/// <summary>
/// Stellt die Verbindung zur properitären Schnittstelle her.
/// </summary>
/// <param name="tuner">Der Filter zur Hardware.</param>
protected virtual void Open(TypedComIdentity <IBaseFilter> tuner)
{
// Connect once
if (m_Device != IntPtr.Zero)
{
return;
}
// Attach to the tuner output pin to get the hardware index
using (var pinRef = tuner.GetSinglePin(PinDirection.Output))
using (var pin = pinRef.MarshalToManaged())
{
// Get the information
var info = pin.Object.GetMediumArray();
if (info.Length < 1)
{
throw new InvalidOperationException("no information on attached Hardware");
}
// Try to connect
m_Device = bdaapiOpenHWIdx(1, info[0].Parameter1);
if (m_Device.ToInt64() == -1)
{
m_Device = IntPtr.Zero;
}
if (m_Device == IntPtr.Zero)
{
throw new InvalidOperationException(string.Format("could not connect to properitary API ({0} Media reported, primary Medium is {1} ({2}, {3}))", info.Length, info[0].MediumIdentifier, info[0].Parameter1, info[0].Parameter2));
}
}
}
/// <summary>
/// Erzeugt einen neuen Pin.
/// </summary>
/// <param name="filter">Zugehöriger Filter.</param>
/// <param name="name">Der eigene Name.</param>
/// <param name="mediaType">Das zu verwendende Datenformat.</param>
public OutputPin(TypedComIdentity <IBaseFilter> filter, string name, MediaType mediaType)
{
// Remember
m_Types = new MediaType[] { mediaType };
m_Filter = filter;
m_Name = name;
}
/// <summary>
/// Ermittelt zu einem Filter einen ausgangsseitigen Steuerknoten der Topologie.
/// </summary>
/// <typeparam name="T">Die Art der benötigten Schnittstelle.</typeparam>
/// <param name="filter">Ein Filter.</param>
/// <param name="nodeType">Die Art des Knotens.</param>
/// <returns>Der gewünschte Knoten.</returns>
public static T GetOutputControlNode <T>(this TypedComIdentity <IBaseFilter> filter, uint nodeType) where T : class
{
// Validate
if (filter == null)
{
throw new ArgumentNullException("filter");
}
// Attach to alternate interface
using (var instance = filter.MarshalToManaged())
{
// Change type
var topology = instance.Object as IBDATopology;
if (topology == null)
{
return(null);
}
// Load
var node = topology.GetControlNode(0, 1, nodeType);
var result = node as T;
// Cleanup
if (result == null)
{
BDAEnvironment.Release(ref node);
}
// Report
return(result);
}
}
/// <summary>
/// Stellt die Verbindung zur properitären Schnittstelle her.
/// </summary>
/// <param name="tuner">Der Filter zur Hardware.</param>
protected override void Open(TypedComIdentity <IBaseFilter> tuner)
{
// Did it all
if (m_CIOpen)
{
return;
}
// Forward
base.Open(tuner);
// Process
var error = bdaapiOpenCIWithoutPointer(Device);
if (APIErrorCodes.Success != error)
{
throw new DVBException(error.ToString());
}
// Remember
m_CIOpen = true;
// Just wait a bit
if (m_OpenDelay > 0)
{
Thread.Sleep(m_OpenDelay);
}
}
/// <summary>
/// Versucht den DVB.NET Datenstrom direkt mit dem zugehörigen Decoder zu verbinden.
/// </summary>
/// <param name="decoder">Ein manuell angelegter Decoder.</param>
/// <param name="source">Der zu verwendende Ausgang.</param>
/// <param name="mediaType">Das verwendete Format.</param>
/// <returns>Gesetzt, wenn die Verbindung aufgebaut wurde.</returns>
private bool TryDirectConnect(TypedComIdentity <IBaseFilter> decoder, OutputPin source, MediaType mediaType)
{
// In normal cases we should directly connect to the filter so try
var connected = false;
// Try manual connect
decoder.InspectAllPins(p => p.QueryDirection() == PinDirection.Input,
pin =>
{
// Skip on error
try
{
// Get the raw interface for the media type
var type = mediaType.GetReference();
// Process
using (var iFace = ComIdentity.Create <IPin>(pin))
source.Connect(iFace.Interface, type);
// Did it
connected = true;
}
catch (Exception)
{
}
// First pin only - even if it can not be used!
return(false);
});
// Failed
if (!connected)
{
return(false);
}
// Find the output of the decoder and render it
decoder.InspectAllPins(p => p.QueryDirection() == PinDirection.Output,
pin =>
{
// Create helper
using (var pinWrapper = ComIdentity.Create <IPin>(pin))
DirectShowObject.Render(pinWrapper.Interface);
// Did it
return(false);
});
// Report
return(connected);
}
/// <summary>
/// Erzeugt einen neuen Endpunkt.
