radix-tree.c 39.4 KB
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/*
 * Copyright (C) 2001 Momchil Velikov
 * Portions Copyright (C) 2001 Christoph Hellwig
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 * Copyright (C) 2005 SGI, Christoph Lameter
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 * Copyright (C) 2006 Nick Piggin
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 * Copyright (C) 2012 Konstantin Khlebnikov
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 *
 * 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; either version 2, or (at
 * your option) any later version.
 *
 * This program is distributed in the hope that it will be useful, but
 * 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., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

#include <linux/errno.h>
#include <linux/init.h>
#include <linux/kernel.h>
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#include <linux/export.h>
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#include <linux/radix-tree.h>
#include <linux/percpu.h>
#include <linux/slab.h>
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#include <linux/kmemleak.h>
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#include <linux/notifier.h>
#include <linux/cpu.h>
#include <linux/string.h>
#include <linux/bitops.h>
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#include <linux/rcupdate.h>
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#include <linux/preempt.h>		/* in_interrupt() */
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/*
 * The height_to_maxindex array needs to be one deeper than the maximum
 * path as height 0 holds only 1 entry.
 */
static unsigned long height_to_maxindex[RADIX_TREE_MAX_PATH + 1] __read_mostly;
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/*
 * Radix tree node cache.
 */
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static struct kmem_cache *radix_tree_node_cachep;
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/*
 * The radix tree is variable-height, so an insert operation not only has
 * to build the branch to its corresponding item, it also has to build the
 * branch to existing items if the size has to be increased (by
 * radix_tree_extend).
 *
 * The worst case is a zero height tree with just a single item at index 0,
 * and then inserting an item at index ULONG_MAX. This requires 2 new branches
 * of RADIX_TREE_MAX_PATH size to be created, with only the root node shared.
 * Hence:
 */
#define RADIX_TREE_PRELOAD_SIZE (RADIX_TREE_MAX_PATH * 2 - 1)

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/*
 * Per-cpu pool of preloaded nodes
 */
struct radix_tree_preload {
	int nr;
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	/* nodes->private_data points to next preallocated node */
	struct radix_tree_node *nodes;
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};
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static DEFINE_PER_CPU(struct radix_tree_preload, radix_tree_preloads) = { 0, };
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static inline void *ptr_to_indirect(void *ptr)
{
	return (void *)((unsigned long)ptr | RADIX_TREE_INDIRECT_PTR);
}

static inline void *indirect_to_ptr(void *ptr)
{
	return (void *)((unsigned long)ptr & ~RADIX_TREE_INDIRECT_PTR);
}

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static inline gfp_t root_gfp_mask(struct radix_tree_root *root)
{
	return root->gfp_mask & __GFP_BITS_MASK;
}

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static inline void tag_set(struct radix_tree_node *node, unsigned int tag,
		int offset)
{
	__set_bit(offset, node->tags[tag]);
}

static inline void tag_clear(struct radix_tree_node *node, unsigned int tag,
		int offset)
{
	__clear_bit(offset, node->tags[tag]);
}

static inline int tag_get(struct radix_tree_node *node, unsigned int tag,
		int offset)
{
	return test_bit(offset, node->tags[tag]);
}

static inline void root_tag_set(struct radix_tree_root *root, unsigned int tag)
{
	root->gfp_mask |= (__force gfp_t)(1 << (tag + __GFP_BITS_SHIFT));
}

static inline void root_tag_clear(struct radix_tree_root *root, unsigned int tag)
{
	root->gfp_mask &= (__force gfp_t)~(1 << (tag + __GFP_BITS_SHIFT));
}

static inline void root_tag_clear_all(struct radix_tree_root *root)
{
	root->gfp_mask &= __GFP_BITS_MASK;
}

static inline int root_tag_get(struct radix_tree_root *root, unsigned int tag)
{
	return (__force unsigned)root->gfp_mask & (1 << (tag + __GFP_BITS_SHIFT));
}

/*
 * Returns 1 if any slot in the node has this tag set.
 * Otherwise returns 0.
 */
static inline int any_tag_set(struct radix_tree_node *node, unsigned int tag)
{
	int idx;
	for (idx = 0; idx < RADIX_TREE_TAG_LONGS; idx++) {
		if (node->tags[tag][idx])
			return 1;
	}
	return 0;
}
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/**
 * radix_tree_find_next_bit - find the next set bit in a memory region
 *
 * @addr: The address to base the search on
 * @size: The bitmap size in bits
 * @offset: The bitnumber to start searching at
 *
 * Unrollable variant of find_next_bit() for constant size arrays.
 * Tail bits starting from size to roundup(size, BITS_PER_LONG) must be zero.
 * Returns next bit offset, or size if nothing found.
 */
static __always_inline unsigned long
radix_tree_find_next_bit(const unsigned long *addr,
			 unsigned long size, unsigned long offset)
{
	if (!__builtin_constant_p(size))
		return find_next_bit(addr, size, offset);

	if (offset < size) {
		unsigned long tmp;

		addr += offset / BITS_PER_LONG;
		tmp = *addr >> (offset % BITS_PER_LONG);
		if (tmp)
			return __ffs(tmp) + offset;
		offset = (offset + BITS_PER_LONG) & ~(BITS_PER_LONG - 1);
		while (offset < size) {
			tmp = *++addr;
			if (tmp)
				return __ffs(tmp) + offset;
			offset += BITS_PER_LONG;
		}
	}
	return size;
}

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/*
 * This assumes that the caller has performed appropriate preallocation, and
 * that the caller has pinned this thread of control to the current CPU.
 */
static struct radix_tree_node *
radix_tree_node_alloc(struct radix_tree_root *root)
{
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	struct radix_tree_node *ret = NULL;
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	gfp_t gfp_mask = root_gfp_mask(root);
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	/*
	 * Preload code isn't irq safe and it doesn't make sence to use
	 * preloading in the interrupt anyway as all the allocations have to
	 * be atomic. So just do normal allocation when in interrupt.
	 */
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	if (!gfpflags_allow_blocking(gfp_mask) && !in_interrupt()) {
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		struct radix_tree_preload *rtp;

