include/linux/generic-radix-tree.h - linux/kernel/git/will/linux - Git at Google

 #ifndef _LINUX_GENERIC_RADIX_TREE_H
 #define _LINUX_GENERIC_RADIX_TREE_H

 /**
  * DOC: Generic radix trees/sparse arrays
  *
  * Very simple and minimalistic, supporting arbitrary size entries up to
  * GENRADIX_NODE_SIZE.
  *
  * A genradix is defined with the type it will store, like so:
  *
  * static GENRADIX(struct foo) foo_genradix;
  *
  * The main operations are:
  *
  * - genradix_init(radix) - initialize an empty genradix
  *
  * - genradix_free(radix) - free all memory owned by the genradix and
  *   reinitialize it
  *
  * - genradix_ptr(radix, idx) - gets a pointer to the entry at idx, returning
  *   NULL if that entry does not exist
  *
  * - genradix_ptr_alloc(radix, idx, gfp) - gets a pointer to an entry,
  *   allocating it if necessary
  *
  * - genradix_for_each(radix, iter, p) - iterate over each entry in a genradix
  *
  * The radix tree allocates one page of entries at a time, so entries may exist
  * that were never explicitly allocated - they will be initialized to all
  * zeroes.
  *
  * Internally, a genradix is just a radix tree of pages, and indexing works in
  * terms of byte offsets. The wrappers in this header file use sizeof on the
  * type the radix contains to calculate a byte offset from the index - see
  * __idx_to_offset.
  */

 #include <asm/page.h>
 #include <linux/bug.h>
 #include <linux/limits.h>
 #include <linux/log2.h>
 #include <linux/math.h>
 #include <linux/types.h>

 struct genradix_root;

 #define GENRADIX_NODE_SHIFT	9
 #define GENRADIX_NODE_SIZE	(1U << GENRADIX_NODE_SHIFT)

 struct __genradix {
 	struct genradix_root		*root;
 };

 /*
  * NOTE: currently, sizeof(_type) must not be larger than GENRADIX_NODE_SIZE:
  */

 #define __GENRADIX_INITIALIZER					\
 	{							\
 		.tree = {					\
 			.root = NULL,				\
 		}						\
 	}

 /*
  * We use a 0 size array to stash the type we're storing without taking any
  * space at runtime - then the various accessor macros can use typeof() to get
  * to it for casts/sizeof - we also force the alignment so that storing a type
  * with a ridiculous alignment doesn't blow up the alignment or size of the
  * genradix.
  */

 #define GENRADIX(_type)						\
 struct {							\
 	struct __genradix	tree;				\
 	_type			type[0] __aligned(1);		\
 }

 #define DEFINE_GENRADIX(_name, _type)				\
 	GENRADIX(_type) _name = __GENRADIX_INITIALIZER

 /**
  * genradix_init - initialize a genradix
  * @_radix:	genradix to initialize
  *
  * Does not fail
  */
 #define genradix_init(_radix)					\
 do {								\
 	*(_radix) = (typeof(*_radix)) __GENRADIX_INITIALIZER;	\
 } while (0)

 void __genradix_free(struct __genradix *);

 /**
  * genradix_free: free all memory owned by a genradix
  * @_radix: the genradix to free
  *
  * After freeing, @_radix will be reinitialized and empty
  */
 #define genradix_free(_radix)	__genradix_free(&(_radix)->tree)

 static inline size_t __idx_to_offset(size_t idx, size_t obj_size)
 {
 	if (__builtin_constant_p(obj_size))
 		BUILD_BUG_ON(obj_size > GENRADIX_NODE_SIZE);
 	else
 		BUG_ON(obj_size > GENRADIX_NODE_SIZE);

 	if (!is_power_of_2(obj_size)) {
 		size_t objs_per_page = GENRADIX_NODE_SIZE / obj_size;

 		return (idx / objs_per_page) * GENRADIX_NODE_SIZE +
 			(idx % objs_per_page) * obj_size;
 	} else {
 		return idx * obj_size;
 	}
 }

 #define __genradix_cast(_radix)		(typeof((_radix)->type[0]) *)
 #define __genradix_obj_size(_radix)	sizeof((_radix)->type[0])
 #define __genradix_objs_per_page(_radix)			\
 	(GENRADIX_NODE_SIZE / sizeof((_radix)->type[0]))
 #define __genradix_page_remainder(_radix)			\
 	(GENRADIX_NODE_SIZE % sizeof((_radix)->type[0]))

