/*++ BUILD Version: 0002 // Increment this if a change has global effects Copyright (c) 1992-1993 Microsoft Corporation Module Name: ntconfig.h Abstract: This module contains the definitions associated with the conventions used to access the configuration registry. Author: Andre Vachon (andreva) 17-Apr-1992 Revision History: 28-Apr-1992 JohnRo Made changes to be consistent with win32 service controller APIs. --*/ #ifndef _NTCONFIG_ #define _NTCONFIG_ // begin_ntddk begin_nthal // begin_winnt // // Predefined Value Types. // #define REG_NONE ( 0 ) // No value type #define REG_SZ ( 1 ) // Unicode nul terminated string #define REG_EXPAND_SZ ( 2 ) // Unicode nul terminated string // (with environment variable references) #define REG_BINARY ( 3 ) // Free form binary #define REG_DWORD ( 4 ) // 32-bit number #define REG_DWORD_LITTLE_ENDIAN ( 4 ) // 32-bit number (same as REG_DWORD) #define REG_DWORD_BIG_ENDIAN ( 5 ) // 32-bit number #define REG_LINK ( 6 ) // Symbolic Link (unicode) #define REG_MULTI_SZ ( 7 ) // Multiple Unicode strings #define REG_RESOURCE_LIST ( 8 ) // Resource list in the resource map #define REG_FULL_RESOURCE_DESCRIPTOR ( 9 ) // Resource list in the hardware description #define REG_RESOURCE_REQUIREMENTS_LIST ( 10 ) // end_ntddk end_nthal // begin_ntddk begin_nthal // // Service Types (Bit Mask) // #define SERVICE_KERNEL_DRIVER 0x00000001 #define SERVICE_FILE_SYSTEM_DRIVER 0x00000002 #define SERVICE_ADAPTER 0x00000004 #define SERVICE_RECOGNIZER_DRIVER 0x00000008 #define SERVICE_DRIVER (SERVICE_KERNEL_DRIVER | \ SERVICE_FILE_SYSTEM_DRIVER | \ SERVICE_RECOGNIZER_DRIVER) #define SERVICE_WIN32_OWN_PROCESS 0x00000010 #define SERVICE_WIN32_SHARE_PROCESS 0x00000020 #define SERVICE_WIN32 (SERVICE_WIN32_OWN_PROCESS | \ SERVICE_WIN32_SHARE_PROCESS) #define SERVICE_INTERACTIVE_PROCESS 0x00000100 #define SERVICE_TYPE_ALL (SERVICE_WIN32 | \ SERVICE_ADAPTER | \ SERVICE_DRIVER | \ SERVICE_INTERACTIVE_PROCESS) // // Start Type // #define SERVICE_BOOT_START 0x00000000 #define SERVICE_SYSTEM_START 0x00000001 #define SERVICE_AUTO_START 0x00000002 #define SERVICE_DEMAND_START 0x00000003 #define SERVICE_DISABLED 0x00000004 // // Error control type // #define SERVICE_ERROR_IGNORE 0x00000000 #define SERVICE_ERROR_NORMAL 0x00000001 #define SERVICE_ERROR_SEVERE 0x00000002 #define SERVICE_ERROR_CRITICAL 0x00000003 // // // Define the registry driver node enumerations // typedef enum _CM_SERVICE_NODE_TYPE { DriverType = SERVICE_KERNEL_DRIVER, FileSystemType = SERVICE_FILE_SYSTEM_DRIVER, Win32ServiceOwnProcess = SERVICE_WIN32_OWN_PROCESS, Win32ServiceShareProcess = SERVICE_WIN32_SHARE_PROCESS, AdapterType = SERVICE_ADAPTER, RecognizerType = SERVICE_RECOGNIZER_DRIVER } SERVICE_NODE_TYPE; typedef enum _CM_SERVICE_LOAD_TYPE { BootLoad = SERVICE_BOOT_START, SystemLoad = SERVICE_SYSTEM_START, AutoLoad = SERVICE_AUTO_START, DemandLoad = SERVICE_DEMAND_START, DisableLoad = SERVICE_DISABLED } SERVICE_LOAD_TYPE; typedef enum _CM_ERROR_CONTROL_TYPE { IgnoreError = SERVICE_ERROR_IGNORE, NormalError = SERVICE_ERROR_NORMAL, SevereError = SERVICE_ERROR_SEVERE, CriticalError = SERVICE_ERROR_CRITICAL } SERVICE_ERROR_TYPE; // end_winnt // end_ntddk end_nthal // begin_ntddk begin_nthal // // Resource