Exemplo n.º 1
0
/** Delete entry in directory

*/
LOCAL_C TInt DeleteEntryAccess2(TAny* )
	{
	RFs fs;
	TInt r = fs.Connect();
	TBuf<100> dirfile;
	TBuf<50> filename;
	RFile file;
	RTest test(_L("test 2")); 

	fs.SetSessionPath(gSessionPath);
	filename.Format(KDeleteMe2, gT2);
	
	dirfile = gDelEntryDir2;
	dirfile.Append(filename);
	
	client.Signal();
	
	FOREVER
		{
			if(!gKillMe)
				{
				r = file.Create(fs, dirfile, EFileShareAny|EFileWrite);
				if(r == KErrAlreadyExists) 
					r=file.Open(fs, dirfile, EFileShareAny|EFileWrite);
				file.Close();
				FailIfError(r);
				
				r = fs.Delete(dirfile);
				if((r != KErrNone) && (r != KErrInUse)) 
					{
					test.Printf(_L("error = %d\n"), r);
					}
				test(r == KErrNone || r == KErrInUse);
			}
		}
	}
Exemplo n.º 2
0
TInt CFloggerTest028_Sync_Static_WriteFormatVUni::DoTestCheckWriteL()
	{
	RFile logFile;
	HBufC8* hBuffer;
	TInt listfilesize,returnCode;
	RFs fileSystem; //For file operation create a file system
	TBuf8<KTestMessageSize> testData; //To hold the test descriptor

	User::LeaveIfError(fileSystem.Connect());
	
	//Open the file in the read mode
	User::LeaveIfError(logFile.Open(fileSystem,KFloggerOutputFile,EFileRead));

	CleanupClosePushL(logFile);

	User::LeaveIfError(logFile.Size(listfilesize)); //Size of the file
	
	hBuffer = HBufC8::New(listfilesize); //Allocate the buffer
	CleanupStack::PushL(hBuffer);

	TPtr8 ptrString = hBuffer->Des();  ; //To access the buffer

	// Read from position 0: start of file
	User::LeaveIfError(returnCode = logFile.Read(ptrString));
	
	testData.Copy(KTestMessageOneParamExpected); //Copy the test descriptor
	returnCode = ptrString.Find(testData); //find the test descriptor in the buffer read
											//from the file

	CleanupStack::PopAndDestroy(hBuffer);
	CleanupStack::PopAndDestroy();	//logFile
	if (returnCode > 0)
		return KErrNone;
	else
		return KErrNotFound;
	}
Exemplo n.º 3
0
void CVersitTest::StreamInL()
//Convert the iVersit into stream format, save it as "TTVersitIn"
//and internalize it as a CVersitParser
	{
	RFs fsSession; 
	User::LeaveIfError(fsSession.Connect());
	CFileStore* store = CDirectFileStore::ReplaceLC(fsSession,_L("c:\\TTVersit2"),EFileWrite);
	store->SetTypeL(KDirectFileStoreLayoutUid);
	RStoreWriteStream outstream;
	TStreamId id = outstream.CreateLC(*store);
	TInt length=iVersit.Length();
	for (TInt ii=0; ii<length; ii++)
		outstream.WriteInt8L(iVersit[ii]);
	outstream.CommitL();
	CleanupStack::PopAndDestroy();
	store->SetRootL(id);
	store->CommitL();
	CleanupStack::PopAndDestroy();
	store = CDirectFileStore::OpenLC(fsSession,_L("c:\\TTVersit2"),EFileRead); //retrieve stream
	RStoreReadStream instream;
	instream.OpenLC(*store,store->Root());
	iParser->InternalizeL(instream);
	CleanupStack::PopAndDestroy(2); //store + stream
	}
void CCentRepToolSession::PerformRFSL()
{
	RDEBUG("CentRepToolSession: Restore factory setting operation started");
	//RFS tasks in centrep tool
	// 1. restory setting enforcements
	// 2. remove backup and temp files from private directory
	
	
	//clean private directory
	RFs rfs;
	TInt err = rfs.Connect();
	if( err != KErrNone )
		{
		RDEBUG_2("**** CCentRepToolSession::PerformRFSL() - failed to connect to RFs: %d", err );
		return;
		}
		
	CleanupClosePushL( rfs);
	
	TBuf<100> privatePath;
	err = rfs.PrivatePath( privatePath);
	
	if ( err == KErrNone)
	{
		//remove files from private directory, also backups
		CFileMan* file = CFileMan::NewL( rfs);
		
		privatePath.Append(_L("*.*"));
		err = file->Delete( privatePath, CFileMan::ERecurse);
		delete file;
	}
	
	CleanupStack::PopAndDestroy( &rfs);	
	
	RDEBUG("CentRepToolSession: Restore factory setting operation finished");
}
// -----------------------------------------------------------------------------
// 
// -----------------------------------------------------------------------------
//
TInt CPhoneRingingTone::CheckToneFileSize( const TDesC& aFile, 
                                           TInt aSizeLimitKB )
    {
    __LOGMETHODSTARTEND( EPhoneControl, "CPhoneRingingtone::CheckToneFileSize()" );
    //return KErrNone;
    
    // Get file size
    TInt size = 0;

    RFs fs;   
    TInt error = fs.Connect();
    TEntry entry;
    if ( KErrNone == error )
        {
        if (KErrNone == fs.Entry( aFile, entry ))
            {
            size = entry.iSize;
            }    
            
        // Check
        aSizeLimitKB *= Kkilo;
        if ( aSizeLimitKB  &&  size > aSizeLimitKB )
            {
            error = KErrTooBig;
            }
        }

    fs.Close();
    __PHONELOG1( 
        EBasic,
        EPhoneControl, 
        "CPhoneRingingtonePlayer::CheckToneFileSize - size (%d)",
        size );    
    return error;
   
    }
Exemplo n.º 6
0
/**
@SYMTestCaseID 		 		SYSLIB-XML-CT-3738
@SYMTestCaseDesc		    Parser copes with leaving content handler.
@SYMTestPriority 		    Medium
@SYMTestActions  		    Checks that the parser copes with a leave from a content handler callback.
@SYMTestExpectedResults 	Tests pass.
@SYMPREQ 		 		 	PREQ230
*/
LOCAL_C void CallbackLeaveTestL()
	{
	TSimpleContentHandler contentHandler;
	contentHandler.iLeaveOnStartElement = ETrue;

	CParser* parser = CParser::NewLC(KParserDataType, contentHandler);

	RFs fs;
	User::LeaveIfError(fs.Connect());
	CleanupClosePushL(fs);

	TRAPD(err, ParseL(*parser, fs, KSimpleTestFile()));

	User::LeaveIfError(err); // For OOM testing

	test(contentHandler.iNumElements==1);
	test(err==TSimpleContentHandler::KExpectedLeaveCode);

	contentHandler.iLeaveOnStartElement = EFalse;
	ParseL(*parser, fs, KSimpleTestFile());
	test(contentHandler.iNumElements==6);

	CleanupStack::PopAndDestroy(2);
	}
static void DeleteTestDirL()
	{
	RFs fsSession;
	TInt err = fsSession.Connect();
	if(err == KErrNone)
		{
		CleanupClosePushL(fsSession);
		RDebug::Print(_L("Deleting \"%S\" directory.\n"), &KOpaqueDirectory);
		CFileMan* fileMan = CFileMan::NewL(fsSession);
		CleanupStack::PushL(fileMan);
		TInt err = fileMan->RmDir(KOpaqueDirectory);
		if(err == KErrPathNotFound)
			{
			err = KErrNone;
			}
		User::LeaveIfError(err);
		CleanupStack::PopAndDestroy(fileMan);
		CleanupStack::PopAndDestroy(&fsSession);
		}
	else
		{
		RDebug::Print(_L("Error %d connecting file session. Directory: %S.\n"), err, &KOpaqueDirectory);
		}
	}
Exemplo n.º 8
0
void CDummyUsbDevice::OpenFileL()
	{
	RFs fs;
	User::LeaveIfError(fs.Connect());
	CleanupClosePushL(fs);

	TFindFile ff(fs);
	User::LeaveIfError(ff.FindByDir(_L("\\system\\data\\t_charging.txt"),KNullDesC));
	
