board/MAI/bios_emulator/scitech/include/pcilib.h - uboot/mindspeed - Git at Google

 /****************************************************************************
 *
 *                   SciTech OS Portability Manager Library
 *
 *  ========================================================================
 *
 *    The contents of this file are subject to the SciTech MGL Public
 *    License Version 1.0 (the "License"); you may not use this file
 *    except in compliance with the License. You may obtain a copy of
 *    the License at http://www.scitechsoft.com/mgl-license.txt
 *
 *    Software distributed under the License is distributed on an
 *    "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
 *    implied. See the License for the specific language governing
 *    rights and limitations under the License.
 *
 *    The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc.
 *
 *    The Initial Developer of the Original Code is SciTech Software, Inc.
 *    All Rights Reserved.
 *
 *  ========================================================================
 *
 * Language:     ANSI C
 * Environment:  Any
 *
 * Description:  Header file for interface routines to the PCI bus.
 *
 ****************************************************************************/

 #ifndef __PCILIB_H
 #define __PCILIB_H

 #include "scitech.h"

 /*---------------------- Macros and type definitions ----------------------*/

 #pragma pack(1)

 /* Defines for PCIDeviceInfo.HeaderType */

 typedef enum {
     PCI_deviceType                  = 0x00,
     PCI_bridgeType                  = 0x01,
     PCI_cardBusBridgeType           = 0x02,
     PCI_multiFunctionType           = 0x80
     } PCIHeaderTypeFlags;

 /* Defines for PCIDeviceInfo.Command */

 typedef enum {
     PCI_enableIOSpace               = 0x0001,
     PCI_enableMemorySpace           = 0x0002,
     PCI_enableBusMaster             = 0x0004,
     PCI_enableSpecialCylces         = 0x0008,
     PCI_enableWriteAndInvalidate    = 0x0010,
     PCI_enableVGACompatiblePalette  = 0x0020,
     PCI_enableParity                = 0x0040,
     PCI_enableWaitCycle             = 0x0080,
     PCI_enableSerr                  = 0x0100,
     PCI_enableFastBackToBack        = 0x0200
     } PCICommandFlags;

 /* Defines for PCIDeviceInfo.Status */

 typedef enum {
     PCI_statusCapabilitiesList      = 0x0010,
     PCI_status66MhzCapable          = 0x0020,
     PCI_statusUDFSupported          = 0x0040,
     PCI_statusFastBackToBack        = 0x0080,
     PCI_statusDataParityDetected    = 0x0100,
     PCI_statusDevSel                = 0x0600,
     PCI_statusSignaledTargetAbort   = 0x0800,
     PCI_statusRecievedTargetAbort   = 0x1000,
     PCI_statusRecievedMasterAbort   = 0x2000,
     PCI_statusSignaledSystemError   = 0x4000,
     PCI_statusDetectedParityError   = 0x8000
     } PCIStatusFlags;

 /* PCI capability IDs */

 typedef enum {
     PCI_capsPowerManagement         = 0x01,
     PCI_capsAGP                     = 0x02,
     PCI_capsMSI                     = 0x05
     } PCICapsType;

 /* PCI AGP rate definitions */

 typedef enum {
     PCI_AGPRate1X                   = 0x1,
     PCI_AGPRate2X                   = 0x2,
     PCI_AGPRate4X                   = 0x4
     } PCIAGPRateType;

 /* NOTE: We define all bitfield's as uint's, specifically so that the IBM
  *       Visual Age C++ compiler does not complain. We need them to be
  *       32-bits wide, and this is the width of an unsigned integer, but
  *       we can't use a ulong to make this explicit or we get errors.
  */

 /* Structure defining a PCI slot identifier */

 typedef union {
     struct {
 	uint    Zero:2;
 	uint    Register:6;
 	uint    Function:3;
 	uint    Device:5;
 	uint    Bus:8;
 	uint    Reserved:7;
 	uint    Enable:1;
 	} p;
     ulong   i;
     } PCIslot;

