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# include <linux/bitops.h>
# include <linux/slab.h>
# include <linux/bio.h>
# include <linux/mm.h>
# include <linux/gfp.h>
# include <linux/pagemap.h>
# include <linux/page-flags.h>
# include <linux/module.h>
# include <linux/spinlock.h>
# include <linux/blkdev.h>
# include <linux/swap.h>
# include <linux/version.h>
# include <linux/writeback.h>
# include <linux/pagevec.h>
# include "extent_io.h"
# include "extent_map.h"
/* temporary define until extent_map moves out of btrfs */
struct kmem_cache * btrfs_cache_create ( const char * name , size_t size ,
unsigned long extra_flags ,
void ( * ctor ) ( void * , struct kmem_cache * ,
unsigned long ) ) ;
static struct kmem_cache * extent_state_cache ;
static struct kmem_cache * extent_buffer_cache ;
static LIST_HEAD ( buffers ) ;
static LIST_HEAD ( states ) ;
# define BUFFER_LRU_MAX 64
struct tree_entry {
u64 start ;
u64 end ;
struct rb_node rb_node ;
} ;
struct extent_page_data {
struct bio * bio ;
struct extent_io_tree * tree ;
get_extent_t * get_extent ;
} ;
int __init extent_io_init ( void )
{
extent_state_cache = btrfs_cache_create ( " extent_state " ,
sizeof ( struct extent_state ) , 0 ,
NULL ) ;
if ( ! extent_state_cache )
return - ENOMEM ;
extent_buffer_cache = btrfs_cache_create ( " extent_buffers " ,
sizeof ( struct extent_buffer ) , 0 ,
NULL ) ;
if ( ! extent_buffer_cache )
goto free_state_cache ;
return 0 ;
free_state_cache :
kmem_cache_destroy ( extent_state_cache ) ;
return - ENOMEM ;
}
void extent_io_exit ( void )
{
struct extent_state * state ;
while ( ! list_empty ( & states ) ) {
state = list_entry ( states . next , struct extent_state , list ) ;
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printk ( " state leak: start %Lu end %Lu state %lu in tree %p refs %d \n " , state - > start , state - > end , state - > state , state - > tree , atomic_read ( & state - > refs ) ) ;
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list_del ( & state - > list ) ;
kmem_cache_free ( extent_state_cache , state ) ;
}
if ( extent_state_cache )
kmem_cache_destroy ( extent_state_cache ) ;
if ( extent_buffer_cache )
kmem_cache_destroy ( extent_buffer_cache ) ;
}
void extent_io_tree_init ( struct extent_io_tree * tree ,
struct address_space * mapping , gfp_t mask )
{
tree - > state . rb_node = NULL ;
tree - > ops = NULL ;
tree - > dirty_bytes = 0 ;
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spin_lock_init ( & tree - > lock ) ;
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spin_lock_init ( & tree - > lru_lock ) ;
tree - > mapping = mapping ;
INIT_LIST_HEAD ( & tree - > buffer_lru ) ;
tree - > lru_size = 0 ;
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tree - > last = NULL ;
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}
EXPORT_SYMBOL ( extent_io_tree_init ) ;
void extent_io_tree_empty_lru ( struct extent_io_tree * tree )
{
struct extent_buffer * eb ;
while ( ! list_empty ( & tree - > buffer_lru ) ) {
eb = list_entry ( tree - > buffer_lru . next , struct extent_buffer ,
lru ) ;
list_del_init ( & eb - > lru ) ;
free_extent_buffer ( eb ) ;
}
}
EXPORT_SYMBOL ( extent_io_tree_empty_lru ) ;
struct extent_state * alloc_extent_state ( gfp_t mask )
{
struct extent_state * state ;
state = kmem_cache_alloc ( extent_state_cache , mask ) ;
if ( ! state | | IS_ERR ( state ) )
return state ;
state - > state = 0 ;
state - > private = 0 ;
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state - > tree = NULL ;
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atomic_set ( & state - > refs , 1 ) ;
init_waitqueue_head ( & state - > wq ) ;
return state ;
}
EXPORT_SYMBOL ( alloc_extent_state ) ;
void free_extent_state ( struct extent_state * state )
{
if ( ! state )
return ;
if ( atomic_dec_and_test ( & state - > refs ) ) {
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WARN_ON ( state - > tree ) ;
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kmem_cache_free ( extent_state_cache , state ) ;
}
}
EXPORT_SYMBOL ( free_extent_state ) ;
static struct rb_node * tree_insert ( struct rb_root * root , u64 offset ,
struct rb_node * node )
{
struct rb_node * * p = & root - > rb_node ;
struct rb_node * parent = NULL ;
struct tree_entry * entry ;
while ( * p ) {
parent = * p ;
entry = rb_entry ( parent , struct tree_entry , rb_node ) ;
if ( offset < entry - > start )
p = & ( * p ) - > rb_left ;
else if ( offset > entry - > end )
p = & ( * p ) - > rb_right ;
else
return parent ;
}
entry = rb_entry ( node , struct tree_entry , rb_node ) ;
rb_link_node ( node , parent , p ) ;
rb_insert_color ( node , root ) ;
return NULL ;
}
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static struct rb_node * __etree_search ( struct extent_io_tree * tree , u64 offset ,
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struct rb_node * * prev_ret ,
struct rb_node * * next_ret )
{
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struct rb_root * root = & tree - > state ;
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struct rb_node * n = root - > rb_node ;
struct rb_node * prev = NULL ;
struct rb_node * orig_prev = NULL ;
struct tree_entry * entry ;
struct tree_entry * prev_entry = NULL ;
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if ( tree - > last ) {
struct extent_state * state ;
state = tree - > last ;
if ( state - > start < = offset & & offset < = state - > end )
return & tree - > last - > rb_node ;
}
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while ( n ) {
entry = rb_entry ( n , struct tree_entry , rb_node ) ;
prev = n ;
prev_entry = entry ;
if ( offset < entry - > start )
n = n - > rb_left ;
else if ( offset > entry - > end )
n = n - > rb_right ;
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else {
tree - > last = rb_entry ( n , struct extent_state , rb_node ) ;
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return n ;
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}
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}
if ( prev_ret ) {
orig_prev = prev ;
while ( prev & & offset > prev_entry - > end ) {
prev = rb_next ( prev ) ;
prev_entry = rb_entry ( prev , struct tree_entry , rb_node ) ;
}
* prev_ret = prev ;
prev = orig_prev ;
}
if ( next_ret ) {
prev_entry = rb_entry ( prev , struct tree_entry , rb_node ) ;
while ( prev & & offset < prev_entry - > start ) {
prev = rb_prev ( prev ) ;
prev_entry = rb_entry ( prev , struct tree_entry , rb_node ) ;
}
* next_ret = prev ;
}
return NULL ;
}
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static inline struct rb_node * tree_search ( struct extent_io_tree * tree ,
u64 offset )
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{
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struct rb_node * prev = NULL ;
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struct rb_node * ret ;
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ret = __etree_search ( tree , offset , & prev , NULL ) ;
if ( ! ret ) {
if ( prev ) {
tree - > last = rb_entry ( prev , struct extent_state ,
rb_node ) ;
}
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return prev ;
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}
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return ret ;
}
/*
* utility function to look for merge candidates inside a given range .
* Any extents with matching state are merged together into a single
* extent in the tree . Extents with EXTENT_IO in their state field
* are not merged because the end_io handlers need to be able to do
* operations on them without sleeping ( or doing allocations / splits ) .
*
* This should be called with the tree lock held .
*/
static int merge_state ( struct extent_io_tree * tree ,
struct extent_state * state )
{
struct extent_state * other ;
struct rb_node * other_node ;
if ( state - > state & EXTENT_IOBITS )
return 0 ;
other_node = rb_prev ( & state - > rb_node ) ;
if ( other_node ) {
other = rb_entry ( other_node , struct extent_state , rb_node ) ;
if ( other - > end = = state - > start - 1 & &
other - > state = = state - > state ) {
state - > start = other - > start ;
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other - > tree = NULL ;
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if ( tree - > last = = other )
tree - > last = NULL ;
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rb_erase ( & other - > rb_node , & tree - > state ) ;
free_extent_state ( other ) ;
}
}
other_node = rb_next ( & state - > rb_node ) ;
if ( other_node ) {
other = rb_entry ( other_node , struct extent_state , rb_node ) ;
if ( other - > start = = state - > end + 1 & &
other - > state = = state - > state ) {
other - > start = state - > start ;
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state - > tree = NULL ;
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if ( tree - > last = = state )
tree - > last = NULL ;
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rb_erase ( & state - > rb_node , & tree - > state ) ;
free_extent_state ( state ) ;
}
}
return 0 ;
}
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static void set_state_cb ( struct extent_io_tree * tree ,
struct extent_state * state ,
unsigned long bits )
{
if ( tree - > ops & & tree - > ops - > set_bit_hook ) {
tree - > ops - > set_bit_hook ( tree - > mapping - > host , state - > start ,
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state - > end , state - > state , bits ) ;
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}
}
static void clear_state_cb ( struct extent_io_tree * tree ,
struct extent_state * state ,
unsigned long bits )
{
if ( tree - > ops & & tree - > ops - > set_bit_hook ) {
tree - > ops - > clear_bit_hook ( tree - > mapping - > host , state - > start ,
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state - > end , state - > state , bits ) ;
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}
}
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/*
* insert an extent_state struct into the tree . ' bits ' are set on the
* struct before it is inserted .
*
* This may return - EEXIST if the extent is already there , in which case the
* state struct is freed .
*
* The tree lock is not taken internally . This is a utility function and
* probably isn ' t what you want to call ( see set / clear_extent_bit ) .
*/
static int insert_state ( struct extent_io_tree * tree ,
struct extent_state * state , u64 start , u64 end ,
int bits )
{
struct rb_node * node ;
if ( end < start ) {
printk ( " end < start %Lu %Lu \n " , end , start ) ;
WARN_ON ( 1 ) ;
}
if ( bits & EXTENT_DIRTY )
tree - > dirty_bytes + = end - start + 1 ;
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set_state_cb ( tree , state , bits ) ;
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state - > state | = bits ;
state - > start = start ;
state - > end = end ;
node = tree_insert ( & tree - > state , end , & state - > rb_node ) ;
if ( node ) {
struct extent_state * found ;
found = rb_entry ( node , struct extent_state , rb_node ) ;
printk ( " found node %Lu %Lu on insert of %Lu %Lu \n " , found - > start , found - > end , start , end ) ;
free_extent_state ( state ) ;
return - EEXIST ;
}
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state - > tree = tree ;
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tree - > last = state ;
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merge_state ( tree , state ) ;
return 0 ;
}
/*
* split a given extent state struct in two , inserting the preallocated
* struct ' prealloc ' as the newly created second half . ' split ' indicates an
* offset inside ' orig ' where it should be split .
*
* Before calling ,
* the tree has ' orig ' at [ orig - > start , orig - > end ] . After calling , there
* are two extent state structs in the tree :
* prealloc : [ orig - > start , split - 1 ]
* orig : [ split , orig - > end ]
*
* The tree locks are not taken by this function . They need to be held
* by the caller .
*/
static int split_state ( struct extent_io_tree * tree , struct extent_state * orig ,
struct extent_state * prealloc , u64 split )
{
struct rb_node * node ;
prealloc - > start = orig - > start ;
prealloc - > end = split - 1 ;
prealloc - > state = orig - > state ;
orig - > start = split ;
node = tree_insert ( & tree - > state , prealloc - > end , & prealloc - > rb_node ) ;
if ( node ) {
struct extent_state * found ;
found = rb_entry ( node , struct extent_state , rb_node ) ;
printk ( " found node %Lu %Lu on insert of %Lu %Lu \n " , found - > start , found - > end , prealloc - > start , prealloc - > end ) ;
free_extent_state ( prealloc ) ;
return - EEXIST ;
}
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prealloc - > tree = tree ;
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return 0 ;
}
/*
* utility function to clear some bits in an extent state struct .
* it will optionally wake up any one waiting on this state ( wake = = 1 ) , or
* forcibly remove the state from the tree ( delete = = 1 ) .
*
* If no bits are set on the state struct after clearing things , the
* struct is freed and removed from the tree
*/
static int clear_state_bit ( struct extent_io_tree * tree ,
struct extent_state * state , int bits , int wake ,
int delete )
{
int ret = state - > state & bits ;
if ( ( bits & EXTENT_DIRTY ) & & ( state - > state & EXTENT_DIRTY ) ) {
u64 range = state - > end - state - > start + 1 ;
WARN_ON ( range > tree - > dirty_bytes ) ;
tree - > dirty_bytes - = range ;
}
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clear_state_cb ( tree , state , bits ) ;
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state - > state & = ~ bits ;
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if ( wake )
wake_up ( & state - > wq ) ;
if ( delete | | state - > state = = 0 ) {
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if ( state - > tree ) {
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clear_state_cb ( tree , state , state - > state ) ;
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if ( tree - > last = = state )
tree - > last = NULL ;
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rb_erase ( & state - > rb_node , & tree - > state ) ;
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state - > tree = NULL ;
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free_extent_state ( state ) ;
} else {
WARN_ON ( 1 ) ;
}
} else {
merge_state ( tree , state ) ;
}
return ret ;
}
/*
* clear some bits on a range in the tree . This may require splitting
* or inserting elements in the tree , so the gfp mask is used to
* indicate which allocations or sleeping are allowed .
