/*++ Copyright (c) 1997 Microsoft Corporation Module Name: resource.c Abstract: Common routines for handling resource requirements Author: John Vert (jvert) 10/25/1997 Revision History: --*/ #include "agplib.h" PCM_RESOURCE_LIST ApSplitResourceList( IN PCM_RESOURCE_LIST ResourceList, OUT PCM_RESOURCE_LIST *NewResourceList ); #ifdef ALLOC_PRAGMA #pragma alloc_text(PAGE, AgpFilterResourceRequirements) #pragma alloc_text(PAGE, AgpFilterResourceRequirementsHost) #pragma alloc_text(PAGE, Agp3FilterResourceRequirementsBridge) #pragma alloc_text(PAGE, AgpStartTarget) #pragma alloc_text(PAGE, AgpStartTargetHost) #pragma alloc_text(PAGE, Agp3StartTargetBridge) #pragma alloc_text(PAGE, ApSplitResourceList) #endif static BOOLEAN ResourceConflict = FALSE; NTSTATUS AgpFilterResourceRequirements( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Dexscription: One level of indirection through fuinction pointer for non-performance critical filtering of AGP resources during init Arguments: DeviceObject - Supplies the device object Irp - Supplies the IRP_MN_QUERY_RESOURCE_REQUIREMENTS Irp Extension - Supplies the device extension Return Value: NTASTATUS --*/ { PAGED_CODE(); return (Extension->FilterResourceRquirements)(DeviceObject, Irp, Extension); } NTSTATUS Agp3FilterResourceRequirementsBridge( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Description: Completion routine for IRP_MN_QUERY_RESOURCE_REQUIREMENTS, we filter in the alternate AGP bridge resource requirements Arguments: DeviceObject - Supplies the device object Irp - Supplies the IRP_MN_QUERY_RESOURCE_REQUIREMENTS Irp Extension - Supplies the device extension Return Value: NTSTATUS --*/ { ULONG ApertureSize; NTSTATUS Status; ULONG AddCount; PHYSICAL_ADDRESS CurrentBase; ULONG CurrentSizeInPages; PIO_RESOURCE_REQUIREMENTS_LIST OldRequirements; PIO_RESOURCE_REQUIREMENTS_LIST NewRequirements; ULONG NewSize; ULONG Alternative; PIO_RESOURCE_LIST OldResourceList; PIO_RESOURCE_LIST NewResourceList; PIO_RESOURCE_DESCRIPTOR Descriptor; PIO_STACK_LOCATION IrpSp; PIO_RESOURCE_LIST ApertureRequirements = NULL; BOOLEAN ResourceFound; BOOLEAN NukeAlternative; ULONG Index; ULONG NewIndex; PAGED_CODE(); AGPLOG(AGP_NOISE, ("Agp3QueryResourceRequirementsBridge: IRP %08lx, resource %08lx\n", Irp, Irp->IoStatus.Information)); IrpSp = IoGetCurrentIrpStackLocation(Irp); // // Create a new resource requirements list with our alternate aperture // settings tacked onto the bridge's BAR // OldRequirements = IrpSp->Parameters.FilterResourceRequirements.IoResourceRequirementList; if (OldRequirements == NULL) { //STATUS_INVALID_DEVICE_REQUEST // PNP helpfully passes us a NULL pointer instead of an empty // resource list when the bridge is disabled. In this case we will // ignore this irp and not add on our requirements since they are // not going to be used anyway. // return(STATUS_SUCCESS); } // // Get the current GART aperture. // Status = AgpQueryAperture(GET_AGP_CONTEXT(Extension), &CurrentBase, &CurrentSizeInPages, &ApertureRequirements); if (!NT_SUCCESS(Status)) { AGPLOG(AGP_CRITICAL, ("Agp3QueryResourceRequirementsBridge: AgpQueryAperture %08lx " "failed %08lx\n", Extension, Status)); return(Status); } AGPLOG(AGP_NOISE, ("Agp3QueryResourceRequirementsBridge: aperture at %I64x, length " "%08lx pages, Requirements %08lx\n", CurrentBase.QuadPart, CurrentSizeInPages, ApertureRequirements)); // // We will add IO_RESOURCE_DESCRIPTORs to each