 /* Structure defining the regular (type 0) PCI configuration register
  * layout. We use this in a union below so we can describe all types of
  * PCI configuration spaces with a single structure.
  */

 typedef struct {
     ulong   BaseAddress10;
     ulong   BaseAddress14;
     ulong   BaseAddress18;
     ulong   BaseAddress1C;
     ulong   BaseAddress20;
     ulong   BaseAddress24;
     ulong   CardbusCISPointer;
     ushort  SubSystemVendorID;
     ushort  SubSystemID;
     ulong   ROMBaseAddress;
     uchar   CapabilitiesPointer;
     uchar   reserved1;
     uchar   reserved2;
     uchar   reserved3;
     ulong   reserved4;
     uchar   InterruptLine;
     uchar   InterruptPin;
     uchar   MinimumGrant;
     uchar   MaximumLatency;

     /* These are not in the actual config space, but we enumerate them */
     ulong   BaseAddress10Len;
     ulong   BaseAddress14Len;
     ulong   BaseAddress18Len;
     ulong   BaseAddress1CLen;
     ulong   BaseAddress20Len;
     ulong   BaseAddress24Len;
     ulong   ROMBaseAddressLen;
     } PCIType0Info;

 /* Structure defining PCI to PCI bridge (type 1) PCI configuration register
  * layout. We use this in a union below so we can describe all types of
  * PCI configuration spaces with a single structure.
  */

 typedef struct {
     ulong   BaseAddress10;
     ulong   BaseAddress14;
     uchar   PrimaryBusNumber;
     uchar   SecondayBusNumber;
     uchar   SubordinateBusNumber;
     uchar   SecondaryLatencyTimer;
     uchar   IOBase;
     uchar   IOLimit;
     ushort  SecondaryStatus;
     ushort  MemoryBase;
     ushort  MemoryLimit;
     ushort  PrefetchableMemoryBase;
     ushort  PrefetchableMemoryLimit;
     ulong   PrefetchableBaseHi;
     ulong   PrefetchableLimitHi;
     ushort  IOBaseHi;
     ushort  IOLimitHi;
     uchar   CapabilitiesPointer;
     uchar   reserved1;
     uchar   reserved2;
     uchar   reserved3;
     ulong   ROMBaseAddress;
     uchar   InterruptLine;
     uchar   InterruptPin;
     ushort  BridgeControl;
     } PCIType1Info;

 /* PCI to CardBus bridge (type 2) configuration information */
 typedef struct {
     ulong   SocketRegistersBaseAddress;
     uchar   CapabilitiesPointer;
     uchar   reserved1;
     ushort  SecondaryStatus;
     uchar   PrimaryBus;
     uchar   SecondaryBus;
     uchar   SubordinateBus;
     uchar   SecondaryLatency;
     struct  {
 	ulong   Base;
 	ulong   Limit;
 	} Range[4];
     uchar   InterruptLine;
     uchar   InterruptPin;
     ushort  BridgeControl;
     } PCIType2Info;

 /* Structure defining the PCI configuration space information for a
  * single PCI device on the PCI bus. We enumerate all this information
  * for all PCI devices on the bus.
  */

 typedef struct {
     ulong               dwSize;
     PCIslot             slot;
     ulong               mech1;
     ushort              VendorID;
     ushort              DeviceID;
     ushort              Command;
     ushort              Status;
     uchar               RevID;
     uchar               Interface;
     uchar               SubClass;
     uchar               BaseClass;
     uchar               CacheLineSize;
     uchar               LatencyTimer;
     uchar               HeaderType;
     uchar               BIST;
     union {
 	PCIType0Info    type0;
 	PCIType1Info    type1;
 	PCIType2Info    type2;
 	} u;
     } PCIDeviceInfo;

 /* PCI Capability header structure. All PCI capabilities have the
  * following header.
  *
  * capsID is used to identify the type of the structure as define above.
  *
  * next is the offset in PCI configuration space (0x40-0xFC) of the
  * next capability structure in the list, or 0x00 if there are no more
  * entries.
  */

 typedef struct {
     uchar   capsID;
     uchar   next;
     } PCICapsHeader;

