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/*
* lib / btree . c - Simple In - memory B + Tree
*
* As should be obvious for Linux kernel code , license is GPLv2
*
* Copyright ( c ) 2007 - 2008 Joern Engel < joern @ logfs . org >
* Bits and pieces stolen from Peter Zijlstra ' s code , which is
* Copyright 2007 , Red Hat Inc . Peter Zijlstra < pzijlstr @ redhat . com >
* GPLv2
*
* see http : //programming.kicks-ass.net/kernel-patches/vma_lookup/btree.patch
*
* A relatively simple B + Tree implementation . I have written it as a learning
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* exercise to understand how B + Trees work . Turned out to be useful as well .
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*
* B + Trees can be used similar to Linux radix trees ( which don ' t have anything
* in common with textbook radix trees , beware ) . Prerequisite for them working
* well is that access to a random tree node is much faster than a large number
* of operations within each node .
*
* Disks have fulfilled the prerequisite for a long time . More recently DRAM
* has gained similar properties , as memory access times , when measured in cpu
* cycles , have increased . Cacheline sizes have increased as well , which also
* helps B + Trees .
*
* Compared to radix trees , B + Trees are more efficient when dealing with a
* sparsely populated address space . Between 25 % and 50 % of the memory is
* occupied with valid pointers . When densely populated , radix trees contain
* ~ 98 % pointers - hard to beat . Very sparse radix trees contain only ~ 2 %
* pointers .
*
* This particular implementation stores pointers identified by a long value .
* Storing NULL pointers is illegal , lookup will return NULL when no entry
* was found .
*
* A tricks was used that is not commonly found in textbooks . The lowest
* values are to the right , not to the left . All used slots within a node
* are on the left , all unused slots contain NUL values . Most operations
* simply loop once over all slots and terminate on the first NUL .
*/
# include <linux/btree.h>
# include <linux/cache.h>
# include <linux/kernel.h>
# include <linux/slab.h>
# include <linux/module.h>
# define MAX(a, b) ((a) > (b) ? (a) : (b))
# define NODESIZE MAX(L1_CACHE_BYTES, 128)
struct btree_geo {
int keylen ;
int no_pairs ;
int no_longs ;
} ;
struct btree_geo btree_geo32 = {
. keylen = 1 ,
. no_pairs = NODESIZE / sizeof ( long ) / 2 ,
. no_longs = NODESIZE / sizeof ( long ) / 2 ,
} ;
EXPORT_SYMBOL_GPL ( btree_geo32 ) ;
# define LONG_PER_U64 (64 / BITS_PER_LONG)
struct btree_geo btree_geo64 = {
. keylen = LONG_PER_U64 ,
. no_pairs = NODESIZE / sizeof ( long ) / ( 1 + LONG_PER_U64 ) ,
. no_longs = LONG_PER_U64 * ( NODESIZE / sizeof ( long ) / ( 1 + LONG_PER_U64 ) ) ,
} ;
EXPORT_SYMBOL_GPL ( btree_geo64 ) ;
struct btree_geo btree_geo128 = {
. keylen = 2 * LONG_PER_U64 ,
. no_pairs = NODESIZE / sizeof ( long ) / ( 1 + 2 * LONG_PER_U64 ) ,
. no_longs = 2 * LONG_PER_U64 * ( NODESIZE / sizeof ( long ) / ( 1 + 2 * LONG_PER_U64 ) ) ,
} ;
EXPORT_SYMBOL_GPL ( btree_geo128 ) ;
static struct kmem_cache * btree_cachep ;
void * btree_alloc ( gfp_t gfp_mask , void * pool_data )
{
return kmem_cache_alloc ( btree_cachep , gfp_mask ) ;
}
EXPORT_SYMBOL_GPL ( btree_alloc ) ;
void btree_free ( void * element , void * pool_data )
{
kmem_cache_free ( btree_cachep , element ) ;
}
EXPORT_SYMBOL_GPL ( btree_free ) ;
static unsigned long * btree_node_alloc ( struct btree_head * head , gfp_t gfp )
{
unsigned long * node ;
node = mempool_alloc ( head - > mempool , gfp ) ;
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if ( likely ( node ) )
memset ( node , 0 , NODESIZE ) ;
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return node ;
}
static int longcmp ( const unsigned long * l1 , const unsigned long * l2 , size_t n )