*
* pass ' wake ' = = 1 to kick any sleepers , and ' delete ' = = 1 to remove
* the given range from the tree regardless of state ( ie for truncate ) .
*
* the range [ start , end ] is inclusive .
*
* This takes the tree lock , and returns < 0 on error , > 0 if any of the
* bits were already set , or zero if none of the bits were already set .
*/
int clear_extent_bit ( struct extent_io_tree * tree , u64 start , u64 end ,
int bits , int wake , int delete , gfp_t mask )
{
struct extent_state * state ;
struct extent_state * prealloc = NULL ;
struct rb_node * node ;
unsigned long flags ;
int err ;
int set = 0 ;
again :
if ( ! prealloc & & ( mask & __GFP_WAIT ) ) {
prealloc = alloc_extent_state ( mask ) ;
if ( ! prealloc )
return - ENOMEM ;
}
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spin_lock_irqsave ( & tree - > lock , flags ) ;
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/*
* this search will find the extents that end after
* our range starts
*/
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node = tree_search ( tree , start ) ;
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if ( ! node )
goto out ;
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( state - > start > end )
goto out ;
WARN_ON ( state - > end < start ) ;
/*
* | - - - - desired range - - - - |
* | state | or
* | - - - - - - - - - - - - - state - - - - - - - - - - - - - - |
*
* We need to split the extent we found , and may flip
* bits on second half .
*
* If the extent we found extends past our range , we
* just split and search again . It ' ll get split again
* the next time though .
*
* If the extent we found is inside our range , we clear
* the desired bit on it .
*/
if ( state - > start < start ) {
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if ( ! prealloc )
prealloc = alloc_extent_state ( GFP_ATOMIC ) ;
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err = split_state ( tree , state , prealloc , start ) ;
BUG_ON ( err = = - EEXIST ) ;
prealloc = NULL ;
if ( err )
goto out ;
if ( state - > end < = end ) {
start = state - > end + 1 ;
set | = clear_state_bit ( tree , state , bits ,
wake , delete ) ;
} else {
start = state - > start ;
}
goto search_again ;
}
/*
* | - - - - desired range - - - - |
* | state |
* We need to split the extent , and clear the bit
* on the first half
*/
if ( state - > start < = end & & state - > end > end ) {
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if ( ! prealloc )
prealloc = alloc_extent_state ( GFP_ATOMIC ) ;
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err = split_state ( tree , state , prealloc , end + 1 ) ;
BUG_ON ( err = = - EEXIST ) ;
if ( wake )
wake_up ( & state - > wq ) ;
set | = clear_state_bit ( tree , prealloc , bits ,
wake , delete ) ;
prealloc = NULL ;
goto out ;
}
start = state - > end + 1 ;
set | = clear_state_bit ( tree , state , bits , wake , delete ) ;
goto search_again ;
out :
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spin_unlock_irqrestore ( & tree - > lock , flags ) ;
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if ( prealloc )
free_extent_state ( prealloc ) ;
return set ;
search_again :
if ( start > end )
goto out ;
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spin_unlock_irqrestore ( & tree - > lock , flags ) ;
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if ( mask & __GFP_WAIT )
cond_resched ( ) ;
goto again ;
}
EXPORT_SYMBOL ( clear_extent_bit ) ;
static int wait_on_state ( struct extent_io_tree * tree ,
struct extent_state * state )
{
DEFINE_WAIT ( wait ) ;
prepare_to_wait ( & state - > wq , & wait , TASK_UNINTERRUPTIBLE ) ;
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spin_unlock_irq ( & tree - > lock ) ;
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schedule ( ) ;
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spin_lock_irq ( & tree - > lock ) ;
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finish_wait ( & state - > wq , & wait ) ;
return 0 ;
}
/*
* waits for one or more bits to clear on a range in the state tree .
* The range [ start , end ] is inclusive .
* The tree lock is taken by this function
*/
int wait_extent_bit ( struct extent_io_tree * tree , u64 start , u64 end , int bits )
{
struct extent_state * state ;
struct rb_node * node ;
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spin_lock_irq ( & tree - > lock ) ;
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again :
while ( 1 ) {
/*
* this search will find all the extents that end after
* our range starts
*/
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node = tree_search ( tree , start ) ;
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if ( ! node )
break ;
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( state - > start > end )
goto out ;
if ( state - > state & bits ) {
start = state - > start ;
atomic_inc ( & state - > refs ) ;
wait_on_state ( tree , state ) ;
free_extent_state ( state ) ;
goto again ;
}
start = state - > end + 1 ;
if ( start > end )
break ;
if ( need_resched ( ) ) {
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spin_unlock_irq ( & tree - > lock ) ;
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cond_resched ( ) ;
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spin_lock_irq ( & tree - > lock ) ;
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}
}
out :
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spin_unlock_irq ( & tree - > lock ) ;
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return 0 ;
}
EXPORT_SYMBOL ( wait_extent_bit ) ;
static void set_state_bits ( struct extent_io_tree * tree ,
struct extent_state * state ,
int bits )
{
if ( ( bits & EXTENT_DIRTY ) & & ! ( state - > state & EXTENT_DIRTY ) ) {
u64 range = state - > end - state - > start + 1 ;
tree - > dirty_bytes + = range ;
}
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set_state_cb ( tree , state , bits ) ;
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state - > state | = bits ;
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}
/*
* set some bits on a range in the tree . This may require allocations
* or sleeping , so the gfp mask is used to indicate what is allowed .
*
* If ' exclusive ' = = 1 , this will fail with - EEXIST if some part of the
* range already has the desired bits set . The start of the existing
* range is returned in failed_start in this case .
*
* [ start , end ] is inclusive
* This takes the tree lock .
*/
int set_extent_bit ( struct extent_io_tree * tree , u64 start , u64 end , int bits ,
int exclusive , u64 * failed_start , gfp_t mask )
{
struct extent_state * state ;
struct extent_state * prealloc = NULL ;
struct rb_node * node ;
unsigned long flags ;
int err = 0 ;
int set ;
u64 last_start ;
u64 last_end ;
again :
if ( ! prealloc & & ( mask & __GFP_WAIT ) ) {
prealloc = alloc_extent_state ( mask ) ;
if ( ! prealloc )
return - ENOMEM ;
}
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spin_lock_irqsave ( & tree - > lock , flags ) ;
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/*
* this search will find all the extents that end after
* our range starts .
*/
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node = tree_search ( tree , start ) ;
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if ( ! node ) {
err = insert_state ( tree , prealloc , start , end , bits ) ;
prealloc = NULL ;
BUG_ON ( err = = - EEXIST ) ;
goto out ;
}
state = rb_entry ( node , struct extent_state , rb_node ) ;
last_start = state - > start ;
last_end = state - > end ;
/*
* | - - - - desired range - - - - |
* | state |
*
* Just lock what we found and keep going
*/
if ( state - > start = = start & & state - > end < = end ) {
set = state - > state & bits ;
if ( set & & exclusive ) {
* failed_start = state - > start ;
err = - EEXIST ;
goto out ;
}
set_state_bits ( tree , state , bits ) ;
start = state - > end + 1 ;
merge_state ( tree , state ) ;
goto search_again ;
}
/*
* | - - - - desired range - - - - |
* | state |
* or
* | - - - - - - - - - - - - - state - - - - - - - - - - - - - - |
*
* We need to split the extent we found , and may flip bits on
* second half .
*
* If the extent we found extends past our
* range , we just split and search again . It ' ll get split
* again the next time though .
*
* If the extent we found is inside our range , we set the
* desired bit on it .
*/
if ( state - > start < start ) {
set = state - > state & bits ;
if ( exclusive & & set ) {
* failed_start = start ;
err = - EEXIST ;
goto out ;
}
err = split_state ( tree , state , prealloc , start ) ;
BUG_ON ( err = = - EEXIST ) ;
prealloc = NULL ;
if ( err )
goto out ;
if ( state - > end < = end ) {
set_state_bits ( tree , state , bits ) ;
start = state - > end + 1 ;
merge_state ( tree , state ) ;
} else {
start = state - > start ;
}
goto search_again ;
}
/*
* | - - - - desired range - - - - |
* | state | or | state |
*
* There ' s a hole , we need to insert something in it and
* ignore the extent we found .
*/
if ( state - > start > start ) {
u64 this_end ;
if ( end < last_start )
this_end = end ;
else
this_end = last_start - 1 ;
err = insert_state ( tree , prealloc , start , this_end ,
bits ) ;
prealloc = NULL ;
BUG_ON ( err = = - EEXIST ) ;
if ( err )
goto out ;
start = this_end + 1 ;
goto search_again ;
}
/*
* | - - - - desired range - - - - |
* | state |
* We need to split the extent , and set the bit
* on the first half
*/
if ( state - > start < = end & & state - > end > end ) {
set = state - > state & bits ;
if ( exclusive & & set ) {
* failed_start = start ;
err = - EEXIST ;
goto out ;
}
err = split_state ( tree , state , prealloc , end + 1 ) ;
BUG_ON ( err = = - EEXIST ) ;
set_state_bits ( tree , prealloc , bits ) ;
merge_state ( tree , prealloc ) ;
prealloc = NULL ;
goto out ;
}
goto search_again ;
out :
2008-01-29 17:59:12 +03:00
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
2008-01-25 00:13:08 +03:00
if ( prealloc )
free_extent_state ( prealloc ) ;
return err ;
search_again :
if ( start > end )
goto out ;
2008-01-29 17:59:12 +03:00
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
2008-01-25 00:13:08 +03:00
if ( mask & __GFP_WAIT )
cond_resched ( ) ;
goto again ;
}
EXPORT_SYMBOL ( set_extent_bit ) ;
/* wrappers around set/clear extent bit */
int set_extent_dirty ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return set_extent_bit ( tree , start , end , EXTENT_DIRTY , 0 , NULL ,
mask ) ;
}
EXPORT_SYMBOL ( set_extent_dirty ) ;
int set_extent_bits ( struct extent_io_tree * tree , u64 start , u64 end ,
int bits , gfp_t mask )
{
return set_extent_bit ( tree , start , end , bits , 0 , NULL ,
mask ) ;
}
EXPORT_SYMBOL ( set_extent_bits ) ;
int clear_extent_bits ( struct extent_io_tree * tree , u64 start , u64 end ,
int bits , gfp_t mask )
{
return clear_extent_bit ( tree , start , end , bits , 0 , 0 , mask ) ;
}
EXPORT_SYMBOL ( clear_extent_bits ) ;
int set_extent_delalloc ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return set_extent_bit ( tree , start , end ,
EXTENT_DELALLOC | EXTENT_DIRTY , 0 , NULL ,
mask ) ;
}
EXPORT_SYMBOL ( set_extent_delalloc ) ;
int clear_extent_dirty ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return clear_extent_bit ( tree , start , end ,
EXTENT_DIRTY | EXTENT_DELALLOC , 0 , 0 , mask ) ;
}
EXPORT_SYMBOL ( clear_extent_dirty ) ;
int set_extent_new ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return set_extent_bit ( tree , start , end , EXTENT_NEW , 0 , NULL ,
mask ) ;
}
EXPORT_SYMBOL ( set_extent_new ) ;
int clear_extent_new ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return clear_extent_bit ( tree , start , end , EXTENT_NEW , 0 , 0 , mask ) ;
}
EXPORT_SYMBOL ( clear_extent_new ) ;
int set_extent_uptodate ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return set_extent_bit ( tree , start , end , EXTENT_UPTODATE , 0 , NULL ,
mask ) ;
}
EXPORT_SYMBOL ( set_extent_uptodate ) ;
int clear_extent_uptodate ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return clear_extent_bit ( tree , start , end , EXTENT_UPTODATE , 0 , 0 , mask ) ;
}
EXPORT_SYMBOL ( clear_extent_uptodate ) ;
int set_extent_writeback ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return set_extent_bit ( tree , start , end , EXTENT_WRITEBACK ,
0 , NULL , mask ) ;
}
EXPORT_SYMBOL ( set_extent_writeback ) ;
int clear_extent_writeback ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return clear_extent_bit ( tree , start , end , EXTENT_WRITEBACK , 1 , 0 , mask ) ;
}
EXPORT_SYMBOL ( clear_extent_writeback ) ;
int wait_on_extent_writeback ( struct extent_io_tree * tree , u64 start , u64 end )
{
return wait_extent_bit ( tree , start , end , EXTENT_WRITEBACK ) ;
}
EXPORT_SYMBOL ( wait_on_extent_writeback ) ;
int lock_extent ( struct extent_io_tree * tree , u64 start , u64 end , gfp_t mask )
{
int err ;
u64 failed_start ;
while ( 1 ) {
err = set_extent_bit ( tree , start , end , EXTENT_LOCKED , 1 ,
& failed_start , mask ) ;
if ( err = = - EEXIST & & ( mask & __GFP_WAIT ) ) {
wait_extent_bit ( tree , failed_start , end , EXTENT_LOCKED ) ;
start = failed_start ;
} else {
break ;
}
WARN_ON ( start > end ) ;
}
return err ;
}
EXPORT_SYMBOL ( lock_extent ) ;
int unlock_extent ( struct extent_io_tree * tree , u64 start , u64 end ,
gfp_t mask )
{
return clear_extent_bit ( tree , start , end , EXTENT_LOCKED , 1 , 0 , mask ) ;
}
EXPORT_SYMBOL ( unlock_extent ) ;
/*
* helper function to set pages and extents in the tree dirty
*/
int set_range_dirty ( struct extent_io_tree * tree , u64 start , u64 end )
{
unsigned long index = start > > PAGE_CACHE_SHIFT ;
unsigned long end_index = end > > PAGE_CACHE_SHIFT ;
struct page * page ;
while ( index < = end_index ) {
page = find_get_page ( tree - > mapping , index ) ;
BUG_ON ( ! page ) ;
__set_page_dirty_nobuffers ( page ) ;
page_cache_release ( page ) ;
index + + ;
}
set_extent_dirty ( tree , start , end , GFP_NOFS ) ;
return 0 ;
}
EXPORT_SYMBOL ( set_range_dirty ) ;
/*
* helper function to set both pages and extents in the tree writeback
*/
int set_range_writeback ( struct extent_io_tree * tree , u64 start , u64 end )
{
unsigned long index = start > > PAGE_CACHE_SHIFT ;
unsigned long end_index = end > > PAGE_CACHE_SHIFT ;
struct page * page ;
while ( index < = end_index ) {
page = find_get_page ( tree - > mapping , index ) ;
BUG_ON ( ! page ) ;
set_page_writeback ( page ) ;
page_cache_release ( page ) ;
index + + ;
}
set_extent_writeback ( tree , start , end , GFP_NOFS ) ;
return 0 ;
}
EXPORT_SYMBOL ( set_range_writeback ) ;
int find_first_extent_bit ( struct extent_io_tree * tree , u64 start ,
u64 * start_ret , u64 * end_ret , int bits )
{
struct rb_node * node ;
struct extent_state * state ;
int ret = 1 ;
2008-01-29 17:59:12 +03:00
spin_lock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
/*
* this search will find all the extents that end after
* our range starts .
