FreeRTOS-Plus/Source/Reliance-Edge/util/memory.c - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /*             ----> DO NOT REMOVE THE FOLLOWING NOTICE <----

                    Copyright (c) 2014-2015 Datalight, Inc.
                        All Rights Reserved Worldwide.

     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; use version 2 of the License.

     This program is distributed in the hope that it will be useful,
     but "AS-IS," 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.,
     51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
 */
 /*  Businesses and individuals that for commercial or other reasons cannot
     comply with the terms of the GPLv2 license may obtain a commercial license
     before incorporating Reliance Edge into proprietary software for
     distribution in any form.  Visit http://www.datalight.com/reliance-edge for
     more information.
 */
 /** @file
     @brief Default implementations of memory manipulation functions.

     These implementations are intended to be small and simple, and thus forego
     all optimizations.  If the C library is available, or if there are better
     third-party implementations available in the system, those can be used
     instead by defining the appropriate macros in redconf.h.

     These functions are not intended to be completely 100% ANSI C compatible
     implementations, but rather are designed to meet the needs of Reliance Edge.
     The compatibility is close enough that ANSI C compatible implementations
     can be "dropped in" as replacements without difficulty.
 */
 #include <redfs.h>


 #ifndef RedMemCpyUnchecked
 static void RedMemCpyUnchecked(void *pDest, const void *pSrc, uint32_t ulLen);
 #endif
 #ifndef RedMemMoveUnchecked
 static void RedMemMoveUnchecked(void *pDest, const void *pSrc, uint32_t ulLen);
 #endif
 #ifndef RedMemSetUnchecked
 static void RedMemSetUnchecked(void *pDest, uint8_t bVal, uint32_t ulLen);
 #endif
 #ifndef RedMemCmpUnchecked
 static int32_t RedMemCmpUnchecked(const void *pMem1, const void *pMem2, uint32_t ulLen);
 #endif


 /** @brief Copy memory from one address to another.

     The source and destination memory buffers should not overlap.  If the
     buffers overlap, use RedMemMove() instead.

     @param pDest    The destination buffer.
     @param pSrc     The source buffer.
     @param ulLen    The number of bytes to copy.
 */
 void RedMemCpy(
     void       *pDest,
     const void *pSrc,
     uint32_t    ulLen)
 {
     if((pDest == NULL) || (pSrc == NULL))
     {
         REDERROR();
     }
     else
     {
         RedMemCpyUnchecked(pDest, pSrc, ulLen);
     }
 }


 #ifndef RedMemCpyUnchecked
 /** @brief Copy memory from one address to another.

     This function should only be called from RedMemCpy().

     @param pDest    The destination buffer.
     @param pSrc     The source buffer.
     @param ulLen    The number of bytes to copy.
 */
 static void RedMemCpyUnchecked(
     void           *pDest,
     const void     *pSrc,
     uint32_t        ulLen)
 {
     uint8_t        *pbDest = CAST_VOID_PTR_TO_UINT8_PTR(pDest);
     const uint8_t  *pbSrc = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pSrc);
     uint32_t        ulIdx;

     for(ulIdx = 0U; ulIdx < ulLen; ulIdx++)
     {
         pbDest[ulIdx] = pbSrc[ulIdx];
     }
 }
 #endif


 /** @brief Move memory from one address to another.

     Supports overlapping memory regions.  If memory regions do not overlap, it
     is generally better to use RedMemCpy() instead.

     @param pDest    The destination buffer.
     @param pSrc     The source buffer.
     @param ulLen    The number of bytes to copy.
 */
 void RedMemMove(
     void       *pDest,
     const void *pSrc,
     uint32_t    ulLen)
 {
     if((pDest == NULL) || (pSrc == NULL))
     {
         REDERROR();
     }
     else
     {
         RedMemMoveUnchecked(pDest, pSrc, ulLen);
     }
 }


 #ifndef RedMemMoveUnchecked
 /** @brief Move memory from one address to another.

     This function should only be called from RedMemMove().

