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/*
* This file is part of UBIFS .
*
* Copyright ( C ) 2006 - 2008 Nokia Corporation .
*
* This program is free software ; you can redistribute it and / or modify it
* under the terms of the GNU General Public License version 2 as published by
* the Free Software Foundation .
*
* This program is distributed in the hope that it will be useful , but WITHOUT
* ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE . See the GNU General Public License for
* more details .
*
* You should have received a copy of the GNU General Public License along with
* this program ; if not , write to the Free Software Foundation , Inc . , 51
* Franklin St , Fifth Floor , Boston , MA 02110 - 1301 USA
*
* Authors : Adrian Hunter
* Artem Bityutskiy ( Б и т ю ц к и й А р т ё м )
*/
/* This file implements TNC functions for committing */
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# include <linux/random.h>
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# include "ubifs.h"
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/**
* make_idx_node - make an index node for fill - the - gaps method of TNC commit .
* @ c : UBIFS file - system description object
* @ idx : buffer in which to place new index node
* @ znode : znode from which to make new index node
* @ lnum : LEB number where new index node will be written
* @ offs : offset where new index node will be written
* @ len : length of new index node
*/
static int make_idx_node ( struct ubifs_info * c , struct ubifs_idx_node * idx ,
struct ubifs_znode * znode , int lnum , int offs , int len )
{
struct ubifs_znode * zp ;
int i , err ;
/* Make index node */
idx - > ch . node_type = UBIFS_IDX_NODE ;
idx - > child_cnt = cpu_to_le16 ( znode - > child_cnt ) ;
idx - > level = cpu_to_le16 ( znode - > level ) ;
for ( i = 0 ; i < znode - > child_cnt ; i + + ) {
struct ubifs_branch * br = ubifs_idx_branch ( c , idx , i ) ;
struct ubifs_zbranch * zbr = & znode - > zbranch [ i ] ;
key_write_idx ( c , & zbr - > key , & br - > key ) ;
br - > lnum = cpu_to_le32 ( zbr - > lnum ) ;
br - > offs = cpu_to_le32 ( zbr - > offs ) ;
br - > len = cpu_to_le32 ( zbr - > len ) ;
if ( ! zbr - > lnum | | ! zbr - > len ) {
ubifs_err ( " bad ref in znode " ) ;
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ubifs_dump_znode ( c , znode ) ;
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if ( zbr - > znode )
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ubifs_dump_znode ( c , zbr - > znode ) ;
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}
}
ubifs_prepare_node ( c , idx , len , 0 ) ;
znode - > lnum = lnum ;
znode - > offs = offs ;
znode - > len = len ;
err = insert_old_idx_znode ( c , znode ) ;
/* Update the parent */
zp = znode - > parent ;
if ( zp ) {
struct ubifs_zbranch * zbr ;
zbr = & zp - > zbranch [ znode - > iip ] ;
zbr - > lnum = lnum ;
zbr - > offs = offs ;
zbr - > len = len ;
} else {
c - > zroot . lnum = lnum ;
c - > zroot . offs = offs ;
c - > zroot . len = len ;
}
c - > calc_idx_sz + = ALIGN ( len , 8 ) ;
atomic_long_dec ( & c - > dirty_zn_cnt ) ;
ubifs_assert ( ubifs_zn_dirty ( znode ) ) ;
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ubifs_assert ( ubifs_zn_cow ( znode ) ) ;
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/*
* Note , unlike ' write_index ( ) ' we do not add memory barriers here
* because this function is called with @ c - > tnc_mutex locked .
*/
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__clear_bit ( DIRTY_ZNODE , & znode - > flags ) ;
__clear_bit ( COW_ZNODE , & znode - > flags ) ;
return err ;
}
/**
* fill_gap - make index nodes in gaps in dirty index LEBs .
* @ c : UBIFS file - system description object
* @ lnum : LEB number that gap appears in
* @ gap_start : offset of start of gap
* @ gap_end : offset of end of gap
* @ dirt : adds dirty space to this
*
* This function returns the number of index nodes written into the gap .