 #define __genradix_idx_to_offset(_radix, _idx)			\
 	__idx_to_offset(_idx, __genradix_obj_size(_radix))

 void *__genradix_ptr(struct __genradix *, size_t);

 /**
  * genradix_ptr - get a pointer to a genradix entry
  * @_radix:	genradix to access
  * @_idx:	index to fetch
  *
  * Returns a pointer to entry at @_idx, or NULL if that entry does not exist.
  */
 #define genradix_ptr(_radix, _idx)				\
 	(__genradix_cast(_radix)				\
 	 __genradix_ptr(&(_radix)->tree,			\
 			__genradix_idx_to_offset(_radix, _idx)))

 void *__genradix_ptr_alloc(struct __genradix *, size_t, gfp_t);

 /**
  * genradix_ptr_alloc - get a pointer to a genradix entry, allocating it
  *			if necessary
  * @_radix:	genradix to access
  * @_idx:	index to fetch
  * @_gfp:	gfp mask
  *
  * Returns a pointer to entry at @_idx, or NULL on allocation failure
  */
 #define genradix_ptr_alloc(_radix, _idx, _gfp)			\
 	(__genradix_cast(_radix)				\
 	 __genradix_ptr_alloc(&(_radix)->tree,			\
 			__genradix_idx_to_offset(_radix, _idx),	\
 			_gfp))

 struct genradix_iter {
 	size_t			offset;
 	size_t			pos;
 };

 /**
  * genradix_iter_init - initialize a genradix_iter
  * @_radix:	genradix that will be iterated over
  * @_idx:	index to start iterating from
  */
 #define genradix_iter_init(_radix, _idx)			\
 	((struct genradix_iter) {				\
 		.pos	= (_idx),				\
 		.offset	= __genradix_idx_to_offset((_radix), (_idx)),\
 	})

 void *__genradix_iter_peek(struct genradix_iter *, struct __genradix *, size_t);

 /**
  * genradix_iter_peek - get first entry at or above iterator's current
  *			position
  * @_iter:	a genradix_iter
  * @_radix:	genradix being iterated over
  *
  * If no more entries exist at or above @_iter's current position, returns NULL
  */
 #define genradix_iter_peek(_iter, _radix)			\
 	(__genradix_cast(_radix)				\
 	 __genradix_iter_peek(_iter, &(_radix)->tree,		\
 			__genradix_objs_per_page(_radix)))

 void *__genradix_iter_peek_prev(struct genradix_iter *, struct __genradix *,
 				size_t, size_t);

 /**
  * genradix_iter_peek_prev - get first entry at or below iterator's current
  *			     position
  * @_iter:	a genradix_iter
  * @_radix:	genradix being iterated over
  *
  * If no more entries exist at or below @_iter's current position, returns NULL
  */
 #define genradix_iter_peek_prev(_iter, _radix)			\
 	(__genradix_cast(_radix)				\
 	 __genradix_iter_peek_prev(_iter, &(_radix)->tree,	\
 			__genradix_objs_per_page(_radix),	\
 			__genradix_obj_size(_radix) +		\
 			__genradix_page_remainder(_radix)))

 static inline void __genradix_iter_advance(struct genradix_iter *iter,
 					   size_t obj_size)
 {
 	if (iter->offset + obj_size < iter->offset) {
 		iter->offset	= SIZE_MAX;
 		iter->pos	= SIZE_MAX;
 		return;
 	}

 	iter->offset += obj_size;

 	if (!is_power_of_2(obj_size) &&
 	    (iter->offset & (GENRADIX_NODE_SIZE - 1)) + obj_size > GENRADIX_NODE_SIZE)
 		iter->offset = round_up(iter->offset, GENRADIX_NODE_SIZE);

 	iter->pos++;
 }

 #define genradix_iter_advance(_iter, _radix)			\
 	__genradix_iter_advance(_iter, __genradix_obj_size(_radix))

 static inline void __genradix_iter_rewind(struct genradix_iter *iter,
 					  size_t obj_size)
 {
 	if (iter->offset == 0 ||
 	    iter->offset == SIZE_MAX) {
 		iter->offset = SIZE_MAX;
 		return;
 	}

 	if ((iter->offset & (GENRADIX_NODE_SIZE - 1)) == 0)
 		iter->offset -= GENRADIX_NODE_SIZE % obj_size;

 	iter->offset -= obj_size;
 	iter->pos--;
 }

 #define genradix_iter_rewind(_iter, _radix)			\
 	__genradix_iter_rewind(_iter, __genradix_obj_size(_radix))