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		/*
		 * Provided the caller has preloaded here, we will always
		 * succeed in getting a node here (and never reach
		 * kmem_cache_alloc)
		 */
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		rtp = this_cpu_ptr(&radix_tree_preloads);
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		if (rtp->nr) {
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			ret = rtp->nodes;
			rtp->nodes = ret->private_data;
			ret->private_data = NULL;
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			rtp->nr--;
		}
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		/*
		 * Update the allocation stack trace as this is more useful
		 * for debugging.
		 */
		kmemleak_update_trace(ret);
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	}
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	if (ret == NULL)
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		ret = kmem_cache_alloc(radix_tree_node_cachep, gfp_mask);
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	BUG_ON(radix_tree_is_indirect_ptr(ret));
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	return ret;
}

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static void radix_tree_node_rcu_free(struct rcu_head *head)
{
	struct radix_tree_node *node =
			container_of(head, struct radix_tree_node, rcu_head);
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	int i;
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	/*
	 * must only free zeroed nodes into the slab. radix_tree_shrink
	 * can leave us with a non-NULL entry in the first slot, so clear
	 * that here to make sure.
	 */
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	for (i = 0; i < RADIX_TREE_MAX_TAGS; i++)
		tag_clear(node, i, 0);

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	node->slots[0] = NULL;
	node->count = 0;

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	kmem_cache_free(radix_tree_node_cachep, node);
}

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static inline void
radix_tree_node_free(struct radix_tree_node *node)
{
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	call_rcu(&node->rcu_head, radix_tree_node_rcu_free);
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}

/*
 * Load up this CPU's radix_tree_node buffer with sufficient objects to
 * ensure that the addition of a single element in the tree cannot fail.  On
 * success, return zero, with preemption disabled.  On error, return -ENOMEM
 * with preemption not disabled.
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 *
 * To make use of this facility, the radix tree must be initialised without
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 * __GFP_DIRECT_RECLAIM being passed to INIT_RADIX_TREE().
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 */
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static int __radix_tree_preload(gfp_t gfp_mask)
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{
	struct radix_tree_preload *rtp;
	struct radix_tree_node *node;
	int ret = -ENOMEM;

	preempt_disable();
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	rtp = this_cpu_ptr(&radix_tree_preloads);
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	while (rtp->nr < RADIX_TREE_PRELOAD_SIZE) {
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		preempt_enable();
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		node = kmem_cache_alloc(radix_tree_node_cachep, gfp_mask);
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		if (node == NULL)
			goto out;
		preempt_disable();
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		rtp = this_cpu_ptr(&radix_tree_preloads);
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		if (rtp->nr < RADIX_TREE_PRELOAD_SIZE) {
			node->private_data = rtp->nodes;
			rtp->nodes = node;
			rtp->nr++;
		} else {
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			kmem_cache_free(radix_tree_node_cachep, node);
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		}
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	}
	ret = 0;
out:
	return ret;
}
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/*
 * Load up this CPU's radix_tree_node buffer with sufficient objects to
 * ensure that the addition of a single element in the tree cannot fail.  On
 * success, return zero, with preemption disabled.  On error, return -ENOMEM
 * with preemption not disabled.
 *
 * To make use of this facility, the radix tree must be initialised without
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 * __GFP_DIRECT_RECLAIM being passed to INIT_RADIX_TREE().
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 */
int radix_tree_preload(gfp_t gfp_mask)
{
	/* Warn on non-sensical use... */
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	WARN_ON_ONCE(!gfpflags_allow_blocking(gfp_mask));
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	return __radix_tree_preload(gfp_mask);
}
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EXPORT_SYMBOL(radix_tree_preload);
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/*
 * The same as above function, except we don't guarantee preloading happens.
 * We do it, if we decide it helps. On success, return zero with preemption
 * disabled. On error, return -ENOMEM with preemption not disabled.
 */
int radix_tree_maybe_preload(gfp_t gfp_mask)
{
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	if (gfpflags_allow_blocking(gfp_mask))
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		return __radix_tree_preload(gfp_mask);
	/* Preloading doesn't help anything with this gfp mask, skip it */
	preempt_disable();
	return 0;
}
EXPORT_SYMBOL(radix_tree_maybe_preload);

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/*
 *	Return the maximum key which can be store into a
 *	radix tree with height HEIGHT.
 */
static inline unsigned long radix_tree_maxindex(unsigned int height)
{
	return height_to_maxindex[height];
}

/*
 *	Extend a radix tree so it can store key @index.
 */
static int radix_tree_extend(struct radix_tree_root *root, unsigned long index)
{
	struct radix_tree_node *node;
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	struct radix_tree_node *slot;
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	unsigned int height;
	int tag;

	/* Figure out what the height should be.  */
	height = root->height + 1;
	while (index > radix_tree_maxindex(height))
		height++;

	if (root->rnode == NULL) {
		root->height = height;
		goto out;
	}

	do {
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		unsigned int newheight;
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		if (!(node = radix_tree_node_alloc(root)))
			return -ENOMEM;

		/* Propagate the aggregated tag info into the new root */
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		for (tag = 0; tag < RADIX_TREE_MAX_TAGS; tag++) {
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			if (root_tag_get(root, tag))
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				tag_set(node, tag, 0);
		}

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		/* Increase the height.  */
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		newheight = root->height+1;
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		BUG_ON(newheight & ~RADIX_TREE_HEIGHT_MASK);
		node->path = newheight;
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		node->count = 1;
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		node->parent = NULL;
		slot = root->rnode;
		if (newheight > 1) {
			slot = indirect_to_ptr(slot);
			slot->parent = node;
		}
		node->slots[0] = slot;
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		node = ptr_to_indirect(node);
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		rcu_assign_pointer(root->rnode, node);
		root->height = newheight;
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	} while (height > root->height);
out:
	return 0;
}

/**
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 *	__radix_tree_create	-	create a slot in a radix tree
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 *	@root:		radix tree root
 *	@index:		index key
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 *	@nodep:		returns node
 *	@slotp:		returns slot
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 *
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 *	Create, if necessary, and return the node and slot for an item
 *	at position @index in the radix tree @root.
 *
 *	Until there is more than one item in the tree, no nodes are
 *	allocated and @root->rnode is used as a direct slot instead of
 *	pointing to a node, in which case *@nodep will be NULL.
 *
 *	Returns -ENOMEM, or 0 for success.
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 */
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int __radix_tree_create(struct radix_tree_root *root, unsigned long index,
			struct radix_tree_node **nodep, void ***slotp)
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{
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	struct radix_tree_node *node = NULL, *slot;
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	unsigned int height, shift, offset;
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	int error;