alternative, after the // current bridge's BAR // // // Find the AGP bridge BAR's position in the list(s) // NukeAlternative = FALSE; ResourceFound = FALSE; OldResourceList = &OldRequirements->List[0]; for (Alternative = 0; Alternative < OldRequirements->AlternativeLists; Alternative++) { for (Index = 0; Index < OldResourceList->Count; Index++) { Descriptor = &OldResourceList->Descriptors[Index]; if ((Descriptor->Option == IO_RESOURCE_PREFERRED) && (Descriptor->Type == CmResourceTypeMemory)) { if (Descriptor->u.Memory.MinimumAddress.QuadPart == CurrentBase.QuadPart) { Extension->Agp3BridgeResourceIndex = Index; ResourceFound = TRUE; // // Check if PCI already crufted up an alternative // descriptor that we should nuke // if ((Index + 1) < OldResourceList->Count) { Descriptor++; if (Descriptor->Option == IO_RESOURCE_ALTERNATIVE) { NukeAlternative = TRUE; } } break; } } } OldResourceList = (PIO_RESOURCE_LIST)(OldResourceList->Descriptors + OldResourceList->Count); } // // No resource in the list matches our current setting! // if (!ResourceFound) { AGPLOG(AGP_CRITICAL, ("AGP3 bridge misconfigured, please contact " "system manufacturer for a BIOS upgrade.\n")); AGP_ASSERT(FALSE); return STATUS_INVALID_PARAMETER; // This should be interesting! } // // Again, this should never happen, but if it ever did, then we'd have // to exit now... // if (ApertureRequirements == NULL) { return STATUS_SUCCESS; } NewSize = (NukeAlternative) ? OldRequirements->ListSize - (OldRequirements->AlternativeLists * sizeof(IO_RESOURCE_DESCRIPTOR)): OldRequirements->ListSize; NewSize += sizeof(IO_RESOURCE_DESCRIPTOR) * (ApertureRequirements->Count * OldRequirements->AlternativeLists); NewRequirements = ExAllocatePool(PagedPool, NewSize); if (NewRequirements == NULL) { ExFreePool(ApertureRequirements); return(STATUS_INSUFFICIENT_RESOURCES); } NewRequirements->ListSize = NewSize; NewRequirements->InterfaceType = OldRequirements->InterfaceType; NewRequirements->BusNumber = OldRequirements->BusNumber; NewRequirements->SlotNumber = OldRequirements->SlotNumber; NewRequirements->AlternativeLists = OldRequirements->AlternativeLists; // // Append our requirement to each alternative resource list. // NewResourceList = &NewRequirements->List[0]; OldResourceList = &OldRequirements->List[0]; for (Alternative = 0; Alternative < OldRequirements->AlternativeLists; Alternative++) { // // Copy the old resource list into the new one. // NewResourceList->Version = OldResourceList->Version; NewResourceList->Revision = OldResourceList->Revision; NewResourceList->Count = OldResourceList->Count + ApertureRequirements->Count; if (NukeAlternative) { NewResourceList->Count--; } Index = 0; NewIndex = 0; while (Index < OldResourceList->Count) { NewResourceList->Descriptors[NewIndex] = OldResourceList->Descriptors[Index]; // // This is the AGP bridge BAR, tack on alternatives here // if (Index == Extension->Agp3BridgeResourceIndex) { AGP_ASSERT((NewIndex + ApertureRequirements->Count) < NewResourceList->Count); RtlCopyMemory(&NewResourceList->Descriptors[NewIndex + 1], &ApertureRequirements->Descriptors[0], ApertureRequirements->Count * sizeof(IO_RESOURCE_DESCRIPTOR)); NewIndex += ApertureRequirements->Count; if (NukeAlternative) { Index++; } } Index++; NewIndex++; } // // Advance to next resource list // NewResourceList = (PIO_RESOURCE_LIST)(NewResourceList->Descriptors + NewResourceList->Count); OldResourceList = (PIO_RESOURCE_LIST)(OldResourceList->Descriptors + OldResourceList->Count); } AGPLOG(AGP_NOISE, ("Agp3QueryResourceRequirementsBridge: IRP %p, old resources %p, " "new resources %p\n", Irp, OldRequirements, NewRequirements)); IrpSp->Parameters.FilterResourceRequirements.IoResourceRequirementList = NewRequirements; Irp->IoStatus.Information = (ULONG_PTR)NewRequirements; ExFreePool(OldRequirements); ExFreePool(ApertureRequirements); return STATUS_SUCCESS; } NTSTATUS AgpFilterResourceRequirementsHost( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Description: Completion routine for IRP_MN_QUERY_RESOURCE_REQUIREMENTS. This adds on the AGP resource requirements. Arguments: DeviceObject - Supplies the device object Irp - Supplies the IRP_MN_QUERY_RESOURCE_REQUIREMENTS Irp Extension - Supplies the device extension Return Value: NTSTATUS --*/ { BOOLEAN SwapDescriptor; ULONG SwapLength; ULONG ApertureSize; NTSTATUS Status; ULONG AddCount; PHYSICAL_ADDRESS CurrentBase; PHYSICAL_ADDRESS MaxAddr; ULONG CurrentSizeInPages; PIO_RESOURCE_REQUIREMENTS_LIST OldRequirements; PIO_RESOURCE_REQUIREMENTS_LIST NewRequirements; ULONG NewSize; ULONG Alternative; PIO_RESOURCE_LIST OldResourceList; PIO_RESOURCE_LIST NewResourceList; PIO_RESOURCE_DESCRIPTOR Descriptor; PIO_STACK_LOCATION IrpSp; PIO_RESOURCE_LIST ApertureRequirements = NULL; ULONG i; PAGED_CODE(); AGPLOG(AGP_NOISE, ("AgpQueryResourceRequirements - IRP %08lx, resource %08lx\n", Irp, Irp->IoStatus.Information)); IrpSp = IoGetCurrentIrpStackLocation(Irp); // // Create a new resource requirements list with our current aperture // settings tacked on the end. // OldRequirements = IrpSp->Parameters.FilterResourceRequirements.IoResourceRequirementList; if (OldRequirements == NULL) { //STATUS_INVALID_DEVICE_REQUEST // PNP helpfully passes us a NULL pointer instead of an empty resource list // when the bridge is disabled. In this case we will ignore this irp and not // add on our requirements since they are not going to be used anyway. // return(STATUS_SUCCESS); } // // Get the current GART aperture. // Status = AgpQueryAperture(GET_AGP_CONTEXT(Extension), &CurrentBase, &CurrentSizeInPages, &ApertureRequirements); if (!NT_SUCCESS(Status)) { AGPLOG(AGP_CRITICAL, ("AgpQueryResourceRequirements - AgpQueryAperture %08lx failed %08lx\n", Extension, Status)); return(Status); } ApertureSize = (CurrentSizeInPages * PAGE_SIZE); MaxAddr.QuadPart = CurrentBase.QuadPart + ApertureSize - 1; AGPLOG(AGP_NOISE, ("AgpQueryResourceRequirements - aperture at %I64x, length %08lx pages, Requirements %08lx\n", CurrentBase.QuadPart, CurrentSizeInPages, ApertureRequirements)); // // We will add IO_RESOURCE_DESCRIPTORs to each alternative. // // The first one is a private data type marked with our signature. This is // a marker so that we know which descriptors are ours so we can remove // them later. // // The second is the actual descriptor for the current aperture settings. // This is marked as preferred. // // Following this is the requirements returned from AgpQueryAperture. These // get marked as alternatives. // AddCount = 2; // // Enumerate the old list looking for any preferred descriptor that // conflicts with our preferred settings; if we find one, then the BIOS // is whack, and we will throw out our preferred descriptor, and let PnP // choose from our alternates // ResourceConflict = FALSE; OldResourceList = &OldRequirements->List[0]; for (Alternative = 