     @param pDest    The destination buffer.
     @param pSrc     The source buffer.
     @param ulLen    The number of bytes to copy.
 */
 static void RedMemMoveUnchecked(
     void           *pDest,
     const void     *pSrc,
     uint32_t        ulLen)
 {
     uint8_t        *pbDest = CAST_VOID_PTR_TO_UINT8_PTR(pDest);
     const uint8_t  *pbSrc = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pSrc);
     uint32_t        ulIdx;

     if(MEMMOVE_MUST_COPY_FORWARD(pbDest, pbSrc))
     {
         /*  If the destination is lower than the source with overlapping memory
             regions, we must copy from start to end in order to copy the memory
             correctly.

             Don't use RedMemCpy() to do this.  It is possible that RedMemCpy()
             has been replaced (even though this function has not been replaced)
             with an implementation that cannot handle any kind of buffer
             overlap.
         */
         for(ulIdx = 0U; ulIdx < ulLen; ulIdx++)
         {
             pbDest[ulIdx] = pbSrc[ulIdx];
         }
     }
     else
     {
         ulIdx = ulLen;

         while(ulIdx > 0U)
         {
             ulIdx--;
             pbDest[ulIdx] = pbSrc[ulIdx];
         }
     }
 }
 #endif /* RedMemMoveUnchecked */


 /** @brief Initialize a buffer with the specified byte value.

     @param pDest    The buffer to initialize.
     @param bVal     The byte value with which to initialize @p pDest.
     @param ulLen    The number of bytes to initialize.
 */
 void RedMemSet(
     void       *pDest,
     uint8_t     bVal,
     uint32_t    ulLen)
 {
     if(pDest == NULL)
     {
         REDERROR();
     }
     else
     {
         RedMemSetUnchecked(pDest, bVal, ulLen);
     }
 }


 #ifndef RedMemSetUnchecked
 /** @brief Initialize a buffer with the specified byte value.

     This function should only be called from RedMemSet().

     @param pDest    The buffer to initialize.
     @param bVal     The byte value with which to initialize @p pDest.
     @param ulLen    The number of bytes to initialize.
 */
 static void RedMemSetUnchecked(
     void       *pDest,
     uint8_t     bVal,
     uint32_t    ulLen)
 {
     uint8_t    *pbDest = CAST_VOID_PTR_TO_UINT8_PTR(pDest);
     uint32_t    ulIdx;

     for(ulIdx = 0U; ulIdx < ulLen; ulIdx++)
     {
         pbDest[ulIdx] = bVal;
     }
 }
 #endif


 /** @brief Compare the contents of two buffers.

     @param pMem1    The first buffer to compare.
     @param pMem2    The second buffer to compare.
     @param ulLen    The length to compare.

     @return Zero if the two buffers are the same, otherwise nonzero.

     @retval 0   @p pMem1 and @p pMem2 are the same.
     @retval 1   @p pMem1 is greater than @p pMem2, as determined by the
                 values of the first differing bytes.
     @retval -1  @p pMem2 is greater than @p pMem1, as determined by the
                 values of the first differing bytes.
 */
 int32_t RedMemCmp(
     const void *pMem1,
     const void *pMem2,
     uint32_t    ulLen)
 {
     int32_t     lResult;

     if((pMem1 == NULL) || (pMem2 == NULL))
     {
         REDERROR();
         lResult = 0;
     }
     else
     {
         lResult = RedMemCmpUnchecked(pMem1, pMem2, ulLen);
     }

     return lResult;
 }


 #ifndef RedMemCmpUnchecked
 /** @brief Compare the contents of two buffers.

     @param pMem1    The first buffer to compare.
     @param pMem2    The second buffer to compare.
     @param ulLen    The length to compare.

     @return Zero if the two buffers are the same, otherwise nonzero.
 */
 static int32_t RedMemCmpUnchecked(
     const void     *pMem1,
     const void     *pMem2,
     uint32_t        ulLen)
 {
     const uint8_t  *pbMem1 = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pMem1);
     const uint8_t  *pbMem2 = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pMem2);
     uint32_t        ulIdx = 0U;
     int32_t         lResult;

     while((ulIdx < ulLen) && (pbMem1[ulIdx] == pbMem2[ulIdx]))
     {
         ulIdx++;
     }

     if(ulIdx == ulLen)
     {
         lResult = 0;
     }
     else if(pbMem1[ulIdx] > pbMem2[ulIdx])
     {
         lResult = 1;
     }
     else
     {
         lResult = -1;
     }

     return lResult;
 }
 #endif
	/* ----> DO NOT REMOVE THE FOLLOWING NOTICE <----

	Copyright (c) 2014-2015 Datalight, Inc.
	All Rights Reserved Worldwide.

