle is open for writing
    
    if ( buf8.Length() > 0 )
        {
        attaFile.Write( buf8 );
        error = attaFile.Flush();
        }
    attaFile.Close();
    
    if ( error != KErrNone )
        {
        // Something went wrong when we tried to write our data.
        // We must delete the attachment as it does not contain the
        // intended data.
        RemoveAttachmentL( aAttachmentId, aStore );
        aAttachmentId = 0;
        }

    CleanupStack::PopAndDestroy( mimeHeaders );
    CleanupStack::PopAndDestroy( buffer );
    
    if ( convertedText )
        {
        CleanupStack::PopAndDestroy( convertedText );
        convertedText = NULL;
        }
        
    User::LeaveIfError( error );    
        
    }
LOCAL_C void CreateNewPlaintextMessageL()
	{
	CTestActive* testActive = new(ELeave) CTestActive();
	CleanupStack::PushL(testActive);
	TMsvEmailTypeList msvEmailTypeList = 0;
	TMsvPartList partList = (KMsvMessagePartBody | KMsvMessagePartAttachments);
	CImEmailOperation* emailOperation = CImEmailOperation::CreateNewL(testActive->iStatus, *(testUtils->iMsvSession),KMsvGlobalOutBoxIndexEntryId, partList, msvEmailTypeList, KUidMsgTypeSMTP);
	CleanupStack::PushL(emailOperation);
	TestMsvOperationTimer* testMsvOperationTimer = TestMsvOperationTimer::NewLC(test.Console(), emailOperation, test);
	testActive->StartL();
	testMsvOperationTimer->IssueRequest();
	CActiveScheduler::Start();
	//check progress
	TMsvId temp;
	TPckgC<TMsvId> paramPack(temp);
	const TDesC8& progBuf = emailOperation->ProgressL();
	paramPack.Set(progBuf);
	TMsvId newMessageId;
	newMessageId = paramPack();
	test(newMessageId != NULL);
	CImEmailMessage* imEmailMessage = CImEmailMessage::NewLC(*(testUtils->iMsvEntry));
	// Make sure you are set on the Message Id
	testUtils->iMsvEntry->SetEntryL(newMessageId);
	CMsvAttachment* attachmentInfo = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
	CleanupStack::PushL(attachmentInfo);
	attachmentInfo->SetAttachmentNameL(KAttachmentFileName1());
	CleanupStack::Pop(attachmentInfo);	 // ownership passed to attachment manager
	imEmailMessage->AttachmentManager().AddAttachmentL(KAttachment1, attachmentInfo, testActive->iStatus);
	testActive->StartL();
	CActiveScheduler::Start();	// wait for the asynch operation to complete
	if (testActive->iStatus.Int())
		{
		testUtils->WriteComment(_L("CreateNewPlaintextMessageWithIncompleteAttachmentL failed"));
		testUtils->TestHarnessFailed(testActive->iStatus.Int());
		}
	testUtils->iMsvEntry->SetEntryL(newMessageId);
	CMsvAttachment* attachmentInfo1 = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
	CleanupStack::PushL(attachmentInfo1);
	attachmentInfo1->SetAttachmentNameL(KAttachmentFileName2());
    CleanupStack::Pop(attachmentInfo1);	 // ownership passed to attachment manager
	imEmailMessage->AttachmentManager().AddAttachmentL(KAttachment2, attachmentInfo1, testActive->iStatus);
	testActive->StartL();
	CActiveScheduler::Start();	// wait for the asynch operation to complete
	if (testActive->iStatus.Int())
		{
		testUtils->WriteComment(_L("CreateNewPlaintextMessageWithIncompleteAttachmentL failed"));
		testUtils->TestHarnessFailed(testActive->iStatus.Int());
		}
	testUtils->iMsvEntry->SetEntryL(newMessageId);
	CMsvAttachment* attachmentInfo2 = CMsvAttachment::NewL(CMsvAttachment::EMsvFile);
	CleanupStack::PushL(attachmentInfo2);
	attachmentInfo2->SetAttachmentNameL(KAttachmentFileName3());
    CleanupStack::Pop(attachmentInfo2);	 // ownership passed to attachment manager
	imEmailMessage->AttachmentManager().AddAttachmentL(KAttachment3, attachmentInfo2, testActive->iStatus);
	testActive->StartL();
	CActiveScheduler::Start();	// wait for the asynch operation to complete
	if (testActive->iStatus.Int())
		{
		testUtils->WriteComment(_L("CreateNewPlaintextMessageWithIncompleteAttachmentL failed"));
		testUtils->TestHarnessFailed(testActive->iStatus.Int());
		}	
	const TDesC8& progBuf2 = imEmailMessage->ProgressL();	
	paramPack.Set(progBuf2);
	TMsvId attachmentId = paramPack();
	testUtils->WriteComment(_L("\t Created New plaintext message"));
	testUtils->iMsvEntry->SetEntryL(attachmentId);
	
