//--------------------------------------------------------------------------- // // Module: property.c // // Description: // // //@@BEGIN_MSINTERNAL // Development Team: // Andy Nicholson // // History: Date Author Comment // // To Do: Date Author Comment // //@@END_MSINTERNAL //--------------------------------------------------------------------------- // // THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY // KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR // PURPOSE. // // Copyright (c) 1996-1999 Microsoft Corporation. All Rights Reserved. // //--------------------------------------------------------------------------- #include "common.h" //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- #define IsTopologyProperty(x) (x & KSPROPERTY_TYPE_TOPOLOGY) //--------------------------------------------------------------------------- // // Copy pwstrString to pData. // Assumptions // - pIrp has already been verified. input buffer is probed and double // buffered. // NTSTATUS PropertyReturnString( IN PIRP pIrp, IN PWSTR pwstrString, IN ULONG cbString, OUT PVOID pData ) { NTSTATUS Status = STATUS_SUCCESS; PIO_STACK_LOCATION pIrpStack; ULONG cbNameBuffer; ULONG cbToCopy; pIrpStack = IoGetCurrentIrpStackLocation(pIrp); cbNameBuffer = pIrpStack->Parameters.DeviceIoControl.OutputBufferLength; // // If the size of the passed buffer is 0, then the // requestor wants to know the length of the string. // if (cbNameBuffer == 0) { pIrp->IoStatus.Information = cbString; Status = STATUS_BUFFER_OVERFLOW; } // // If the size of the passed buffer is a ULONG, then infer the // requestor wants to know the length of the string. // else if (cbNameBuffer == sizeof(ULONG)) { pIrp->IoStatus.Information = sizeof(ULONG); *((PULONG)pData) = cbString; } // // The buffer is too small, return error-code. // else if (cbNameBuffer < sizeof(ULONG)) { pIrp->IoStatus.Information = 0; Status = STATUS_BUFFER_TOO_SMALL; } else { // // Note that we don't check for zero-length buffer because ks handler // function should have done that already. // Even though we are getting back the length of the string (as though // it were a unicode string) it is being handed up as a double-byte // string, so this code assumes there is a null at the end. There // will be a bug here if there is no null. // // round down to whole wchar's cbNameBuffer &= ~(sizeof(WCHAR) - 1); cbToCopy = min(cbString, cbNameBuffer); RtlCopyMemory(pData, pwstrString, cbToCopy); // Ensure there is a null at the end ((PWCHAR)pData)[cbToCopy/sizeof(WCHAR) - 1] = (WCHAR)0; pIrp->IoStatus.Information = cbToCopy; } return(Status); } //--------------------------------------------------------------------------- NTSTATUS GetDeviceNodeFromDeviceIndex( IN PFILTER_INSTANCE pFilterInstance, IN ULONG ulDeviceIndex, OUT PDEVICE_NODE *ppDeviceNode ) { NTSTATUS Status = STATUS_SUCCESS; PDEVICE_NODE pDeviceNode; ASSERT(ppDeviceNode); ASSERT(pFilterInstance); *ppDeviceNode = NULL; if(ulDeviceIndex == MAXULONG) { pDeviceNode = pFilterInstance->GetDeviceNode(); if(pDeviceNode == NULL) { Status = STATUS_INVALID_PARAMETER; goto exit; } } else { Status = GetDeviceByIndex(ulDeviceIndex, &pDeviceNode); if(!NT_SUCCESS(Status)) { goto