	RFile file;
	TInt size;
	User::LeaveIfError(file.Open(fs,ff.File(),EFileStreamText|EFileRead|EFileShareReadersOnly));
	CleanupClosePushL(file);
	
	User::LeaveIfError(file.Size(size));

	iText = REINTERPRET_CAST(TText8*, User::AllocL(size));
	iPtr.Set(iText, size/sizeof(TText8), size/sizeof(TText8));
	TPtr8 dest(REINTERPRET_CAST(TUint8*,iText), 0, size);
	User::LeaveIfError(file.Read(dest)); 

	CleanupStack::PopAndDestroy(); // file
	CleanupStack::PopAndDestroy(); // fs
	}
Exemplo n.º 9
0
EXPORT_C HBufC8* TcLog::ReadLogLC()
	{
	RFs fs;
	if( fs.Connect() != KErrNone )
		{
		return NULL;
		}

	RFile in;
	if( !in.Open( fs, KLogFile, EFileRead | EFileShareAny ) )
		{
		TInt fileSize( 0 );
		in.Size( fileSize );
		HBufC8* logText = HBufC8::NewLC( fileSize );
		TPtr8 logTextPtr( logText->Des() );
		in.Read( logTextPtr );
		in.Close();
		fs.Close();
		return logText;
		}

	fs.Close();
	return NULL;
	}
Exemplo n.º 10
0
/*Way to Find AppPrivatePath (A Path where an application can store its private data) */
static TInt GetPrivatePath(TFileName& privatePath)
{
    TFileName KPath;
    RFs fsSession;
    TInt result;

    result = fsSession.Connect();
    if (result != KErrNone)
    {
        return result;
    }
    fsSession.PrivatePath(KPath);
    TFindFile findFile(fsSession);

    privatePath = KPath;
    result = findFile.FindByDir(KPath, KNullDesC);
    if (result == KErrNone)
    {
        privatePath = findFile.File();
    }

    fsSession.Close();
    return result;
}
void CDeploymentComponentData::LoadDataL() const
    {

    if (iDataFileName.Length() > 0)
        {
        RFs fs;
        User::LeaveIfError(fs.Connect() );
        CleanupClosePushL(fs); // 1
        RFile file;
        TFileName fileName;
        fileName.Copy(iDataFileName);
        TInt err(file.Open(fs, fileName, EFileRead) );
        if (err == KErrNone)
            {
            CleanupClosePushL(file); // 2
            TInt fsize;
            User::LeaveIfError(file.Size(fsize) );
            iData = HBufC8::NewL(fsize);
            TPtr8 ptr(iData->Des() );
            User::LeaveIfError(file.Read(ptr) );
            CleanupStack::PopAndDestroy( &file);
            }
        else
            {
            RDEBUG_3( "ERROR Leaving CDeploymentComponentData::Data - SEVERE Could not open data file '%S': %d!",
                    &fileName, err );
            User::Leave(KErrNotFound) ;
            }
        CleanupStack::PopAndDestroy( &fs);
        }
    else
        {
        RDEBUG( "ERROR Leaving CDeploymentComponentData::LoadDataL() - No file to load!" );
        User::Leave(KErrNotFound) ;
        }
    }
TInt CDeploymentComponentData::DataLengthL() const
    {
    TInt ret( 0);
    if (iData == NULL)
        {
        if (iDataFileName.Length() > 0)
            {
            RFs fs;
            User::LeaveIfError(fs.Connect() );
            CleanupClosePushL(fs); // 1
            TEntry entry;
            TFileName fileName;
            fileName.Copy(iDataFileName);
            User::LeaveIfError(fs.Entry(fileName, entry) );
            ret = entry.iSize;
            CleanupStack::PopAndDestroy( &fs);
            }
        }
    else
        {
        ret = iData->Length();
        }
    return ret;
    }
TInt CSimulateMessageServerSession::ReadDataFromFile(RSimMsgDataArray& aArray)
	{
	RFs rfs;
	User::LeaveIfError(rfs.Connect());

	TFileName filename;
//	rfs.PrivatePath(filename);
	filename.Append(iServer.iPath);
	filename.Append(KDataFile);

	RFile file;
	TInt err = file.Open(rfs, filename, EFileRead);

	if (KErrNone != err)
		{
		return err;
		}
	CleanupClosePushL(file);

	//꾸鱗
	TInt size;
	file.Size(size);

	HBufC8* buffer = HBufC8::NewL(size);
	TPtr8 ptr = buffer->Des();
	file.Read(ptr);

	ParseDataBuffer(buffer,aArray);
	
	delete buffer;

	CleanupStack::PopAndDestroy();
	rfs.Close();

	return KErrNone;
	}
Vector<String> PluginDatabase::defaultPluginDirectories()
{
    Vector<String> directories;
    //find the installation drive
    TDriveList drivelist;
    TChar driveLetter;
    RFs fsSession;
    
    if (fsSession.Connect() == KErrNone && fsSession.DriveList(drivelist) == KErrNone) {
        for (TInt driveNumber = EDriveA; driveNumber <= EDriveZ; driveNumber++) {
            if (drivelist[driveNumber] && fsSession.DriveToChar(driveNumber, driveLetter) == KErrNone) {
                QString driveStringValue(QChar((uint)driveLetter.GetUpperCase()));
                QString stubDirPath;
                stubDirPath.append(driveStringValue);
                stubDirPath.append(QT_PLUGIN_FOLDER);
                if (QFileInfo(stubDirPath).exists())
                    directories.append(stubDirPath);
            }
        }
    }

    fsSession.Close();
    return directories;
}
Exemplo n.º 15
0
// ---------------------------------------------------------
// CPosTp56::CreateDatabasesL
//
// (other items were commented in a header).
// ---------------------------------------------------------
//
void CPosTp56::CreateDatabasesL()
    {
    // Paths will need to be changed to the secure dbms path when security is implemented
   
    _LIT(KDefaultDbPath, "c:\\system\\data\\eposlm.ldb");

    _LIT(KDb1Path, "c:\\system\\data\\eposlm1.ldb");
    _LIT(KDb2Path, "c:\\system\\data\\eposlm2.ldb");
    _LIT(KDb3Path, "c:\\system\\data\\eposlm3.ldb");

    CPosLandmarkDatabase* lmd = CPosLandmarkDatabase::OpenL();
    CleanupStack::PushL(lmd);

    if (lmd->IsInitializingNeeded())
        {
        ExecuteAndDeleteLD(lmd->InitializeL()); 
        }
    
    CleanupStack::PopAndDestroy(lmd);  

    RFs fs;
    User::LeaveIfError(fs.Connect());
    CleanupClosePushL(fs);
   
    fs.Delete(KExportFile);

    CFileMan* fileMan = CFileMan::NewL(fs);
    CleanupStack::PushL(fileMan);

    User::LeaveIfError(fileMan->Copy(KDefaultDbPath, KDb1Path, CFileMan::EOverWrite));    
    User::LeaveIfError(fileMan->Copy(KDefaultDbPath, KDb2Path, CFileMan::EOverWrite));    
    User::LeaveIfError(fileMan->Copy(KDefaultDbPath, KDb3Path, CFileMan::EOverWrite));  


    CleanupStack::PopAndDestroy(2, &fs);  
    }
CFbsBitmap* CMobiStegoChooseImgView::loadImageL()
	{
	RFs fs;
	TRequestStatus status;
	CFbsBitmap* bitmap = NULL;
	CImageDecoder* aImageDecoder = NULL;
	User::LeaveIfError(fs.Connect());
	CleanupClosePushL(fs);
	RFbsSession::Connect(fs);
	RFbsSession* rfbs = RFbsSession::GetSession();

	aImageDecoder = CImageDecoder::FileNewL(fs, _L("c:\\Data\\Images\\red.jpg"));
	CleanupStack::PushL(aImageDecoder);
	bitmap = new (ELeave) CFbsBitmap();
	CleanupStack::PushL(bitmap);
	TSize sizeImage = aImageDecoder->FrameInfo().iOverallSizeInPixels;
	TInt aa = KErrCouldNotConnect;//////INDAGA!!!!!!!!!!!!!!!!
	TInt ppp = bitmap->Create(sizeImage,
			aImageDecoder->FrameInfo().iFrameDisplayMode);
	aImageDecoder->Convert(&status, *bitmap);
	CleanupStack::Pop(3);
	return bitmap;