0; Alternative < OldRequirements->AlternativeLists; Alternative++) { for (i = 0; i < OldResourceList->Count; i++) { Descriptor = &OldResourceList->Descriptors[i]; if ((Descriptor->Option == IO_RESOURCE_PREFERRED) && (Descriptor->Type == CmResourceTypeMemory)) { if (((Descriptor->u.Memory.MinimumAddress.QuadPart >= CurrentBase.QuadPart) && (Descriptor->u.Memory.MinimumAddress.QuadPart <= MaxAddr.QuadPart)) || ((Descriptor->u.Memory.MaximumAddress.QuadPart >= CurrentBase.QuadPart) && (Descriptor->u.Memory.MaximumAddress.QuadPart <= MaxAddr.QuadPart)) || ((Descriptor->u.Memory.MinimumAddress.QuadPart < CurrentBase.QuadPart) && (Descriptor->u.Memory.MaximumAddress.QuadPart > MaxAddr.QuadPart))) { AGPLOG(AGP_CRITICAL, ("AgpQueryResourceRequirements - Conflicted " "resource detected: %I64X - %I64X\n", Descriptor->u.Memory.MinimumAddress.QuadPart, Descriptor->u.Memory.MaximumAddress.QuadPart)); // // This preferred descriptor is in conflic with our AGP // preferred setting // #if defined(_IA64_) AGPLOG(AGP_CRITICAL, ("Please contact system manufacturer " "for a BIOS upgrade.\n")); #else // _IA64_ AddCount = 1; ResourceConflict = TRUE; #endif // _IA64_ break; } } } OldResourceList = (PIO_RESOURCE_LIST)(OldResourceList->Descriptors + OldResourceList->Count); } // // // For IA64, PnP cannot reassign the aperture base, so we can only use // the "preferred" descriptor // if (ApertureRequirements) { AddCount += ApertureRequirements->Count; } NewSize = OldRequirements->ListSize; NewSize += sizeof(IO_RESOURCE_DESCRIPTOR) * (AddCount * OldRequirements->AlternativeLists); NewRequirements = ExAllocatePool(PagedPool, NewSize); if (NewRequirements == NULL) { if (ApertureRequirements) { ExFreePool(ApertureRequirements); } return(STATUS_INSUFFICIENT_RESOURCES); } NewRequirements->ListSize = NewSize; NewRequirements->InterfaceType = OldRequirements->InterfaceType; NewRequirements->BusNumber = OldRequirements->BusNumber; NewRequirements->SlotNumber = OldRequirements->SlotNumber; NewRequirements->AlternativeLists = OldRequirements->AlternativeLists; // // Append our requirement to each alternative resource list. // NewResourceList = &NewRequirements->List[0]; OldResourceList = &OldRequirements->List[0]; for (Alternative = 0; Alternative < OldRequirements->AlternativeLists; Alternative++) { // // Copy the old resource list into the new one. // NewResourceList->Version = OldResourceList->Version; NewResourceList->Revision = OldResourceList->Revision; NewResourceList->Count = OldResourceList->Count + AddCount; RtlCopyMemory(&NewResourceList->Descriptors[0], &OldResourceList->Descriptors[0], OldResourceList->Count * sizeof(IO_RESOURCE_DESCRIPTOR)); Descriptor = &NewResourceList->Descriptors[OldResourceList->Count]; // // Append the marker descriptor // Descriptor->Option = 0; Descriptor->Flags = 0; Descriptor->Type = CmResourceTypeDevicePrivate; Descriptor->ShareDisposition = CmResourceShareDeviceExclusive; Descriptor->u.DevicePrivate.Data[0] = AgpPrivateResource; Descriptor->u.DevicePrivate.Data[1] = 1; ++Descriptor; // // Append the new descriptor // if (!ResourceConflict) { Descriptor->Option = IO_RESOURCE_PREFERRED; Descriptor->Flags = CM_RESOURCE_MEMORY_READ_WRITE | CM_RESOURCE_MEMORY_PREFETCHABLE; Descriptor->Type = CmResourceTypeMemory; Descriptor->ShareDisposition = CmResourceShareDeviceExclusive; Descriptor->u.Memory.Length = CurrentSizeInPages * PAGE_SIZE; Descriptor->u.Memory.Alignment = CurrentSizeInPages * PAGE_SIZE; Descriptor->u.Memory.MinimumAddress = CurrentBase; Descriptor->u.Memory.MaximumAddress = MaxAddr; ++Descriptor; } // // Append the alternatives // if (ApertureRequirements) { SwapDescriptor = FALSE; for (i = 0; i < ApertureRequirements->Count; i++) { // // Make sure this descriptor makes sense // ASSERT(ApertureRequirements->Descriptors[i].Flags == (CM_RESOURCE_MEMORY_READ_WRITE | CM_RESOURCE_MEMORY_PREFETCHABLE)); ASSERT(ApertureRequirements->Descriptors[i].Type == CmResourceTypeMemory); ASSERT(ApertureRequirements->Descriptors[i].ShareDisposition == CmResourceShareDeviceExclusive); *Descriptor = ApertureRequirements->Descriptors[i]; // // In this case we nuked our preferred descriptor so mark the // first alternate as preferred // if ((i == 0) && ResourceConflict) { Descriptor->Option = IO_RESOURCE_PREFERRED; if (Descriptor->u.Memory.Length != ApertureSize) { SwapLength = Descriptor->u.Memory.Length; Descriptor->u.Memory.Length = ApertureSize; Descriptor->u.Memory.Alignment = ApertureSize; SwapDescriptor = TRUE; } } else { Descriptor->Option = IO_RESOURCE_ALTERNATIVE; if (SwapDescriptor) { if (Descriptor->u.Memory.Length == ApertureSize) { Descriptor->u.Memory.Length = SwapLength; Descriptor->u.Memory.Alignment = SwapLength; SwapDescriptor = FALSE; } } } ++Descriptor; } } // // Advance to next resource list // NewResourceList = (PIO_RESOURCE_LIST)(NewResourceList->Descriptors + NewResourceList->Count); OldResourceList = (PIO_RESOURCE_LIST)(OldResourceList->Descriptors + OldResourceList->Count); } AGPLOG(AGP_NOISE, ("AgpQueryResourceRequirements - IRP %p, old resources %p, new resources %p\n", Irp, OldRequirements, NewRequirements)); IrpSp->Parameters.FilterResourceRequirements.IoResourceRequirementList = NewRequirements; Irp->IoStatus.Information = (ULONG_PTR)NewRequirements; ExFreePool(OldRequirements); if (ApertureRequirements) { ExFreePool(ApertureRequirements); } return(STATUS_SUCCESS); } NTSTATUS AgpQueryResources( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Description: Completion routine for IRP_MN_QUERY_RESOURCES. This adds on the AGP resources Arguments: DeviceObject - Supplies the device object Irp - Supplies the IRP_MN_QUERY_RESOURCES Irp Extension - Supplies the device extension Return Value: NTSTATUS --*/ { if (Irp->PendingReturned) { IoMarkIrpPending(Irp); } AGPLOG(AGP_NOISE, ("AgpQueryResources - IRP %08lx, resource %08lx\n", Irp, Irp->IoStatus.Information)); return(STATUS_SUCCESS); } NTSTATUS AgpStartTarget( IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Description: One level of indirection through fuinction pointer for non-performance critical initialization of AGP3 target bridge Arguments: Irp - supplies the IRP_MN_START_DEVICE Irp. Extension - Supplies the device extension. Return Value: NTSTATUS --*/ { PAGED_CODE(); return (Extension->StartTarget)(Irp, Extension); } NTSTATUS AgpStartTargetHost( IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Description: Filters out the AGP-specific resource requirements on a IRP_MN_START_DEVICE Irp. Arguments: Irp - supplies the IRP_MN_START_DEVICE Irp. Extension - Supplies the device extension. Return Value: NTSTATUS --*/ { PIO_STACK_LOCATION irpSp; PCM_RESOURCE_LIST NewResources; PCM_RESOURCE_LIST NewResourcesTranslated; PCM_RESOURCE_LIST AgpAllocatedResources; PCM_RESOURCE_LIST AgpAllocatedResourcesTranslated; NTSTATUS Status; PCM_PARTIAL_RESOURCE_DESCRIPTOR