*/
static int fill_gap ( struct ubifs_info * c , int lnum , int gap_start , int gap_end ,
int * dirt )
{
int len , gap_remains , gap_pos , written , pad_len ;
ubifs_assert ( ( gap_start & 7 ) = = 0 ) ;
ubifs_assert ( ( gap_end & 7 ) = = 0 ) ;
ubifs_assert ( gap_end > = gap_start ) ;
gap_remains = gap_end - gap_start ;
if ( ! gap_remains )
return 0 ;
gap_pos = gap_start ;
written = 0 ;
while ( c - > enext ) {
len = ubifs_idx_node_sz ( c , c - > enext - > child_cnt ) ;
if ( len < gap_remains ) {
struct ubifs_znode * znode = c - > enext ;
const int alen = ALIGN ( len , 8 ) ;
int err ;
ubifs_assert ( alen < = gap_remains ) ;
err = make_idx_node ( c , c - > ileb_buf + gap_pos , znode ,
lnum , gap_pos , len ) ;
if ( err )
return err ;
gap_remains - = alen ;
gap_pos + = alen ;
c - > enext = znode - > cnext ;
if ( c - > enext = = c - > cnext )
c - > enext = NULL ;
written + = 1 ;
} else
break ;
}
if ( gap_end = = c - > leb_size ) {
c - > ileb_len = ALIGN ( gap_pos , c - > min_io_size ) ;
/* Pad to end of min_io_size */
pad_len = c - > ileb_len - gap_pos ;
} else
/* Pad to end of gap */
pad_len = gap_remains ;
dbg_gc ( " LEB %d:%d to %d len %d nodes written %d wasted bytes %d " ,
lnum , gap_start , gap_end , gap_end - gap_start , written , pad_len ) ;
ubifs_pad ( c , c - > ileb_buf + gap_pos , pad_len ) ;
* dirt + = pad_len ;
return written ;
}
/**
* find_old_idx - find an index node obsoleted since the last commit start .
* @ c : UBIFS file - system description object
* @ lnum : LEB number of obsoleted index node
* @ offs : offset of obsoleted index node
*
* Returns % 1 if found and % 0 otherwise .
*/
static int find_old_idx ( struct ubifs_info * c , int lnum , int offs )
{
struct ubifs_old_idx * o ;
struct rb_node * p ;
p = c - > old_idx . rb_node ;
while ( p ) {
o = rb_entry ( p , struct ubifs_old_idx , rb ) ;
if ( lnum < o - > lnum )
p = p - > rb_left ;
else if ( lnum > o - > lnum )
p = p - > rb_right ;
else if ( offs < o - > offs )
p = p - > rb_left ;
else if ( offs > o - > offs )
p = p - > rb_right ;
else
return 1 ;
}
return 0 ;
}
/**
* is_idx_node_in_use - determine if an index node can be overwritten .
* @ c : UBIFS file - system description object
* @ key : key of index node
* @ level : index node level
* @ lnum : LEB number of index node
* @ offs : offset of index node
*
* If @ key / @ lnum / @ offs identify an index node that was not part of the old
* index , then this function returns % 0 ( obsolete ) . Else if the index node was
* part of the old index but is now dirty % 1 is returned , else if it is clean % 2
* is returned . A negative error code is returned on failure .
*/
static int is_idx_node_in_use ( struct ubifs_info * c , union ubifs_key * key ,
int level , int lnum , int offs )
{
int ret ;
ret = is_idx_node_in_tnc ( c , key , level , lnum , offs ) ;
if ( ret < 0 )
return ret ; /* Error code */
if ( ret = = 0 )
if ( find_old_idx ( c , lnum , offs ) )
return 1 ;
return ret ;
}
/**
* layout_leb_in_gaps - layout index nodes using in - the - gaps method .
* @ c : UBIFS file - system description object
* @ p : return LEB number here
*
* This function lays out new index nodes for dirty znodes using in - the - gaps
* method of TNC commit .
* This function merely puts the next znode into the next gap , making no attempt
* to try to maximise the number of znodes that fit .
* This function returns the number of index nodes written into the gaps , or a
* negative error code on failure .
*/
static int layout_leb_in_gaps ( struct ubifs_info * c , int * p )
{
struct ubifs_scan_leb * sleb ;
struct ubifs_scan_node * snod ;
int lnum , dirt = 0 , gap_start , gap_end , err , written , tot_written ;
tot_written = 0 ;
/* Get an index LEB with lots of obsolete index nodes */
lnum = ubifs_find_dirty_idx_leb ( c ) ;
if ( lnum < 0 )
/*
* There also may be dirt in the index head that could be
* filled , however we do not check there at present .
*/
return lnum ; /* Error code */
* p = lnum ;
dbg_gc ( " LEB %d " , lnum ) ;
/*
* Scan the index LEB . We use the generic scan for this even though
* it is more comprehensive and less efficient than is needed for this
* purpose .