exit; } } if (NT_SUCCESS(Status)) { Assert(pDeviceNode); } *ppDeviceNode = pDeviceNode; exit: return Status; } // GetDeviceNodeFromDeviceIndex //--------------------------------------------------------------------------- NTSTATUS SetPreferredDevice( IN PIRP pIrp, IN PSYSAUDIO_PREFERRED_DEVICE pPreferred, IN PULONG pulDevice ) { PFILTER_INSTANCE pFilterInstance; NTSTATUS Status = STATUS_SUCCESS; PIO_STACK_LOCATION pIrpStack; PDEVICE_NODE pDeviceNode,OldDeviceNode; if (IsTopologyProperty(pPreferred->Property.Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); // // Validate input buffer. // if(pPreferred->Flags & ~SYSAUDIO_FLAGS_CLEAR_PREFERRED) { Status = STATUS_INVALID_PARAMETER; goto exit; } if(pPreferred->Index >= MAX_SYSAUDIO_DEFAULT_TYPE) { Trap(); Status = STATUS_INVALID_PARAMETER; goto exit; } if(pPreferred->Flags & SYSAUDIO_FLAGS_CLEAR_PREFERRED) { OldDeviceNode = apShingleInstance[pPreferred->Index]->GetDeviceNode(); if (OldDeviceNode) { OldDeviceNode->SetPreferredStatus( (KSPROPERTY_SYSAUDIO_DEFAULT_TYPE)pPreferred->Index, FALSE); } apShingleInstance[pPreferred->Index]->SetDeviceNode(NULL); DPF1(60, "SetPreferredDevice: CLEAR %d", pPreferred->Index); } else { Status = GetDeviceNodeFromDeviceIndex( pFilterInstance, *pulDevice, &pDeviceNode); if (!NT_SUCCESS(Status)) { goto exit; } OldDeviceNode = apShingleInstance[pPreferred->Index]->GetDeviceNode(); if (OldDeviceNode) { OldDeviceNode->SetPreferredStatus( (KSPROPERTY_SYSAUDIO_DEFAULT_TYPE)pPreferred->Index, FALSE); } apShingleInstance[pPreferred->Index]->SetDeviceNode(pDeviceNode); pDeviceNode->SetPreferredStatus( (KSPROPERTY_SYSAUDIO_DEFAULT_TYPE)pPreferred->Index, TRUE); DPF3(60, "SetPreferredDevice: %d SAD %d %s", pPreferred->Index, *pulDevice, pDeviceNode->DumpName()); } exit: return(Status); } NTSTATUS GetComponentIdProperty( IN PIRP pIrp, IN PKSPROPERTY pRequest, IN OUT PVOID pData ) { NTSTATUS Status = STATUS_SUCCESS; PFILTER_INSTANCE pFilterInstance; PIO_STACK_LOCATION pIrpStack; PDEVICE_NODE pDeviceNode; ULONG DeviceIndex = *(PULONG)(pRequest + 1); if (IsTopologyProperty(pRequest->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); Status = GetDeviceNodeFromDeviceIndex( pFilterInstance, DeviceIndex, &pDeviceNode); if (!NT_SUCCESS(Status)) { goto exit; } if(pDeviceNode->GetComponentId() == NULL) { // This should be STATUS_NOT_FOUND but returning this causes // FilterDispatchIoControl call ForwardIrpNode which asserts that this // is not a KSPROPSETID_Sysaudio property. Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } RtlCopyMemory( pData, pDeviceNode->GetComponentId(), sizeof(KSCOMPONENTID)); pIrp->IoStatus.Information = sizeof(KSCOMPONENTID); exit: return(Status); } NTSTATUS GetFriendlyNameProperty( IN PIRP pIrp, IN PKSPROPERTY pRequest, IN OUT PVOID pData ) { NTSTATUS Status = STATUS_SUCCESS; PFILTER_INSTANCE pFilterInstance; PIO_STACK_LOCATION pIrpStack; PDEVICE_NODE pDeviceNode; ULONG DeviceIndex = *(PULONG)(pRequest + 1); if (IsTopologyProperty(pRequest->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); Status = GetDeviceNodeFromDeviceIndex( pFilterInstance, DeviceIndex, &pDeviceNode); if (!NT_SUCCESS(Status)) { goto