	/* Make sure the tree is high enough.  */
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	if (index > radix_tree_maxindex(root->height)) {
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		error = radix_tree_extend(root, index);
		if (error)
			return error;
	}

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	slot = indirect_to_ptr(root->rnode);
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	height = root->height;
	shift = (height-1) * RADIX_TREE_MAP_SHIFT;

	offset = 0;			/* uninitialised var warning */
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	while (height > 0) {
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		if (slot == NULL) {
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			/* Have to add a child node.  */
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			if (!(slot = radix_tree_node_alloc(root)))
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				return -ENOMEM;
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			slot->path = height;
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			slot->parent = node;
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			if (node) {
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				rcu_assign_pointer(node->slots[offset], slot);
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				node->count++;
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				slot->path |= offset << RADIX_TREE_HEIGHT_SHIFT;
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			} else
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				rcu_assign_pointer(root->rnode, ptr_to_indirect(slot));
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		}

		/* Go a level down */
		offset = (index >> shift) & RADIX_TREE_MAP_MASK;
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		node = slot;
		slot = node->slots[offset];
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		shift -= RADIX_TREE_MAP_SHIFT;
		height--;
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	}
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	if (nodep)
		*nodep = node;
	if (slotp)
		*slotp = node ? node->slots + offset : (void **)&root->rnode;
	return 0;
}

/**
 *	radix_tree_insert    -    insert into a radix tree
 *	@root:		radix tree root
 *	@index:		index key
 *	@item:		item to insert
 *
 *	Insert an item into the radix tree at position @index.
 */
int radix_tree_insert(struct radix_tree_root *root,
			unsigned long index, void *item)
{
	struct radix_tree_node *node;
	void **slot;
	int error;

	BUG_ON(radix_tree_is_indirect_ptr(item));

	error = __radix_tree_create(root, index, &node, &slot);
	if (error)
		return error;
	if (*slot != NULL)
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		return -EEXIST;
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	rcu_assign_pointer(*slot, item);
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	if (node) {
		node->count++;
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		BUG_ON(tag_get(node, 0, index & RADIX_TREE_MAP_MASK));
		BUG_ON(tag_get(node, 1, index & RADIX_TREE_MAP_MASK));
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	} else {
		BUG_ON(root_tag_get(root, 0));
		BUG_ON(root_tag_get(root, 1));
	}
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	return 0;
}
EXPORT_SYMBOL(radix_tree_insert);

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/**
 *	__radix_tree_lookup	-	lookup an item in a radix tree
 *	@root:		radix tree root
 *	@index:		index key
 *	@nodep:		returns node
 *	@slotp:		returns slot
 *
 *	Lookup and return the item at position @index in the radix
 *	tree @root.
 *
 *	Until there is more than one item in the tree, no nodes are
 *	allocated and @root->rnode is used as a direct slot instead of
 *	pointing to a node, in which case *@nodep will be NULL.
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 */
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void *__radix_tree_lookup(struct radix_tree_root *root, unsigned long index,
			  struct radix_tree_node **nodep, void ***slotp)
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{
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	struct radix_tree_node *node, *parent;
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	unsigned int height, shift;
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	void **slot;
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	node = rcu_dereference_raw(root->rnode);
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	if (node == NULL)
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		return NULL;

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	if (!radix_tree_is_indirect_ptr(node)) {
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		if (index > 0)
			return NULL;
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		if (nodep)
			*nodep = NULL;
		if (slotp)
			*slotp = (void **)&root->rnode;
		return node;
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	}
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	node = indirect_to_ptr(node);
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	height = node->path & RADIX_TREE_HEIGHT_MASK;
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	if (index > radix_tree_maxindex(height))
		return NULL;
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	shift = (height-1) * RADIX_TREE_MAP_SHIFT;

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	do {
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		parent = node;
		slot = node->slots + ((index >> shift) & RADIX_TREE_MAP_MASK);
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		node = rcu_dereference_raw(*slot);
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		if (node == NULL)
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			return NULL;

		shift -= RADIX_TREE_MAP_SHIFT;
		height--;
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	} while (height > 0);
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	if (nodep)
		*nodep = parent;
	if (slotp)
		*slotp = slot;
	return node;
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}

/**
 *	radix_tree_lookup_slot    -    lookup a slot in a radix tree
 *	@root:		radix tree root
 *	@index:		index key
 *
 *	Returns:  the slot corresponding to the position @index in the
 *	radix tree @root. This is useful for update-if-exists operations.
 *
 *	This function can be called under rcu_read_lock iff the slot is not
 *	modified by radix_tree_replace_slot, otherwise it must be called
 *	exclusive from other writers. Any dereference of the slot must be done
 *	using radix_tree_deref_slot.
 */
void **radix_tree_lookup_slot(struct radix_tree_root *root, unsigned long index)
{
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	void **slot;

	if (!__radix_tree_lookup(root, index, NULL, &slot))
		return NULL;
	return slot;
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}
EXPORT_SYMBOL(radix_tree_lookup_slot);

/**
 *	radix_tree_lookup    -    perform lookup operation on a radix tree
 *	@root:		radix tree root
 *	@index:		index key
 *
 *	Lookup the item at the position @index in the radix tree @root.
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 *
 *	This function can be called under rcu_read_lock, however the caller
 *	must manage lifetimes of leaf nodes (eg. RCU may also be used to free
 *	them safely). No RCU barriers are required to access or modify the
 *	returned item, however.
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 */
void *radix_tree_lookup(struct radix_tree_root *root, unsigned long index)
{
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	return __radix_tree_lookup(root, index, NULL, NULL);
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}
EXPORT_SYMBOL(radix_tree_lookup);