 /* Structure defining the PCI AGP status register contents */

 typedef struct {
     uint    rate:3;
     uint    rsvd1:1;
     uint    fastWrite:1;
     uint    fourGB:1;
     uint    rsvd2:3;
     uint    sideBandAddressing:1;
     uint    rsvd3:14;
     uint    requestQueueDepthMaximum:8;
     } PCIAGPStatus;

 /* Structure defining the PCI AGP command register contents */

 typedef struct {
     uint    rate:3;
     uint    rsvd1:1;
     uint    fastWriteEnable:1;
     uint    fourGBEnable:1;
     uint    rsvd2:2;
     uint    AGPEnable:1;
     uint    SBAEnable:1;
     uint    rsvd3:14;
     uint    requestQueueDepth:8;
     } PCIAGPCommand;

 /* AGP Capability structure */

 typedef struct {
     PCICapsHeader   h;
     ushort          majMin;
     PCIAGPStatus    AGPStatus;
     PCIAGPCommand   AGPCommand;
     } PCIAGPCapability;

 /* Structure for obtaining the PCI IRQ routing information */

 typedef struct {
     uchar   bus;
     uchar   device;
     uchar   linkA;
     ushort  mapA;
     uchar   linkB;
     ushort  mapB;
     uchar   linkC;
     ushort  mapC;
     uchar   linkD;
     ushort  mapD;
     uchar   slot;
     uchar   reserved;
     } PCIRouteInfo;

 typedef struct {
     ushort          BufferSize;
     PCIRouteInfo    *DataBuffer;
     } PCIRoutingOptionsBuffer;

 #define NUM_PCI_REG                 (sizeof(PCIDeviceInfo) / 4) - 10
 #define PCI_BRIDGE_CLASS            0x06
 #define PCI_HOST_BRIDGE_SUBCLASS    0x00
 #define PCI_EARLY_VGA_CLASS         0x00
 #define PCI_EARLY_VGA_SUBCLASS      0x01
 #define PCI_DISPLAY_CLASS           0x03
 #define PCI_DISPLAY_VGA_SUBCLASS    0x00
 #define PCI_DISPLAY_XGA_SUBCLASS    0x01
 #define PCI_DISPLAY_OTHER_SUBCLASS  0x80
 #define PCI_MM_CLASS                0x04
 #define PCI_AUDIO_SUBCLASS          0x01

 /* Macros to detect specific classes of devices */

 #define PCI_IS_3DLABS_NONVGA_CLASS(pci) \
    (((pci)->BaseClass == PCI_DISPLAY_CLASS && (pci)->SubClass == PCI_DISPLAY_OTHER_SUBCLASS) \
  && ((pci)->VendorID == 0x3D3D || (pci)->VendorID == 0x104C))

 #define PCI_IS_DISPLAY_CLASS(pci) \
    (((pci)->BaseClass == PCI_DISPLAY_CLASS && (pci)->SubClass == PCI_DISPLAY_VGA_SUBCLASS) \
  || ((pci)->BaseClass == PCI_DISPLAY_CLASS && (pci)->SubClass == PCI_DISPLAY_XGA_SUBCLASS) \
  || ((pci)->BaseClass == PCI_EARLY_VGA_CLASS && (pci)->SubClass == PCI_EARLY_VGA_SUBCLASS) \
  || PCI_IS_3DLABS_NONVGA_CLASS(pci))

 /* Function codes to pass to PCI_accessReg */

 #define PCI_READ_BYTE               0
 #define PCI_READ_WORD               1
 #define PCI_READ_DWORD              2
 #define PCI_WRITE_BYTE              3
 #define PCI_WRITE_WORD              4
 #define PCI_WRITE_DWORD             5

 /* Macros to read/write PCI registers. These assume a global PCI array
  * of device information.
  */

 #define PCI_readPCIRegB(index,device)   \
     PCI_accessReg(index,0,0,&PCI[DeviceIndex[device]])

 #define PCI_readPCIRegW(index,device)   \
     PCI_accessReg(index,0,1,&PCI[DeviceIndex[device]])

 #define PCI_readPCIRegL(index,device)   \
     PCI_accessReg(index,0,2,&PCI[DeviceIndex[device]])