{
size_t i ;
for ( i = 0 ; i < n ; i + + ) {
if ( l1 [ i ] < l2 [ i ] )
return - 1 ;
if ( l1 [ i ] > l2 [ i ] )
return 1 ;
}
return 0 ;
}
static unsigned long * longcpy ( unsigned long * dest , const unsigned long * src ,
size_t n )
{
size_t i ;
for ( i = 0 ; i < n ; i + + )
dest [ i ] = src [ i ] ;
return dest ;
}
static unsigned long * longset ( unsigned long * s , unsigned long c , size_t n )
{
size_t i ;
for ( i = 0 ; i < n ; i + + )
s [ i ] = c ;
return s ;
}
static void dec_key ( struct btree_geo * geo , unsigned long * key )
{
unsigned long val ;
int i ;
for ( i = geo - > keylen - 1 ; i > = 0 ; i - - ) {
val = key [ i ] ;
key [ i ] = val - 1 ;
if ( val )
break ;
}
}
static unsigned long * bkey ( struct btree_geo * geo , unsigned long * node , int n )
{
return & node [ n * geo - > keylen ] ;
}
static void * bval ( struct btree_geo * geo , unsigned long * node , int n )
{
return ( void * ) node [ geo - > no_longs + n ] ;
}
static void setkey ( struct btree_geo * geo , unsigned long * node , int n ,
unsigned long * key )
{
longcpy ( bkey ( geo , node , n ) , key , geo - > keylen ) ;
}
static void setval ( struct btree_geo * geo , unsigned long * node , int n ,
void * val )
{
node [ geo - > no_longs + n ] = ( unsigned long ) val ;
}
static void clearpair ( struct btree_geo * geo , unsigned long * node , int n )
{
longset ( bkey ( geo , node , n ) , 0 , geo - > keylen ) ;
node [ geo - > no_longs + n ] = 0 ;
}
static inline void __btree_init ( struct btree_head * head )
{
head - > node = NULL ;
head - > height = 0 ;
}
void btree_init_mempool ( struct btree_head * head , mempool_t * mempool )
{
__btree_init ( head ) ;
head - > mempool = mempool ;
}
EXPORT_SYMBOL_GPL ( btree_init_mempool ) ;
int btree_init ( struct btree_head * head )
{
__btree_init ( head ) ;
head - > mempool = mempool_create ( 0 , btree_alloc , btree_free , NULL ) ;
if ( ! head - > mempool )
return - ENOMEM ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( btree_init ) ;
void btree_destroy ( struct btree_head * head )
{
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mempool_free ( head - > node , head - > mempool ) ;
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mempool_destroy ( head - > mempool ) ;
head - > mempool = NULL ;
}
EXPORT_SYMBOL_GPL ( btree_destroy ) ;
void * btree_last ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key )
{
int height = head - > height ;
unsigned long * node = head - > node ;
if ( height = = 0 )
return NULL ;
for ( ; height > 1 ; height - - )
node = bval ( geo , node , 0 ) ;
longcpy ( key , bkey ( geo , node , 0 ) , geo - > keylen ) ;
return bval ( geo , node , 0 ) ;
}
EXPORT_SYMBOL_GPL ( btree_last ) ;
static int keycmp ( struct btree_geo * geo , unsigned long * node , int pos ,
unsigned long * key )
{
return longcmp ( bkey ( geo , node , pos ) , key , geo - > keylen ) ;
}
static int keyzero ( struct btree_geo * geo , unsigned long * key )
{
int i ;
for ( i = 0 ; i < geo - > keylen ; i + + )
if ( key [ i ] )
return 0 ;
return 1 ;
}
void * btree_lookup ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key )
{
int i , height = head - > height ;
unsigned long * node = head - > node ;
if ( height = = 0 )
return NULL ;
for ( ; height > 1 ; height - - ) {
for ( i = 0 ; i < geo - > no_pairs ; i + + )
if ( keycmp ( geo , node , i , key ) < = 0 )
break ;
if ( i = = geo - > no_pairs )
return NULL ;
node = bval ( geo , node , i ) ;
if ( ! node )
return NULL ;
}
if ( ! node )
return NULL ;
for ( i = 0 ; i < geo - > no_pairs ; i + + )
if ( keycmp ( geo , node , i , key ) = = 0 )
return bval ( geo , node , i ) ;
return NULL ;
}
EXPORT_SYMBOL_GPL ( btree_lookup ) ;
int btree_update ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , void * val )
{
int i , height = head - > height ;
unsigned long * node = head - > node ;
