qdf/inc/qdf_flex_mem.h - platform/vendor/qcom-opensource/wlan/qca-wifi-host-cmn - Gitiles

 /*
  * Copyright (c) 2018-2019 The Linux Foundation. All rights reserved.
  *
  * Permission to use, copy, modify, and/or distribute this software for
  * any purpose with or without fee is hereby granted, provided that the
  * above copyright notice and this permission notice appear in all
  * copies.
  *
  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
  * PERFORMANCE OF THIS SOFTWARE.
  */

 /**
  * DOC: qdf_flex_mem (flexibly sized memory allocator)
  * QCA driver framework (QDF) flex mem APIs
  *
  * A flex memory allocator is a memory pool which not only dynamically expands,
  * but also dynamically reduces as well. Benefits over full dynamic memory
  * allocation are amoritized allocation cost, and reduced memory fragmentation.
  *
  * The allocator consists of 3 parts: the pool, segments, and items. Items are
  * the smallest chuncks of memory that are handed out via the alloc call, and
  * are all of a uniform size. Segments are groups of items, representing the
  * smallest amount of memory that can be dynamically allocated or freed. A pool
  * is simply a collection of segments.
  */

 #ifndef __QDF_FLEX_MEM_H
 #define __QDF_FLEX_MEM_H

 #include "qdf_list.h"
 #include "qdf_lock.h"

 #define QDF_FM_BITMAP uint32_t
 #define QDF_FM_BITMAP_BITS (sizeof(QDF_FM_BITMAP) * 8)

 /**
  * qdf_flex_mem_pool - a pool of memory segments
  * @seg_list: the list containing the memory segments
  * @lock: spinlock for protecting internal data structures
  * @reduction_limit: the minimum number of segments to keep during reduction
  * @item_size: the size of the items the pool will allocate
  */
 struct qdf_flex_mem_pool {
 	qdf_list_t seg_list;
 	struct qdf_spinlock lock;
 	uint16_t reduction_limit;
 	uint16_t item_size;
 };

 /**
  * qdf_flex_mem_segment - a memory pool segment
  * @node: the list node for membership in the memory pool
  * @dynamic: true if this segment was dynamically allocated
  * @used_bitmap: bitmap for tracking which items in the segment are in use
  * @bytes: raw memory for allocating items from
  */
 struct qdf_flex_mem_segment {
 	qdf_list_node_t node;
 	bool dynamic;
 	QDF_FM_BITMAP used_bitmap;
 	uint8_t *bytes;
 };

 /**
  * DEFINE_QDF_FLEX_MEM_POOL() - define a new flex mem pool with one segment
  * @name: the name of the pool variable
  * @size_of_item: size of the items the pool will allocate
  * @rm_limit: min number of segments to keep during reduction
  */
 #define DEFINE_QDF_FLEX_MEM_POOL(name, size_of_item, rm_limit) \
 	struct qdf_flex_mem_pool name; \
 	uint8_t __ ## name ## _head_bytes[QDF_FM_BITMAP_BITS * (size_of_item)];\
 	struct qdf_flex_mem_segment __ ## name ## _head = { \
 		.node = QDF_LIST_NODE_INIT_SINGLE( \
 			QDF_LIST_ANCHOR(name.seg_list)), \
 		.bytes = __ ## name ## _head_bytes, \
 	}; \
 	struct qdf_flex_mem_pool name = { \
 		.seg_list = QDF_LIST_INIT_SINGLE(__ ## name ## _head.node), \
 		.reduction_limit = (rm_limit), \
 		.item_size = (size_of_item), \
 	}

 /**
  * qdf_flex_mem_init() - initialize a qdf_flex_mem_pool
  * @pool: the pool to initialize
  *
  * Return: None
  */
 void qdf_flex_mem_init(struct qdf_flex_mem_pool *pool);

 /**
  * qdf_flex_mem_deinit() - deinitialize a qdf_flex_mem_pool
  * @pool: the pool to deinitialize
  *
  * Return: None
  */
 void qdf_flex_mem_deinit(struct qdf_flex_mem_pool *pool);

 /**
  * qdf_flex_mem_alloc() - logically allocate memory from the pool
  * @pool: the pool to allocate from
  *
  * This function returns any unused item from any existing segment in the pool.
  * If there are no unused items in the pool, a new segment is dynamically
  * allocated to service the request. The size of the allocated memory is the
  * size originally used to create the pool.
  *
  * Return: Point to newly allocated memory, NULL on failure
  */
 void *qdf_flex_mem_alloc(struct qdf_flex_mem_pool *pool);

 /**
  * qdf_flex_mem_free() - logically frees @ptr from the pool
  * @pool: the pool to return the memory to
  * @ptr: a pointer received via a call to qdf_flex_mem_alloc()
  *
  * This function marks the item corresponding to @ptr as unused. If that item
  * was the last used item in the segment it belongs to, and the segment was
  * dynamically allocated, the segment will be freed.
  *
  * Return: None
  */
 void qdf_flex_mem_free(struct qdf_flex_mem_pool *pool, void *ptr);