exit; } if(pDeviceNode->GetFriendlyName() == NULL) { Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } Status = PropertyReturnString( pIrp, pDeviceNode->GetFriendlyName(), (wcslen(pDeviceNode->GetFriendlyName()) * sizeof(WCHAR)) + sizeof(UNICODE_NULL), pData); if(!NT_SUCCESS(Status)) { goto exit; } exit: return(Status); } NTSTATUS GetDeviceCount( IN PIRP pIrp, IN PKSPROPERTY pRequest, IN OUT PVOID pData ) { if (IsTopologyProperty(pRequest->Flags)) { return STATUS_INVALID_PARAMETER; } if(gplstDeviceNode == NULL) { *(PULONG)pData = 0; } else { *(PULONG)pData = gplstDeviceNode->CountList(); } pIrp->IoStatus.Information = sizeof(ULONG); return(STATUS_SUCCESS); } NTSTATUS GetInstanceDevice( IN PIRP pIrp, IN PKSPROPERTY pRequest, IN OUT PVOID pData ) { NTSTATUS Status = STATUS_SUCCESS; PIO_STACK_LOCATION pIrpStack; PFILTER_INSTANCE pFilterInstance; PDEVICE_NODE pDeviceNode; ULONG Index; if (IsTopologyProperty(pRequest->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); pDeviceNode = pFilterInstance->GetDeviceNode(); if(pDeviceNode == NULL) { Status = STATUS_INVALID_PARAMETER; goto exit; } Status = pDeviceNode->GetIndexByDevice(&Index); if(NT_SUCCESS(Status)) { *(PULONG)pData = Index; pIrp->IoStatus.Information = sizeof(ULONG); } exit: return(Status); } NTSTATUS SetInstanceDevice( IN PIRP Irp, IN PKSPROPERTY Request, IN OUT PVOID Data ) { NTSTATUS Status = STATUS_SUCCESS; PFILTER_INSTANCE pFilterInstance; PIO_STACK_LOCATION pIrpStack; PDEVICE_NODE pDeviceNode; if (IsTopologyProperty(Request->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(Irp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); if(!pFilterInstance->IsChildInstance()) { DPF(5, "SetInstanceDevice: FAILED - open pin instances"); Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } Status = GetDeviceByIndex(*(PULONG)Data, &pDeviceNode); if(NT_SUCCESS(Status)) { Status = pFilterInstance->SetDeviceNode(pDeviceNode); if(!NT_SUCCESS(Status)) { goto exit; } } exit: return(Status); } NTSTATUS SetInstanceInfo( IN PIRP Irp, IN PSYSAUDIO_INSTANCE_INFO pInstanceInfo, IN OUT PVOID Data ) { NTSTATUS Status = STATUS_SUCCESS; PFILTER_INSTANCE pFilterInstance; PIO_STACK_LOCATION pIrpStack; PDEVICE_NODE pDeviceNode; if (IsTopologyProperty(pInstanceInfo->Property.Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(Irp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); if(pInstanceInfo->Flags & ~SYSAUDIO_FLAGS_DONT_COMBINE_PINS) { Status = STATUS_INVALID_PARAMETER; goto exit; } if(!pFilterInstance->IsChildInstance()) { Trap(); DPF(5, "SetInstanceInfo: FAILED - open pin instances"); Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } Status = GetDeviceByIndex(pInstanceInfo->DeviceNumber, &pDeviceNode); if(!NT_SUCCESS(Status)) { goto exit; } Assert(pDeviceNode); pFilterInstance->ulFlags |= FLAGS_COMBINE_PINS; if(pInstanceInfo->Flags & SYSAUDIO_FLAGS_DONT_COMBINE_PINS) { pFilterInstance->ulFlags &= ~FLAGS_COMBINE_PINS; } Status = pFilterInstance->SetDeviceNode(pDeviceNode); if(!NT_SUCCESS(Status)) { goto exit; } exit: return(Status); } NTSTATUS SetDeviceDefault( IN PIRP pIrp, IN PKSPROPERTY pRequest, IN OUT PULONG pData ) { NTSTATUS Status = STATUS_SUCCESS; PFILTER_INSTANCE pFilterInstance; PIO_STACK_LOCATION