arch/powerpc/platforms/iseries/call_pci.h - linux/kernel/git/klassert/ipsec-next - Git at Google

 /*
  * Provides the Hypervisor PCI calls for iSeries Linux Parition.
  * Copyright (C) 2001  <Wayne G Holm> <IBM Corporation>
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the:
  * Free Software Foundation, Inc.,
  * 59 Temple Place, Suite 330,
  * Boston, MA  02111-1307  USA
  *
  * Change Activity:
  *   Created, Jan 9, 2001
  */

 #ifndef _PLATFORMS_ISERIES_CALL_PCI_H
 #define _PLATFORMS_ISERIES_CALL_PCI_H

 #include <asm/iseries/hv_call_sc.h>
 #include <asm/iseries/hv_types.h>

 /*
  * DSA == Direct Select Address
  * this struct must be 64 bits in total
  */
 struct HvCallPci_DsaAddr {
 	u16		busNumber;		/* PHB index? */
 	u8		subBusNumber;		/* PCI bus number? */
 	u8		deviceId;		/* device and function? */
 	u8		barNumber;
 	u8		reserved[3];
 };

 union HvDsaMap {
 	u64	DsaAddr;
 	struct HvCallPci_DsaAddr Dsa;
 };

 struct HvCallPci_LoadReturn {
 	u64		rc;
 	u64		value;
 };

 enum HvCallPci_DeviceType {
 	HvCallPci_NodeDevice	= 1,
 	HvCallPci_SpDevice	= 2,
 	HvCallPci_IopDevice     = 3,
 	HvCallPci_BridgeDevice	= 4,
 	HvCallPci_MultiFunctionDevice = 5,
 	HvCallPci_IoaDevice	= 6
 };


 struct HvCallPci_DeviceInfo {
 	u32	deviceType;		/* See DeviceType enum for values */
 };

 struct HvCallPci_BusUnitInfo {
 	u32	sizeReturned;		/* length of data returned */
 	u32	deviceType;		/* see DeviceType enum for values */
 };

 struct HvCallPci_BridgeInfo {
 	struct HvCallPci_BusUnitInfo busUnitInfo;  /* Generic bus unit info */
 	u8		subBusNumber;	/* Bus number of secondary bus */
 	u8		maxAgents;	/* Max idsels on secondary bus */
         u8              maxSubBusNumber; /* Max Sub Bus */
 	u8		logicalSlotNumber; /* Logical Slot Number for IOA */
 };


 /*
  * Maximum BusUnitInfo buffer size.  Provided for clients so
  * they can allocate a buffer big enough for any type of bus
  * unit.  Increase as needed.
  */
 enum {HvCallPci_MaxBusUnitInfoSize = 128};

 struct HvCallPci_BarParms {
 	u64		vaddr;
 	u64		raddr;
 	u64		size;
 	u64		protectStart;
 	u64		protectEnd;
 	u64		relocationOffset;
 	u64		pciAddress;
 	u64		reserved[3];
 };

 enum HvCallPci_VpdType {
 	HvCallPci_BusVpd	= 1,
 	HvCallPci_BusAdapterVpd	= 2
 };

 #define HvCallPciConfigLoad8		HvCallPci + 0
 #define HvCallPciConfigLoad16		HvCallPci + 1
 #define HvCallPciConfigLoad32		HvCallPci + 2
 #define HvCallPciConfigStore8		HvCallPci + 3
 #define HvCallPciConfigStore16		HvCallPci + 4
 #define HvCallPciConfigStore32		HvCallPci + 5
 #define HvCallPciEoi			HvCallPci + 16
 #define HvCallPciGetBarParms		HvCallPci + 18
 #define HvCallPciMaskFisr		HvCallPci + 20
 #define HvCallPciUnmaskFisr		HvCallPci + 21
 #define HvCallPciSetSlotReset		HvCallPci + 25
 #define HvCallPciGetDeviceInfo		HvCallPci + 27
 #define HvCallPciGetCardVpd		HvCallPci + 28
 #define HvCallPciBarLoad8		HvCallPci + 40
 #define HvCallPciBarLoad16		HvCallPci + 41
 #define HvCallPciBarLoad32		HvCallPci + 42
 #define HvCallPciBarLoad64		HvCallPci + 43
 #define HvCallPciBarStore8		HvCallPci + 44
 #define HvCallPciBarStore16		HvCallPci + 45
 #define HvCallPciBarStore32		HvCallPci + 46
 #define HvCallPciBarStore64		HvCallPci + 47
 #define HvCallPciMaskInterrupts		HvCallPci + 48
 #define HvCallPciUnmaskInterrupts	HvCallPci + 49
 #define HvCallPciGetBusUnitInfo		HvCallPci + 50

