components/mem_manager/mem_manager.h - mcuxpresso_sdk - Git at Google

 /*
  * Copyright 2018 NXP
  * All rights reserved.
  *
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #ifndef __MEM_MANAGER_H__
 #define __MEM_MANAGER_H__

 #include "fsl_common.h"
 /*!
  * @addtogroup MemManager
  * @{
  */

 /*****************************************************************************
 ******************************************************************************
 * Public macros
 ******************************************************************************
 *****************************************************************************/
 /*
  * @brief Configures the memory manager trace debug enable.
  */
 #ifndef MEM_MANAGER_ENABLE_TRACE
 #define MEM_MANAGER_ENABLE_TRACE (0)
 #endif

 /*
  * @brief Configures the memory manager remove memory buffer.
  */
 #ifndef MEM_MANAGER_BUFFER_REMOVE
 #define MEM_MANAGER_BUFFER_REMOVE (0)
 #endif

 /*
  * @brief Configures the memory manager pre configure.
  */
 #ifndef MEM_MANAGER_PRE_CONFIGURE
 #define MEM_MANAGER_PRE_CONFIGURE (1)
 #endif

 #if (defined(MEM_MANAGER_ENABLE_TRACE) && (MEM_MANAGER_ENABLE_TRACE > 0U))
 #ifndef MEM_POOL_SIZE
 #define MEM_POOL_SIZE (32U)
 #endif
 #ifndef MEM_BLOCK_SIZE
 #define MEM_BLOCK_SIZE (16U)
 #endif
 #else
 #ifndef MEM_POOL_SIZE
 #define MEM_POOL_SIZE (20U)
 #endif
 #ifndef MEM_BLOCK_SIZE
 #define MEM_BLOCK_SIZE (4U)
 #endif
 #endif

 /* Default memory allocator */
 #ifndef MEM_BufferAlloc
 #define MEM_BufferAlloc(numBytes) MEM_BufferAllocWithId(numBytes, 0)
 #endif

 #if (defined(MEM_MANAGER_PRE_CONFIGURE) && (MEM_MANAGER_PRE_CONFIGURE > 0U))
 /*
  * Defines pools by block size and number of blocks. Must be aligned to 4 bytes.
  * Defines block as  (blockSize ,numberOfBlocks,  id)
  */
 #ifndef PoolsDetails_c
 #define PoolsDetails_c _block_set_(64, 8, 0) _eol_ _block_set_(128, 2, 0) _eol_ _block_set_(256, 6, 0) _eol_
 #endif
 #define MEM_BLOCK_DATA_BUFFER_NONAME_DEFINE(blockSize, numberOfBlocks, id)                                        \
     uint32_t g_poolBuffer##blockSize##_##numberOfBlocks##_##id[(MEM_POOL_SIZE + numberOfBlocks * MEM_BLOCK_SIZE + \
                                                                 numberOfBlocks * blockSize + 3U) >>               \
                                                                2U];

 #define MEM_BLOCK_BUFFER_NONAME_DEFINE(blockSize, numberOfBlocks, id)                   \
     MEM_BLOCK_DATA_BUFFER_NONAME_DEFINE(blockSize, numberOfBlocks, id)                  \
     const static mem_config_t g_poolHeadBuffer##blockSize##_##numberOfBlocks##_##id = { \
         (blockSize), (numberOfBlocks), (id), (0), (uint8_t *)&g_poolBuffer####blockSize##_##numberOfBlocks##_##id[0]}
 #define MEM_BLOCK_NONAME_BUFFER(blockSize, numberOfBlocks, id) \
     (uint8_t *)&g_poolHeadBuffer##blockSize##_##numberOfBlocks##_##id
 #endif /*MEM_MANAGER_PRE_CONFIGURE*/