/// </summary>
/// <param name="filter">Der zugehörige Filter.</param>
/// <param name="createTIF">Gesetzt, wenn eine BDA Komponente eingebunden werden soll.</param>
public InputPin(TypedComIdentity <IBaseFilter> filter, bool createTIF)
{
// Remember
m_Filter = filter;
// Create types
m_Types = new[] { BDAEnvironment.TransportStreamMediaType1, BDAEnvironment.TransportStreamMediaType2 };
// Create optional output pins
if (createTIF)
{
m_TIF = new OutputPin(m_Filter, "TIF", m_Types[0]);
}
}
/// <summary>
/// Erzeugt eine neue Instanz.
/// </summary>
/// <typeparam name="DataType">Die Art der Daten.</typeparam>
/// <param name="interface">Die zu verwendende Schnittstelle.</param>
/// <returns>Eine neue Zugriffsinstanz.</returns>
public static IKsPropertySet <DataType> Create <DataType>(IntPtr @interface)
where DataType : struct
{
// None
if (@interface == null)
{
return(null);
}
// Try to access the interface
var com = ComIdentity.TryQueryInterface(@interface, typeof(IKsPropertySet));
if (com == IntPtr.Zero)
{
return(null);
}
// Be safe
try
{
// Create the wrapper
using (var typed = new TypedComIdentity <IKsPropertySet>(com))
{
// No longer needed to release
com = IntPtr.Zero;
// Create wrapper
var wrapper = typed.MarshalToManaged();
try
{
// Safe process
return(new Typed <DataType>(wrapper));
}
catch
{
// Cleanup
wrapper.Dispose();
// Forward
throw;
}
}
}
finally
{
// Cleanup
BDAEnvironment.Release(ref com);
}
}
/// <summary>
/// Verbindet diesen Ausgang mit dem Eingang eines beliebigen Filters.
/// </summary>
/// <param name="receiver">Der Filter, der die erzeugten Daten verarbeiten soll.</param>
/// <param name="mediaType">Die Art der zu verwendenden Daten.</param>
public void Connect(TypedComIdentity <IBaseFilter> receiver, MediaType mediaType)
{
// Attach to the one input pin
var to = receiver.GetSinglePin(PinDirection.Input);
try
{
// Process
Connect(to.Interface, mediaType.GetReference());
}
finally
{
// Cleanup
BDAEnvironment.Release(ref to);
}
}
/// <summary>
/// Legt die Speicherverwaltung fest.
/// </summary>
/// <param name="allocator">Die zu verwendende Speicherverwaltung.</param>
public void SetMemAllocator(TypedComIdentity <IMemAllocator> allocator)
{
// Nothing to do
if (allocator == null)
{
return;
}
if (m_MemPin == IntPtr.Zero)
{
return;
}
if (m_NotifySink == null)
{
return;
}
// Forward
m_NotifySink(m_MemPin, allocator.Interface, false);
}
/// <summary>
/// Stellt die Verbindung zur properitären Schnittstelle her.
/// </summary>
/// <param name="tuner">Der Filter zur Hardware.</param>
protected override void Open( TypedComIdentity<IBaseFilter> tuner )
{
// Did it all
if (m_CIOpen)
return;
// Forward
base.Open( tuner );
// Process
var error = bdaapiOpenCIWithoutPointer( Device );
if (APIErrorCodes.Success != error)
throw new DVBException( error.ToString() );
// Remember
m_CIOpen = true;
// Just wait a bit
if (m_OpenDelay > 0)
Thread.Sleep( m_OpenDelay );
}
/// <summary>
/// Ermittelt einen einzelnen Endpunkt.