Descriptor; PAGED_CODE(); irpSp = IoGetCurrentIrpStackLocation(Irp); AGPLOG(AGP_NOISE, ("AgpStartTargetHost: IRP %08lx, resource %08lx\n", Irp, Irp->IoStatus.Information)); if (irpSp->Parameters.StartDevice.AllocatedResources != NULL) { KEVENT event; // // Find our private descriptors and split them out into // our own resource list // Extension->Resources = ApSplitResourceList(irpSp->Parameters.StartDevice.AllocatedResources, &NewResources); Extension->ResourcesTranslated = ApSplitResourceList(irpSp->Parameters.StartDevice.AllocatedResourcesTranslated, &NewResourcesTranslated); // // Split resources will return two NULL lists when we run low // memory, so we only need to check one of its return values // if ((NewResources == NULL) || (NewResourcesTranslated == NULL)) { Status = STATUS_INSUFFICIENT_RESOURCES; } else { ASSERT(Extension->Resources->Count == 1); ASSERT(Extension->Resources->List[0].PartialResourceList.Count == 1); Descriptor = &Extension->Resources->List[0].PartialResourceList.PartialDescriptors[0]; ASSERT(Descriptor->Type == CmResourceTypeMemory); Extension->GartBase = Descriptor->u.Memory.Start; Extension->GartLengthInPages = Descriptor->u.Memory.Length / PAGE_SIZE; // // Set the new GART aperture // Status = AgpSetAperture(GET_AGP_CONTEXT(Extension), Extension->GartBase, Extension->GartLengthInPages); } ASSERT(NT_SUCCESS(Status)); Irp->IoStatus.Status = Status ; if (!NT_SUCCESS(Status) ) { AGPLOG(AGP_CRITICAL, ("AgpStartTargetHost: AgpSetAperture to %I64X, %08lx " "failed %08lx\n", Extension->GartBase.QuadPart, Extension->GartLengthInPages * PAGE_SIZE, Status)); Irp->IoStatus.Status = Status; IoCompleteRequest(Irp, IO_NO_INCREMENT); if (NewResources != NULL) { ExFreePool(NewResources); ExFreePool(Extension->Resources); Extension->Resources = NULL; } if (NewResourcesTranslated != NULL) { ExFreePool(NewResourcesTranslated); ExFreePool(Extension->ResourcesTranslated); Extension->ResourcesTranslated = NULL; } return(Status); } KeInitializeEvent(&event, NotificationEvent, FALSE); // // Set up the new parameters for the PCI driver. // irpSp->Parameters.StartDevice.AllocatedResources = NewResources; irpSp->Parameters.StartDevice.AllocatedResourcesTranslated = NewResourcesTranslated; IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine(Irp, AgpSetEventCompletion, &event, TRUE, TRUE, TRUE); // // Pass down the driver stack // Status = IoCallDriver(Extension->CommonExtension.AttachedDevice, Irp); // // If we did things asynchronously then wait on our event // if (Status == STATUS_PENDING) { // // We do a KernelMode wait so that our stack where the event is // doesn't get paged out! // KeWaitForSingleObject(&event, Executive, KernelMode, FALSE, NULL); Status = Irp->IoStatus.Status; } ExFreePool(irpSp->Parameters.StartDevice.AllocatedResources); ExFreePool(irpSp->Parameters.StartDevice.AllocatedResourcesTranslated); IoCompleteRequest(Irp, IO_NO_INCREMENT) ; return Status; } // // The bridge is disabled, we have been passed a NULL pointer // instead of an empty resource list. There is nothing to do other // than pass down the irp // IoSkipCurrentIrpStackLocation(Irp); return(IoCallDriver(Extension->CommonExtension.AttachedDevice, Irp)); } NTSTATUS Agp3StartTargetBridge( IN PIRP Irp, IN PTARGET_EXTENSION Extension ) /*++ Routine Description: Filters out the AGP-specific resource requirements on a IRP_MN_START_DEVICE Irp. Arguments: Irp - supplies the IRP_MN_START_DEVICE