 /*!
  * @brief Defines the memory buffer
  *
  * This macro is used to define the shell memory buffer for memory manager.
  * And then uses the macro MEM_BLOCK_BUFFER to get the memory buffer pointer.
  * The macro should not be used in any function.
  *
  * This is a example,
  * @code
  * MEM_BLOCK_BUFFER_DEFINE(app64, 5, 64,0);
  * MEM_BLOCK_BUFFER_DEFINE(app128, 6, 128,0);
  * MEM_BLOCK_BUFFER_DEFINE(app256, 7, 256,0);
  * @endcode
  *
  * @param name The name string of the memory buffer.
  * @param numberOfBlocks The number Of Blocks.
  * @param blockSize The memory block size.
  * @param id The id Of memory buffer.
  */
 #define MEM_BLOCK_DATA_BUFFER_DEFINE(name, numberOfBlocks, blockSize, id) \
     uint32_t                                                              \
         g_poolBuffer##name[(MEM_POOL_SIZE + numberOfBlocks * MEM_BLOCK_SIZE + numberOfBlocks * blockSize + 3U) >> 2U];

 #define MEM_BLOCK_BUFFER_DEFINE(name, numberOfBlocks, blockSize, id)  \
     MEM_BLOCK_DATA_BUFFER_DEFINE(name, numberOfBlocks, blockSize, id) \
     mem_config_t g_poolHeadBuffer##name = {(blockSize), (numberOfBlocks), (id), (0), (uint8_t *)&g_poolBuffer##name[0]}

 /*!                                                                     \
  * @brief Gets the memory buffer pointer                                 \
  *                                                                       \
  * This macro is used to get the memory buffer pointer. The macro should \
  * not be used before the macro MEM_BLOCK_BUFFER_DEFINE is used.         \
  *                                                                       \
  * @param name The memory name string of the buffer.                     \
  */
 #define MEM_BLOCK_BUFFER(name) (uint8_t *)&g_poolHeadBuffer##name

 /*****************************************************************************
 ******************************************************************************
 * Public type definitions
 ******************************************************************************
 *****************************************************************************/

 /**@brief Memory status. */
 typedef enum _mem_status
 {
     kStatus_MemSuccess      = kStatus_Success,                          /* No error occurred */
     kStatus_MemInitError    = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 1), /* Memory initialization error */
     kStatus_MemAllocError   = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 2), /* Memory allocation error */
     kStatus_MemFreeError    = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 3), /* Memory free error */
     kStatus_MemUnknownError = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 4), /* something bad has happened... */
 } mem_status_t;

 /**@brief Memory user config. */
 typedef struct _mem_config
 {
     uint16_t blockSize;      /*< The memory block size. */
     uint16_t numberOfBlocks; /*< The number Of Blocks. */
     uint16_t poolId;         /*< The pool id Of Blocks. */
     uint16_t reserved;       /*< reserved. */
     uint8_t *pbuffer;        /*< buffer. */
 } mem_config_t;

 /*****************************************************************************
 ******************************************************************************
 * Public memory declarations
 ******************************************************************************
 *****************************************************************************/
 /*****************************************************************************
 ******************************************************************************
 * Public prototypes
 ******************************************************************************
 *****************************************************************************/

 #if defined(__cplusplus)
 extern "C" {
 #endif /* _cplusplus */
 #if (defined(MEM_MANAGER_PRE_CONFIGURE) && (MEM_MANAGER_PRE_CONFIGURE > 0U))
 /*!
  * @brief  Initialises the Memory Manager.
  *
  */
 mem_status_t MEM_Init(void);

 #endif

 /*!
  * @brief Add memory buffer to memory manager buffer list.
  *
  * @note This API should be called when need add memory buffer to memory manager buffer list. First use
  * MEM_BLOCK_BUFFER_DEFINE to
  *        define memory buffer, then call MEM_AddBuffer function with MEM_BLOCK_BUFFER Macro as the input parameter.
  *  @code
  * MEM_BLOCK_BUFFER_DEFINE(app64, 5, 64,0);
  * MEM_BLOCK_BUFFER_DEFINE(app128, 6, 128,0);
  * MEM_BLOCK_BUFFER_DEFINE(app256, 7, 256,0);
  *
  * MEM_AddBuffer(MEM_BLOCK_BUFFER(app64));
  * MEM_AddBuffer(MEM_BLOCK_BUFFER(app128));
  * MEM_AddBuffer(MEM_BLOCK_BUFFER(app256));
  * @endcode
  *
  * @param buffer                     Pointer the memory pool buffer, use MEM_BLOCK_BUFFER Macro as the input parameter.
  *
  * @retval kStatus_MemSuccess        Memory manager add buffer succeed.
  * @retval kStatus_MemUnknownError   Memory manager add buffer error occurred.
  */
 mem_status_t MEM_AddBuffer(uint8_t *buffer);