*/
2008-02-01 22:51:59 +03:00
node = tree_search ( tree , start ) ;
2008-01-25 00:13:08 +03:00
if ( ! node | | IS_ERR ( node ) ) {
goto out ;
}
while ( 1 ) {
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( state - > end > = start & & ( state - > state & bits ) ) {
* start_ret = state - > start ;
* end_ret = state - > end ;
ret = 0 ;
break ;
}
node = rb_next ( node ) ;
if ( ! node )
break ;
}
out :
2008-01-29 17:59:12 +03:00
spin_unlock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
return ret ;
}
EXPORT_SYMBOL ( find_first_extent_bit ) ;
u64 find_lock_delalloc_range ( struct extent_io_tree * tree ,
u64 * start , u64 * end , u64 max_bytes )
{
struct rb_node * node ;
struct extent_state * state ;
u64 cur_start = * start ;
u64 found = 0 ;
u64 total_bytes = 0 ;
2008-01-29 17:59:12 +03:00
spin_lock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
/*
* this search will find all the extents that end after
* our range starts .
*/
search_again :
2008-02-01 22:51:59 +03:00
node = tree_search ( tree , cur_start ) ;
2008-01-25 00:13:08 +03:00
if ( ! node | | IS_ERR ( node ) ) {
* end = ( u64 ) - 1 ;
goto out ;
}
while ( 1 ) {
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( found & & state - > start ! = cur_start ) {
goto out ;
}
if ( ! ( state - > state & EXTENT_DELALLOC ) ) {
if ( ! found )
* end = state - > end ;
goto out ;
}
if ( ! found ) {
struct extent_state * prev_state ;
struct rb_node * prev_node = node ;
while ( 1 ) {
prev_node = rb_prev ( prev_node ) ;
if ( ! prev_node )
break ;
prev_state = rb_entry ( prev_node ,
struct extent_state ,
rb_node ) ;
if ( ! ( prev_state - > state & EXTENT_DELALLOC ) )
break ;
state = prev_state ;
node = prev_node ;
}
}
if ( state - > state & EXTENT_LOCKED ) {
DEFINE_WAIT ( wait ) ;
atomic_inc ( & state - > refs ) ;
prepare_to_wait ( & state - > wq , & wait ,
TASK_UNINTERRUPTIBLE ) ;
2008-01-29 17:59:12 +03:00
spin_unlock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
schedule ( ) ;
2008-01-29 17:59:12 +03:00
spin_lock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
finish_wait ( & state - > wq , & wait ) ;
free_extent_state ( state ) ;
goto search_again ;
}
2008-01-29 23:55:23 +03:00
set_state_cb ( tree , state , EXTENT_LOCKED ) ;
2008-01-31 19:05:37 +03:00
state - > state | = EXTENT_LOCKED ;
2008-01-25 00:13:08 +03:00
if ( ! found )
* start = state - > start ;
found + + ;
* end = state - > end ;
cur_start = state - > end + 1 ;
node = rb_next ( node ) ;
if ( ! node )
break ;
total_bytes + = state - > end - state - > start + 1 ;
if ( total_bytes > = max_bytes )
break ;
}
out :
2008-01-29 17:59:12 +03:00
spin_unlock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
return found ;
}
u64 count_range_bits ( struct extent_io_tree * tree ,
u64 * start , u64 search_end , u64 max_bytes ,
unsigned long bits )
{
struct rb_node * node ;
struct extent_state * state ;
u64 cur_start = * start ;
u64 total_bytes = 0 ;
int found = 0 ;
if ( search_end < = cur_start ) {
printk ( " search_end %Lu start %Lu \n " , search_end , cur_start ) ;
WARN_ON ( 1 ) ;
return 0 ;
}
2008-01-29 17:59:12 +03:00
spin_lock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
if ( cur_start = = 0 & & bits = = EXTENT_DIRTY ) {
total_bytes = tree - > dirty_bytes ;
goto out ;
}
/*
* this search will find all the extents that end after
* our range starts .
*/
2008-02-01 22:51:59 +03:00
node = tree_search ( tree , cur_start ) ;
2008-01-25 00:13:08 +03:00
if ( ! node | | IS_ERR ( node ) ) {
goto out ;
}
while ( 1 ) {
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( state - > start > search_end )
break ;
if ( state - > end > = cur_start & & ( state - > state & bits ) ) {
total_bytes + = min ( search_end , state - > end ) + 1 -
max ( cur_start , state - > start ) ;
if ( total_bytes > = max_bytes )
break ;
if ( ! found ) {
* start = state - > start ;
found = 1 ;
}
}
node = rb_next ( node ) ;
if ( ! node )
break ;
}
out :
2008-01-29 17:59:12 +03:00
spin_unlock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
return total_bytes ;
}
/*
* helper function to lock both pages and extents in the tree .
* pages must be locked first .
*/
int lock_range ( struct extent_io_tree * tree , u64 start , u64 end )
{
unsigned long index = start > > PAGE_CACHE_SHIFT ;
unsigned long end_index = end > > PAGE_CACHE_SHIFT ;
struct page * page ;
int err ;
while ( index < = end_index ) {
page = grab_cache_page ( tree - > mapping , index ) ;
if ( ! page ) {
err = - ENOMEM ;
goto failed ;
}
if ( IS_ERR ( page ) ) {
err = PTR_ERR ( page ) ;
goto failed ;
}
index + + ;
}
lock_extent ( tree , start , end , GFP_NOFS ) ;
return 0 ;
failed :
/*
* we failed above in getting the page at ' index ' , so we undo here
* up to but not including the page at ' index '
*/
end_index = index ;
index = start > > PAGE_CACHE_SHIFT ;
while ( index < end_index ) {
page = find_get_page ( tree - > mapping , index ) ;
unlock_page ( page ) ;
page_cache_release ( page ) ;
index + + ;
}
return err ;
}
EXPORT_SYMBOL ( lock_range ) ;
/*
* helper function to unlock both pages and extents in the tree .
*/
int unlock_range ( struct extent_io_tree * tree , u64 start , u64 end )
{
unsigned long index = start > > PAGE_CACHE_SHIFT ;
unsigned long end_index = end > > PAGE_CACHE_SHIFT ;
struct page * page ;
while ( index < = end_index ) {
page = find_get_page ( tree - > mapping , index ) ;
unlock_page ( page ) ;
page_cache_release ( page ) ;
index + + ;
}
unlock_extent ( tree , start , end , GFP_NOFS ) ;
return 0 ;
}
EXPORT_SYMBOL ( unlock_range ) ;
int set_state_private ( struct extent_io_tree * tree , u64 start , u64 private )
{
struct rb_node * node ;
struct extent_state * state ;
int ret = 0 ;
2008-01-29 17:59:12 +03:00
spin_lock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
/*
* this search will find all the extents that end after
* our range starts .
*/
2008-02-01 22:51:59 +03:00
node = tree_search ( tree , start ) ;
2008-01-25 00:13:08 +03:00
if ( ! node | | IS_ERR ( node ) ) {
ret = - ENOENT ;
goto out ;
}
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( state - > start ! = start ) {
ret = - ENOENT ;
goto out ;
}
state - > private = private ;
out :
2008-01-29 17:59:12 +03:00
spin_unlock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
return ret ;
}
int get_state_private ( struct extent_io_tree * tree , u64 start , u64 * private )
{
struct rb_node * node ;
struct extent_state * state ;
int ret = 0 ;
2008-01-29 17:59:12 +03:00
spin_lock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
/*
* this search will find all the extents that end after
* our range starts .
*/
2008-02-01 22:51:59 +03:00
node = tree_search ( tree , start ) ;
2008-01-25 00:13:08 +03:00
if ( ! node | | IS_ERR ( node ) ) {
ret = - ENOENT ;
goto out ;
}
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( state - > start ! = start ) {
ret = - ENOENT ;
goto out ;
}
* private = state - > private ;
out :
2008-01-29 17:59:12 +03:00
spin_unlock_irq ( & tree - > lock ) ;
2008-01-25 00:13:08 +03:00
return ret ;
}
/*
* searches a range in the state tree for a given mask .
2008-01-29 17:59:12 +03:00
* If ' filled ' = = 1 , this returns 1 only if every extent in the tree
2008-01-25 00:13:08 +03:00
* has the bits set . Otherwise , 1 is returned if any bit in the
* range is found set .
*/
int test_range_bit ( struct extent_io_tree * tree , u64 start , u64 end ,
int bits , int filled )
{
struct extent_state * state = NULL ;
struct rb_node * node ;
int bitset = 0 ;
unsigned long flags ;
2008-01-29 17:59:12 +03:00
spin_lock_irqsave ( & tree - > lock , flags ) ;
2008-02-01 22:51:59 +03:00
node = tree_search ( tree , start ) ;
2008-01-25 00:13:08 +03:00
while ( node & & start < = end ) {
state = rb_entry ( node , struct extent_state , rb_node ) ;
if ( filled & & state - > start > start ) {
bitset = 0 ;
break ;
}
if ( state - > start > end )
break ;
if ( state - > state & bits ) {
bitset = 1 ;
if ( ! filled )
break ;
} else if ( filled ) {
bitset = 0 ;
break ;
}
start = state - > end + 1 ;
if ( start > end )
break ;
node = rb_next ( node ) ;
if ( ! node ) {
if ( filled )
bitset = 0 ;
break ;
}
}
2008-01-29 17:59:12 +03:00
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
2008-01-25 00:13:08 +03:00
return bitset ;
}
EXPORT_SYMBOL ( test_range_bit ) ;
/*
* helper function to set a given page up to date if all the
* extents in the tree for that page are up to date
*/
static int check_page_uptodate ( struct extent_io_tree * tree ,
struct page * page )
{
u64 start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 end = start + PAGE_CACHE_SIZE - 1 ;
if ( test_range_bit ( tree , start , end , EXTENT_UPTODATE , 1 ) )
SetPageUptodate ( page ) ;
return 0 ;
}
/*
* helper function to unlock a page if all the extents in the tree
* for that page are unlocked
*/
static int check_page_locked ( struct extent_io_tree * tree ,
struct page * page )
{
u64 start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 end = start + PAGE_CACHE_SIZE - 1 ;
if ( ! test_range_bit ( tree , start , end , EXTENT_LOCKED , 0 ) )
unlock_page ( page ) ;
return 0 ;
}
/*
* helper function to end page writeback if all the extents
* in the tree for that page are done with writeback
*/
static int check_page_writeback ( struct extent_io_tree * tree ,
struct page * page )
{
u64 start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 end = start + PAGE_CACHE_SIZE - 1 ;
if ( ! test_range_bit ( tree , start , end , EXTENT_WRITEBACK , 0 ) )
end_page_writeback ( page ) ;
return 0 ;
}
/* lots and lots of room for performance fixes in the end_bio funcs */
/*
* after a writepage IO is done , we need to :
* clear the uptodate bits on error
* clear the writeback bits in the extent tree for this IO
* end_page_writeback if the page has no more pending IO
*
* Scheduling is not allowed , so the extent state tree is expected
* to have one and only one object corresponding to this IO .