if ( height = = 0 )
return - ENOENT ;
for ( ; height > 1 ; height - - ) {
for ( i = 0 ; i < geo - > no_pairs ; i + + )
if ( keycmp ( geo , node , i , key ) < = 0 )
break ;
if ( i = = geo - > no_pairs )
return - ENOENT ;
node = bval ( geo , node , i ) ;
if ( ! node )
return - ENOENT ;
}
if ( ! node )
return - ENOENT ;
for ( i = 0 ; i < geo - > no_pairs ; i + + )
if ( keycmp ( geo , node , i , key ) = = 0 ) {
setval ( geo , node , i , val ) ;
return 0 ;
}
return - ENOENT ;
}
EXPORT_SYMBOL_GPL ( btree_update ) ;
/*
* Usually this function is quite similar to normal lookup . But the key of
* a parent node may be smaller than the smallest key of all its siblings .
* In such a case we cannot just return NULL , as we have only proven that no
* key smaller than __key , but larger than this parent key exists .
* So we set __key to the parent key and retry . We have to use the smallest
* such parent key , which is the last parent key we encountered .
*/
void * btree_get_prev ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * __key )
{
int i , height ;
unsigned long * node , * oldnode ;
unsigned long * retry_key = NULL , key [ geo - > keylen ] ;
if ( keyzero ( geo , __key ) )
return NULL ;
if ( head - > height = = 0 )
return NULL ;
longcpy ( key , __key , geo - > keylen ) ;
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retry :
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dec_key ( geo , key ) ;
node = head - > node ;
for ( height = head - > height ; height > 1 ; height - - ) {
for ( i = 0 ; i < geo - > no_pairs ; i + + )
if ( keycmp ( geo , node , i , key ) < = 0 )
break ;
if ( i = = geo - > no_pairs )
goto miss ;
oldnode = node ;
node = bval ( geo , node , i ) ;
if ( ! node )
goto miss ;
retry_key = bkey ( geo , oldnode , i ) ;
}
if ( ! node )
goto miss ;
for ( i = 0 ; i < geo - > no_pairs ; i + + ) {
if ( keycmp ( geo , node , i , key ) < = 0 ) {
if ( bval ( geo , node , i ) ) {
longcpy ( __key , bkey ( geo , node , i ) , geo - > keylen ) ;
return bval ( geo , node , i ) ;
} else
goto miss ;
}
}
miss :
if ( retry_key ) {
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longcpy ( key , retry_key , geo - > keylen ) ;
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retry_key = NULL ;
goto retry ;
}
return NULL ;
}
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EXPORT_SYMBOL_GPL ( btree_get_prev ) ;
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static int getpos ( struct btree_geo * geo , unsigned long * node ,
unsigned long * key )
{
int i ;
for ( i = 0 ; i < geo - > no_pairs ; i + + ) {
if ( keycmp ( geo , node , i , key ) < = 0 )
break ;
}
return i ;
}
static int getfill ( struct btree_geo * geo , unsigned long * node , int start )
{
int i ;
for ( i = start ; i < geo - > no_pairs ; i + + )
if ( ! bval ( geo , node , i ) )
break ;
return i ;
}
/*
* locate the correct leaf node in the btree
*/
static unsigned long * find_level ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , int level )
{
unsigned long * node = head - > node ;
int i , height ;
for ( height = head - > height ; height > level ; height - - ) {
for ( i = 0 ; i < geo - > no_pairs ; i + + )
if ( keycmp ( geo , node , i , key ) < = 0 )
break ;
if ( ( i = = geo - > no_pairs ) | | ! bval ( geo , node , i ) ) {
/* right-most key is too large, update it */
/* FIXME: If the right-most key on higher levels is
* always zero , this wouldn ' t be necessary . */
i - - ;
setkey ( geo , node , i , key ) ;
}
BUG_ON ( i < 0 ) ;
node = bval ( geo , node , i ) ;
}
BUG_ON ( ! node ) ;
return node ;
}
static int btree_grow ( struct btree_head * head , struct btree_geo * geo ,
gfp_t gfp )
{
unsigned long * node ;
int fill ;
node = btree_node_alloc ( head , gfp ) ;
if ( ! node )
return - ENOMEM ;
if ( head - > node ) {
fill = getfill ( geo , head - > node , 0 ) ;