 #if (defined(MEM_MANAGER_BUFFER_REMOVE) && (MEM_MANAGER_BUFFER_REMOVE > 0U))
 /*!
  * @brief Remove memory buffer from memory manager buffer list.
  *
  * @note This API should be called when need remove memory buffer from memory manager buffer list. Use MEM_BLOCK_BUFFER
  * Macro as the input parameter.
  *
  * @param buffer                     Pointer the memory pool buffer, use MEM_BLOCK_BUFFER Macro as the input parameter.
  *
  * @retval kStatus_MemSuccess        Memory manager remove buffer succeed.
  * @retval kStatus_MemUnknownError    Memory manager remove buffer error occurred.
  */
 mem_status_t MEM_RemoveBuffer(uint8_t *buffer);
 #endif /* MEM_MANAGER_BUFFER_REMOVE */
 /*!
  * @brief Allocate a block from the memory pools. The function uses the
  *        numBytes argument to look up a pool with adequate block sizes.
  *
  * @param numBytes           The number of bytes will be allocated.
  * @param poolId             The ID of the pool where to search for a free buffer.
  * @retval Memory buffer address when allocate success, NULL when allocate fail.
  */
 void *MEM_BufferAllocWithId(uint32_t numBytes, uint8_t poolId);

 /*!
  * @brief Memory buffer free .
  *
  * @param buffer                     The memory buffer address will be free.
  * @retval kStatus_MemSuccess        Memory free succeed.
  * @retval kStatus_MemFreeError      Memory free error occurred.
  */
 mem_status_t MEM_BufferFree(void *buffer);

 /*!
  * @brief Returns the size of a given buffer.
  *
  * @param buffer  The memory buffer address will be get size.
  * @retval The size of a given buffer.
  */
 uint16_t MEM_BufferGetSize(void *buffer);

 /*!
  * @brief Frees all allocated blocks by selected source and in selected pool.
  *
  * @param poolId                     Selected pool Id (4 LSBs of poolId parameter) and selected
  *                                   source Id (4 MSBs of poolId parameter).
  * @retval kStatus_MemSuccess        Memory free succeed.
  * @retval kStatus_MemFreeError      Memory free error occurred.
  */
 mem_status_t MEM_BufferFreeAllWithId(uint8_t poolId);

 /*!
  * @brief Memory buffer realloc.
  *
  * @param buffer                     The memory buffer address will be reallocated.
  * @param new_size                   The number of bytes will be reallocated
  * @retval kStatus_MemSuccess        Memory free succeed.
  * @retval kStatus_MemFreeError      Memory free error occurred.
  */
 void *MEM_BufferRealloc(void *buffer, uint32_t new_size);

 #if (defined(MEM_MANAGER_ENABLE_TRACE) && (MEM_MANAGER_ENABLE_TRACE > 0U))
 /*!
  * @brief Function to print statistics related to memory blocks managed by memory manager. Like bellow:
  * allocationFailures: 241  freeFailures:0
  * POOL: ID 0  status:
  * numBlocks allocatedBlocks    allocatedBlocksPeak  poolFragmentWaste poolFragmentWastePeak poolFragmentMinWaste
  * poolTotalFragmentWaste
  *     5            5                 5                  59                  63                       59 305
  * Currently pool meory block allocate status:
  * Block 0 Allocated    bytes: 1
  * Block 1 Allocated    bytes: 2
  * Block 2 Allocated    bytes: 3
  * Block 3 Allocated    bytes: 4
  * Block 4 Allocated    bytes: 5
  *
  * @details This API prints information with respects to each pool and block, including Allocated size,
  *          total block count, number of blocks in use at the time of printing, The API is intended to
  *          help developers tune the block sizes to make optimal use of memory for the application.
  *
  * @note This API should be disable by configure MEM_MANAGER_ENABLE_TRACE to 0
  *
  */
 void MEM_Trace(void);

