u-boot/cpu/ixp/npe/include/IxOsalMemAccess.h

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/**
* @file IxOsalMemAccess.h
*
* @brief Header file for memory access
*
* @par
* @version $Revision: 1.0 $
*
* @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 IxOsalMemAccess_H
#define IxOsalMemAccess_H
/* Global BE switch
*
* Should be set only in BE mode and only if the component uses I/O memory.
*/
#if defined (__BIG_ENDIAN)
#define IX_OSAL_BE_MAPPING
#endif /* Global switch */
/* By default only static memory maps in use;
define IX_OSAL_DYNAMIC_MEMORY_MAP per component if dynamic maps are
used instead in that component */
#define IX_OSAL_STATIC_MEMORY_MAP
/*
* SDRAM coherency mode
* Must be defined to BE, LE_DATA_COHERENT or LE_ADDRESS_COHERENT.
* The mode changes depending on OS
*/
#if defined (IX_OSAL_LINUX_BE) || defined (IX_OSAL_VXWORKS_BE)
#define IX_SDRAM_BE
#elif defined (IX_OSAL_VXWORKS_LE)
#define IX_SDRAM_LE_DATA_COHERENT
#elif defined (IX_OSAL_LINUX_LE)
#define IX_SDRAM_LE_DATA_COHERENT
#elif defined (IX_OSAL_WINCE_LE)
#define IX_SDRAM_LE_DATA_COHERENT
#elif defined (IX_OSAL_EBOOT_LE)
#define IX_SDRAM_LE_ADDRESS_COHERENT
#endif
/**************************************
* Retrieve current component mapping *
**************************************/
/*
* Only use customized mapping for LE.
*
*/
#if defined (IX_OSAL_VXWORKS_LE) || defined (IX_OSAL_LINUX_LE) || defined (IX_OSAL_WINCE_LE) || defined (IX_OSAL_EBOOT_LE)
#include "IxOsalOsIxp400CustomizedMapping.h"
#endif
/*******************************************************************
* Turn off IX_STATIC_MEMORY map for components using dynamic maps *
*******************************************************************/
#ifdef IX_OSAL_DYNAMIC_MEMORY_MAP
#undef IX_OSAL_STATIC_MEMORY_MAP
#endif
/************************************************************
* Turn off BE access for components using LE or no mapping *
************************************************************/
#if ( defined (IX_OSAL_LE_AC_MAPPING) || defined (IX_OSAL_LE_DC_MAPPING) || defined (IX_OSAL_NO_MAPPING) )
#undef IX_OSAL_BE_MAPPING
#endif
/*****************
* Safety checks *
*****************/
/* Default to no_mapping */
#if !defined (IX_OSAL_BE_MAPPING) && !defined (IX_OSAL_LE_AC_MAPPING) && !defined (IX_OSAL_LE_DC_MAPPING) && !defined (IX_OSAL_NO_MAPPING)
#define IX_OSAL_NO_MAPPING
#endif /* check at least one mapping */
/* No more than one mapping can be defined for a component */
#if (defined (IX_OSAL_BE_MAPPING) && defined (IX_OSAL_LE_AC_MAPPING)) \
||(defined (IX_OSAL_BE_MAPPING) && defined (IX_OSAL_LE_DC_MAPPING)) \
||(defined (IX_OSAL_BE_MAPPING) && defined (IX_OSAL_NO_MAPPING)) \