*/
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sleb = ubifs_scan ( c , lnum , 0 , c - > ileb_buf , 0 ) ;
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c - > ileb_len = 0 ;
if ( IS_ERR ( sleb ) )
return PTR_ERR ( sleb ) ;
gap_start = 0 ;
list_for_each_entry ( snod , & sleb - > nodes , list ) {
struct ubifs_idx_node * idx ;
int in_use , level ;
ubifs_assert ( snod - > type = = UBIFS_IDX_NODE ) ;
idx = snod - > node ;
key_read ( c , ubifs_idx_key ( c , idx ) , & snod - > key ) ;
level = le16_to_cpu ( idx - > level ) ;
/* Determine if the index node is in use (not obsolete) */
in_use = is_idx_node_in_use ( c , & snod - > key , level , lnum ,
snod - > offs ) ;
if ( in_use < 0 ) {
ubifs_scan_destroy ( sleb ) ;
return in_use ; /* Error code */
}
if ( in_use ) {
if ( in_use = = 1 )
dirt + = ALIGN ( snod - > len , 8 ) ;
/*
* The obsolete index nodes form gaps that can be
* overwritten . This gap has ended because we have
* found an index node that is still in use
* i . e . not obsolete
*/
gap_end = snod - > offs ;
/* Try to fill gap */
written = fill_gap ( c , lnum , gap_start , gap_end , & dirt ) ;
if ( written < 0 ) {
ubifs_scan_destroy ( sleb ) ;
return written ; /* Error code */
}
tot_written + = written ;
gap_start = ALIGN ( snod - > offs + snod - > len , 8 ) ;
}
}
ubifs_scan_destroy ( sleb ) ;
c - > ileb_len = c - > leb_size ;
gap_end = c - > leb_size ;
/* Try to fill gap */
written = fill_gap ( c , lnum , gap_start , gap_end , & dirt ) ;
if ( written < 0 )
return written ; /* Error code */
tot_written + = written ;
if ( tot_written = = 0 ) {
struct ubifs_lprops lp ;
dbg_gc ( " LEB %d wrote %d index nodes " , lnum , tot_written ) ;
err = ubifs_read_one_lp ( c , lnum , & lp ) ;
if ( err )
return err ;
if ( lp . free = = c - > leb_size ) {
/*
* We must have snatched this LEB from the idx_gc list
* so we need to correct the free and dirty space .
*/
err = ubifs_change_one_lp ( c , lnum ,
c - > leb_size - c - > ileb_len ,
dirt , 0 , 0 , 0 ) ;
if ( err )
return err ;
}
return 0 ;
}
err = ubifs_change_one_lp ( c , lnum , c - > leb_size - c - > ileb_len , dirt ,
0 , 0 , 0 ) ;
if ( err )
return err ;
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err = ubifs_leb_change ( c , lnum , c - > ileb_buf , c - > ileb_len ) ;
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if ( err )
return err ;
dbg_gc ( " LEB %d wrote %d index nodes " , lnum , tot_written ) ;
return tot_written ;
}
/**
* get_leb_cnt - calculate the number of empty LEBs needed to commit .
* @ c : UBIFS file - system description object
* @ cnt : number of znodes to commit
*
* This function returns the number of empty LEBs needed to commit @ cnt znodes
* to the current index head . The number is not exact and may be more than
* needed .
*/
static int get_leb_cnt ( struct ubifs_info * c , int cnt )
{
int d ;
/* Assume maximum index node size (i.e. overestimate space needed) */
cnt - = ( c - > leb_size - c - > ihead_offs ) / c - > max_idx_node_sz ;
if ( cnt < 0 )
cnt = 0 ;
d = c - > leb_size / c - > max_idx_node_sz ;
return DIV_ROUND_UP ( cnt , d ) ;
}
/**
* layout_in_gaps - in - the - gaps method of committing TNC .
* @ c : UBIFS file - system description object
* @ cnt : number of dirty znodes to commit .
*
* This function lays out new index nodes for dirty znodes using in - the - gaps
* method of TNC commit .
*
* This function returns % 0 on success and a negative error code on failure .
*/
static int layout_in_gaps ( struct ubifs_info * c , int cnt )
{
int err , leb_needed_cnt , written , * p ;
dbg_gc ( " %d znodes to write " , cnt ) ;
c - > gap_lebs = kmalloc ( sizeof ( int ) * ( c - > lst . idx_lebs + 1 ) , GFP_NOFS ) ;
if ( ! c - > gap_lebs )
return - ENOMEM ;
p = c - > gap_lebs ;
do {
ubifs_assert ( p < c - > gap_lebs + sizeof ( int ) * c - > lst . idx_lebs ) ;
written = layout_leb_in_gaps ( c , p ) ;
if ( written < 0 ) {
err = written ;
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if ( err ! = - ENOSPC ) {
kfree ( c - > gap_lebs ) ;
c - > gap_lebs = NULL ;
return err ;
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}
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if ( ! dbg_is_chk_index ( c ) ) {
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/*
* Do not print scary warnings if the debugging
* option which forces in - the - gaps is enabled .