Irp. Extension - Supplies the device extension. Return Value: NTSTATUS --*/ { PIO_STACK_LOCATION irpSp; PCM_RESOURCE_LIST NewResources; PCM_RESOURCE_LIST NewResourcesTranslated; PCM_RESOURCE_LIST AgpAllocatedResources; PCM_RESOURCE_LIST AgpAllocatedResourcesTranslated; NTSTATUS Status; PCM_PARTIAL_RESOURCE_DESCRIPTOR Descriptor; PAGED_CODE(); irpSp = IoGetCurrentIrpStackLocation(Irp); AGPLOG(AGP_NOISE, ("Agp3StartTargetBridge: IRP %08lx, resource %08lx\n", Irp, Irp->IoStatus.Information)); if (irpSp->Parameters.StartDevice.AllocatedResources != NULL) { KEVENT event; ASSERT(irpSp->Parameters.StartDevice.AllocatedResources->Count == 1); // // We better have located our aperture resource, or we're // in trouble // if (Extension->Agp3BridgeResourceIndex == JUNK_INDEX) { Status = STATUS_INVALID_PARAMETER; } else { ASSERT(irpSp->Parameters.StartDevice.AllocatedResources->List[0].PartialResourceList.Count >= Extension->Agp3BridgeResourceIndex); Descriptor = &irpSp->Parameters.StartDevice.AllocatedResources->List[0].PartialResourceList.PartialDescriptors[Extension->Agp3BridgeResourceIndex]; ASSERT(Descriptor->Type == CmResourceTypeMemory); Extension->GartBase = Descriptor->u.Memory.Start; Extension->GartLengthInPages = Descriptor->u.Memory.Length / PAGE_SIZE; // // Set the new GART aperture // Status = AgpSetAperture(GET_AGP_CONTEXT(Extension), Extension->GartBase, Extension->GartLengthInPages); } ASSERT(NT_SUCCESS(Status)); Irp->IoStatus.Status = Status; if (!NT_SUCCESS(Status) ) { AGPLOG(AGP_CRITICAL, ("Agp3StartTargetbridge: AgpSetAperture to %I64X, %08lx " "failed %08lx\n", Extension->GartBase.QuadPart, Extension->GartLengthInPages * PAGE_SIZE, Status)); Irp->IoStatus.Status = Status; IoCompleteRequest(Irp, IO_NO_INCREMENT); return(Status); } KeInitializeEvent(&event, NotificationEvent, FALSE); // // Set up the new parameters for the PCI driver. // IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine(Irp, AgpSetEventCompletion, &event, TRUE, TRUE, TRUE); // // Pass down the driver stack // Status = IoCallDriver(Extension->CommonExtension.AttachedDevice, Irp); // // If we did things asynchronously then wait on our event // if (Status == STATUS_PENDING) { // // We do a KernelMode wait so that our stack where the event is // doesn't get paged out! // KeWaitForSingleObject(&event, Executive, KernelMode, FALSE, NULL); Status = Irp->IoStatus.Status; } IoCompleteRequest(Irp, IO_NO_INCREMENT) ; return Status; } // // The bridge is disabled, we have been passed a NULL pointer // instead of an empty resource list. There is nothing to do other // than pass down the irp // IoSkipCurrentIrpStackLocation(Irp); return(IoCallDriver(Extension->CommonExtension.AttachedDevice, Irp)); } PCM_RESOURCE_LIST ApSplitResourceList( IN PCM_RESOURCE_LIST ResourceList, OUT PCM_RESOURCE_LIST *NewResourceList ) /*++ Routine Description: Splits out the AGP-specific resources from a resource list. Arguments: ResourceList - Supplies the resource list. NewResourceList - Returns the new resource list with the AGP-specific resources stripped out. Return Value: Pointer to the AGP-specific resource list --*/ { ULONG Size; ULONG FullCount; ULONG PartialCount; PCM_FULL_RESOURCE_DESCRIPTOR Full, NewFull, AgpFull; PCM_PARTIAL_RESOURCE_DESCRIPTOR Partial, NewPartial, AgpPartial; PCM_RESOURCE_LIST NewList; PCM_RESOURCE_LIST AgpList; ULONG NextAgp=0; PAGED_CODE(); // // First walk through the source resource