/*++ Copyright (c) 1997-2000 Microsoft Corporation All Rights Reserved Module Name: mintopo.cpp Abstract: Implementation of topology miniport. --*/ #include #include #include "pcmex.h" #include "minwave.h" #include "mintopo.h" #include "toptable.h" /********************************************************************* * Topology/Wave bridge connection * * * * +------+ +------+ * * | Wave | | Topo | * * | | | | * * Capture <---|0 1|<===|4 1|<--- Synth * * | | | | * * Render --->|2 3|===>|0 | * * +------+ | | * * | 2|<--- Mic * * | | * * | 3|---> Line Out * * +------+ * *********************************************************************/ PHYSICALCONNECTIONTABLE TopologyPhysicalConnections = { KSPIN_TOPO_WAVEOUT_SOURCE, // TopologyIn KSPIN_TOPO_WAVEIN_DEST, // TopologyOut KSPIN_WAVE_CAPTURE_SOURCE, // WaveIn KSPIN_WAVE_RENDER_SOURCE // WaveOut }; #pragma code_seg("PAGE") //============================================================================= NTSTATUS CreateMiniportTopologyMSVAD ( OUT PUNKNOWN * Unknown, IN REFCLSID, IN PUNKNOWN UnknownOuter OPTIONAL, IN POOL_TYPE PoolType ) /*++ Routine Description: Creates a new topology miniport. Arguments: Unknown - RefclsId - UnknownOuter - PoolType - Return Value: NT status code. --*/ { PAGED_CODE(); ASSERT(Unknown); STD_CREATE_BODY(CMiniportTopology, Unknown, UnknownOuter, PoolType); } // CreateMiniportTopologyMSVAD //============================================================================= CMiniportTopology::~CMiniportTopology ( void ) /*++ Routine Description: Topology miniport destructor Arguments: Return Value: NT status code. --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopology::~CMiniportTopology]")); } // ~CMiniportTopology //============================================================================= NTSTATUS CMiniportTopology::DataRangeIntersection ( IN ULONG PinId, IN PKSDATARANGE ClientDataRange, IN PKSDATARANGE MyDataRange, IN ULONG OutputBufferLength, OUT PVOID ResultantFormat OPTIONAL, OUT PULONG ResultantFormatLength ) /*++ Routine Description: The DataRangeIntersection function determines the highest quality intersection of two data ranges. Arguments: PinId - Pin for which data intersection is being determined. ClientDataRange - Pointer to KSDATARANGE structure which contains the data range submitted by client in the data range intersection property request. MyDataRange - Pin's data range to be compared with client's data range. OutputBufferLength - Size of the buffer pointed to by the resultant format parameter. ResultantFormat - Pointer to value where the resultant format should be returned. ResultantFormatLength - Actual length of the resultant format that is placed at ResultantFormat. This should be less than or equal to OutputBufferLength. Return Value: NT status code. --*/ { PAGED_CODE(); return CMiniportTopologyMSVAD::DataRangeIntersection ( PinId, ClientDataRange, MyDataRange, OutputBufferLength, ResultantFormat, ResultantFormatLength ); } // DataRangeIntersection //============================================================================= STDMETHODIMP CMiniportTopology::GetDescription ( OUT PPCFILTER_DESCRIPTOR * OutFilterDescriptor ) /*++ Routine Description: The GetDescription function gets a pointer to a filter description. It provides a location to deposit a pointer in miniport's description structure. This is the placeholder for the FromNode or ToNode fields in connections which describe connections to the filter's pins. Arguments: OutFilterDescriptor - Pointer to the filter description. Return Value: NT status code. --*/ { PAGED_CODE(); return CMiniportTopologyMSVAD::GetDescription(OutFilterDescriptor); } // GetDescription //============================================================================= STDMETHODIMP CMiniportTopology::Init ( IN PUNKNOWN UnknownAdapter, IN PRESOURCELIST ResourceList, IN PPORTTOPOLOGY Port_ ) /*++ Routine Description: The Init function initializes the miniport. Callers of this function should run at IRQL PASSIVE_LEVEL Arguments: UnknownAdapter - A pointer to the Iuknown interface of the adapter object. ResourceList - Pointer to the resource list to be supplied to the miniport during initialization. The port driver is free to examine the contents of the ResourceList. The port driver will not be modify the ResourceList contents. Port - Pointer to the topology port object that is linked with this miniport. Return Value: NT status code. --*/ { PAGED_CODE(); ASSERT(UnknownAdapter); ASSERT(Port_); DPF_ENTER(("[CMiniportTopology::Init]")); NTSTATUS ntStatus; ntStatus = CMiniportTopologyMSVAD::Init ( UnknownAdapter, Port_ ); if (NT_SUCCESS(ntStatus)) { m_FilterDescriptor = &MiniportFilterDescriptor; m_AdapterCommon->MixerMuxWrite(KSPIN_TOPO_MIC_SOURCE); } return ntStatus; } // Init //============================================================================= STDMETHODIMP CMiniportTopology::NonDelegatingQueryInterface ( IN REFIID Interface, OUT PVOID * Object ) /*++ Routine Description: QueryInterface for MiniportTopology Arguments: Interface - GUID of the interface Object - interface object to be returned. Return Value: NT status code. --*/ { PAGED_CODE(); ASSERT(Object); if (IsEqualGUIDAligned(Interface, IID_IUnknown)) { *Object = PVOID(PUNKNOWN(this)); } else if (IsEqualGUIDAligned(Interface, IID_IMiniport)) { *Object = PVOID(PMINIPORT(this)); } else if (IsEqualGUIDAligned(Interface, IID_IMiniportTopology)) { *Object = PVOID(PMINIPORTTOPOLOGY(this)); } else { *Object = NULL; } if (*Object) { // We reference the interface for the caller. PUNKNOWN(*Object)->AddRef(); return(STATUS_SUCCESS); } return(STATUS_INVALID_PARAMETER); } // NonDelegatingQueryInterface //============================================================================= NTSTATUS PropertyHandler_Topology ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: Redirects property request to miniport object Arguments: PropertyRequest - Return Value: NT status code. --*/ { PAGED_CODE(); ASSERT(PropertyRequest); DPF_ENTER(("[PropertyHandler_Topology]")); return ((PCMiniportTopology) (PropertyRequest->MajorTarget))->PropertyHandlerGeneric ( PropertyRequest ); } // PropertyHandler_Topology #pragma code_seg()