*/
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ubifs_warn ( " out of space " ) ;
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ubifs_dump_budg ( c , & c - > bi ) ;
ubifs_dump_lprops ( c ) ;
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}
/* Try to commit anyway */
err = 0 ;
break ;
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}
p + + ;
cnt - = written ;
leb_needed_cnt = get_leb_cnt ( c , cnt ) ;
dbg_gc ( " %d znodes remaining, need %d LEBs, have %d " , cnt ,
leb_needed_cnt , c - > ileb_cnt ) ;
} while ( leb_needed_cnt > c - > ileb_cnt ) ;
* p = - 1 ;
return 0 ;
}
/**
* layout_in_empty_space - layout index nodes in empty space .
* @ c : UBIFS file - system description object
*
* This function lays out new index nodes for dirty znodes using empty LEBs .
*
* This function returns % 0 on success and a negative error code on failure .
*/
static int layout_in_empty_space ( struct ubifs_info * c )
{
struct ubifs_znode * znode , * cnext , * zp ;
int lnum , offs , len , next_len , buf_len , buf_offs , used , avail ;
int wlen , blen , err ;
cnext = c - > enext ;
if ( ! cnext )
return 0 ;
lnum = c - > ihead_lnum ;
buf_offs = c - > ihead_offs ;
buf_len = ubifs_idx_node_sz ( c , c - > fanout ) ;
buf_len = ALIGN ( buf_len , c - > min_io_size ) ;
used = 0 ;
avail = buf_len ;
/* Ensure there is enough room for first write */
next_len = ubifs_idx_node_sz ( c , cnext - > child_cnt ) ;
if ( buf_offs + next_len > c - > leb_size )
lnum = - 1 ;
while ( 1 ) {
znode = cnext ;
len = ubifs_idx_node_sz ( c , znode - > child_cnt ) ;
/* Determine the index node position */
if ( lnum = = - 1 ) {
if ( c - > ileb_nxt > = c - > ileb_cnt ) {
ubifs_err ( " out of space " ) ;
return - ENOSPC ;
}
lnum = c - > ilebs [ c - > ileb_nxt + + ] ;
buf_offs = 0 ;
used = 0 ;
avail = buf_len ;
}
offs = buf_offs + used ;
znode - > lnum = lnum ;
znode - > offs = offs ;
znode - > len = len ;
/* Update the parent */
zp = znode - > parent ;
if ( zp ) {
struct ubifs_zbranch * zbr ;
int i ;
i = znode - > iip ;
zbr = & zp - > zbranch [ i ] ;
zbr - > lnum = lnum ;
zbr - > offs = offs ;
zbr - > len = len ;
} else {
c - > zroot . lnum = lnum ;
c - > zroot . offs = offs ;
c - > zroot . len = len ;
}
c - > calc_idx_sz + = ALIGN ( len , 8 ) ;
/*
* Once lprops is updated , we can decrease the dirty znode count
* but it is easier to just do it here .
*/
atomic_long_dec ( & c - > dirty_zn_cnt ) ;
/*
* Calculate the next index node length to see if there is
* enough room for it
*/
cnext = znode - > cnext ;
if ( cnext = = c - > cnext )
next_len = 0 ;
else
next_len = ubifs_idx_node_sz ( c , cnext - > child_cnt ) ;
/* Update buffer positions */
wlen = used + len ;
used + = ALIGN ( len , 8 ) ;
avail - = ALIGN ( len , 8 ) ;
if ( next_len ! = 0 & &
buf_offs + used + next_len < = c - > leb_size & &
avail > 0 )
continue ;
if ( avail < = 0 & & next_len & &
buf_offs + used + next_len < = c - > leb_size )
blen = buf_len ;
else
blen = ALIGN ( wlen , c - > min_io_size ) ;
/* The buffer is full or there are no more znodes to do */
buf_offs + = blen ;
if ( next_len ) {
if ( buf_offs + next_len > c - > leb_size ) {
err = ubifs_update_one_lp ( c , lnum ,
c - > leb_size - buf_offs , blen - used ,
0 , 0 ) ;
if ( err )
return err ;
lnum = - 1 ;
}
used - = blen ;
if ( used < 0 )
used = 0 ;
avail = buf_len - used ;
continue ;
}
err = ubifs_update_one_lp ( c , lnum , c - > leb_size - buf_offs ,
blen - used , 0 , 0 ) ;
if ( err )
return err ;
break ;
}
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c - > dbg - > new_ihead_lnum = lnum ;
c - > dbg - > new_ihead_offs = buf_offs ;
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return 0 ;
}
/**
* layout_commit - determine positions of index nodes to commit .
