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/*
* Copyright ( C ) 2007 Oracle . All rights reserved .
*
* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public
* License v2 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 . , 59 Temple Place - Suite 330 ,
* Boston , MA 021110 - 1307 , USA .
*/
# include <linux/gfp.h>
# include <linux/slab.h>
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# include <linux/blkdev.h>
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# include <linux/writeback.h>
# include <linux/pagevec.h>
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# include "ctree.h"
# include "transaction.h"
# include "btrfs_inode.h"
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# include "extent_io.h"
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static u64 entry_end ( struct btrfs_ordered_extent * entry )
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{
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if ( entry - > file_offset + entry - > len < entry - > file_offset )
return ( u64 ) - 1 ;
return entry - > file_offset + entry - > len ;
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}
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static struct rb_node * tree_insert ( struct rb_root * root , u64 file_offset ,
struct rb_node * node )
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{
struct rb_node * * p = & root - > rb_node ;
struct rb_node * parent = NULL ;
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struct btrfs_ordered_extent * entry ;
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while ( * p ) {
parent = * p ;
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entry = rb_entry ( parent , struct btrfs_ordered_extent , rb_node ) ;
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if ( file_offset < entry - > file_offset )
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p = & ( * p ) - > rb_left ;
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else if ( file_offset > = entry_end ( entry ) )
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p = & ( * p ) - > rb_right ;
else
return parent ;
}
rb_link_node ( node , parent , p ) ;
rb_insert_color ( node , root ) ;
return NULL ;
}
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static struct rb_node * __tree_search ( struct rb_root * root , u64 file_offset ,
struct rb_node * * prev_ret )
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{
struct rb_node * n = root - > rb_node ;
struct rb_node * prev = NULL ;
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struct rb_node * test ;
struct btrfs_ordered_extent * entry ;
struct btrfs_ordered_extent * prev_entry = NULL ;
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while ( n ) {
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entry = rb_entry ( n , struct btrfs_ordered_extent , rb_node ) ;
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prev = n ;
prev_entry = entry ;
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if ( file_offset < entry - > file_offset )
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n = n - > rb_left ;
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else if ( file_offset > = entry_end ( entry ) )
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n = n - > rb_right ;
else
return n ;
}
if ( ! prev_ret )
return NULL ;
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while ( prev & & file_offset > = entry_end ( prev_entry ) ) {
test = rb_next ( prev ) ;
if ( ! test )
break ;
prev_entry = rb_entry ( test , struct btrfs_ordered_extent ,
rb_node ) ;
if ( file_offset < entry_end ( prev_entry ) )
break ;
prev = test ;
}
if ( prev )
prev_entry = rb_entry ( prev , struct btrfs_ordered_extent ,
rb_node ) ;
while ( prev & & file_offset < entry_end ( prev_entry ) ) {
test = rb_prev ( prev ) ;
if ( ! test )
break ;
prev_entry = rb_entry ( test , struct btrfs_ordered_extent ,
rb_node ) ;
prev = test ;
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}
* prev_ret = prev ;
return NULL ;
}
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static int offset_in_entry ( struct btrfs_ordered_extent * entry , u64 file_offset )
{
if ( file_offset < entry - > file_offset | |
entry - > file_offset + entry - > len < = file_offset )
return 0 ;
return 1 ;
}
static inline struct rb_node * tree_search ( struct btrfs_ordered_inode_tree * tree ,
u64 file_offset )
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{
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struct rb_root * root = & tree - > tree ;
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struct rb_node * prev ;
struct rb_node * ret ;
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struct btrfs_ordered_extent * entry ;
if ( tree - > last ) {
entry = rb_entry ( tree - > last , struct btrfs_ordered_extent ,
rb_node ) ;
if ( offset_in_entry ( entry , file_offset ) )
return tree - > last ;
}
ret = __tree_search ( root , file_offset , & prev ) ;
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if ( ! ret )
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ret = prev ;
if ( ret )
tree - > last = ret ;
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return ret ;
}
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/* allocate and add a new ordered_extent into the per-inode tree.