	/*CImageDecoder* iImageDecoder = CImageDecoder::FileNewL( iFs, aFileName );
	 
	 // create the destination bitmap
	 result = new (ELeave) CFbsBitmap();
	 result->Create( iImageDecoder->FrameInfo().iOverallSizeInPixels,
	 iImageDecoder->FrameInfo().iFrameDisplayMode ); 

	 // start conversion to bitmap
	 
	 iImageDecoder->Convert( &iStatus, *result );
	 
	 return result;*/
	}
void CMtfTestActionOpenTempStoreFile::ExecuteActionL()
	{
	TestCase().INFO_PRINTF2(_L("Test Action %S start..."), &KTestActionOpenTempStoreFile);
	// Obtain the input parameters
	TMsvId paramEntryId  = ObtainValueParameterL<TMsvId>(TestCase(),ActionParameters().Parameter(0));

	RFs fs;
	User::LeaveIfError(fs.Connect());
	CleanupClosePushL(fs);
	
	RMsvServerSession serverSession;
	serverSession.Connect(fs);
	CleanupClosePushL(serverSession);

	RFile file;	
	serverSession.OpenTempStoreFileL(paramEntryId,file);
	CleanupClosePushL(file);
	
	_LIT8(KOpenTempStoreFileTestData,"This is a test data for temporary store file"); 
	TInt error = file.Write(0,KOpenTempStoreFileTestData);
	if(error)
		{
		TestCase().ERR_PRINTF2(_L("Error writing to temporary store file , Error = %d"), error);
		TestCase().SetTestStepResult(EFail);
		}
	else
		{
		TestCase().INFO_PRINTF1(_L("Test data successfully written to temporary store file"));	
		}

	// Close the handles 
	CleanupStack::PopAndDestroy(3,&fs);

	TestCase().INFO_PRINTF2(_L("Test Action %S completed."), &KTestActionOpenTempStoreFile);
	TestCase().ActionCompletedL(*this);
	}
TInt E32Main()
	{

	__UHEAP_MARK;
	test.Title();
	test.Start(_L("initialising"));

	CTrapCleanup* c=CTrapCleanup::New();

	// start the loader
	RFs fs;
	test (fs.Connect()==KErrNone);
	fs.Close();

	test (c!=0);
	TRAPD(r,MainL());
	test (r==KErrNone);
	delete c;
	test.End();
	test.Close();
	__UHEAP_MARKEND;

	return KErrNone;
	}
Exemplo n.º 19
0
/**
Test code for INC042690 - Bi-directional MIME types are not supported in Charconv
The bi-directional MIME types only indicate how to treat the layout of the mail,
the actual character conversion should be the same as for the exisiting ISO-8859-6/ISO-8859-8 plugins

@SYMTestCaseID          SYSLIB-CHARCONV-CT-0542
@SYMTestCaseDesc        Tests the Bi-directional MIME
@SYMTestPriority        Medium
@SYMTestActions         Tests for conversions of ISO_8859-6 UID to MIB
@SYMTestExpectedResults Test must not fail
@SYMREQ                 REQ0000
*/
void CT_ISO8859X::testInc042690L()
	{
	INFO_PRINTF1(_L(" @SYMTestCaseID:SYSLIB-CHARCONV-CT-0542 Test for INC042690 "));

	RFs fileServerSession;
	CleanupClosePushL(fileServerSession);
	User::LeaveIfError(fileServerSession.Connect());
	CCnvCharacterSetConverter* characterSetConverter=CCnvCharacterSetConverter::NewLC();

	// check that the character set value of '81' is converted to the ISO_8859-6 UID (0x10008a29)
	test(characterSetConverter->ConvertMibEnumOfCharacterSetToIdentifierL(81,fileServerSession)==KCharacterSetIdentifierIso88596);
	INFO_PRINTF1(_L("\nMIB 81->Char Set ISO_8859-6 UID - OK"));

	// check that the character set value of '82' is converted to the ISO_8859-6 UID (0x10008a29)
	test(characterSetConverter->ConvertMibEnumOfCharacterSetToIdentifierL(82,fileServerSession)==KCharacterSetIdentifierIso88596);
	INFO_PRINTF1(_L("\nMIB 82->Char Set ISO_8859-6 UID - OK"));

	// check that the character set value of '84' is converted to the ISO_8859-8 UID (0x10008a2a)
	test(characterSetConverter->ConvertMibEnumOfCharacterSetToIdentifierL(84,fileServerSession)==KCharacterSetIdentifierIso88598);
	INFO_PRINTF1(_L("\nMIB 84->Char Set ISO_8859-8 UID - OK"));

	// check that the character set value of '85' is converted to the ISO_8859-8 UID (0x10008a2a)
	test(characterSetConverter->ConvertMibEnumOfCharacterSetToIdentifierL(85,fileServerSession)==KCharacterSetIdentifierIso88598);
	INFO_PRINTF1(_L("\nMIB 85->Char Set ISO_8859-8 UID - OK"));

	// check that the ISO_8859-6 UID (0x10008a29) is converted to the character set value of '9'
	test(characterSetConverter->ConvertCharacterSetIdentifierToMibEnumL(KCharacterSetIdentifierIso88596,fileServerSession)==9);
	INFO_PRINTF1(_L("\nChar Set ISO_8859-6 UID->MIB - OK"));

	// check that the ISO_8859-8 UID (0x10008a2a) is converted to the character set value of '11'
	test(characterSetConverter->ConvertCharacterSetIdentifierToMibEnumL(KCharacterSetIdentifierIso88598,fileServerSession)==11);
	INFO_PRINTF1(_L("\nChar Set ISO_8859-8 UID->MIB - OK"));

	INFO_PRINTF1(_L("\nTest for INC042690 complete:\n"));
	CleanupStack::PopAndDestroy(2); // characterSetConverter and fileServerSession
	}
Exemplo n.º 20
0
//////////////////////////////////////////////////////////////////////////////
//
// Application entry point
//
//////////////////////////////////////////////////////////////////////////////
static void RunAppL()
	{

    TInt error = KErrUnknown;

	//RDebug::Print(_L("USBMSAPP: Creating console\n"));
	console = Console::NewL(KTxtApp,TSize(KConsFullScreen,KConsFullScreen));
	CleanupStack::PushL(console);

	console->SetPos(0,2);
	console->Printf(_L("========================================"));

	// Command line: list of drive letters to auto-mount (all if not specified)
	User::CommandLine(mountList);
	mountList.UpperCase();

	CActiveScheduler* sched = new(ELeave) CActiveScheduler;
	CleanupStack::PushL(sched);
	CActiveScheduler::Install(sched);

	fs.Connect();
	CleanupClosePushL(fs);

	_LIT(KMountAllDefault,"(all)");
	console->SetPos(0,3);
	LogPrint(_L("Drives to auto-mount: %S"), (mountList.Length() ? &mountList : &KMountAllDefault));

	// Add MS file system
	error = fs.AddFileSystem(KMsFsy);
	if(error != KErrNone && error != KErrAlreadyExists)
		{
		//RDebug::Print(_L("AddFileSystem failed, err=%d\n"), error);
		User::Leave(error);
		}
	console->SetPos(0,4);
	LogPrint(_L("MSFS file system:\tAdded OK\n"));

	RUsb usb;

	// Load the logical device
	_LIT(KDriverFileName,"EUSBC.LDD");
	error = User::LoadLogicalDevice(KDriverFileName);
	if (error != KErrAlreadyExists)
		User::LeaveIfError(error);

	error = usb.Open(0);
	User::LeaveIfError(error);

	_LIT(KOtgdiLddFilename, "otgdi");
	// Check for OTG support
	TBuf8<KUsbDescSize_Otg> otg_desc;
	error = usb.GetOtgDescriptor(otg_desc);
	if (!(error == KErrNotSupported || error == KErrNone))
		{
		LogPrint(_L("Error %d while fetching OTG descriptor"), error);
		User::Leave(-1);
		return;
		}