* @ c : UBIFS file - system description object
* @ no_space : indicates that insufficient empty LEBs were allocated
* @ cnt : number of znodes to commit
*
* Calculate and update the positions of index nodes to commit . If there were
* an insufficient number of empty LEBs allocated , then index nodes are placed
* into the gaps created by obsolete index nodes in non - empty index LEBs . For
* this purpose , an obsolete index node is one that was not in the index as at
* the end of the last commit . To write " in-the-gaps " requires that those index
* LEBs are updated atomically in - place .
*/
static int layout_commit ( struct ubifs_info * c , int no_space , int cnt )
{
int err ;
if ( no_space ) {
err = layout_in_gaps ( c , cnt ) ;
if ( err )
return err ;
}
err = layout_in_empty_space ( c ) ;
return err ;
}
/**
* find_first_dirty - find first dirty znode .
* @ znode : znode to begin searching from
*/
static struct ubifs_znode * find_first_dirty ( struct ubifs_znode * znode )
{
int i , cont ;
if ( ! znode )
return NULL ;
while ( 1 ) {
if ( znode - > level = = 0 ) {
if ( ubifs_zn_dirty ( znode ) )
return znode ;
return NULL ;
}
cont = 0 ;
for ( i = 0 ; i < znode - > child_cnt ; i + + ) {
struct ubifs_zbranch * zbr = & znode - > zbranch [ i ] ;
if ( zbr - > znode & & ubifs_zn_dirty ( zbr - > znode ) ) {
znode = zbr - > znode ;
cont = 1 ;
break ;
}
}
if ( ! cont ) {
if ( ubifs_zn_dirty ( znode ) )
return znode ;
return NULL ;
}
}
}
/**
* find_next_dirty - find next dirty znode .
* @ znode : znode to begin searching from
*/
static struct ubifs_znode * find_next_dirty ( struct ubifs_znode * znode )
{
int n = znode - > iip + 1 ;
znode = znode - > parent ;
if ( ! znode )
return NULL ;
for ( ; n < znode - > child_cnt ; n + + ) {
struct ubifs_zbranch * zbr = & znode - > zbranch [ n ] ;
if ( zbr - > znode & & ubifs_zn_dirty ( zbr - > znode ) )
return find_first_dirty ( zbr - > znode ) ;
}
return znode ;
}
/**
* get_znodes_to_commit - create list of dirty znodes to commit .
* @ c : UBIFS file - system description object
*
* This function returns the number of znodes to commit .
*/
static int get_znodes_to_commit ( struct ubifs_info * c )
{
struct ubifs_znode * znode , * cnext ;
int cnt = 0 ;
c - > cnext = find_first_dirty ( c - > zroot . znode ) ;
znode = c - > enext = c - > cnext ;
if ( ! znode ) {
dbg_cmt ( " no znodes to commit " ) ;
return 0 ;
}
cnt + = 1 ;
while ( 1 ) {
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ubifs_assert ( ! ubifs_zn_cow ( znode ) ) ;
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__set_bit ( COW_ZNODE , & znode - > flags ) ;
znode - > alt = 0 ;
cnext = find_next_dirty ( znode ) ;
if ( ! cnext ) {
znode - > cnext = c - > cnext ;
break ;
}
znode - > cnext = cnext ;
znode = cnext ;
cnt + = 1 ;
}
dbg_cmt ( " committing %d znodes " , cnt ) ;
ubifs_assert ( cnt = = atomic_long_read ( & c - > dirty_zn_cnt ) ) ;
return cnt ;
}
/**
* alloc_idx_lebs - allocate empty LEBs to be used to commit .
* @ c : UBIFS file - system description object
* @ cnt : number of znodes to commit
*
* This function returns % - ENOSPC if it cannot allocate a sufficient number of
* empty LEBs . % 0 is returned on success , otherwise a negative error code
* is returned .