 static inline u64 HvCallPci_configLoad16(u16 busNumber, u8 subBusNumber,
 		u8 deviceId, u32 offset, u16 *value)
 {
 	struct HvCallPci_DsaAddr dsa;
 	struct HvCallPci_LoadReturn retVal;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumber;
 	dsa.subBusNumber = subBusNumber;
 	dsa.deviceId = deviceId;

 	HvCall3Ret16(HvCallPciConfigLoad16, &retVal, *(u64 *)&dsa, offset, 0);

 	*value = retVal.value;

 	return retVal.rc;
 }

 static inline u64 HvCallPci_configLoad32(u16 busNumber, u8 subBusNumber,
 		u8 deviceId, u32 offset, u32 *value)
 {
 	struct HvCallPci_DsaAddr dsa;
 	struct HvCallPci_LoadReturn retVal;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumber;
 	dsa.subBusNumber = subBusNumber;
 	dsa.deviceId = deviceId;

 	HvCall3Ret16(HvCallPciConfigLoad32, &retVal, *(u64 *)&dsa, offset, 0);

 	*value = retVal.value;

 	return retVal.rc;
 }

 static inline u64 HvCallPci_configStore8(u16 busNumber, u8 subBusNumber,
 		u8 deviceId, u32 offset, u8 value)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumber;
 	dsa.subBusNumber = subBusNumber;
 	dsa.deviceId = deviceId;

 	return HvCall4(HvCallPciConfigStore8, *(u64 *)&dsa, offset, value, 0);
 }

 static inline u64 HvCallPci_eoi(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm)
 {
 	struct HvCallPci_DsaAddr dsa;
 	struct HvCallPci_LoadReturn retVal;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;

 	HvCall1Ret16(HvCallPciEoi, &retVal, *(u64*)&dsa);

 	return retVal.rc;
 }

 static inline u64 HvCallPci_getBarParms(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm, u8 barNumberParm, u64 parms, u32 sizeofParms)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;
 	dsa.barNumber = barNumberParm;

 	return HvCall3(HvCallPciGetBarParms, *(u64*)&dsa, parms, sizeofParms);
 }

 static inline u64 HvCallPci_maskFisr(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm, u64 fisrMask)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;

 	return HvCall2(HvCallPciMaskFisr, *(u64*)&dsa, fisrMask);
 }

 static inline u64 HvCallPci_unmaskFisr(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm, u64 fisrMask)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;

 	return HvCall2(HvCallPciUnmaskFisr, *(u64*)&dsa, fisrMask);
 }

 static inline u64 HvCallPci_getDeviceInfo(u16 busNumberParm, u8 subBusParm,
 		u8 deviceNumberParm, u64 parms, u32 sizeofParms)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceNumberParm << 4;

 	return HvCall3(HvCallPciGetDeviceInfo, *(u64*)&dsa, parms, sizeofParms);
 }

 static inline u64 HvCallPci_maskInterrupts(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm, u64 interruptMask)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;

 	return HvCall2(HvCallPciMaskInterrupts, *(u64*)&dsa, interruptMask);
 }

 static inline u64 HvCallPci_unmaskInterrupts(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm, u64 interruptMask)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;

 	return HvCall2(HvCallPciUnmaskInterrupts, *(u64*)&dsa, interruptMask);
 }

 static inline u64 HvCallPci_getBusUnitInfo(u16 busNumberParm, u8 subBusParm,
 		u8 deviceIdParm, u64 parms, u32 sizeofParms)
 {
 	struct HvCallPci_DsaAddr dsa;

 	*((u64*)&dsa) = 0;

 	dsa.busNumber = busNumberParm;
 	dsa.subBusNumber = subBusParm;
 	dsa.deviceId = deviceIdParm;

 	return HvCall3(HvCallPciGetBusUnitInfo, *(u64*)&dsa, parms,
 			sizeofParms);
 }

 static inline int HvCallPci_getBusVpd(u16 busNumParm, u64 destParm,
 		u16 sizeParm)
 {
 	u64 xRc = HvCall4(HvCallPciGetCardVpd, busNumParm, destParm,
 			sizeParm, HvCallPci_BusVpd);
 	if (xRc == -1)
 		return -1;
 	else
 		return xRc & 0xFFFF;
 }