	// On an OTG device we have to start the OTG driver, otherwise the Client
	// stack will remain disabled forever.
	if (error == KErrNotSupported)
	{
		CleanupClosePushL(usb);
		User::Leave(-1);
	}

	error = User::LoadLogicalDevice(KOtgdiLddFilename);
	if (error != KErrNone)
		{
		LogPrint(_L("Error %d on loading OTG LDD"), error);
		User::Leave(-1);
		return;
		}

	RUsbOtgDriver iOtgPort;

	error = iOtgPort.Open();
	if (error != KErrNone)
		{
		LogPrint(_L("Error %d on opening OTG port"), error);
		User::Leave(-1);
		return;
		}
	error = iOtgPort.StartStacks();
	if (error != KErrNone)
		{
		LogPrint(_L("Error %d on starting USB stack"), error);
		User::Leave(-1);
		return;
		}

	CleanupClosePushL(usb);

//		RDebug::Print(_L("USBMSAPP: Create active objects\n"));
	CMessageKeyProcessor::NewLC(console);
	CPropertyWatch::NewLC(EUsbMsDriveState_KBytesRead, PropertyHandlers::Read);
	CPropertyWatch::NewLC(EUsbMsDriveState_KBytesWritten, PropertyHandlers::Written);
	CPropertyWatch::NewLC(EUsbMsDriveState_DriveStatus, PropertyHandlers::DriveStatus);
	CPropertyWatch::NewLC(EUsbMsDriveState_MediaError, PropertyHandlers::MediaError);
	CUsbWatch::NewLC(usb);
	CPeriodUpdate::NewLC();

	RUsbMassStorage UsbMs;
	TBuf<8>  t_vendorId(_L("vendor"));
	TBuf<16> t_productId(_L("product"));
	TBuf<4>  t_productRev(_L("1.00"));

	TMassStorageConfig msConfig;
	msConfig.iVendorId.Copy(t_vendorId);
	msConfig.iProductId.Copy(t_productId);
	msConfig.iProductRev.Copy(t_productRev);

//   	console->Printf(_L("Connect to Mass Storage"));
	error = UsbMs.Connect();
	User::LeaveIfError(error);

//   	console->Printf(_L("Start Mass Storage"));
	error = UsbMs.Start(msConfig);
	User::LeaveIfError(error);

	TBuf8<KUsbDescSize_Device> deviceDescriptor;
	error = usb.GetDeviceDescriptor(deviceDescriptor);
	User::LeaveIfError(error);

	const TInt KUsbSpecOffset = 2;
	const TInt KUsbDeviceClassOffset = 4;
	const TInt KUsbVendorIdOffset = 8;
	const TInt KUsbProductIdOffset = 10;
	const TInt KUsbDevReleaseOffset = 12;
	//Change the USB spec number to 2.00
	deviceDescriptor[KUsbSpecOffset]   = 0x00;
	deviceDescriptor[KUsbSpecOffset+1] = 0x02;
	//Change the Device Class, Device SubClass and Device Protocol
	deviceDescriptor[KUsbDeviceClassOffset] = 0x00;
	deviceDescriptor[KUsbDeviceClassOffset+1] = 0x00;
	deviceDescriptor[KUsbDeviceClassOffset+2] = 0x00;
	//Change the device vendor ID (VID) to 0x0E22 (Symbian)
	deviceDescriptor[KUsbVendorIdOffset]   = 0x22;   // little endian
	deviceDescriptor[KUsbVendorIdOffset+1] = 0x0E;
	//Change the device product ID (PID) to 0x1111
	deviceDescriptor[KUsbProductIdOffset]   = 0x12;
	deviceDescriptor[KUsbProductIdOffset+1] = 0x11;
	//Change the device release number to 3.05
	deviceDescriptor[KUsbDevReleaseOffset]   = 0x05;
	deviceDescriptor[KUsbDevReleaseOffset+1] = 0x03;
	error = usb.SetDeviceDescriptor(deviceDescriptor);
	User::LeaveIfError(error);

	// Remove possible Remote-Wakup support in Configuration descriptor,
	// so that we can use the MSC device also easily for Chapter9 testing.
	TBuf8<KUsbDescSize_Config> configDescriptor;
	error = usb.GetConfigurationDescriptor(configDescriptor);
	User::LeaveIfError(error);
	const TInt KConfDesc_AttribOffset = 7;
	configDescriptor[KConfDesc_AttribOffset] &= ~KUsbDevAttr_RemoteWakeup;
	error = usb.SetConfigurationDescriptor(configDescriptor);
	User::LeaveIfError(error);

	_LIT16(productID_L, "Symbian USB Mass Storage Device (Base)");
	TBuf16<KUsbStringDescStringMaxSize / 2> productID(productID_L);
	error = usb.SetProductStringDescriptor(productID);
	User::LeaveIfError(error);

	TRequestStatus enum_status;
	console->SetPos(0,5);
	LogPrint(_L("Re-enumerating...\n"));
	usb.ReEnumerate(enum_status);
	User::LeaveIfError(error);
	console->SetPos(0,5);
	User::WaitForRequest(enum_status);
	if(enum_status.Int() == KErrNone)
		LogPrint(_L("Re-enumeration Done\n"));
	else
		LogPrint(_L("Re-enumeration not successfully done\n"));


    console->SetPos(0,14);
    TBuf<3>password(KDefPwd);
    LogPrint(_L("Password: %S"), &password);

	ShowDriveSelection();

	console->SetPos(0,17);

	_LIT(KMsgTitleB,"Menu: q=quit  d=chg drv\n      m=mount u=unmount\n       l=lock i=lock n=unlock\n      c=clr pwd");


	//RDebug::Print(_L("USBMSAPP: Start CActiveScheduler\n"));

	console->Printf(KMsgTitleB);

	CActiveScheduler::Start();

	error = UsbMs.Stop();
	User::LeaveIfError(error);
	UsbMs.Close();
	error = fs.RemoveFileSystem(KMsFs);
	User::LeaveIfError(error);

	CleanupStack::PopAndDestroy(11);

	iOtgPort.StopStacks();
	iOtgPort.Close();
	error = User::FreeLogicalDevice(RUsbOtgDriver::Name());
	User::LeaveIfError(error);

	error = User::FreeLogicalDevice(_L("USBC"));
	User::LeaveIfError(error);

	}
Exemplo n.º 21
0
EXPORT_C void CSTPreferences::SaveSettingsL()
{
	if (iPreferencesFileName)
	{
		LWRITELN(iLog, _L("Saving settings"));
		RFs fs;
		User::LeaveIfError(fs.Connect());
		CleanupClosePushL(fs);
		
		fs.MkDirAll(*iPreferencesFileName);
		
		RFile file;
		if (file.Replace(fs, *iPreferencesFileName, EFileWrite) == KErrNone)
		{
			LWRITELN(iLog, _L("Settings file replaced"));
			CleanupClosePushL(file);
			
			// DownloadPath
			SaveSettingL(file, KSettingDownloadPath, *iDownloadPath);
			
			// AccessPointName
			SaveSettingL(file, KSettingAccesPointName, *iAccessPointName);
			
			// AccessPointId
			{
				TBuf<16> accesPointId;
				accesPointId.Num(TInt(iAccessPointId));
				SaveSettingL(file, KSettingAccesPointId, accesPointId);	
			}
			
			// Right softkey mode	
			{
				TBuf<16> rsmBuf;
				rsmBuf.Num(TInt(iRightSoftkeyMode));
				SaveSettingL(file, KSettingRightSoftkeyMode, rsmBuf);	
			}
			
			// IncomingPort
			{
				TBuf<16> portBuf;
				portBuf.Num(IncomingPort());
				SaveSettingL(file, KSettingIncomingPort, portBuf);	
			}	
			
			#ifdef EKA2
			// TrackerServicePort
			{
				TBuf<16> trackerBuf;
				trackerBuf.Num(TrackerServicePort());
				SaveSettingL(file, KSettingTrackerServicePort, trackerBuf);	
			}

			// PieceSize
			{
				TBuf<16> pieceBuf;
				pieceBuf.Num(PieceSize());
				SaveSettingL(file, KSettingPieceSize, pieceBuf);	
			}
			