* file_offset is the logical offset in the file
*
* start is the disk block number of an extent already reserved in the
* extent allocation tree
*
* len is the length of the extent
*
* This also sets the EXTENT_ORDERED bit on the range in the inode .
*
* The tree is given a single reference on the ordered extent that was
* inserted .
*/
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int btrfs_add_ordered_extent ( struct inode * inode , u64 file_offset ,
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u64 start , u64 len , int nocow )
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{
struct btrfs_ordered_inode_tree * tree ;
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struct rb_node * node ;
struct btrfs_ordered_extent * entry ;
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tree = & BTRFS_I ( inode ) - > ordered_tree ;
entry = kzalloc ( sizeof ( * entry ) , GFP_NOFS ) ;
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if ( ! entry )
return - ENOMEM ;
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mutex_lock ( & tree - > mutex ) ;
entry - > file_offset = file_offset ;
entry - > start = start ;
entry - > len = len ;
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entry - > inode = inode ;
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if ( nocow )
set_bit ( BTRFS_ORDERED_NOCOW , & entry - > flags ) ;
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/* one ref for the tree */
atomic_set ( & entry - > refs , 1 ) ;
init_waitqueue_head ( & entry - > wait ) ;
INIT_LIST_HEAD ( & entry - > list ) ;
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INIT_LIST_HEAD ( & entry - > root_extent_list ) ;
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node = tree_insert ( & tree - > tree , file_offset ,
& entry - > rb_node ) ;
if ( node ) {
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printk ( " warning dup entry from add_ordered_extent \n " ) ;
BUG ( ) ;
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}
set_extent_ordered ( & BTRFS_I ( inode ) - > io_tree , file_offset ,
entry_end ( entry ) - 1 , GFP_NOFS ) ;
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spin_lock ( & BTRFS_I ( inode ) - > root - > fs_info - > ordered_extent_lock ) ;
list_add_tail ( & entry - > root_extent_list ,
& BTRFS_I ( inode ) - > root - > fs_info - > ordered_extents ) ;
spin_unlock ( & BTRFS_I ( inode ) - > root - > fs_info - > ordered_extent_lock ) ;
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mutex_unlock ( & tree - > mutex ) ;
BUG_ON ( node ) ;
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return 0 ;
}
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/*
* Add a struct btrfs_ordered_sum into the list of checksums to be inserted
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* when an ordered extent is finished . If the list covers more than one
* ordered extent , it is split across multiples .
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*/
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int btrfs_add_ordered_sum ( struct inode * inode ,
struct btrfs_ordered_extent * entry ,
struct btrfs_ordered_sum * sum )
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{
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struct btrfs_ordered_inode_tree * tree ;
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tree = & BTRFS_I ( inode ) - > ordered_tree ;
mutex_lock ( & tree - > mutex ) ;
list_add_tail ( & sum - > list , & entry - > list ) ;
mutex_unlock ( & tree - > mutex ) ;
return 0 ;
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}
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/*
* this is used to account for finished IO across a given range
* of the file . The IO should not span ordered extents . If
* a given ordered_extent is completely done , 1 is returned , otherwise
* 0.
*
* test_and_set_bit on a flag in the struct btrfs_ordered_extent is used
* to make sure this function only returns 1 once for a given ordered extent .