 #endif /* _PLATFORMS_ISERIES_CALL_PCI_H */
	/*
	* Provides the Hypervisor PCI calls for iSeries Linux Parition.
	* Copyright (C) 2001 <Wayne G Holm> <IBM Corporation>
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the:
	* Free Software Foundation, Inc.,
	* 59 Temple Place, Suite 330,
	* Boston, MA 02111-1307 USA
	*
	* Change Activity:
	* Created, Jan 9, 2001
	*/

	#ifndef _PLATFORMS_ISERIES_CALL_PCI_H
	#define _PLATFORMS_ISERIES_CALL_PCI_H

	#include <asm/iseries/hv_call_sc.h>
	#include <asm/iseries/hv_types.h>

	/*
	* DSA == Direct Select Address
	* this struct must be 64 bits in total
	*/
	struct HvCallPci_DsaAddr {
	u16 busNumber; /* PHB index? */
	u8 subBusNumber; /* PCI bus number? */
	u8 deviceId; /* device and function? */
	u8 barNumber;
	u8 reserved[3];
	};

	union HvDsaMap {
	u64 DsaAddr;
	struct HvCallPci_DsaAddr Dsa;
	};

	struct HvCallPci_LoadReturn {
	u64 rc;
	u64 value;
	};

	enum HvCallPci_DeviceType {
	HvCallPci_NodeDevice = 1,
	HvCallPci_SpDevice = 2,
	HvCallPci_IopDevice = 3,
	HvCallPci_BridgeDevice = 4,
	HvCallPci_MultiFunctionDevice = 5,
	HvCallPci_IoaDevice = 6
	};


	struct HvCallPci_DeviceInfo {
	u32 deviceType; /* See DeviceType enum for values */
	};

	struct HvCallPci_BusUnitInfo {
	u32 sizeReturned; /* length of data returned */
	u32 deviceType; /* see DeviceType enum for values */
	};

	struct HvCallPci_BridgeInfo {
	struct HvCallPci_BusUnitInfo busUnitInfo; /* Generic bus unit info */
	u8 subBusNumber; /* Bus number of secondary bus */
	u8 maxAgents; /* Max idsels on secondary bus */
	u8 maxSubBusNumber; /* Max Sub Bus */
	u8 logicalSlotNumber; /* Logical Slot Number for IOA */
	};


	/*
	* Maximum BusUnitInfo buffer size. Provided for clients so
	* they can allocate a buffer big enough for any type of bus
	* unit. Increase as needed.
	*/
	enum {HvCallPci_MaxBusUnitInfoSize = 128};

	struct HvCallPci_BarParms {
	u64 vaddr;
	u64 raddr;
	u64 size;
	u64 protectStart;
	u64 protectEnd;
	u64 relocationOffset;
	u64 pciAddress;
	u64 reserved[3];
	};

	enum HvCallPci_VpdType {
	HvCallPci_BusVpd = 1,
	HvCallPci_BusAdapterVpd = 2
	};

	#define HvCallPciConfigLoad8 HvCallPci + 0
	#define HvCallPciConfigLoad16 HvCallPci + 1
	#define HvCallPciConfigLoad32 HvCallPci + 2
	#define HvCallPciConfigStore8 HvCallPci + 3
	#define HvCallPciConfigStore16 HvCallPci + 4
	#define HvCallPciConfigStore32 HvCallPci + 5
	#define HvCallPciEoi HvCallPci + 16
	#define HvCallPciGetBarParms HvCallPci + 18
	#define HvCallPciMaskFisr HvCallPci + 20
	#define HvCallPciUnmaskFisr HvCallPci + 21
	#define HvCallPciSetSlotReset HvCallPci + 25
	#define HvCallPciGetDeviceInfo HvCallPci + 27
	#define HvCallPciGetCardVpd HvCallPci + 28
	#define HvCallPciBarLoad8 HvCallPci + 40
	#define HvCallPciBarLoad16 HvCallPci + 41
	#define HvCallPciBarLoad32 HvCallPci + 42
	#define HvCallPciBarLoad64 HvCallPci + 43
	#define HvCallPciBarStore8 HvCallPci + 44
	#define HvCallPciBarStore16 HvCallPci + 45
	#define HvCallPciBarStore32 HvCallPci + 46
	#define HvCallPciBarStore64 HvCallPci + 47
	#define HvCallPciMaskInterrupts HvCallPci + 48
	#define HvCallPciUnmaskInterrupts HvCallPci + 49
	#define HvCallPciGetBusUnitInfo HvCallPci + 50

	static inline u64 HvCallPci_configLoad16(u16 busNumber, u8 subBusNumber,
	u8 deviceId, u32 offset, u16 *value)
	{
	struct HvCallPci_DsaAddr dsa;
	struct HvCallPci_LoadReturn retVal;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumber;
	dsa.subBusNumber = subBusNumber;
	dsa.deviceId = deviceId;