	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; use version 2 of the License.

	This program is distributed in the hope that it will be useful,
	but "AS-IS," 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.,
	51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
	*/
	/* Businesses and individuals that for commercial or other reasons cannot
	comply with the terms of the GPLv2 license may obtain a commercial license
	before incorporating Reliance Edge into proprietary software for
	distribution in any form. Visit http://www.datalight.com/reliance-edge for
	more information.
	*/
	/** @file
	@brief Default implementations of memory manipulation functions.

	These implementations are intended to be small and simple, and thus forego
	all optimizations. If the C library is available, or if there are better
	third-party implementations available in the system, those can be used
	instead by defining the appropriate macros in redconf.h.

	These functions are not intended to be completely 100% ANSI C compatible
	implementations, but rather are designed to meet the needs of Reliance Edge.
	The compatibility is close enough that ANSI C compatible implementations
	can be "dropped in" as replacements without difficulty.
	*/
	#include <redfs.h>


	#ifndef RedMemCpyUnchecked
	static void RedMemCpyUnchecked(void pDest, const void pSrc, uint32_t ulLen);
	#endif
	#ifndef RedMemMoveUnchecked
	static void RedMemMoveUnchecked(void pDest, const void pSrc, uint32_t ulLen);
	#endif
	#ifndef RedMemSetUnchecked
	static void RedMemSetUnchecked(void *pDest, uint8_t bVal, uint32_t ulLen);
	#endif
	#ifndef RedMemCmpUnchecked
	static int32_t RedMemCmpUnchecked(const void pMem1, const void pMem2, uint32_t ulLen);
	#endif


	/** @brief Copy memory from one address to another.

	The source and destination memory buffers should not overlap. If the
	buffers overlap, use RedMemMove() instead.

	@param pDest The destination buffer.
	@param pSrc The source buffer.
	@param ulLen The number of bytes to copy.
	*/
	void RedMemCpy(
	void *pDest,
	const void *pSrc,
	uint32_t ulLen)
	{
	if((pDest == NULL) \|\| (pSrc == NULL))
	{
	REDERROR();
	}
	else
	{
	RedMemCpyUnchecked(pDest, pSrc, ulLen);
	}
	}


	#ifndef RedMemCpyUnchecked
	/** @brief Copy memory from one address to another.

	This function should only be called from RedMemCpy().

	@param pDest The destination buffer.
	@param pSrc The source buffer.
	@param ulLen The number of bytes to copy.
	*/
	static void RedMemCpyUnchecked(
	void *pDest,
	const void *pSrc,
	uint32_t ulLen)
	{
	uint8_t *pbDest = CAST_VOID_PTR_TO_UINT8_PTR(pDest);
	const uint8_t *pbSrc = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pSrc);
	uint32_t ulIdx;

	for(ulIdx = 0U; ulIdx < ulLen; ulIdx++)
	{
	pbDest[ulIdx] = pbSrc[ulIdx];
	}
	}
	#endif


	/** @brief Move memory from one address to another.

	Supports overlapping memory regions. If memory regions do not overlap, it
	is generally better to use RedMemCpy() instead.

	@param pDest The destination buffer.
	@param pSrc The source buffer.
	@param ulLen The number of bytes to copy.
	*/
	void RedMemMove(
	void *pDest,
	const void *pSrc,
	uint32_t ulLen)
	{
	if((pDest == NULL) \|\| (pSrc == NULL))
	{
	REDERROR();
	}
	else
	{
	RedMemMoveUnchecked(pDest, pSrc, ulLen);
	}
	}


	#ifndef RedMemMoveUnchecked
	/** @brief Move memory from one address to another.

	This function should only be called from RedMemMove().