||(defined (IX_OSAL_LE_DC_MAPPING) && defined (IX_OSAL_NO_MAPPING)) \
||(defined (IX_OSAL_LE_DC_MAPPING) && defined (IX_OSAL_LE_AC_MAPPING)) \
||(defined (IX_OSAL_LE_AC_MAPPING) && defined (IX_OSAL_NO_MAPPING))
#ifdef IX_OSAL_BE_MAPPING
#warning IX_OSAL_BE_MAPPING is defined
#endif
#ifdef IX_OSAL_LE_AC_MAPPING
#warning IX_OSAL_LE_AC_MAPPING is defined
#endif
#ifdef IX_OSAL_LE_DC_MAPPING
#warning IX_OSAL_LE_DC_MAPPING is defined
#endif
#ifdef IX_OSAL_NO_MAPPING
#warning IX_OSAL_NO_MAPPING is defined
#endif
#error More than one I/O mapping is defined, please check your component mapping
#endif /* check at most one mapping */
/* Now set IX_OSAL_COMPONENT_MAPPING */
#ifdef IX_OSAL_BE_MAPPING
#define IX_OSAL_COMPONENT_MAPPING IX_OSAL_BE
#endif
#ifdef IX_OSAL_LE_AC_MAPPING
#define IX_OSAL_COMPONENT_MAPPING IX_OSAL_LE_AC
#endif
#ifdef IX_OSAL_LE_DC_MAPPING
#define IX_OSAL_COMPONENT_MAPPING IX_OSAL_LE_DC
#endif
#ifdef IX_OSAL_NO_MAPPING
#define IX_OSAL_COMPONENT_MAPPING IX_OSAL_LE
#endif
/* SDRAM coherency should be defined */
#if !defined (IX_SDRAM_BE) && !defined (IX_SDRAM_LE_DATA_COHERENT) && !defined (IX_SDRAM_LE_ADDRESS_COHERENT)
#error SDRAM coherency must be defined
#endif /* SDRAM coherency must be defined */
/* SDRAM coherency cannot be defined in several ways */
#if (defined (IX_SDRAM_BE) && (defined (IX_SDRAM_LE_DATA_COHERENT) || defined (IX_SDRAM_LE_ADDRESS_COHERENT))) \
|| (defined (IX_SDRAM_LE_DATA_COHERENT) && (defined (IX_SDRAM_BE) || defined (IX_SDRAM_LE_ADDRESS_COHERENT))) \
|| (defined (IX_SDRAM_LE_ADDRESS_COHERENT) && (defined (IX_SDRAM_BE) || defined (IX_SDRAM_LE_DATA_COHERENT)))
#error SDRAM coherency cannot be defined in more than one way
#endif /* SDRAM coherency must be defined exactly once */
/*********************
* Read/write macros *
*********************/
/* WARNING - except for addition of special cookie read/write macros (see below)
these macros are NOT user serviceable. Please do not modify */
#define IX_OSAL_READ_LONG_RAW(wAddr) (*(wAddr))
#define IX_OSAL_READ_SHORT_RAW(sAddr) (*(sAddr))
#define IX_OSAL_READ_BYTE_RAW(bAddr) (*(bAddr))
#define IX_OSAL_WRITE_LONG_RAW(wAddr, wData) (*(wAddr) = (wData))
#define IX_OSAL_WRITE_SHORT_RAW(sAddr,sData) (*(sAddr) = (sData))
#define IX_OSAL_WRITE_BYTE_RAW(bAddr, bData) (*(bAddr) = (bData))
#ifdef __linux
/* Linux - specific cookie reads/writes.
Redefine per OS if dynamic memory maps are used
and I/O memory is accessed via functions instead of raw pointer access. */
#define IX_OSAL_READ_LONG_COOKIE(wCookie) (readl((UINT32) (wCookie) ))
#define IX_OSAL_READ_SHORT_COOKIE(sCookie) (readw((UINT32) (sCookie) ))
#define IX_OSAL_READ_BYTE_COOKIE(bCookie) (readb((UINT32) (bCookie) ))
