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/*
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* Copyright ( c ) 2000 - 2005 Silicon Graphics , Inc .
* All Rights Reserved .
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*
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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
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* published by the Free Software Foundation .
*
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* This program is distributed in the hope that it would 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 .
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*
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* You should have received a copy of the GNU General Public License
* along with this program ; if not , write the Free Software Foundation ,
* Inc . , 51 Franklin St , Fifth Floor , Boston , MA 02110 - 1301 USA
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*/
# include "xfs.h"
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# include "xfs_fs.h"
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# include "xfs_types.h"
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# include "xfs_bit.h"
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# include "xfs_log.h"
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# include "xfs_inum.h"
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# include "xfs_trans.h"
# include "xfs_sb.h"
# include "xfs_ag.h"
# include "xfs_dir2.h"
# include "xfs_dmapi.h"
# include "xfs_mount.h"
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# include "xfs_da_btree.h"
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# include "xfs_bmap_btree.h"
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# include "xfs_alloc_btree.h"
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# include "xfs_ialloc_btree.h"
# include "xfs_dir2_sf.h"
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# include "xfs_attr_sf.h"
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# include "xfs_dinode.h"
# include "xfs_inode.h"
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# include "xfs_inode_item.h"
# include "xfs_alloc.h"
# include "xfs_btree.h"
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# include "xfs_bmap.h"
# include "xfs_attr.h"
# include "xfs_attr_leaf.h"
# include "xfs_dir2_data.h"
# include "xfs_dir2_leaf.h"
# include "xfs_dir2_block.h"
# include "xfs_dir2_node.h"
# include "xfs_error.h"
/*
* xfs_da_btree . c
*
* Routines to implement directories as Btrees of hashed names .
*/
/*========================================================================
* Function prototypes for the kernel .
* = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
/*
* Routines used for growing the Btree .
*/
STATIC int xfs_da_root_split ( xfs_da_state_t * state ,
xfs_da_state_blk_t * existing_root ,
xfs_da_state_blk_t * new_child ) ;
STATIC int xfs_da_node_split ( xfs_da_state_t * state ,
xfs_da_state_blk_t * existing_blk ,
xfs_da_state_blk_t * split_blk ,
xfs_da_state_blk_t * blk_to_add ,
int treelevel ,
int * result ) ;
STATIC void xfs_da_node_rebalance ( xfs_da_state_t * state ,
xfs_da_state_blk_t * node_blk_1 ,
xfs_da_state_blk_t * node_blk_2 ) ;
STATIC void xfs_da_node_add ( xfs_da_state_t * state ,
xfs_da_state_blk_t * old_node_blk ,
xfs_da_state_blk_t * new_node_blk ) ;
/*
* Routines used for shrinking the Btree .
*/
STATIC int xfs_da_root_join ( xfs_da_state_t * state ,
xfs_da_state_blk_t * root_blk ) ;
STATIC int xfs_da_node_toosmall ( xfs_da_state_t * state , int * retval ) ;
STATIC void xfs_da_node_remove ( xfs_da_state_t * state ,
xfs_da_state_blk_t * drop_blk ) ;
STATIC void xfs_da_node_unbalance ( xfs_da_state_t * state ,
xfs_da_state_blk_t * src_node_blk ,
xfs_da_state_blk_t * dst_node_blk ) ;
/*
* Utility routines .
*/
STATIC uint xfs_da_node_lasthash ( xfs_dabuf_t * bp , int * count ) ;
STATIC int xfs_da_node_order ( xfs_dabuf_t * node1_bp , xfs_dabuf_t * node2_bp ) ;
STATIC xfs_dabuf_t * xfs_da_buf_make ( int nbuf , xfs_buf_t * * bps , inst_t * ra ) ;
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STATIC int xfs_da_blk_unlink ( xfs_da_state_t * state ,
xfs_da_state_blk_t * drop_blk ,
xfs_da_state_blk_t * save_blk ) ;
STATIC void xfs_da_state_kill_altpath ( xfs_da_state_t * state ) ;
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/*========================================================================
* Routines used for growing the Btree .
* = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
/*
* Create the initial contents of an intermediate node .
*/
int
xfs_da_node_create ( xfs_da_args_t * args , xfs_dablk_t blkno , int level ,
xfs_dabuf_t * * bpp , int whichfork )
{
xfs_da_intnode_t * node ;
xfs_dabuf_t * bp ;
int error ;
xfs_trans_t * tp ;
tp = args - > trans ;
error = xfs_da_get_buf ( tp , args - > dp , blkno , - 1 , & bp , whichfork ) ;
if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
node = bp - > data ;
node - > hdr . info . forw = 0 ;
node - > hdr . info . back = 0 ;
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node - > hdr . info . magic = cpu_to_be16 ( XFS_DA_NODE_MAGIC ) ;
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node - > hdr . info . pad = 0 ;
node - > hdr . count = 0 ;
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node - > hdr . level = cpu_to_be16 ( level ) ;
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xfs_da_log_buf ( tp , bp ,
XFS_DA_LOGRANGE ( node , & node - > hdr , sizeof ( node - > hdr ) ) ) ;
* bpp = bp ;
return ( 0 ) ;
}
/*
* Split a leaf node , rebalance , then possibly split
* intermediate nodes , rebalance , etc .
*/
int /* error */
xfs_da_split ( xfs_da_state_t * state )
{
xfs_da_state_blk_t * oldblk , * newblk , * addblk ;
xfs_da_intnode_t * node ;
xfs_dabuf_t * bp ;
int max , action , error , i ;
/*
* Walk back up the tree splitting / inserting / adjusting as necessary .
* If we need to insert and there isn ' t room , split the node , then
* decide which fragment to insert the new block from below into .
* Note that we may split the root this way , but we need more fixup .
*/
max = state - > path . active - 1 ;
ASSERT ( ( max > = 0 ) & & ( max < XFS_DA_NODE_MAXDEPTH ) ) ;
ASSERT ( state - > path . blk [ max ] . magic = = XFS_ATTR_LEAF_MAGIC | |
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state - > path . blk [ max ] . magic = = XFS_DIR2_LEAFN_MAGIC ) ;
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addblk = & state - > path . blk [ max ] ; /* initial dummy value */
for ( i = max ; ( i > = 0 ) & & addblk ; state - > path . active - - , i - - ) {
oldblk = & state - > path . blk [ i ] ;
newblk = & state - > altpath . blk [ i ] ;
/*
* If a leaf node then
* Allocate a new leaf node , then rebalance across them .
* else if an intermediate node then
* We split on the last layer , must we split the node ?
*/
switch ( oldblk - > magic ) {
case XFS_ATTR_LEAF_MAGIC :
error = xfs_attr_leaf_split ( state , oldblk , newblk ) ;
if ( ( error ! = 0 ) & & ( error ! = ENOSPC ) ) {
return ( error ) ; /* GROT: attr is inconsistent */
}
if ( ! error ) {
addblk = newblk ;
break ;
}
/*
* Entry wouldn ' t fit , split the leaf again .
*/
state - > extravalid = 1 ;
if ( state - > inleaf ) {
state - > extraafter = 0 ; /* before newblk */
error = xfs_attr_leaf_split ( state , oldblk ,
& state - > extrablk ) ;
} else {
state - > extraafter = 1 ; /* after newblk */
error = xfs_attr_leaf_split ( state , newblk ,
& state - > extrablk ) ;
}
if ( error )
return ( error ) ; /* GROT: attr inconsistent */
addblk = newblk ;
break ;
case XFS_DIR2_LEAFN_MAGIC :
error = xfs_dir2_leafn_split ( state , oldblk , newblk ) ;
if ( error )
return error ;
addblk = newblk ;
break ;
case XFS_DA_NODE_MAGIC :
error = xfs_da_node_split ( state , oldblk , newblk , addblk ,
max - i , & action ) ;
xfs_da_buf_done ( addblk - > bp ) ;
addblk - > bp = NULL ;
if ( error )
return ( error ) ; /* GROT: dir is inconsistent */
/*
* Record the newly split block for the next time thru ?
*/
if ( action )
addblk = newblk ;
else
addblk = NULL ;
break ;
}
/*
* Update the btree to show the new hashval for this child .
*/
xfs_da_fixhashpath ( state , & state - > path ) ;
/*
* If we won ' t need this block again , it ' s getting dropped
* from the active path by the loop control , so we need
* to mark it done now .
*/
if ( i > 0 | | ! addblk )
xfs_da_buf_done ( oldblk - > bp ) ;
}
if ( ! addblk )
return ( 0 ) ;
/*
* Split the root node .
*/
ASSERT ( state - > path . active = = 0 ) ;
oldblk = & state - > path . blk [ 0 ] ;
error = xfs_da_root_split ( state , oldblk , addblk ) ;
if ( error ) {
xfs_da_buf_done ( oldblk - > bp ) ;
xfs_da_buf_done ( addblk - > bp ) ;
addblk - > bp = NULL ;
return ( error ) ; /* GROT: dir is inconsistent */
}
/*
* Update pointers to the node which used to be block 0 and
* just got bumped because of the addition of a new root node .
* There might be three blocks involved if a double split occurred ,
* and the original block 0 could be at any position in the list .
*/
node = oldblk - > bp - > data ;
if ( node - > hdr . info . forw ) {
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if ( be32_to_cpu ( node - > hdr . info . forw ) = = addblk - > blkno ) {
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bp = addblk - > bp ;
} else {
ASSERT ( state - > extravalid ) ;
bp = state - > extrablk . bp ;
}
node = bp - > data ;
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node - > hdr . info . back = cpu_to_be32 ( oldblk - > blkno ) ;
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xfs_da_log_buf ( state - > args - > trans , bp ,
XFS_DA_LOGRANGE ( node , & node - > hdr . info ,
sizeof ( node - > hdr . info ) ) ) ;
}
node = oldblk - > bp - > data ;
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if ( node - > hdr . info . back ) {
if ( be32_to_cpu ( node - > hdr . info . back ) = = addblk - > blkno ) {
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bp = addblk - > bp ;
} else {
ASSERT ( state - > extravalid ) ;
bp = state - > extrablk . bp ;
}
node = bp - > data ;
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node - > hdr . info . forw = cpu_to_be32 ( oldblk - > blkno ) ;
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xfs_da_log_buf ( state - > args - > trans , bp ,
XFS_DA_LOGRANGE ( node , & node - > hdr . info ,
sizeof ( node - > hdr . info ) ) ) ;
}
xfs_da_buf_done ( oldblk - > bp ) ;
xfs_da_buf_done ( addblk - > bp ) ;
addblk - > bp = NULL ;
return ( 0 ) ;
}
/*
* Split the root . We have to create a new root and point to the two
* parts ( the split old root ) that we just created . Copy block zero to
* the EOF , extending the inode in process .
*/
STATIC int /* error */
xfs_da_root_split ( xfs_da_state_t * state , xfs_da_state_blk_t * blk1 ,
xfs_da_state_blk_t * blk2 )
{
xfs_da_intnode_t * node , * oldroot ;
xfs_da_args_t * args ;
xfs_dablk_t blkno ;
xfs_dabuf_t * bp ;
int error , size ;
xfs_inode_t * dp ;
xfs_trans_t * tp ;
xfs_mount_t * mp ;
xfs_dir2_leaf_t * leaf ;
/*
* Copy the existing ( incorrect ) block from the root node position
* to a free space somewhere .
*/
args = state - > args ;
ASSERT ( args ! = NULL ) ;
error = xfs_da_grow_inode ( args , & blkno ) ;
if ( error )
return ( error ) ;
dp = args - > dp ;
tp = args - > trans ;
mp = state - > mp ;
error = xfs_da_get_buf ( tp , dp , blkno , - 1 , & bp , args - > whichfork ) ;
if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
node = bp - > data ;
oldroot = blk1 - > bp - > data ;
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if ( be16_to_cpu ( oldroot - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) {
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size = ( int ) ( ( char * ) & oldroot - > btree [ be16_to_cpu ( oldroot - > hdr . count ) ] -
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( char * ) oldroot ) ;
} else {
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ASSERT ( be16_to_cpu ( oldroot - > hdr . info . magic ) = = XFS_DIR2_LEAFN_MAGIC ) ;
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leaf = ( xfs_dir2_leaf_t * ) oldroot ;
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size = ( int ) ( ( char * ) & leaf - > ents [ be16_to_cpu ( leaf - > hdr . count ) ] -
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( char * ) leaf ) ;
}
memcpy ( node , oldroot , size ) ;
xfs_da_log_buf ( tp , bp , 0 , size - 1 ) ;
xfs_da_buf_done ( blk1 - > bp ) ;
blk1 - > bp = bp ;
blk1 - > blkno = blkno ;
/*
* Set up the new root node .