/**
 *	radix_tree_tag_set - set a tag on a radix tree node
 *	@root:		radix tree root
 *	@index:		index key
 *	@tag: 		tag index
 *
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 *	Set the search tag (which must be < RADIX_TREE_MAX_TAGS)
 *	corresponding to @index in the radix tree.  From
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 *	the root all the way down to the leaf node.
 *
 *	Returns the address of the tagged item.   Setting a tag on a not-present
 *	item is a bug.
 */
void *radix_tree_tag_set(struct radix_tree_root *root,
593
			unsigned long index, unsigned int tag)
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{
	unsigned int height, shift;
596
	struct radix_tree_node *slot;
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	height = root->height;
599
	BUG_ON(index > radix_tree_maxindex(height));
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	slot = indirect_to_ptr(root->rnode);
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	shift = (height - 1) * RADIX_TREE_MAP_SHIFT;
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	while (height > 0) {
		int offset;

		offset = (index >> shift) & RADIX_TREE_MAP_MASK;
608 609
		if (!tag_get(slot, tag, offset))
			tag_set(slot, tag, offset);
610 611
		slot = slot->slots[offset];
		BUG_ON(slot == NULL);
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		shift -= RADIX_TREE_MAP_SHIFT;
		height--;
	}

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	/* set the root's tag bit */
	if (slot && !root_tag_get(root, tag))
		root_tag_set(root, tag);

620
	return slot;
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}
EXPORT_SYMBOL(radix_tree_tag_set);

/**
 *	radix_tree_tag_clear - clear a tag on a radix tree node
 *	@root:		radix tree root
 *	@index:		index key
 *	@tag: 		tag index
 *
630 631
 *	Clear the search tag (which must be < RADIX_TREE_MAX_TAGS)
 *	corresponding to @index in the radix tree.  If
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 *	this causes the leaf node to have no tags set then clear the tag in the
 *	next-to-leaf node, etc.
 *
 *	Returns the address of the tagged item on success, else NULL.  ie:
 *	has the same return value and semantics as radix_tree_lookup().
 */
void *radix_tree_tag_clear(struct radix_tree_root *root,
639
			unsigned long index, unsigned int tag)
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{
641
	struct radix_tree_node *node = NULL;
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	struct radix_tree_node *slot = NULL;
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643
	unsigned int height, shift;
644
	int uninitialized_var(offset);
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	height = root->height;
	if (index > radix_tree_maxindex(height))
		goto out;

650
	shift = height * RADIX_TREE_MAP_SHIFT;
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651
	slot = indirect_to_ptr(root->rnode);
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652

653
	while (shift) {
654
		if (slot == NULL)
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			goto out;

657
		shift -= RADIX_TREE_MAP_SHIFT;
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		offset = (index >> shift) & RADIX_TREE_MAP_MASK;
659
		node = slot;
660
		slot = slot->slots[offset];
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	}

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	if (slot == NULL)
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		goto out;

666 667
	while (node) {
		if (!tag_get(node, tag, offset))
668
			goto out;
669 670
		tag_clear(node, tag, offset);
		if (any_tag_set(node, tag))
671
			goto out;
672 673 674 675

		index >>= RADIX_TREE_MAP_SHIFT;
		offset = index & RADIX_TREE_MAP_MASK;
		node = node->parent;
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	}

	/* clear the root's tag bit */
	if (root_tag_get(root, tag))
		root_tag_clear(root, tag);

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out:
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	return slot;
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}
EXPORT_SYMBOL(radix_tree_tag_clear);

/**
688 689 690
 * radix_tree_tag_get - get a tag on a radix tree node
 * @root:		radix tree root
 * @index:		index key
691
 * @tag: 		tag index (< RADIX_TREE_MAX_TAGS)
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 *
693
 * Return values:
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 *
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 *  0: tag not present or not set
 *  1: tag set
697 698 699 700
 *
 * Note that the return value of this function may not be relied on, even if
 * the RCU lock is held, unless tag modification and node deletion are excluded
 * from concurrency.
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 */
int radix_tree_tag_get(struct radix_tree_root *root,
703
			unsigned long index, unsigned int tag)
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{
	unsigned int height, shift;
706
	struct radix_tree_node *node;
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	/* check the root's tag bit */
	if (!root_tag_get(root, tag))
		return 0;

712
	node = rcu_dereference_raw(root->rnode);
713 714 715
	if (node == NULL)
		return 0;

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	if (!radix_tree_is_indirect_ptr(node))
717
		return (index == 0);
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	node = indirect_to_ptr(node);
719

720
	height = node->path & RADIX_TREE_HEIGHT_MASK;
721 722
	if (index > radix_tree_maxindex(height))
		return 0;
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	shift = (height - 1) * RADIX_TREE_MAP_SHIFT;

	for ( ; ; ) {
		int offset;

729
		if (node == NULL)
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			return 0;

		offset = (index >> shift) & RADIX_TREE_MAP_MASK;
733
		if (!tag_get(node, tag, offset))
734
			return 0;
735
		if (height == 1)
736
			return 1;
737
		node = rcu_dereference_raw(node->slots[offset]);
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		shift -= RADIX_TREE_MAP_SHIFT;
		height--;
	}
}
EXPORT_SYMBOL(radix_tree_tag_get);

744 745 746 747 748 749 750 751 752 753 754 755 756
/**
 * radix_tree_next_chunk - find next chunk of slots for iteration
 *
 * @root:	radix tree root
 * @iter:	iterator state
 * @flags:	RADIX_TREE_ITER_* flags and tag index
 * Returns:	pointer to chunk first slot, or NULL if iteration is over
 */
void **radix_tree_next_chunk(struct radix_tree_root *root,
			     struct radix_tree_iter *iter, unsigned flags)
{
	unsigned shift, tag = flags & RADIX_TREE_ITER_TAG_MASK;
	struct radix_tree_node *rnode, *node;
757
	unsigned long index, offset, height;
758 759 760 761 762 763 764 765 766

	if ((flags & RADIX_TREE_ITER_TAGGED) && !root_tag_get(root, tag))
		return NULL;