 #endif /* __QDF_FLEX_MEM_H */
	/*
	* Copyright (c) 2018-2019 The Linux Foundation. All rights reserved.
	*
	* Permission to use, copy, modify, and/or distribute this software for
	* any purpose with or without fee is hereby granted, provided that the
	* above copyright notice and this permission notice appear in all
	* copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
	* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
	* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
	* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
	* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
	* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
	* PERFORMANCE OF THIS SOFTWARE.
	*/

	/**
	* DOC: qdf_flex_mem (flexibly sized memory allocator)
	* QCA driver framework (QDF) flex mem APIs
	*
	* A flex memory allocator is a memory pool which not only dynamically expands,
	* but also dynamically reduces as well. Benefits over full dynamic memory
	* allocation are amoritized allocation cost, and reduced memory fragmentation.
	*
	* The allocator consists of 3 parts: the pool, segments, and items. Items are
	* the smallest chuncks of memory that are handed out via the alloc call, and
	* are all of a uniform size. Segments are groups of items, representing the
	* smallest amount of memory that can be dynamically allocated or freed. A pool
	* is simply a collection of segments.
	*/

	#ifndef __QDF_FLEX_MEM_H
	#define __QDF_FLEX_MEM_H

	#include "qdf_list.h"
	#include "qdf_lock.h"

	#define QDF_FM_BITMAP uint32_t
	#define QDF_FM_BITMAP_BITS (sizeof(QDF_FM_BITMAP) * 8)

	/**
	* qdf_flex_mem_pool - a pool of memory segments
	* @seg_list: the list containing the memory segments
	* @lock: spinlock for protecting internal data structures
	* @reduction_limit: the minimum number of segments to keep during reduction
	* @item_size: the size of the items the pool will allocate
	*/
	struct qdf_flex_mem_pool {
	qdf_list_t seg_list;
	struct qdf_spinlock lock;
	uint16_t reduction_limit;
	uint16_t item_size;
	};

	/**
	* qdf_flex_mem_segment - a memory pool segment
	* @node: the list node for membership in the memory pool
	* @dynamic: true if this segment was dynamically allocated
	* @used_bitmap: bitmap for tracking which items in the segment are in use
	* @bytes: raw memory for allocating items from
	*/
	struct qdf_flex_mem_segment {
	qdf_list_node_t node;
	bool dynamic;
	QDF_FM_BITMAP used_bitmap;
	uint8_t *bytes;
	};

	/**
	* DEFINE_QDF_FLEX_MEM_POOL() - define a new flex mem pool with one segment
	* @name: the name of the pool variable
	* @size_of_item: size of the items the pool will allocate
	* @rm_limit: min number of segments to keep during reduction
	*/
	#define DEFINE_QDF_FLEX_MEM_POOL(name, size_of_item, rm_limit) \
	struct qdf_flex_mem_pool name; \
	uint8_t __ ## name ## _head_bytes[QDF_FM_BITMAP_BITS * (size_of_item)];\
	struct qdf_flex_mem_segment __ ## name ## _head = { \
	.node = QDF_LIST_NODE_INIT_SINGLE( \
	QDF_LIST_ANCHOR(name.seg_list)), \
	.bytes = __ ## name ## _head_bytes, \
	}; \
	struct qdf_flex_mem_pool name = { \
	.seg_list = QDF_LIST_INIT_SINGLE(__ ## name ## _head.node), \
	.reduction_limit = (rm_limit), \
	.item_size = (size_of_item), \
	}

	/**
	* qdf_flex_mem_init() - initialize a qdf_flex_mem_pool
	* @pool: the pool to initialize
	*
	* Return: None
	*/
	void qdf_flex_mem_init(struct qdf_flex_mem_pool *pool);

	/**
	* qdf_flex_mem_deinit() - deinitialize a qdf_flex_mem_pool
	* @pool: the pool to deinitialize
	*
	* Return: None
	*/
	void qdf_flex_mem_deinit(struct qdf_flex_mem_pool *pool);

	/**
	* qdf_flex_mem_alloc() - logically allocate memory from the pool
	* @pool: the pool to allocate from
	*
	* This function returns any unused item from any existing segment in the pool.
	* If there are no unused items in the pool, a new segment is dynamically
	* allocated to service the request. The size of the allocated memory is the
	* size originally used to create the pool.
	*
	* Return: Point to newly allocated memory, NULL on failure
	*/
	void qdf_flex_mem_alloc(struct qdf_flex_mem_pool pool);

	/**
	* qdf_flex_mem_free() - logically frees @ptr from the pool
	* @pool: the pool to return the memory to
	* @ptr: a pointer received via a call to qdf_flex_mem_alloc()
	*
	* This function marks the item corresponding to @ptr as unused. If that item
	* was the last used item in the segment it belongs to, and the segment was
	* dynamically allocated, the segment will be freed.
	*
	* Return: None
	*/
	void qdf_flex_mem_free(struct qdf_flex_mem_pool pool, void ptr);

	#endif /* __QDF_FLEX_MEM_H */