 #endif // MEM_MANAGER_ENABLE_TRACE

 #if defined(__cplusplus)
 }
 #endif
 /*! @}*/
 #endif /* #ifndef __MEM_MANAGER_H__ */
	/*
	* Copyright 2018 NXP
	* All rights reserved.
	*
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#ifndef __MEM_MANAGER_H__
	#define __MEM_MANAGER_H__

	#include "fsl_common.h"
	/*!
	* @addtogroup MemManager
	* @{
	*/

	/*****************************************************************************
	******************************************************************************
	* Public macros
	******************************************************************************
	*****************************************************************************/
	/*
	* @brief Configures the memory manager trace debug enable.
	*/
	#ifndef MEM_MANAGER_ENABLE_TRACE
	#define MEM_MANAGER_ENABLE_TRACE (0)
	#endif

	/*
	* @brief Configures the memory manager remove memory buffer.
	*/
	#ifndef MEM_MANAGER_BUFFER_REMOVE
	#define MEM_MANAGER_BUFFER_REMOVE (0)
	#endif

	/*
	* @brief Configures the memory manager pre configure.
	*/
	#ifndef MEM_MANAGER_PRE_CONFIGURE
	#define MEM_MANAGER_PRE_CONFIGURE (1)
	#endif

	#if (defined(MEM_MANAGER_ENABLE_TRACE) && (MEM_MANAGER_ENABLE_TRACE > 0U))
	#ifndef MEM_POOL_SIZE
	#define MEM_POOL_SIZE (32U)
	#endif
	#ifndef MEM_BLOCK_SIZE
	#define MEM_BLOCK_SIZE (16U)
	#endif
	#else
	#ifndef MEM_POOL_SIZE
	#define MEM_POOL_SIZE (20U)
	#endif
	#ifndef MEM_BLOCK_SIZE
	#define MEM_BLOCK_SIZE (4U)
	#endif
	#endif

	/* Default memory allocator */
	#ifndef MEM_BufferAlloc
	#define MEM_BufferAlloc(numBytes) MEM_BufferAllocWithId(numBytes, 0)
	#endif

	#if (defined(MEM_MANAGER_PRE_CONFIGURE) && (MEM_MANAGER_PRE_CONFIGURE > 0U))
	/*
	* Defines pools by block size and number of blocks. Must be aligned to 4 bytes.
	* Defines block as (blockSize ,numberOfBlocks, id)
	*/
	#ifndef PoolsDetails_c
	#define PoolsDetails_c _block_set_(64, 8, 0) _eol_ _block_set_(128, 2, 0) _eol_ _block_set_(256, 6, 0) _eol_
	#endif
	#define MEM_BLOCK_DATA_BUFFER_NONAME_DEFINE(blockSize, numberOfBlocks, id) \
	uint32_t g_poolBuffer##blockSize##_##numberOfBlocks##_##id[(MEM_POOL_SIZE + numberOfBlocks * MEM_BLOCK_SIZE + \
	numberOfBlocks * blockSize + 3U) >> \
	2U];

	#define MEM_BLOCK_BUFFER_NONAME_DEFINE(blockSize, numberOfBlocks, id) \
	MEM_BLOCK_DATA_BUFFER_NONAME_DEFINE(blockSize, numberOfBlocks, id) \
	const static mem_config_t g_poolHeadBuffer##blockSize##_##numberOfBlocks##_##id = { \
	(blockSize), (numberOfBlocks), (id), (0), (uint8_t *)&g_poolBuffer####blockSize##_##numberOfBlocks##_##id[0]}
	#define MEM_BLOCK_NONAME_BUFFER(blockSize, numberOfBlocks, id) \
	(uint8_t *)&g_poolHeadBuffer##blockSize##_##numberOfBlocks##_##id
	#endif /MEM_MANAGER_PRE_CONFIGURE/