*/
error = xfs_da_node_create ( args ,
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( args - > whichfork = = XFS_DATA_FORK ) ? mp - > m_dirleafblk : 0 ,
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be16_to_cpu ( node - > hdr . level ) + 1 , & bp , args - > whichfork ) ;
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if ( error )
return ( error ) ;
node = bp - > data ;
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node - > btree [ 0 ] . hashval = cpu_to_be32 ( blk1 - > hashval ) ;
node - > btree [ 0 ] . before = cpu_to_be32 ( blk1 - > blkno ) ;
node - > btree [ 1 ] . hashval = cpu_to_be32 ( blk2 - > hashval ) ;
node - > btree [ 1 ] . before = cpu_to_be32 ( blk2 - > blkno ) ;
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node - > hdr . count = cpu_to_be16 ( 2 ) ;
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# ifdef DEBUG
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if ( be16_to_cpu ( oldroot - > hdr . info . magic ) = = XFS_DIR2_LEAFN_MAGIC ) {
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ASSERT ( blk1 - > blkno > = mp - > m_dirleafblk & &
blk1 - > blkno < mp - > m_dirfreeblk ) ;
ASSERT ( blk2 - > blkno > = mp - > m_dirleafblk & &
blk2 - > blkno < mp - > m_dirfreeblk ) ;
}
# endif
/* Header is already logged by xfs_da_node_create */
xfs_da_log_buf ( tp , bp ,
XFS_DA_LOGRANGE ( node , node - > btree ,
sizeof ( xfs_da_node_entry_t ) * 2 ) ) ;
xfs_da_buf_done ( bp ) ;
return ( 0 ) ;
}
/*
* Split the node , rebalance , then add the new entry .
*/
STATIC int /* error */
xfs_da_node_split ( xfs_da_state_t * state , xfs_da_state_blk_t * oldblk ,
xfs_da_state_blk_t * newblk ,
xfs_da_state_blk_t * addblk ,
int treelevel , int * result )
{
xfs_da_intnode_t * node ;
xfs_dablk_t blkno ;
int newcount , error ;
int useextra ;
node = oldblk - > bp - > data ;
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ASSERT ( be16_to_cpu ( node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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/*
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* With V2 dirs the extra block is data or freespace .
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*/
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useextra = state - > extravalid & & state - > args - > whichfork = = XFS_ATTR_FORK ;
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newcount = 1 + useextra ;
/*
* Do we have to split the node ?
*/
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if ( ( be16_to_cpu ( node - > hdr . count ) + newcount ) > state - > node_ents ) {
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/*
* Allocate a new node , add to the doubly linked chain of
* nodes , then move some of our excess entries into it .
*/
error = xfs_da_grow_inode ( state - > args , & blkno ) ;
if ( error )
return ( error ) ; /* GROT: dir is inconsistent */
error = xfs_da_node_create ( state - > args , blkno , treelevel ,
& newblk - > bp , state - > args - > whichfork ) ;
if ( error )
return ( error ) ; /* GROT: dir is inconsistent */
newblk - > blkno = blkno ;
newblk - > magic = XFS_DA_NODE_MAGIC ;
xfs_da_node_rebalance ( state , oldblk , newblk ) ;
error = xfs_da_blk_link ( state , oldblk , newblk ) ;
if ( error )
return ( error ) ;
* result = 1 ;
} else {
* result = 0 ;
}
/*
* Insert the new entry ( s ) into the correct block
* ( updating last hashval in the process ) .
*
* xfs_da_node_add ( ) inserts BEFORE the given index ,
* and as a result of using node_lookup_int ( ) we always
* point to a valid entry ( not after one ) , but a split
* operation always results in a new block whose hashvals
* FOLLOW the current block .
*
* If we had double - split op below us , then add the extra block too .
*/
node = oldblk - > bp - > data ;
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if ( oldblk - > index < = be16_to_cpu ( node - > hdr . count ) ) {
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oldblk - > index + + ;
xfs_da_node_add ( state , oldblk , addblk ) ;
if ( useextra ) {
if ( state - > extraafter )
oldblk - > index + + ;
xfs_da_node_add ( state , oldblk , & state - > extrablk ) ;
state - > extravalid = 0 ;
}
} else {
newblk - > index + + ;
xfs_da_node_add ( state , newblk , addblk ) ;
if ( useextra ) {
if ( state - > extraafter )
newblk - > index + + ;
xfs_da_node_add ( state , newblk , & state - > extrablk ) ;
state - > extravalid = 0 ;
}
}
return ( 0 ) ;
}
/*
* Balance the btree elements between two intermediate nodes ,
* usually one full and one empty .
*
* NOTE : if blk2 is empty , then it will get the upper half of blk1 .
*/
STATIC void
xfs_da_node_rebalance ( xfs_da_state_t * state , xfs_da_state_blk_t * blk1 ,
xfs_da_state_blk_t * blk2 )
{
xfs_da_intnode_t * node1 , * node2 , * tmpnode ;
xfs_da_node_entry_t * btree_s , * btree_d ;
int count , tmp ;
xfs_trans_t * tp ;
node1 = blk1 - > bp - > data ;
node2 = blk2 - > bp - > data ;
/*
* Figure out how many entries need to move , and in which direction .
* Swap the nodes around if that makes it simpler .
*/
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if ( ( be16_to_cpu ( node1 - > hdr . count ) > 0 ) & & ( be16_to_cpu ( node2 - > hdr . count ) > 0 ) & &
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( ( be32_to_cpu ( node2 - > btree [ 0 ] . hashval ) < be32_to_cpu ( node1 - > btree [ 0 ] . hashval ) ) | |
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( be32_to_cpu ( node2 - > btree [ be16_to_cpu ( node2 - > hdr . count ) - 1 ] . hashval ) <
be32_to_cpu ( node1 - > btree [ be16_to_cpu ( node1 - > hdr . count ) - 1 ] . hashval ) ) ) ) {
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tmpnode = node1 ;
node1 = node2 ;
node2 = tmpnode ;
}
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ASSERT ( be16_to_cpu ( node1 - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
ASSERT ( be16_to_cpu ( node2 - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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count = ( be16_to_cpu ( node1 - > hdr . count ) - be16_to_cpu ( node2 - > hdr . count ) ) / 2 ;
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if ( count = = 0 )
return ;
tp = state - > args - > trans ;
/*
* Two cases : high - to - low and low - to - high .
*/
if ( count > 0 ) {
/*
* Move elements in node2 up to make a hole .
*/
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if ( ( tmp = be16_to_cpu ( node2 - > hdr . count ) ) > 0 ) {
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tmp * = ( uint ) sizeof ( xfs_da_node_entry_t ) ;
btree_s = & node2 - > btree [ 0 ] ;
btree_d = & node2 - > btree [ count ] ;
memmove ( btree_d , btree_s , tmp ) ;
}
/*
* Move the req ' d B - tree elements from high in node1 to
* low in node2 .
*/
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be16_add_cpu ( & node2 - > hdr . count , count ) ;
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tmp = count * ( uint ) sizeof ( xfs_da_node_entry_t ) ;
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btree_s = & node1 - > btree [ be16_to_cpu ( node1 - > hdr . count ) - count ] ;
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btree_d = & node2 - > btree [ 0 ] ;
memcpy ( btree_d , btree_s , tmp ) ;
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be16_add_cpu ( & node1 - > hdr . count , - count ) ;
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} else {
/*
* Move the req ' d B - tree elements from low in node2 to
* high in node1 .
*/
count = - count ;
tmp = count * ( uint ) sizeof ( xfs_da_node_entry_t ) ;
btree_s = & node2 - > btree [ 0 ] ;
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btree_d = & node1 - > btree [ be16_to_cpu ( node1 - > hdr . count ) ] ;
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memcpy ( btree_d , btree_s , tmp ) ;
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be16_add_cpu ( & node1 - > hdr . count , count ) ;
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xfs_da_log_buf ( tp , blk1 - > bp ,
XFS_DA_LOGRANGE ( node1 , btree_d , tmp ) ) ;
/*
* Move elements in node2 down to fill the hole .
*/
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tmp = be16_to_cpu ( node2 - > hdr . count ) - count ;
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tmp * = ( uint ) sizeof ( xfs_da_node_entry_t ) ;
btree_s = & node2 - > btree [ count ] ;
btree_d = & node2 - > btree [ 0 ] ;
memmove ( btree_d , btree_s , tmp ) ;
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be16_add_cpu ( & node2 - > hdr . count , - count ) ;
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}
/*
* Log header of node 1 and all current bits of node 2.
*/
xfs_da_log_buf ( tp , blk1 - > bp ,
XFS_DA_LOGRANGE ( node1 , & node1 - > hdr , sizeof ( node1 - > hdr ) ) ) ;
xfs_da_log_buf ( tp , blk2 - > bp ,
XFS_DA_LOGRANGE ( node2 , & node2 - > hdr ,
sizeof ( node2 - > hdr ) +
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sizeof ( node2 - > btree [ 0 ] ) * be16_to_cpu ( node2 - > hdr . count ) ) ) ;
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/*
* Record the last hashval from each block for upward propagation .
* ( note : don ' t use the swapped node pointers )
*/
node1 = blk1 - > bp - > data ;
node2 = blk2 - > bp - > data ;
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blk1 - > hashval = be32_to_cpu ( node1 - > btree [ be16_to_cpu ( node1 - > hdr . count ) - 1 ] . hashval ) ;
blk2 - > hashval = be32_to_cpu ( node2 - > btree [ be16_to_cpu ( node2 - > hdr . count ) - 1 ] . hashval ) ;
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/*
* Adjust the expected index for insertion .
*/
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if ( blk1 - > index > = be16_to_cpu ( node1 - > hdr . count ) ) {
blk2 - > index = blk1 - > index - be16_to_cpu ( node1 - > hdr . count ) ;
blk1 - > index = be16_to_cpu ( node1 - > hdr . count ) + 1 ; /* make it invalid */
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}
}
/*
* Add a new entry to an intermediate node .
*/
STATIC void
xfs_da_node_add ( xfs_da_state_t * state , xfs_da_state_blk_t * oldblk ,
xfs_da_state_blk_t * newblk )
{
xfs_da_intnode_t * node ;
xfs_da_node_entry_t * btree ;
int tmp ;
xfs_mount_t * mp ;
node = oldblk - > bp - > data ;
mp = state - > mp ;
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ASSERT ( be16_to_cpu ( node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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ASSERT ( ( oldblk - > index > = 0 ) & & ( oldblk - > index < = be16_to_cpu ( node - > hdr . count ) ) ) ;
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ASSERT ( newblk - > blkno ! = 0 ) ;
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if ( state - > args - > whichfork = = XFS_DATA_FORK )
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ASSERT ( newblk - > blkno > = mp - > m_dirleafblk & &
newblk - > blkno < mp - > m_dirfreeblk ) ;
/*
* We may need to make some room before we insert the new node .
*/
tmp = 0 ;
btree = & node - > btree [ oldblk - > index ] ;
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if ( oldblk - > index < be16_to_cpu ( node - > hdr . count ) ) {
tmp = ( be16_to_cpu ( node - > hdr . count ) - oldblk - > index ) * ( uint ) sizeof ( * btree ) ;
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memmove ( btree + 1 , btree , tmp ) ;
}
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btree - > hashval = cpu_to_be32 ( newblk - > hashval ) ;
btree - > before = cpu_to_be32 ( newblk - > blkno ) ;
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xfs_da_log_buf ( state - > args - > trans , oldblk - > bp ,
XFS_DA_LOGRANGE ( node , btree , tmp + sizeof ( * btree ) ) ) ;
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be16_add_cpu ( & node - > hdr . count , 1 ) ;
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xfs_da_log_buf ( state - > args - > trans , oldblk - > bp ,
XFS_DA_LOGRANGE ( node , & node - > hdr , sizeof ( node - > hdr ) ) ) ;
/*
* Copy the last hash value from the oldblk to propagate upwards .
