/*++ Copyright (c) 1989 Microsoft Corporation Module Name: spsysbus.c Abstract: Author: Environment: Revision History: --*/ #include "halp.h" #include "spmp.inc" ULONG HalpDefaultInterruptAffinity; ULONG HalpCpuCount; BOOLEAN HalpTranslateSystemBusAddress( IN PBUS_HANDLER BusHandler, IN PBUS_HANDLER RootHandler, IN PHYSICAL_ADDRESS BusAddress, IN OUT PULONG AddressSpace, OUT PPHYSICAL_ADDRESS TranslatedAddress ); ULONG HalpGetSystemInterruptVector( IN PBUS_HANDLER BusHandler, IN PBUS_HANDLER RootHandler, IN ULONG BusInterruptLevel, IN ULONG BusInterruptVector, OUT PKIRQL Irql, OUT PKAFFINITY Affinity ); #ifdef ALLOC_PRAGMA #pragma alloc_text(PAGE,HalpGetSystemInterruptVector) #pragma alloc_text(PAGE,HalTranslatorReference) #pragma alloc_text(PAGE,HalTranslatorDereference) #pragma alloc_text(PAGE,HalIrqTranslateResourcesRoot) #pragma alloc_text(PAGE,HalIrqTranslateResourceRequirementsRoot) #pragma alloc_text(PAGE,HalpTransMemIoResource) #pragma alloc_text(PAGE,HalpTransMemIoResourceRequirement) #endif extern UCHAR SpCpuCount; extern Sp8259PerProcessorMode; extern UCHAR RegisteredProcessorCount; BOOLEAN HalpTranslateSystemBusAddress( IN PBUS_HANDLER BusHandler, IN PBUS_HANDLER RootHandler, IN PHYSICAL_ADDRESS BusAddress, IN OUT PULONG AddressSpace, OUT PPHYSICAL_ADDRESS TranslatedAddress ) /*++ Routine Description: This function translates a bus-relative address space and address into a system physical address. Arguments: BusAddress - Supplies the bus-relative address AddressSpace - Supplies the address space number. Returns the host address space number. AddressSpace == 0 => memory space AddressSpace == 1 => I/O space TranslatedAddress - Supplies a pointer to return the translated address Return Value: A return value of TRUE indicates that a system physical address corresponding to the supplied bus relative address and bus address number has been returned in TranslatedAddress. A return value of FALSE occurs if the translation for the address was not possible --*/ { PSUPPORTED_RANGE pRange; pRange = NULL; switch (*AddressSpace) { case 0: // verify memory address is within buses memory limits for (pRange = &BusHandler->BusAddresses->PrefetchMemory; pRange; pRange = pRange->Next) { if (BusAddress.QuadPart >= pRange->Base && BusAddress.QuadPart <= pRange->Limit) { break; } } if (!pRange) { for (pRange = &BusHandler->BusAddresses->Memory; pRange; pRange = pRange->Next) { if (BusAddress.QuadPart >= pRange->Base && BusAddress.QuadPart <= pRange->Limit) { break; } } } break; case 1: // verify IO address is within buses IO limits for (pRange = &BusHandler->BusAddresses->IO; pRange; pRange = pRange->Next) { if (BusAddress.QuadPart >= pRange->Base && BusAddress.QuadPart <= pRange->Limit) { break; } } break; } if (pRange) { TranslatedAddress->QuadPart = BusAddress.QuadPart + pRange->SystemBase; *AddressSpace = pRange->SystemAddressSpace; return TRUE; } return FALSE; } ULONG HalpGetSystemInterruptVector( IN PBUS_HANDLER BusHandler, IN PBUS_HANDLER RootHandler, IN ULONG BusInterruptLevel, IN ULONG BusInterruptVector, OUT PKIRQL pIrql, OUT PKAFFINITY pAffinity ) /*++ Routine Description: Arguments: BusInterruptLevel - Supplies the bus specific interrupt level. BusInterruptVector - Supplies the bus specific interrupt vector. Irql - Returns the system request priority. Affinity - Returns the system wide irq affinity. Return Value: Returns the system interrupt vector corresponding to the specified device. --*/ { ULONG SystemVector; ULONG Cpu; ULONG Affinity; KIRQL Irql; UNREFERENCED_PARAMETER( BusHandler ); UNREFERENCED_PARAMETER( RootHandler ); UNREFERENCED_PARAMETER( BusInterruptVector ); // // Set default SystemVector, IRQL & CPU // SystemVector = BusInterruptLevel + PRIMARY_VECTOR_BASE; Irql = (KIRQL)(HIGHEST_LEVEL_FOR_8259 + PRIMARY_VECTOR_BASE - SystemVector); Cpu = 0; if (SystemVector < PRIMARY_VECTOR_BASE || SystemVector > PRIMARY_VECTOR_BASE + HIGHEST_LEVEL_FOR_8259 || HalpIDTUsageFlags[SystemVector].Flags & IDTOwned ) { // // This is an illegal BusInterruptVector and cannot be connected. // return(0); } // // If this is machine has reported SMP Dev Ints then lets // use them in a static interrupt distribution method. // Notice some devices are kept on P0 for compatibility. // These interrupts and their devices are not generally used // for steady state operations. // if (Sp8259PerProcessorMode & SP_SMPDEVINTS) { // // This is for overriding some devices that belong on