/// </summary>
/// <param name="filter">Der zu betrachtende Filter.</param>
/// <param name="direction">Die zu untersuchende Seite des Filters.</param>
/// <returns>Eine Referenz auf den gewünschten Endpunkt.</returns>
/// <exception cref="ArgumentNullException">Es wurde kein Filter angegeben.</exception>
/// <exception cref="InvalidOperationException">Der angegeben Endpunkt existiert nicht.</exception>
public static TypedComIdentity <IPin> GetSinglePin(this TypedComIdentity <IBaseFilter> filter, PinDirection direction)
{
// Validate
if (filter == null)
{
throw new ArgumentNullException("filter");
}
// Result to use
TypedComIdentity <IPin> result = null;
// Use helper to check all of it
filter.InspectAllPins(p => p.QueryDirection() == direction, p =>
{
// At most one hit is allowed
if (result != null)
{
// Cleanup
result.Dispose();
// Report error
throw new InvalidOperationException(Properties.Resources.Exception_DuplicateEndpoint);
}
// Remember the first one
result = ComIdentity.Create(p);
});
// Ups
if (result != null)
{
return(result);
}
else
{
throw new InvalidOperationException(Properties.Resources.Exception_NoEndpoint);
}
}
/// <summary>
/// Stellt die Verbindung zur properitären Schnittstelle her.
/// </summary>
/// <param name="tuner">Der Filter zur Hardware.</param>
protected virtual void Open( TypedComIdentity<IBaseFilter> tuner )
{
// Connect once
if (m_Device != IntPtr.Zero)
return;
// Attach to the tuner output pin to get the hardware index
using (var pinRef = tuner.GetSinglePin( PinDirection.Output ))
using (var pin = pinRef.MarshalToManaged())
{
// Get the information
var info = pin.Object.GetMediumArray();
if (info.Length < 1)
throw new InvalidOperationException( "no information on attached Hardware" );
// Try to connect
m_Device = bdaapiOpenHWIdx( 1, info[0].Parameter1 );
if (m_Device.ToInt64() == -1)
m_Device = IntPtr.Zero;
if (m_Device == IntPtr.Zero)
throw new InvalidOperationException( string.Format( "could not connect to properitary API ({0} Media reported, primary Medium is {1} ({2}, {3}))", info.Length, info[0].MediumIdentifier, info[0].Parameter1, info[0].Parameter2 ) );
}
}
/// <summary>
/// Meldet einen Filter in Graphen an.
/// </summary>
/// <param name="name">Der Name des Filters.</param>
/// <param name="filter">Die Verwaltungsinstanz des Filters.</param>
private void AddFilter(string name, TypedComIdentity <IBaseFilter> filter)
{
// Test
if (string.IsNullOrEmpty(name))
{
throw new ArgumentNullException("name");
}
if (filter == null)
{
throw new ArgumentNullException("filter");
}
// Test
if (m_Graph == null)
{
throw new InvalidOperationException("not initialized");
}
// Forward to COM
m_Graph.AddFilter(filter.Interface, name);
// Remember
m_Filters.Add(name, filter);
}
/// <summary>
/// Beendet die Nutzung dieser Instanz endgültig.
/// </summary>
public void Dispose()
{
// Cleanup
using (m_Instance)
m_Instance = null;
}
/// <summary>
/// Fügt eine Instanz zur Verwaltung hinzu.
/// </summary>
/// <param name="pin">Die zu verwaltende Instanz.</param>
public void Add( TypedComIdentity<IPin> pin )
{
// Remember
m_Pins.Add( pin );
}
/// <summary>
/// Untersucht alle Endpunkte eines Filters.
/// </summary>
/// <param name="filter">Der zu betrachtende Filter.</param>
/// <param name="selector">Optional eine Auswahlfunktion.</param>
/// <param name="action">Optional eine Aktion, die pro Endpunkt ausgeführt werden soll.</param>
/// <exception cref="ArgumentNullException">Es wurde kein Filter angegeben.</exception>
public static void InspectAllPins(this TypedComIdentity <IBaseFilter> filter, Predicate <IPin> selector, Action <IPin> action)
{
// Forward
filter.InspectAllPins(selector, pin => { action(pin); return(true); });
}
/// <summary>
/// Meldet einen Filter in Graphen an.
/// </summary>
/// <param name="name">Der Name des Filters.</param>
/// <param name="filter">Die Verwaltungsinstanz des Filters.</param>
private void AddFilter( string name, TypedComIdentity<IBaseFilter> filter )
{
// Test
if (string.IsNullOrEmpty( name ))
throw new ArgumentNullException( "name" );
if (filter == null)
throw new ArgumentNullException( "filter" );
// Test
if (m_Graph == null)
throw new InvalidOperationException( "not initialized" );
// Forward to COM
m_Graph.AddFilter( filter.Interface, name );
// Remember
m_Filters.Add( name, filter );
}
/// <summary>
/// Versucht den DVB.NET Datenstrom direkt mit dem zugehörigen Decoder zu verbinden.