List definitions // // begin_ntminiport begin_ntndis // // Defines the Type in the RESOURCE_DESCRIPTOR // typedef enum _CM_RESOURCE_TYPE { CmResourceTypeNull = 0, // Reserved CmResourceTypePort, CmResourceTypeInterrupt, CmResourceTypeMemory, CmResourceTypeDma, CmResourceTypeDeviceSpecific, CmResourceTypeMaximum } CM_RESOURCE_TYPE; // // Defines the ShareDisposition in the RESOURCE_DESCRIPTOR // typedef enum _CM_SHARE_DISPOSITION { CmResourceShareUndetermined = 0, // Reserved CmResourceShareDeviceExclusive, CmResourceShareDriverExclusive, CmResourceShareShared } CM_SHARE_DISPOSITION; // // Define the bit masks for Flags when type is CmResourceTypeInterrupt // #define CM_RESOURCE_INTERRUPT_LEVEL_SENSITIVE 0 #define CM_RESOURCE_INTERRUPT_LATCHED 1 // // Define the bit masks for Flags when type is CmResourceTypeMemory // #define CM_RESOURCE_MEMORY_READ_WRITE 0x0000 #define CM_RESOURCE_MEMORY_READ_ONLY 0x0001 #define CM_RESOURCE_MEMORY_WRITE_ONLY 0x0002 #define CM_RESOURCE_MEMORY_PREFETCHABLE 0x0004 #define CM_RESOURCE_MEMORY_COMBINEDWRITE 0x0008 #define CM_RESOURCE_MEMORY_24 0x0010 // // Define the bit masks for Flags when type is CmResourceTypePort // #define CM_RESOURCE_PORT_MEMORY 0 #define CM_RESOURCE_PORT_IO 1 // // Define the bit masks for Flags when type is CmResourceTypeDma // #define CM_RESOURCE_DMA_8 0x0000 #define CM_RESOURCE_DMA_16 0x0001 #define CM_RESOURCE_DMA_32 0x0002 // end_ntminiport end_ntndis // // This structure defines one type of resource used by a driver. // // There can only be *1* DeviceSpecificData block. It must be located at // the end of all resource descriptors in a full descriptor block. // // // BUGBUG Make sure alignment is made properly by compiler; otherwise move // flags back to the top of the structure (common to all members of the // union). // // begin_ntndis #include "pshpack4.h" typedef struct _CM_PARTIAL_RESOURCE_DESCRIPTOR { UCHAR Type; UCHAR ShareDisposition; USHORT Flags; union { // // Range of port numbers, inclusive. These are physical, bus // relative. The value should be the same as the one passed to // HalTranslateBusAddress(). // struct { PHYSICAL_ADDRESS Start; ULONG Length; } Port; // // IRQL and vector. Should be same values as were passed to // HalGetInterruptVector(). // struct { ULONG Level; ULONG Vector; ULONG Affinity; } Interrupt; // // Range of memory addresses, inclusive. These are physical, bus // relative. The value should be the same as the one passed to // HalTranslateBusAddress(). // struct { PHYSICAL_ADDRESS Start; // 64 bit physical addresses. ULONG Length; } Memory; // // Physical DMA channel. // struct { ULONG Channel; ULONG Port; ULONG Reserved1; } Dma; // // Device Specific information defined by the driver. // The DataSize field indicates the size of the data in bytes. The // data is located immediately after the DeviceSpecificData field in // the structure. // struct { ULONG DataSize; ULONG Reserved1; ULONG Reserved2; } DeviceSpecificData; } u; } CM_PARTIAL_RESOURCE_DESCRIPTOR, *PCM_PARTIAL_RESOURCE_DESCRIPTOR; #include "poppack.h" // // A Partial Resource List is what can be found in the ARC firmware // or will be generated by ntdetect.com. // The configuration manager will transform