	/*!
	* @brief Defines the memory buffer
	*
	* This macro is used to define the shell memory buffer for memory manager.
	* And then uses the macro MEM_BLOCK_BUFFER to get the memory buffer pointer.
	* The macro should not be used in any function.
	*
	* This is a example,
	* @code
	* MEM_BLOCK_BUFFER_DEFINE(app64, 5, 64,0);
	* MEM_BLOCK_BUFFER_DEFINE(app128, 6, 128,0);
	* MEM_BLOCK_BUFFER_DEFINE(app256, 7, 256,0);
	* @endcode
	*
	* @param name The name string of the memory buffer.
	* @param numberOfBlocks The number Of Blocks.
	* @param blockSize The memory block size.
	* @param id The id Of memory buffer.
	*/
	#define MEM_BLOCK_DATA_BUFFER_DEFINE(name, numberOfBlocks, blockSize, id) \
	uint32_t \
	g_poolBuffer##name[(MEM_POOL_SIZE + numberOfBlocks * MEM_BLOCK_SIZE + numberOfBlocks * blockSize + 3U) >> 2U];

	#define MEM_BLOCK_BUFFER_DEFINE(name, numberOfBlocks, blockSize, id) \
	MEM_BLOCK_DATA_BUFFER_DEFINE(name, numberOfBlocks, blockSize, id) \
	mem_config_t g_poolHeadBuffer##name = {(blockSize), (numberOfBlocks), (id), (0), (uint8_t *)&g_poolBuffer##name[0]}

	/*! \
	* @brief Gets the memory buffer pointer \
	* \
	* This macro is used to get the memory buffer pointer. The macro should \
	* not be used before the macro MEM_BLOCK_BUFFER_DEFINE is used. \
	* \
	* @param name The memory name string of the buffer. \
	*/
	#define MEM_BLOCK_BUFFER(name) (uint8_t *)&g_poolHeadBuffer##name

	/*****************************************************************************
	******************************************************************************
	* Public type definitions
	******************************************************************************
	*****************************************************************************/

	/*@brief Memory status. /
	typedef enum _mem_status
	{
	kStatus_MemSuccess = kStatus_Success, /* No error occurred */
	kStatus_MemInitError = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 1), /* Memory initialization error */
	kStatus_MemAllocError = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 2), /* Memory allocation error */
	kStatus_MemFreeError = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 3), /* Memory free error */
	kStatus_MemUnknownError = MAKE_STATUS(kStatusGroup_MEM_MANAGER, 4), /* something bad has happened... */
	} mem_status_t;

	/*@brief Memory user config. /
	typedef struct _mem_config
	{
	uint16_t blockSize; /< The memory block size. /
	uint16_t numberOfBlocks; /< The number Of Blocks. /
	uint16_t poolId; /< The pool id Of Blocks. /
	uint16_t reserved; /< reserved. /
	uint8_t pbuffer; /< buffer. */
	} mem_config_t;

	/*****************************************************************************
	******************************************************************************
	* Public memory declarations
	******************************************************************************
	*****************************************************************************/
	/*****************************************************************************
	******************************************************************************
	* Public prototypes
	******************************************************************************
	*****************************************************************************/

	#if defined(__cplusplus)
	extern "C" {
	#endif /* _cplusplus */
	#if (defined(MEM_MANAGER_PRE_CONFIGURE) && (MEM_MANAGER_PRE_CONFIGURE > 0U))
	/*!
	* @brief Initialises the Memory Manager.
	*
	*/
	mem_status_t MEM_Init(void);

	#endif

	/*!
	* @brief Add memory buffer to memory manager buffer list.
	*
	* @note This API should be called when need add memory buffer to memory manager buffer list. First use
	* MEM_BLOCK_BUFFER_DEFINE to
	* define memory buffer, then call MEM_AddBuffer function with MEM_BLOCK_BUFFER Macro as the input parameter.
	* @code
	* MEM_BLOCK_BUFFER_DEFINE(app64, 5, 64,0);
	* MEM_BLOCK_BUFFER_DEFINE(app128, 6, 128,0);
	* MEM_BLOCK_BUFFER_DEFINE(app256, 7, 256,0);
	*
	* MEM_AddBuffer(MEM_BLOCK_BUFFER(app64));
	* MEM_AddBuffer(MEM_BLOCK_BUFFER(app128));
	* MEM_AddBuffer(MEM_BLOCK_BUFFER(app256));
	* @endcode
	*
	* @param buffer Pointer the memory pool buffer, use MEM_BLOCK_BUFFER Macro as the input parameter.
	*
	* @retval kStatus_MemSuccess Memory manager add buffer succeed.
	* @retval kStatus_MemUnknownError Memory manager add buffer error occurred.
	*/
	mem_status_t MEM_AddBuffer(uint8_t *buffer);

