cpu/ixp/npe/include/IxOsalIoMem.h - uboot/mindspeed - Git at Google

 /*
  * @file        IxOsalIoMem.h
  * @author 	Intel Corporation
  * @date        25-08-2004
  *
  * @brief       description goes here
  */

 /**
  * @par
  * IXP400 SW Release version 2.0
  *
  * -- Copyright Notice --
  *
  * @par
  * Copyright 2001-2005, Intel Corporation.
  * All rights reserved.
  *
  * @par
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. Neither the name of the Intel Corporation nor the names of its contributors
  *    may be used to endorse or promote products derived from this software
  *    without specific prior written permission.
  *
  * @par
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS''
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  *
  * @par
  * -- End of Copyright Notice --
  */

 #ifndef IxOsalIoMem_H
 #define IxOsalIoMem_H


 /*
  * Decide OS and Endianess, such as IX_OSAL_VXWORKS_LE.
  */
 #include "IxOsalEndianess.h"

 /**
  * @defgroup IxOsalIoMem Osal IoMem module
  *
  * @brief I/O memory and endianess support.
  *
  * @{
  */

 /* Low-level conversion macros - DO NOT USE UNLESS ABSOLUTELY NEEDED */
 #ifndef __wince


 /*
  * Private function to swap word
  */
 #ifdef __XSCALE__
 static __inline__ UINT32
 ixOsalCoreWordSwap (UINT32 wordIn)
 {
     /*
      * Storage for the swapped word
      */
     UINT32 wordOut;

     /*
      * wordIn = A, B, C, D
      */
     __asm__ (" eor r1, %1, %1, ror #16;"	/* R1 =      A^C, B^D, C^A, D^B */
 	     " bic r1, r1, #0x00ff0000;"	/* R1 =      A^C, 0  , C^A, D^B */
 	     " mov %0, %1, ror #8;"	/* wordOut = D,   A,   B,   C   */
 	     " eor %0, %0, r1, lsr #8;"	/* wordOut = D,   C,   B,   A   */
   : "=r" (wordOut): "r" (wordIn):"r1");

     return wordOut;
 }

 #define IX_OSAL_SWAP_LONG(wData)          (ixOsalCoreWordSwap(wData))
 #else
 #define IX_OSAL_SWAP_LONG(wData)          ((wData >> 24) | (((wData >> 16) & 0xFF) << 8) | (((wData >> 8) & 0xFF) << 16) | ((wData & 0xFF) << 24))
 #endif

 #else /* ndef __wince */
 #define IX_OSAL_SWAP_LONG(wData)        ((((UINT32)wData << 24) | ((UINT32)wData >> 24)) | (((wData << 8) & 0xff0000) | ((wData >> 8) & 0xff00)))
 #endif /* ndef __wince */

 #define IX_OSAL_SWAP_SHORT(sData)         ((sData >> 8) | ((sData & 0xFF) << 8))
 #define IX_OSAL_SWAP_SHORT_ADDRESS(sAddr) ((sAddr) ^ 0x2)
 #define IX_OSAL_SWAP_BYTE_ADDRESS(bAddr)  ((bAddr) ^ 0x3)

 #define IX_OSAL_BE_XSTOBUSL(wData)  (wData)
 #define IX_OSAL_BE_XSTOBUSS(sData)  (sData)
 #define IX_OSAL_BE_XSTOBUSB(bData)  (bData)
 #define IX_OSAL_BE_BUSTOXSL(wData)  (wData)
 #define IX_OSAL_BE_BUSTOXSS(sData)  (sData)
 #define IX_OSAL_BE_BUSTOXSB(bData)  (bData)

 #define IX_OSAL_LE_AC_XSTOBUSL(wAddr) (wAddr)
 #define IX_OSAL_LE_AC_XSTOBUSS(sAddr) IX_OSAL_SWAP_SHORT_ADDRESS(sAddr)
 #define IX_OSAL_LE_AC_XSTOBUSB(bAddr) IX_OSAL_SWAP_BYTE_ADDRESS(bAddr)
 #define IX_OSAL_LE_AC_BUSTOXSL(wAddr) (wAddr)
 #define IX_OSAL_LE_AC_BUSTOXSS(sAddr) IX_OSAL_SWAP_SHORT_ADDRESS(sAddr)
 #define IX_OSAL_LE_AC_BUSTOXSB(bAddr) IX_OSAL_SWAP_BYTE_ADDRESS(bAddr)