	/*
	 * Catch next_index overflow after ~0UL. iter->index never overflows
	 * during iterating; it can be zero only at the beginning.
	 * And we cannot overflow iter->next_index in a single step,
	 * because RADIX_TREE_MAP_SHIFT < BITS_PER_LONG.
767 768 769
	 *
	 * This condition also used by radix_tree_next_slot() to stop
	 * contiguous iterating, and forbid swithing to the next chunk.
770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787
	 */
	index = iter->next_index;
	if (!index && iter->index)
		return NULL;

	rnode = rcu_dereference_raw(root->rnode);
	if (radix_tree_is_indirect_ptr(rnode)) {
		rnode = indirect_to_ptr(rnode);
	} else if (rnode && !index) {
		/* Single-slot tree */
		iter->index = 0;
		iter->next_index = 1;
		iter->tags = 1;
		return (void **)&root->rnode;
	} else
		return NULL;

restart:
788 789
	height = rnode->path & RADIX_TREE_HEIGHT_MASK;
	shift = (height - 1) * RADIX_TREE_MAP_SHIFT;
790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860
	offset = index >> shift;

	/* Index outside of the tree */
	if (offset >= RADIX_TREE_MAP_SIZE)
		return NULL;

	node = rnode;
	while (1) {
		if ((flags & RADIX_TREE_ITER_TAGGED) ?
				!test_bit(offset, node->tags[tag]) :
				!node->slots[offset]) {
			/* Hole detected */
			if (flags & RADIX_TREE_ITER_CONTIG)
				return NULL;

			if (flags & RADIX_TREE_ITER_TAGGED)
				offset = radix_tree_find_next_bit(
						node->tags[tag],
						RADIX_TREE_MAP_SIZE,
						offset + 1);
			else
				while (++offset	< RADIX_TREE_MAP_SIZE) {
					if (node->slots[offset])
						break;
				}
			index &= ~((RADIX_TREE_MAP_SIZE << shift) - 1);
			index += offset << shift;
			/* Overflow after ~0UL */
			if (!index)
				return NULL;
			if (offset == RADIX_TREE_MAP_SIZE)
				goto restart;
		}

		/* This is leaf-node */
		if (!shift)
			break;

		node = rcu_dereference_raw(node->slots[offset]);
		if (node == NULL)
			goto restart;
		shift -= RADIX_TREE_MAP_SHIFT;
		offset = (index >> shift) & RADIX_TREE_MAP_MASK;
	}

	/* Update the iterator state */
	iter->index = index;
	iter->next_index = (index | RADIX_TREE_MAP_MASK) + 1;

	/* Construct iter->tags bit-mask from node->tags[tag] array */
	if (flags & RADIX_TREE_ITER_TAGGED) {
		unsigned tag_long, tag_bit;

		tag_long = offset / BITS_PER_LONG;
		tag_bit  = offset % BITS_PER_LONG;
		iter->tags = node->tags[tag][tag_long] >> tag_bit;
		/* This never happens if RADIX_TREE_TAG_LONGS == 1 */
		if (tag_long < RADIX_TREE_TAG_LONGS - 1) {
			/* Pick tags from next element */
			if (tag_bit)
				iter->tags |= node->tags[tag][tag_long + 1] <<
						(BITS_PER_LONG - tag_bit);
			/* Clip chunk size, here only BITS_PER_LONG tags */
			iter->next_index = index + BITS_PER_LONG;
		}
	}

	return node->slots + offset;
}
EXPORT_SYMBOL(radix_tree_next_chunk);

861 862 863 864 865 866 867 868 869 870 871 872 873 874 875
/**
 * radix_tree_range_tag_if_tagged - for each item in given range set given
 *				   tag if item has another tag set
 * @root:		radix tree root
 * @first_indexp:	pointer to a starting index of a range to scan
 * @last_index:		last index of a range to scan
 * @nr_to_tag:		maximum number items to tag
 * @iftag:		tag index to test
 * @settag:		tag index to set if tested tag is set
 *
 * This function scans range of radix tree from first_index to last_index
 * (inclusive).  For each item in the range if iftag is set, the function sets
 * also settag. The function stops either after tagging nr_to_tag items or
 * after reaching last_index.
 *
876 877 878 879 880 881 882
 * The tags must be set from the leaf level only and propagated back up the
 * path to the root. We must do this so that we resolve the full path before
 * setting any tags on intermediate nodes. If we set tags as we descend, then
 * we can get to the leaf node and find that the index that has the iftag
 * set is outside the range we are scanning. This reults in dangling tags and
 * can lead to problems with later tag operations (e.g. livelocks on lookups).
 *
883 884
 * The function returns number of leaves where the tag was set and sets
 * *first_indexp to the first unscanned index.
885 886
 * WARNING! *first_indexp can wrap if last_index is ULONG_MAX. Caller must
 * be prepared to handle that.
887 888 889 890 891 892
 */
unsigned long radix_tree_range_tag_if_tagged(struct radix_tree_root *root,
		unsigned long *first_indexp, unsigned long last_index,
		unsigned long nr_to_tag,
		unsigned int iftag, unsigned int settag)
{
893
	unsigned int height = root->height;
894
	struct radix_tree_node *node = NULL;
895 896 897 898
	struct radix_tree_node *slot;
	unsigned int shift;
	unsigned long tagged = 0;
	unsigned long index = *first_indexp;
899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915

	last_index = min(last_index, radix_tree_maxindex(height));
	if (index > last_index)
		return 0;
	if (!nr_to_tag)
		return 0;
	if (!root_tag_get(root, iftag)) {
		*first_indexp = last_index + 1;
		return 0;
	}
	if (height == 0) {
		*first_indexp = last_index + 1;
		root_tag_set(root, settag);
		return 1;
	}

	shift = (height - 1) * RADIX_TREE_MAP_SHIFT;
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916
	slot = indirect_to_ptr(root->rnode);
917 918

	for (;;) {
919
		unsigned long upindex;
920 921 922 923 924 925 926
		int offset;

		offset = (index >> shift) & RADIX_TREE_MAP_MASK;
		if (!slot->slots[offset])
			goto next;
		if (!tag_get(slot, iftag, offset))
			goto next;
927
		if (shift) {
928 929
			/* Go down one level */
			shift -= RADIX_TREE_MAP_SHIFT;
930
			node = slot;
931 932 933 934 935 936
			slot = slot->slots[offset];
			continue;
		}