*/
# if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,23)
static void end_bio_extent_writepage ( struct bio * bio , int err )
# else
static int end_bio_extent_writepage ( struct bio * bio ,
unsigned int bytes_done , int err )
# endif
{
const int uptodate = test_bit ( BIO_UPTODATE , & bio - > bi_flags ) ;
struct bio_vec * bvec = bio - > bi_io_vec + bio - > bi_vcnt - 1 ;
2008-01-29 17:59:12 +03:00
struct extent_state * state = bio - > bi_private ;
struct extent_io_tree * tree = state - > tree ;
struct rb_node * node ;
2008-01-25 00:13:08 +03:00
u64 start ;
u64 end ;
2008-01-29 17:59:12 +03:00
u64 cur ;
2008-01-25 00:13:08 +03:00
int whole_page ;
2008-01-29 17:59:12 +03:00
unsigned long flags ;
2008-01-25 00:13:08 +03:00
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23)
if ( bio - > bi_size )
return 1 ;
# endif
do {
struct page * page = bvec - > bv_page ;
start = ( ( u64 ) page - > index < < PAGE_CACHE_SHIFT ) +
bvec - > bv_offset ;
end = start + bvec - > bv_len - 1 ;
if ( bvec - > bv_offset = = 0 & & bvec - > bv_len = = PAGE_CACHE_SIZE )
whole_page = 1 ;
else
whole_page = 0 ;
if ( - - bvec > = bio - > bi_io_vec )
prefetchw ( & bvec - > bv_page - > flags ) ;
if ( ! uptodate ) {
clear_extent_uptodate ( tree , start , end , GFP_ATOMIC ) ;
ClearPageUptodate ( page ) ;
SetPageError ( page ) ;
}
2008-01-29 17:59:12 +03:00
if ( tree - > ops & & tree - > ops - > writepage_end_io_hook ) {
tree - > ops - > writepage_end_io_hook ( page , start , end ,
state ) ;
}
/*
* bios can get merged in funny ways , and so we need to
* be careful with the state variable . We know the
* state won ' t be merged with others because it has
* WRITEBACK set , but we can ' t be sure each biovec is
* sequential in the file . So , if our cached state
* doesn ' t match the expected end , search the tree
* for the correct one .
*/
spin_lock_irqsave ( & tree - > lock , flags ) ;
if ( ! state | | state - > end ! = end ) {
state = NULL ;
2008-02-01 22:51:59 +03:00
node = __etree_search ( tree , start , NULL , NULL ) ;
2008-01-29 17:59:12 +03:00
if ( node ) {
state = rb_entry ( node , struct extent_state ,
rb_node ) ;
if ( state - > end ! = end | |
! ( state - > state & EXTENT_WRITEBACK ) )
state = NULL ;
}
if ( ! state ) {
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
clear_extent_writeback ( tree , start ,
end , GFP_ATOMIC ) ;
goto next_io ;
}
}
cur = end ;
while ( 1 ) {
struct extent_state * clear = state ;
cur = state - > start ;
node = rb_prev ( & state - > rb_node ) ;
if ( node ) {
state = rb_entry ( node ,
struct extent_state ,
rb_node ) ;
} else {
state = NULL ;
}
clear_state_bit ( tree , clear , EXTENT_WRITEBACK ,
1 , 0 ) ;
if ( cur = = start )
break ;
if ( cur < start ) {
WARN_ON ( 1 ) ;
break ;
}
if ( ! node )
break ;
}
/* before releasing the lock, make sure the next state
* variable has the expected bits set and corresponds
* to the correct offsets in the file
*/
if ( state & & ( state - > end + 1 ! = start | |
2008-02-04 16:57:25 +03:00
! ( state - > state & EXTENT_WRITEBACK ) ) ) {
2008-01-29 17:59:12 +03:00
state = NULL ;
}
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
next_io :
2008-01-25 00:13:08 +03:00
if ( whole_page )
end_page_writeback ( page ) ;
else
check_page_writeback ( tree , page ) ;
} while ( bvec > = bio - > bi_io_vec ) ;
bio_put ( bio ) ;
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23)
return 0 ;
# endif
}
/*
* after a readpage IO is done , we need to :
* clear the uptodate bits on error
* set the uptodate bits if things worked
* set the page up to date if all extents in the tree are uptodate
* clear the lock bit in the extent tree
* unlock the page if there are no other extents locked for it
*
* Scheduling is not allowed , so the extent state tree is expected
* to have one and only one object corresponding to this IO .
*/
# if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,23)
static void end_bio_extent_readpage ( struct bio * bio , int err )
# else
static int end_bio_extent_readpage ( struct bio * bio ,
unsigned int bytes_done , int err )
# endif
{
int uptodate = test_bit ( BIO_UPTODATE , & bio - > bi_flags ) ;
struct bio_vec * bvec = bio - > bi_io_vec + bio - > bi_vcnt - 1 ;
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struct extent_state * state = bio - > bi_private ;
struct extent_io_tree * tree = state - > tree ;
struct rb_node * node ;
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u64 start ;
u64 end ;
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u64 cur ;
unsigned long flags ;
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int whole_page ;
int ret ;
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23)
if ( bio - > bi_size )
return 1 ;
# endif
do {
struct page * page = bvec - > bv_page ;
start = ( ( u64 ) page - > index < < PAGE_CACHE_SHIFT ) +
bvec - > bv_offset ;
end = start + bvec - > bv_len - 1 ;
if ( bvec - > bv_offset = = 0 & & bvec - > bv_len = = PAGE_CACHE_SIZE )
whole_page = 1 ;
else
whole_page = 0 ;
if ( - - bvec > = bio - > bi_io_vec )
prefetchw ( & bvec - > bv_page - > flags ) ;
if ( uptodate & & tree - > ops & & tree - > ops - > readpage_end_io_hook ) {
2008-01-29 17:59:12 +03:00
ret = tree - > ops - > readpage_end_io_hook ( page , start , end ,
state ) ;
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if ( ret )
uptodate = 0 ;
}
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spin_lock_irqsave ( & tree - > lock , flags ) ;
if ( ! state | | state - > end ! = end ) {
state = NULL ;
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node = __etree_search ( tree , start , NULL , NULL ) ;
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if ( node ) {
state = rb_entry ( node , struct extent_state ,
rb_node ) ;
if ( state - > end ! = end | |
! ( state - > state & EXTENT_LOCKED ) )
state = NULL ;
}
if ( ! state ) {
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
set_extent_uptodate ( tree , start , end ,
GFP_ATOMIC ) ;
unlock_extent ( tree , start , end , GFP_ATOMIC ) ;
goto next_io ;
}
}
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2008-01-29 17:59:12 +03:00
cur = end ;
while ( 1 ) {
struct extent_state * clear = state ;
cur = state - > start ;
node = rb_prev ( & state - > rb_node ) ;
if ( node ) {
state = rb_entry ( node ,
struct extent_state ,
rb_node ) ;
} else {
state = NULL ;
}
2008-01-29 23:55:23 +03:00
set_state_cb ( tree , clear , EXTENT_UPTODATE ) ;
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clear - > state | = EXTENT_UPTODATE ;
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clear_state_bit ( tree , clear , EXTENT_LOCKED ,
1 , 0 ) ;
if ( cur = = start )
break ;
if ( cur < start ) {
WARN_ON ( 1 ) ;
break ;
}
if ( ! node )
break ;
}
/* before releasing the lock, make sure the next state
* variable has the expected bits set and corresponds
* to the correct offsets in the file
*/
if ( state & & ( state - > end + 1 ! = start | |
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! ( state - > state & EXTENT_LOCKED ) ) ) {
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state = NULL ;
}
spin_unlock_irqrestore ( & tree - > lock , flags ) ;
next_io :
if ( whole_page ) {
if ( uptodate ) {
SetPageUptodate ( page ) ;
} else {
ClearPageUptodate ( page ) ;
SetPageError ( page ) ;
}
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unlock_page ( page ) ;
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} else {
if ( uptodate ) {
check_page_uptodate ( tree , page ) ;
} else {
ClearPageUptodate ( page ) ;
SetPageError ( page ) ;
}
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check_page_locked ( tree , page ) ;
2008-01-29 17:59:12 +03:00
}
2008-01-25 00:13:08 +03:00
} while ( bvec > = bio - > bi_io_vec ) ;
bio_put ( bio ) ;
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23)
return 0 ;
# endif
}
/*
* IO done from prepare_write is pretty simple , we just unlock
* the structs in the extent tree when done , and set the uptodate bits
* as appropriate .
*/
# if LINUX_VERSION_CODE > KERNEL_VERSION(2,6,23)
static void end_bio_extent_preparewrite ( struct bio * bio , int err )
# else
static int end_bio_extent_preparewrite ( struct bio * bio ,
unsigned int bytes_done , int err )
# endif
{
const int uptodate = test_bit ( BIO_UPTODATE , & bio - > bi_flags ) ;
struct bio_vec * bvec = bio - > bi_io_vec + bio - > bi_vcnt - 1 ;
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struct extent_state * state = bio - > bi_private ;
struct extent_io_tree * tree = state - > tree ;
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u64 start ;
u64 end ;
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23)
if ( bio - > bi_size )
return 1 ;
# endif
do {
struct page * page = bvec - > bv_page ;
start = ( ( u64 ) page - > index < < PAGE_CACHE_SHIFT ) +
bvec - > bv_offset ;
end = start + bvec - > bv_len - 1 ;
if ( - - bvec > = bio - > bi_io_vec )
prefetchw ( & bvec - > bv_page - > flags ) ;
if ( uptodate ) {
set_extent_uptodate ( tree , start , end , GFP_ATOMIC ) ;
} else {
ClearPageUptodate ( page ) ;
SetPageError ( page ) ;
}
unlock_extent ( tree , start , end , GFP_ATOMIC ) ;
} while ( bvec > = bio - > bi_io_vec ) ;
bio_put ( bio ) ;
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,23)
return 0 ;
# endif
}
static struct bio *
extent_bio_alloc ( struct block_device * bdev , u64 first_sector , int nr_vecs ,
gfp_t gfp_flags )
{
struct bio * bio ;
bio = bio_alloc ( gfp_flags , nr_vecs ) ;
if ( bio = = NULL & & ( current - > flags & PF_MEMALLOC ) ) {
while ( ! bio & & ( nr_vecs / = 2 ) )
bio = bio_alloc ( gfp_flags , nr_vecs ) ;
}
if ( bio ) {
bio - > bi_bdev = bdev ;
bio - > bi_sector = first_sector ;
}
return bio ;
}
static int submit_one_bio ( int rw , struct bio * bio )
{
u64 maxsector ;
int ret = 0 ;
2008-01-29 17:59:12 +03:00
struct bio_vec * bvec = bio - > bi_io_vec + bio - > bi_vcnt - 1 ;
struct page * page = bvec - > bv_page ;
struct extent_io_tree * tree = bio - > bi_private ;
struct rb_node * node ;
struct extent_state * state ;
u64 start ;
u64 end ;
start = ( ( u64 ) page - > index < < PAGE_CACHE_SHIFT ) + bvec - > bv_offset ;
end = start + bvec - > bv_len - 1 ;
spin_lock_irq ( & tree - > lock ) ;
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node = __etree_search ( tree , start , NULL , NULL ) ;
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BUG_ON ( ! node ) ;
state = rb_entry ( node , struct extent_state , rb_node ) ;
while ( state - > end < end ) {
node = rb_next ( node ) ;
state = rb_entry ( node , struct extent_state , rb_node ) ;
}
BUG_ON ( state - > end ! = end ) ;
spin_unlock_irq ( & tree - > lock ) ;
bio - > bi_private = state ;
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bio_get ( bio ) ;
maxsector = bio - > bi_bdev - > bd_inode - > i_size > > 9 ;
if ( maxsector < bio - > bi_sector ) {
printk ( " sector too large max %Lu got %llu \n " , maxsector ,
( unsigned long long ) bio - > bi_sector ) ;
WARN_ON ( 1 ) ;
}
submit_bio ( rw , bio ) ;