 #define IX_OSAL_LE_DC_XSTOBUSL(wData) IX_OSAL_SWAP_LONG(wData)
 #define IX_OSAL_LE_DC_XSTOBUSS(sData) IX_OSAL_SWAP_SHORT(sData)
 #define IX_OSAL_LE_DC_XSTOBUSB(bData) (bData)
 #define IX_OSAL_LE_DC_BUSTOXSL(wData) IX_OSAL_SWAP_LONG(wData)
 #define IX_OSAL_LE_DC_BUSTOXSS(sData) IX_OSAL_SWAP_SHORT(sData)
 #define IX_OSAL_LE_DC_BUSTOXSB(bData) (bData)


 /*
  * Decide SDRAM mapping, then implement read/write
  */
 #include "IxOsalMemAccess.h"


 /**
  * @ingroup IxOsalIoMem
  * @enum IxOsalMapEntryType
  * @brief This is an emum for OSAL I/O mem map type.
  */
 typedef enum
 {
     IX_OSAL_STATIC_MAP = 0,	 /**<Set map entry type to static map */
     IX_OSAL_DYNAMIC_MAP	     /**<Set map entry type to dynamic map */
 } IxOsalMapEntryType;


 /**
  * @ingroup IxOsalIoMem
  * @enum IxOsalMapEndianessType
  * @brief This is an emum for OSAL I/O mem Endianess and Coherency mode.
  */
 typedef enum
 {
     IX_OSAL_BE = 0x1,      /**<Set map endian mode to Big Endian */
     IX_OSAL_LE_AC = 0x2,   /**<Set map endian mode to Little Endian, Address Coherent */
     IX_OSAL_LE_DC = 0x4,   /**<Set map endian mode to Little Endian, Data Coherent */
     IX_OSAL_LE = 0x8       /**<Set map endian mode to Little Endian without specifying coherency mode */
 } IxOsalMapEndianessType;


 /**
  * @struct IxOsalMemoryMap
  * @brief IxOsalMemoryMap structure
  */
 typedef struct _IxOsalMemoryMap
 {
     IxOsalMapEntryType type;   /**< map type - IX_OSAL_STATIC_MAP or IX_OSAL_DYNAMIC_MAP */

     UINT32 physicalAddress;    /**< physical address of the memory mapped I/O zone */

     UINT32 size;               /**< size of the map */

     UINT32 virtualAddress;     /**< virtual address of the zone; must be predefined
                                     in the global memory map for static maps and has
                                     to be NULL for dynamic maps (populated on allocation)
 								*/
     /*
      * pointer to a map function called to map a dynamic map;
      * will populate the virtualAddress field
      */
     void (*mapFunction) (struct _IxOsalMemoryMap * map);   /**< pointer to a map function called to map a dynamic map */

     /*
      * pointer to a map function called to unmap a dynamic map;
      * will reset the virtualAddress field to NULL
      */
     void (*unmapFunction) (struct _IxOsalMemoryMap * map); /**< pointer to a map function called to unmap a dynamic map */

     /*
      * reference count describing how many components share this map;
      * actual allocation/deallocation for dynamic maps is done only
      * between 0 <=> 1 transitions of the counter
      */
     UINT32 refCount;   /**< reference count describing how many components share this map */

     /*
      * memory endian type for the map; can be a combination of IX_OSAL_BE (Big
      * Endian) and IX_OSAL_LE or IX_OSAL_LE_AC or IX_OSAL_LE_DC
      * (Little Endian, Address Coherent or Data Coherent). Any combination is
      * allowed provided it contains at most one LE flag - e.g.
      * (IX_OSAL_BE), (IX_OSAL_LE_AC), (IX_OSAL_BE | IX_OSAL_LE_DC) are valid
      * combinations while (IX_OSAL_BE | IX_OSAL_LE_DC | IX_OSAL_LE_AC) is not.
      */
     IxOsalMapEndianessType mapEndianType; /**< memory endian type for the map */

     char *name;      /**< user-friendly name */
 } IxOsalMemoryMap;