		/* tag the leaf */
		tagged++;
937
		tag_set(slot, settag, offset);
938 939

		/* walk back up the path tagging interior nodes */
940 941 942 943 944
		upindex = index;
		while (node) {
			upindex >>= RADIX_TREE_MAP_SHIFT;
			offset = upindex & RADIX_TREE_MAP_MASK;

945
			/* stop if we find a node with the tag already set */
946
			if (tag_get(node, settag, offset))
947
				break;
948 949
			tag_set(node, settag, offset);
			node = node->parent;
950
		}
951

952 953 954 955 956 957 958 959 960
		/*
		 * Small optimization: now clear that node pointer.
		 * Since all of this slot's ancestors now have the tag set
		 * from setting it above, we have no further need to walk
		 * back up the tree setting tags, until we update slot to
		 * point to another radix_tree_node.
		 */
		node = NULL;

961 962 963
next:
		/* Go to next item at level determined by 'shift' */
		index = ((index >> shift) + 1) << shift;
964 965
		/* Overflow can happen when last_index is ~0UL... */
		if (index > last_index || !index)
966 967 968 969 970 971 972 973 974
			break;
		if (tagged >= nr_to_tag)
			break;
		while (((index >> shift) & RADIX_TREE_MAP_MASK) == 0) {
			/*
			 * We've fully scanned this node. Go up. Because
			 * last_index is guaranteed to be in the tree, what
			 * we do below cannot wander astray.
			 */
975
			slot = slot->parent;
976 977 978 979
			shift += RADIX_TREE_MAP_SHIFT;
		}
	}
	/*
980 981
	 * We need not to tag the root tag if there is no tag which is set with
	 * settag within the range from *first_indexp to last_index.
982
	 */
983 984
	if (tagged > 0)
		root_tag_set(root, settag);
985 986 987 988 989 990
	*first_indexp = index;

	return tagged;
}
EXPORT_SYMBOL(radix_tree_range_tag_if_tagged);

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991 992 993 994 995 996 997 998 999 1000 1001 1002
/**
 *	radix_tree_gang_lookup - perform multiple lookup on a radix tree
 *	@root:		radix tree root
 *	@results:	where the results of the lookup are placed
 *	@first_index:	start the lookup from this key
 *	@max_items:	place up to this many items at *results
 *
 *	Performs an index-ascending scan of the tree for present items.  Places
 *	them at *@results and returns the number of items which were placed at
 *	*@results.
 *
 *	The implementation is naive.
1003 1004 1005 1006 1007 1008
 *
 *	Like radix_tree_lookup, radix_tree_gang_lookup may be called under
 *	rcu_read_lock. In this case, rather than the returned results being
 *	an atomic snapshot of the tree at a single point in time, the semantics
 *	of an RCU protected gang lookup are as though multiple radix_tree_lookups
 *	have been issued in individual locks, and results stored in 'results'.
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 */
unsigned int
radix_tree_gang_lookup(struct radix_tree_root *root, void **results,
			unsigned long first_index, unsigned int max_items)
{
1014 1015 1016
	struct radix_tree_iter iter;
	void **slot;
	unsigned int ret = 0;
1017

1018
	if (unlikely(!max_items))
1019
		return 0;
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1020

1021 1022 1023 1024 1025
	radix_tree_for_each_slot(slot, root, &iter, first_index) {
		results[ret] = indirect_to_ptr(rcu_dereference_raw(*slot));
		if (!results[ret])
			continue;
		if (++ret == max_items)
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1026 1027
			break;
	}
1028

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1029 1030 1031 1032
	return ret;
}
EXPORT_SYMBOL(radix_tree_gang_lookup);

1033 1034 1035 1036
/**
 *	radix_tree_gang_lookup_slot - perform multiple slot lookup on radix tree
 *	@root:		radix tree root
 *	@results:	where the results of the lookup are placed
1037
 *	@indices:	where their indices should be placed (but usually NULL)
1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051
 *	@first_index:	start the lookup from this key
 *	@max_items:	place up to this many items at *results
 *
 *	Performs an index-ascending scan of the tree for present items.  Places
 *	their slots at *@results and returns the number of items which were
 *	placed at *@results.
 *
 *	The implementation is naive.
 *
 *	Like radix_tree_gang_lookup as far as RCU and locking goes. Slots must
 *	be dereferenced with radix_tree_deref_slot, and if using only RCU
 *	protection, radix_tree_deref_slot may fail requiring a retry.
 */
unsigned int
1052 1053
radix_tree_gang_lookup_slot(struct radix_tree_root *root,
			void ***results, unsigned long *indices,
1054 1055
			unsigned long first_index, unsigned int max_items)
{
1056 1057 1058
	struct radix_tree_iter iter;
	void **slot;
	unsigned int ret = 0;
1059

1060
	if (unlikely(!max_items))
1061 1062
		return 0;

1063 1064
	radix_tree_for_each_slot(slot, root, &iter, first_index) {
		results[ret] = slot;
1065
		if (indices)
1066 1067
			indices[ret] = iter.index;
		if (++ret == max_items)
1068 1069 1070 1071 1072 1073 1074
			break;
	}

	return ret;
}
EXPORT_SYMBOL(radix_tree_gang_lookup_slot);

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1075 1076 1077 1078 1079 1080 1081
/**
 *	radix_tree_gang_lookup_tag - perform multiple lookup on a radix tree
 *	                             based on a tag
 *	@root:		radix tree root
 *	@results:	where the results of the lookup are placed
 *	@first_index:	start the lookup from this key
 *	@max_items:	place up to this many items at *results
1082
 *	@tag:		the tag index (< RADIX_TREE_MAX_TAGS)
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1083 1084 1085 1086 1087 1088 1089
 *
 *	Performs an index-ascending scan of the tree for present items which
 *	have the tag indexed by @tag set.  Places the items at *@results and
 *	returns the number of items which were placed at *@results.
 */
unsigned int
radix_tree_gang_lookup_tag(struct radix_tree_root *root, void **results,
1090 1091
		unsigned long first_index, unsigned int max_items,
		unsigned int tag)
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Linus Torvalds 已提交
1092
{
1093 1094 1095
	struct radix_tree_iter iter;
	void **slot;
	unsigned int ret = 0;
N
Nick Piggin 已提交
1096