*/
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oldblk - > hashval = be32_to_cpu ( node - > btree [ be16_to_cpu ( node - > hdr . count ) - 1 ] . hashval ) ;
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}
/*========================================================================
* Routines used for shrinking the Btree .
* = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
/*
* Deallocate an empty leaf node , remove it from its parent ,
* possibly deallocating that block , etc . . .
*/
int
xfs_da_join ( xfs_da_state_t * state )
{
xfs_da_state_blk_t * drop_blk , * save_blk ;
int action , error ;
action = 0 ;
drop_blk = & state - > path . blk [ state - > path . active - 1 ] ;
save_blk = & state - > altpath . blk [ state - > path . active - 1 ] ;
ASSERT ( state - > path . blk [ 0 ] . magic = = XFS_DA_NODE_MAGIC ) ;
ASSERT ( drop_blk - > magic = = XFS_ATTR_LEAF_MAGIC | |
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drop_blk - > magic = = XFS_DIR2_LEAFN_MAGIC ) ;
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/*
* Walk back up the tree joining / deallocating as necessary .
* When we stop dropping blocks , break out .
*/
for ( ; state - > path . active > = 2 ; drop_blk - - , save_blk - - ,
state - > path . active - - ) {
/*
* See if we can combine the block with a neighbor .
* ( action = = 0 ) = > no options , just leave
* ( action = = 1 ) = > coalesce , then unlink
* ( action = = 2 ) = > block empty , unlink it
*/
switch ( drop_blk - > magic ) {
case XFS_ATTR_LEAF_MAGIC :
error = xfs_attr_leaf_toosmall ( state , & action ) ;
if ( error )
return ( error ) ;
if ( action = = 0 )
return ( 0 ) ;
xfs_attr_leaf_unbalance ( state , drop_blk , save_blk ) ;
break ;
case XFS_DIR2_LEAFN_MAGIC :
error = xfs_dir2_leafn_toosmall ( state , & action ) ;
if ( error )
return error ;
if ( action = = 0 )
return 0 ;
xfs_dir2_leafn_unbalance ( state , drop_blk , save_blk ) ;
break ;
case XFS_DA_NODE_MAGIC :
/*
* Remove the offending node , fixup hashvals ,
* check for a toosmall neighbor .
*/
xfs_da_node_remove ( state , drop_blk ) ;
xfs_da_fixhashpath ( state , & state - > path ) ;
error = xfs_da_node_toosmall ( state , & action ) ;
if ( error )
return ( error ) ;
if ( action = = 0 )
return 0 ;
xfs_da_node_unbalance ( state , drop_blk , save_blk ) ;
break ;
}
xfs_da_fixhashpath ( state , & state - > altpath ) ;
error = xfs_da_blk_unlink ( state , drop_blk , save_blk ) ;
xfs_da_state_kill_altpath ( state ) ;
if ( error )
return ( error ) ;
error = xfs_da_shrink_inode ( state - > args , drop_blk - > blkno ,
drop_blk - > bp ) ;
drop_blk - > bp = NULL ;
if ( error )
return ( error ) ;
}
/*
* We joined all the way to the top . If it turns out that
* we only have one entry in the root , make the child block
* the new root .
*/
xfs_da_node_remove ( state , drop_blk ) ;
xfs_da_fixhashpath ( state , & state - > path ) ;
error = xfs_da_root_join ( state , & state - > path . blk [ 0 ] ) ;
return ( error ) ;
}
/*
* We have only one entry in the root . Copy the only remaining child of
* the old root to block 0 as the new root node .
*/
STATIC int
xfs_da_root_join ( xfs_da_state_t * state , xfs_da_state_blk_t * root_blk )
{
xfs_da_intnode_t * oldroot ;
/* REFERENCED */
xfs_da_blkinfo_t * blkinfo ;
xfs_da_args_t * args ;
xfs_dablk_t child ;
xfs_dabuf_t * bp ;
int error ;
args = state - > args ;
ASSERT ( args ! = NULL ) ;
ASSERT ( root_blk - > magic = = XFS_DA_NODE_MAGIC ) ;
oldroot = root_blk - > bp - > data ;
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ASSERT ( be16_to_cpu ( oldroot - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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ASSERT ( ! oldroot - > hdr . info . forw ) ;
ASSERT ( ! oldroot - > hdr . info . back ) ;
/*
* If the root has more than one child , then don ' t do anything .
*/
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if ( be16_to_cpu ( oldroot - > hdr . count ) > 1 )
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return ( 0 ) ;
/*
* Read in the ( only ) child block , then copy those bytes into
* the root block ' s buffer and free the original child block .
*/
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child = be32_to_cpu ( oldroot - > btree [ 0 ] . before ) ;
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ASSERT ( child ! = 0 ) ;
error = xfs_da_read_buf ( args - > trans , args - > dp , child , - 1 , & bp ,
args - > whichfork ) ;
if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
blkinfo = bp - > data ;
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if ( be16_to_cpu ( oldroot - > hdr . level ) = = 1 ) {
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ASSERT ( be16_to_cpu ( blkinfo - > magic ) = = XFS_DIR2_LEAFN_MAGIC | |
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be16_to_cpu ( blkinfo - > magic ) = = XFS_ATTR_LEAF_MAGIC ) ;
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} else {
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ASSERT ( be16_to_cpu ( blkinfo - > magic ) = = XFS_DA_NODE_MAGIC ) ;
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}
ASSERT ( ! blkinfo - > forw ) ;
ASSERT ( ! blkinfo - > back ) ;
memcpy ( root_blk - > bp - > data , bp - > data , state - > blocksize ) ;
xfs_da_log_buf ( args - > trans , root_blk - > bp , 0 , state - > blocksize - 1 ) ;
error = xfs_da_shrink_inode ( args , child , bp ) ;
return ( error ) ;
}
/*
* Check a node block and its neighbors to see if the block should be
* collapsed into one or the other neighbor . Always keep the block
* with the smaller block number .
* If the current block is over 50 % full , don ' t try to join it , return 0.
* If the block is empty , fill in the state structure and return 2.
* If it can be collapsed , fill in the state structure and return 1.
* If nothing can be done , return 0.
*/
STATIC int
xfs_da_node_toosmall ( xfs_da_state_t * state , int * action )
{
xfs_da_intnode_t * node ;
xfs_da_state_blk_t * blk ;
xfs_da_blkinfo_t * info ;
int count , forward , error , retval , i ;
xfs_dablk_t blkno ;
xfs_dabuf_t * bp ;
/*
* Check for the degenerate case of the block being over 50 % full .
* If so , it ' s not worth even looking to see if we might be able
* to coalesce with a sibling .
*/
blk = & state - > path . blk [ state - > path . active - 1 ] ;
info = blk - > bp - > data ;
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ASSERT ( be16_to_cpu ( info - > magic ) = = XFS_DA_NODE_MAGIC ) ;
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node = ( xfs_da_intnode_t * ) info ;
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count = be16_to_cpu ( node - > hdr . count ) ;
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if ( count > ( state - > node_ents > > 1 ) ) {
* action = 0 ; /* blk over 50%, don't try to join */
return ( 0 ) ; /* blk over 50%, don't try to join */
}
/*
* Check for the degenerate case of the block being empty .
* If the block is empty , we ' ll simply delete it , no need to
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* coalesce it with a sibling block . We choose ( arbitrarily )
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* to merge with the forward block unless it is NULL .
*/
if ( count = = 0 ) {
/*
* Make altpath point to the block we want to keep and
* path point to the block we want to drop ( this one ) .
*/
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forward = ( info - > forw ! = 0 ) ;
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memcpy ( & state - > altpath , & state - > path , sizeof ( state - > path ) ) ;
error = xfs_da_path_shift ( state , & state - > altpath , forward ,
0 , & retval ) ;
if ( error )
return ( error ) ;
if ( retval ) {
* action = 0 ;
} else {
* action = 2 ;
}
return ( 0 ) ;
}
/*
* Examine each sibling block to see if we can coalesce with
* at least 25 % free space to spare . We need to figure out
* whether to merge with the forward or the backward block .
* We prefer coalescing with the lower numbered sibling so as
* to shrink a directory over time .
*/
/* start with smaller blk num */
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forward = ( be32_to_cpu ( info - > forw ) < be32_to_cpu ( info - > back ) ) ;
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for ( i = 0 ; i < 2 ; forward = ! forward , i + + ) {
if ( forward )
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blkno = be32_to_cpu ( info - > forw ) ;
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else
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blkno = be32_to_cpu ( info - > back ) ;
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if ( blkno = = 0 )
continue ;
error = xfs_da_read_buf ( state - > args - > trans , state - > args - > dp ,
blkno , - 1 , & bp , state - > args - > whichfork ) ;
if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
node = ( xfs_da_intnode_t * ) info ;
count = state - > node_ents ;
count - = state - > node_ents > > 2 ;
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count - = be16_to_cpu ( node - > hdr . count ) ;
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node = bp - > data ;
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ASSERT ( be16_to_cpu ( node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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count - = be16_to_cpu ( node - > hdr . count ) ;
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xfs_da_brelse ( state - > args - > trans , bp ) ;
if ( count > = 0 )
break ; /* fits with at least 25% to spare */
}
if ( i > = 2 ) {
* action = 0 ;
return ( 0 ) ;
}
/*
* Make altpath point to the block we want to keep ( the lower
* numbered block ) and path point to the block we want to drop .
*/
memcpy ( & state - > altpath , & state - > path , sizeof ( state - > path ) ) ;
if ( blkno < blk - > blkno ) {
error = xfs_da_path_shift ( state , & state - > altpath , forward ,
0 , & retval ) ;
if ( error ) {
return ( error ) ;
}
if ( retval ) {
* action = 0 ;
return ( 0 ) ;
}
} else {
error = xfs_da_path_shift ( state , & state - > path , forward ,
0 , & retval ) ;
if ( error ) {
return ( error ) ;
}
if ( retval ) {
* action = 0 ;
return ( 0 ) ;
}
}
* action = 1 ;
return ( 0 ) ;
}
/*
* Walk back up the tree adjusting hash values as necessary ,
* when we stop making changes , return .
*/
void
xfs_da_fixhashpath ( xfs_da_state_t * state , xfs_da_state_path_t * path )
{
xfs_da_state_blk_t * blk ;
xfs_da_intnode_t * node ;
xfs_da_node_entry_t * btree ;
xfs_dahash_t lasthash = 0 ;
int level , count ;
level = path - > active - 1 ;
blk = & path - > blk [ level ] ;
switch ( blk - > magic ) {
case XFS_ATTR_LEAF_MAGIC :
lasthash = xfs_attr_leaf_lasthash ( blk - > bp , & count ) ;
if ( count = = 0 )
return ;
break ;
case XFS_DIR2_LEAFN_MAGIC :
lasthash = xfs_dir2_leafn_lasthash ( blk - > bp , & count ) ;
if ( count = = 0 )
return ;
break ;
case XFS_DA_NODE_MAGIC :
lasthash = xfs_da_node_lasthash ( blk - > bp , & count ) ;
if ( count = = 0 )
return ;
break ;
}
for ( blk - - , level - - ; level > = 0 ; blk - - , level - - ) {
node = blk - > bp - > data ;
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ASSERT ( be16_to_cpu ( node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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btree = & node - > btree [ blk - > index ] ;
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if ( be32_to_cpu ( btree - > hashval ) = = lasthash )
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break ;
blk - > hashval = lasthash ;
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btree - > hashval = cpu_to_be32 ( lasthash ) ;
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xfs_da_log_buf ( state - > args - > trans , blk - > bp ,
XFS_DA_LOGRANGE ( node , btree , sizeof ( * btree ) ) ) ;
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lasthash = be32_to_cpu ( node - > btree [ be16_to_cpu ( node - > hdr . count ) - 1 ] . hashval ) ;
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}
}
/*
* Remove an entry from an intermediate node .