			// DHTEnabled
			{
				if (IsDHTEnabled())
					SaveSettingL(file, KSettingDHTEnabled, _L("1"));	
				else
					SaveSettingL(file, KSettingDHTEnabled, _L("0"));
			}
			#endif
			
			// CloseConnectionAfterDownload
			{
				if (CloseConnectionAfterDownload())
						SaveSettingL(file, KSettingCloseConnectionAfterDownload, _L("1"));	
					else
						SaveSettingL(file, KSettingCloseConnectionAfterDownload, _L("0"));					
			}
			
			// Subpiece size	
			{
				TBuf<16> spsBuf;
				spsBuf.Num(iSubpieceSize);
				SaveSettingL(file, KSettingSubpieceSize, spsBuf);	
			}
				
			// ProxyServicePort
			{
				TBuf<16> servicePortBuf;
				servicePortBuf.Num(iProxyServicePort);
				SaveSettingL(file, KSettingProxyServicePort, servicePortBuf);	
			}
			
			// ProxyConnectionPort
			{
				TBuf<16> connPortBuf;
				connPortBuf.Num(iProxyConnectionPort);
				SaveSettingL(file, KSettingProxyConnectionPort, connPortBuf);	
			}
			
			// ProxyHostName
			SaveSettingL(file, KSettingProxyHostName, ProxyHostName());
			
			// IncomingConnectionsMode
			{
				TBuf<16> icmBuf;
				icmBuf.Num(TInt(iIncomingConnectionsMode));
				SaveSettingL(file, KSettingIncomingConnectionsMode, icmBuf);	
			}
			
			// IsUploadEnabled
			{
				if (iIsUploadEnabled)
					SaveSettingL(file, KSettingUploadEnabled, _L("1"));	
				else
					SaveSettingL(file, KSettingUploadEnabled, _L("0"));
			}
			
			// StartupHashCheck
			{
				if (StartupHashCheck())
					SaveSettingL(file, KSettingStartupHashCheck, _L("1"));	
				else
					SaveSettingL(file, KSettingStartupHashCheck, _L("0"));
			}		

					
			for (TInt i=0; i<iSTorrents->Count(); i++)
				SaveSettingL(file, KSettingSTorrent, (*iSTorrents)[i]);
			
			file.Write(KLit8EndLine);
			CleanupStack::PopAndDestroy(); // file
		}
		else
			LWRITELN(iLog, _L("Failed to replace settings file"));
		
		CleanupStack::PopAndDestroy(); // fs	
	}
}
Exemplo n.º 22
0
EXPORT_C void CSTPreferences::LoadSettingsL()
{
	if (iPreferencesFileName)
	{
		LWRITELN(iLog, _L("Loading settings"));
		RFs fs;
		User::LeaveIfError(fs.Connect());
		CleanupClosePushL(fs);
		
		RFile file;
		if (file.Open(fs, *iPreferencesFileName, EFileRead|EFileShareReadersOnly) == KErrNone)
		{
			LWRITELN(iLog, _L("Settings file opened"));
			CleanupClosePushL(file);
			TBuf8<KMaxSettingNameLength> settingName;
			TInt settingLength;
			
			while (ReadSettingName(file, settingName, settingLength))
			{			
				if (settingName == KSettingDownloadPath)
				{
					HBufC* downloadPath = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
					
					if (downloadPath)
					{
						delete iDownloadPath;
						iDownloadPath = downloadPath;
					}
				}
				else
				
				if (settingName == KSettingAccesPointId)
				{
					HBufC* iapIdBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
					
					if (iapIdBuf)
					{
						TLex lex(*iapIdBuf);
						lex.Mark();
						
						TInt iapId = 0;
						if (lex.Val(iapId) == KErrNone)
							iAccessPointId = iapId;
					}
					
					delete iapIdBuf;
				}
				else
				
				if (settingName == KSettingAccesPointName)
				{
					HBufC* iapName = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
					
					if (iapName)
					{
						delete iAccessPointName;
						iAccessPointName = iapName;
					}
				}
				else
				
				if (settingName == KSettingRightSoftkeyMode)
				{
					HBufC* rsmBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
					
					if (rsmBuf)
					{
						TLex lex(*rsmBuf);
						lex.Mark();
						
						TInt rsm = 0;
						if (lex.Val(rsm) == KErrNone)
							SetRightSoftkeyMode(TSTSoftkeyMode(rsm));
					}
					
					delete rsmBuf;
				}
				else
				
				if (settingName == KSettingSTorrent)
				{
					HBufC* sTorrent = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
					CleanupStack::PushL(sTorrent);
					
					if (sTorrent)
						iSTorrents->AppendL(*sTorrent);
					
					CleanupStack::PopAndDestroy(); // sTorrent
				}
				
				else
					if (settingName == KSettingProxyServicePort)
					{
						HBufC* servicePortBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (servicePortBuf)
						{
							TLex lex(*servicePortBuf);
							lex.Mark();
							
							TInt servicePort = 0;
							if (lex.Val(servicePort) == KErrNone)
								SetProxyServicePort(servicePort);
						}
						
						delete servicePortBuf;
					}
					else
					
					if (settingName == KSettingProxyConnectionPort)
					{
						HBufC* connPortBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (connPortBuf)
						{
							TLex lex(*connPortBuf);
							lex.Mark();
							
							TInt connPort = 0;
							if (lex.Val(connPort) == KErrNone)
								SetProxyConnectionPort(connPort);
						}
						
						delete connPortBuf;
					}
					else
					
					if (settingName == KSettingProxyHostName)
					{
						HBufC* hostname = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
				
						if (hostname)
						{
							CleanupStack::PushL(hostname);
							SetProxyAddressL(*hostname);
							CleanupStack::PopAndDestroy(hostname);
						}
					}
					else
					
					if (settingName == KSettingIncomingConnectionsMode)
					{
						HBufC* icmBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (icmBuf)
						{
							TLex lex(*icmBuf);
							lex.Mark();
							
							TInt icm = 0;
							if (lex.Val(icm) == KErrNone)
								SetIncomingConnectionsMode(CNetworkManager::TIncomingConnectionsMode(icm));
						}
						
						delete icmBuf;
					}
					else	
					
					if (settingName == KSettingUploadEnabled)
					{
						HBufC* upBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (upBuf)
						{
							TLex lex(*upBuf);
							lex.Mark();
							
							TInt uploadEnabled = 0;
							if (lex.Val(uploadEnabled) == KErrNone)
								if (uploadEnabled)
									SetUploadEnabled(ETrue);
								else
									SetUploadEnabled(EFalse);
						}
						
						delete upBuf;
					}		
					else											
					
					if (settingName == KSettingStartupHashCheck)
					{
						HBufC* hcBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						CleanupStack::PushL(hcBuf);
						
						if (hcBuf)
						{
							TLex lex(*hcBuf);
							lex.Mark();
							
							TInt hashCheck = 0;
							if (lex.Val(hashCheck) == KErrNone)
								if (hashCheck)
									SetStartupHashCheck(ETrue);
								else
									SetStartupHashCheck(EFalse);
						}
						
						CleanupStack::PopAndDestroy(); // hcBuf
					}		
					else
						
					if (settingName == KSettingCloseConnectionAfterDownload)
					{
						HBufC* hcBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						CleanupStack::PushL(hcBuf);
						
						//TODO test before releasing
						
						/*if (hcBuf)
						{
							TLex lex(*hcBuf);
							lex.Mark();
							
							TInt closeConn = 0;
							if (lex.Val(closeConn) == KErrNone)
								if (closeConn)
									SetCloseConnectionAfterDownload(ETrue);
								else
									SetCloseConnectionAfterDownload(EFalse);
						}*/
						
						CleanupStack::PopAndDestroy(); // hcBuf
					}		
					else
						
					if (settingName == KSettingSubpieceSize)
					{													
						HBufC* buf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
											
						if (buf)
						{
							TLex lex(*buf);
							lex.Mark();
							
							TInt sps = 0;
							if (lex.Val(sps) == KErrNone)
								SetSubpieceSize(sps);
						}
						
						delete buf;
					}
					else
					
					#ifdef EKA2					
					if (settingName == KSettingTrackerServicePort)
					{
						HBufC* trackerServicePortBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (trackerServicePortBuf)
						{
							TLex lex(*trackerServicePortBuf);
							lex.Mark();
							