*/
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int btrfs_dec_test_ordered_pending ( struct inode * inode ,
u64 file_offset , u64 io_size )
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{
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struct btrfs_ordered_inode_tree * tree ;
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struct rb_node * node ;
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struct btrfs_ordered_extent * entry ;
struct extent_io_tree * io_tree = & BTRFS_I ( inode ) - > io_tree ;
int ret ;
tree = & BTRFS_I ( inode ) - > ordered_tree ;
mutex_lock ( & tree - > mutex ) ;
clear_extent_ordered ( io_tree , file_offset , file_offset + io_size - 1 ,
GFP_NOFS ) ;
node = tree_search ( tree , file_offset ) ;
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if ( ! node ) {
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ret = 1 ;
goto out ;
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}
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entry = rb_entry ( node , struct btrfs_ordered_extent , rb_node ) ;
if ( ! offset_in_entry ( entry , file_offset ) ) {
ret = 1 ;
goto out ;
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}
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ret = test_range_bit ( io_tree , entry - > file_offset ,
entry - > file_offset + entry - > len - 1 ,
EXTENT_ORDERED , 0 ) ;
if ( ret = = 0 )
ret = test_and_set_bit ( BTRFS_ORDERED_IO_DONE , & entry - > flags ) ;
out :
mutex_unlock ( & tree - > mutex ) ;
return ret = = 0 ;
}
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/*
* used to drop a reference on an ordered extent . This will free
* the extent if the last reference is dropped
*/
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int btrfs_put_ordered_extent ( struct btrfs_ordered_extent * entry )
{
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struct list_head * cur ;
struct btrfs_ordered_sum * sum ;
if ( atomic_dec_and_test ( & entry - > refs ) ) {
while ( ! list_empty ( & entry - > list ) ) {
cur = entry - > list . next ;
sum = list_entry ( cur , struct btrfs_ordered_sum , list ) ;
list_del ( & sum - > list ) ;
kfree ( sum ) ;
}
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kfree ( entry ) ;
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}
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return 0 ;
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}
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/*
* remove an ordered extent from the tree . No references are dropped
* but , anyone waiting on this extent is woken up .
*/
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int btrfs_remove_ordered_extent ( struct inode * inode ,
struct btrfs_ordered_extent * entry )
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{
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struct btrfs_ordered_inode_tree * tree ;
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struct rb_node * node ;
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tree = & BTRFS_I ( inode ) - > ordered_tree ;
mutex_lock ( & tree - > mutex ) ;
node = & entry - > rb_node ;
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rb_erase ( node , & tree - > tree ) ;
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tree - > last = NULL ;
set_bit ( BTRFS_ORDERED_COMPLETE , & entry - > flags ) ;
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spin_lock ( & BTRFS_I ( inode ) - > root - > fs_info - > ordered_extent_lock ) ;
list_del_init ( & entry - > root_extent_list ) ;
spin_unlock ( & BTRFS_I ( inode ) - > root - > fs_info - > ordered_extent_lock ) ;
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mutex_unlock ( & tree - > mutex ) ;
wake_up ( & entry - > wait ) ;
return 0 ;
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}
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int btrfs_wait_ordered_extents ( struct btrfs_root * root , int nocow_only )
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{
struct list_head splice ;
struct list_head * cur ;
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struct list_head * tmp ;
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struct btrfs_ordered_extent * ordered ;
struct inode * inode ;
INIT_LIST_HEAD ( & splice ) ;
spin_lock ( & root - > fs_info - > ordered_extent_lock ) ;
list_splice_init ( & root - > fs_info - > ordered_extents , & splice ) ;
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list_for_each_safe ( cur , tmp , & splice ) {
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cur = splice . next ;
ordered = list_entry ( cur , struct btrfs_ordered_extent ,
root_extent_list ) ;
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if ( nocow_only & &
! test_bit ( BTRFS_ORDERED_NOCOW , & ordered - > flags ) ) {
cond_resched_lock ( & root - > fs_info - > ordered_extent_lock ) ;
continue ;
}
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list_del_init ( & ordered - > root_extent_list ) ;
atomic_inc ( & ordered - > refs ) ;
inode = ordered - > inode ;
/*
* the inode can ' t go away until all the pages are gone
* and the pages won ' t go away while there is still
* an ordered extent and the ordered extent won ' t go
* away until it is off this list . So , we can safely
* increment i_count here and call iput later
*/
atomic_inc ( & inode - > i_count ) ;
spin_unlock ( & root - > fs_info - > ordered_extent_lock ) ;
btrfs_start_ordered_extent ( inode , ordered , 1 ) ;
btrfs_put_ordered_extent ( ordered ) ;
iput ( inode ) ;
spin_lock ( & root - > fs_info - > ordered_extent_lock ) ;
}
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list_splice_init ( & splice , & root - > fs_info - > ordered_extents ) ;
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spin_unlock ( & root - > fs_info - > ordered_extent_lock ) ;
return 0 ;
}
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/*
* Used to start IO or wait for a given ordered extent to finish .