*/
STATIC void
xfs_da_node_remove ( xfs_da_state_t * state , xfs_da_state_blk_t * drop_blk )
{
xfs_da_intnode_t * node ;
xfs_da_node_entry_t * btree ;
int tmp ;
node = drop_blk - > bp - > data ;
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ASSERT ( drop_blk - > index < be16_to_cpu ( node - > hdr . count ) ) ;
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ASSERT ( drop_blk - > index > = 0 ) ;
/*
* Copy over the offending entry , or just zero it out .
*/
btree = & node - > btree [ drop_blk - > index ] ;
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if ( drop_blk - > index < ( be16_to_cpu ( node - > hdr . count ) - 1 ) ) {
tmp = be16_to_cpu ( node - > hdr . count ) - drop_blk - > index - 1 ;
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tmp * = ( uint ) sizeof ( xfs_da_node_entry_t ) ;
memmove ( btree , btree + 1 , tmp ) ;
xfs_da_log_buf ( state - > args - > trans , drop_blk - > bp ,
XFS_DA_LOGRANGE ( node , btree , tmp ) ) ;
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btree = & node - > btree [ be16_to_cpu ( node - > hdr . count ) - 1 ] ;
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}
memset ( ( char * ) btree , 0 , sizeof ( xfs_da_node_entry_t ) ) ;
xfs_da_log_buf ( state - > args - > trans , drop_blk - > bp ,
XFS_DA_LOGRANGE ( node , btree , sizeof ( * btree ) ) ) ;
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be16_add_cpu ( & node - > hdr . count , - 1 ) ;
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xfs_da_log_buf ( state - > args - > trans , drop_blk - > bp ,
XFS_DA_LOGRANGE ( node , & node - > hdr , sizeof ( node - > hdr ) ) ) ;
/*
* Copy the last hash value from the block to propagate upwards .
*/
btree - - ;
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drop_blk - > hashval = be32_to_cpu ( btree - > hashval ) ;
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}
/*
* Unbalance the btree elements between two intermediate nodes ,
* move all Btree elements from one node into another .
*/
STATIC void
xfs_da_node_unbalance ( xfs_da_state_t * state , xfs_da_state_blk_t * drop_blk ,
xfs_da_state_blk_t * save_blk )
{
xfs_da_intnode_t * drop_node , * save_node ;
xfs_da_node_entry_t * btree ;
int tmp ;
xfs_trans_t * tp ;
drop_node = drop_blk - > bp - > data ;
save_node = save_blk - > bp - > data ;
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ASSERT ( be16_to_cpu ( drop_node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
ASSERT ( be16_to_cpu ( save_node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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tp = state - > args - > trans ;
/*
* If the dying block has lower hashvals , then move all the
* elements in the remaining block up to make a hole .
*/
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if ( ( be32_to_cpu ( drop_node - > btree [ 0 ] . hashval ) < be32_to_cpu ( save_node - > btree [ 0 ] . hashval ) ) | |
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( be32_to_cpu ( drop_node - > btree [ be16_to_cpu ( drop_node - > hdr . count ) - 1 ] . hashval ) <
be32_to_cpu ( save_node - > btree [ be16_to_cpu ( save_node - > hdr . count ) - 1 ] . hashval ) ) )
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{
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btree = & save_node - > btree [ be16_to_cpu ( drop_node - > hdr . count ) ] ;
tmp = be16_to_cpu ( save_node - > hdr . count ) * ( uint ) sizeof ( xfs_da_node_entry_t ) ;
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memmove ( btree , & save_node - > btree [ 0 ] , tmp ) ;
btree = & save_node - > btree [ 0 ] ;
xfs_da_log_buf ( tp , save_blk - > bp ,
XFS_DA_LOGRANGE ( save_node , btree ,
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( be16_to_cpu ( save_node - > hdr . count ) + be16_to_cpu ( drop_node - > hdr . count ) ) *
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sizeof ( xfs_da_node_entry_t ) ) ) ;
} else {
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btree = & save_node - > btree [ be16_to_cpu ( save_node - > hdr . count ) ] ;
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xfs_da_log_buf ( tp , save_blk - > bp ,
XFS_DA_LOGRANGE ( save_node , btree ,
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be16_to_cpu ( drop_node - > hdr . count ) *
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sizeof ( xfs_da_node_entry_t ) ) ) ;
}
/*
* Move all the B - tree elements from drop_blk to save_blk .
*/
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tmp = be16_to_cpu ( drop_node - > hdr . count ) * ( uint ) sizeof ( xfs_da_node_entry_t ) ;
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memcpy ( btree , & drop_node - > btree [ 0 ] , tmp ) ;
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be16_add_cpu ( & save_node - > hdr . count , be16_to_cpu ( drop_node - > hdr . count ) ) ;
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xfs_da_log_buf ( tp , save_blk - > bp ,
XFS_DA_LOGRANGE ( save_node , & save_node - > hdr ,
sizeof ( save_node - > hdr ) ) ) ;
/*
* Save the last hashval in the remaining block for upward propagation .
*/
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save_blk - > hashval = be32_to_cpu ( save_node - > btree [ be16_to_cpu ( save_node - > hdr . count ) - 1 ] . hashval ) ;
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}
/*========================================================================
* Routines used for finding things in the Btree .
* = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
/*
* Walk down the Btree looking for a particular filename , filling
* in the state structure as we go .
*
* We will set the state structure to point to each of the elements
* in each of the nodes where either the hashval is or should be .
*
* We support duplicate hashval ' s so for each entry in the current
* node that could contain the desired hashval , descend . This is a
* pruned depth - first tree search .
*/
int /* error */
xfs_da_node_lookup_int ( xfs_da_state_t * state , int * result )
{
xfs_da_state_blk_t * blk ;
xfs_da_blkinfo_t * curr ;
xfs_da_intnode_t * node ;
xfs_da_node_entry_t * btree ;
xfs_dablk_t blkno ;
int probe , span , max , error , retval ;
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xfs_dahash_t hashval , btreehashval ;
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xfs_da_args_t * args ;
args = state - > args ;
/*
* Descend thru the B - tree searching each level for the right
* node to use , until the right hashval is found .
*/
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blkno = ( args - > whichfork = = XFS_DATA_FORK ) ? state - > mp - > m_dirleafblk : 0 ;
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for ( blk = & state - > path . blk [ 0 ] , state - > path . active = 1 ;
state - > path . active < = XFS_DA_NODE_MAXDEPTH ;
blk + + , state - > path . active + + ) {
/*
* Read the next node down in the tree .
*/
blk - > blkno = blkno ;
error = xfs_da_read_buf ( args - > trans , args - > dp , blkno ,
- 1 , & blk - > bp , args - > whichfork ) ;
if ( error ) {
blk - > blkno = 0 ;
state - > path . active - - ;
return ( error ) ;
}
curr = blk - > bp - > data ;
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blk - > magic = be16_to_cpu ( curr - > magic ) ;
ASSERT ( blk - > magic = = XFS_DA_NODE_MAGIC | |
blk - > magic = = XFS_DIR2_LEAFN_MAGIC | |
blk - > magic = = XFS_ATTR_LEAF_MAGIC ) ;
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/*
* Search an intermediate node for a match .
*/
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if ( blk - > magic = = XFS_DA_NODE_MAGIC ) {
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node = blk - > bp - > data ;
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max = be16_to_cpu ( node - > hdr . count ) ;
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blk - > hashval = be32_to_cpu ( node - > btree [ max - 1 ] . hashval ) ;
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/*
* Binary search . ( note : small blocks will skip loop )
*/
probe = span = max / 2 ;
hashval = args - > hashval ;
for ( btree = & node - > btree [ probe ] ; span > 4 ;
btree = & node - > btree [ probe ] ) {
span / = 2 ;
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btreehashval = be32_to_cpu ( btree - > hashval ) ;
if ( btreehashval < hashval )
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probe + = span ;
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else if ( btreehashval > hashval )
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probe - = span ;
else
break ;
}
ASSERT ( ( probe > = 0 ) & & ( probe < max ) ) ;
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ASSERT ( ( span < = 4 ) | | ( be32_to_cpu ( btree - > hashval ) = = hashval ) ) ;
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/*
* Since we may have duplicate hashval ' s , find the first
* matching hashval in the node .
*/
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while ( ( probe > 0 ) & & ( be32_to_cpu ( btree - > hashval ) > = hashval ) ) {
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btree - - ;
probe - - ;
}
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while ( ( probe < max ) & & ( be32_to_cpu ( btree - > hashval ) < hashval ) ) {
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btree + + ;
probe + + ;
}
/*
* Pick the right block to descend on .
*/
if ( probe = = max ) {
blk - > index = max - 1 ;
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blkno = be32_to_cpu ( node - > btree [ max - 1 ] . before ) ;
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} else {
blk - > index = probe ;
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blkno = be32_to_cpu ( btree - > before ) ;
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}
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} else if ( blk - > magic = = XFS_ATTR_LEAF_MAGIC ) {
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blk - > hashval = xfs_attr_leaf_lasthash ( blk - > bp , NULL ) ;
break ;
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} else if ( blk - > magic = = XFS_DIR2_LEAFN_MAGIC ) {
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blk - > hashval = xfs_dir2_leafn_lasthash ( blk - > bp , NULL ) ;
break ;
}
}
/*
* A leaf block that ends in the hashval that we are interested in
* ( final hashval = = search hashval ) means that the next block may
* contain more entries with the same hashval , shift upward to the
* next leaf and keep searching .
*/
for ( ; ; ) {
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if ( blk - > magic = = XFS_DIR2_LEAFN_MAGIC ) {
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retval = xfs_dir2_leafn_lookup_int ( blk - > bp , args ,
& blk - > index , state ) ;
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} else if ( blk - > magic = = XFS_ATTR_LEAF_MAGIC ) {
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retval = xfs_attr_leaf_lookup_int ( blk - > bp , args ) ;
blk - > index = args - > index ;
args - > blkno = blk - > blkno ;
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} else {
ASSERT ( 0 ) ;
return XFS_ERROR ( EFSCORRUPTED ) ;
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}
if ( ( ( retval = = ENOENT ) | | ( retval = = ENOATTR ) ) & &
( blk - > hashval = = args - > hashval ) ) {
error = xfs_da_path_shift ( state , & state - > path , 1 , 1 ,
& retval ) ;
if ( error )
return ( error ) ;
if ( retval = = 0 ) {
continue ;
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} else if ( blk - > magic = = XFS_ATTR_LEAF_MAGIC ) {
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/* path_shift() gives ENOENT */
retval = XFS_ERROR ( ENOATTR ) ;
}
}
break ;
}
* result = retval ;
return ( 0 ) ;
}
/*========================================================================
* Utility routines .
* = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
/*
* Link a new block into a doubly linked list of blocks ( of whatever type ) .
*/
int /* error */
xfs_da_blk_link ( xfs_da_state_t * state , xfs_da_state_blk_t * old_blk ,
xfs_da_state_blk_t * new_blk )
{
xfs_da_blkinfo_t * old_info , * new_info , * tmp_info ;
xfs_da_args_t * args ;
int before = 0 , error ;
xfs_dabuf_t * bp ;
/*
* Set up environment .
*/
args = state - > args ;
ASSERT ( args ! = NULL ) ;
old_info = old_blk - > bp - > data ;
new_info = new_blk - > bp - > data ;
ASSERT ( old_blk - > magic = = XFS_DA_NODE_MAGIC | |
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old_blk - > magic = = XFS_DIR2_LEAFN_MAGIC | |
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old_blk - > magic = = XFS_ATTR_LEAF_MAGIC ) ;
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ASSERT ( old_blk - > magic = = be16_to_cpu ( old_info - > magic ) ) ;
ASSERT ( new_blk - > magic = = be16_to_cpu ( new_info - > magic ) ) ;
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ASSERT ( old_blk - > magic = = new_blk - > magic ) ;
switch ( old_blk - > magic ) {
case XFS_ATTR_LEAF_MAGIC :
before = xfs_attr_leaf_order ( old_blk - > bp , new_blk - > bp ) ;
break ;
case XFS_DIR2_LEAFN_MAGIC :
before = xfs_dir2_leafn_order ( old_blk - > bp , new_blk - > bp ) ;
break ;
case XFS_DA_NODE_MAGIC :
before = xfs_da_node_order ( old_blk - > bp , new_blk - > bp ) ;
break ;
}
/*
* Link blocks in appropriate order .