*/
static int alloc_idx_lebs ( struct ubifs_info * c , int cnt )
{
int i , leb_cnt , lnum ;
c - > ileb_cnt = 0 ;
c - > ileb_nxt = 0 ;
leb_cnt = get_leb_cnt ( c , cnt ) ;
dbg_cmt ( " need about %d empty LEBS for TNC commit " , leb_cnt ) ;
if ( ! leb_cnt )
return 0 ;
c - > ilebs = kmalloc ( leb_cnt * sizeof ( int ) , GFP_NOFS ) ;
if ( ! c - > ilebs )
return - ENOMEM ;
for ( i = 0 ; i < leb_cnt ; i + + ) {
lnum = ubifs_find_free_leb_for_idx ( c ) ;
if ( lnum < 0 )
return lnum ;
c - > ilebs [ c - > ileb_cnt + + ] = lnum ;
dbg_cmt ( " LEB %d " , lnum ) ;
}
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if ( dbg_is_chk_index ( c ) & & ! ( prandom_u32 ( ) & 7 ) )
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return - ENOSPC ;
return 0 ;
}
/**
* free_unused_idx_lebs - free unused LEBs that were allocated for the commit .
* @ c : UBIFS file - system description object
*
* It is possible that we allocate more empty LEBs for the commit than we need .
* This functions frees the surplus .
*
* This function returns % 0 on success and a negative error code on failure .
*/
static int free_unused_idx_lebs ( struct ubifs_info * c )
{
int i , err = 0 , lnum , er ;
for ( i = c - > ileb_nxt ; i < c - > ileb_cnt ; i + + ) {
lnum = c - > ilebs [ i ] ;
dbg_cmt ( " LEB %d " , lnum ) ;
er = ubifs_change_one_lp ( c , lnum , LPROPS_NC , LPROPS_NC , 0 ,
LPROPS_INDEX | LPROPS_TAKEN , 0 ) ;
if ( ! err )
err = er ;
}
return err ;
}
/**
* free_idx_lebs - free unused LEBs after commit end .
* @ c : UBIFS file - system description object
*
* This function returns % 0 on success and a negative error code on failure .
*/
static int free_idx_lebs ( struct ubifs_info * c )
{
int err ;
err = free_unused_idx_lebs ( c ) ;
kfree ( c - > ilebs ) ;
c - > ilebs = NULL ;
return err ;
}
/**
* ubifs_tnc_start_commit - start TNC commit .
* @ c : UBIFS file - system description object
* @ zroot : new index root position is returned here
*
* This function prepares the list of indexing nodes to commit and lays out
* their positions on flash . If there is not enough free space it uses the
* in - gap commit method . Returns zero in case of success and a negative error
* code in case of failure .
*/
int ubifs_tnc_start_commit ( struct ubifs_info * c , struct ubifs_zbranch * zroot )
{
int err = 0 , cnt ;
mutex_lock ( & c - > tnc_mutex ) ;
err = dbg_check_tnc ( c , 1 ) ;
if ( err )
goto out ;
cnt = get_znodes_to_commit ( c ) ;
if ( cnt ! = 0 ) {
int no_space = 0 ;
err = alloc_idx_lebs ( c , cnt ) ;
if ( err = = - ENOSPC )
no_space = 1 ;
else if ( err )
goto out_free ;
err = layout_commit ( c , no_space , cnt ) ;
if ( err )
goto out_free ;
ubifs_assert ( atomic_long_read ( & c - > dirty_zn_cnt ) = = 0 ) ;
err = free_unused_idx_lebs ( c ) ;
if ( err )
goto out ;
}
destroy_old_idx ( c ) ;
memcpy ( zroot , & c - > zroot , sizeof ( struct ubifs_zbranch ) ) ;
err = ubifs_save_dirty_idx_lnums ( c ) ;
if ( err )
goto out ;
spin_lock ( & c - > space_lock ) ;
/*
* Although we have not finished committing yet , update size of the
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* committed index ( ' c - > bi . old_idx_sz ' ) and zero out the index growth
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* budget . It is OK to do this now , because we ' ve reserved all the
* space which is needed to commit the index , and it is save for the
* budgeting subsystem to assume the index is already committed ,
* even though it is not .
*/
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ubifs_assert ( c - > bi . min_idx_lebs = = ubifs_calc_min_idx_lebs ( c ) ) ;
c - > bi . old_idx_sz = c - > calc_idx_sz ;
c - > bi . uncommitted_idx = 0 ;
c - > bi . min_idx_lebs = ubifs_calc_min_idx_lebs ( c ) ;
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spin_unlock ( & c - > space_lock ) ;
mutex_unlock ( & c - > tnc_mutex ) ;
dbg_cmt ( " number of index LEBs %d " , c - > lst . idx_lebs ) ;
dbg_cmt ( " size of index %llu " , c - > calc_idx_sz ) ;
return err ;
out_free :
free_idx_lebs ( c ) ;
out :
mutex_unlock ( & c - > tnc_mutex ) ;
return err ;
}
/**
* write_index - write index nodes .