#define IX_OSAL_WRITE_LONG_COOKIE(wCookie, wData) (writel(wData, (UINT32) (wCookie) ))
#define IX_OSAL_WRITE_SHORT_COOKIE(sCookie, sData) (writew(sData, (UINT32) (sCookie) ))
#define IX_OSAL_WRITE_BYTE_COOKIE(bCookie, bData) (writeb(bData, (UINT32) (bCookie) ))
#endif /* linux */
#ifdef __wince
/* WinCE - specific cookie reads/writes. */
static __inline__ UINT32
ixOsalWinCEReadLCookie (volatile UINT32 * lCookie)
{
return *lCookie;
}
static __inline__ UINT16
ixOsalWinCEReadWCookie (volatile UINT16 * wCookie)
{
#if 0
UINT32 auxVal = *((volatile UINT32 *) wCookie);
if ((unsigned) wCookie & 3)
return (UINT16) (auxVal >> 16);
else
return (UINT16) (auxVal & 0xffff);
#else
return *wCookie;
#endif
}
static __inline__ UINT8
ixOsalWinCEReadBCookie (volatile UINT8 * bCookie)
{
#if 0
UINT32 auxVal = *((volatile UINT32 *) bCookie);
return (UINT8) ((auxVal >> (3 - (((unsigned) bCookie & 3) << 3)) & 0xff));
#else
return *bCookie;
#endif
}
static __inline__ void
ixOsalWinCEWriteLCookie (volatile UINT32 * lCookie, UINT32 lVal)
{
*lCookie = lVal;
}
static __inline__ void
ixOsalWinCEWriteWCookie (volatile UINT16 * wCookie, UINT16 wVal)
{
#if 0
volatile UINT32 *auxCookie =
(volatile UINT32 *) ((unsigned) wCookie & ~3);
if ((unsigned) wCookie & 3)
{
*auxCookie &= 0xffff;
*auxCookie |= (UINT32) wVal << 16;
}
else
{
*auxCookie &= ~0xffff;
*auxCookie |= (UINT32) wVal & 0xffff;
}
#else
*wCookie = wVal;
#endif
}
static __inline__ void
ixOsalWinCEWriteBCookie (volatile UINT8 * bCookie, UINT8 bVal)
{
#if 0
volatile UINT32 *auxCookie =
(volatile UINT32 *) ((unsigned) bCookie & ~3);
*auxCookie &= 0xff << (3 - (((unsigned) bCookie & 3) << 3));
*auxCookie |= (UINT32) bVal << (3 - (((unsigned) bCookie & 3) << 3));
#else
*bCookie = bVal;
#endif
}
#define IX_OSAL_READ_LONG_COOKIE(wCookie) (ixOsalWinCEReadLCookie(wCookie))
#define IX_OSAL_READ_SHORT_COOKIE(sCookie) (ixOsalWinCEReadWCookie(sCookie))
#define IX_OSAL_READ_BYTE_COOKIE(bCookie) (ixOsalWinCEReadBCookie(bCookie))
#define IX_OSAL_WRITE_LONG_COOKIE(wCookie, wData) (ixOsalWinCEWriteLCookie(wCookie, wData))
#define IX_OSAL_WRITE_SHORT_COOKIE(sCookie, sData) (ixOsalWinCEWriteWCookie(sCookie, sData))
#define IX_OSAL_WRITE_BYTE_COOKIE(bCookie, bData) (ixOsalWinCEWriteBCookie(bCookie, bData))
#endif /* wince */
#if defined (__vxworks) || (defined (__linux) && defined (IX_OSAL_STATIC_MEMORY_MAP)) || \
(defined (__wince) && defined (IX_OSAL_STATIC_MEMORY_MAP))
#define IX_OSAL_READ_LONG_IO(wAddr) IX_OSAL_READ_LONG_RAW(wAddr)
#define IX_OSAL_READ_SHORT_IO(sAddr) IX_OSAL_READ_SHORT_RAW(sAddr)
#define IX_OSAL_READ_BYTE_IO(bAddr) IX_OSAL_READ_BYTE_RAW(bAddr)