*/
if ( before ) {
/*
* Link new block in before existing block .
*/
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new_info - > forw = cpu_to_be32 ( old_blk - > blkno ) ;
new_info - > back = old_info - > back ;
if ( old_info - > back ) {
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error = xfs_da_read_buf ( args - > trans , args - > dp ,
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be32_to_cpu ( old_info - > back ) ,
- 1 , & bp , args - > whichfork ) ;
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if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
tmp_info = bp - > data ;
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ASSERT ( be16_to_cpu ( tmp_info - > magic ) = = be16_to_cpu ( old_info - > magic ) ) ;
ASSERT ( be32_to_cpu ( tmp_info - > forw ) = = old_blk - > blkno ) ;
tmp_info - > forw = cpu_to_be32 ( new_blk - > blkno ) ;
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xfs_da_log_buf ( args - > trans , bp , 0 , sizeof ( * tmp_info ) - 1 ) ;
xfs_da_buf_done ( bp ) ;
}
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old_info - > back = cpu_to_be32 ( new_blk - > blkno ) ;
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} else {
/*
* Link new block in after existing block .
*/
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new_info - > forw = old_info - > forw ;
new_info - > back = cpu_to_be32 ( old_blk - > blkno ) ;
if ( old_info - > forw ) {
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error = xfs_da_read_buf ( args - > trans , args - > dp ,
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be32_to_cpu ( old_info - > forw ) ,
- 1 , & bp , args - > whichfork ) ;
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if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
tmp_info = bp - > data ;
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ASSERT ( tmp_info - > magic = = old_info - > magic ) ;
ASSERT ( be32_to_cpu ( tmp_info - > back ) = = old_blk - > blkno ) ;
tmp_info - > back = cpu_to_be32 ( new_blk - > blkno ) ;
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xfs_da_log_buf ( args - > trans , bp , 0 , sizeof ( * tmp_info ) - 1 ) ;
xfs_da_buf_done ( bp ) ;
}
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old_info - > forw = cpu_to_be32 ( new_blk - > blkno ) ;
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}
xfs_da_log_buf ( args - > trans , old_blk - > bp , 0 , sizeof ( * tmp_info ) - 1 ) ;
xfs_da_log_buf ( args - > trans , new_blk - > bp , 0 , sizeof ( * tmp_info ) - 1 ) ;
return ( 0 ) ;
}
/*
* Compare two intermediate nodes for " order " .
*/
STATIC int
xfs_da_node_order ( xfs_dabuf_t * node1_bp , xfs_dabuf_t * node2_bp )
{
xfs_da_intnode_t * node1 , * node2 ;
node1 = node1_bp - > data ;
node2 = node2_bp - > data ;
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ASSERT ( ( be16_to_cpu ( node1 - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) & &
( be16_to_cpu ( node2 - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ) ;
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if ( ( be16_to_cpu ( node1 - > hdr . count ) > 0 ) & & ( be16_to_cpu ( node2 - > hdr . count ) > 0 ) & &
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( ( be32_to_cpu ( node2 - > btree [ 0 ] . hashval ) <
be32_to_cpu ( node1 - > btree [ 0 ] . hashval ) ) | |
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( be32_to_cpu ( node2 - > btree [ be16_to_cpu ( node2 - > hdr . count ) - 1 ] . hashval ) <
be32_to_cpu ( node1 - > btree [ be16_to_cpu ( node1 - > hdr . count ) - 1 ] . hashval ) ) ) ) {
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return ( 1 ) ;
}
return ( 0 ) ;
}
/*
* Pick up the last hashvalue from an intermediate node .
*/
STATIC uint
xfs_da_node_lasthash ( xfs_dabuf_t * bp , int * count )
{
xfs_da_intnode_t * node ;
node = bp - > data ;
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ASSERT ( be16_to_cpu ( node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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if ( count )
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* count = be16_to_cpu ( node - > hdr . count ) ;
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if ( ! node - > hdr . count )
return ( 0 ) ;
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return be32_to_cpu ( node - > btree [ be16_to_cpu ( node - > hdr . count ) - 1 ] . hashval ) ;
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}
/*
* Unlink a block from a doubly linked list of blocks .
*/
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STATIC int /* error */
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xfs_da_blk_unlink ( xfs_da_state_t * state , xfs_da_state_blk_t * drop_blk ,
xfs_da_state_blk_t * save_blk )
{
xfs_da_blkinfo_t * drop_info , * save_info , * tmp_info ;
xfs_da_args_t * args ;
xfs_dabuf_t * bp ;
int error ;
/*
* Set up environment .
*/
args = state - > args ;
ASSERT ( args ! = NULL ) ;
save_info = save_blk - > bp - > data ;
drop_info = drop_blk - > bp - > data ;
ASSERT ( save_blk - > magic = = XFS_DA_NODE_MAGIC | |
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save_blk - > magic = = XFS_DIR2_LEAFN_MAGIC | |
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save_blk - > magic = = XFS_ATTR_LEAF_MAGIC ) ;
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ASSERT ( save_blk - > magic = = be16_to_cpu ( save_info - > magic ) ) ;
ASSERT ( drop_blk - > magic = = be16_to_cpu ( drop_info - > magic ) ) ;
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ASSERT ( save_blk - > magic = = drop_blk - > magic ) ;
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ASSERT ( ( be32_to_cpu ( save_info - > forw ) = = drop_blk - > blkno ) | |
( be32_to_cpu ( save_info - > back ) = = drop_blk - > blkno ) ) ;
ASSERT ( ( be32_to_cpu ( drop_info - > forw ) = = save_blk - > blkno ) | |
( be32_to_cpu ( drop_info - > back ) = = save_blk - > blkno ) ) ;
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/*
* Unlink the leaf block from the doubly linked chain of leaves .
*/
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if ( be32_to_cpu ( save_info - > back ) = = drop_blk - > blkno ) {
save_info - > back = drop_info - > back ;
if ( drop_info - > back ) {
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error = xfs_da_read_buf ( args - > trans , args - > dp ,
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be32_to_cpu ( drop_info - > back ) ,
- 1 , & bp , args - > whichfork ) ;
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if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
tmp_info = bp - > data ;
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ASSERT ( tmp_info - > magic = = save_info - > magic ) ;
ASSERT ( be32_to_cpu ( tmp_info - > forw ) = = drop_blk - > blkno ) ;
tmp_info - > forw = cpu_to_be32 ( save_blk - > blkno ) ;
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xfs_da_log_buf ( args - > trans , bp , 0 ,
sizeof ( * tmp_info ) - 1 ) ;
xfs_da_buf_done ( bp ) ;
}
} else {
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save_info - > forw = drop_info - > forw ;
if ( drop_info - > forw ) {
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error = xfs_da_read_buf ( args - > trans , args - > dp ,
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be32_to_cpu ( drop_info - > forw ) ,
- 1 , & bp , args - > whichfork ) ;
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if ( error )
return ( error ) ;
ASSERT ( bp ! = NULL ) ;
tmp_info = bp - > data ;
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ASSERT ( tmp_info - > magic = = save_info - > magic ) ;
ASSERT ( be32_to_cpu ( tmp_info - > back ) = = drop_blk - > blkno ) ;
tmp_info - > back = cpu_to_be32 ( save_blk - > blkno ) ;
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xfs_da_log_buf ( args - > trans , bp , 0 ,
sizeof ( * tmp_info ) - 1 ) ;
xfs_da_buf_done ( bp ) ;
}
}
xfs_da_log_buf ( args - > trans , save_blk - > bp , 0 , sizeof ( * save_info ) - 1 ) ;
return ( 0 ) ;
}
/*
* Move a path " forward " or " !forward " one block at the current level .
*
* This routine will adjust a " path " to point to the next block
* " forward " ( higher hashvalues ) or " !forward " ( lower hashvals ) in the
* Btree , including updating pointers to the intermediate nodes between
* the new bottom and the root .
*/
int /* error */
xfs_da_path_shift ( xfs_da_state_t * state , xfs_da_state_path_t * path ,
int forward , int release , int * result )
{
xfs_da_state_blk_t * blk ;
xfs_da_blkinfo_t * info ;
xfs_da_intnode_t * node ;
xfs_da_args_t * args ;
xfs_dablk_t blkno = 0 ;
int level , error ;
/*
* Roll up the Btree looking for the first block where our
* current index is not at the edge of the block . Note that
* we skip the bottom layer because we want the sibling block .
*/
args = state - > args ;
ASSERT ( args ! = NULL ) ;
ASSERT ( path ! = NULL ) ;
ASSERT ( ( path - > active > 0 ) & & ( path - > active < XFS_DA_NODE_MAXDEPTH ) ) ;
level = ( path - > active - 1 ) - 1 ; /* skip bottom layer in path */
for ( blk = & path - > blk [ level ] ; level > = 0 ; blk - - , level - - ) {
ASSERT ( blk - > bp ! = NULL ) ;
node = blk - > bp - > data ;
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ASSERT ( be16_to_cpu ( node - > hdr . info . magic ) = = XFS_DA_NODE_MAGIC ) ;
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if ( forward & & ( blk - > index < be16_to_cpu ( node - > hdr . count ) - 1 ) ) {
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blk - > index + + ;
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blkno = be32_to_cpu ( node - > btree [ blk - > index ] . before ) ;
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break ;
} else if ( ! forward & & ( blk - > index > 0 ) ) {
blk - > index - - ;
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blkno = be32_to_cpu ( node - > btree [ blk - > index ] . before ) ;
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break ;
}
}
if ( level < 0 ) {
* result = XFS_ERROR ( ENOENT ) ; /* we're out of our tree */
ASSERT ( args - > oknoent ) ;
return ( 0 ) ;
}
/*
* Roll down the edge of the subtree until we reach the
* same depth we were at originally .
*/
for ( blk + + , level + + ; level < path - > active ; blk + + , level + + ) {
/*
* Release the old block .
* ( if it ' s dirty , trans won ' t actually let go )
*/
if ( release )
xfs_da_brelse ( args - > trans , blk - > bp ) ;
/*
* Read the next child block .
*/
blk - > blkno = blkno ;
error = xfs_da_read_buf ( args - > trans , args - > dp , blkno , - 1 ,
& blk - > bp , args - > whichfork ) ;
if ( error )
return ( error ) ;
ASSERT ( blk - > bp ! = NULL ) ;
info = blk - > bp - > data ;
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ASSERT ( be16_to_cpu ( info - > magic ) = = XFS_DA_NODE_MAGIC | |
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be16_to_cpu ( info - > magic ) = = XFS_DIR2_LEAFN_MAGIC | |
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be16_to_cpu ( info - > magic ) = = XFS_ATTR_LEAF_MAGIC ) ;
blk - > magic = be16_to_cpu ( info - > magic ) ;
if ( blk - > magic = = XFS_DA_NODE_MAGIC ) {
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node = ( xfs_da_intnode_t * ) info ;
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blk - > hashval = be32_to_cpu ( node - > btree [ be16_to_cpu ( node - > hdr . count ) - 1 ] . hashval ) ;
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if ( forward )
blk - > index = 0 ;
else
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blk - > index = be16_to_cpu ( node - > hdr . count ) - 1 ;
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blkno = be32_to_cpu ( node - > btree [ blk - > index ] . before ) ;
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} else {
ASSERT ( level = = path - > active - 1 ) ;
blk - > index = 0 ;
switch ( blk - > magic ) {
case XFS_ATTR_LEAF_MAGIC :
blk - > hashval = xfs_attr_leaf_lasthash ( blk - > bp ,
NULL ) ;
break ;
case XFS_DIR2_LEAFN_MAGIC :
blk - > hashval = xfs_dir2_leafn_lasthash ( blk - > bp ,
NULL ) ;
break ;
default :
ASSERT ( blk - > magic = = XFS_ATTR_LEAF_MAGIC | |
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blk - > magic = = XFS_DIR2_LEAFN_MAGIC ) ;
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break ;
}
}
}
* result = 0 ;
return ( 0 ) ;
}
/*========================================================================
* Utility routines .
* = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = */
/*
* Implement a simple hash on a character string .