* @ c : UBIFS file - system description object
*
* This function writes the index nodes whose positions were laid out in the
* layout_in_empty_space function .
*/
static int write_index ( struct ubifs_info * c )
{
struct ubifs_idx_node * idx ;
struct ubifs_znode * znode , * cnext ;
int i , lnum , offs , len , next_len , buf_len , buf_offs , used ;
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int avail , wlen , err , lnum_pos = 0 , blen , nxt_offs ;
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cnext = c - > enext ;
if ( ! cnext )
return 0 ;
/*
* Always write index nodes to the index head so that index nodes and
* other types of nodes are never mixed in the same erase block .
*/
lnum = c - > ihead_lnum ;
buf_offs = c - > ihead_offs ;
/* Allocate commit buffer */
buf_len = ALIGN ( c - > max_idx_node_sz , c - > min_io_size ) ;
used = 0 ;
avail = buf_len ;
/* Ensure there is enough room for first write */
next_len = ubifs_idx_node_sz ( c , cnext - > child_cnt ) ;
if ( buf_offs + next_len > c - > leb_size ) {
err = ubifs_update_one_lp ( c , lnum , LPROPS_NC , 0 , 0 ,
LPROPS_TAKEN ) ;
if ( err )
return err ;
lnum = - 1 ;
}
while ( 1 ) {
cond_resched ( ) ;
znode = cnext ;
idx = c - > cbuf + used ;
/* Make index node */
idx - > ch . node_type = UBIFS_IDX_NODE ;
idx - > child_cnt = cpu_to_le16 ( znode - > child_cnt ) ;
idx - > level = cpu_to_le16 ( znode - > level ) ;
for ( i = 0 ; i < znode - > child_cnt ; i + + ) {
struct ubifs_branch * br = ubifs_idx_branch ( c , idx , i ) ;
struct ubifs_zbranch * zbr = & znode - > zbranch [ i ] ;
key_write_idx ( c , & zbr - > key , & br - > key ) ;
br - > lnum = cpu_to_le32 ( zbr - > lnum ) ;
br - > offs = cpu_to_le32 ( zbr - > offs ) ;
br - > len = cpu_to_le32 ( zbr - > len ) ;
if ( ! zbr - > lnum | | ! zbr - > len ) {
ubifs_err ( " bad ref in znode " ) ;
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ubifs_dump_znode ( c , znode ) ;
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if ( zbr - > znode )
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ubifs_dump_znode ( c , zbr - > znode ) ;
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}
}
len = ubifs_idx_node_sz ( c , znode - > child_cnt ) ;
ubifs_prepare_node ( c , idx , len , 0 ) ;
/* Determine the index node position */
if ( lnum = = - 1 ) {
lnum = c - > ilebs [ lnum_pos + + ] ;
buf_offs = 0 ;
used = 0 ;
avail = buf_len ;
}
offs = buf_offs + used ;
if ( lnum ! = znode - > lnum | | offs ! = znode - > offs | |
len ! = znode - > len ) {
ubifs_err ( " inconsistent znode posn " ) ;
return - EINVAL ;
}
/* Grab some stuff from znode while we still can */
cnext = znode - > cnext ;
ubifs_assert ( ubifs_zn_dirty ( znode ) ) ;
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ubifs_assert ( ubifs_zn_cow ( znode ) ) ;
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/*
* It is important that other threads should see % DIRTY_ZNODE
* flag cleared before % COW_ZNODE . Specifically , it matters in
* the ' dirty_cow_znode ( ) ' function . This is the reason for the
* first barrier . Also , we want the bit changes to be seen to
* other threads ASAP , to avoid unnecesarry copying , which is
* the reason for the second barrier .
*/
clear_bit ( DIRTY_ZNODE , & znode - > flags ) ;
smp_mb__before_clear_bit ( ) ;
clear_bit ( COW_ZNODE , & znode - > flags ) ;
smp_mb__after_clear_bit ( ) ;
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/*
* We have marked the znode as clean but have not updated the
* @ c - > clean_zn_cnt counter . If this znode becomes dirty again
* before ' free_obsolete_znodes ( ) ' is called , then
* @ c - > clean_zn_cnt will be decremented before it gets
* incremented ( resulting in 2 decrements for the same znode ) .
* This means that @ c - > clean_zn_cnt may become negative for a
* while .
*
* Q : why we cannot increment @ c - > clean_zn_cnt ?