 #define genradix_for_each_from(_radix, _iter, _p, _start)	\
 	for (_iter = genradix_iter_init(_radix, _start);	\
 	     (_p = genradix_iter_peek(&_iter, _radix)) != NULL;	\
 	     genradix_iter_advance(&_iter, _radix))

 /**
  * genradix_for_each - iterate over entry in a genradix
  * @_radix:	genradix to iterate over
  * @_iter:	a genradix_iter to track current position
  * @_p:		pointer to genradix entry type
  *
  * On every iteration, @_p will point to the current entry, and @_iter.pos
  * will be the current entry's index.
  */
 #define genradix_for_each(_radix, _iter, _p)			\
 	genradix_for_each_from(_radix, _iter, _p, 0)

 #define genradix_last_pos(_radix)				\
 	(SIZE_MAX / GENRADIX_NODE_SIZE * __genradix_objs_per_page(_radix) - 1)

 /**
  * genradix_for_each_reverse - iterate over entry in a genradix, reverse order
  * @_radix:	genradix to iterate over
  * @_iter:	a genradix_iter to track current position
  * @_p:		pointer to genradix entry type
  *
  * On every iteration, @_p will point to the current entry, and @_iter.pos
  * will be the current entry's index.
  */
 #define genradix_for_each_reverse(_radix, _iter, _p)		\
 	for (_iter = genradix_iter_init(_radix,	genradix_last_pos(_radix));\
 	     (_p = genradix_iter_peek_prev(&_iter, _radix)) != NULL;\
 	     genradix_iter_rewind(&_iter, _radix))

 int __genradix_prealloc(struct __genradix *, size_t, gfp_t);

 /**
  * genradix_prealloc - preallocate entries in a generic radix tree
  * @_radix:	genradix to preallocate
  * @_nr:	number of entries to preallocate
  * @_gfp:	gfp mask
  *
  * Returns 0 on success, -ENOMEM on failure
  */
 #define genradix_prealloc(_radix, _nr, _gfp)			\
 	 __genradix_prealloc(&(_radix)->tree,			\
 			__genradix_idx_to_offset(_radix, _nr + 1),\
 			_gfp)


 #endif /* _LINUX_GENERIC_RADIX_TREE_H */
	#ifndef _LINUX_GENERIC_RADIX_TREE_H
	#define _LINUX_GENERIC_RADIX_TREE_H

	/**
	* DOC: Generic radix trees/sparse arrays
	*
	* Very simple and minimalistic, supporting arbitrary size entries up to
	* GENRADIX_NODE_SIZE.
	*
	* A genradix is defined with the type it will store, like so:
	*
	* static GENRADIX(struct foo) foo_genradix;
	*
	* The main operations are:
	*
	* - genradix_init(radix) - initialize an empty genradix
	*
	* - genradix_free(radix) - free all memory owned by the genradix and
	* reinitialize it
	*
	* - genradix_ptr(radix, idx) - gets a pointer to the entry at idx, returning
	* NULL if that entry does not exist
	*
	* - genradix_ptr_alloc(radix, idx, gfp) - gets a pointer to an entry,
	* allocating it if necessary
	*
	* - genradix_for_each(radix, iter, p) - iterate over each entry in a genradix
	*
	* The radix tree allocates one page of entries at a time, so entries may exist
	* that were never explicitly allocated - they will be initialized to all
	* zeroes.
	*
	* Internally, a genradix is just a radix tree of pages, and indexing works in
	* terms of byte offsets. The wrappers in this header file use sizeof on the
	* type the radix contains to calculate a byte offset from the index - see
	* __idx_to_offset.
	*/

	#include <asm/page.h>
	#include <linux/bug.h>
	#include <linux/limits.h>
	#include <linux/log2.h>
	#include <linux/math.h>
	#include <linux/types.h>

	struct genradix_root;

	#define GENRADIX_NODE_SHIFT 9
	#define GENRADIX_NODE_SIZE (1U << GENRADIX_NODE_SHIFT)

	struct __genradix {
	struct genradix_root *root;
	};

	/*
	* NOTE: currently, sizeof(_type) must not be larger than GENRADIX_NODE_SIZE:
	*/