setkey ( geo , node , 0 , bkey ( geo , head - > node , fill - 1 ) ) ;
setval ( geo , node , 0 , head - > node ) ;
}
head - > node = node ;
head - > height + + ;
return 0 ;
}
static void btree_shrink ( struct btree_head * head , struct btree_geo * geo )
{
unsigned long * node ;
int fill ;
if ( head - > height < = 1 )
return ;
node = head - > node ;
fill = getfill ( geo , node , 0 ) ;
BUG_ON ( fill > 1 ) ;
head - > node = bval ( geo , node , 0 ) ;
head - > height - - ;
mempool_free ( node , head - > mempool ) ;
}
static int btree_insert_level ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , void * val , int level ,
gfp_t gfp )
{
unsigned long * node ;
int i , pos , fill , err ;
BUG_ON ( ! val ) ;
if ( head - > height < level ) {
err = btree_grow ( head , geo , gfp ) ;
if ( err )
return err ;
}
retry :
node = find_level ( head , geo , key , level ) ;
pos = getpos ( geo , node , key ) ;
fill = getfill ( geo , node , pos ) ;
/* two identical keys are not allowed */
BUG_ON ( pos < fill & & keycmp ( geo , node , pos , key ) = = 0 ) ;
if ( fill = = geo - > no_pairs ) {
/* need to split node */
unsigned long * new ;
new = btree_node_alloc ( head , gfp ) ;
if ( ! new )
return - ENOMEM ;
err = btree_insert_level ( head , geo ,
bkey ( geo , node , fill / 2 - 1 ) ,
new , level + 1 , gfp ) ;
if ( err ) {
mempool_free ( new , head - > mempool ) ;
return err ;
}
for ( i = 0 ; i < fill / 2 ; i + + ) {
setkey ( geo , new , i , bkey ( geo , node , i ) ) ;
setval ( geo , new , i , bval ( geo , node , i ) ) ;
setkey ( geo , node , i , bkey ( geo , node , i + fill / 2 ) ) ;
setval ( geo , node , i , bval ( geo , node , i + fill / 2 ) ) ;
clearpair ( geo , node , i + fill / 2 ) ;
}
if ( fill & 1 ) {
setkey ( geo , node , i , bkey ( geo , node , fill - 1 ) ) ;
setval ( geo , node , i , bval ( geo , node , fill - 1 ) ) ;
clearpair ( geo , node , fill - 1 ) ;
}
goto retry ;
}
BUG_ON ( fill > = geo - > no_pairs ) ;
/* shift and insert */
for ( i = fill ; i > pos ; i - - ) {
setkey ( geo , node , i , bkey ( geo , node , i - 1 ) ) ;
setval ( geo , node , i , bval ( geo , node , i - 1 ) ) ;
}
setkey ( geo , node , pos , key ) ;
setval ( geo , node , pos , val ) ;
return 0 ;
}
int btree_insert ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , void * val , gfp_t gfp )
{
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BUG_ON ( ! val ) ;
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return btree_insert_level ( head , geo , key , val , 1 , gfp ) ;
}
EXPORT_SYMBOL_GPL ( btree_insert ) ;
static void * btree_remove_level ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , int level ) ;
static void merge ( struct btree_head * head , struct btree_geo * geo , int level ,
unsigned long * left , int lfill ,
unsigned long * right , int rfill ,
unsigned long * parent , int lpos )
{
int i ;
for ( i = 0 ; i < rfill ; i + + ) {
/* Move all keys to the left */
setkey ( geo , left , lfill + i , bkey ( geo , right , i ) ) ;
setval ( geo , left , lfill + i , bval ( geo , right , i ) ) ;
}
/* Exchange left and right child in parent */
setval ( geo , parent , lpos , right ) ;
setval ( geo , parent , lpos + 1 , left ) ;
/* Remove left (formerly right) child from parent */
btree_remove_level ( head , geo , bkey ( geo , parent , lpos ) , level + 1 ) ;
mempool_free ( right , head - > mempool ) ;
}
static void rebalance ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , int level , unsigned long * child , int fill )
{
unsigned long * parent , * left = NULL , * right = NULL ;
int i , no_left , no_right ;
if ( fill = = 0 ) {
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/* Because we don't steal entries from a neighbour, this case
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* can happen . Parent node contains a single child , this
* node , so merging with a sibling never happens .