if ( bio_flagged ( bio , BIO_EOPNOTSUPP ) )
ret = - EOPNOTSUPP ;
bio_put ( bio ) ;
return ret ;
}
static int submit_extent_page ( int rw , struct extent_io_tree * tree ,
struct page * page , sector_t sector ,
size_t size , unsigned long offset ,
struct block_device * bdev ,
struct bio * * bio_ret ,
unsigned long max_pages ,
bio_end_io_t end_io_func )
{
int ret = 0 ;
struct bio * bio ;
int nr ;
if ( bio_ret & & * bio_ret ) {
bio = * bio_ret ;
if ( bio - > bi_sector + ( bio - > bi_size > > 9 ) ! = sector | |
bio_add_page ( bio , page , size , offset ) < size ) {
ret = submit_one_bio ( rw , bio ) ;
bio = NULL ;
} else {
return 0 ;
}
}
2008-02-06 19:01:42 +03:00
nr = bio_get_nr_vecs ( bdev ) ;
2008-01-25 00:13:08 +03:00
bio = extent_bio_alloc ( bdev , sector , nr , GFP_NOFS | __GFP_HIGH ) ;
if ( ! bio ) {
printk ( " failed to allocate bio nr %d \n " , nr ) ;
}
2008-01-29 17:59:12 +03:00
2008-01-25 00:13:08 +03:00
bio_add_page ( bio , page , size , offset ) ;
bio - > bi_end_io = end_io_func ;
bio - > bi_private = tree ;
2008-01-29 17:59:12 +03:00
2008-01-25 00:13:08 +03:00
if ( bio_ret ) {
* bio_ret = bio ;
} else {
ret = submit_one_bio ( rw , bio ) ;
}
return ret ;
}
void set_page_extent_mapped ( struct page * page )
{
if ( ! PagePrivate ( page ) ) {
SetPagePrivate ( page ) ;
WARN_ON ( ! page - > mapping - > a_ops - > invalidatepage ) ;
set_page_private ( page , EXTENT_PAGE_PRIVATE ) ;
page_cache_get ( page ) ;
}
}
void set_page_extent_head ( struct page * page , unsigned long len )
{
set_page_private ( page , EXTENT_PAGE_PRIVATE_FIRST_PAGE | len < < 2 ) ;
}
/*
* basic readpage implementation . Locked extent state structs are inserted
* into the tree that are removed when the IO is done ( by the end_io
* handlers )
*/
static int __extent_read_full_page ( struct extent_io_tree * tree ,
struct page * page ,
get_extent_t * get_extent ,
struct bio * * bio )
{
struct inode * inode = page - > mapping - > host ;
u64 start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 page_end = start + PAGE_CACHE_SIZE - 1 ;
u64 end ;
u64 cur = start ;
u64 extent_offset ;
u64 last_byte = i_size_read ( inode ) ;
u64 block_start ;
u64 cur_end ;
sector_t sector ;
struct extent_map * em ;
struct block_device * bdev ;
int ret ;
int nr = 0 ;
size_t page_offset = 0 ;
size_t iosize ;
size_t blocksize = inode - > i_sb - > s_blocksize ;
set_page_extent_mapped ( page ) ;
end = page_end ;
lock_extent ( tree , start , end , GFP_NOFS ) ;
while ( cur < = end ) {
if ( cur > = last_byte ) {
char * userpage ;
iosize = PAGE_CACHE_SIZE - page_offset ;
userpage = kmap_atomic ( page , KM_USER0 ) ;
memset ( userpage + page_offset , 0 , iosize ) ;
flush_dcache_page ( page ) ;
kunmap_atomic ( userpage , KM_USER0 ) ;
set_extent_uptodate ( tree , cur , cur + iosize - 1 ,
GFP_NOFS ) ;
unlock_extent ( tree , cur , cur + iosize - 1 , GFP_NOFS ) ;
break ;
}
em = get_extent ( inode , page , page_offset , cur ,
end - cur + 1 , 0 ) ;
if ( IS_ERR ( em ) | | ! em ) {
SetPageError ( page ) ;
unlock_extent ( tree , cur , end , GFP_NOFS ) ;
break ;
}
extent_offset = cur - em - > start ;
BUG_ON ( extent_map_end ( em ) < = cur ) ;
BUG_ON ( end < cur ) ;
iosize = min ( extent_map_end ( em ) - cur , end - cur + 1 ) ;
cur_end = min ( extent_map_end ( em ) - 1 , end ) ;
iosize = ( iosize + blocksize - 1 ) & ~ ( ( u64 ) blocksize - 1 ) ;
sector = ( em - > block_start + extent_offset ) > > 9 ;
bdev = em - > bdev ;
block_start = em - > block_start ;
free_extent_map ( em ) ;
em = NULL ;
/* we've found a hole, just zero and go on */
if ( block_start = = EXTENT_MAP_HOLE ) {
char * userpage ;
userpage = kmap_atomic ( page , KM_USER0 ) ;
memset ( userpage + page_offset , 0 , iosize ) ;
flush_dcache_page ( page ) ;
kunmap_atomic ( userpage , KM_USER0 ) ;
set_extent_uptodate ( tree , cur , cur + iosize - 1 ,
GFP_NOFS ) ;
unlock_extent ( tree , cur , cur + iosize - 1 , GFP_NOFS ) ;
cur = cur + iosize ;
page_offset + = iosize ;
continue ;
}
/* the get_extent function already copied into the page */
if ( test_range_bit ( tree , cur , cur_end , EXTENT_UPTODATE , 1 ) ) {
unlock_extent ( tree , cur , cur + iosize - 1 , GFP_NOFS ) ;
cur = cur + iosize ;
page_offset + = iosize ;
continue ;
}
2008-01-29 17:59:12 +03:00
/* we have an inline extent but it didn't get marked up
* to date . Error out
*/
if ( block_start = = EXTENT_MAP_INLINE ) {
SetPageError ( page ) ;
unlock_extent ( tree , cur , cur + iosize - 1 , GFP_NOFS ) ;
cur = cur + iosize ;
page_offset + = iosize ;
continue ;
}
2008-01-25 00:13:08 +03:00
ret = 0 ;
if ( tree - > ops & & tree - > ops - > readpage_io_hook ) {
ret = tree - > ops - > readpage_io_hook ( page , cur ,
cur + iosize - 1 ) ;
}
if ( ! ret ) {
unsigned long nr = ( last_byte > > PAGE_CACHE_SHIFT ) + 1 ;
nr - = page - > index ;
ret = submit_extent_page ( READ , tree , page ,
sector , iosize , page_offset ,
bdev , bio , nr ,
end_bio_extent_readpage ) ;
}
if ( ret )
SetPageError ( page ) ;
cur = cur + iosize ;
page_offset + = iosize ;
nr + + ;
}
if ( ! nr ) {
if ( ! PageError ( page ) )
SetPageUptodate ( page ) ;
unlock_page ( page ) ;
}
return 0 ;
}
int extent_read_full_page ( struct extent_io_tree * tree , struct page * page ,
get_extent_t * get_extent )
{
struct bio * bio = NULL ;
int ret ;
ret = __extent_read_full_page ( tree , page , get_extent , & bio ) ;
if ( bio )
submit_one_bio ( READ , bio ) ;
return ret ;
}
EXPORT_SYMBOL ( extent_read_full_page ) ;
/*
* the writepage semantics are similar to regular writepage . extent
* records are inserted to lock ranges in the tree , and as dirty areas
* are found , they are marked writeback . Then the lock bits are removed
* and the end_io handler clears the writeback ranges
*/
static int __extent_writepage ( struct page * page , struct writeback_control * wbc ,
void * data )
{
struct inode * inode = page - > mapping - > host ;
struct extent_page_data * epd = data ;
struct extent_io_tree * tree = epd - > tree ;
u64 start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 delalloc_start ;
u64 page_end = start + PAGE_CACHE_SIZE - 1 ;
u64 end ;
u64 cur = start ;
u64 extent_offset ;
u64 last_byte = i_size_read ( inode ) ;
u64 block_start ;
u64 iosize ;
sector_t sector ;
struct extent_map * em ;
struct block_device * bdev ;
int ret ;
int nr = 0 ;
size_t page_offset = 0 ;
size_t blocksize ;
loff_t i_size = i_size_read ( inode ) ;
unsigned long end_index = i_size > > PAGE_CACHE_SHIFT ;
u64 nr_delalloc ;
u64 delalloc_end ;
WARN_ON ( ! PageLocked ( page ) ) ;
if ( page - > index > end_index ) {
clear_extent_dirty ( tree , start , page_end , GFP_NOFS ) ;
unlock_page ( page ) ;
return 0 ;
}
if ( page - > index = = end_index ) {
char * userpage ;
size_t offset = i_size & ( PAGE_CACHE_SIZE - 1 ) ;
userpage = kmap_atomic ( page , KM_USER0 ) ;
memset ( userpage + offset , 0 , PAGE_CACHE_SIZE - offset ) ;
flush_dcache_page ( page ) ;
kunmap_atomic ( userpage , KM_USER0 ) ;
}
set_page_extent_mapped ( page ) ;
delalloc_start = start ;
delalloc_end = 0 ;
while ( delalloc_end < page_end ) {
nr_delalloc = find_lock_delalloc_range ( tree , & delalloc_start ,
& delalloc_end ,
128 * 1024 * 1024 ) ;
if ( nr_delalloc = = 0 ) {
delalloc_start = delalloc_end + 1 ;
continue ;
}
tree - > ops - > fill_delalloc ( inode , delalloc_start ,
delalloc_end ) ;
clear_extent_bit ( tree , delalloc_start ,
delalloc_end ,
EXTENT_LOCKED | EXTENT_DELALLOC ,
1 , 0 , GFP_NOFS ) ;
delalloc_start = delalloc_end + 1 ;
}
lock_extent ( tree , start , page_end , GFP_NOFS ) ;
end = page_end ;
if ( test_range_bit ( tree , start , page_end , EXTENT_DELALLOC , 0 ) ) {
printk ( " found delalloc bits after lock_extent \n " ) ;
}
if ( last_byte < = start ) {
clear_extent_dirty ( tree , start , page_end , GFP_NOFS ) ;
goto done ;
}
set_extent_uptodate ( tree , start , page_end , GFP_NOFS ) ;
blocksize = inode - > i_sb - > s_blocksize ;
while ( cur < = end ) {
if ( cur > = last_byte ) {
clear_extent_dirty ( tree , cur , page_end , GFP_NOFS ) ;
break ;
}
em = epd - > get_extent ( inode , page , page_offset , cur ,
end - cur + 1 , 1 ) ;
if ( IS_ERR ( em ) | | ! em ) {
SetPageError ( page ) ;
break ;
}
extent_offset = cur - em - > start ;
BUG_ON ( extent_map_end ( em ) < = cur ) ;
BUG_ON ( end < cur ) ;
iosize = min ( extent_map_end ( em ) - cur , end - cur + 1 ) ;
iosize = ( iosize + blocksize - 1 ) & ~ ( ( u64 ) blocksize - 1 ) ;
sector = ( em - > block_start + extent_offset ) > > 9 ;
bdev = em - > bdev ;
block_start = em - > block_start ;
free_extent_map ( em ) ;
em = NULL ;
if ( block_start = = EXTENT_MAP_HOLE | |
block_start = = EXTENT_MAP_INLINE ) {
clear_extent_dirty ( tree , cur ,
cur + iosize - 1 , GFP_NOFS ) ;
cur = cur + iosize ;
page_offset + = iosize ;
continue ;
}
/* leave this out until we have a page_mkwrite call */
if ( 0 & & ! test_range_bit ( tree , cur , cur + iosize - 1 ,
EXTENT_DIRTY , 0 ) ) {
cur = cur + iosize ;
page_offset + = iosize ;
continue ;
}
clear_extent_dirty ( tree , cur , cur + iosize - 1 , GFP_NOFS ) ;
if ( tree - > ops & & tree - > ops - > writepage_io_hook ) {
ret = tree - > ops - > writepage_io_hook ( page , cur ,
cur + iosize - 1 ) ;
} else {
ret = 0 ;
}
if ( ret )
SetPageError ( page ) ;
else {
unsigned long max_nr = end_index + 1 ;
set_range_writeback ( tree , cur , cur + iosize - 1 ) ;
if ( ! PageWriteback ( page ) ) {
printk ( " warning page %lu not writeback, "
" cur %llu end %llu \n " , page - > index ,
( unsigned long long ) cur ,
( unsigned long long ) end ) ;
}
ret = submit_extent_page ( WRITE , tree , page , sector ,
iosize , page_offset , bdev ,
& epd - > bio , max_nr ,
end_bio_extent_writepage ) ;
if ( ret )
SetPageError ( page ) ;
}
cur = cur + iosize ;
page_offset + = iosize ;
nr + + ;
}
done :
if ( nr = = 0 ) {
/* make sure the mapping tag for page dirty gets cleared */
set_page_writeback ( page ) ;
end_page_writeback ( page ) ;
}
unlock_extent ( tree , start , page_end , GFP_NOFS ) ;
unlock_page ( page ) ;
return 0 ;
}
# if LINUX_VERSION_CODE <= KERNEL_VERSION(2,6,18)
/* Taken directly from 2.6.23 for 2.6.18 back port */
typedef int ( * writepage_t ) ( struct page * page , struct writeback_control * wbc ,
void * data ) ;
/**
* write_cache_pages - walk the list of dirty pages of the given address space
* and write all of them .
* @ mapping : address space structure to write
* @ wbc : subtract the number of written pages from * @ wbc - > nr_to_write
* @ writepage : function called for each page
* @ data : data passed to writepage function
*
* If a page is already under I / O , write_cache_pages ( ) skips it , even
* if it ' s dirty . This is desirable behaviour for memory - cleaning writeback ,
* but it is INCORRECT for data - integrity system calls such as fsync ( ) . fsync ( )
* and msync ( ) need to guarantee that all the data which was dirty at the time
* the call was made get new I / O started against them . If wbc - > sync_mode is
* WB_SYNC_ALL then we were called for data integrity and we must wait for
* existing IO to complete .