P0. // switch (BusInterruptLevel) { case 1: // keyboard case 3: // com2 case 4: // com1 case 5: // SysMgmt Modem case 6: // floppy case 12: // mouse // use first cpu break; case 13: // Health (IPIs on all) // use first cpu, as: Irql = IPI_LEVEL; SystemVector = PRIMARY_VECTOR_BASE + SECOND_IPI_DISPATCH; break; default: Cpu = SystemVector % HalpCpuCount; break; } } // // Get Affinity for Cpu // Affinity = 1 << Cpu; ASSERT (Affinity); // // Done // *pAffinity = Affinity; *pIrql = Irql; return SystemVector; } NTSTATUS HalIrqTranslateResourceRequirementsRoot( IN PVOID Context, IN PIO_RESOURCE_DESCRIPTOR Source, IN PDEVICE_OBJECT PhysicalDeviceObject, OUT PULONG TargetCount, OUT PIO_RESOURCE_DESCRIPTOR *Target ) /*++ Routine Description: This function takes an IO_RESOURCE_DESCRIPTOR and translates it from an IO-bus-relative to a Processor-bus-relative form. In this x86-specific example, an IO-bus-relative form is the ISA IRQ and the Processor-bus-relative form is the IDT entry and the associated IRQL. This is essentially a PnP form of HalGetInterruptVector. Arguments: Context - unused Source - descriptor that we are translating PhysicalDeviceObject- unused TargetCount - 1 Target - translated descriptor Return Value: status --*/ { return STATUS_NOT_IMPLEMENTED; } NTSTATUS HalIrqTranslateResourcesRoot( IN PVOID Context, IN PCM_PARTIAL_RESOURCE_DESCRIPTOR Source, IN RESOURCE_TRANSLATION_DIRECTION Direction, IN ULONG AlternativesCount, OPTIONAL IN IO_RESOURCE_DESCRIPTOR Alternatives[], OPTIONAL IN PDEVICE_OBJECT PhysicalDeviceObject, OUT PCM_PARTIAL_RESOURCE_DESCRIPTOR Target ) { return STATUS_NOT_IMPLEMENTED; } NTSTATUS HalpTransMemIoResourceRequirement( IN PVOID Context, IN PIO_RESOURCE_DESCRIPTOR Source, IN PDEVICE_OBJECT PhysicalDeviceObject, OUT PULONG TargetCount, OUT PIO_RESOURCE_DESCRIPTOR *Target ) /*++ Routine Description: This routine translates memory and IO resource requirements. Parameters: Context - The context from the TRANSLATOR_INTERFACE Source - The interrupt requirement to translate PhysicalDeviceObject - The device requesting the resource TargetCount - Pointer to where to return the number of descriptors this requirement translates into Target - Pointer to where a pointer to a callee allocated buffer containing the translated descriptors should be placed. Return Value: STATUS_SUCCESS or an error status Note: We do not perform any translation. --*/ { ASSERT(Source); ASSERT(Target); ASSERT(TargetCount); ASSERT(Source->Type == CmResourceTypeMemory || Source->Type == CmResourceTypePort); // // Allocate space for the target // *Target = ExAllocatePoolWithTag(PagedPool, sizeof(IO_RESOURCE_DESCRIPTOR), ' laH'); if (!*Target) { return STATUS_INSUFFICIENT_RESOURCES; } // // Copy the source to target and update the fields that have changed // **Target = *Source; *TargetCount = 1; return STATUS_SUCCESS; } NTSTATUS HalpTransMemIoResource( IN PVOID Context, IN PCM_PARTIAL_RESOURCE_DESCRIPTOR Source, IN RESOURCE_TRANSLATION_DIRECTION Direction, IN ULONG AlternativesCount, OPTIONAL IN IO_RESOURCE_DESCRIPTOR Alternatives[], OPTIONAL IN PDEVICE_OBJECT PhysicalDeviceObject, OUT PCM_PARTIAL_RESOURCE_DESCRIPTOR Target ) /*++ Routine Description: This routine translates memory and IO resources. On generic x86 machines, such as those that use this HAL, there isn't actually any translation. Parameters: Context - The context from the TRANSLATOR_INTERFACE Source - The interrupt resource to translate Direction - The direction in relation to the Pnp device tree translation should occur in. AlternativesCount - The number of alternatives this resource was selected from. Alternatives - Array of alternatives this resource was selected from. PhysicalDeviceObject - The device requesting the resource Target - Pointer to a caller allocated buffer to hold the translted resource descriptor. Return Value: STATUS_SUCCESS or an error status --*/ { NTSTATUS status; // // Copy the target to the source // *Target = *Source; switch (Direction) { case TranslateChildToParent: // // Make sure PnP knows it doesn't have to walk up the tree // translating at each point. // status = STATUS_TRANSLATION_COMPLETE; break; case TranslateParentToChild: // // We do not translate requirements so do nothing... // status = STATUS_SUCCESS; break; default: status = STATUS_INVALID_PARAMETER; } return status; } VOID HalTranslatorReference( PVOID Context ) { return; } VOID HalTranslatorDereference( PVOID Context ) { return; }