*
* If wait is one , this effectively waits on page writeback for all the pages
* in the extent , and it waits on the io completion code to insert
* metadata into the btree corresponding to the extent
*/
void btrfs_start_ordered_extent ( struct inode * inode ,
struct btrfs_ordered_extent * entry ,
int wait )
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{
u64 start = entry - > file_offset ;
u64 end = start + entry - > len - 1 ;
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/*
* pages in the range can be dirty , clean or writeback . We
* start IO on any dirty ones so the wait doesn ' t stall waiting
* for pdflush to find them
*/
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btrfs_fdatawrite_range ( inode - > i_mapping , start , end , WB_SYNC_NONE ) ;
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if ( wait )
wait_event ( entry - > wait , test_bit ( BTRFS_ORDERED_COMPLETE ,
& entry - > flags ) ) ;
}
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/*
* Used to wait on ordered extents across a large range of bytes .
*/
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void btrfs_wait_ordered_range ( struct inode * inode , u64 start , u64 len )
{
u64 end ;
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u64 orig_end ;
u64 wait_end ;
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struct btrfs_ordered_extent * ordered ;
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if ( start + len < start ) {
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orig_end = INT_LIMIT ( loff_t ) ;
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} else {
orig_end = start + len - 1 ;
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if ( orig_end > INT_LIMIT ( loff_t ) )
orig_end = INT_LIMIT ( loff_t ) ;
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}
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wait_end = orig_end ;
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again :
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/* start IO across the range first to instantiate any delalloc
* extents
*/
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btrfs_fdatawrite_range ( inode - > i_mapping , start , orig_end , WB_SYNC_NONE ) ;
btrfs_wait_on_page_writeback_range ( inode - > i_mapping ,
start > > PAGE_CACHE_SHIFT ,
orig_end > > PAGE_CACHE_SHIFT ) ;
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end = orig_end ;
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while ( 1 ) {
ordered = btrfs_lookup_first_ordered_extent ( inode , end ) ;
if ( ! ordered ) {
break ;
}
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if ( ordered - > file_offset > orig_end ) {
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btrfs_put_ordered_extent ( ordered ) ;
break ;
}
if ( ordered - > file_offset + ordered - > len < start ) {
btrfs_put_ordered_extent ( ordered ) ;
break ;
}
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btrfs_start_ordered_extent ( inode , ordered , 1 ) ;
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end = ordered - > file_offset ;
btrfs_put_ordered_extent ( ordered ) ;
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if ( end = = 0 | | end = = start )
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break ;
end - - ;
}
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if ( test_range_bit ( & BTRFS_I ( inode ) - > io_tree , start , orig_end ,
EXTENT_ORDERED | EXTENT_DELALLOC , 0 ) ) {
printk ( " inode %lu still ordered or delalloc after wait "
" %llu %llu \n " , inode - > i_ino ,
( unsigned long long ) start ,
( unsigned long long ) orig_end ) ;
goto again ;
}
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}
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/*
* find an ordered extent corresponding to file_offset . return NULL if
* nothing is found , otherwise take a reference on the extent and return it
*/
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struct btrfs_ordered_extent * btrfs_lookup_ordered_extent ( struct inode * inode ,
u64 file_offset )
{
struct btrfs_ordered_inode_tree * tree ;
struct rb_node * node ;
struct btrfs_ordered_extent * entry = NULL ;
tree = & BTRFS_I ( inode ) - > ordered_tree ;
mutex_lock ( & tree - > mutex ) ;
node = tree_search ( tree , file_offset ) ;
if ( ! node )
goto out ;
entry = rb_entry ( node , struct btrfs_ordered_extent , rb_node ) ;
if ( ! offset_in_entry ( entry , file_offset ) )
entry = NULL ;
if ( entry )
atomic_inc ( & entry - > refs ) ;
out :
mutex_unlock ( & tree - > mutex ) ;
return entry ;
}
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/*
* lookup and return any extent before ' file_offset ' . NULL is returned
* if none is found
*/
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struct btrfs_ordered_extent *
btrfs_lookup_first_ordered_extent ( struct inode * inode , u64 file_offset )
{
struct btrfs_ordered_inode_tree * tree ;
struct rb_node * node ;
struct btrfs_ordered_extent * entry = NULL ;
tree = & BTRFS_I ( inode ) - > ordered_tree ;
mutex_lock ( & tree - > mutex ) ;
node = tree_search ( tree , file_offset ) ;
if ( ! node )
goto out ;
entry = rb_entry ( node , struct btrfs_ordered_extent , rb_node ) ;
atomic_inc ( & entry - > refs ) ;
out :
mutex_unlock ( & tree - > mutex ) ;
return entry ;
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}
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/*
* After an extent is done , call this to conditionally update the on disk
* i_size . i_size is updated to cover any fully written part of the file .