* Rotate the hash value by 7 bits , then XOR each character in .
* This is implemented with some source - level loop unrolling .
*/
xfs_dahash_t
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xfs_da_hashname ( const uchar_t * name , int namelen )
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{
xfs_dahash_t hash ;
/*
* Do four characters at a time as long as we can .
*/
for ( hash = 0 ; namelen > = 4 ; namelen - = 4 , name + = 4 )
hash = ( name [ 0 ] < < 21 ) ^ ( name [ 1 ] < < 14 ) ^ ( name [ 2 ] < < 7 ) ^
( name [ 3 ] < < 0 ) ^ rol32 ( hash , 7 * 4 ) ;
/*
* Now do the rest of the characters .
*/
switch ( namelen ) {
case 3 :
return ( name [ 0 ] < < 14 ) ^ ( name [ 1 ] < < 7 ) ^ ( name [ 2 ] < < 0 ) ^
rol32 ( hash , 7 * 3 ) ;
case 2 :
return ( name [ 0 ] < < 7 ) ^ ( name [ 1 ] < < 0 ) ^ rol32 ( hash , 7 * 2 ) ;
case 1 :
return ( name [ 0 ] < < 0 ) ^ rol32 ( hash , 7 * 1 ) ;
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default : /* case 0: */
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return hash ;
}
}
/*
* Add a block to the btree ahead of the file .
* Return the new block number to the caller .
*/
int
xfs_da_grow_inode ( xfs_da_args_t * args , xfs_dablk_t * new_blkno )
{
xfs_fileoff_t bno , b ;
xfs_bmbt_irec_t map ;
xfs_bmbt_irec_t * mapp ;
xfs_inode_t * dp ;
int nmap , error , w , count , c , got , i , mapi ;
xfs_trans_t * tp ;
xfs_mount_t * mp ;
dp = args - > dp ;
mp = dp - > i_mount ;
w = args - > whichfork ;
tp = args - > trans ;
/*
* For new directories adjust the file offset and block count .
*/
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if ( w = = XFS_DATA_FORK ) {
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bno = mp - > m_dirleafblk ;
count = mp - > m_dirblkfsbs ;
} else {
bno = 0 ;
count = 1 ;
}
/*
* Find a spot in the file space to put the new block .
*/
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if ( ( error = xfs_bmap_first_unused ( tp , dp , count , & bno , w ) ) )
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return error ;
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if ( w = = XFS_DATA_FORK )
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ASSERT ( bno > = mp - > m_dirleafblk & & bno < mp - > m_dirfreeblk ) ;
/*
* Try mapping it in one filesystem block .
*/
nmap = 1 ;
ASSERT ( args - > firstblock ! = NULL ) ;
if ( ( error = xfs_bmapi ( tp , dp , bno , count ,
XFS_BMAPI_AFLAG ( w ) | XFS_BMAPI_WRITE | XFS_BMAPI_METADATA |
XFS_BMAPI_CONTIG ,
args - > firstblock , args - > total , & map , & nmap ,
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args - > flist , NULL ) ) ) {
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return error ;
}
ASSERT ( nmap < = 1 ) ;
if ( nmap = = 1 ) {
mapp = & map ;
mapi = 1 ;
}
/*
* If we didn ' t get it and the block might work if fragmented ,
* try without the CONTIG flag . Loop until we get it all .
*/
else if ( nmap = = 0 & & count > 1 ) {
mapp = kmem_alloc ( sizeof ( * mapp ) * count , KM_SLEEP ) ;
for ( b = bno , mapi = 0 ; b < bno + count ; ) {
nmap = MIN ( XFS_BMAP_MAX_NMAP , count ) ;
c = ( int ) ( bno + count - b ) ;
if ( ( error = xfs_bmapi ( tp , dp , b , c ,
XFS_BMAPI_AFLAG ( w ) | XFS_BMAPI_WRITE |
XFS_BMAPI_METADATA ,
args - > firstblock , args - > total ,
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& mapp [ mapi ] , & nmap , args - > flist ,
NULL ) ) ) {
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kmem_free ( mapp , sizeof ( * mapp ) * count ) ;
return error ;
}
if ( nmap < 1 )
break ;
mapi + = nmap ;
b = mapp [ mapi - 1 ] . br_startoff +
mapp [ mapi - 1 ] . br_blockcount ;
}
} else {
mapi = 0 ;
mapp = NULL ;
}
/*
* Count the blocks we got , make sure it matches the total .
*/
for ( i = 0 , got = 0 ; i < mapi ; i + + )
got + = mapp [ i ] . br_blockcount ;
if ( got ! = count | | mapp [ 0 ] . br_startoff ! = bno | |
mapp [ mapi - 1 ] . br_startoff + mapp [ mapi - 1 ] . br_blockcount ! =
bno + count ) {
if ( mapp ! = & map )
kmem_free ( mapp , sizeof ( * mapp ) * count ) ;
return XFS_ERROR ( ENOSPC ) ;
}
if ( mapp ! = & map )
kmem_free ( mapp , sizeof ( * mapp ) * count ) ;
* new_blkno = ( xfs_dablk_t ) bno ;
return 0 ;
}
/*
* Ick . We need to always be able to remove a btree block , even
* if there ' s no space reservation because the filesystem is full .
* This is called if xfs_bunmapi on a btree block fails due to ENOSPC .
* It swaps the target block with the last block in the file . The
* last block in the file can always be removed since it can ' t cause
* a bmap btree split to do that .
*/
STATIC int
xfs_da_swap_lastblock ( xfs_da_args_t * args , xfs_dablk_t * dead_blknop ,
xfs_dabuf_t * * dead_bufp )
{
xfs_dablk_t dead_blkno , last_blkno , sib_blkno , par_blkno ;
xfs_dabuf_t * dead_buf , * last_buf , * sib_buf , * par_buf ;
xfs_fileoff_t lastoff ;
xfs_inode_t * ip ;
xfs_trans_t * tp ;
xfs_mount_t * mp ;
int error , w , entno , level , dead_level ;
xfs_da_blkinfo_t * dead_info , * sib_info ;
xfs_da_intnode_t * par_node , * dead_node ;
xfs_dir2_leaf_t * dead_leaf2 ;
xfs_dahash_t dead_hash ;
dead_buf = * dead_bufp ;
dead_blkno = * dead_blknop ;
tp = args - > trans ;
ip = args - > dp ;
w = args - > whichfork ;
ASSERT ( w = = XFS_DATA_FORK ) ;
mp = ip - > i_mount ;
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lastoff = mp - > m_dirfreeblk ;
error = xfs_bmap_last_before ( tp , ip , & lastoff , w ) ;
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if ( error )
return error ;
if ( unlikely ( lastoff = = 0 ) ) {
XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(1) " , XFS_ERRLEVEL_LOW ,
mp ) ;
return XFS_ERROR ( EFSCORRUPTED ) ;
}
/*
* Read the last block in the btree space .
*/
last_blkno = ( xfs_dablk_t ) lastoff - mp - > m_dirblkfsbs ;
if ( ( error = xfs_da_read_buf ( tp , ip , last_blkno , - 1 , & last_buf , w ) ) )
return error ;
/*
* Copy the last block into the dead buffer and log it .
*/
memcpy ( dead_buf - > data , last_buf - > data , mp - > m_dirblksize ) ;
xfs_da_log_buf ( tp , dead_buf , 0 , mp - > m_dirblksize - 1 ) ;
dead_info = dead_buf - > data ;
/*
* Get values from the moved block .
*/
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if ( be16_to_cpu ( dead_info - > magic ) = = XFS_DIR2_LEAFN_MAGIC ) {
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dead_leaf2 = ( xfs_dir2_leaf_t * ) dead_info ;
dead_level = 0 ;
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dead_hash = be32_to_cpu ( dead_leaf2 - > ents [ be16_to_cpu ( dead_leaf2 - > hdr . count ) - 1 ] . hashval ) ;
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} else {
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ASSERT ( be16_to_cpu ( dead_info - > magic ) = = XFS_DA_NODE_MAGIC ) ;
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dead_node = ( xfs_da_intnode_t * ) dead_info ;
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dead_level = be16_to_cpu ( dead_node - > hdr . level ) ;
dead_hash = be32_to_cpu ( dead_node - > btree [ be16_to_cpu ( dead_node - > hdr . count ) - 1 ] . hashval ) ;
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}
sib_buf = par_buf = NULL ;
/*
* If the moved block has a left sibling , fix up the pointers .
*/
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if ( ( sib_blkno = be32_to_cpu ( dead_info - > back ) ) ) {
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if ( ( error = xfs_da_read_buf ( tp , ip , sib_blkno , - 1 , & sib_buf , w ) ) )
goto done ;
sib_info = sib_buf - > data ;
if ( unlikely (
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be32_to_cpu ( sib_info - > forw ) ! = last_blkno | |
sib_info - > magic ! = dead_info - > magic ) ) {
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XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(2) " ,
XFS_ERRLEVEL_LOW , mp ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
goto done ;
}
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sib_info - > forw = cpu_to_be32 ( dead_blkno ) ;
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xfs_da_log_buf ( tp , sib_buf ,
XFS_DA_LOGRANGE ( sib_info , & sib_info - > forw ,
sizeof ( sib_info - > forw ) ) ) ;
xfs_da_buf_done ( sib_buf ) ;
sib_buf = NULL ;
}
/*
* If the moved block has a right sibling , fix up the pointers .
*/
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if ( ( sib_blkno = be32_to_cpu ( dead_info - > forw ) ) ) {
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if ( ( error = xfs_da_read_buf ( tp , ip , sib_blkno , - 1 , & sib_buf , w ) ) )
goto done ;
sib_info = sib_buf - > data ;
if ( unlikely (
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be32_to_cpu ( sib_info - > back ) ! = last_blkno | |
sib_info - > magic ! = dead_info - > magic ) ) {
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XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(3) " ,
XFS_ERRLEVEL_LOW , mp ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
goto done ;
}
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sib_info - > back = cpu_to_be32 ( dead_blkno ) ;
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xfs_da_log_buf ( tp , sib_buf ,
XFS_DA_LOGRANGE ( sib_info , & sib_info - > back ,
sizeof ( sib_info - > back ) ) ) ;
xfs_da_buf_done ( sib_buf ) ;
sib_buf = NULL ;
}
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par_blkno = mp - > m_dirleafblk ;
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level = - 1 ;
/*
* Walk down the tree looking for the parent of the moved block .
*/
for ( ; ; ) {
if ( ( error = xfs_da_read_buf ( tp , ip , par_blkno , - 1 , & par_buf , w ) ) )
goto done ;
par_node = par_buf - > data ;
if ( unlikely (
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be16_to_cpu ( par_node - > hdr . info . magic ) ! = XFS_DA_NODE_MAGIC | |
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( level > = 0 & & level ! = be16_to_cpu ( par_node - > hdr . level ) + 1 ) ) ) {
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XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(4) " ,
XFS_ERRLEVEL_LOW , mp ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
goto done ;
}
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level = be16_to_cpu ( par_node - > hdr . level ) ;
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for ( entno = 0 ;
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entno < be16_to_cpu ( par_node - > hdr . count ) & &
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be32_to_cpu ( par_node - > btree [ entno ] . hashval ) < dead_hash ;
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entno + + )
continue ;
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if ( unlikely ( entno = = be16_to_cpu ( par_node - > hdr . count ) ) ) {
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XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(5) " ,
XFS_ERRLEVEL_LOW , mp ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
goto done ;
}
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par_blkno = be32_to_cpu ( par_node - > btree [ entno ] . before ) ;
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if ( level = = dead_level + 1 )
break ;
xfs_da_brelse ( tp , par_buf ) ;
par_buf = NULL ;
}
/*
* We ' re in the right parent block .
* Look for the right entry .