/// </summary>
/// <param name="decoder">Ein manuell angelegter Decoder.</param>
/// <param name="source">Der zu verwendende Ausgang.</param>
/// <param name="mediaType">Das verwendete Format.</param>
/// <returns>Gesetzt, wenn die Verbindung aufgebaut wurde.</returns>
private bool TryDirectConnect( TypedComIdentity<IBaseFilter> decoder, OutputPin source, MediaType mediaType )
{
// In normal cases we should directly connect to the filter so try
var connected = false;
// Try manual connect
decoder.InspectAllPins( p => p.QueryDirection() == PinDirection.Input,
pin =>
{
// Skip on error
try
{
// Get the raw interface for the media type
var type = mediaType.GetReference();
// Process
using (var iFace = ComIdentity.Create<IPin>( pin ))
source.Connect( iFace.Interface, type );
// Did it
connected = true;
}
catch (Exception)
{
}
// First pin only - even if it can not be used!
return false;
} );
// Failed
if (!connected)
return false;
// Find the output of the decoder and render it
decoder.InspectAllPins( p => p.QueryDirection() == PinDirection.Output,
pin =>
{
// Create helper
using (var pinWrapper = ComIdentity.Create<IPin>( pin ))
DirectShowObject.Render( pinWrapper.Interface );
// Did it
return false;
} );
// Report
return connected;
}
/// <summary>
/// Untersucht alle Endpunkte eines Filters.
/// </summary>
/// <param name="filter">Der zu betrachtende Filter.</param>
/// <param name="selector">Optional eine Auswahlfunktion.</param>
/// <param name="action">Optional eine Aktion, die pro Endpunkt ausgeführt werden soll.</param>
/// <exception cref="ArgumentNullException">Es wurde kein Filter angegeben.</exception>
public static void InspectAllPins(this TypedComIdentity <IBaseFilter> filter, Predicate <IPin> selector, Func <IPin, bool> action)
{
// Validate
if (filter == null)
{
throw new ArgumentNullException("filter");
}
// Attach to the instance
using (var filterInstance = filter.MarshalToManaged())
{
// Attach to all pins
var pins = filterInstance.Object.EnumPins();
try
{
// Process all
for (; ;)
{
using (var array = new COMArray(1))
{
// Load
uint count = 0;
if (pins.Next(1, array.Address, ref count) != 0)
{
break;
}
// Load object
if (count != 1)
{
continue;
}
// Load the one
var pin = array.GetObject <IPin>(0);
try
{
// Check predicate
if (selector != null)
{
if (!selector(pin))
{
continue;
}
}
// Execute
if (action != null)
{
if (!action(pin))
{
return;
}
}
}
finally
{
// Cleanup
BDAEnvironment.Release(ref pin);
}
}
}
}
finally
{
// Cleanup
BDAEnvironment.Release(ref pins);
}
}
}
/// <summary>
/// Ermittelt die Demodulatorschnittstelle aus der BDA Topologie des Filters.
/// </summary>
/// <param name="filter">Der zu verwendende Filter.</param>
/// <returns>Die Schnittstelle auf den Demodulator, sofern vorhanden.</returns>
public static IBDADigitalDemodulator GetDigitalDemodulator(this TypedComIdentity <IBaseFilter> filter)
{
// Forward
return(filter.GetOutputControlNode <IBDADigitalDemodulator>(1));
}
/// <summary>
/// Ermittelt die Schnittstelle mit den Signalinformationen aus der BDA Topologie des Filters.
/// </summary>
/// <param name="filter">Der zu verwendende Filter.</param>
/// <returns>Die Schnittstelle auf die Signalinformationen, sofern vorhanden.</returns>
public static IBDASignalStatistics GetSignalStatistics(this TypedComIdentity <IBaseFilter> filter)
{
// Forward
return(filter.GetOutputControlNode <IBDASignalStatistics>(0));
}
/// <summary>
/// Untersucht alle Endpunkte eines Filters.
/// </summary>
/// <param name="filter">Der zu betrachtende Filter.</param>
/// <param name="action">Optional eine Aktion, die pro Endpunkt ausgeführt werden soll.</param>
/// <exception cref="ArgumentNullException">Es wurde kein Filter angegeben.</exception>
public static void InspectAllPins(this TypedComIdentity <IBaseFilter> filter, Action <IPin> action)
{
// Forward
filter.InspectAllPins(null, action);
}
/// <summary>
/// Erzeugt einen neuen Live Pin.