*/
btree_remove_level ( head , geo , key , level + 1 ) ;
mempool_free ( child , head - > mempool ) ;
return ;
}
parent = find_level ( head , geo , key , level + 1 ) ;
i = getpos ( geo , parent , key ) ;
BUG_ON ( bval ( geo , parent , i ) ! = child ) ;
if ( i > 0 ) {
left = bval ( geo , parent , i - 1 ) ;
no_left = getfill ( geo , left , 0 ) ;
if ( fill + no_left < = geo - > no_pairs ) {
merge ( head , geo , level ,
left , no_left ,
child , fill ,
parent , i - 1 ) ;
return ;
}
}
if ( i + 1 < getfill ( geo , parent , i ) ) {
right = bval ( geo , parent , i + 1 ) ;
no_right = getfill ( geo , right , 0 ) ;
if ( fill + no_right < = geo - > no_pairs ) {
merge ( head , geo , level ,
child , fill ,
right , no_right ,
parent , i ) ;
return ;
}
}
/*
* We could also try to steal one entry from the left or right
* neighbor . By not doing so we changed the invariant from
* " all nodes are at least half full " to " no two neighboring
* nodes can be merged " . Which means that the average fill of
* all nodes is still half or better .
*/
}
static void * btree_remove_level ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key , int level )
{
unsigned long * node ;
int i , pos , fill ;
void * ret ;
if ( level > head - > height ) {
/* we recursed all the way up */
head - > height = 0 ;
head - > node = NULL ;
return NULL ;
}
node = find_level ( head , geo , key , level ) ;
pos = getpos ( geo , node , key ) ;
fill = getfill ( geo , node , pos ) ;
if ( ( level = = 1 ) & & ( keycmp ( geo , node , pos , key ) ! = 0 ) )
return NULL ;
ret = bval ( geo , node , pos ) ;
/* remove and shift */
for ( i = pos ; i < fill - 1 ; i + + ) {
setkey ( geo , node , i , bkey ( geo , node , i + 1 ) ) ;
setval ( geo , node , i , bval ( geo , node , i + 1 ) ) ;
}
clearpair ( geo , node , fill - 1 ) ;
if ( fill - 1 < geo - > no_pairs / 2 ) {
if ( level < head - > height )
rebalance ( head , geo , key , level , node , fill - 1 ) ;
else if ( fill - 1 = = 1 )
btree_shrink ( head , geo ) ;
}
return ret ;
}
void * btree_remove ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * key )
{
if ( head - > height = = 0 )
return NULL ;
return btree_remove_level ( head , geo , key , 1 ) ;
}
EXPORT_SYMBOL_GPL ( btree_remove ) ;
int btree_merge ( struct btree_head * target , struct btree_head * victim ,
struct btree_geo * geo , gfp_t gfp )
{
unsigned long key [ geo - > keylen ] ;
unsigned long dup [ geo - > keylen ] ;
void * val ;
int err ;
BUG_ON ( target = = victim ) ;
if ( ! ( target - > node ) ) {
/* target is empty, just copy fields over */
target - > node = victim - > node ;
target - > height = victim - > height ;
__btree_init ( victim ) ;
return 0 ;
}
/* TODO: This needs some optimizations. Currently we do three tree
* walks to remove a single object from the victim .