 #define PCI_writePCIRegB(index,value,device)    \
     PCI_accessReg(index,value,3,&PCI[DeviceIndex[device]])

 #define PCI_writePCIRegW(index,value,device)    \
     PCI_accessReg(index,value,4,&PCI[DeviceIndex[device]])

 #define PCI_writePCIRegL(index,value,device)    \
     PCI_accessReg(index,value,5,&PCI[DeviceIndex[device]])

 #pragma pack()

 /*-------------------------- Function Prototypes --------------------------*/

 #ifdef  __cplusplus
 extern "C" {                        /* Use "C" linkage when in C++ mode */
 #endif

 /* Function to determine the number of PCI devices in the system */

 int     _ASMAPI PCI_getNumDevices(void);

 /* Function to enumerate all device on the PCI bus */

 int     _ASMAPI PCI_enumerate(PCIDeviceInfo info[]);

 /* Function to access PCI configuration registers */

 ulong   _ASMAPI PCI_accessReg(int index,ulong value,int func,PCIDeviceInfo *info);

 /* Function to get PCI IRQ routing options for a card */

 int     _ASMAPI PCI_getIRQRoutingOptions(int numDevices,PCIRouteInfo *buffer);

 /* Function to re-route the PCI IRQ setting for a device */

 ibool   _ASMAPI PCI_setHardwareIRQ(PCIDeviceInfo *info,uint intPin,uint IRQ);

 /* Function to generate a special cyle on the specified PCI bus */

 void    _ASMAPI PCI_generateSpecialCyle(uint bus,ulong specialCycleData);

 /* Function to determine the size of a PCI base address register */

 ulong   _ASMAPI PCI_findBARSize(int bar,PCIDeviceInfo *pci);

 /* Function to read a block of PCI configuration space registers */

 void    _ASMAPI PCI_readRegBlock(PCIDeviceInfo *info,int index,void *dst,int count);

 /* Function to write a block of PCI configuration space registers */

 void    _ASMAPI PCI_writeRegBlock(PCIDeviceInfo *info,int index,void *src,int count);

 /* Function to return the 32-bit PCI BIOS entry point */

 ulong   _ASMAPI PCIBIOS_getEntry(void);

 #ifdef  __cplusplus
 }                                   /* End of "C" linkage for C++       */
 #endif

 #endif  /* __PCILIB_H */
	/****************************************************************************
	*
	* SciTech OS Portability Manager Library
	*
	* ========================================================================
	*
	* The contents of this file are subject to the SciTech MGL Public
	* License Version 1.0 (the "License"); you may not use this file
	* except in compliance with the License. You may obtain a copy of
	* the License at http://www.scitechsoft.com/mgl-license.txt
	*
	* Software distributed under the License is distributed on an
	* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
	* implied. See the License for the specific language governing
	* rights and limitations under the License.
	*
	* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc.
	*
	* The Initial Developer of the Original Code is SciTech Software, Inc.
	* All Rights Reserved.
	*
	* ========================================================================
	*
	* Language: ANSI C
	* Environment: Any
	*
	* Description: Header file for interface routines to the PCI bus.
	*
	****************************************************************************/

	#ifndef __PCILIB_H
	#define __PCILIB_H

	#include "scitech.h"

	/---------------------- Macros and type definitions ----------------------/

	#pragma pack(1)

	/* Defines for PCIDeviceInfo.HeaderType */

	typedef enum {
	PCI_deviceType = 0x00,
	PCI_bridgeType = 0x01,
	PCI_cardBusBridgeType = 0x02,
	PCI_multiFunctionType = 0x80
	} PCIHeaderTypeFlags;

	/* Defines for PCIDeviceInfo.Command */

	typedef enum {
	PCI_enableIOSpace = 0x0001,
	PCI_enableMemorySpace = 0x0002,
	PCI_enableBusMaster = 0x0004,
	PCI_enableSpecialCylces = 0x0008,
	PCI_enableWriteAndInvalidate = 0x0010,
	PCI_enableVGACompatiblePalette = 0x0020,
	PCI_enableParity = 0x0040,
	PCI_enableWaitCycle = 0x0080,
	PCI_enableSerr = 0x0100,
	PCI_enableFastBackToBack = 0x0200
	} PCICommandFlags;