	#if (defined(MEM_MANAGER_BUFFER_REMOVE) && (MEM_MANAGER_BUFFER_REMOVE > 0U))
	/*!
	* @brief Remove memory buffer from memory manager buffer list.
	*
	* @note This API should be called when need remove memory buffer from memory manager buffer list. Use MEM_BLOCK_BUFFER
	* Macro as the input parameter.
	*
	* @param buffer Pointer the memory pool buffer, use MEM_BLOCK_BUFFER Macro as the input parameter.
	*
	* @retval kStatus_MemSuccess Memory manager remove buffer succeed.
	* @retval kStatus_MemUnknownError Memory manager remove buffer error occurred.
	*/
	mem_status_t MEM_RemoveBuffer(uint8_t *buffer);
	#endif /* MEM_MANAGER_BUFFER_REMOVE */
	/*!
	* @brief Allocate a block from the memory pools. The function uses the
	* numBytes argument to look up a pool with adequate block sizes.
	*
	* @param numBytes The number of bytes will be allocated.
	* @param poolId The ID of the pool where to search for a free buffer.
	* @retval Memory buffer address when allocate success, NULL when allocate fail.
	*/
	void *MEM_BufferAllocWithId(uint32_t numBytes, uint8_t poolId);

	/*!
	* @brief Memory buffer free .
	*
	* @param buffer The memory buffer address will be free.
	* @retval kStatus_MemSuccess Memory free succeed.
	* @retval kStatus_MemFreeError Memory free error occurred.
	*/
	mem_status_t MEM_BufferFree(void *buffer);

	/*!
	* @brief Returns the size of a given buffer.
	*
	* @param buffer The memory buffer address will be get size.
	* @retval The size of a given buffer.
	*/
	uint16_t MEM_BufferGetSize(void *buffer);

	/*!
	* @brief Frees all allocated blocks by selected source and in selected pool.
	*
	* @param poolId Selected pool Id (4 LSBs of poolId parameter) and selected
	* source Id (4 MSBs of poolId parameter).
	* @retval kStatus_MemSuccess Memory free succeed.
	* @retval kStatus_MemFreeError Memory free error occurred.
	*/
	mem_status_t MEM_BufferFreeAllWithId(uint8_t poolId);

	/*!
	* @brief Memory buffer realloc.
	*
	* @param buffer The memory buffer address will be reallocated.
	* @param new_size The number of bytes will be reallocated
	* @retval kStatus_MemSuccess Memory free succeed.
	* @retval kStatus_MemFreeError Memory free error occurred.
	*/
	void MEM_BufferRealloc(void buffer, uint32_t new_size);

	#if (defined(MEM_MANAGER_ENABLE_TRACE) && (MEM_MANAGER_ENABLE_TRACE > 0U))
	/*!
	* @brief Function to print statistics related to memory blocks managed by memory manager. Like bellow:
	* allocationFailures: 241 freeFailures:0
	* POOL: ID 0 status:
	* numBlocks allocatedBlocks allocatedBlocksPeak poolFragmentWaste poolFragmentWastePeak poolFragmentMinWaste
	* poolTotalFragmentWaste
	* 5 5 5 59 63 59 305
	* Currently pool meory block allocate status:
	* Block 0 Allocated bytes: 1
	* Block 1 Allocated bytes: 2
	* Block 2 Allocated bytes: 3
	* Block 3 Allocated bytes: 4
	* Block 4 Allocated bytes: 5
	*
	* @details This API prints information with respects to each pool and block, including Allocated size,
	* total block count, number of blocks in use at the time of printing, The API is intended to
	* help developers tune the block sizes to make optimal use of memory for the application.
	*
	* @note This API should be disable by configure MEM_MANAGER_ENABLE_TRACE to 0
	*
	*/
	void MEM_Trace(void);

	#endif // MEM_MANAGER_ENABLE_TRACE

	#if defined(__cplusplus)
	}
	#endif
	/! @}/
	#endif /* #ifndef __MEM_MANAGER_H__ */