							TInt trackerServicePort = 0;
							if (lex.Val(trackerServicePort) == KErrNone)
								SetTrackerServicePort(trackerServicePort);
						}
						
						delete trackerServicePortBuf;
					}
					else
						
					if (settingName == KSettingDHTEnabled)
					{
						HBufC* buf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						CleanupStack::PushL(buf);
						#ifdef USE_DHT																					
							if (buf)
							{
								TLex lex(*buf);
								lex.Mark();
								
								TInt dhtEnabled = 0;
								if (lex.Val(dhtEnabled) == KErrNone)
									if (dhtEnabled)
										SetDHTEnabled(ETrue);
									else
										SetDHTEnabled(EFalse);
							}
							
							
						#else
							SetDHTEnabled(EFalse);
						#endif
							
						CleanupStack::PopAndDestroy(); // buf
					}		
					else

					if (settingName == KSettingPieceSize)
					{
						HBufC* psBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (psBuf)
						{
							TLex lex(*psBuf);
							lex.Mark();
							
							TInt ps = 0;
							if (lex.Val(ps) == KErrNone)
								SetPieceSize(ps);
						}
						
						delete psBuf;
					}
					else
					#endif

					if (settingName == KSettingIncomingPort)
					{
						HBufC* portBuf = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						
						if (portBuf)
						{
							TLex lex(*portBuf);
							lex.Mark();
							
							TInt port = 0;
							if (lex.Val(port) == KErrNone)
								SetIncomingPort(port);
						}
						
						delete portBuf;
					}
					else
					{
						HBufC* unknownSetting = ReadAndConvertFromUtf8ToUnicodeL(file, settingLength);
						delete unknownSetting;
					}
			}
			
			CleanupStack::PopAndDestroy(); // file
		}
		else
			LWRITELN(iLog, _L("Failed to open settings file"));
		
		CleanupStack::PopAndDestroy(); // fs
	}
}
void CTestImpExvCardSuiteStepBase::ExportItemL(TBuf<80> aPath, TBool aAddBDay)
	{
	OpenDBL();
	
	TContactItemId itemId;
	RFs fsSession;
	RFileWriteStream fileStream;

	CContactIdArray* idArray = NULL;
	CContactCard* contactAdded = NULL;
	TTime now;
	
	User::LeaveIfError(fsSession.Connect());
	CleanupClosePushL(fsSession);
	
	idArray = CContactIdArray::NewL();

	CleanupStack::PushL(idArray);   // idArray

	fsSession.MkDirAll(aPath);
	User::LeaveIfError(fileStream.Replace(fsSession, aPath, EFileWrite));

	contactAdded = CContactCard::NewL();

	CleanupStack::PushL(contactAdded);   // contactAdded
	
	contactAdded->IncAccessCount();
	
	// ADD BDAY
	if (aAddBDay)
		{
		CContactItemFieldSet& fieldSet=contactAdded->CardFields();
		const TInt pos=fieldSet.Find(KUidContactFieldBirthday);
	
		if (pos!=KErrNotFound)
			{
			fieldSet[pos].DateTimeStorage()->SetTime(iBDayLocal);
			}
		else
			{
			CContactItemField* field=CContactItemField::NewLC(KStorageTypeDateTime,KUidContactFieldBirthday);
   			field->SetMapping(KUidContactFieldVCardMapBDAY);
			field->DateTimeStorage()->SetTime(iBDayLocal);
			contactAdded->AddFieldL(*field);
	
			CleanupStack::Pop(); // field
			}
		}
	
	SetNameL(*contactAdded, KUidContactFieldGivenName, _L("toby"), ETrue);
	SetNameL(*contactAdded, KUidContactFieldPhoneNumber, _L("6041233214"), ETrue);

	User::After(3000000);

	// There is no need to call SetLastModifed because
	// That function will be call by ExportSelectedContactsL below
	now.UniversalTime();
	iRecordedTime = now;
	
	INFO_PRINTF1(_L("Adding contact to Database....."));
	itemId = iDb->AddNewContactL(*contactAdded);
	INFO_PRINTF1(_L("Contact Added to Database"));
	CleanupStack::PopAndDestroy(contactAdded);  // contactAdded
	contactAdded = NULL;

	idArray->InsertL(0, itemId);

	INFO_PRINTF1(_L("Exporting Contact....."));
	iDb->ExportSelectedContactsL(TUid::Uid(KUidVCardConvDefaultImpl), *idArray, fileStream, CContactVCardConverter::EDefault, ETrue);
	INFO_PRINTF1(_L("Exported Contact"));
	fileStream.CommitL();
	fileStream.Close();
	
	CleanupStack::PopAndDestroy(idArray);  // idArray
	fsSession.Close();
	CleanupStack::PopAndDestroy();  // fsSession
	CloseDB();
	}
Exemplo n.º 24
0
static void TestWithCaps(TUint32 aCaps, TInt aExpectedError, const TDesC& aFileName)
/**
	Helper function for TestWithCaps(TUint32, TInt).  This function invokes
	a helper executable with the supplied capabilities and tells it to delete
	the supplied filename.
	
 	@param	aCapMask		Capabilities of process which calls RLoader::Delete.
	@param	aExpectedError	Expected error reason.  The launched executable is expected
							to panic with category KTldPanicCat and this reason, which
							is the expected return code from RLoader::Delete.
	@param	aFileName		The helper executable is told to delete this file.
*/
	{
	test.Printf(
		_L("TestWithCaps,aCaps=0x%x,aExpectedError=%d,aFileName=\"%S\"\n"),
		aCaps, aExpectedError, &aFileName);

	TInt r;

	// create the file to delete
	RFs fs;
	r = fs.Connect();
	test(r == KErrNone);

	// if this file is expected to exist then create it
	TPtrC dirName;
	TBool shouldExist = (aFileName == KTldTcbFile || aFileName == KTldAllFilesFile);
	if (shouldExist)
		{
		TParsePtrC pp(aFileName);
		dirName.Set(pp.DriveAndPath());
		r = fs.MkDirAll(dirName);
		test(r == KErrNone || r == KErrAlreadyExists);
		CreateTestFile(fs, aFileName);
		}

	SetHelperCaps(aCaps);
	RunHelper(aFileName, aExpectedError);

	if (shouldExist)
		{
		// if the file could not be deleted then delete it now
		TEntry e;
		// a C++ bool for the following equality operator
		bool exists = (fs.Entry(aFileName, e) == KErrNone);
		test(exists == (aExpectedError != KErrNone));
		
		if (exists)
			{
			r = fs.Delete(aFileName);
			test(r == KErrNone);
			}

		// delete the immediate containing directory.  The error code is not
		// used because the directory may be used for something else.
		fs.RmDir(dirName);
		}

	// delete the generated different-caps file
	r = fs.Delete(_L("c:\\sys\\bin\\tld_helper_caps.exe"));
	test(r == KErrNone);
	r = fs.Delete(_L("c:\\sys\\hash\\tld_helper_caps.exe"));
	test(r == KErrNone || r == KErrNotFound || r == KErrPathNotFound);

	fs.Close();
	}
Exemplo n.º 25
0
void CIniFile::ConstructL(const TDesC& aName, const TDesC& aPath)
/**
 * Allocate a buffer and Read file's contents into iPtr
 *
 * @param aName is the name of the ini file to be used, e.g. "REFTSY.INI"
 */
	{
    iToken = HBufC::NewL(KTokenSize+2);	// 2 extra chars for []

	RFs fs;
	TInt err;
	err = fs.Connect();	
	if(err < 0)
	    {
        OstTrace1( TRACE_NORMAL, CINIFILE_CONSTRUCTL, "CIniFile::ConstructL;fs.Connect() with error=%d", err );
        User::Leave(err);
	    }
	CleanupClosePushL(fs);

	TFindFile ff(fs);

	err = ff.FindByDir(aName, aPath);
	if(err < 0)
	    {
        OstTrace1( TRACE_NORMAL, CINIFILE_CONSTRUCTL_DUP1, "CIniFile::ConstructL;ff.FindByDir(aName, aPath) with error=%d", err );
        User::Leave(err);
	    }

	iName = ff.File().AllocL();
	