	/* Defines for PCIDeviceInfo.Status */

	typedef enum {
	PCI_statusCapabilitiesList = 0x0010,
	PCI_status66MhzCapable = 0x0020,
	PCI_statusUDFSupported = 0x0040,
	PCI_statusFastBackToBack = 0x0080,
	PCI_statusDataParityDetected = 0x0100,
	PCI_statusDevSel = 0x0600,
	PCI_statusSignaledTargetAbort = 0x0800,
	PCI_statusRecievedTargetAbort = 0x1000,
	PCI_statusRecievedMasterAbort = 0x2000,
	PCI_statusSignaledSystemError = 0x4000,
	PCI_statusDetectedParityError = 0x8000
	} PCIStatusFlags;

	/* PCI capability IDs */

	typedef enum {
	PCI_capsPowerManagement = 0x01,
	PCI_capsAGP = 0x02,
	PCI_capsMSI = 0x05
	} PCICapsType;

	/* PCI AGP rate definitions */

	typedef enum {
	PCI_AGPRate1X = 0x1,
	PCI_AGPRate2X = 0x2,
	PCI_AGPRate4X = 0x4
	} PCIAGPRateType;

	/* NOTE: We define all bitfield's as uint's, specifically so that the IBM
	* Visual Age C++ compiler does not complain. We need them to be
	* 32-bits wide, and this is the width of an unsigned integer, but
	* we can't use a ulong to make this explicit or we get errors.
	*/

	/* Structure defining a PCI slot identifier */

	typedef union {
	struct {
	uint Zero:2;
	uint Register:6;
	uint Function:3;
	uint Device:5;
	uint Bus:8;
	uint Reserved:7;
	uint Enable:1;
	} p;
	ulong i;
	} PCIslot;

	/* Structure defining the regular (type 0) PCI configuration register
	* layout. We use this in a union below so we can describe all types of
	* PCI configuration spaces with a single structure.
	*/

	typedef struct {
	ulong BaseAddress10;
	ulong BaseAddress14;
	ulong BaseAddress18;
	ulong BaseAddress1C;
	ulong BaseAddress20;
	ulong BaseAddress24;
	ulong CardbusCISPointer;
	ushort SubSystemVendorID;
	ushort SubSystemID;
	ulong ROMBaseAddress;
	uchar CapabilitiesPointer;
	uchar reserved1;
	uchar reserved2;
	uchar reserved3;
	ulong reserved4;
	uchar InterruptLine;
	uchar InterruptPin;
	uchar MinimumGrant;
	uchar MaximumLatency;

	/* These are not in the actual config space, but we enumerate them */
	ulong BaseAddress10Len;
	ulong BaseAddress14Len;
	ulong BaseAddress18Len;
	ulong BaseAddress1CLen;
	ulong BaseAddress20Len;
	ulong BaseAddress24Len;
	ulong ROMBaseAddressLen;
	} PCIType0Info;

	/* Structure defining PCI to PCI bridge (type 1) PCI configuration register
	* layout. We use this in a union below so we can describe all types of
	* PCI configuration spaces with a single structure.
	*/

	typedef struct {
	ulong BaseAddress10;
	ulong BaseAddress14;
	uchar PrimaryBusNumber;
	uchar SecondayBusNumber;
	uchar SubordinateBusNumber;
	uchar SecondaryLatencyTimer;
	uchar IOBase;
	uchar IOLimit;
	ushort SecondaryStatus;
	ushort MemoryBase;
	ushort MemoryLimit;
	ushort PrefetchableMemoryBase;
	ushort PrefetchableMemoryLimit;
	ulong PrefetchableBaseHi;
	ulong PrefetchableLimitHi;
	ushort IOBaseHi;
	ushort IOLimitHi;
	uchar CapabilitiesPointer;
	uchar reserved1;
	uchar reserved2;
	uchar reserved3;
	ulong ROMBaseAddress;
	uchar InterruptLine;
	uchar InterruptPin;
	ushort BridgeControl;
	} PCIType1Info;