	#define __GENRADIX_INITIALIZER \
	{ \
	.tree = { \
	.root = NULL, \
	} \
	}

	/*
	* We use a 0 size array to stash the type we're storing without taking any
	* space at runtime - then the various accessor macros can use typeof() to get
	* to it for casts/sizeof - we also force the alignment so that storing a type
	* with a ridiculous alignment doesn't blow up the alignment or size of the
	* genradix.
	*/

	#define GENRADIX(_type) \
	struct { \
	struct __genradix tree; \
	_type type[0] __aligned(1); \
	}

	#define DEFINE_GENRADIX(_name, _type) \
	GENRADIX(_type) _name = __GENRADIX_INITIALIZER

	/**
	* genradix_init - initialize a genradix
	* @_radix: genradix to initialize
	*
	* Does not fail
	*/
	#define genradix_init(_radix) \
	do { \
	(_radix) = (typeof(_radix)) __GENRADIX_INITIALIZER; \
	} while (0)

	void __genradix_free(struct __genradix *);

	/**
	* genradix_free: free all memory owned by a genradix
	* @_radix: the genradix to free
	*
	* After freeing, @_radix will be reinitialized and empty
	*/
	#define genradix_free(_radix) __genradix_free(&(_radix)->tree)

	static inline size_t __idx_to_offset(size_t idx, size_t obj_size)
	{
	if (__builtin_constant_p(obj_size))
	BUILD_BUG_ON(obj_size > GENRADIX_NODE_SIZE);
	else
	BUG_ON(obj_size > GENRADIX_NODE_SIZE);

	if (!is_power_of_2(obj_size)) {
	size_t objs_per_page = GENRADIX_NODE_SIZE / obj_size;

	return (idx / objs_per_page) * GENRADIX_NODE_SIZE +
	(idx % objs_per_page) * obj_size;
	} else {
	return idx * obj_size;
	}
	}

	#define __genradix_cast(_radix) (typeof((_radix)->type[0]) *)
	#define __genradix_obj_size(_radix) sizeof((_radix)->type[0])
	#define __genradix_objs_per_page(_radix) \
	(GENRADIX_NODE_SIZE / sizeof((_radix)->type[0]))
	#define __genradix_page_remainder(_radix) \
	(GENRADIX_NODE_SIZE % sizeof((_radix)->type[0]))

	#define __genradix_idx_to_offset(_radix, _idx) \
	__idx_to_offset(_idx, __genradix_obj_size(_radix))

	void __genradix_ptr(struct __genradix , size_t);

	/**
	* genradix_ptr - get a pointer to a genradix entry
	* @_radix: genradix to access
	* @_idx: index to fetch
	*
	* Returns a pointer to entry at @_idx, or NULL if that entry does not exist.
	*/
	#define genradix_ptr(_radix, _idx) \
	(__genradix_cast(_radix) \
	__genradix_ptr(&(_radix)->tree, \
	__genradix_idx_to_offset(_radix, _idx)))

	void __genradix_ptr_alloc(struct __genradix , size_t, gfp_t);

	/**
	* genradix_ptr_alloc - get a pointer to a genradix entry, allocating it
	* if necessary
	* @_radix: genradix to access
	* @_idx: index to fetch
	* @_gfp: gfp mask
	*
	* Returns a pointer to entry at @_idx, or NULL on allocation failure
	*/
	#define genradix_ptr_alloc(_radix, _idx, _gfp) \
	(__genradix_cast(_radix) \
	__genradix_ptr_alloc(&(_radix)->tree, \
	__genradix_idx_to_offset(_radix, _idx), \
	_gfp))

	struct genradix_iter {
	size_t offset;
	size_t pos;
	};

	/**
	* genradix_iter_init - initialize a genradix_iter
	* @_radix: genradix that will be iterated over
	* @_idx: index to start iterating from
	*/
	#define genradix_iter_init(_radix, _idx) \
	((struct genradix_iter) { \
	.pos = (_idx), \
	.offset = __genradix_idx_to_offset((_radix), (_idx)),\
	})

	void __genradix_iter_peek(struct genradix_iter , struct __genradix *, size_t);