/// </summary>
/// <param name="filter">Der zugehörige Filter.</param>
/// <param name="name">Der Name des Pins.</param>
/// <param name="mediaType">Der Datentyp, der durch den Pin fließt.</param>
public LivePin( TypedComIdentity<IBaseFilter> filter, string name, MediaType mediaType )
: base( filter, name, mediaType )
{
}
/// <summary>
/// Erzeugt einen Graphen und startet ihn.
/// </summary>
/// <param name="location">Der Ursprung, über den die Quellgruppe empfangen wird.</param>
/// <param name="group">Die gewünschte Quellgruppe.</param>
/// <exception cref="ArgumentException">Es wurden nicht alle Parameter gesetzt.</exception>
public void Create( GroupLocation location, SourceGroup group )
{
// Get rid of it
Destroy();
// Create new graph builder
var graph = Activator.CreateInstance( Type.GetTypeFromCLSID( BDAEnvironment.GraphBuilderClassIdentifier ) );
try
{
// Convert interface
m_Graph = (IMediaFilter) graph;
}
catch
{
// Cleanup
BDAEnvironment.Release( ref graph );
// Forward
throw;
}
// See if we should register the graph
m_ExternalRegistration = BDASettings.RegisterBDAGRaph( m_Graph, false );
// Attach to alternate interface
var builder = (IGraphBuilder) m_Graph;
// Check log
var logFile = BDASettings.BDALogPath;
if (logFile != null)
{
// Open path
m_LogFile = new FileStream( logFile.FullName, FileMode.Create, FileAccess.Write, FileShare.Read );
// Enable logging on graph builder
builder.SetLogFile( m_LogFile.SafeFileHandle );
}
// Start with network provider
NetworkProvider = AddFilter( "Network Provider", BDAEnvironment.GetNetworkProviderMoniker( DVBType ) );
// Initialize provider
Tune( location, group );
// Always create the tuner
if (TunerInformation != null)
TunerFilter = AddFilter( "Tuner", TunerInformation );
else
throw new ArgumentException( Properties.Resources.Exception_MissingTuner, "Tuner" );
// Optionally create capture
if (CaptureInformation != null)
CaptureFilter = AddFilter( "Capture", CaptureInformation );
// Add additional filter
foreach (var additionalFilter in AdditionalFilterInformations)
if (additionalFilter == null)
throw new ArgumentNullException( "AdditionalFilters" );
else
AdditionalFilters.Add( AddFilter( additionalFilter.DisplayName, additionalFilter ) );
// Connect network provider to streaming instance
Connect( NetworkProvider, CaptureFilter ?? TunerFilter );
// Initialize provider
Tune( location, group );
// Create the primary filter and add it
AddFilter( "TS", TransportStreamAnalyser = new InputFilter() );
// Connect device output for analysis
Connect( CaptureFilter ?? TunerFilter, TransportStreamAnalyser );
// Create the demultiplexer - needed to keep the infrastructure alive
using (var demux = AddFilter( "TIF", BDAEnvironment.MicrosoftDemultiplexerMoniker ))
{
// Connect to the dedicated pin of our analyser
TransportStreamAnalyser.DataManager.TIFConnector.Connect( demux, BDAEnvironment.TransportStreamMediaType1 );
// Pins to remove
var remove = new List<string>();
// Prepare the demultiplexer pins
demux.InspectAllPins( pin =>
{
// See if this is the SI pin
bool isSectionPin = false;
pin.InspectAllMediaTypes( type =>
{
// Check major
if (!type.MajorType.Equals( BDAEnvironment.DataFormatTypeSections ))
return true;
// Check minor
isSectionPin = type.SubType.Equals( BDAEnvironment.DataFormatSubtypeSI );
// Report
return !isSectionPin;
} );
// Check the mode
if (isSectionPin)
{
// Connect
using (var comPin = ComIdentity.Create( pin ))
builder.Render( comPin.Interface );
// Load connection data
IntPtr tifIn = IntPtr.Zero;
if (pin.ConnectedTo( ref tifIn ) < 0)
throw new InvalidOperationException( Properties.Resources.Exception_TIF );
// Reconstruct
var tifPin = Marshal.GetObjectForIUnknown( tifIn );
try
{
// Request pin context
var info = new PinInfo();
((IPin) tifPin).QueryPinInfo( ref info );
// Request from pin
m_TIF = info.GetAndDisposeFilter();
}
finally
{
// Cleanup
BDAEnvironment.Release( ref tifPin );
}
}
else if (pin.QueryDirection() == PinDirection.Output)
{
// Prepare to kill
remove.Add( pin.QueryId() );
}
} );
// Prepare to remove all unconnected pins
if (remove.Count > 0)
using (var demuxInstance = demux.MarshalToManaged())
{
// Change type
var mpeg2 = (IMpeg2Demultiplexer) demuxInstance.Object;
// Remove all
foreach (var id in remove)
mpeg2.DeleteOutputPin( id );
}
}
// Install the PMT watchdog
TransportStreamAnalyser.DataManager.TSParser.PMTFound += ProcessPMT;
}
/// <summary>
/// Erzeugt einen neuen Filter.