this structure into a Full // resource descriptor when it is about to store it in the regsitry. // // Note: There must a be a convention to the order of fields of same type, // (defined on a device by device basis) so that the fields can make sense // to a driver (i.e. when multiple memory ranges are necessary). // typedef struct _CM_PARTIAL_RESOURCE_LIST { USHORT Version; USHORT Revision; ULONG Count; CM_PARTIAL_RESOURCE_DESCRIPTOR PartialDescriptors[1]; } CM_PARTIAL_RESOURCE_LIST, *PCM_PARTIAL_RESOURCE_LIST; // // A Full Resource Descriptor is what can be found in the registry. // This is what will be returned to a driver when it queries the registry // to get device information; it will be stored under a key in the hardware // description tree. // // Note: The BusNumber and Type are redundant information, but we will keep // it since it allows the driver _not_ to append it when it is creating // a resource list which could possibly span multiple buses. // // Note2: There must a be a convention to the order of fields of same type, // (defined on a device by device basis) so that the fields can make sense // to a driver (i.e. when multiple memory ranges are necessary). // typedef struct _CM_FULL_RESOURCE_DESCRIPTOR { INTERFACE_TYPE InterfaceType; ULONG BusNumber; CM_PARTIAL_RESOURCE_LIST PartialResourceList; } CM_FULL_RESOURCE_DESCRIPTOR, *PCM_FULL_RESOURCE_DESCRIPTOR; // // The Resource list is what will be stored by the drivers into the // resource map via the IO API. // typedef struct _CM_RESOURCE_LIST { ULONG Count; CM_FULL_RESOURCE_DESCRIPTOR List[1]; } CM_RESOURCE_LIST, *PCM_RESOURCE_LIST; // end_ntndis // // Define the structures used to interpret configuration data of // \\Registry\machine\hardware\description tree. // Basically, these structures are used to interpret component // sepcific data. // // // Define DEVICE_FLAGS // typedef struct _DEVICE_FLAGS { ULONG Failed : 1; ULONG ReadOnly : 1; ULONG Removable : 1; ULONG ConsoleIn : 1; ULONG ConsoleOut : 1; ULONG Input : 1; ULONG Output : 1; } DEVICE_FLAGS, *PDEVICE_FLAGS; // // Define Component Information structure // typedef struct _CM_COMPONENT_INFORMATION { DEVICE_FLAGS Flags; ULONG Version; ULONG Key; ULONG AffinityMask; } CM_COMPONENT_INFORMATION, *PCM_COMPONENT_INFORMATION; // end_ntddk end_nthal // begin_ntddk begin_nthal // // The following structures are used to interpret x86 // DeviceSpecificData of CM_PARTIAL_RESOURCE_DESCRIPTOR. // (Most of the structures are defined by BIOS. They are // not aligned on word (or dword) boundary. // // // Define the Rom Block structure // typedef struct _CM_ROM_BLOCK { ULONG Address; ULONG Size; } CM_ROM_BLOCK, *PCM_ROM_BLOCK; // begin_ntminiport begin_ntndis #include "pshpack1.h" // end_ntminiport end_ntndis // // Define INT13 driver parameter block // typedef struct _CM_INT13_DRIVE_PARAMETER { USHORT DriveSelect; ULONG MaxCylinders; USHORT SectorsPerTrack; USHORT MaxHeads; USHORT NumberDrives; } CM_INT13_DRIVE_PARAMETER, *PCM_INT13_DRIVE_PARAMETER; // begin_ntminiport begin_ntndis // // Define Mca POS data block for slot // typedef struct _CM_MCA_POS_DATA { USHORT AdapterId; UCHAR PosData1; UCHAR PosData2; UCHAR PosData3; UCHAR