*/
for ( ; ; ) {
if ( ! btree_last ( victim , geo , key ) )
break ;
val = btree_lookup ( victim , geo , key ) ;
err = btree_insert ( target , geo , key , val , gfp ) ;
if ( err )
return err ;
/* We must make a copy of the key, as the original will get
* mangled inside btree_remove . */
longcpy ( dup , key , geo - > keylen ) ;
btree_remove ( victim , geo , dup ) ;
}
return 0 ;
}
EXPORT_SYMBOL_GPL ( btree_merge ) ;
static size_t __btree_for_each ( struct btree_head * head , struct btree_geo * geo ,
unsigned long * node , unsigned long opaque ,
void ( * func ) ( void * elem , unsigned long opaque ,
unsigned long * key , size_t index ,
void * func2 ) ,
void * func2 , int reap , int height , size_t count )
{
int i ;
unsigned long * child ;
for ( i = 0 ; i < geo - > no_pairs ; i + + ) {
child = bval ( geo , node , i ) ;
if ( ! child )
break ;
if ( height > 1 )
count = __btree_for_each ( head , geo , child , opaque ,
func , func2 , reap , height - 1 , count ) ;
else
func ( child , opaque , bkey ( geo , node , i ) , count + + ,
func2 ) ;
}
if ( reap )
mempool_free ( node , head - > mempool ) ;
return count ;
}
static void empty ( void * elem , unsigned long opaque , unsigned long * key ,
size_t index , void * func2 )
{
}
void visitorl ( void * elem , unsigned long opaque , unsigned long * key ,
size_t index , void * __func )
{
visitorl_t func = __func ;
func ( elem , opaque , * key , index ) ;
}
EXPORT_SYMBOL_GPL ( visitorl ) ;
void visitor32 ( void * elem , unsigned long opaque , unsigned long * __key ,
size_t index , void * __func )
{
visitor32_t func = __func ;
u32 * key = ( void * ) __key ;
func ( elem , opaque , * key , index ) ;
}
EXPORT_SYMBOL_GPL ( visitor32 ) ;
void visitor64 ( void * elem , unsigned long opaque , unsigned long * __key ,
size_t index , void * __func )
{
visitor64_t func = __func ;
u64 * key = ( void * ) __key ;
func ( elem , opaque , * key , index ) ;
}
EXPORT_SYMBOL_GPL ( visitor64 ) ;
void visitor128 ( void * elem , unsigned long opaque , unsigned long * __key ,
size_t index , void * __func )
{
visitor128_t func = __func ;
u64 * key = ( void * ) __key ;
func ( elem , opaque , key [ 0 ] , key [ 1 ] , index ) ;
}
EXPORT_SYMBOL_GPL ( visitor128 ) ;
size_t btree_visitor ( struct btree_head * head , struct btree_geo * geo ,
unsigned long opaque ,
void ( * func ) ( void * elem , unsigned long opaque ,
unsigned long * key ,
size_t index , void * func2 ) ,
void * func2 )
{
size_t count = 0 ;
if ( ! func2 )
func = empty ;
if ( head - > node )
count = __btree_for_each ( head , geo , head - > node , opaque , func ,
func2 , 0 , head - > height , 0 ) ;
return count ;
}
EXPORT_SYMBOL_GPL ( btree_visitor ) ;
size_t btree_grim_visitor ( struct btree_head * head , struct btree_geo * geo ,
unsigned long opaque ,
void ( * func ) ( void * elem , unsigned long opaque ,
unsigned long * key ,
size_t index , void * func2 ) ,
void * func2 )
{
size_t count = 0 ;
if ( ! func2 )
func = empty ;
if ( head - > node )
count = __btree_for_each ( head , geo , head - > node , opaque , func ,
func2 , 1 , head - > height , 0 ) ;
__btree_init ( head ) ;
return count ;
}
EXPORT_SYMBOL_GPL ( btree_grim_visitor ) ;
static int __init btree_module_init ( void )
{
btree_cachep = kmem_cache_create ( " btree_node " , NODESIZE , 0 ,
SLAB_HWCACHE_ALIGN , NULL ) ;
return 0 ;
}
static void __exit btree_module_exit ( void )
{
kmem_cache_destroy ( btree_cachep ) ;
}
/* If core code starts using btree, initialization should happen even earlier */
module_init ( btree_module_init ) ;
module_exit ( btree_module_exit ) ;
MODULE_AUTHOR ( " Joern Engel <joern@logfs.org> " ) ;
MODULE_AUTHOR ( " Johannes Berg <johannes@sipsolutions.net> " ) ;
MODULE_LICENSE ( " GPL " ) ;