/*++ Copyright (c) 1997-2000 Microsoft Corporation All Rights Reserved Module Name: basetopo.cpp Abstract: Implementation of topology miniport. This the base class for all MSVAD samples --*/ #include #include "common.h" #include "basetopo.h" //============================================================================= #pragma code_seg("PAGE") CMiniportTopologyMSVAD::CMiniportTopologyMSVAD ( void ) /*++ Routine Description: Topology miniport constructor Arguments: Return Value: void --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopologyMSVAD::CMiniportTopologyMSVAD]")); m_AdapterCommon = NULL; m_FilterDescriptor = NULL; } // CMiniportTopologyMSVAD CMiniportTopologyMSVAD::~CMiniportTopologyMSVAD ( void ) /*++ Routine Description: Topology miniport destructor Arguments: Return Value: void --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopologyMSVAD::~CMiniportTopologyMSVAD]")); if (m_AdapterCommon) { m_AdapterCommon->Release(); } } // ~CMiniportTopologyMSVAD //============================================================================= NTSTATUS CMiniportTopologyMSVAD::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. Topology miniport does nothing. 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(); DPF_ENTER(("[CMiniportTopologyMSVAD::DataRangeIntersection]")); return (STATUS_NOT_IMPLEMENTED); } // DataRangeIntersection //============================================================================= NTSTATUS CMiniportTopologyMSVAD::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(); ASSERT(OutFilterDescriptor); DPF_ENTER(("[CMiniportTopologyMSVAD::GetDescription]")); *OutFilterDescriptor = m_FilterDescriptor; return (STATUS_SUCCESS); } // GetDescription //============================================================================= NTSTATUS CMiniportTopologyMSVAD::Init ( IN PUNKNOWN UnknownAdapter_, IN PPORTTOPOLOGY Port_ ) /*++ Routine Description: Initializes the topology miniport. Arguments: UnknownAdapter - Port_ - Pointer to topology port Return Value: NT status code. --*/ { PAGED_CODE(); ASSERT(UnknownAdapter_); ASSERT(Port_); DPF_ENTER(("[CMiniportTopologyMSVAD::Init]")); NTSTATUS ntStatus; ntStatus = UnknownAdapter_->QueryInterface ( IID_IAdapterCommon, (PVOID *) &m_AdapterCommon ); if (NT_SUCCESS(ntStatus)) { m_AdapterCommon->MixerReset(); } if (!NT_SUCCESS(ntStatus)) { // clean up AdapterCommon if (m_AdapterCommon) { m_AdapterCommon->Release(); m_AdapterCommon = NULL; } } return ntStatus; } // Init //============================================================================= NTSTATUS CMiniportTopologyMSVAD::PropertyHandlerBasicSupportVolume ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: Handles BasicSupport for Volume nodes. Arguments: PropertyRequest - property request structure Return Value: NT status code. --*/ { PAGED_CODE(); NTSTATUS ntStatus = STATUS_SUCCESS; ULONG cbFullProperty = sizeof(KSPROPERTY_DESCRIPTION) + sizeof(KSPROPERTY_MEMBERSHEADER) + sizeof(KSPROPERTY_STEPPING_LONG); if(PropertyRequest->ValueSize >= (sizeof(KSPROPERTY_DESCRIPTION))) { PKSPROPERTY_DESCRIPTION PropDesc = PKSPROPERTY_DESCRIPTION(PropertyRequest->Value); PropDesc->AccessFlags = KSPROPERTY_TYPE_ALL; PropDesc->DescriptionSize = cbFullProperty; PropDesc->PropTypeSet.Set = KSPROPTYPESETID_General; PropDesc->PropTypeSet.Id = VT_I4; PropDesc->PropTypeSet.Flags = 0; PropDesc->MembersListCount = 1; PropDesc->Reserved = 0; // if return buffer can also hold a range description, return it too if(PropertyRequest->ValueSize >= cbFullProperty) { // fill in the members header PKSPROPERTY_MEMBERSHEADER Members = PKSPROPERTY_MEMBERSHEADER(PropDesc + 1); Members->MembersFlags = KSPROPERTY_MEMBER_STEPPEDRANGES; Members->MembersSize = sizeof(KSPROPERTY_STEPPING_LONG); Members->MembersCount = 1; Members->Flags = 0; // fill in the stepped range PKSPROPERTY_STEPPING_LONG Range = PKSPROPERTY_STEPPING_LONG(Members + 1); // BUGBUG these are from SB16 driver. // Are these valid. Range->Bounds.SignedMaximum = 0xE0000; // 14 (dB) * 0x10000 Range->Bounds.SignedMinimum = 0xFFF20000; // -14 (dB) * 0x10000 Range->SteppingDelta = 0x20000; // 2 (dB) * 0x10000 Range->Reserved = 0; // set the return value size PropertyRequest->ValueSize = cbFullProperty; } else { PropertyRequest->ValueSize = 0; ntStatus = STATUS_BUFFER_TOO_SMALL; } } else if(PropertyRequest->ValueSize >= sizeof(ULONG)) { // if return buffer can hold a ULONG, return the access flags PULONG AccessFlags = PULONG(PropertyRequest->Value); PropertyRequest->ValueSize = sizeof(ULONG); *AccessFlags = KSPROPERTY_TYPE_ALL; } else if (PropertyRequest->ValueSize == 0) { // Send the caller required value size. PropertyRequest->ValueSize = cbFullProperty; ntStatus = STATUS_BUFFER_OVERFLOW; } else { PropertyRequest->ValueSize = 0; ntStatus = STATUS_BUFFER_TOO_SMALL; } return ntStatus; } // PropertyHandlerBasicSupportVolume //============================================================================= NTSTATUS CMiniportTopologyMSVAD::PropertyHandlerCpuResources ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: Processes KSPROPERTY_AUDIO_CPURESOURCES Arguments: PropertyRequest - property request structure Return Value: NT status code. --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopologyMSVAD::PropertyHandlerCpuResources]")); NTSTATUS ntStatus = STATUS_INVALID_DEVICE_REQUEST; if (PropertyRequest->Verb & KSPROPERTY_TYPE_GET) { ntStatus = ValidatePropertyParams(PropertyRequest, sizeof(ULONG)); if (NT_SUCCESS(ntStatus)) { *(PLONG(PropertyRequest->Value)) = KSAUDIO_CPU_RESOURCES_NOT_HOST_CPU; PropertyRequest->ValueSize = sizeof(LONG); } } else if (PropertyRequest->Verb & KSPROPERTY_TYPE_BASICSUPPORT) { ntStatus = PropertyHandler_BasicSupport ( PropertyRequest, KSPROPERTY_TYPE_GET | KSPROPERTY_TYPE_BASICSUPPORT, VT_ILLEGAL ); } return ntStatus; } // PropertyHandlerCpuResources //============================================================================= NTSTATUS CMiniportTopologyMSVAD::PropertyHandlerGeneric ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: Handles all properties for this miniport. Arguments: PropertyRequest - property request structure Return Value: NT status code. --*/ { PAGED_CODE(); NTSTATUS ntStatus = STATUS_INVALID_DEVICE_REQUEST; switch (PropertyRequest->PropertyItem->Id) { case KSPROPERTY_AUDIO_VOLUMELEVEL: ntStatus = PropertyHandlerVolume(PropertyRequest); break; case KSPROPERTY_AUDIO_CPU_RESOURCES: ntStatus = PropertyHandlerCpuResources(PropertyRequest); break; case KSPROPERTY_AUDIO_MUTE: ntStatus = PropertyHandlerMute(PropertyRequest); break; case KSPROPERTY_AUDIO_MUX_SOURCE: ntStatus = PropertyHandlerMuxSource(PropertyRequest); break; default: DPF(D_TERSE, ("[PropertyHandlerGeneric: Invalid Device Request]")); } return ntStatus; } // PropertyHandlerGeneric //============================================================================= NTSTATUS CMiniportTopologyMSVAD::PropertyHandlerMute ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: Property handler for KSPROPERTY_AUDIO_MUTE Arguments: PropertyRequest - property request structure Return Value: NT status code. --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopologyMSVAD::PropertyHandlerMute]")); NTSTATUS ntStatus; LONG lChannel; PBOOL