*/
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int btrfs_ordered_update_i_size ( struct inode * inode ,
struct btrfs_ordered_extent * ordered )
{
struct btrfs_ordered_inode_tree * tree = & BTRFS_I ( inode ) - > ordered_tree ;
struct extent_io_tree * io_tree = & BTRFS_I ( inode ) - > io_tree ;
u64 disk_i_size ;
u64 new_i_size ;
u64 i_size_test ;
struct rb_node * node ;
struct btrfs_ordered_extent * test ;
mutex_lock ( & tree - > mutex ) ;
disk_i_size = BTRFS_I ( inode ) - > disk_i_size ;
/*
* if the disk i_size is already at the inode - > i_size , or
* this ordered extent is inside the disk i_size , we ' re done
*/
if ( disk_i_size > = inode - > i_size | |
ordered - > file_offset + ordered - > len < = disk_i_size ) {
goto out ;
}
/*
* we can ' t update the disk_isize if there are delalloc bytes
* between disk_i_size and this ordered extent
*/
if ( test_range_bit ( io_tree , disk_i_size ,
ordered - > file_offset + ordered - > len - 1 ,
EXTENT_DELALLOC , 0 ) ) {
goto out ;
}
/*
* walk backward from this ordered extent to disk_i_size .
* if we find an ordered extent then we can ' t update disk i_size
* yet
*/
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node = & ordered - > rb_node ;
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while ( 1 ) {
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node = rb_prev ( node ) ;
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if ( ! node )
break ;
test = rb_entry ( node , struct btrfs_ordered_extent , rb_node ) ;
if ( test - > file_offset + test - > len < = disk_i_size )
break ;
if ( test - > file_offset > = inode - > i_size )
break ;
if ( test - > file_offset > = disk_i_size )
goto out ;
}
new_i_size = min_t ( u64 , entry_end ( ordered ) , i_size_read ( inode ) ) ;
/*
* at this point , we know we can safely update i_size to at least
* the offset from this ordered extent . But , we need to
* walk forward and see if ios from higher up in the file have
* finished .
*/
node = rb_next ( & ordered - > rb_node ) ;
i_size_test = 0 ;
if ( node ) {
/*
* do we have an area where IO might have finished
* between our ordered extent and the next one .
*/
test = rb_entry ( node , struct btrfs_ordered_extent , rb_node ) ;
if ( test - > file_offset > entry_end ( ordered ) ) {
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i_size_test = test - > file_offset ;
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}
} else {
i_size_test = i_size_read ( inode ) ;
}
/*
* i_size_test is the end of a region after this ordered
* extent where there are no ordered extents . As long as there
* are no delalloc bytes in this area , it is safe to update
* disk_i_size to the end of the region .