 /* Internal function to map a memory zone
  * NOTE - This should not be called by the user.
  * Use the macro IX_OSAL_MEM_MAP instead
  */
 PUBLIC void *ixOsalIoMemMap (UINT32 requestedAddress,
 			     UINT32 size,
 			     IxOsalMapEndianessType requestedCoherency);


 /* Internal function to unmap a memory zone mapped with ixOsalIoMemMap
  * NOTE - This should not be called by the user.
  * Use the macro IX_OSAL_MEM_UNMAP instead
  */
 PUBLIC void ixOsalIoMemUnmap (UINT32 requestedAddress, UINT32 coherency);


 /* Internal function to convert virtual address to physical address
  * NOTE - This should not be called by the user.
  * Use the macro IX_OSAL_MMAP_VIRT_TO_PHYS */
 PUBLIC UINT32 ixOsalIoMemVirtToPhys (UINT32 virtualAddress, UINT32 coherency);


 /* Internal function to convert physical address to virtual address
  * NOTE - This should not be called by the user.
  * Use the macro IX_OSAL_MMAP_PHYS_TO_VIRT */
 PUBLIC UINT32
 ixOsalIoMemPhysToVirt (UINT32 physicalAddress, UINT32 coherency);

 /**
  * @ingroup IxOsalIoMem
  *
  * @def IX_OSAL_MEM_MAP(physAddr, size)
  *
  * @brief Map an I/O mapped physical memory zone to virtual zone and return virtual
  *        pointer.
  * @param  physAddr - the physical address
  * @param  size     - the size
  * @return start address of the virtual memory zone.
  *
  * @note  This function maps an I/O mapped physical memory zone of the given size
  * into a virtual memory zone accessible by the caller and returns a cookie -
  * the start address of the virtual memory zone.
  * IX_OSAL_MMAP_PHYS_TO_VIRT should NOT therefore be used on the returned
  * virtual address.
  * The memory zone is to be unmapped using IX_OSAL_MEM_UNMAP once the caller has
  * finished using this zone (e.g. on driver unload) using the cookie as
  * parameter.
  * The IX_OSAL_READ/WRITE_LONG/SHORT macros should be used to read and write
  * the mapped memory, adding the necessary offsets to the address cookie.
  */
 #define IX_OSAL_MEM_MAP(physAddr, size) \
     ixOsalIoMemMap((physAddr), (size), IX_OSAL_COMPONENT_MAPPING)


 /**
  * @ingroup IxOsalIoMem
  *
  * @def IX_OSAL_MEM_UNMAP(virtAddr)
  *
  * @brief Unmap a previously mapped I/O memory zone using virtual pointer obtained
  *        during the mapping operation.
  *        pointer.
  * @param  virtAddr - the virtual pointer to the zone to be unmapped.
  * @return none
  *
  * @note  This function unmaps a previously mapped I/O memory zone using
  * the cookie obtained in the mapping operation. The memory zone in question
  * becomes unavailable to the caller once unmapped and the cookie should be
  * discarded.
  *
  * This function cannot fail if the given parameter is correct and does not
  * return a value.
  */
 #define IX_OSAL_MEM_UNMAP(virtAddr) \
     ixOsalIoMemUnmap ((virtAddr), IX_OSAL_COMPONENT_MAPPING)

 /**
  * @ingroup IxOsalIoMem
  *
  * @def IX_OSAL_MMAP_VIRT_TO_PHYS(virtAddr)
  *
  * @brief This function Converts a virtual address into a physical
  * address, including the dynamically mapped memory.
  *
  * @param  virtAddr - virtual address to convert
  * Return value: corresponding physical address, or NULL
  */
 #define IX_OSAL_MMAP_VIRT_TO_PHYS(virtAddr) \
     ixOsalIoMemVirtToPhys(virtAddr, IX_OSAL_COMPONENT_MAPPING)


 /**
  * @ingroup IxOsalIoMem
  *
  * @def IX_OSAL_MMAP_PHYS_TO_VIRT(physAddr)
  *
  * @brief  This function Converts a virtual address into a physical
  * address, including the dynamically mapped memory.
  *
  * @param  physAddr - physical address to convert
  * Return value: corresponding virtual address, or NULL
  *
  */
 #define IX_OSAL_MMAP_PHYS_TO_VIRT(physAddr) \
     ixOsalIoMemPhysToVirt(physAddr, IX_OSAL_COMPONENT_MAPPING)