	RFile file;
	TInt size;
	err = file.Open(fs,*iName,EFileStreamText|EFileRead|EFileShareReadersOnly);
	if(err < 0)
	    {
        OstTrace1( TRACE_NORMAL, CINIFILE_CONSTRUCTL_DUP2, "CIniFile::ConstructL;file.Open(fs,*iName,EFileStreamText|EFileRead|EFileShareReadersOnly) with error=%d", err );
        User::Leave(err);
	    }
	CleanupClosePushL(file);
	
	err = file.Size(size);
	if(err < 0)
	    {
        OstTrace1( TRACE_NORMAL, CINIFILE_CONSTRUCTL_DUP3, "CIniFile::ConstructL;file.Size(size) with error=%d", err );
        User::Leave(err);
	    }


	TText* data = REINTERPRET_CAST(TText*, User::AllocL(size));
	iPtr.Set(data, size/sizeof(TText), size/sizeof(TText));
	TPtr8 dest(REINTERPRET_CAST(TUint8*,data), 0, size);
	err = file.Read(dest);
	if(err < 0)
	    {
        OstTrace1( TRACE_NORMAL, CINIFILE_CONSTRUCTL_DUP4, "CIniFile::ConstructL;file.Read(dest) with error=%d", err );
        User::Leave(err);
	    }

	TUint8* ptr = REINTERPRET_CAST(TUint8*,data);

	//
	// This is orderred as FEFF assuming the processor is Little Endian
	// The data in the file is FFFE.		PRR 28/9/98
	//
	if(size>= STATIC_CAST(TInt,sizeof(TText)) && iPtr[0]==0xFEFF)
   		{
		Mem::Copy(ptr, ptr+sizeof(TText), size-sizeof(TText));
		iPtr.Set(data, size/sizeof(TText)-1, size/sizeof(TText)-1);
		}
	else if(size)
		{
		TText* newdata = REINTERPRET_CAST(TText*,
			                              User::AllocL(size*sizeof(TText)));
		iPtr.Set(newdata, size, size);
		TInt i;
		for(i=0 ; i<size ; ++i)
			{
			iPtr[i] = ptr[i];
			}
		delete data;
		}

	CleanupStack::PopAndDestroy(); // file
	CleanupStack::PopAndDestroy(); // fs
	}
Exemplo n.º 26
0
//
// Set the Default CommDb Combination
//
void CreateCommDbL()
/**
 * This method creates a special Communications Database to be used with the regression test
 * harness.  The user is given a chance to cancel this operation.  This method uses the file
 * server and timer services.  It also calls other methods to actually populate the
 * special communications database.  Note that the communications database created is tailored
 * to the needs of the ETel Regression Test harness.
 *
 * @leave	This method leaves if the user cancels the overwrite of the communications
 *			database or if the NewL method called in this method fails.  Also, the database
 *			functions can also leave.
 */
	{
	RFs fs;
	_LIT(KSvDbFileName,"C:\\System\\Data\\Cdbv3.dat");

	TESTL(fs.Connect()==KErrNone);

	RTimer timer;
	timer.CreateLocal();
	TUint dummy;
	if(fs.Att(KSvDbFileName,dummy)==KErrNone)
		{
		INFO_PRINTF1(_L("\nThis test requires a special CommDb Database.\nExisting Database File detected\nPress any key to STOP Overwrite\n\n"));

		TBool keyPressed=ETrue;
		ShortWaitForKey(5,keyPressed);
		if(keyPressed)
		User::Leave(KErrAlreadyExists);

		INFO_PRINTF1(_L("\n"));
		TESTL(fs.Delete(KSvDbFileName)==KErrNone);
		}
	fs.Close();

	TheDb=CCommsDatabase::NewL(EDatabaseTypeIAP);
	CleanupStack::PushL(TheDb);
	TESTL(TheDb->BeginTransaction()==KErrNone);

//
// Write the database tables
//
	TUint32 ispId=CreateISPTableL();
	CreateModemTablesL();
	CreateLocationTablesL();
	PopulateModemTemplateL();

	CCommsDbTableView* table=TheDb->OpenTableLC(TPtrC(IAP));

	TUint32 id;
	TESTL(table->InsertRecord(id)==KErrNone);
	table->WriteTextL(TPtrC(COMMDB_NAME),_L("Test Configuration: MM Loopback"));
	table->WriteUintL(TPtrC(IAP_SERVICE),ispId);
	table->WriteTextL(TPtrC(IAP_SERVICE_TYPE),TPtrC(DIAL_OUT_ISP));
	TESTL(table->PutRecordChanges()==KErrNone);
//
// Set the Default
//
	CCommsDbConnectionPrefTableView* cpTable=TheDb->OpenConnectionPrefTableViewOnRankLC(ECommDbConnectionDirectionOutgoing,1);
	cpTable->GotoFirstRecord();
	CCommsDbConnectionPrefTableView::TCommDbIapConnectionPref pref;
	cpTable->ReadConnectionPreferenceL(pref);
	pref.iBearer.iIapId=id;
	pref.iBearer.iBearerSet = KCommDbBearerCSD;
	cpTable->UpdateBearerL(pref.iBearer);

	CleanupStack::PopAndDestroy();
	TESTL(TheDb->CommitTransaction()==KErrNone);
	CleanupStack::PopAndDestroy();
	CleanupStack::PopAndDestroy();
	}
Exemplo n.º 27
0
GLDEF_C TInt E32Main()
//
// Main entry point - make sure everything is going.
//
/**
 * This method is the main entry point for the GSM TSY Regression Test Harness code.  This
 * code first makes sure the file server is included.  It also loads the comm server if
 * necessary.  After calling a method to create the necessary communications database,
 * this method invokes the user interface for the test harness.
 *
 * @return	KErrNone on Success; Errors returned from either communications database
 *			creation failure or individual tests on failures.
 *
 * @note	This method creates a new instance of the clean up stack.
 *
 */
	{
	// Make sure we're linked to the file server
	RFs s;
	s.Connect();
	s.Close();
	test.Title();

	test.Start(_L("Loading Serial drivers"));

	TInt r;

 	// When bootstrapping C32 we have to avoid the PhBkSyncServer being started, since
 	// it needs a different CommDB
 	_LIT(KPhbkSyncCMI, "phbsync.cmi");
	r = StartC32WithCMISuppressions(KPhbkSyncCMI);
	if((r!=KErrNone)&&(r!=KErrAlreadyExists))
		INFO_PRINTF1(_L("Failed to start C32 %d\n\r"),r);

	CTrapCleanup* cleanup=CTrapCleanup::New(); // get clean-up stack
	TRAP(r,CreateCommDbL());
	if(r==KErrNone)
		{
		TRAP(r,CreateTestReportFileL());
		if(r==KErrNone)
			{
			TRAP(r,PerformTestL());
			if(ReturnValue)
				r=ReturnValue;
			}
		}

	CloseTestReportFile();
	if (r)
		INFO_PRINTF1(TRefByValue<const TDesC>(_L("\nError %d reported")),r);
	else
		INFO_PRINTF1(_L("\nTest Completed Sucessfully"));

	INFO_PRINTF1(_L(", press any key to end"));
	TBool keyPressed=ETrue;
	ShortWaitForKey(10, keyPressed);
	test.End();
	delete cleanup;
//	delete testActiveScheduler;
	return KErrNone;
	}
/**
 * Load and initialise an audio file.
 */
TVerdict CTestMmfVclntOpenFile0522::DoTestStepL()
	{
	TVerdict ret = EFail;

	INFO_PRINTF1(_L("Test : Video Recorder - OpenFileL(RFile&)"));

	RFs		fs;
	RFile	file;

	User::LeaveIfError(fs.Connect());
	CleanupClosePushL(fs);
	User::LeaveIfError(fs.ShareProtected());

	iError = KErrTimedOut;

	TPtrC filename;
	if(!GetStringFromConfig(iSectName,iKeyName,filename))
		{
		return EInconclusive;
		}