    imEmailMessage->GetAttachmentsListL(testActive->iStatus, newMessageId, CImEmailMessage::EAllAttachments, CImEmailMessage::EThisMessageOnly);	
  	testActive->StartL();
	CActiveScheduler::Start();	// wait for the asynch operation to complete
    const CMsvEntrySelection& selection = imEmailMessage->Selection();
	testUtils->Printf(KTotalNoOfAttachment , selection.Count());
	imEmailMessage->GetBodyTextEntryIdL(testActive->iStatus,newMessageId,CImEmailMessage::EThisMessageOnly);
	testActive->StartL();
	CActiveScheduler::Start();	// wait for the asynch operation to complete
	const CMsvEntrySelection& selection1 = imEmailMessage->Selection();
	TInt count = imEmailMessage->Selection().Count();
    if( count > 0)
			{
			// Get the Id of the body text
			// The body text part Id is present at index 0.  Not checking for other
			//  Ids, as currently only Plain text part is verified.
			TMsvId	iBodyTextId = imEmailMessage->Selection().At(0);
			testUtils->Printf(KBodytextId, iBodyTextId);
			}
	CleanupStack::PopAndDestroy(); // imEmailMessage  
		testUtils->iMsvEntry->SetEntryL(attachmentId);
    CMsvStore* store1 = testUtils->iMsvEntry->EditStoreL();
	CleanupStack::PushL(store1);
	CImMimeHeader *Head1 = CImMimeHeader::NewLC();
    Head1->RestoreL(*store1);
	const TPtrC8 contentSubType = Head1->ContentSubType();
	store1->CommitL();
    
    if(contentSubType.Size() == 0 )
    {
    testUtils->Printf(_L("ContentSubType Has NO SUB CONTENT****") );
    test(contentSubType.Size() != 0);
    }
    else
    {
    testUtils->Printf(_L("ContentSubType Has ****SUB CONTENT****"));	
    }
   	CleanupStack::PopAndDestroy(2, store1);//store1,Head1,Buffer
    testUtils->iMsvEntry->SetEntryL(newMessageId);
    CMsvStore* store = testUtils->iMsvEntry->EditStoreL();
	CleanupStack::PushL(store);
	CImHeader* header = CImHeader::NewLC();
	header->RestoreL(*store);
	TInt serverLength = testUtils->MachineName().Length();
	HBufC* serverad = HBufC::NewL(serverLength + 7 ); // 7 is the length of KServerAddress
	CleanupStack::PushL(serverad);
	serverad->Des().Copy(testUtils->MachineName());
	serverad->Des().Append(KServer);	
    HBufC* emailaddress = HBufC::NewL(serverLength + 8 + serverad->Des().Length() + 1 );
   	CleanupStack::PushL(emailaddress);
   	emailaddress->Des().Copy(testUtils->MachineName());
   	emailaddress->Des().Append(KAt);
   	emailaddress->Des().Append(*serverad);
   	header->ToRecipients().AppendL(*emailaddress);
	header->SetSubjectL(_L("Test sending message using CMsvEntry::CopyL!!"));
	header->StoreL(*store);
	store->CommitL();
	CleanupStack::PopAndDestroy(emailaddress);
	CleanupStack::PopAndDestroy(serverad);
	CleanupStack::PopAndDestroy(5,testActive); // header,store,testMsvOperationTimer,emailOperation,testActive
	
		
	}