	@param pDest The destination buffer.
	@param pSrc The source buffer.
	@param ulLen The number of bytes to copy.
	*/
	static void RedMemMoveUnchecked(
	void *pDest,
	const void *pSrc,
	uint32_t ulLen)
	{
	uint8_t *pbDest = CAST_VOID_PTR_TO_UINT8_PTR(pDest);
	const uint8_t *pbSrc = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pSrc);
	uint32_t ulIdx;

	if(MEMMOVE_MUST_COPY_FORWARD(pbDest, pbSrc))
	{
	/* If the destination is lower than the source with overlapping memory
	regions, we must copy from start to end in order to copy the memory
	correctly.

	Don't use RedMemCpy() to do this. It is possible that RedMemCpy()
	has been replaced (even though this function has not been replaced)
	with an implementation that cannot handle any kind of buffer
	overlap.
	*/
	for(ulIdx = 0U; ulIdx < ulLen; ulIdx++)
	{
	pbDest[ulIdx] = pbSrc[ulIdx];
	}
	}
	else
	{
	ulIdx = ulLen;

	while(ulIdx > 0U)
	{
	ulIdx--;
	pbDest[ulIdx] = pbSrc[ulIdx];
	}
	}
	}
	#endif /* RedMemMoveUnchecked */


	/** @brief Initialize a buffer with the specified byte value.

	@param pDest The buffer to initialize.
	@param bVal The byte value with which to initialize @p pDest.
	@param ulLen The number of bytes to initialize.
	*/
	void RedMemSet(
	void *pDest,
	uint8_t bVal,
	uint32_t ulLen)
	{
	if(pDest == NULL)
	{
	REDERROR();
	}
	else
	{
	RedMemSetUnchecked(pDest, bVal, ulLen);
	}
	}


	#ifndef RedMemSetUnchecked
	/** @brief Initialize a buffer with the specified byte value.

	This function should only be called from RedMemSet().

	@param pDest The buffer to initialize.
	@param bVal The byte value with which to initialize @p pDest.
	@param ulLen The number of bytes to initialize.
	*/
	static void RedMemSetUnchecked(
	void *pDest,
	uint8_t bVal,
	uint32_t ulLen)
	{
	uint8_t *pbDest = CAST_VOID_PTR_TO_UINT8_PTR(pDest);
	uint32_t ulIdx;

	for(ulIdx = 0U; ulIdx < ulLen; ulIdx++)
	{
	pbDest[ulIdx] = bVal;
	}
	}
	#endif


	/** @brief Compare the contents of two buffers.

	@param pMem1 The first buffer to compare.
	@param pMem2 The second buffer to compare.
	@param ulLen The length to compare.

	@return Zero if the two buffers are the same, otherwise nonzero.

	@retval 0 @p pMem1 and @p pMem2 are the same.
	@retval 1 @p pMem1 is greater than @p pMem2, as determined by the
	values of the first differing bytes.
	@retval -1 @p pMem2 is greater than @p pMem1, as determined by the
	values of the first differing bytes.
	*/
	int32_t RedMemCmp(
	const void *pMem1,
	const void *pMem2,
	uint32_t ulLen)
	{
	int32_t lResult;

	if((pMem1 == NULL) \|\| (pMem2 == NULL))
	{
	REDERROR();
	lResult = 0;
	}
	else
	{
	lResult = RedMemCmpUnchecked(pMem1, pMem2, ulLen);
	}

	return lResult;
	}


	#ifndef RedMemCmpUnchecked
	/** @brief Compare the contents of two buffers.

	@param pMem1 The first buffer to compare.
	@param pMem2 The second buffer to compare.
	@param ulLen The length to compare.

	@return Zero if the two buffers are the same, otherwise nonzero.
	*/
	static int32_t RedMemCmpUnchecked(
	const void *pMem1,
	const void *pMem2,
	uint32_t ulLen)
	{
	const uint8_t *pbMem1 = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pMem1);
	const uint8_t *pbMem2 = CAST_VOID_PTR_TO_CONST_UINT8_PTR(pMem2);
	uint32_t ulIdx = 0U;
	int32_t lResult;

	while((ulIdx < ulLen) && (pbMem1[ulIdx] == pbMem2[ulIdx]))
	{
	ulIdx++;
	}

	if(ulIdx == ulLen)
	{
	lResult = 0;
	}
	else if(pbMem1[ulIdx] > pbMem2[ulIdx])
	{
	lResult = 1;
	}
	else
	{
	lResult = -1;
	}

	return lResult;
	}
	#endif