	/**
	* genradix_iter_peek - get first entry at or above iterator's current
	* position
	* @_iter: a genradix_iter
	* @_radix: genradix being iterated over
	*
	* If no more entries exist at or above @_iter's current position, returns NULL
	*/
	#define genradix_iter_peek(_iter, _radix) \
	(__genradix_cast(_radix) \
	__genradix_iter_peek(_iter, &(_radix)->tree, \
	__genradix_objs_per_page(_radix)))

	void __genradix_iter_peek_prev(struct genradix_iter , struct __genradix *,
	size_t, size_t);

	/**
	* genradix_iter_peek_prev - get first entry at or below iterator's current
	* position
	* @_iter: a genradix_iter
	* @_radix: genradix being iterated over
	*
	* If no more entries exist at or below @_iter's current position, returns NULL
	*/
	#define genradix_iter_peek_prev(_iter, _radix) \
	(__genradix_cast(_radix) \
	__genradix_iter_peek_prev(_iter, &(_radix)->tree, \
	__genradix_objs_per_page(_radix), \
	__genradix_obj_size(_radix) + \
	__genradix_page_remainder(_radix)))

	static inline void __genradix_iter_advance(struct genradix_iter *iter,
	size_t obj_size)
	{
	if (iter->offset + obj_size < iter->offset) {
	iter->offset = SIZE_MAX;
	iter->pos = SIZE_MAX;
	return;
	}

	iter->offset += obj_size;

	if (!is_power_of_2(obj_size) &&
	(iter->offset & (GENRADIX_NODE_SIZE - 1)) + obj_size > GENRADIX_NODE_SIZE)
	iter->offset = round_up(iter->offset, GENRADIX_NODE_SIZE);

	iter->pos++;
	}

	#define genradix_iter_advance(_iter, _radix) \
	__genradix_iter_advance(_iter, __genradix_obj_size(_radix))

	static inline void __genradix_iter_rewind(struct genradix_iter *iter,
	size_t obj_size)
	{
	if (iter->offset == 0 \|\|
	iter->offset == SIZE_MAX) {
	iter->offset = SIZE_MAX;
	return;
	}

	if ((iter->offset & (GENRADIX_NODE_SIZE - 1)) == 0)
	iter->offset -= GENRADIX_NODE_SIZE % obj_size;

	iter->offset -= obj_size;
	iter->pos--;
	}

	#define genradix_iter_rewind(_iter, _radix) \
	__genradix_iter_rewind(_iter, __genradix_obj_size(_radix))

	#define genradix_for_each_from(_radix, _iter, _p, _start) \
	for (_iter = genradix_iter_init(_radix, _start); \
	(_p = genradix_iter_peek(&_iter, _radix)) != NULL; \
	genradix_iter_advance(&_iter, _radix))

	/**
	* genradix_for_each - iterate over entry in a genradix
	* @_radix: genradix to iterate over
	* @_iter: a genradix_iter to track current position
	* @_p: pointer to genradix entry type
	*
	* On every iteration, @_p will point to the current entry, and @_iter.pos
	* will be the current entry's index.
	*/
	#define genradix_for_each(_radix, _iter, _p) \
	genradix_for_each_from(_radix, _iter, _p, 0)

	#define genradix_last_pos(_radix) \
	(SIZE_MAX / GENRADIX_NODE_SIZE * __genradix_objs_per_page(_radix) - 1)

	/**
	* genradix_for_each_reverse - iterate over entry in a genradix, reverse order
	* @_radix: genradix to iterate over
	* @_iter: a genradix_iter to track current position
	* @_p: pointer to genradix entry type
	*
	* On every iteration, @_p will point to the current entry, and @_iter.pos
	* will be the current entry's index.
	*/
	#define genradix_for_each_reverse(_radix, _iter, _p) \
	for (_iter = genradix_iter_init(_radix, genradix_last_pos(_radix));\
	(_p = genradix_iter_peek_prev(&_iter, _radix)) != NULL;\
	genradix_iter_rewind(&_iter, _radix))

	int __genradix_prealloc(struct __genradix *, size_t, gfp_t);

	/**
	* genradix_prealloc - preallocate entries in a generic radix tree
	* @_radix: genradix to preallocate
	* @_nr: number of entries to preallocate
	* @_gfp: gfp mask
	*
	* Returns 0 on success, -ENOMEM on failure
	*/
	#define genradix_prealloc(_radix, _nr, _gfp) \
	__genradix_prealloc(&(_radix)->tree, \
	__genradix_idx_to_offset(_radix, _nr + 1),\
	_gfp)


	#endif /* _LINUX_GENERIC_RADIX_TREE_H */