*/
static int write_cache_pages ( struct address_space * mapping ,
struct writeback_control * wbc , writepage_t writepage ,
void * data )
{
struct backing_dev_info * bdi = mapping - > backing_dev_info ;
int ret = 0 ;
int done = 0 ;
struct pagevec pvec ;
int nr_pages ;
pgoff_t index ;
pgoff_t end ; /* Inclusive */
int scanned = 0 ;
int range_whole = 0 ;
if ( wbc - > nonblocking & & bdi_write_congested ( bdi ) ) {
wbc - > encountered_congestion = 1 ;
return 0 ;
}
pagevec_init ( & pvec , 0 ) ;
if ( wbc - > range_cyclic ) {
index = mapping - > writeback_index ; /* Start from prev offset */
end = - 1 ;
} else {
index = wbc - > range_start > > PAGE_CACHE_SHIFT ;
end = wbc - > range_end > > PAGE_CACHE_SHIFT ;
if ( wbc - > range_start = = 0 & & wbc - > range_end = = LLONG_MAX )
range_whole = 1 ;
scanned = 1 ;
}
retry :
while ( ! done & & ( index < = end ) & &
( nr_pages = pagevec_lookup_tag ( & pvec , mapping , & index ,
PAGECACHE_TAG_DIRTY ,
min ( end - index , ( pgoff_t ) PAGEVEC_SIZE - 1 ) + 1 ) ) ) {
unsigned i ;
scanned = 1 ;
for ( i = 0 ; i < nr_pages ; i + + ) {
struct page * page = pvec . pages [ i ] ;
/*
* At this point we hold neither mapping - > tree_lock nor
* lock on the page itself : the page may be truncated or
* invalidated ( changing page - > mapping to NULL ) , or even
* swizzled back from swapper_space to tmpfs file
* mapping
*/
lock_page ( page ) ;
if ( unlikely ( page - > mapping ! = mapping ) ) {
unlock_page ( page ) ;
continue ;
}
if ( ! wbc - > range_cyclic & & page - > index > end ) {
done = 1 ;
unlock_page ( page ) ;
continue ;
}
if ( wbc - > sync_mode ! = WB_SYNC_NONE )
wait_on_page_writeback ( page ) ;
if ( PageWriteback ( page ) | |
! clear_page_dirty_for_io ( page ) ) {
unlock_page ( page ) ;
continue ;
}
ret = ( * writepage ) ( page , wbc , data ) ;
if ( unlikely ( ret = = AOP_WRITEPAGE_ACTIVATE ) ) {
unlock_page ( page ) ;
ret = 0 ;
}
if ( ret | | ( - - ( wbc - > nr_to_write ) < = 0 ) )
done = 1 ;
if ( wbc - > nonblocking & & bdi_write_congested ( bdi ) ) {
wbc - > encountered_congestion = 1 ;
done = 1 ;
}
}
pagevec_release ( & pvec ) ;
cond_resched ( ) ;
}
if ( ! scanned & & ! done ) {
/*
* We hit the last page and there is more work to be done : wrap
* back to the start of the file
*/
scanned = 1 ;
index = 0 ;
goto retry ;
}
if ( wbc - > range_cyclic | | ( range_whole & & wbc - > nr_to_write > 0 ) )
mapping - > writeback_index = index ;
return ret ;
}
# endif
int extent_write_full_page ( struct extent_io_tree * tree , struct page * page ,
get_extent_t * get_extent ,
struct writeback_control * wbc )
{
int ret ;
struct address_space * mapping = page - > mapping ;
struct extent_page_data epd = {
. bio = NULL ,
. tree = tree ,
. get_extent = get_extent ,
} ;
struct writeback_control wbc_writepages = {
. bdi = wbc - > bdi ,
. sync_mode = WB_SYNC_NONE ,
. older_than_this = NULL ,
. nr_to_write = 64 ,
. range_start = page_offset ( page ) + PAGE_CACHE_SIZE ,
. range_end = ( loff_t ) - 1 ,
} ;
ret = __extent_writepage ( page , wbc , & epd ) ;
write_cache_pages ( mapping , & wbc_writepages , __extent_writepage , & epd ) ;
if ( epd . bio ) {
submit_one_bio ( WRITE , epd . bio ) ;
}
return ret ;
}
EXPORT_SYMBOL ( extent_write_full_page ) ;
int extent_writepages ( struct extent_io_tree * tree ,
struct address_space * mapping ,
get_extent_t * get_extent ,
struct writeback_control * wbc )
{
int ret = 0 ;
struct extent_page_data epd = {
. bio = NULL ,
. tree = tree ,
. get_extent = get_extent ,
} ;
ret = write_cache_pages ( mapping , wbc , __extent_writepage , & epd ) ;
if ( epd . bio ) {
submit_one_bio ( WRITE , epd . bio ) ;
}
return ret ;
}
EXPORT_SYMBOL ( extent_writepages ) ;
int extent_readpages ( struct extent_io_tree * tree ,
struct address_space * mapping ,
struct list_head * pages , unsigned nr_pages ,
get_extent_t get_extent )
{
struct bio * bio = NULL ;
unsigned page_idx ;
struct pagevec pvec ;
pagevec_init ( & pvec , 0 ) ;
for ( page_idx = 0 ; page_idx < nr_pages ; page_idx + + ) {
struct page * page = list_entry ( pages - > prev , struct page , lru ) ;
prefetchw ( & page - > flags ) ;
list_del ( & page - > lru ) ;
/*
* what we want to do here is call add_to_page_cache_lru ,
* but that isn ' t exported , so we reproduce it here
*/
if ( ! add_to_page_cache ( page , mapping ,
page - > index , GFP_KERNEL ) ) {
/* open coding of lru_cache_add, also not exported */
page_cache_get ( page ) ;
if ( ! pagevec_add ( & pvec , page ) )
__pagevec_lru_add ( & pvec ) ;
__extent_read_full_page ( tree , page , get_extent , & bio ) ;
}
page_cache_release ( page ) ;
}
if ( pagevec_count ( & pvec ) )
__pagevec_lru_add ( & pvec ) ;
BUG_ON ( ! list_empty ( pages ) ) ;
if ( bio )
submit_one_bio ( READ , bio ) ;
return 0 ;
}
EXPORT_SYMBOL ( extent_readpages ) ;
/*
* basic invalidatepage code , this waits on any locked or writeback
* ranges corresponding to the page , and then deletes any extent state
* records from the tree
*/
int extent_invalidatepage ( struct extent_io_tree * tree ,
struct page * page , unsigned long offset )
{
u64 start = ( ( u64 ) page - > index < < PAGE_CACHE_SHIFT ) ;
u64 end = start + PAGE_CACHE_SIZE - 1 ;
size_t blocksize = page - > mapping - > host - > i_sb - > s_blocksize ;
start + = ( offset + blocksize - 1 ) & ~ ( blocksize - 1 ) ;
if ( start > end )
return 0 ;
lock_extent ( tree , start , end , GFP_NOFS ) ;
wait_on_extent_writeback ( tree , start , end ) ;
clear_extent_bit ( tree , start , end ,
EXTENT_LOCKED | EXTENT_DIRTY | EXTENT_DELALLOC ,
1 , 1 , GFP_NOFS ) ;
return 0 ;
}
EXPORT_SYMBOL ( extent_invalidatepage ) ;
/*
* simple commit_write call , set_range_dirty is used to mark both
* the pages and the extent records as dirty
*/
int extent_commit_write ( struct extent_io_tree * tree ,
struct inode * inode , struct page * page ,
unsigned from , unsigned to )
{
loff_t pos = ( ( loff_t ) page - > index < < PAGE_CACHE_SHIFT ) + to ;
set_page_extent_mapped ( page ) ;
set_page_dirty ( page ) ;
if ( pos > inode - > i_size ) {
i_size_write ( inode , pos ) ;
mark_inode_dirty ( inode ) ;
}
return 0 ;
}
EXPORT_SYMBOL ( extent_commit_write ) ;
int extent_prepare_write ( struct extent_io_tree * tree ,
struct inode * inode , struct page * page ,
unsigned from , unsigned to , get_extent_t * get_extent )
{
u64 page_start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 page_end = page_start + PAGE_CACHE_SIZE - 1 ;
u64 block_start ;
u64 orig_block_start ;
u64 block_end ;
u64 cur_end ;
struct extent_map * em ;
unsigned blocksize = 1 < < inode - > i_blkbits ;
size_t page_offset = 0 ;
size_t block_off_start ;
size_t block_off_end ;
int err = 0 ;
int iocount = 0 ;
int ret = 0 ;
int isnew ;
set_page_extent_mapped ( page ) ;
block_start = ( page_start + from ) & ~ ( ( u64 ) blocksize - 1 ) ;
block_end = ( page_start + to - 1 ) | ( blocksize - 1 ) ;
orig_block_start = block_start ;
lock_extent ( tree , page_start , page_end , GFP_NOFS ) ;
while ( block_start < = block_end ) {
em = get_extent ( inode , page , page_offset , block_start ,
block_end - block_start + 1 , 1 ) ;
if ( IS_ERR ( em ) | | ! em ) {
goto err ;
}
cur_end = min ( block_end , extent_map_end ( em ) - 1 ) ;
block_off_start = block_start & ( PAGE_CACHE_SIZE - 1 ) ;
block_off_end = block_off_start + blocksize ;
isnew = clear_extent_new ( tree , block_start , cur_end , GFP_NOFS ) ;
if ( ! PageUptodate ( page ) & & isnew & &
( block_off_end > to | | block_off_start < from ) ) {
void * kaddr ;
kaddr = kmap_atomic ( page , KM_USER0 ) ;
if ( block_off_end > to )
memset ( kaddr + to , 0 , block_off_end - to ) ;
if ( block_off_start < from )
memset ( kaddr + block_off_start , 0 ,
from - block_off_start ) ;
flush_dcache_page ( page ) ;
kunmap_atomic ( kaddr , KM_USER0 ) ;
}
if ( ( em - > block_start ! = EXTENT_MAP_HOLE & &
em - > block_start ! = EXTENT_MAP_INLINE ) & &
! isnew & & ! PageUptodate ( page ) & &
( block_off_end > to | | block_off_start < from ) & &
! test_range_bit ( tree , block_start , cur_end ,
EXTENT_UPTODATE , 1 ) ) {
u64 sector ;
u64 extent_offset = block_start - em - > start ;
size_t iosize ;
sector = ( em - > block_start + extent_offset ) > > 9 ;
iosize = ( cur_end - block_start + blocksize ) &
~ ( ( u64 ) blocksize - 1 ) ;
/*
* we ' ve already got the extent locked , but we
* need to split the state such that our end_bio
* handler can clear the lock .
*/
set_extent_bit ( tree , block_start ,
block_start + iosize - 1 ,
EXTENT_LOCKED , 0 , NULL , GFP_NOFS ) ;
ret = submit_extent_page ( READ , tree , page ,
sector , iosize , page_offset , em - > bdev ,
NULL , 1 ,
end_bio_extent_preparewrite ) ;
iocount + + ;
block_start = block_start + iosize ;
} else {
set_extent_uptodate ( tree , block_start , cur_end ,
GFP_NOFS ) ;
unlock_extent ( tree , block_start , cur_end , GFP_NOFS ) ;
block_start = cur_end + 1 ;
}
page_offset = block_start & ( PAGE_CACHE_SIZE - 1 ) ;
free_extent_map ( em ) ;
}
if ( iocount ) {
wait_extent_bit ( tree , orig_block_start ,
block_end , EXTENT_LOCKED ) ;
}
check_page_uptodate ( tree , page ) ;
err :
/* FIXME, zero out newly allocated blocks on error */
return err ;
}
EXPORT_SYMBOL ( extent_prepare_write ) ;
/*
* a helper for releasepage . As long as there are no locked extents
* in the range corresponding to the page , both state records and extent
* map records are removed
*/
int try_release_extent_mapping ( struct extent_map_tree * map ,
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struct extent_io_tree * tree , struct page * page ,
gfp_t mask )
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{
struct extent_map * em ;
u64 start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
u64 end = start + PAGE_CACHE_SIZE - 1 ;
u64 orig_start = start ;
int ret = 1 ;
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if ( ( mask & __GFP_WAIT ) & &
page - > mapping - > host - > i_size > 16 * 1024 * 1024 ) {
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u64 len ;
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while ( start < = end ) {
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len = end - start + 1 ;
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spin_lock ( & map - > lock ) ;
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em = lookup_extent_mapping ( map , start , len ) ;
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if ( ! em | | IS_ERR ( em ) ) {
spin_unlock ( & map - > lock ) ;
break ;