1097
	if (unlikely(!max_items))
1098 1099
		return 0;

1100 1101 1102 1103 1104
	radix_tree_for_each_tagged(slot, root, &iter, first_index, tag) {
		results[ret] = indirect_to_ptr(rcu_dereference_raw(*slot));
		if (!results[ret])
			continue;
		if (++ret == max_items)
L
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1105 1106
			break;
	}
1107

L
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1108 1109 1110 1111
	return ret;
}
EXPORT_SYMBOL(radix_tree_gang_lookup_tag);

1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129
/**
 *	radix_tree_gang_lookup_tag_slot - perform multiple slot lookup on a
 *					  radix tree based on a tag
 *	@root:		radix tree root
 *	@results:	where the results of the lookup are placed
 *	@first_index:	start the lookup from this key
 *	@max_items:	place up to this many items at *results
 *	@tag:		the tag index (< RADIX_TREE_MAX_TAGS)
 *
 *	Performs an index-ascending scan of the tree for present items which
 *	have the tag indexed by @tag set.  Places the slots at *@results and
 *	returns the number of slots which were placed at *@results.
 */
unsigned int
radix_tree_gang_lookup_tag_slot(struct radix_tree_root *root, void ***results,
		unsigned long first_index, unsigned int max_items,
		unsigned int tag)
{
1130 1131 1132
	struct radix_tree_iter iter;
	void **slot;
	unsigned int ret = 0;
1133

1134
	if (unlikely(!max_items))
1135 1136
		return 0;

1137 1138 1139
	radix_tree_for_each_tagged(slot, root, &iter, first_index, tag) {
		results[ret] = slot;
		if (++ret == max_items)
1140 1141 1142 1143 1144 1145 1146
			break;
	}

	return ret;
}
EXPORT_SYMBOL(radix_tree_gang_lookup_tag_slot);

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#if defined(CONFIG_SHMEM) && defined(CONFIG_SWAP)
#include <linux/sched.h> /* for cond_resched() */

/*
 * This linear search is at present only useful to shmem_unuse_inode().
 */
static unsigned long __locate(struct radix_tree_node *slot, void *item,
			      unsigned long index, unsigned long *found_index)
{
	unsigned int shift, height;
	unsigned long i;

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	height = slot->path & RADIX_TREE_HEIGHT_MASK;
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	shift = (height-1) * RADIX_TREE_MAP_SHIFT;

	for ( ; height > 1; height--) {
		i = (index >> shift) & RADIX_TREE_MAP_MASK;
		for (;;) {
			if (slot->slots[i] != NULL)
				break;
			index &= ~((1UL << shift) - 1);
			index += 1UL << shift;
			if (index == 0)
				goto out;	/* 32-bit wraparound */
			i++;
			if (i == RADIX_TREE_MAP_SIZE)
				goto out;
		}

		shift -= RADIX_TREE_MAP_SHIFT;
		slot = rcu_dereference_raw(slot->slots[i]);
		if (slot == NULL)
			goto out;
	}

	/* Bottom level: check items */
	for (i = 0; i < RADIX_TREE_MAP_SIZE; i++) {
		if (slot->slots[i] == item) {
			*found_index = index + i;
			index = 0;
			goto out;
		}
	}
	index += RADIX_TREE_MAP_SIZE;
out:
	return index;
}

/**
 *	radix_tree_locate_item - search through radix tree for item
 *	@root:		radix tree root
 *	@item:		item to be found
 *
 *	Returns index where item was found, or -1 if not found.
 *	Caller must hold no lock (since this time-consuming function needs
 *	to be preemptible), and must check afterwards if item is still there.
 */
unsigned long radix_tree_locate_item(struct radix_tree_root *root, void *item)
{
	struct radix_tree_node *node;
	unsigned long max_index;
	unsigned long cur_index = 0;
	unsigned long found_index = -1;

	do {
		rcu_read_lock();
		node = rcu_dereference_raw(root->rnode);
		if (!radix_tree_is_indirect_ptr(node)) {
			rcu_read_unlock();
			if (node == item)
				found_index = 0;
			break;
		}

		node = indirect_to_ptr(node);
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		max_index = radix_tree_maxindex(node->path &
						RADIX_TREE_HEIGHT_MASK);
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		if (cur_index > max_index) {
			rcu_read_unlock();
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			break;
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		}
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		cur_index = __locate(node, item, cur_index, &found_index);
		rcu_read_unlock();
		cond_resched();
	} while (cur_index != 0 && cur_index <= max_index);

	return found_index;
}
#else
unsigned long radix_tree_locate_item(struct radix_tree_root *root, void *item)
{
	return -1;
}
#endif /* CONFIG_SHMEM && CONFIG_SWAP */
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/**
 *	radix_tree_shrink    -    shrink height of a radix tree to minimal
 *	@root		radix tree root
 */
static inline void radix_tree_shrink(struct radix_tree_root *root)
{
	/* try to shrink tree height */
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	while (root->height > 0) {
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		struct radix_tree_node *to_free = root->rnode;
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		struct radix_tree_node *slot;
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		BUG_ON(!radix_tree_is_indirect_ptr(to_free));
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		to_free = indirect_to_ptr(to_free);
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		/*
		 * The candidate node has more than one child, or its child
		 * is not at the leftmost slot, we cannot shrink.
		 */
		if (to_free->count != 1)
			break;
		if (!to_free->slots[0])
			break;