*/
if ( i_size_test > entry_end ( ordered ) & &
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! test_range_bit ( io_tree , entry_end ( ordered ) , i_size_test - 1 ,
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EXTENT_DELALLOC , 0 ) ) {
new_i_size = min_t ( u64 , i_size_test , i_size_read ( inode ) ) ;
}
BTRFS_I ( inode ) - > disk_i_size = new_i_size ;
out :
mutex_unlock ( & tree - > mutex ) ;
return 0 ;
}
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/*
* search the ordered extents for one corresponding to ' offset ' and
* try to find a checksum . This is used because we allow pages to
* be reclaimed before their checksum is actually put into the btree
*/
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int btrfs_find_ordered_sum ( struct inode * inode , u64 offset , u32 * sum )
{
struct btrfs_ordered_sum * ordered_sum ;
struct btrfs_sector_sum * sector_sums ;
struct btrfs_ordered_extent * ordered ;
struct btrfs_ordered_inode_tree * tree = & BTRFS_I ( inode ) - > ordered_tree ;
struct list_head * cur ;
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unsigned long num_sectors ;
unsigned long i ;
u32 sectorsize = BTRFS_I ( inode ) - > root - > sectorsize ;
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int ret = 1 ;
ordered = btrfs_lookup_ordered_extent ( inode , offset ) ;
if ( ! ordered )
return 1 ;
mutex_lock ( & tree - > mutex ) ;
list_for_each_prev ( cur , & ordered - > list ) {
ordered_sum = list_entry ( cur , struct btrfs_ordered_sum , list ) ;
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if ( offset > = ordered_sum - > file_offset ) {
num_sectors = ordered_sum - > len / sectorsize ;
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sector_sums = ordered_sum - > sums ;
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for ( i = 0 ; i < num_sectors ; i + + ) {
if ( sector_sums [ i ] . offset = = offset ) {
* sum = sector_sums [ i ] . sum ;
ret = 0 ;
goto out ;
}
}
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}
}
out :
mutex_unlock ( & tree - > mutex ) ;
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btrfs_put_ordered_extent ( ordered ) ;
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return ret ;
}
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/**
* taken from mm / filemap . c because it isn ' t exported
*
* __filemap_fdatawrite_range - start writeback on mapping dirty pages in range
* @ mapping : address space structure to write
* @ start : offset in bytes where the range starts
* @ end : offset in bytes where the range ends ( inclusive )
* @ sync_mode : enable synchronous operation
*
* Start writeback against all of a mapping ' s dirty pages that lie
* within the byte offsets < start , end > inclusive .
*
* If sync_mode is WB_SYNC_ALL then this is a " data integrity " operation , as
* opposed to a regular memory cleansing writeback . The difference between
* these two operations is that if a dirty page / buffer is encountered , it must
* be waited upon , and not just skipped over .
*/
int btrfs_fdatawrite_range ( struct address_space * mapping , loff_t start ,
loff_t end , int sync_mode )
{
struct writeback_control wbc = {
. sync_mode = sync_mode ,
. nr_to_write = mapping - > nrpages * 2 ,
. range_start = start ,
. range_end = end ,
. for_writepages = 1 ,
} ;
return btrfs_writepages ( mapping , & wbc ) ;
}
/**
* taken from mm / filemap . c because it isn ' t exported
*
* wait_on_page_writeback_range - wait for writeback to complete
* @ mapping : target address_space
* @ start : beginning page index
* @ end : ending page index
*
* Wait for writeback to complete against pages indexed by start - > end
* inclusive
*/
int btrfs_wait_on_page_writeback_range ( struct address_space * mapping ,
pgoff_t start , pgoff_t end )
{
struct pagevec pvec ;
int nr_pages ;
int ret = 0 ;
pgoff_t index ;
if ( end < start )
return 0 ;
pagevec_init ( & pvec , 0 ) ;
index = start ;
while ( ( index < = end ) & &
( nr_pages = pagevec_lookup_tag ( & pvec , mapping , & index ,
PAGECACHE_TAG_WRITEBACK ,
min ( end - index , ( pgoff_t ) PAGEVEC_SIZE - 1 ) + 1 ) ) ! = 0 ) {
unsigned i ;
for ( i = 0 ; i < nr_pages ; i + + ) {
struct page * page = pvec . pages [ i ] ;
/* until radix tree lookup accepts end_index */
if ( page - > index > end )
continue ;
wait_on_page_writeback ( page ) ;
if ( PageError ( page ) )
ret = - EIO ;
}
pagevec_release ( & pvec ) ;
cond_resched ( ) ;
}
/* Check for outstanding write errors */
if ( test_and_clear_bit ( AS_ENOSPC , & mapping - > flags ) )
ret = - ENOSPC ;
if ( test_and_clear_bit ( AS_EIO , & mapping - > flags ) )
ret = - EIO ;
return ret ;
}