pIrpStack; if (IsTopologyProperty(pRequest->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); if(*pData >= MAX_SYSAUDIO_DEFAULT_TYPE) { Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } if(!pFilterInstance->IsChildInstance()) { Trap(); DPF(5, "SetDeviceDefault: FAILED - open pin instances"); Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } Status = pFilterInstance->SetShingleInstance(apShingleInstance[*pData]); if(!NT_SUCCESS(Status)) { goto exit; } exit: return(Status); } NTSTATUS GetDeviceInterfaceName( IN PIRP pIrp, IN PKSPROPERTY pRequest, IN OUT PVOID pData ) { PIO_STACK_LOCATION pIrpStack; PFILTER_INSTANCE pFilterInstance; NTSTATUS Status = STATUS_SUCCESS; PDEVICE_NODE pDeviceNode; ULONG DeviceIndex = *(PULONG)(pRequest + 1); if (IsTopologyProperty(pRequest->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pFilterInstance = (PFILTER_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pFilterInstance); Status = GetDeviceNodeFromDeviceIndex( pFilterInstance, DeviceIndex, &pDeviceNode); if (!NT_SUCCESS(Status)) { goto exit; } if(pDeviceNode->GetDeviceInterface() == NULL) { Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } Status = PropertyReturnString( pIrp, pDeviceNode->GetDeviceInterface(), (wcslen(pDeviceNode->GetDeviceInterface()) * sizeof(WCHAR)) + sizeof(UNICODE_NULL), pData); if(!NT_SUCCESS(Status)) { goto exit; } exit: return(Status); } NTSTATUS SelectGraph( IN PIRP pIrp, PSYSAUDIO_SELECT_GRAPH pSelectGraph, IN OUT PVOID pData ) { PGRAPH_NODE_INSTANCE pGraphNodeInstance; PTOPOLOGY_NODE pTopologyNode2; PTOPOLOGY_NODE pTopologyNode; PSTART_NODE pStartNode; NTSTATUS Status; if (IsTopologyProperty(pSelectGraph->Property.Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit2; } Status = ::GetGraphNodeInstance(pIrp, &pGraphNodeInstance); if(!NT_SUCCESS(Status)) { goto exit2; } Assert(pGraphNodeInstance); // // Parameter and state validation. // if(pGraphNodeInstance->palstTopologyNodeSelect == NULL || pGraphNodeInstance->palstTopologyNodeNotSelect == NULL) { DPF(5, "SelectGraph: palstTopologyNodeSelect == NULL"); Status = STATUS_INVALID_DEVICE_REQUEST; goto exit2; } if(pSelectGraph->Flags != 0 || pSelectGraph->Reserved != 0) { DPF(5, "SelectGraph: invalid flags or reserved field"); Status = STATUS_INVALID_PARAMETER; goto exit2; } if(pSelectGraph->PinId >= pGraphNodeInstance->cPins) { DPF(5, "SelectGraph: invalid pin id"); Status = STATUS_INVALID_PARAMETER; goto exit2; } if(pSelectGraph->NodeId >= pGraphNodeInstance->Topology.TopologyNodesCount) { DPF(5, "SelectGraph: invalid node id"); Status = STATUS_INVALID_PARAMETER; goto exit2; } pTopologyNode = pGraphNodeInstance->papTopologyNode[pSelectGraph->NodeId]; Assert(pTopologyNode); Assert(pGraphNodeInstance->pGraphNode); Assert(pGraphNodeInstance->pGraphNode->pDeviceNode); // // SECURITY NOTE: // SelectGraph is a very flexible property call that can change global // behavior. // Therefore we are limiting the usage explicitly for AecNodes. // if (!IsEqualGUID(pTopologyNode->pguidType, &KSNODETYPE_ACOUSTIC_ECHO_CANCEL) && !IsEqualGUID(pTopologyNode->pguidType, &KSNODETYPE_NOISE_SUPPRESS) && !IsEqualGUID(pTopologyNode->pguidType, &KSNODETYPE_AGC) && !IsEqualGUID(pTopologyNode->pguidType, &KSNODETYPE_MICROPHONE_ARRAY) && !IsEqualGUID(pTopologyNode->pguidType, &KSNODETYPE_MICROPHONE_ARRAY_PROCESSOR)) { DPF(5, "SelectGraph: None Aec node is selected"); Status = STATUS_INVALID_PARAMETER; goto exit2; } DPF2(90, "SelectGraph GNI %08X TN %08X", pGraphNodeInstance, pTopologyNode); // // A global select type of filter needs to be inserted to all // instances. // So if the client is trying to insert a global_select node and if // there are graph instances that do not have the node, the request will // fail. // if(pTopologyNode->pFilterNode->GetType() & FILTER_TYPE_GLOBAL_SELECT && pGraphNodeInstance->paPinDescriptors[pSelectGraph->PinId].DataFlow == KSPIN_DATAFLOW_IN) { PSTART_NODE_INSTANCE pStartNodeInstance; PFILTER_INSTANCE pFilterInstance; FOR_EACH_LIST_ITEM( &pGraphNodeInstance->pGraphNode->pDeviceNode->lstFilterInstance, pFilterInstance) { if(pFilterInstance->pGraphNodeInstance == NULL) { continue; } Assert(pFilterInstance->pGraphNodeInstance); FOR_EACH_LIST_ITEM( &pFilterInstance->pGraphNodeInstance->lstStartNodeInstance, pStartNodeInstance) { if(EnumerateGraphTopology( pStartNodeInstance->pStartNode->GetStartInfo(), (TOP_PFN)FindTopologyNode, pTopologyNode) == STATUS_CONTINUE) { DPF2(5, "SelectGraph: TN %08x not found on SNI %08x", pTopologyNode, pStartNodeInstance); Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } } END_EACH_LIST_ITEM } END_EACH_LIST_ITEM Status = pGraphNodeInstance-> lstTopologyNodeGlobalSelect.AddListDup(pTopologyNode); if(!NT_SUCCESS(Status)) { Trap(); goto exit; } } else { Status = pGraphNodeInstance-> palstTopologyNodeSelect[pSelectGraph->PinId].AddList(pTopologyNode); if(!NT_SUCCESS(Status)) { Trap(); goto exit; } } // // If this is a "not select" type filter like AEC or Mic Array, then all // the nodes in the filter have to be remove from the not select list, // otherwise IsGraphValid will never find a valid graph. // if(pTopologyNode->pFilterNode->GetType() & FILTER_TYPE_NOT_SELECT) { FOR_EACH_LIST_ITEM( &pTopologyNode->pFilterNode->lstTopologyNode, pTopologyNode2) { pGraphNodeInstance->palstTopologyNodeNotSelect[ pSelectGraph->PinId].RemoveList(pTopologyNode2); DPF2(50, " Removing %s NodeId %d",\ pTopologyNode2->pFilterNode->DumpName(), pTopologyNode2->ulSysaudioNodeNumber); } END_EACH_LIST_ITEM } // // Validate that there is a valid path though the graph after updating // the various global, select and not select lists. // DPF(90, "SelectGraph: Validating Graph"); FOR_EACH_LIST_ITEM( pGraphNodeInstance->aplstStartNode[pSelectGraph->PinId], pStartNode) { DPF2(90, " SN: %X %s", pStartNode, pStartNode->GetStartInfo()->GetPinInfo()->pFilterNode->DumpName()); Assert(pStartNode); if(pGraphNodeInstance->IsGraphValid( pStartNode, pSelectGraph->PinId)) { Status = STATUS_SUCCESS; goto exit; } else { DPF(90, " IsGraphValid failed"); } } END_EACH_LIST_ITEM // // The select graph failed so restore the not select list back to normal // if(pTopologyNode->pFilterNode->GetType() & FILTER_TYPE_NOT_SELECT) { FOR_EACH_LIST_ITEM( &pTopologyNode->pFilterNode->lstTopologyNode, pTopologyNode2) { pGraphNodeInstance->palstTopologyNodeNotSelect[ pSelectGraph->PinId].AddList(pTopologyNode2); } END_EACH_LIST_ITEM } Status = STATUS_INVALID_DEVICE_REQUEST; exit: if(!NT_SUCCESS(Status)) { pGraphNodeInstance-> palstTopologyNodeSelect[pSelectGraph->PinId].RemoveList(pTopologyNode); pGraphNodeInstance-> lstTopologyNodeGlobalSelect.RemoveList(pTopologyNode); } exit2: return(Status); } //--------------------------------------------------------------------------- NTSTATUS GetTopologyConnectionIndex( IN PIRP pIrp, IN PKSPROPERTY pProperty, OUT PULONG pulIndex ) { PSTART_NODE_INSTANCE pStartNodeInstance; NTSTATUS Status = STATUS_SUCCESS; if (IsTopologyProperty(pProperty->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } Status = ::GetStartNodeInstance(pIrp, &pStartNodeInstance); if(!NT_SUCCESS(Status)) { Trap(); goto exit; } Assert(pStartNodeInstance); Assert(pStartNodeInstance->pStartNode); Assert(pStartNodeInstance->pStartNode->GetStartInfo()); *pulIndex = pStartNodeInstance->pStartNode->GetStartInfo()-> ulTopologyConnectionTableIndex; pIrp->IoStatus.Information = sizeof(ULONG); exit: return(Status); } NTSTATUS GetPinVolumeNode( IN PIRP pIrp, IN PKSPROPERTY pProperty, OUT PULONG pulNode ) { PIO_STACK_LOCATION pIrpStack; PPIN_INSTANCE pPinInstance; NTSTATUS Status; if (IsTopologyProperty(pProperty->Flags)) { Status = STATUS_INVALID_PARAMETER; goto exit; } pIrpStack = IoGetCurrentIrpStackLocation(pIrp); pPinInstance = (PPIN_INSTANCE)pIrpStack->FileObject->FsContext; Assert(pPinInstance); Status = GetVolumeNodeNumber(pPinInstance, NULL); if(!NT_SUCCESS(Status)) { Trap(); goto exit; } if(pPinInstance->ulVolumeNodeNumber == MAXULONG) { DPF(5, "GetPinVolumeNode: no volume node found"); Status = STATUS_INVALID_DEVICE_REQUEST; goto exit; } *pulNode = pPinInstance->ulVolumeNodeNumber; pIrp->IoStatus.Information = sizeof(ULONG); exit: return(Status); } NTSTATUS AddRemoveGfx( IN PIRP pIrp, IN PKSPROPERTY pProperty, IN PSYSAUDIO_GFX pSysaudioGfx ) { NTSTATUS Status = STATUS_SUCCESS; PIO_STACK_LOCATION pIrpStack; ULONG cbMaxLength; if (IsTopologyProperty(pProperty->Flags)) { return STATUS_INVALID_PARAMETER; } // // Make sure that this is bufferred IO. // The rest of this function assumes bufferred IO. // if (NULL == pIrp->AssociatedIrp.SystemBuffer) { DPF(5, "AddRemoveGFX: Only Bufferred IO"); return STATUS_INVALID_PARAMETER; } // // Parameter validation for SYSAUDIO_GFX. // if (pSysaudioGfx->ulType != GFX_DEVICETYPE_RENDER && pSysaudioGfx->ulType != GFX_DEVICETYPE_CAPTURE) { DPF(5, "AddRemoveGFX: Invalid GFX type"); return STATUS_INVALID_PARAMETER; } // // Make sure that the offsets are within the range. // pIrpStack = IoGetCurrentIrpStackLocation(pIrp); cbMaxLength = pIrpStack->Parameters.DeviceIoControl.OutputBufferLength - sizeof(SYSAUDIO_GFX); if (pIrpStack->Parameters.DeviceIoControl.OutputBufferLength < pSysaudioGfx->ulDeviceNameOffset || pIrpStack->Parameters.DeviceIoControl.OutputBufferLength < pSysaudioGfx->ulDeviceNameOffset) { DPF2(5, "AddRemoveGFX: Invalid NameOffset %d %d", pSysaudioGfx->ulDeviceNameOffset, pSysaudioGfx->ulDeviceNameOffset); return STATUS_INVALID_PARAMETER; } if(pSysaudioGfx->Enable) { Status = AddGfx(pSysaudioGfx, cbMaxLength); } else { Status = RemoveGfx(pSysaudioGfx, cbMaxLength); } return(Status); }