}
if ( em - > start ! = start ) {
spin_unlock ( & map - > lock ) ;
free_extent_map ( em ) ;
break ;
}
if ( ! test_range_bit ( tree , em - > start ,
extent_map_end ( em ) - 1 ,
EXTENT_LOCKED , 0 ) ) {
remove_extent_mapping ( map , em ) ;
/* once for the rb tree */
free_extent_map ( em ) ;
}
start = extent_map_end ( em ) ;
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spin_unlock ( & map - > lock ) ;
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/* once for us */
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free_extent_map ( em ) ;
}
}
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if ( test_range_bit ( tree , orig_start , end , EXTENT_IOBITS , 0 ) )
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ret = 0 ;
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else {
if ( ( mask & GFP_NOFS ) = = GFP_NOFS )
mask = GFP_NOFS ;
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clear_extent_bit ( tree , orig_start , end , EXTENT_UPTODATE ,
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1 , 1 , mask ) ;
}
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return ret ;
}
EXPORT_SYMBOL ( try_release_extent_mapping ) ;
sector_t extent_bmap ( struct address_space * mapping , sector_t iblock ,
get_extent_t * get_extent )
{
struct inode * inode = mapping - > host ;
u64 start = iblock < < inode - > i_blkbits ;
sector_t sector = 0 ;
struct extent_map * em ;
em = get_extent ( inode , NULL , 0 , start , ( 1 < < inode - > i_blkbits ) , 0 ) ;
if ( ! em | | IS_ERR ( em ) )
return 0 ;
if ( em - > block_start = = EXTENT_MAP_INLINE | |
em - > block_start = = EXTENT_MAP_HOLE )
goto out ;
sector = ( em - > block_start + start - em - > start ) > > inode - > i_blkbits ;
out :
free_extent_map ( em ) ;
return sector ;
}
static int add_lru ( struct extent_io_tree * tree , struct extent_buffer * eb )
{
if ( list_empty ( & eb - > lru ) ) {
extent_buffer_get ( eb ) ;
list_add ( & eb - > lru , & tree - > buffer_lru ) ;
tree - > lru_size + + ;
if ( tree - > lru_size > = BUFFER_LRU_MAX ) {
struct extent_buffer * rm ;
rm = list_entry ( tree - > buffer_lru . prev ,
struct extent_buffer , lru ) ;
tree - > lru_size - - ;
list_del_init ( & rm - > lru ) ;
free_extent_buffer ( rm ) ;
}
} else
list_move ( & eb - > lru , & tree - > buffer_lru ) ;
return 0 ;
}
static struct extent_buffer * find_lru ( struct extent_io_tree * tree ,
u64 start , unsigned long len )
{
struct list_head * lru = & tree - > buffer_lru ;
struct list_head * cur = lru - > next ;
struct extent_buffer * eb ;
if ( list_empty ( lru ) )
return NULL ;
do {
eb = list_entry ( cur , struct extent_buffer , lru ) ;
if ( eb - > start = = start & & eb - > len = = len ) {
extent_buffer_get ( eb ) ;
return eb ;
}
cur = cur - > next ;
} while ( cur ! = lru ) ;
return NULL ;
}
static inline unsigned long num_extent_pages ( u64 start , u64 len )
{
return ( ( start + len + PAGE_CACHE_SIZE - 1 ) > > PAGE_CACHE_SHIFT ) -
( start > > PAGE_CACHE_SHIFT ) ;
}
static inline struct page * extent_buffer_page ( struct extent_buffer * eb ,
unsigned long i )
{
struct page * p ;
struct address_space * mapping ;
if ( i = = 0 )
return eb - > first_page ;
i + = eb - > start > > PAGE_CACHE_SHIFT ;
mapping = eb - > first_page - > mapping ;
read_lock_irq ( & mapping - > tree_lock ) ;
p = radix_tree_lookup ( & mapping - > page_tree , i ) ;
read_unlock_irq ( & mapping - > tree_lock ) ;
return p ;
}
static struct extent_buffer * __alloc_extent_buffer ( struct extent_io_tree * tree ,
u64 start ,
unsigned long len ,
gfp_t mask )
{
struct extent_buffer * eb = NULL ;
spin_lock ( & tree - > lru_lock ) ;
eb = find_lru ( tree , start , len ) ;
spin_unlock ( & tree - > lru_lock ) ;
if ( eb ) {
return eb ;
}
eb = kmem_cache_zalloc ( extent_buffer_cache , mask ) ;
INIT_LIST_HEAD ( & eb - > lru ) ;
eb - > start = start ;
eb - > len = len ;
atomic_set ( & eb - > refs , 1 ) ;
return eb ;
}
static void __free_extent_buffer ( struct extent_buffer * eb )
{
kmem_cache_free ( extent_buffer_cache , eb ) ;
}
struct extent_buffer * alloc_extent_buffer ( struct extent_io_tree * tree ,
u64 start , unsigned long len ,
struct page * page0 ,
gfp_t mask )
{
unsigned long num_pages = num_extent_pages ( start , len ) ;
unsigned long i ;
unsigned long index = start > > PAGE_CACHE_SHIFT ;
struct extent_buffer * eb ;
struct page * p ;
struct address_space * mapping = tree - > mapping ;
int uptodate = 1 ;
eb = __alloc_extent_buffer ( tree , start , len , mask ) ;
if ( ! eb | | IS_ERR ( eb ) )
return NULL ;
if ( eb - > flags & EXTENT_BUFFER_FILLED )
goto lru_add ;
if ( page0 ) {
eb - > first_page = page0 ;
i = 1 ;
index + + ;
page_cache_get ( page0 ) ;
mark_page_accessed ( page0 ) ;
set_page_extent_mapped ( page0 ) ;
WARN_ON ( ! PageUptodate ( page0 ) ) ;
set_page_extent_head ( page0 , len ) ;
} else {
i = 0 ;
}
for ( ; i < num_pages ; i + + , index + + ) {
p = find_or_create_page ( mapping , index , mask | __GFP_HIGHMEM ) ;
if ( ! p ) {
WARN_ON ( 1 ) ;
goto fail ;
}
set_page_extent_mapped ( p ) ;
mark_page_accessed ( p ) ;
if ( i = = 0 ) {
eb - > first_page = p ;
set_page_extent_head ( p , len ) ;
} else {
set_page_private ( p , EXTENT_PAGE_PRIVATE ) ;
}
if ( ! PageUptodate ( p ) )
uptodate = 0 ;
unlock_page ( p ) ;
}
if ( uptodate )
eb - > flags | = EXTENT_UPTODATE ;
eb - > flags | = EXTENT_BUFFER_FILLED ;
lru_add :
spin_lock ( & tree - > lru_lock ) ;
add_lru ( tree , eb ) ;
spin_unlock ( & tree - > lru_lock ) ;
return eb ;
fail :
spin_lock ( & tree - > lru_lock ) ;
list_del_init ( & eb - > lru ) ;
spin_unlock ( & tree - > lru_lock ) ;
if ( ! atomic_dec_and_test ( & eb - > refs ) )
return NULL ;
for ( index = 1 ; index < i ; index + + ) {
page_cache_release ( extent_buffer_page ( eb , index ) ) ;
}
if ( i > 0 )
page_cache_release ( extent_buffer_page ( eb , 0 ) ) ;
__free_extent_buffer ( eb ) ;
return NULL ;
}
EXPORT_SYMBOL ( alloc_extent_buffer ) ;
struct extent_buffer * find_extent_buffer ( struct extent_io_tree * tree ,
u64 start , unsigned long len ,
gfp_t mask )
{
unsigned long num_pages = num_extent_pages ( start , len ) ;
unsigned long i ;
unsigned long index = start > > PAGE_CACHE_SHIFT ;
struct extent_buffer * eb ;
struct page * p ;
struct address_space * mapping = tree - > mapping ;
int uptodate = 1 ;
eb = __alloc_extent_buffer ( tree , start , len , mask ) ;
if ( ! eb | | IS_ERR ( eb ) )
return NULL ;
if ( eb - > flags & EXTENT_BUFFER_FILLED )
goto lru_add ;
for ( i = 0 ; i < num_pages ; i + + , index + + ) {
p = find_lock_page ( mapping , index ) ;
if ( ! p ) {
goto fail ;
}
set_page_extent_mapped ( p ) ;
mark_page_accessed ( p ) ;
if ( i = = 0 ) {
eb - > first_page = p ;
set_page_extent_head ( p , len ) ;
} else {
set_page_private ( p , EXTENT_PAGE_PRIVATE ) ;
}
if ( ! PageUptodate ( p ) )
uptodate = 0 ;
unlock_page ( p ) ;
}
if ( uptodate )
eb - > flags | = EXTENT_UPTODATE ;
eb - > flags | = EXTENT_BUFFER_FILLED ;
lru_add :
spin_lock ( & tree - > lru_lock ) ;
add_lru ( tree , eb ) ;
spin_unlock ( & tree - > lru_lock ) ;
return eb ;
fail :
spin_lock ( & tree - > lru_lock ) ;
list_del_init ( & eb - > lru ) ;
spin_unlock ( & tree - > lru_lock ) ;
if ( ! atomic_dec_and_test ( & eb - > refs ) )
return NULL ;
for ( index = 1 ; index < i ; index + + ) {
page_cache_release ( extent_buffer_page ( eb , index ) ) ;
}
if ( i > 0 )
page_cache_release ( extent_buffer_page ( eb , 0 ) ) ;
__free_extent_buffer ( eb ) ;
return NULL ;
}
EXPORT_SYMBOL ( find_extent_buffer ) ;
void free_extent_buffer ( struct extent_buffer * eb )
{
unsigned long i ;
unsigned long num_pages ;
if ( ! eb )
return ;
if ( ! atomic_dec_and_test ( & eb - > refs ) )
return ;
WARN_ON ( ! list_empty ( & eb - > lru ) ) ;
num_pages = num_extent_pages ( eb - > start , eb - > len ) ;
for ( i = 1 ; i < num_pages ; i + + ) {
page_cache_release ( extent_buffer_page ( eb , i ) ) ;
}
page_cache_release ( extent_buffer_page ( eb , 0 ) ) ;
__free_extent_buffer ( eb ) ;
}
EXPORT_SYMBOL ( free_extent_buffer ) ;
int clear_extent_buffer_dirty ( struct extent_io_tree * tree ,
struct extent_buffer * eb )
{
int set ;
unsigned long i ;
unsigned long num_pages ;
struct page * page ;
u64 start = eb - > start ;
u64 end = start + eb - > len - 1 ;
set = clear_extent_dirty ( tree , start , end , GFP_NOFS ) ;
num_pages = num_extent_pages ( eb - > start , eb - > len ) ;
for ( i = 0 ; i < num_pages ; i + + ) {
page = extent_buffer_page ( eb , i ) ;
lock_page ( page ) ;
if ( i = = 0 )
set_page_extent_head ( page , eb - > len ) ;
else
set_page_private ( page , EXTENT_PAGE_PRIVATE ) ;
/*
* if we ' re on the last page or the first page and the
* block isn ' t aligned on a page boundary , do extra checks
* to make sure we don ' t clean page that is partially dirty
*/
if ( ( i = = 0 & & ( eb - > start & ( PAGE_CACHE_SIZE - 1 ) ) ) | |
( ( i = = num_pages - 1 ) & &
( ( eb - > start + eb - > len ) & ( PAGE_CACHE_SIZE - 1 ) ) ) ) {
start = ( u64 ) page - > index < < PAGE_CACHE_SHIFT ;
end = start + PAGE_CACHE_SIZE - 1 ;
if ( test_range_bit ( tree , start , end ,
EXTENT_DIRTY , 0 ) ) {
unlock_page ( page ) ;
continue ;
}
}
clear_page_dirty_for_io ( page ) ;
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read_lock_irq ( & page - > mapping - > tree_lock ) ;
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if ( ! PageDirty ( page ) ) {
radix_tree_tag_clear ( & page - > mapping - > page_tree ,
page_index ( page ) ,
PAGECACHE_TAG_DIRTY ) ;
}
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read_unlock_irq ( & page - > mapping - > tree_lock ) ;
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unlock_page ( page ) ;
}
return 0 ;
}
EXPORT_SYMBOL ( clear_extent_buffer_dirty ) ;
int wait_on_extent_buffer_writeback ( struct extent_io_tree * tree ,
struct extent_buffer * eb )
{
return wait_on_extent_writeback ( tree , eb - > start ,
eb - > start + eb - > len - 1 ) ;
}
EXPORT_SYMBOL ( wait_on_extent_buffer_writeback ) ;
int set_extent_buffer_dirty ( struct extent_io_tree * tree ,
struct extent_buffer * eb )
{
unsigned long i ;
unsigned long num_pages ;
num_pages = num_extent_pages ( eb - > start , eb - > len ) ;
for ( i = 0 ; i < num_pages ; i + + ) {
struct page * page = extent_buffer_page ( eb , i ) ;
/* writepage may need to do something special for the
* first page , we have to make sure page - > private is
* properly set . releasepage may drop page - > private
* on us if the page isn ' t already dirty .