*/
for ( ; ; ) {
for ( ;
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entno < be16_to_cpu ( par_node - > hdr . count ) & &
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be32_to_cpu ( par_node - > btree [ entno ] . before ) ! = last_blkno ;
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entno + + )
continue ;
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if ( entno < be16_to_cpu ( par_node - > hdr . count ) )
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break ;
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par_blkno = be32_to_cpu ( par_node - > hdr . info . forw ) ;
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xfs_da_brelse ( tp , par_buf ) ;
par_buf = NULL ;
if ( unlikely ( par_blkno = = 0 ) ) {
XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(6) " ,
XFS_ERRLEVEL_LOW , mp ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
goto done ;
}
if ( ( error = xfs_da_read_buf ( tp , ip , par_blkno , - 1 , & par_buf , w ) ) )
goto done ;
par_node = par_buf - > data ;
if ( unlikely (
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be16_to_cpu ( par_node - > hdr . level ) ! = level | |
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be16_to_cpu ( par_node - > hdr . info . magic ) ! = XFS_DA_NODE_MAGIC ) ) {
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XFS_ERROR_REPORT ( " xfs_da_swap_lastblock(7) " ,
XFS_ERRLEVEL_LOW , mp ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
goto done ;
}
entno = 0 ;
}
/*
* Update the parent entry pointing to the moved block .
*/
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par_node - > btree [ entno ] . before = cpu_to_be32 ( dead_blkno ) ;
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xfs_da_log_buf ( tp , par_buf ,
XFS_DA_LOGRANGE ( par_node , & par_node - > btree [ entno ] . before ,
sizeof ( par_node - > btree [ entno ] . before ) ) ) ;
xfs_da_buf_done ( par_buf ) ;
xfs_da_buf_done ( dead_buf ) ;
* dead_blknop = last_blkno ;
* dead_bufp = last_buf ;
return 0 ;
done :
if ( par_buf )
xfs_da_brelse ( tp , par_buf ) ;
if ( sib_buf )
xfs_da_brelse ( tp , sib_buf ) ;
xfs_da_brelse ( tp , last_buf ) ;
return error ;
}
/*
* Remove a btree block from a directory or attribute .
*/
int
xfs_da_shrink_inode ( xfs_da_args_t * args , xfs_dablk_t dead_blkno ,
xfs_dabuf_t * dead_buf )
{
xfs_inode_t * dp ;
int done , error , w , count ;
xfs_trans_t * tp ;
xfs_mount_t * mp ;
dp = args - > dp ;
w = args - > whichfork ;
tp = args - > trans ;
mp = dp - > i_mount ;
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if ( w = = XFS_DATA_FORK )
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count = mp - > m_dirblkfsbs ;
else
count = 1 ;
for ( ; ; ) {
/*
* Remove extents . If we get ENOSPC for a dir we have to move
* the last block to the place we want to kill .
*/
if ( ( error = xfs_bunmapi ( tp , dp , dead_blkno , count ,
XFS_BMAPI_AFLAG ( w ) | XFS_BMAPI_METADATA ,
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0 , args - > firstblock , args - > flist , NULL ,
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& done ) ) = = ENOSPC ) {
if ( w ! = XFS_DATA_FORK )
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break ;
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if ( ( error = xfs_da_swap_lastblock ( args , & dead_blkno ,
& dead_buf ) ) )
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break ;
} else {
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break ;
}
}
xfs_da_binval ( tp , dead_buf ) ;
return error ;
}
/*
* See if the mapping ( s ) for this btree block are valid , i . e .
* don ' t contain holes , are logically contiguous , and cover the whole range .
*/
STATIC int
xfs_da_map_covers_blocks (
int nmap ,
xfs_bmbt_irec_t * mapp ,
xfs_dablk_t bno ,
int count )
{
int i ;
xfs_fileoff_t off ;
for ( i = 0 , off = bno ; i < nmap ; i + + ) {
if ( mapp [ i ] . br_startblock = = HOLESTARTBLOCK | |
mapp [ i ] . br_startblock = = DELAYSTARTBLOCK ) {
return 0 ;
}
if ( off ! = mapp [ i ] . br_startoff ) {
return 0 ;
}
off + = mapp [ i ] . br_blockcount ;
}
return off = = bno + count ;
}
/*
* Make a dabuf .
* Used for get_buf , read_buf , read_bufr , and reada_buf .
*/
STATIC int
xfs_da_do_buf (
xfs_trans_t * trans ,
xfs_inode_t * dp ,
xfs_dablk_t bno ,
xfs_daddr_t * mappedbnop ,
xfs_dabuf_t * * bpp ,
int whichfork ,
int caller ,
inst_t * ra )
{
xfs_buf_t * bp = NULL ;
xfs_buf_t * * bplist ;
int error = 0 ;
int i ;
xfs_bmbt_irec_t map ;
xfs_bmbt_irec_t * mapp ;
xfs_daddr_t mappedbno ;
xfs_mount_t * mp ;
int nbplist = 0 ;
int nfsb ;
int nmap ;
xfs_dabuf_t * rbp ;
mp = dp - > i_mount ;
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nfsb = ( whichfork = = XFS_DATA_FORK ) ? mp - > m_dirblkfsbs : 1 ;
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mappedbno = * mappedbnop ;
/*
* Caller doesn ' t have a mapping . - 2 means don ' t complain
* if we land in a hole .
*/
if ( mappedbno = = - 1 | | mappedbno = = - 2 ) {
/*
* Optimize the one - block case .
*/
if ( nfsb = = 1 ) {
xfs_fsblock_t fsb ;
if ( ( error =
xfs_bmapi_single ( trans , dp , whichfork , & fsb ,
( xfs_fileoff_t ) bno ) ) ) {
return error ;
}
mapp = & map ;
if ( fsb = = NULLFSBLOCK ) {
nmap = 0 ;
} else {
map . br_startblock = fsb ;
map . br_startoff = ( xfs_fileoff_t ) bno ;
map . br_blockcount = 1 ;
nmap = 1 ;
}
} else {
mapp = kmem_alloc ( sizeof ( * mapp ) * nfsb , KM_SLEEP ) ;
nmap = nfsb ;
if ( ( error = xfs_bmapi ( trans , dp , ( xfs_fileoff_t ) bno ,
nfsb ,
XFS_BMAPI_METADATA |
XFS_BMAPI_AFLAG ( whichfork ) ,
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NULL , 0 , mapp , & nmap , NULL , NULL ) ) )
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goto exit0 ;
}
} else {
map . br_startblock = XFS_DADDR_TO_FSB ( mp , mappedbno ) ;
map . br_startoff = ( xfs_fileoff_t ) bno ;
map . br_blockcount = nfsb ;
mapp = & map ;
nmap = 1 ;
}
if ( ! xfs_da_map_covers_blocks ( nmap , mapp , bno , nfsb ) ) {
error = mappedbno = = - 2 ? 0 : XFS_ERROR ( EFSCORRUPTED ) ;
if ( unlikely ( error = = EFSCORRUPTED ) ) {
if ( xfs_error_level > = XFS_ERRLEVEL_LOW ) {
cmn_err ( CE_ALERT , " xfs_da_do_buf: bno %lld \n " ,
( long long ) bno ) ;
cmn_err ( CE_ALERT , " dir: inode %lld \n " ,
( long long ) dp - > i_ino ) ;
for ( i = 0 ; i < nmap ; i + + ) {
cmn_err ( CE_ALERT ,
" [%02d] br_startoff %lld br_startblock %lld br_blockcount %lld br_state %d \n " ,
i ,
( long long ) mapp [ i ] . br_startoff ,
( long long ) mapp [ i ] . br_startblock ,
( long long ) mapp [ i ] . br_blockcount ,
mapp [ i ] . br_state ) ;
}
}
XFS_ERROR_REPORT ( " xfs_da_do_buf(1) " ,
XFS_ERRLEVEL_LOW , mp ) ;
}
goto exit0 ;
}
if ( caller ! = 3 & & nmap > 1 ) {
bplist = kmem_alloc ( sizeof ( * bplist ) * nmap , KM_SLEEP ) ;
nbplist = 0 ;
} else
bplist = NULL ;
/*
* Turn the mapping ( s ) into buffer ( s ) .
*/
for ( i = 0 ; i < nmap ; i + + ) {
int nmapped ;
mappedbno = XFS_FSB_TO_DADDR ( mp , mapp [ i ] . br_startblock ) ;
if ( i = = 0 )
* mappedbnop = mappedbno ;
nmapped = ( int ) XFS_FSB_TO_BB ( mp , mapp [ i ] . br_blockcount ) ;
switch ( caller ) {
case 0 :
bp = xfs_trans_get_buf ( trans , mp - > m_ddev_targp ,
mappedbno , nmapped , 0 ) ;
error = bp ? XFS_BUF_GETERROR ( bp ) : XFS_ERROR ( EIO ) ;
break ;
case 1 :
case 2 :
bp = NULL ;
error = xfs_trans_read_buf ( mp , trans , mp - > m_ddev_targp ,
mappedbno , nmapped , 0 , & bp ) ;
break ;
case 3 :
xfs_baread ( mp - > m_ddev_targp , mappedbno , nmapped ) ;
error = 0 ;
bp = NULL ;
break ;
}
if ( error ) {
if ( bp )
xfs_trans_brelse ( trans , bp ) ;
goto exit1 ;
}
if ( ! bp )
continue ;
if ( caller = = 1 ) {
if ( whichfork = = XFS_ATTR_FORK ) {
XFS_BUF_SET_VTYPE_REF ( bp , B_FS_ATTR_BTREE ,
XFS_ATTR_BTREE_REF ) ;
} else {
XFS_BUF_SET_VTYPE_REF ( bp , B_FS_DIR_BTREE ,
XFS_DIR_BTREE_REF ) ;
}
}
if ( bplist ) {
bplist [ nbplist + + ] = bp ;
}
}
/*
* Build a dabuf structure .
*/
if ( bplist ) {
rbp = xfs_da_buf_make ( nbplist , bplist , ra ) ;
} else if ( bp )
rbp = xfs_da_buf_make ( 1 , & bp , ra ) ;
else
rbp = NULL ;
/*
* For read_buf , check the magic number .
*/
if ( caller = = 1 ) {
xfs_dir2_data_t * data ;
xfs_dir2_free_t * free ;
xfs_da_blkinfo_t * info ;
uint magic , magic1 ;
info = rbp - > data ;
data = rbp - > data ;
free = rbp - > data ;
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magic = be16_to_cpu ( info - > magic ) ;
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magic1 = be32_to_cpu ( data - > hdr . magic ) ;
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if ( unlikely (
XFS_TEST_ERROR ( ( magic ! = XFS_DA_NODE_MAGIC ) & &
( magic ! = XFS_ATTR_LEAF_MAGIC ) & &
( magic ! = XFS_DIR2_LEAF1_MAGIC ) & &
( magic ! = XFS_DIR2_LEAFN_MAGIC ) & &
( magic1 ! = XFS_DIR2_BLOCK_MAGIC ) & &
( magic1 ! = XFS_DIR2_DATA_MAGIC ) & &
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( be32_to_cpu ( free - > hdr . magic ) ! = XFS_DIR2_FREE_MAGIC ) ,
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mp , XFS_ERRTAG_DA_READ_BUF ,
XFS_RANDOM_DA_READ_BUF ) ) ) {
xfs_buftrace ( " DA READ ERROR " , rbp - > bps [ 0 ] ) ;
XFS_CORRUPTION_ERROR ( " xfs_da_do_buf(2) " ,
XFS_ERRLEVEL_LOW , mp , info ) ;
error = XFS_ERROR ( EFSCORRUPTED ) ;
xfs_da_brelse ( trans , rbp ) ;
nbplist = 0 ;
goto exit1 ;
}
}
if ( bplist ) {
kmem_free ( bplist , sizeof ( * bplist ) * nmap ) ;
}
if ( mapp ! = & map ) {
kmem_free ( mapp , sizeof ( * mapp ) * nfsb ) ;
}
if ( bpp )
* bpp = rbp ;
return 0 ;
exit1 :
if ( bplist ) {
for ( i = 0 ; i < nbplist ; i + + )
xfs_trans_brelse ( trans , bplist [ i ] ) ;
kmem_free ( bplist , sizeof ( * bplist ) * nmap ) ;
}
exit0 :
if ( mapp ! = & map )
kmem_free ( mapp , sizeof ( * mapp ) * nfsb ) ;
if ( bpp )
* bpp = NULL ;
return error ;
}
/*
* Get a buffer for the dir / attr block .