* A : because we do not have the @ c - > tnc_mutex locked , and the
* following code would be racy and buggy :
*
* if ( ! ubifs_zn_obsolete ( znode ) ) {
* atomic_long_inc ( & c - > clean_zn_cnt ) ;
* atomic_long_inc ( & ubifs_clean_zn_cnt ) ;
* }
*
* Thus , we just delay the @ c - > clean_zn_cnt update until we
* have the mutex locked .
*/
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/* Do not access znode from this point on */
/* Update buffer positions */
wlen = used + len ;
used + = ALIGN ( len , 8 ) ;
avail - = ALIGN ( len , 8 ) ;
/*
* Calculate the next index node length to see if there is
* enough room for it
*/
if ( cnext = = c - > cnext )
next_len = 0 ;
else
next_len = ubifs_idx_node_sz ( c , cnext - > child_cnt ) ;
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nxt_offs = buf_offs + used + next_len ;
if ( next_len & & nxt_offs < = c - > leb_size ) {
if ( avail > 0 )
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continue ;
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else
blen = buf_len ;
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} else {
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wlen = ALIGN ( wlen , 8 ) ;
blen = ALIGN ( wlen , c - > min_io_size ) ;
ubifs_pad ( c , c - > cbuf + wlen , blen - wlen ) ;
}
/* The buffer is full or there are no more znodes to do */
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err = ubifs_leb_write ( c , lnum , c - > cbuf , buf_offs , blen ) ;
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if ( err )
return err ;
buf_offs + = blen ;
if ( next_len ) {
if ( nxt_offs > c - > leb_size ) {
err = ubifs_update_one_lp ( c , lnum , LPROPS_NC , 0 ,
0 , LPROPS_TAKEN ) ;
if ( err )
return err ;
lnum = - 1 ;
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}
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used - = blen ;
if ( used < 0 )
used = 0 ;
avail = buf_len - used ;
memmove ( c - > cbuf , c - > cbuf + blen , used ) ;
continue ;
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}
break ;
}
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if ( lnum ! = c - > dbg - > new_ihead_lnum | |
buf_offs ! = c - > dbg - > new_ihead_offs ) {
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ubifs_err ( " inconsistent ihead " ) ;
return - EINVAL ;
}
c - > ihead_lnum = lnum ;
c - > ihead_offs = buf_offs ;
return 0 ;
}
/**
* free_obsolete_znodes - free obsolete znodes .
* @ c : UBIFS file - system description object
*
* At the end of commit end , obsolete znodes are freed .
*/
static void free_obsolete_znodes ( struct ubifs_info * c )
{
struct ubifs_znode * znode , * cnext ;
cnext = c - > cnext ;
do {
znode = cnext ;
cnext = znode - > cnext ;
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if ( ubifs_zn_obsolete ( znode ) )
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kfree ( znode ) ;
else {
znode - > cnext = NULL ;
atomic_long_inc ( & c - > clean_zn_cnt ) ;
atomic_long_inc ( & ubifs_clean_zn_cnt ) ;
}
} while ( cnext ! = c - > cnext ) ;
}
/**
* return_gap_lebs - return LEBs used by the in - gap commit method .
* @ c : UBIFS file - system description object
*
* This function clears the " taken " flag for the LEBs which were used by the
* " commit in-the-gaps " method .
*/
static int return_gap_lebs ( struct ubifs_info * c )
{
int * p , err ;
if ( ! c - > gap_lebs )
return 0 ;
dbg_cmt ( " " ) ;
for ( p = c - > gap_lebs ; * p ! = - 1 ; p + + ) {
err = ubifs_change_one_lp ( c , * p , LPROPS_NC , LPROPS_NC , 0 ,
LPROPS_TAKEN , 0 ) ;
if ( err )
return err ;
}
kfree ( c - > gap_lebs ) ;
c - > gap_lebs = NULL ;
return 0 ;
}
/**
* ubifs_tnc_end_commit - update the TNC for commit end .
* @ c : UBIFS file - system description object
*
* Write the dirty znodes .
*/
int ubifs_tnc_end_commit ( struct ubifs_info * c )
{
int err ;
if ( ! c - > cnext )
return 0 ;
err = return_gap_lebs ( c ) ;
if ( err )
return err ;
err = write_index ( c ) ;
if ( err )
return err ;
mutex_lock ( & c - > tnc_mutex ) ;
dbg_cmt ( " TNC height is %d " , c - > zroot . znode - > level + 1 ) ;
free_obsolete_znodes ( c ) ;
c - > cnext = NULL ;
kfree ( c - > ilebs ) ;
c - > ilebs = NULL ;
mutex_unlock ( & c - > tnc_mutex ) ;
return 0 ;
}