	/* PCI to CardBus bridge (type 2) configuration information */
	typedef struct {
	ulong SocketRegistersBaseAddress;
	uchar CapabilitiesPointer;
	uchar reserved1;
	ushort SecondaryStatus;
	uchar PrimaryBus;
	uchar SecondaryBus;
	uchar SubordinateBus;
	uchar SecondaryLatency;
	struct {
	ulong Base;
	ulong Limit;
	} Range[4];
	uchar InterruptLine;
	uchar InterruptPin;
	ushort BridgeControl;
	} PCIType2Info;

	/* Structure defining the PCI configuration space information for a
	* single PCI device on the PCI bus. We enumerate all this information
	* for all PCI devices on the bus.
	*/

	typedef struct {
	ulong dwSize;
	PCIslot slot;
	ulong mech1;
	ushort VendorID;
	ushort DeviceID;
	ushort Command;
	ushort Status;
	uchar RevID;
	uchar Interface;
	uchar SubClass;
	uchar BaseClass;
	uchar CacheLineSize;
	uchar LatencyTimer;
	uchar HeaderType;
	uchar BIST;
	union {
	PCIType0Info type0;
	PCIType1Info type1;
	PCIType2Info type2;
	} u;
	} PCIDeviceInfo;

	/* PCI Capability header structure. All PCI capabilities have the
	* following header.
	*
	* capsID is used to identify the type of the structure as define above.
	*
	* next is the offset in PCI configuration space (0x40-0xFC) of the
	* next capability structure in the list, or 0x00 if there are no more
	* entries.
	*/

	typedef struct {
	uchar capsID;
	uchar next;
	} PCICapsHeader;

	/* Structure defining the PCI AGP status register contents */

	typedef struct {
	uint rate:3;
	uint rsvd1:1;
	uint fastWrite:1;
	uint fourGB:1;
	uint rsvd2:3;
	uint sideBandAddressing:1;
	uint rsvd3:14;
	uint requestQueueDepthMaximum:8;
	} PCIAGPStatus;

	/* Structure defining the PCI AGP command register contents */

	typedef struct {
	uint rate:3;
	uint rsvd1:1;
	uint fastWriteEnable:1;
	uint fourGBEnable:1;
	uint rsvd2:2;
	uint AGPEnable:1;
	uint SBAEnable:1;
	uint rsvd3:14;
	uint requestQueueDepth:8;
	} PCIAGPCommand;

	/* AGP Capability structure */

	typedef struct {
	PCICapsHeader h;
	ushort majMin;
	PCIAGPStatus AGPStatus;
	PCIAGPCommand AGPCommand;
	} PCIAGPCapability;

	/* Structure for obtaining the PCI IRQ routing information */

	typedef struct {
	uchar bus;
	uchar device;
	uchar linkA;
	ushort mapA;
	uchar linkB;
	ushort mapB;
	uchar linkC;
	ushort mapC;
	uchar linkD;
	ushort mapD;
	uchar slot;
	uchar reserved;
	} PCIRouteInfo;

	typedef struct {
	ushort BufferSize;
	PCIRouteInfo *DataBuffer;
	} PCIRoutingOptionsBuffer;

	#define NUM_PCI_REG (sizeof(PCIDeviceInfo) / 4) - 10
	#define PCI_BRIDGE_CLASS 0x06
	#define PCI_HOST_BRIDGE_SUBCLASS 0x00
	#define PCI_EARLY_VGA_CLASS 0x00
	#define PCI_EARLY_VGA_SUBCLASS 0x01
	#define PCI_DISPLAY_CLASS 0x03
	#define PCI_DISPLAY_VGA_SUBCLASS 0x00
	#define PCI_DISPLAY_XGA_SUBCLASS 0x01
	#define PCI_DISPLAY_OTHER_SUBCLASS 0x80
	#define PCI_MM_CLASS 0x04
	#define PCI_AUDIO_SUBCLASS 0x01