 /**
  * @} IxOsalIoMem
  */

 #endif /* IxOsalIoMem_H */
	/*
	* @file IxOsalIoMem.h
	* @author Intel Corporation
	* @date 25-08-2004
	*
	* @brief description goes here
	*/

	/**
	* @par
	* IXP400 SW Release version 2.0
	*
	* -- Copyright Notice --
	*
	* @par
	* Copyright 2001-2005, Intel Corporation.
	* All rights reserved.
	*
	* @par
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. Neither the name of the Intel Corporation nor the names of its contributors
	* may be used to endorse or promote products derived from this software
	* without specific prior written permission.
	*
	* @par
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS''
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*
	* @par
	* -- End of Copyright Notice --
	*/

	#ifndef IxOsalIoMem_H
	#define IxOsalIoMem_H


	/*
	* Decide OS and Endianess, such as IX_OSAL_VXWORKS_LE.
	*/
	#include "IxOsalEndianess.h"

	/**
	* @defgroup IxOsalIoMem Osal IoMem module
	*
	* @brief I/O memory and endianess support.
	*
	* @{
	*/

	/* Low-level conversion macros - DO NOT USE UNLESS ABSOLUTELY NEEDED */
	#ifndef __wince


	/*
	* Private function to swap word
	*/
	#ifdef __XSCALE__
	static __inline__ UINT32
	ixOsalCoreWordSwap (UINT32 wordIn)
	{
	/*
	* Storage for the swapped word
	*/
	UINT32 wordOut;

	/*
	* wordIn = A, B, C, D
	*/
	__asm__ (" eor r1, %1, %1, ror #16;" /* R1 = A^C, B^D, C^A, D^B */
	" bic r1, r1, #0x00ff0000;" /* R1 = A^C, 0 , C^A, D^B */
	" mov %0, %1, ror #8;" /* wordOut = D, A, B, C */
	" eor %0, %0, r1, lsr #8;" /* wordOut = D, C, B, A */
	: "=r" (wordOut): "r" (wordIn):"r1");

	return wordOut;
	}

	#define IX_OSAL_SWAP_LONG(wData) (ixOsalCoreWordSwap(wData))
	#else
	#define IX_OSAL_SWAP_LONG(wData) ((wData >> 24) \| (((wData >> 16) & 0xFF) << 8) \| (((wData >> 8) & 0xFF) << 16) \| ((wData & 0xFF) << 24))
	#endif

	#else /* ndef __wince */
	#define IX_OSAL_SWAP_LONG(wData) ((((UINT32)wData << 24) \| ((UINT32)wData >> 24)) \| (((wData << 8) & 0xff0000) \| ((wData >> 8) & 0xff00)))
	#endif /* ndef __wince */

	#define IX_OSAL_SWAP_SHORT(sData) ((sData >> 8) \| ((sData & 0xFF) << 8))
	#define IX_OSAL_SWAP_SHORT_ADDRESS(sAddr) ((sAddr) ^ 0x2)
	#define IX_OSAL_SWAP_BYTE_ADDRESS(bAddr) ((bAddr) ^ 0x3)

	#define IX_OSAL_BE_XSTOBUSL(wData) (wData)
	#define IX_OSAL_BE_XSTOBUSS(sData) (sData)
	#define IX_OSAL_BE_XSTOBUSB(bData) (bData)
	#define IX_OSAL_BE_BUSTOXSL(wData) (wData)
	#define IX_OSAL_BE_BUSTOXSS(sData) (sData)
	#define IX_OSAL_BE_BUSTOXSB(bData) (bData)

	#define IX_OSAL_LE_AC_XSTOBUSL(wAddr) (wAddr)
	#define IX_OSAL_LE_AC_XSTOBUSS(sAddr) IX_OSAL_SWAP_SHORT_ADDRESS(sAddr)
	#define IX_OSAL_LE_AC_XSTOBUSB(bAddr) IX_OSAL_SWAP_BYTE_ADDRESS(bAddr)
	#define IX_OSAL_LE_AC_BUSTOXSL(wAddr) (wAddr)
	#define IX_OSAL_LE_AC_BUSTOXSS(sAddr) IX_OSAL_SWAP_SHORT_ADDRESS(sAddr)
	#define IX_OSAL_LE_AC_BUSTOXSB(bAddr) IX_OSAL_SWAP_BYTE_ADDRESS(bAddr)