	HvCall3Ret16(HvCallPciConfigLoad16, &retVal, (u64 )&dsa, offset, 0);

	*value = retVal.value;

	return retVal.rc;
	}

	static inline u64 HvCallPci_configLoad32(u16 busNumber, u8 subBusNumber,
	u8 deviceId, u32 offset, u32 *value)
	{
	struct HvCallPci_DsaAddr dsa;
	struct HvCallPci_LoadReturn retVal;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumber;
	dsa.subBusNumber = subBusNumber;
	dsa.deviceId = deviceId;

	HvCall3Ret16(HvCallPciConfigLoad32, &retVal, (u64 )&dsa, offset, 0);

	*value = retVal.value;

	return retVal.rc;
	}

	static inline u64 HvCallPci_configStore8(u16 busNumber, u8 subBusNumber,
	u8 deviceId, u32 offset, u8 value)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumber;
	dsa.subBusNumber = subBusNumber;
	dsa.deviceId = deviceId;

	return HvCall4(HvCallPciConfigStore8, (u64 )&dsa, offset, value, 0);
	}

	static inline u64 HvCallPci_eoi(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm)
	{
	struct HvCallPci_DsaAddr dsa;
	struct HvCallPci_LoadReturn retVal;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;

	HvCall1Ret16(HvCallPciEoi, &retVal, (u64)&dsa);

	return retVal.rc;
	}

	static inline u64 HvCallPci_getBarParms(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm, u8 barNumberParm, u64 parms, u32 sizeofParms)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;
	dsa.barNumber = barNumberParm;

	return HvCall3(HvCallPciGetBarParms, (u64)&dsa, parms, sizeofParms);
	}

	static inline u64 HvCallPci_maskFisr(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm, u64 fisrMask)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;

	return HvCall2(HvCallPciMaskFisr, (u64)&dsa, fisrMask);
	}

	static inline u64 HvCallPci_unmaskFisr(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm, u64 fisrMask)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;

	return HvCall2(HvCallPciUnmaskFisr, (u64)&dsa, fisrMask);
	}

	static inline u64 HvCallPci_getDeviceInfo(u16 busNumberParm, u8 subBusParm,
	u8 deviceNumberParm, u64 parms, u32 sizeofParms)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceNumberParm << 4;

	return HvCall3(HvCallPciGetDeviceInfo, (u64)&dsa, parms, sizeofParms);
	}

	static inline u64 HvCallPci_maskInterrupts(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm, u64 interruptMask)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;

	return HvCall2(HvCallPciMaskInterrupts, (u64)&dsa, interruptMask);
	}

	static inline u64 HvCallPci_unmaskInterrupts(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm, u64 interruptMask)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;

	return HvCall2(HvCallPciUnmaskInterrupts, (u64)&dsa, interruptMask);
	}

	static inline u64 HvCallPci_getBusUnitInfo(u16 busNumberParm, u8 subBusParm,
	u8 deviceIdParm, u64 parms, u32 sizeofParms)
	{
	struct HvCallPci_DsaAddr dsa;

	((u64)&dsa) = 0;

	dsa.busNumber = busNumberParm;
	dsa.subBusNumber = subBusParm;
	dsa.deviceId = deviceIdParm;

	return HvCall3(HvCallPciGetBusUnitInfo, (u64)&dsa, parms,
	sizeofParms);
	}

	static inline int HvCallPci_getBusVpd(u16 busNumParm, u64 destParm,
	u16 sizeParm)
	{
	u64 xRc = HvCall4(HvCallPciGetCardVpd, busNumParm, destParm,
	sizeParm, HvCallPci_BusVpd);
	if (xRc == -1)
	return -1;
	else
	return xRc & 0xFFFF;
	}

	#endif /* _PLATFORMS_ISERIES_CALL_PCI_H */