pfMute; if (PropertyRequest->Verb & KSPROPERTY_TYPE_BASICSUPPORT) { ntStatus = PropertyHandler_BasicSupport ( PropertyRequest, KSPROPERTY_TYPE_ALL, VT_BOOL ); } else { ntStatus = ValidatePropertyParams ( PropertyRequest, sizeof(BOOL), sizeof(LONG) ); if (NT_SUCCESS(ntStatus)) { lChannel = * PLONG (PropertyRequest->Instance); pfMute = PBOOL (PropertyRequest->Value); if (PropertyRequest->Verb & KSPROPERTY_TYPE_GET) { *pfMute = m_AdapterCommon->MixerMuteRead ( PropertyRequest->Node ); PropertyRequest->ValueSize = sizeof(BOOL); ntStatus = STATUS_SUCCESS; } else if (PropertyRequest->Verb & KSPROPERTY_TYPE_SET) { m_AdapterCommon->MixerMuteWrite ( PropertyRequest->Node, *pfMute ); ntStatus = STATUS_SUCCESS; } } else { DPF(D_TERSE, ("[PropertyHandlerMute - Invalid parameter]")); ntStatus = STATUS_INVALID_PARAMETER; } } return ntStatus; } // PropertyHandlerMute //============================================================================= NTSTATUS CMiniportTopologyMSVAD::PropertyHandlerMuxSource ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: PropertyHandler for KSPROPERTY_AUDIO_MUX_SOURCE. Arguments: PropertyRequest - property request structure Return Value: NT status code. --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopologyMSVAD::PropertyHandlerMuxSource]")); NTSTATUS ntStatus = STATUS_INVALID_DEVICE_REQUEST; // // Validate node // This property is only valid for WAVEIN_MUX node. // // TODO if (WAVEIN_MUX == PropertyRequest->Node) { if (PropertyRequest->ValueSize >= sizeof(ULONG)) { PULONG pulMuxValue = PULONG(PropertyRequest->Value); if (PropertyRequest->Verb & KSPROPERTY_TYPE_GET) { *pulMuxValue = m_AdapterCommon->MixerMuxRead(); PropertyRequest->ValueSize = sizeof(ULONG); ntStatus = STATUS_SUCCESS; } else if (PropertyRequest->Verb & KSPROPERTY_TYPE_SET) { m_AdapterCommon->MixerMuxWrite(*pulMuxValue); ntStatus = STATUS_SUCCESS; } else if (PropertyRequest->Verb & KSPROPERTY_TYPE_BASICSUPPORT) { ntStatus = PropertyHandler_BasicSupport ( PropertyRequest, KSPROPERTY_TYPE_ALL, VT_I4 ); } } else { DPF(D_TERSE, ("[PropertyHandlerMuxSource - Invalid parameter]")); ntStatus = STATUS_INVALID_PARAMETER; } } return ntStatus; } // PropertyHandlerMuxSource //============================================================================= NTSTATUS CMiniportTopologyMSVAD::PropertyHandlerVolume ( IN PPCPROPERTY_REQUEST PropertyRequest ) /*++ Routine Description: Property handler for KSPROPERTY_AUDIO_VOLUMELEVEL Arguments: PropertyRequest - property request structure Return Value: NT status code. --*/ { PAGED_CODE(); DPF_ENTER(("[CMiniportTopologyMSVAD::PropertyHandlerVolume]")); NTSTATUS ntStatus = STATUS_INVALID_DEVICE_REQUEST; LONG lChannel; PULONG pulVolume; if (PropertyRequest->Verb & KSPROPERTY_TYPE_BASICSUPPORT) { ntStatus = PropertyHandlerBasicSupportVolume(PropertyRequest); } else { ntStatus = ValidatePropertyParams ( PropertyRequest, sizeof(ULONG), sizeof(KSNODEPROPERTY_AUDIO_CHANNEL) ); if (NT_SUCCESS(ntStatus)) { lChannel = * (PLONG (PropertyRequest->Instance)); pulVolume = PULONG (PropertyRequest->Value); if (PropertyRequest->Verb & KSPROPERTY_TYPE_GET) { *pulVolume = m_AdapterCommon->MixerVolumeRead ( PropertyRequest->Node, lChannel ); PropertyRequest->ValueSize = sizeof(ULONG); ntStatus = STATUS_SUCCESS; } else if (PropertyRequest->Verb & KSPROPERTY_TYPE_SET) { m_AdapterCommon->MixerVolumeWrite ( PropertyRequest->Node, lChannel, *pulVolume ); ntStatus = STATUS_SUCCESS; } } else { DPF(D_TERSE, ("[PropertyHandlerVolume - Invalid parameter]")); ntStatus = STATUS_INVALID_PARAMETER; } } return ntStatus; } // PropertyHandlerVolume #pragma code_seg()