	#define IX_OSAL_LE_DC_XSTOBUSL(wData) IX_OSAL_SWAP_LONG(wData)
	#define IX_OSAL_LE_DC_XSTOBUSS(sData) IX_OSAL_SWAP_SHORT(sData)
	#define IX_OSAL_LE_DC_XSTOBUSB(bData) (bData)
	#define IX_OSAL_LE_DC_BUSTOXSL(wData) IX_OSAL_SWAP_LONG(wData)
	#define IX_OSAL_LE_DC_BUSTOXSS(sData) IX_OSAL_SWAP_SHORT(sData)
	#define IX_OSAL_LE_DC_BUSTOXSB(bData) (bData)


	/*
	* Decide SDRAM mapping, then implement read/write
	*/
	#include "IxOsalMemAccess.h"


	/**
	* @ingroup IxOsalIoMem
	* @enum IxOsalMapEntryType
	* @brief This is an emum for OSAL I/O mem map type.
	*/
	typedef enum
	{
	IX_OSAL_STATIC_MAP = 0, /*<Set map entry type to static map /
	IX_OSAL_DYNAMIC_MAP /*<Set map entry type to dynamic map /
	} IxOsalMapEntryType;


	/**
	* @ingroup IxOsalIoMem
	* @enum IxOsalMapEndianessType
	* @brief This is an emum for OSAL I/O mem Endianess and Coherency mode.
	*/
	typedef enum
	{
	IX_OSAL_BE = 0x1, /*<Set map endian mode to Big Endian /
	IX_OSAL_LE_AC = 0x2, /*<Set map endian mode to Little Endian, Address Coherent /
	IX_OSAL_LE_DC = 0x4, /*<Set map endian mode to Little Endian, Data Coherent /
	IX_OSAL_LE = 0x8 /*<Set map endian mode to Little Endian without specifying coherency mode /
	} IxOsalMapEndianessType;


	/**
	* @struct IxOsalMemoryMap
	* @brief IxOsalMemoryMap structure
	*/
	typedef struct _IxOsalMemoryMap
	{
	IxOsalMapEntryType type; /*< map type - IX_OSAL_STATIC_MAP or IX_OSAL_DYNAMIC_MAP /

	UINT32 physicalAddress; /*< physical address of the memory mapped I/O zone /

	UINT32 size; /*< size of the map /

	UINT32 virtualAddress; /**< virtual address of the zone; must be predefined
	in the global memory map for static maps and has
	to be NULL for dynamic maps (populated on allocation)
	*/
	/*
	* pointer to a map function called to map a dynamic map;
	* will populate the virtualAddress field
	*/
	void (mapFunction) (struct _IxOsalMemoryMap map); /*< pointer to a map function called to map a dynamic map /

	/*
	* pointer to a map function called to unmap a dynamic map;
	* will reset the virtualAddress field to NULL
	*/
	void (unmapFunction) (struct _IxOsalMemoryMap map); /*< pointer to a map function called to unmap a dynamic map /

	/*
	* reference count describing how many components share this map;
	* actual allocation/deallocation for dynamic maps is done only
	* between 0 <=> 1 transitions of the counter
	*/
	UINT32 refCount; /*< reference count describing how many components share this map /

	/*
	* memory endian type for the map; can be a combination of IX_OSAL_BE (Big
	* Endian) and IX_OSAL_LE or IX_OSAL_LE_AC or IX_OSAL_LE_DC
	* (Little Endian, Address Coherent or Data Coherent). Any combination is
	* allowed provided it contains at most one LE flag - e.g.
	* (IX_OSAL_BE), (IX_OSAL_LE_AC), (IX_OSAL_BE \| IX_OSAL_LE_DC) are valid
	* combinations while (IX_OSAL_BE \| IX_OSAL_LE_DC \| IX_OSAL_LE_AC) is not.
	*/
	IxOsalMapEndianessType mapEndianType; /*< memory endian type for the map /

	char name; /< user-friendly name /
	} IxOsalMemoryMap;




	/* Internal function to map a memory zone
	* NOTE - This should not be called by the user.
	* Use the macro IX_OSAL_MEM_MAP instead
	*/
	PUBLIC void *ixOsalIoMemMap (UINT32 requestedAddress,
	UINT32 size,
	IxOsalMapEndianessType requestedCoherency);