list and figure out how big it // is. The two resulting resource lists must be smaller than this, so we // will just allocate them to be that size and not worry about it. // Size = sizeof(CM_RESOURCE_LIST) - sizeof(CM_FULL_RESOURCE_DESCRIPTOR); Full = &ResourceList->List[0]; for (FullCount=0; FullCountCount; FullCount++) { Size += sizeof(CM_FULL_RESOURCE_DESCRIPTOR); PartialCount = Full->PartialResourceList.Count; Size += (PartialCount-1) * sizeof(CM_PARTIAL_RESOURCE_DESCRIPTOR); Full = (PCM_FULL_RESOURCE_DESCRIPTOR)(&Full->PartialResourceList.PartialDescriptors[PartialCount]); } // // Allocate two additional lists // NewList = ExAllocatePool(PagedPool, Size); if (NewList == NULL) { *NewResourceList = NULL; return(NULL); } AgpList = ExAllocatePool(PagedPool, Size); if (AgpList == NULL) { ExFreePool(NewList); *NewResourceList = NULL; return(NULL); } // // Initialize both new resource lists to have the same number // of CM_FULL_RESOURCE_DESCRIPTORs. If any turn out to be empty, // we will adjust the count. // NewList->Count = AgpList->Count = ResourceList->Count; // // Walk through each CM_FULL_RESOURCE_DESCRIPTOR, copying as we go. // Full = &ResourceList->List[0]; NewFull = &NewList->List[0]; AgpFull = &AgpList->List[0]; for (FullCount = 0;FullCount < ResourceList->Count; FullCount++) { NewFull->InterfaceType = AgpFull->InterfaceType = Full->InterfaceType; NewFull->BusNumber = AgpFull->BusNumber = Full->BusNumber; // // Initialize the partial resource list header // NewFull->PartialResourceList.Version = Full->PartialResourceList.Version; AgpFull->PartialResourceList.Version = Full->PartialResourceList.Version; NewFull->PartialResourceList.Revision = Full->PartialResourceList.Revision; AgpFull->PartialResourceList.Revision = Full->PartialResourceList.Revision; NewFull->PartialResourceList.Count = AgpFull->PartialResourceList.Count = 0; NewPartial = &NewFull->PartialResourceList.PartialDescriptors[0]; AgpPartial = &AgpFull->PartialResourceList.PartialDescriptors[0]; for (PartialCount = 0; PartialCount < Full->PartialResourceList.Count; PartialCount++) { Partial = &Full->PartialResourceList.PartialDescriptors[PartialCount]; if ((Partial->Type == CmResourceTypeDevicePrivate) && (Partial->u.DevicePrivate.Data[0] == AgpPrivateResource)) { // // Found one of our private marker descriptors // // For now, the only kind we should see indicates we skip one descriptor // ASSERT(NextAgp == 0); ASSERT(Partial->u.DevicePrivate.Data[1] == 1); NextAgp = Partial->u.DevicePrivate.Data[1]; ASSERT(PartialCount+NextAgp < Full->PartialResourceList.Count); } else { // // if NextAgp is set, this descriptor goes in the AGP-specific list. // Otherwise, it goes in the new list. // if (NextAgp > 0) { --NextAgp; *AgpPartial++ = *Partial; ++AgpFull->PartialResourceList.Count; } else { *NewPartial++ = *Partial; ++NewFull->PartialResourceList.Count; } } } // // Finished this CM_PARTIAL_RESOURCE_LIST, advance to the next CM_FULL_RESOURCE_DESCRIPTOR // if (NewFull->PartialResourceList.Count == 0) { // // we can just reuse this partial resource descriptor as it is empty // --NewList->Count; } else { NewFull = (PCM_FULL_RESOURCE_DESCRIPTOR)NewPartial; } if (AgpFull->PartialResourceList.Count == 0) { // // we can just reuse this partial resource descriptor as it is empty // --AgpList->Count; } else { AgpFull = (PCM_FULL_RESOURCE_DESCRIPTOR)NewPartial; } } *NewResourceList = NewList; return(AgpList); }