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		/*
		 * We don't need rcu_assign_pointer(), since we are simply
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		 * moving the node from one part of the tree to another: if it
		 * was safe to dereference the old pointer to it
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		 * (to_free->slots[0]), it will be safe to dereference the new
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		 * one (root->rnode) as far as dependent read barriers go.
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		 */
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		slot = to_free->slots[0];
		if (root->height > 1) {
			slot->parent = NULL;
			slot = ptr_to_indirect(slot);
		}
		root->rnode = slot;
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		root->height--;
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		/*
		 * We have a dilemma here. The node's slot[0] must not be
		 * NULLed in case there are concurrent lookups expecting to
		 * find the item. However if this was a bottom-level node,
		 * then it may be subject to the slot pointer being visible
		 * to callers dereferencing it. If item corresponding to
		 * slot[0] is subsequently deleted, these callers would expect
		 * their slot to become empty sooner or later.
		 *
		 * For example, lockless pagecache will look up a slot, deref
		 * the page pointer, and if the page is 0 refcount it means it
		 * was concurrently deleted from pagecache so try the deref
		 * again. Fortunately there is already a requirement for logic
		 * to retry the entire slot lookup -- the indirect pointer
		 * problem (replacing direct root node with an indirect pointer
		 * also results in a stale slot). So tag the slot as indirect
		 * to force callers to retry.
		 */
		if (root->height == 0)
			*((unsigned long *)&to_free->slots[0]) |=
						RADIX_TREE_INDIRECT_PTR;

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		radix_tree_node_free(to_free);
	}
}

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/**
 *	__radix_tree_delete_node    -    try to free node after clearing a slot
 *	@root:		radix tree root
 *	@node:		node containing @index
 *
 *	After clearing the slot at @index in @node from radix tree
 *	rooted at @root, call this function to attempt freeing the
 *	node and shrinking the tree.
 *
 *	Returns %true if @node was freed, %false otherwise.
 */
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bool __radix_tree_delete_node(struct radix_tree_root *root,
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			      struct radix_tree_node *node)
{
	bool deleted = false;

	do {
		struct radix_tree_node *parent;

		if (node->count) {
			if (node == indirect_to_ptr(root->rnode)) {
				radix_tree_shrink(root);
				if (root->height == 0)
					deleted = true;
			}
			return deleted;
		}

		parent = node->parent;
		if (parent) {
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			unsigned int offset;
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			offset = node->path >> RADIX_TREE_HEIGHT_SHIFT;
			parent->slots[offset] = NULL;
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			parent->count--;
		} else {
			root_tag_clear_all(root);
			root->height = 0;
			root->rnode = NULL;
		}

		radix_tree_node_free(node);
		deleted = true;

		node = parent;
	} while (node);

	return deleted;
}

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/**
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 *	radix_tree_delete_item    -    delete an item from a radix tree
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 *	@root:		radix tree root
 *	@index:		index key
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 *	@item:		expected item
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 *
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 *	Remove @item at @index from the radix tree rooted at @root.
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 *
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 *	Returns the address of the deleted item, or NULL if it was not present
 *	or the entry at the given @index was not @item.
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 */
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void *radix_tree_delete_item(struct radix_tree_root *root,
			     unsigned long index, void *item)
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{
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	struct radix_tree_node *node;
	unsigned int offset;
	void **slot;
	void *entry;
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	int tag;
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	entry = __radix_tree_lookup(root, index, &node, &slot);
	if (!entry)
		return NULL;
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	if (item && entry != item)
		return NULL;

	if (!node) {
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		root_tag_clear_all(root);
		root->rnode = NULL;
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		return entry;
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	}
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	offset = index & RADIX_TREE_MAP_MASK;
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	/*
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	 * Clear all tags associated with the item to be deleted.
	 * This way of doing it would be inefficient, but seldom is any set.
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	 */
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	for (tag = 0; tag < RADIX_TREE_MAX_TAGS; tag++) {
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		if (tag_get(node, tag, offset))
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			radix_tree_tag_clear(root, index, tag);
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	}
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	node->slots[offset] = NULL;
	node->count--;
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	__radix_tree_delete_node(root, node);
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	return entry;
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}
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EXPORT_SYMBOL(radix_tree_delete_item);

/**
 *	radix_tree_delete    -    delete an item from a radix tree
 *	@root:		radix tree root
 *	@index:		index key
 *
 *	Remove the item at @index from the radix tree rooted at @root.
 *
 *	Returns the address of the deleted item, or NULL if it was not present.
 */
void *radix_tree_delete(struct radix_tree_root *root, unsigned long index)
{
	return radix_tree_delete_item(root, index, NULL);
}
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EXPORT_SYMBOL(radix_tree_delete);

/**
 *	radix_tree_tagged - test whether any items in the tree are tagged
 *	@root:		radix tree root
 *	@tag:		tag to test
 */
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int radix_tree_tagged(struct radix_tree_root *root, unsigned int tag)
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{
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	return root_tag_get(root, tag);
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}
EXPORT_SYMBOL(radix_tree_tagged);

static void
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radix_tree_node_ctor(void *arg)
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{
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	struct radix_tree_node *node = arg;

	memset(node, 0, sizeof(*node));
	INIT_LIST_HEAD(&node->private_list);
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}

static __init unsigned long __maxindex(unsigned int height)
{
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	unsigned int width = height * RADIX_TREE_MAP_SHIFT;
	int shift = RADIX_TREE_INDEX_BITS - width;

	if (shift < 0)
		return ~0UL;
	if (shift >= BITS_PER_LONG)
		return 0UL;
	return ~0UL >> shift;
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}

static __init void radix_tree_init_maxindex(void)
{
	unsigned int i;

	for (i = 0; i < ARRAY_SIZE(height_to_maxindex); i++)
		height_to_maxindex[i] = __maxindex(i);
}

static int radix_tree_callback(struct notifier_block *nfb,
                            unsigned long action,
                            void *hcpu)
{
       int cpu = (long)hcpu;
       struct radix_tree_preload *rtp;
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       struct radix_tree_node *node;
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       /* Free per-cpu pool of perloaded nodes */
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       if (action == CPU_DEAD || action == CPU_DEAD_FROZEN) {
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               rtp = &per_cpu(radix_tree_preloads, cpu);
               while (rtp->nr) {
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			node = rtp->nodes;
			rtp->nodes = node->private_data;
			kmem_cache_free(radix_tree_node_cachep, node);
			rtp->nr--;
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               }
       }
       return NOTIFY_OK;
}

void __init radix_tree_init(void)
{
	radix_tree_node_cachep = kmem_cache_create("radix_tree_node",
			sizeof(struct radix_tree_node), 0,
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			SLAB_PANIC | SLAB_RECLAIM_ACCOUNT,
			radix_tree_node_ctor);
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	radix_tree_init_maxindex();
	hotcpu_notifier(radix_tree_callback, 0);
}