	/* Internal function to unmap a memory zone mapped with ixOsalIoMemMap
	* NOTE - This should not be called by the user.
	* Use the macro IX_OSAL_MEM_UNMAP instead
	*/
	PUBLIC void ixOsalIoMemUnmap (UINT32 requestedAddress, UINT32 coherency);


	/* Internal function to convert virtual address to physical address
	* NOTE - This should not be called by the user.
	* Use the macro IX_OSAL_MMAP_VIRT_TO_PHYS */
	PUBLIC UINT32 ixOsalIoMemVirtToPhys (UINT32 virtualAddress, UINT32 coherency);


	/* Internal function to convert physical address to virtual address
	* NOTE - This should not be called by the user.
	* Use the macro IX_OSAL_MMAP_PHYS_TO_VIRT */
	PUBLIC UINT32
	ixOsalIoMemPhysToVirt (UINT32 physicalAddress, UINT32 coherency);

	/**
	* @ingroup IxOsalIoMem
	*
	* @def IX_OSAL_MEM_MAP(physAddr, size)
	*
	* @brief Map an I/O mapped physical memory zone to virtual zone and return virtual
	* pointer.
	* @param physAddr - the physical address
	* @param size - the size
	* @return start address of the virtual memory zone.
	*
	* @note This function maps an I/O mapped physical memory zone of the given size
	* into a virtual memory zone accessible by the caller and returns a cookie -
	* the start address of the virtual memory zone.
	* IX_OSAL_MMAP_PHYS_TO_VIRT should NOT therefore be used on the returned
	* virtual address.
	* The memory zone is to be unmapped using IX_OSAL_MEM_UNMAP once the caller has
	* finished using this zone (e.g. on driver unload) using the cookie as
	* parameter.
	* The IX_OSAL_READ/WRITE_LONG/SHORT macros should be used to read and write
	* the mapped memory, adding the necessary offsets to the address cookie.
	*/
	#define IX_OSAL_MEM_MAP(physAddr, size) \
	ixOsalIoMemMap((physAddr), (size), IX_OSAL_COMPONENT_MAPPING)


	/**
	* @ingroup IxOsalIoMem
	*
	* @def IX_OSAL_MEM_UNMAP(virtAddr)
	*
	* @brief Unmap a previously mapped I/O memory zone using virtual pointer obtained
	* during the mapping operation.
	* pointer.
	* @param virtAddr - the virtual pointer to the zone to be unmapped.
	* @return none
	*
	* @note This function unmaps a previously mapped I/O memory zone using
	* the cookie obtained in the mapping operation. The memory zone in question
	* becomes unavailable to the caller once unmapped and the cookie should be
	* discarded.
	*
	* This function cannot fail if the given parameter is correct and does not
	* return a value.
	*/
	#define IX_OSAL_MEM_UNMAP(virtAddr) \
	ixOsalIoMemUnmap ((virtAddr), IX_OSAL_COMPONENT_MAPPING)

	/**
	* @ingroup IxOsalIoMem
	*
	* @def IX_OSAL_MMAP_VIRT_TO_PHYS(virtAddr)
	*
	* @brief This function Converts a virtual address into a physical
	* address, including the dynamically mapped memory.
	*
	* @param virtAddr - virtual address to convert
	* Return value: corresponding physical address, or NULL
	*/
	#define IX_OSAL_MMAP_VIRT_TO_PHYS(virtAddr) \
	ixOsalIoMemVirtToPhys(virtAddr, IX_OSAL_COMPONENT_MAPPING)


	/**
	* @ingroup IxOsalIoMem
	*
	* @def IX_OSAL_MMAP_PHYS_TO_VIRT(physAddr)
	*
	* @brief This function Converts a virtual address into a physical
	* address, including the dynamically mapped memory.
	*
	* @param physAddr - physical address to convert
	* Return value: corresponding virtual address, or NULL
	*
	*/
	#define IX_OSAL_MMAP_PHYS_TO_VIRT(physAddr) \
	ixOsalIoMemPhysToVirt(physAddr, IX_OSAL_COMPONENT_MAPPING)

	/**
	* @} IxOsalIoMem
	*/

	#endif /* IxOsalIoMem_H */