PosData4; } CM_MCA_POS_DATA, *PCM_MCA_POS_DATA; // // Memory configuration of eisa data block structure // typedef struct _EISA_MEMORY_TYPE { UCHAR ReadWrite: 1; UCHAR Cached : 1; UCHAR Reserved0 :1; UCHAR Type:2; UCHAR Shared:1; UCHAR Reserved1 :1; UCHAR MoreEntries : 1; } EISA_MEMORY_TYPE, *PEISA_MEMORY_TYPE; typedef struct _EISA_MEMORY_CONFIGURATION { EISA_MEMORY_TYPE ConfigurationByte; UCHAR DataSize; USHORT AddressLowWord; UCHAR AddressHighByte; USHORT MemorySize; } EISA_MEMORY_CONFIGURATION, *PEISA_MEMORY_CONFIGURATION; // // Interrupt configurationn of eisa data block structure // typedef struct _EISA_IRQ_DESCRIPTOR { UCHAR Interrupt : 4; UCHAR Reserved :1; UCHAR LevelTriggered :1; UCHAR Shared : 1; UCHAR MoreEntries : 1; } EISA_IRQ_DESCRIPTOR, *PEISA_IRQ_DESCRIPTOR; typedef struct _EISA_IRQ_CONFIGURATION { EISA_IRQ_DESCRIPTOR ConfigurationByte; UCHAR Reserved; } EISA_IRQ_CONFIGURATION, *PEISA_IRQ_CONFIGURATION; // // DMA description of eisa data block structure // typedef struct _DMA_CONFIGURATION_BYTE0 { UCHAR Channel : 3; UCHAR Reserved : 3; UCHAR Shared :1; UCHAR MoreEntries :1; } DMA_CONFIGURATION_BYTE0; typedef struct _DMA_CONFIGURATION_BYTE1 { UCHAR Reserved0 : 2; UCHAR TransferSize : 2; UCHAR Timing : 2; UCHAR Reserved1 : 2; } DMA_CONFIGURATION_BYTE1; typedef struct _EISA_DMA_CONFIGURATION { DMA_CONFIGURATION_BYTE0 ConfigurationByte0; DMA_CONFIGURATION_BYTE1 ConfigurationByte1; } EISA_DMA_CONFIGURATION, *PEISA_DMA_CONFIGURATION; // // Port description of eisa data block structure // typedef struct _EISA_PORT_DESCRIPTOR { UCHAR NumberPorts : 5; UCHAR Reserved :1; UCHAR Shared :1; UCHAR MoreEntries : 1; } EISA_PORT_DESCRIPTOR, *PEISA_PORT_DESCRIPTOR; typedef struct _EISA_PORT_CONFIGURATION { EISA_PORT_DESCRIPTOR Configuration; USHORT PortAddress; } EISA_PORT_CONFIGURATION, *PEISA_PORT_CONFIGURATION; // // Eisa slot information definition // N.B. This structure is different from the one defined // in ARC eisa addendum. // typedef struct _CM_EISA_SLOT_INFORMATION { UCHAR ReturnCode; UCHAR ReturnFlags; UCHAR MajorRevision; UCHAR MinorRevision; USHORT Checksum; UCHAR NumberFunctions; UCHAR FunctionInformation; ULONG CompressedId; } CM_EISA_SLOT_INFORMATION, *PCM_EISA_SLOT_INFORMATION; // // Eisa function information definition // typedef struct _CM_EISA_FUNCTION_INFORMATION { ULONG CompressedId; UCHAR IdSlotFlags1; UCHAR IdSlotFlags2; UCHAR MinorRevision; UCHAR MajorRevision; UCHAR Selections[26]; UCHAR FunctionFlags; UCHAR TypeString[80]; EISA_MEMORY_CONFIGURATION EisaMemory[9]; EISA_IRQ_CONFIGURATION EisaIrq[7]; EISA_DMA_CONFIGURATION EisaDma[4]; EISA_PORT_CONFIGURATION EisaPort[20]; UCHAR InitializationData[60]; } CM_EISA_FUNCTION_INFORMATION, *PCM_EISA_FUNCTION_INFORMATION; // // The followings define the way pnp bios information is stored in // the registry \\HKEY_LOCAL_MACHINE\HARDWARE\Description\System\ // MultifunctionAdapter\x key, where x is an integer number indicating // adapter instance. The "Identifier" of the key must equal to "PNP BIOS" // and the "ConfigurationData" is organized as follow: // // CM_PNP_BIOS_INSTALLATION_CHECK + // CM_PNP_BIOS_DEVICE_NODE for device 1 + // CM_PNP_BIOS_DEVICE_NODE for device 2 + // ... // CM_PNP_BIOS_DEVICE_NODE for device n // // // Pnp BIOS device node structure // typedef struct _CM_PNP_BIOS_DEVICE_NODE { USHORT Size; UCHAR Node; ULONG ProductId; UCHAR DeviceType[3]; USHORT DeviceAttributes; // followed by AllocatedResourceBlock, PossibleResourceBlock // and CompatibleDeviceId } CM_PNP_BIOS_DEVICE_NODE,*PCM_PNP_BIOS_DEVICE_NODE; // // Pnp BIOS Installation check // typedef struct _CM_PNP_BIOS_INSTALLATION_CHECK { UCHAR Signature[4]; // $PnP (ascii) UCHAR Revision; UCHAR Length; USHORT ControlField; UCHAR Checksum; ULONG EventFlagAddress; // Physical address USHORT RealModeEntryOffset; USHORT RealModeEntrySegment; USHORT ProtectedModeEntryOffset; ULONG ProtectedModeCodeBaseAddress; ULONG OemDeviceId; USHORT RealModeDataBaseAddress; ULONG ProtectedModeDataBaseAddress; } CM_PNP_BIOS_INSTALLATION_CHECK, *PCM_PNP_BIOS_INSTALLATION_CHECK; #include "poppack.h" // // Masks for EISA function information // #define EISA_FUNCTION_ENABLED 0x80 #define EISA_FREE_FORM_DATA 0x40 #define EISA_HAS_PORT_INIT_ENTRY 0x20 #define EISA_HAS_PORT_RANGE 0x10 #define EISA_HAS_DMA_ENTRY 0x08 #define EISA_HAS_IRQ_ENTRY 0x04 #define EISA_HAS_MEMORY_ENTRY 0x02 #define EISA_HAS_TYPE_ENTRY 0x01 #define EISA_HAS_INFORMATION EISA_HAS_PORT_RANGE + \ EISA_HAS_DMA_ENTRY + \ EISA_HAS_IRQ_ENTRY + \ EISA_HAS_MEMORY_ENTRY + \ EISA_HAS_TYPE_ENTRY // // Masks for EISA memory configuration // #define EISA_MORE_ENTRIES 0x80 #define EISA_SYSTEM_MEMORY 0x00 #define EISA_MEMORY_TYPE_RAM 0x01 // // Returned error code for EISA bios call // #define EISA_INVALID_SLOT 0x80 #define EISA_INVALID_FUNCTION 0x81 #define EISA_INVALID_CONFIGURATION 0x82 #define EISA_EMPTY_SLOT 0x83 #define EISA_INVALID_BIOS_CALL 0x86 // end_ntminiport end_ntndis // // The following structures are used to interpret mips // DeviceSpecificData of CM_PARTIAL_RESOURCE_DESCRIPTOR. // // // Device data records for adapters. // // // The device data record for the Emulex SCSI controller. // typedef struct _CM_SCSI_DEVICE_DATA { USHORT Version; USHORT Revision; UCHAR HostIdentifier; } CM_SCSI_DEVICE_DATA, *PCM_SCSI_DEVICE_DATA; // // Device data records for controllers. // // // The device data record for the Video controller. // typedef struct _CM_VIDEO_DEVICE_DATA { USHORT Version; USHORT Revision; ULONG VideoClock; } CM_VIDEO_DEVICE_DATA, *PCM_VIDEO_DEVICE_DATA; // // The device data record for the SONIC network controller. // typedef struct _CM_SONIC_DEVICE_DATA { USHORT Version; USHORT Revision; USHORT DataConfigurationRegister; UCHAR EthernetAddress[8]; } CM_SONIC_DEVICE_DATA, *PCM_SONIC_DEVICE_DATA; // // The device data record for the serial controller. // typedef struct _CM_SERIAL_DEVICE_DATA { USHORT Version; USHORT Revision; ULONG BaudClock; } CM_SERIAL_DEVICE_DATA, *PCM_SERIAL_DEVICE_DATA; // // Device data records for peripherals. // // // The device data record for the Monitor peripheral. // typedef struct _CM_MONITOR_DEVICE_DATA { USHORT Version; USHORT Revision; USHORT HorizontalScreenSize; USHORT VerticalScreenSize; USHORT HorizontalResolution; USHORT VerticalResolution; USHORT HorizontalDisplayTimeLow; USHORT HorizontalDisplayTime; USHORT HorizontalDisplayTimeHigh; USHORT HorizontalBackPorchLow; USHORT HorizontalBackPorch; USHORT