#define IX_OSAL_WRITE_LONG_IO(wAddr, wData) IX_OSAL_WRITE_LONG_RAW(wAddr, wData)
#define IX_OSAL_WRITE_SHORT_IO(sAddr, sData) IX_OSAL_WRITE_SHORT_RAW(sAddr, sData)
#define IX_OSAL_WRITE_BYTE_IO(bAddr, bData) IX_OSAL_WRITE_BYTE_RAW(bAddr, bData)
#elif (defined (__linux) && !defined (IX_OSAL_STATIC_MEMORY_MAP)) || \
(defined (__wince) && !defined (IX_OSAL_STATIC_MEMORY_MAP))
#ifndef __wince
#include <asm/io.h>
#endif /* ndef __wince */
#define IX_OSAL_READ_LONG_IO(wAddr) IX_OSAL_READ_LONG_COOKIE(wAddr)
#define IX_OSAL_READ_SHORT_IO(sAddr) IX_OSAL_READ_SHORT_COOKIE(sAddr)
#define IX_OSAL_READ_BYTE_IO(bAddr) IX_OSAL_READ_BYTE_COOKIE(bAddr)
#define IX_OSAL_WRITE_LONG_IO(wAddr, wData) IX_OSAL_WRITE_LONG_COOKIE(wAddr, wData)
#define IX_OSAL_WRITE_SHORT_IO(sAddr, sData) IX_OSAL_WRITE_SHORT_COOKIE(sAddr, sData)
#define IX_OSAL_WRITE_BYTE_IO(bAddr, bData) IX_OSAL_WRITE_BYTE_COOKIE(bAddr, bData)
#endif
/* Define BE macros */
#define IX_OSAL_READ_LONG_BE(wAddr) IX_OSAL_BE_BUSTOXSL(IX_OSAL_READ_LONG_IO((volatile UINT32 *) (wAddr) ))
#define IX_OSAL_READ_SHORT_BE(sAddr) IX_OSAL_BE_BUSTOXSS(IX_OSAL_READ_SHORT_IO((volatile UINT16 *) (sAddr) ))
#define IX_OSAL_READ_BYTE_BE(bAddr) IX_OSAL_BE_BUSTOXSB(IX_OSAL_READ_BYTE_IO((volatile UINT8 *) (bAddr) ))
#define IX_OSAL_WRITE_LONG_BE(wAddr, wData) IX_OSAL_WRITE_LONG_IO((volatile UINT32 *) (wAddr), IX_OSAL_BE_XSTOBUSL((UINT32) (wData) ))
#define IX_OSAL_WRITE_SHORT_BE(sAddr, sData) IX_OSAL_WRITE_SHORT_IO((volatile UINT16 *) (sAddr), IX_OSAL_BE_XSTOBUSS((UINT16) (sData) ))
#define IX_OSAL_WRITE_BYTE_BE(bAddr, bData) IX_OSAL_WRITE_BYTE_IO((volatile UINT8 *) (bAddr), IX_OSAL_BE_XSTOBUSB((UINT8) (bData) ))
/* Define LE AC macros */
#define IX_OSAL_READ_LONG_LE_AC(wAddr) IX_OSAL_READ_LONG_IO((volatile UINT32 *) IX_OSAL_LE_AC_BUSTOXSL((UINT32) (wAddr) ))
#define IX_OSAL_READ_SHORT_LE_AC(sAddr) IX_OSAL_READ_SHORT_IO((volatile UINT16 *) IX_OSAL_LE_AC_BUSTOXSS((UINT32) (sAddr) ))
#define IX_OSAL_READ_BYTE_LE_AC(bAddr) IX_OSAL_READ_BYTE_IO((volatile UINT8 *) IX_OSAL_LE_AC_BUSTOXSB((UINT32) (bAddr) ))
#define IX_OSAL_WRITE_LONG_LE_AC(wAddr, wData) IX_OSAL_WRITE_LONG_IO((volatile UINT32 *) IX_OSAL_LE_AC_XSTOBUSL((UINT32) (wAddr) ), (UINT32) (wData))
#define IX_OSAL_WRITE_SHORT_LE_AC(sAddr, sData) IX_OSAL_WRITE_SHORT_IO((volatile UINT16 *) IX_OSAL_LE_AC_XSTOBUSS((UINT32) (sAddr) ), (UINT16) (sData))
#define IX_OSAL_WRITE_BYTE_LE_AC(bAddr, bData) IX_OSAL_WRITE_BYTE_IO((volatile UINT8 *) IX_OSAL_LE_AC_XSTOBUSB((UINT32) (bAddr) ), (UINT8) (bData))
/* Inline functions are required here to avoid reading the same I/O location 2 or 4 times for the byte swap */
static __inline__ UINT32
ixOsalDataCoherentLongReadSwap (volatile UINT32 * wAddr)
{