	/* Macros to detect specific classes of devices */

	#define PCI_IS_3DLABS_NONVGA_CLASS(pci) \
	(((pci)->BaseClass == PCI_DISPLAY_CLASS && (pci)->SubClass == PCI_DISPLAY_OTHER_SUBCLASS) \
	&& ((pci)->VendorID == 0x3D3D \|\| (pci)->VendorID == 0x104C))

	#define PCI_IS_DISPLAY_CLASS(pci) \
	(((pci)->BaseClass == PCI_DISPLAY_CLASS && (pci)->SubClass == PCI_DISPLAY_VGA_SUBCLASS) \
	\|\| ((pci)->BaseClass == PCI_DISPLAY_CLASS && (pci)->SubClass == PCI_DISPLAY_XGA_SUBCLASS) \
	\|\| ((pci)->BaseClass == PCI_EARLY_VGA_CLASS && (pci)->SubClass == PCI_EARLY_VGA_SUBCLASS) \
	\|\| PCI_IS_3DLABS_NONVGA_CLASS(pci))

	/* Function codes to pass to PCI_accessReg */

	#define PCI_READ_BYTE 0
	#define PCI_READ_WORD 1
	#define PCI_READ_DWORD 2
	#define PCI_WRITE_BYTE 3
	#define PCI_WRITE_WORD 4
	#define PCI_WRITE_DWORD 5

	/* Macros to read/write PCI registers. These assume a global PCI array
	* of device information.
	*/

	#define PCI_readPCIRegB(index,device) \
	PCI_accessReg(index,0,0,&PCI[DeviceIndex[device]])

	#define PCI_readPCIRegW(index,device) \
	PCI_accessReg(index,0,1,&PCI[DeviceIndex[device]])

	#define PCI_readPCIRegL(index,device) \
	PCI_accessReg(index,0,2,&PCI[DeviceIndex[device]])

	#define PCI_writePCIRegB(index,value,device) \
	PCI_accessReg(index,value,3,&PCI[DeviceIndex[device]])

	#define PCI_writePCIRegW(index,value,device) \
	PCI_accessReg(index,value,4,&PCI[DeviceIndex[device]])

	#define PCI_writePCIRegL(index,value,device) \
	PCI_accessReg(index,value,5,&PCI[DeviceIndex[device]])

	#pragma pack()

	/-------------------------- Function Prototypes --------------------------/

	#ifdef __cplusplus
	extern "C" { /* Use "C" linkage when in C++ mode */
	#endif

	/* Function to determine the number of PCI devices in the system */

	int _ASMAPI PCI_getNumDevices(void);

	/* Function to enumerate all device on the PCI bus */

	int _ASMAPI PCI_enumerate(PCIDeviceInfo info[]);

	/* Function to access PCI configuration registers */

	ulong _ASMAPI PCI_accessReg(int index,ulong value,int func,PCIDeviceInfo *info);

	/* Function to get PCI IRQ routing options for a card */

	int _ASMAPI PCI_getIRQRoutingOptions(int numDevices,PCIRouteInfo *buffer);

	/* Function to re-route the PCI IRQ setting for a device */

	ibool _ASMAPI PCI_setHardwareIRQ(PCIDeviceInfo *info,uint intPin,uint IRQ);

	/* Function to generate a special cyle on the specified PCI bus */

	void _ASMAPI PCI_generateSpecialCyle(uint bus,ulong specialCycleData);

	/* Function to determine the size of a PCI base address register */

	ulong _ASMAPI PCI_findBARSize(int bar,PCIDeviceInfo *pci);

	/* Function to read a block of PCI configuration space registers */

	void _ASMAPI PCI_readRegBlock(PCIDeviceInfo info,int index,void dst,int count);

	/* Function to write a block of PCI configuration space registers */

	void _ASMAPI PCI_writeRegBlock(PCIDeviceInfo info,int index,void src,int count);

	/* Function to return the 32-bit PCI BIOS entry point */

	ulong _ASMAPI PCIBIOS_getEntry(void);

	#ifdef __cplusplus
	} /* End of "C" linkage for C++ */
	#endif

	#endif /* __PCILIB_H */