*/
int
xfs_da_get_buf (
xfs_trans_t * trans ,
xfs_inode_t * dp ,
xfs_dablk_t bno ,
xfs_daddr_t mappedbno ,
xfs_dabuf_t * * bpp ,
int whichfork )
{
return xfs_da_do_buf ( trans , dp , bno , & mappedbno , bpp , whichfork , 0 ,
( inst_t * ) __return_address ) ;
}
/*
* Get a buffer for the dir / attr block , fill in the contents .
*/
int
xfs_da_read_buf (
xfs_trans_t * trans ,
xfs_inode_t * dp ,
xfs_dablk_t bno ,
xfs_daddr_t mappedbno ,
xfs_dabuf_t * * bpp ,
int whichfork )
{
return xfs_da_do_buf ( trans , dp , bno , & mappedbno , bpp , whichfork , 1 ,
( inst_t * ) __return_address ) ;
}
/*
* Readahead the dir / attr block .
*/
xfs_daddr_t
xfs_da_reada_buf (
xfs_trans_t * trans ,
xfs_inode_t * dp ,
xfs_dablk_t bno ,
int whichfork )
{
xfs_daddr_t rval ;
rval = - 1 ;
if ( xfs_da_do_buf ( trans , dp , bno , & rval , NULL , whichfork , 3 ,
( inst_t * ) __return_address ) )
return - 1 ;
else
return rval ;
}
kmem_zone_t * xfs_da_state_zone ; /* anchor for state struct zone */
kmem_zone_t * xfs_dabuf_zone ; /* dabuf zone */
/*
* Allocate a dir - state structure .
* We don ' t put them on the stack since they ' re large .
*/
xfs_da_state_t *
xfs_da_state_alloc ( void )
{
return kmem_zone_zalloc ( xfs_da_state_zone , KM_SLEEP ) ;
}
/*
* Kill the altpath contents of a da - state structure .
*/
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STATIC void
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xfs_da_state_kill_altpath ( xfs_da_state_t * state )
{
int i ;
for ( i = 0 ; i < state - > altpath . active ; i + + ) {
if ( state - > altpath . blk [ i ] . bp ) {
if ( state - > altpath . blk [ i ] . bp ! = state - > path . blk [ i ] . bp )
xfs_da_buf_done ( state - > altpath . blk [ i ] . bp ) ;
state - > altpath . blk [ i ] . bp = NULL ;
}
}
state - > altpath . active = 0 ;
}
/*
* Free a da - state structure .
*/
void
xfs_da_state_free ( xfs_da_state_t * state )
{
int i ;
xfs_da_state_kill_altpath ( state ) ;
for ( i = 0 ; i < state - > path . active ; i + + ) {
if ( state - > path . blk [ i ] . bp )
xfs_da_buf_done ( state - > path . blk [ i ] . bp ) ;
}
if ( state - > extravalid & & state - > extrablk . bp )
xfs_da_buf_done ( state - > extrablk . bp ) ;
# ifdef DEBUG
memset ( ( char * ) state , 0 , sizeof ( * state ) ) ;
# endif /* DEBUG */
kmem_zone_free ( xfs_da_state_zone , state ) ;
}
# ifdef XFS_DABUF_DEBUG
xfs_dabuf_t * xfs_dabuf_global_list ;
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spinlock_t xfs_dabuf_global_lock ;
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# endif
/*
* Create a dabuf .
*/
/* ARGSUSED */
STATIC xfs_dabuf_t *
xfs_da_buf_make ( int nbuf , xfs_buf_t * * bps , inst_t * ra )
{
xfs_buf_t * bp ;
xfs_dabuf_t * dabuf ;
int i ;
int off ;
if ( nbuf = = 1 )
dabuf = kmem_zone_alloc ( xfs_dabuf_zone , KM_SLEEP ) ;
else
dabuf = kmem_alloc ( XFS_DA_BUF_SIZE ( nbuf ) , KM_SLEEP ) ;
dabuf - > dirty = 0 ;
# ifdef XFS_DABUF_DEBUG
dabuf - > ra = ra ;
dabuf - > target = XFS_BUF_TARGET ( bps [ 0 ] ) ;
dabuf - > blkno = XFS_BUF_ADDR ( bps [ 0 ] ) ;
# endif
if ( nbuf = = 1 ) {
dabuf - > nbuf = 1 ;
bp = bps [ 0 ] ;
dabuf - > bbcount = ( short ) BTOBB ( XFS_BUF_COUNT ( bp ) ) ;
dabuf - > data = XFS_BUF_PTR ( bp ) ;
dabuf - > bps [ 0 ] = bp ;
} else {
dabuf - > nbuf = nbuf ;
for ( i = 0 , dabuf - > bbcount = 0 ; i < nbuf ; i + + ) {
dabuf - > bps [ i ] = bp = bps [ i ] ;
dabuf - > bbcount + = BTOBB ( XFS_BUF_COUNT ( bp ) ) ;
}
dabuf - > data = kmem_alloc ( BBTOB ( dabuf - > bbcount ) , KM_SLEEP ) ;
for ( i = off = 0 ; i < nbuf ; i + + , off + = XFS_BUF_COUNT ( bp ) ) {
bp = bps [ i ] ;
memcpy ( ( char * ) dabuf - > data + off , XFS_BUF_PTR ( bp ) ,
XFS_BUF_COUNT ( bp ) ) ;
}
}
# ifdef XFS_DABUF_DEBUG
{
xfs_dabuf_t * p ;
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spin_lock ( & xfs_dabuf_global_lock ) ;
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for ( p = xfs_dabuf_global_list ; p ; p = p - > next ) {
ASSERT ( p - > blkno ! = dabuf - > blkno | |
p - > target ! = dabuf - > target ) ;
}
dabuf - > prev = NULL ;
if ( xfs_dabuf_global_list )
xfs_dabuf_global_list - > prev = dabuf ;
dabuf - > next = xfs_dabuf_global_list ;
xfs_dabuf_global_list = dabuf ;
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spin_unlock ( & xfs_dabuf_global_lock ) ;
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}
# endif
return dabuf ;
}
/*
* Un - dirty a dabuf .
*/
STATIC void
xfs_da_buf_clean ( xfs_dabuf_t * dabuf )
{
xfs_buf_t * bp ;
int i ;
int off ;
if ( dabuf - > dirty ) {
ASSERT ( dabuf - > nbuf > 1 ) ;
dabuf - > dirty = 0 ;
for ( i = off = 0 ; i < dabuf - > nbuf ;
i + + , off + = XFS_BUF_COUNT ( bp ) ) {
bp = dabuf - > bps [ i ] ;
memcpy ( XFS_BUF_PTR ( bp ) , ( char * ) dabuf - > data + off ,
XFS_BUF_COUNT ( bp ) ) ;
}
}
}
/*
* Release a dabuf .
*/
void
xfs_da_buf_done ( xfs_dabuf_t * dabuf )
{
ASSERT ( dabuf ) ;
ASSERT ( dabuf - > nbuf & & dabuf - > data & & dabuf - > bbcount & & dabuf - > bps [ 0 ] ) ;
if ( dabuf - > dirty )
xfs_da_buf_clean ( dabuf ) ;
if ( dabuf - > nbuf > 1 )
kmem_free ( dabuf - > data , BBTOB ( dabuf - > bbcount ) ) ;
# ifdef XFS_DABUF_DEBUG
{
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spin_lock ( & xfs_dabuf_global_lock ) ;
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if ( dabuf - > prev )
dabuf - > prev - > next = dabuf - > next ;
else
xfs_dabuf_global_list = dabuf - > next ;
if ( dabuf - > next )
dabuf - > next - > prev = dabuf - > prev ;
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spin_unlock ( & xfs_dabuf_global_lock ) ;
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}
memset ( dabuf , 0 , XFS_DA_BUF_SIZE ( dabuf - > nbuf ) ) ;
# endif
if ( dabuf - > nbuf = = 1 )
kmem_zone_free ( xfs_dabuf_zone , dabuf ) ;
else
kmem_free ( dabuf , XFS_DA_BUF_SIZE ( dabuf - > nbuf ) ) ;
}
/*
* Log transaction from a dabuf .
*/
void
xfs_da_log_buf ( xfs_trans_t * tp , xfs_dabuf_t * dabuf , uint first , uint last )
{
xfs_buf_t * bp ;
uint f ;
int i ;
uint l ;
int off ;
ASSERT ( dabuf - > nbuf & & dabuf - > data & & dabuf - > bbcount & & dabuf - > bps [ 0 ] ) ;
if ( dabuf - > nbuf = = 1 ) {
ASSERT ( dabuf - > data = = ( void * ) XFS_BUF_PTR ( dabuf - > bps [ 0 ] ) ) ;
xfs_trans_log_buf ( tp , dabuf - > bps [ 0 ] , first , last ) ;
return ;
}
dabuf - > dirty = 1 ;
ASSERT ( first < = last ) ;
for ( i = off = 0 ; i < dabuf - > nbuf ; i + + , off + = XFS_BUF_COUNT ( bp ) ) {
bp = dabuf - > bps [ i ] ;
f = off ;
l = f + XFS_BUF_COUNT ( bp ) - 1 ;
if ( f < first )
f = first ;
if ( l > last )
l = last ;
if ( f < = l )
xfs_trans_log_buf ( tp , bp , f - off , l - off ) ;
/*
* B_DONE is set by xfs_trans_log buf .
* If we don ' t set it on a new buffer ( get not read )
* then if we don ' t put anything in the buffer it won ' t
* be set , and at commit it it released into the cache ,
* and then a read will fail .
*/
else if ( ! ( XFS_BUF_ISDONE ( bp ) ) )
XFS_BUF_DONE ( bp ) ;
}
ASSERT ( last < off ) ;
}
/*
* Release dabuf from a transaction .
* Have to free up the dabuf before the buffers are released ,
* since the synchronization on the dabuf is really the lock on the buffer .
*/
void
xfs_da_brelse ( xfs_trans_t * tp , xfs_dabuf_t * dabuf )
{
xfs_buf_t * bp ;
xfs_buf_t * * bplist ;
int i ;
int nbuf ;
ASSERT ( dabuf - > nbuf & & dabuf - > data & & dabuf - > bbcount & & dabuf - > bps [ 0 ] ) ;
if ( ( nbuf = dabuf - > nbuf ) = = 1 ) {
bplist = & bp ;
bp = dabuf - > bps [ 0 ] ;
} else {
bplist = kmem_alloc ( nbuf * sizeof ( * bplist ) , KM_SLEEP ) ;
memcpy ( bplist , dabuf - > bps , nbuf * sizeof ( * bplist ) ) ;
}
xfs_da_buf_done ( dabuf ) ;
for ( i = 0 ; i < nbuf ; i + + )
xfs_trans_brelse ( tp , bplist [ i ] ) ;
if ( bplist ! = & bp )
kmem_free ( bplist , nbuf * sizeof ( * bplist ) ) ;
}
/*
* Invalidate dabuf from a transaction .
*/
void
xfs_da_binval ( xfs_trans_t * tp , xfs_dabuf_t * dabuf )
{
xfs_buf_t * bp ;
xfs_buf_t * * bplist ;
int i ;
int nbuf ;
ASSERT ( dabuf - > nbuf & & dabuf - > data & & dabuf - > bbcount & & dabuf - > bps [ 0 ] ) ;
if ( ( nbuf = dabuf - > nbuf ) = = 1 ) {
bplist = & bp ;
bp = dabuf - > bps [ 0 ] ;
} else {
bplist = kmem_alloc ( nbuf * sizeof ( * bplist ) , KM_SLEEP ) ;
memcpy ( bplist , dabuf - > bps , nbuf * sizeof ( * bplist ) ) ;
}
xfs_da_buf_done ( dabuf ) ;
for ( i = 0 ; i < nbuf ; i + + )
xfs_trans_binval ( tp , bplist [ i ] ) ;
if ( bplist ! = & bp )
kmem_free ( bplist , nbuf * sizeof ( * bplist ) ) ;
}
/*
* Get the first daddr from a dabuf .
*/
xfs_daddr_t
xfs_da_blkno ( xfs_dabuf_t * dabuf )
{
ASSERT ( dabuf - > nbuf ) ;
ASSERT ( dabuf - > data ) ;
return XFS_BUF_ADDR ( dabuf - > bps [ 0 ] ) ;
}