UINT32 wData = IX_OSAL_READ_LONG_IO (wAddr);
return IX_OSAL_LE_DC_BUSTOXSL (wData);
}
static __inline__ UINT16
ixOsalDataCoherentShortReadSwap (volatile UINT16 * sAddr)
{
UINT16 sData = IX_OSAL_READ_SHORT_IO (sAddr);
return IX_OSAL_LE_DC_BUSTOXSS (sData);
}
static __inline__ void
ixOsalDataCoherentLongWriteSwap (volatile UINT32 * wAddr, UINT32 wData)
{
wData = IX_OSAL_LE_DC_XSTOBUSL (wData);
IX_OSAL_WRITE_LONG_IO (wAddr, wData);
}
static __inline__ void
ixOsalDataCoherentShortWriteSwap (volatile UINT16 * sAddr, UINT16 sData)
{
sData = IX_OSAL_LE_DC_XSTOBUSS (sData);
IX_OSAL_WRITE_SHORT_IO (sAddr, sData);
}
/* Define LE DC macros */
#define IX_OSAL_READ_LONG_LE_DC(wAddr) ixOsalDataCoherentLongReadSwap((volatile UINT32 *) (wAddr) )
#define IX_OSAL_READ_SHORT_LE_DC(sAddr) ixOsalDataCoherentShortReadSwap((volatile UINT16 *) (sAddr) )
#define IX_OSAL_READ_BYTE_LE_DC(bAddr) IX_OSAL_LE_DC_BUSTOXSB(IX_OSAL_READ_BYTE_IO((volatile UINT8 *) (bAddr) ))
#define IX_OSAL_WRITE_LONG_LE_DC(wAddr, wData) ixOsalDataCoherentLongWriteSwap((volatile UINT32 *) (wAddr), (UINT32) (wData))
#define IX_OSAL_WRITE_SHORT_LE_DC(sAddr, sData) ixOsalDataCoherentShortWriteSwap((volatile UINT16 *) (sAddr), (UINT16) (sData))
#define IX_OSAL_WRITE_BYTE_LE_DC(bAddr, bData) IX_OSAL_WRITE_BYTE_IO((volatile UINT8 *) (bAddr), IX_OSAL_LE_DC_XSTOBUSB((UINT8) (bData)))
#if defined (IX_OSAL_BE_MAPPING)
#define IX_OSAL_READ_LONG(wAddr) IX_OSAL_READ_LONG_BE(wAddr)
#define IX_OSAL_READ_SHORT(sAddr) IX_OSAL_READ_SHORT_BE(sAddr)
#define IX_OSAL_READ_BYTE(bAddr) IX_OSAL_READ_BYTE_BE(bAddr)
#define IX_OSAL_WRITE_LONG(wAddr, wData) IX_OSAL_WRITE_LONG_BE(wAddr, wData)
#define IX_OSAL_WRITE_SHORT(sAddr, sData) IX_OSAL_WRITE_SHORT_BE(sAddr, sData)
#define IX_OSAL_WRITE_BYTE(bAddr, bData) IX_OSAL_WRITE_BYTE_BE(bAddr, bData)
#elif defined (IX_OSAL_LE_AC_MAPPING)
#define IX_OSAL_READ_LONG(wAddr) IX_OSAL_READ_LONG_LE_AC(wAddr)
#define IX_OSAL_READ_SHORT(sAddr) IX_OSAL_READ_SHORT_LE_AC(sAddr)
#define IX_OSAL_READ_BYTE(bAddr) IX_OSAL_READ_BYTE_LE_AC(bAddr)
#define IX_OSAL_WRITE_LONG(wAddr, wData) IX_OSAL_WRITE_LONG_LE_AC(wAddr, wData)
#define IX_OSAL_WRITE_SHORT(sAddr, sData) IX_OSAL_WRITE_SHORT_LE_AC(sAddr, sData)
#define IX_OSAL_WRITE_BYTE(bAddr, bData) IX_OSAL_WRITE_BYTE_LE_AC(bAddr, bData)
#elif defined (IX_OSAL_LE_DC_MAPPING)
#define IX_OSAL_READ_LONG(wAddr) IX_OSAL_READ_LONG_LE_DC(wAddr)
#define IX_OSAL_READ_SHORT(sAddr) IX_OSAL_READ_SHORT_LE_DC(sAddr)
#define IX_OSAL_READ_BYTE(bAddr) IX_OSAL_READ_BYTE_LE_DC(bAddr)
#define IX_OSAL_WRITE_LONG(wAddr, wData) IX_OSAL_WRITE_LONG_LE_DC(wAddr, wData)
#define IX_OSAL_WRITE_SHORT(sAddr, sData) IX_OSAL_WRITE_SHORT_LE_DC(sAddr, sData)