	User::LeaveIfError(file.Open(fs,filename,EFileWrite));
	CleanupClosePushL(file);
	CVideoRecorderUtility* rec = CVideoRecorderUtility::NewL(*this);
	CleanupStack::PushL(rec);

	const TUid KVidTstControllerUid = {KMmfVideoTestControllerUid};
	TRAP(iError,rec->OpenFileL(file, NULL, KVidTstControllerUid, KUidMdaBmpClipFormat));

	if(iError == KErrNone)
		{
		INFO_PRINTF1(_L("CVideoRecorderUtility: Open file"));
		// Wait for initialisation callback
		CActiveScheduler::Start();
		}

	if(iError == KErrNotSupported)
		{
		ret = EPass;
		}

	// Check for errors.
	if ((iError == KErrNone) && (rec != NULL))
		{
		rec->Prepare();
		CActiveScheduler::Start();
		if(iError != KErrNone)
			{
			INFO_PRINTF2(_L("Prepare callback : error %d"), iError);
			return EInconclusive;
			}

		if(iRec)
			{
			iError = KErrTimedOut;
			rec->Record();
			INFO_PRINTF1(_L("CVideoRecorderUtility: Record"));
			// Wait for init callback
			CActiveScheduler::Start();
			if(iError == KErrNone)
				{
				ret = EPass;
				}
			User::After(1000000);
			rec->Stop();
			}
		else
			{
			ret = EPass;
			}
		}

	rec->Close();
	
	INFO_PRINTF1(_L("CVideoRecorderUtility: Destroy"));
	CleanupStack::PopAndDestroy(rec);
	User::After(KOneSecond); // wait for deletion to shut down devsound
	if(iError != KErrNone)
		{
		ERR_PRINTF2( _L("CVideoRecorderUtility failed with error %d"),iError );
		}

	CleanupStack::PopAndDestroy(2,&fs);
	
	return	ret;
	}
Exemplo n.º 29
0
// ---------------------------------------------------------
// CPosTp17::StartL
//
// (other items were commented in a header).
// ---------------------------------------------------------
//
void CPosTp17::StartL()
    {
#ifdef __WINS__
    _LIT(KNotSupported, "Test case is not supported on WINS, exucute it on target!");
    LogErrorAndLeave(KNotSupported);
#else
    _LIT(KErrors, "One or several Dll's have an incorrect size");
    SetupTestDataL();
 
    RFs session;
    User::LeaveIfError(session.Connect());
    CleanupClosePushL(session);
 
    RFile file;
    TBuf<1> drive= _L("c");
    TBuf<KMaxDllFileNameLength> name;
    name.Copy(iDllNames[0]);
    name.Replace(0,1,drive); 
 
    if (file.Open(session, name, EFileRead) != KErrNone)
        {
        iLog->Put(_L("(Flashed) Use Drive Z:"));
        drive.Copy(_L("z"));
        }
	else iLog->Put(_L("(Nonflashed) Use Drive C:"));
 
    file.Close();
    TBool errors=EFalse;
    for (TInt i=0; i<iDllNames.Count(); i++)
        {
        name.Copy(iDllNames[i]);
        name.Replace(0,1,drive);
        //User::LeaveIfError(file.Open(session, name, EFileRead));
        TInt err = file.Open(session, name, EFileRead);
        if (err != KErrNone)
            {
            TBuf<70> buffe;
            buffe.Append(_L("Error when opening file "));
            buffe.Append(name);
			LogErrorAndLeave(buffe, err);
            }

        CleanupClosePushL(file);
        TInt fileSize=0;
        file.Size(fileSize);
       
        if (fileSize > iFootprints[i])
            {
            errors = ETrue;
            
            _LIT(KDllSizeErr, "ERROR: %S is to big (%d), Max allowed ROM footprint is %d");
            TBuf<255> info;
            HBufC* temp = name.Alloc();
            info.Format(KDllSizeErr, temp, fileSize, iFootprints[i]);
            delete temp;
            iLog->Put(info);
            }
        else 
            {
			// Always log .dll size
            _LIT(KDllSizeDebug, "%S is (%d), Max allowed ROM footprint is %d");
            TBuf<255> info;
            HBufC* temp = name.Alloc();
            info.Format(KDllSizeDebug, temp, fileSize, iFootprints[i]);
            delete temp;
            iLog->Put(info);
            }
        
        CleanupStack::PopAndDestroy(&file);
        } 
    CleanupStack::PopAndDestroy(&session);

    if (errors)
        {
        LogErrorAndLeave(KErrors);
        }
#endif
    }
Exemplo n.º 30
0
// ---------------------------------------------------------
// CPosTp17::SetupTestDataL()
//
// (other items were commented in a header).
// ---------------------------------------------------------
//
void CPosTp17::SetupTestDataL()
    {  
    iLog->Put(_L("SetupTestDataL"));
    
    _LIT(KLANDMARK,"z:\\sys\\bin\\eposlandmarks.dll");
    RFs fs;
    User::LeaveIfError(fs.Connect());
    CleanupClosePushL(fs);
    
    CFileMan* fileMan = CFileMan::NewL(fs);
    CleanupStack::PushL(fileMan);
    
    //check if landmark is flashed
     if (BaflUtils::FileExists(fs, KLANDMARK))
        {
         //Landmark is flashed
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlandmarks.dll")));        
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmsearchlib.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmmultidbsearch.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmlocalsearchprovider.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmlocalaccessprovider.dll"))); 
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmlocalaccess.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmservlib.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmserver.exe")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmdbreg.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmintservices.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmconverter.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmrecognizer.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmdbmanlib.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmdbmanprov.dll")));
        User::LeaveIfError(iDllNames.Append(_L("z:\\sys\\bin\\eposlmlocaldbmanprovider.dll")));
        }
     else
        {
         //Landmark is not flashed
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlandmarks.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmsearchlib.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmmultidbsearch.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmlocalsearchprovider.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmlocalaccessprovider.dll"))); 
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmlocalaccess.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmservlib.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmserver.exe")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmdbreg.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmintservices.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmconverter.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmrecognizer.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmdbmanlib.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmdbmanprov.dll")));
        User::LeaveIfError(iDllNames.Append(_L("!:\\sys\\bin\\eposlmlocaldbmanprovider.dll")));
        }

    User::LeaveIfError(iFootprints.Append(9000));  //eposlandmarks.dll (Landmarks Client Library)
    // Note that eposlmmultidbsearch.dll + eposlmsearchlib.dll must not be bigger than 17000
    User::LeaveIfError(iFootprints.Append(8500)); //eposlmsearchlib.dll (Landmarks Search Client Library)
    User::LeaveIfError(iFootprints.Append(8500)); //eposlmmultidbsearch.dll (Landmarks Search Client Library)
    User::LeaveIfError(iFootprints.Append(19000)); //eposlmlocalsearchprovider.dll (Landmarks Local Search Provider)
    // Note that eposlmlocalaccessprovider.dll + eposlmlocalaccess.dll must not be bigger than 23000
    User::LeaveIfError(iFootprints.Append(400));   //eposlmlocalaccessprovider.dll (Landmarks Local Access Provider)
    User::LeaveIfError(iFootprints.Append(23000)); //eposlmlocalaccess.dll (Landmarks Local Access)
    User::LeaveIfError(iFootprints.Append(2000));  //eposlmservlib.dll (Landmarks Server Client Library)
    User::LeaveIfError(iFootprints.Append(26000)); //eposlmserver.exe (Landmarks Server)
    User::LeaveIfError(iFootprints.Append(6000));  //eposlmdbreg.dll (Landmarks Database Registry)
    User::LeaveIfError(iFootprints.Append(23000)); //eposlmintservices.dll (Landmarks Internal Services)
    User::LeaveIfError(iFootprints.Append(22000)); //eposlmconverter,dll (Landmarks Content Format Converter)
    User::LeaveIfError(iFootprints.Append(2000));  //eposlmrecognizer.mdl (Landmarks Content Format Recognizer)
    User::LeaveIfError(iFootprints.Append(3000));  //eposlmdbmanlib.dll (Landmarks DB Management Client)
    User::LeaveIfError(iFootprints.Append(6000));  //eposlmdbmanprov.dll (Landmarks Database Management Provider)
    User::LeaveIfError(iFootprints.Append(5000));  //eposlmlocaldbmanprovider.dll (Landmarks Local Database Management Provider)

    CleanupStack::PopAndDestroy(2, &fs);
    }