/// </summary>
/// <param name="name">Der Name des Filters.</param>
/// <param name="filter">Der bereits geladene Filter.</param>
/// <returns>Die COM Schnittstelle des neuen Filters.</returns>
/// <exception cref="ArgumentNullException">Es wurde kein Filter angegeben.</exception>
private void AddFilter( string name, TypedComIdentity<IBaseFilter> filter )
{
// Validate
if (filter == null)
throw new ArgumentNullException( "filter" );
// Process
((IGraphBuilder) m_Graph).AddFilter( filter.Interface, name );
}
/// <summary>
/// Verbindet zwei Filter. Es wird erwartet, dass jeweils ein einziger Ein-/Ausgang existiert.
/// </summary>
/// <param name="from">Der Filter, der die Daten produziert.</param>
/// <param name="to">Der Filter, der die Daten entgegennimmt.</param>
private void Connect( TypedComIdentity<IBaseFilter> from, TypedComIdentity<IBaseFilter> to )
{
// Attach to pins
using (var fromPin = from.GetSinglePin( PinDirection.Output ))
using (var toPin = to.GetSinglePin( PinDirection.Input ))
((IGraphBuilder) m_Graph).Connect( fromPin.Interface, toPin.Interface );
}
/// <summary>
/// Initialisiert eine neue Instanz.
/// </summary>
/// <param name="instance">Die zu verwaltende Instanz eines COM Objektes.</param>
public Typed(TypedComIdentity <IKsPropertySet> .Incarnation instance)
{
// Remember
m_Instance = instance;
}
/// <summary>
/// Fügt eine Instanz zur Verwaltung hinzu.
/// </summary>
/// <param name="pin">Die zu verwaltende Instanz.</param>
public void Add(TypedComIdentity <IPin> pin)
{
// Remember
m_Pins.Add(pin);
}
/// <summary>
/// Beendet den Graphen und gibt alle damit verbundenen Ressourcen frei.
/// </summary>
public void Destroy()
{
// Disable decryption callback
Interlocked.Exchange( ref m_PMTSink, null );
// Pipelines
DecryptionPipeline.Terminate();
SignalPipeline.Terminate();
TunePipeline.Terminate();
// External registration
using (m_ExternalRegistration)
m_ExternalRegistration = null;
// Extra filters
var additionalFilters = AdditionalFilters.ToArray();
// Reset
AdditionalFilters.Clear();
// Filter
foreach (var additionalFilter in additionalFilters)
if (additionalFilter != null)
additionalFilter.Dispose();
using (m_TIF)
m_TIF = null;
using (TransportStreamAnalyser)
TransportStreamAnalyser = null;
using (CaptureFilter)
CaptureFilter = null;
using (TunerFilter)
TunerFilter = null;
using (NetworkProvider)
NetworkProvider = null;
// The graph itself
if (m_Graph != null)
try
{
// Done with it
m_Graph.Stop();
}
catch (Exception e)
{
// For now we ignore all errors during shutdown
Trace.WriteLine( e.Message );
}
finally
{
// Get rid of it
BDAEnvironment.Release( ref m_Graph );
}
// Log file
using (var logFile = m_LogFile)
{
// Forget
m_LogFile = null;
// Make sure that we have written it all out
if (logFile != null)
logFile.Flush();
}
}
/// <summary>
/// Ermittelt die Schnittstelle zur Feineinstellung der Quellgruppenanwahl aus der BDA Topologie des Filters.
/// </summary>
/// <param name="filter">Der zu verwendende Filter.</param>
/// <returns>Die Schnittstelle für die Feineinstellungen, sofern vorhanden.</returns>
public static IBDAFrequencyFilter GetFrequencyFilter(this TypedComIdentity <IBaseFilter> filter)
{
// Forward
return(filter.GetOutputControlNode <IBDAFrequencyFilter>(0));
}