#define IX_OSAL_WRITE_BYTE(bAddr, bData) IX_OSAL_WRITE_BYTE_LE_DC(bAddr, bData)
#endif /* End of BE and LE coherency mode switch */
/* Reads/writes to and from memory shared with NPEs - depends on the SDRAM coherency */
#if defined (IX_SDRAM_BE)
#define IX_OSAL_READ_BE_SHARED_LONG(wAddr) IX_OSAL_READ_LONG_RAW(wAddr)
#define IX_OSAL_READ_BE_SHARED_SHORT(sAddr) IX_OSAL_READ_SHORT_RAW(sAddr)
#define IX_OSAL_READ_BE_SHARED_BYTE(bAddr) IX_OSAL_READ_BYTE_RAW(bAddr)
#define IX_OSAL_WRITE_BE_SHARED_LONG(wAddr, wData) IX_OSAL_WRITE_LONG_RAW(wAddr, wData)
#define IX_OSAL_WRITE_BE_SHARED_SHORT(sAddr, sData) IX_OSAL_WRITE_SHORT_RAW(sAddr, sData)
#define IX_OSAL_WRITE_BE_SHARED_BYTE(bAddr, bData) IX_OSAL_WRITE_BYTE_RAW(bAddr, bData)
#define IX_OSAL_SWAP_BE_SHARED_LONG(wData) (wData)
#define IX_OSAL_SWAP_BE_SHARED_SHORT(sData) (sData)
#define IX_OSAL_SWAP_BE_SHARED_BYTE(bData) (bData)
#elif defined (IX_SDRAM_LE_ADDRESS_COHERENT)
#define IX_OSAL_READ_BE_SHARED_LONG(wAddr) IX_OSAL_READ_LONG_RAW(wAddr)
#define IX_OSAL_READ_BE_SHARED_SHORT(sAddr) IX_OSAL_READ_SHORT_RAW(IX_OSAL_SWAP_SHORT_ADDRESS(sAddr))
#define IX_OSAL_READ_BE_SHARED_BYTE(bAddr) IX_OSAL_READ_BYTE_RAW(IX_OSAL_SWAP_BYTE_ADDRESS(bAddr))
#define IX_OSAL_WRITE_BE_SHARED_LONG(wAddr, wData) IX_OSAL_WRITE_LONG_RAW(wAddr, wData)
#define IX_OSAL_WRITE_BE_SHARED_SHORT(sAddr, sData) IX_OSAL_WRITE_SHORT_RAW(IX_OSAL_SWAP_SHORT_ADDRESS(sAddr), sData)
#define IX_OSAL_WRITE_BE_SHARED_BYTE(bAddr, bData) IX_OSAL_WRITE_BYTE_RAW(IX_OSAL_SWAP_BYTE_ADDRESS(bAddr), bData)
#define IX_OSAL_SWAP_BE_SHARED_LONG(wData) (wData)
#define IX_OSAL_SWAP_BE_SHARED_SHORT(sData) (sData)
#define IX_OSAL_SWAP_BE_SHARED_BYTE(bData) (bData)
#elif defined (IX_SDRAM_LE_DATA_COHERENT)
#define IX_OSAL_READ_BE_SHARED_LONG(wAddr) IX_OSAL_SWAP_LONG(IX_OSAL_READ_LONG_RAW(wAddr))
#define IX_OSAL_READ_BE_SHARED_SHORT(sAddr) IX_OSAL_SWAP_SHORT(IX_OSAL_READ_SHORT_RAW(sAddr))
#define IX_OSAL_READ_BE_SHARED_BYTE(bAddr) IX_OSAL_READ_BYTE_RAW(bAddr)
#define IX_OSAL_WRITE_BE_SHARED_LONG(wAddr, wData) IX_OSAL_WRITE_LONG_RAW(wAddr, IX_OSAL_SWAP_LONG(wData))
#define IX_OSAL_WRITE_BE_SHARED_SHORT(sAddr, sData) IX_OSAL_WRITE_SHORT_RAW(sAddr, IX_OSAL_SWAP_SHORT(sData))
#define IX_OSAL_WRITE_BE_SHARED_BYTE(bAddr, bData) IX_OSAL_WRITE_BYTE_RAW(bAddr, bData)
#define IX_OSAL_SWAP_BE_SHARED_LONG(wData) IX_OSAL_SWAP_LONG(wData)
#define IX_OSAL_SWAP_BE_SHARED_SHORT(sData) IX_OSAL_SWAP_SHORT(sData)
#endif
#define IX_OSAL_COPY_BE_SHARED_LONG_ARRAY(wDestAddr, wSrcAddr, wCount) \
{ \
UINT32 i; \
\
for ( i = 0 ; i < wCount ; i++ ) \
{ \
* (((UINT32 *) wDestAddr) + i) = IX_OSAL_READ_BE_SHARED_LONG(((UINT32 *) wSrcAddr) + i); \
}; \
};
#endif /* IxOsalMemAccess_H */