HorizontalBackPorchHigh; USHORT HorizontalFrontPorchLow; USHORT HorizontalFrontPorch; USHORT HorizontalFrontPorchHigh; USHORT HorizontalSyncLow; USHORT HorizontalSync; USHORT HorizontalSyncHigh; USHORT VerticalBackPorchLow; USHORT VerticalBackPorch; USHORT VerticalBackPorchHigh; USHORT VerticalFrontPorchLow; USHORT VerticalFrontPorch; USHORT VerticalFrontPorchHigh; USHORT VerticalSyncLow; USHORT VerticalSync; USHORT VerticalSyncHigh; } CM_MONITOR_DEVICE_DATA, *PCM_MONITOR_DEVICE_DATA; // // The device data record for the Floppy peripheral. // typedef struct _CM_FLOPPY_DEVICE_DATA { USHORT Version; USHORT Revision; CHAR Size[8]; ULONG MaxDensity; ULONG MountDensity; // // New data fields for version >= 2.0 // UCHAR StepRateHeadUnloadTime; UCHAR HeadLoadTime; UCHAR MotorOffTime; UCHAR SectorLengthCode; UCHAR SectorPerTrack; UCHAR ReadWriteGapLength; UCHAR DataTransferLength; UCHAR FormatGapLength; UCHAR FormatFillCharacter; UCHAR HeadSettleTime; UCHAR MotorSettleTime; UCHAR MaximumTrackValue; UCHAR DataTransferRate; } CM_FLOPPY_DEVICE_DATA, *PCM_FLOPPY_DEVICE_DATA; // // The device data record for the Keyboard peripheral. // The KeyboardFlags is defined (by x86 BIOS INT 16h, function 02) as: // bit 7 : Insert on // bit 6 : Caps Lock on // bit 5 : Num Lock on // bit 4 : Scroll Lock on // bit 3 : Alt Key is down // bit 2 : Ctrl Key is down // bit 1 : Left shift key is down // bit 0 : Right shift key is down // typedef struct _CM_KEYBOARD_DEVICE_DATA { USHORT Version; USHORT Revision; UCHAR Type; UCHAR Subtype; USHORT KeyboardFlags; } CM_KEYBOARD_DEVICE_DATA, *PCM_KEYBOARD_DEVICE_DATA; // // Declaration of the structure for disk geometries // typedef struct _CM_DISK_GEOMETRY_DEVICE_DATA { ULONG BytesPerSector; ULONG NumberOfCylinders; ULONG SectorsPerTrack; ULONG NumberOfHeads; } CM_DISK_GEOMETRY_DEVICE_DATA, *PCM_DISK_GEOMETRY_DEVICE_DATA; // begin_ntminiport // // Defines Resource Options // #define IO_RESOURCE_PREFERRED 0x01 #define IO_RESOURCE_DEFAULT 0x02 #define IO_RESOURCE_ALTERNATIVE 0x08 // // This structure defines one type of resource requested by the driver // typedef struct _IO_RESOURCE_DESCRIPTOR { UCHAR Option; UCHAR Type; // use CM_RESOURCE_TYPE UCHAR ShareDisposition; // use CM_SHARE_DISPOSITION UCHAR Spare1; USHORT Flags; // use CM resource flag defines USHORT Spare2; // align union { struct { ULONG Length; ULONG Alignment; PHYSICAL_ADDRESS MinimumAddress; PHYSICAL_ADDRESS MaximumAddress; } Port; struct { ULONG Length; ULONG Alignment; PHYSICAL_ADDRESS MinimumAddress; PHYSICAL_ADDRESS MaximumAddress; } Memory; struct { ULONG MinimumVector; ULONG MaximumVector; } Interrupt; struct { ULONG MinimumChannel; ULONG MaximumChannel; } Dma; } u; } IO_RESOURCE_DESCRIPTOR, *PIO_RESOURCE_DESCRIPTOR; // end_ntminiport typedef struct _IO_RESOURCE_LIST { USHORT Version; USHORT Revision; ULONG Count; IO_RESOURCE_DESCRIPTOR Descriptors[1]; } IO_RESOURCE_LIST, *PIO_RESOURCE_LIST; typedef struct _IO_RESOURCE_REQUIREMENTS_LIST { ULONG ListSize; INTERFACE_TYPE InterfaceType; ULONG BusNumber; ULONG SlotNumber; ULONG Reserved[3]; ULONG AlternativeLists; IO_RESOURCE_LIST List[1]; } IO_RESOURCE_REQUIREMENTS_LIST, *PIO_RESOURCE_REQUIREMENTS_LIST; // end_ntddk end_nthal #endif // _NTCONFIG_