*/
if ( i = = 0 ) {
lock_page ( page ) ;
set_page_extent_head ( page , eb - > len ) ;
} else if ( PagePrivate ( page ) & &
page - > private ! = EXTENT_PAGE_PRIVATE ) {
lock_page ( page ) ;
set_page_extent_mapped ( page ) ;
unlock_page ( page ) ;
}
__set_page_dirty_nobuffers ( extent_buffer_page ( eb , i ) ) ;
if ( i = = 0 )
unlock_page ( page ) ;
}
return set_extent_dirty ( tree , eb - > start ,
eb - > start + eb - > len - 1 , GFP_NOFS ) ;
}
EXPORT_SYMBOL ( set_extent_buffer_dirty ) ;
int set_extent_buffer_uptodate ( struct extent_io_tree * tree ,
struct extent_buffer * eb )
{
unsigned long i ;
struct page * page ;
unsigned long num_pages ;
num_pages = num_extent_pages ( eb - > start , eb - > len ) ;
set_extent_uptodate ( tree , eb - > start , eb - > start + eb - > len - 1 ,
GFP_NOFS ) ;
for ( i = 0 ; i < num_pages ; i + + ) {
page = extent_buffer_page ( eb , i ) ;
if ( ( i = = 0 & & ( eb - > start & ( PAGE_CACHE_SIZE - 1 ) ) ) | |
( ( i = = num_pages - 1 ) & &
( ( eb - > start + eb - > len ) & ( PAGE_CACHE_SIZE - 1 ) ) ) ) {
check_page_uptodate ( tree , page ) ;
continue ;
}
SetPageUptodate ( page ) ;
}
return 0 ;
}
EXPORT_SYMBOL ( set_extent_buffer_uptodate ) ;
int extent_buffer_uptodate ( struct extent_io_tree * tree ,
struct extent_buffer * eb )
{
if ( eb - > flags & EXTENT_UPTODATE )
return 1 ;
return test_range_bit ( tree , eb - > start , eb - > start + eb - > len - 1 ,
EXTENT_UPTODATE , 1 ) ;
}
EXPORT_SYMBOL ( extent_buffer_uptodate ) ;
int read_extent_buffer_pages ( struct extent_io_tree * tree ,
struct extent_buffer * eb ,
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u64 start , int wait ,
get_extent_t * get_extent )
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{
unsigned long i ;
unsigned long start_i ;
struct page * page ;
int err ;
int ret = 0 ;
unsigned long num_pages ;
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struct bio * bio = NULL ;
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if ( eb - > flags & EXTENT_UPTODATE )
return 0 ;
if ( 0 & & test_range_bit ( tree , eb - > start , eb - > start + eb - > len - 1 ,
EXTENT_UPTODATE , 1 ) ) {
return 0 ;
}
if ( start ) {
WARN_ON ( start < eb - > start ) ;
start_i = ( start > > PAGE_CACHE_SHIFT ) -
( eb - > start > > PAGE_CACHE_SHIFT ) ;
} else {
start_i = 0 ;
}
num_pages = num_extent_pages ( eb - > start , eb - > len ) ;
for ( i = start_i ; i < num_pages ; i + + ) {
page = extent_buffer_page ( eb , i ) ;
if ( PageUptodate ( page ) ) {
continue ;
}
if ( ! wait ) {
if ( TestSetPageLocked ( page ) ) {
continue ;
}
} else {
lock_page ( page ) ;
}
if ( ! PageUptodate ( page ) ) {
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err = __extent_read_full_page ( tree , page ,
get_extent , & bio ) ;
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if ( err ) {
ret = err ;
}
} else {
unlock_page ( page ) ;
}
}
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if ( bio )
submit_one_bio ( READ , bio ) ;
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if ( ret | | ! wait ) {
return ret ;
}
for ( i = start_i ; i < num_pages ; i + + ) {
page = extent_buffer_page ( eb , i ) ;
wait_on_page_locked ( page ) ;
if ( ! PageUptodate ( page ) ) {
ret = - EIO ;
}
}
if ( ! ret )
eb - > flags | = EXTENT_UPTODATE ;
return ret ;
}
EXPORT_SYMBOL ( read_extent_buffer_pages ) ;
void read_extent_buffer ( struct extent_buffer * eb , void * dstv ,
unsigned long start ,
unsigned long len )
{
size_t cur ;
size_t offset ;
struct page * page ;
char * kaddr ;
char * dst = ( char * ) dstv ;
size_t start_offset = eb - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long i = ( start_offset + start ) > > PAGE_CACHE_SHIFT ;
unsigned long num_pages = num_extent_pages ( eb - > start , eb - > len ) ;
WARN_ON ( start > eb - > len ) ;
WARN_ON ( start + len > eb - > start + eb - > len ) ;
offset = ( start_offset + start ) & ( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
while ( len > 0 ) {
page = extent_buffer_page ( eb , i ) ;
if ( ! PageUptodate ( page ) ) {
printk ( " page %lu not up to date i %lu, total %lu, len %lu \n " , page - > index , i , num_pages , eb - > len ) ;
WARN_ON ( 1 ) ;
}
WARN_ON ( ! PageUptodate ( page ) ) ;
cur = min ( len , ( PAGE_CACHE_SIZE - offset ) ) ;
kaddr = kmap_atomic ( page , KM_USER1 ) ;
memcpy ( dst , kaddr + offset , cur ) ;
kunmap_atomic ( kaddr , KM_USER1 ) ;
dst + = cur ;
len - = cur ;
offset = 0 ;
i + + ;
}
}
EXPORT_SYMBOL ( read_extent_buffer ) ;
int map_private_extent_buffer ( struct extent_buffer * eb , unsigned long start ,
unsigned long min_len , char * * token , char * * map ,
unsigned long * map_start ,
unsigned long * map_len , int km )
{
size_t offset = start & ( PAGE_CACHE_SIZE - 1 ) ;
char * kaddr ;
struct page * p ;
size_t start_offset = eb - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long i = ( start_offset + start ) > > PAGE_CACHE_SHIFT ;
unsigned long end_i = ( start_offset + start + min_len - 1 ) > >
PAGE_CACHE_SHIFT ;
if ( i ! = end_i )
return - EINVAL ;
if ( i = = 0 ) {
offset = start_offset ;
* map_start = 0 ;
} else {
offset = 0 ;
* map_start = ( ( u64 ) i < < PAGE_CACHE_SHIFT ) - start_offset ;
}
if ( start + min_len > eb - > len ) {
printk ( " bad mapping eb start %Lu len %lu, wanted %lu %lu \n " , eb - > start , eb - > len , start , min_len ) ;
WARN_ON ( 1 ) ;
}
p = extent_buffer_page ( eb , i ) ;
WARN_ON ( ! PageUptodate ( p ) ) ;
kaddr = kmap_atomic ( p , km ) ;
* token = kaddr ;
* map = kaddr + offset ;
* map_len = PAGE_CACHE_SIZE - offset ;
return 0 ;
}
EXPORT_SYMBOL ( map_private_extent_buffer ) ;
int map_extent_buffer ( struct extent_buffer * eb , unsigned long start ,
unsigned long min_len ,
char * * token , char * * map ,
unsigned long * map_start ,
unsigned long * map_len , int km )
{
int err ;
int save = 0 ;
if ( eb - > map_token ) {
unmap_extent_buffer ( eb , eb - > map_token , km ) ;
eb - > map_token = NULL ;
save = 1 ;
}
err = map_private_extent_buffer ( eb , start , min_len , token , map ,
map_start , map_len , km ) ;
if ( ! err & & save ) {
eb - > map_token = * token ;
eb - > kaddr = * map ;
eb - > map_start = * map_start ;
eb - > map_len = * map_len ;
}
return err ;
}
EXPORT_SYMBOL ( map_extent_buffer ) ;
void unmap_extent_buffer ( struct extent_buffer * eb , char * token , int km )
{
kunmap_atomic ( token , km ) ;
}
EXPORT_SYMBOL ( unmap_extent_buffer ) ;
int memcmp_extent_buffer ( struct extent_buffer * eb , const void * ptrv ,
unsigned long start ,
unsigned long len )
{
size_t cur ;
size_t offset ;
struct page * page ;
char * kaddr ;
char * ptr = ( char * ) ptrv ;
size_t start_offset = eb - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long i = ( start_offset + start ) > > PAGE_CACHE_SHIFT ;
int ret = 0 ;
WARN_ON ( start > eb - > len ) ;
WARN_ON ( start + len > eb - > start + eb - > len ) ;
offset = ( start_offset + start ) & ( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
while ( len > 0 ) {
page = extent_buffer_page ( eb , i ) ;
WARN_ON ( ! PageUptodate ( page ) ) ;
cur = min ( len , ( PAGE_CACHE_SIZE - offset ) ) ;
kaddr = kmap_atomic ( page , KM_USER0 ) ;
ret = memcmp ( ptr , kaddr + offset , cur ) ;
kunmap_atomic ( kaddr , KM_USER0 ) ;
if ( ret )
break ;
ptr + = cur ;
len - = cur ;
offset = 0 ;
i + + ;
}
return ret ;
}
EXPORT_SYMBOL ( memcmp_extent_buffer ) ;
void write_extent_buffer ( struct extent_buffer * eb , const void * srcv ,
unsigned long start , unsigned long len )
{
size_t cur ;
size_t offset ;
struct page * page ;
char * kaddr ;
char * src = ( char * ) srcv ;
size_t start_offset = eb - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long i = ( start_offset + start ) > > PAGE_CACHE_SHIFT ;
WARN_ON ( start > eb - > len ) ;
WARN_ON ( start + len > eb - > start + eb - > len ) ;
offset = ( start_offset + start ) & ( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
while ( len > 0 ) {
page = extent_buffer_page ( eb , i ) ;
WARN_ON ( ! PageUptodate ( page ) ) ;
cur = min ( len , PAGE_CACHE_SIZE - offset ) ;
kaddr = kmap_atomic ( page , KM_USER1 ) ;
memcpy ( kaddr + offset , src , cur ) ;
kunmap_atomic ( kaddr , KM_USER1 ) ;
src + = cur ;
len - = cur ;
offset = 0 ;
i + + ;
}
}
EXPORT_SYMBOL ( write_extent_buffer ) ;
void memset_extent_buffer ( struct extent_buffer * eb , char c ,
unsigned long start , unsigned long len )
{
size_t cur ;
size_t offset ;
struct page * page ;
char * kaddr ;
size_t start_offset = eb - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long i = ( start_offset + start ) > > PAGE_CACHE_SHIFT ;
WARN_ON ( start > eb - > len ) ;
WARN_ON ( start + len > eb - > start + eb - > len ) ;
offset = ( start_offset + start ) & ( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
while ( len > 0 ) {
page = extent_buffer_page ( eb , i ) ;
WARN_ON ( ! PageUptodate ( page ) ) ;
cur = min ( len , PAGE_CACHE_SIZE - offset ) ;
kaddr = kmap_atomic ( page , KM_USER0 ) ;
memset ( kaddr + offset , c , cur ) ;
kunmap_atomic ( kaddr , KM_USER0 ) ;
len - = cur ;
offset = 0 ;
i + + ;
}
}
EXPORT_SYMBOL ( memset_extent_buffer ) ;
void copy_extent_buffer ( struct extent_buffer * dst , struct extent_buffer * src ,
unsigned long dst_offset , unsigned long src_offset ,
unsigned long len )
{
u64 dst_len = dst - > len ;
size_t cur ;
size_t offset ;
struct page * page ;
char * kaddr ;
size_t start_offset = dst - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long i = ( start_offset + dst_offset ) > > PAGE_CACHE_SHIFT ;
WARN_ON ( src - > len ! = dst_len ) ;
offset = ( start_offset + dst_offset ) &
( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
while ( len > 0 ) {
page = extent_buffer_page ( dst , i ) ;
WARN_ON ( ! PageUptodate ( page ) ) ;
cur = min ( len , ( unsigned long ) ( PAGE_CACHE_SIZE - offset ) ) ;
kaddr = kmap_atomic ( page , KM_USER0 ) ;
read_extent_buffer ( src , kaddr + offset , src_offset , cur ) ;
kunmap_atomic ( kaddr , KM_USER0 ) ;
src_offset + = cur ;
len - = cur ;
offset = 0 ;
i + + ;
}
}
EXPORT_SYMBOL ( copy_extent_buffer ) ;
static void move_pages ( struct page * dst_page , struct page * src_page ,
unsigned long dst_off , unsigned long src_off ,
unsigned long len )
{
char * dst_kaddr = kmap_atomic ( dst_page , KM_USER0 ) ;
if ( dst_page = = src_page ) {
memmove ( dst_kaddr + dst_off , dst_kaddr + src_off , len ) ;
} else {
char * src_kaddr = kmap_atomic ( src_page , KM_USER1 ) ;
char * p = dst_kaddr + dst_off + len ;
char * s = src_kaddr + src_off + len ;
while ( len - - )
* - - p = * - - s ;
kunmap_atomic ( src_kaddr , KM_USER1 ) ;
}
kunmap_atomic ( dst_kaddr , KM_USER0 ) ;
}
static void copy_pages ( struct page * dst_page , struct page * src_page ,
unsigned long dst_off , unsigned long src_off ,
unsigned long len )
{
char * dst_kaddr = kmap_atomic ( dst_page , KM_USER0 ) ;
char * src_kaddr ;
if ( dst_page ! = src_page )
src_kaddr = kmap_atomic ( src_page , KM_USER1 ) ;
else
src_kaddr = dst_kaddr ;
memcpy ( dst_kaddr + dst_off , src_kaddr + src_off , len ) ;
kunmap_atomic ( dst_kaddr , KM_USER0 ) ;
if ( dst_page ! = src_page )
kunmap_atomic ( src_kaddr , KM_USER1 ) ;
}
void memcpy_extent_buffer ( struct extent_buffer * dst , unsigned long dst_offset ,
unsigned long src_offset , unsigned long len )
{
size_t cur ;
size_t dst_off_in_page ;
size_t src_off_in_page ;
size_t start_offset = dst - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long dst_i ;
unsigned long src_i ;
if ( src_offset + len > dst - > len ) {
printk ( " memmove bogus src_offset %lu move len %lu len %lu \n " ,
src_offset , len , dst - > len ) ;
BUG_ON ( 1 ) ;
}
if ( dst_offset + len > dst - > len ) {
printk ( " memmove bogus dst_offset %lu move len %lu len %lu \n " ,
dst_offset , len , dst - > len ) ;
BUG_ON ( 1 ) ;
}
while ( len > 0 ) {
dst_off_in_page = ( start_offset + dst_offset ) &
( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
src_off_in_page = ( start_offset + src_offset ) &
( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
dst_i = ( start_offset + dst_offset ) > > PAGE_CACHE_SHIFT ;
src_i = ( start_offset + src_offset ) > > PAGE_CACHE_SHIFT ;
cur = min ( len , ( unsigned long ) ( PAGE_CACHE_SIZE -
src_off_in_page ) ) ;
cur = min_t ( unsigned long , cur ,
( unsigned long ) ( PAGE_CACHE_SIZE - dst_off_in_page ) ) ;
copy_pages ( extent_buffer_page ( dst , dst_i ) ,
extent_buffer_page ( dst , src_i ) ,
dst_off_in_page , src_off_in_page , cur ) ;
src_offset + = cur ;
dst_offset + = cur ;
len - = cur ;
}
}
EXPORT_SYMBOL ( memcpy_extent_buffer ) ;
void memmove_extent_buffer ( struct extent_buffer * dst , unsigned long dst_offset ,
unsigned long src_offset , unsigned long len )
{
size_t cur ;
size_t dst_off_in_page ;
size_t src_off_in_page ;
unsigned long dst_end = dst_offset + len - 1 ;
unsigned long src_end = src_offset + len - 1 ;
size_t start_offset = dst - > start & ( ( u64 ) PAGE_CACHE_SIZE - 1 ) ;
unsigned long dst_i ;
unsigned long src_i ;
if ( src_offset + len > dst - > len ) {
printk ( " memmove bogus src_offset %lu move len %lu len %lu \n " ,
src_offset , len , dst - > len ) ;
BUG_ON ( 1 ) ;
}
if ( dst_offset + len > dst - > len ) {
printk ( " memmove bogus dst_offset %lu move len %lu len %lu \n " ,
dst_offset , len , dst - > len ) ;
BUG_ON ( 1 ) ;
}
if ( dst_offset < src_offset ) {
memcpy_extent_buffer ( dst , dst_offset , src_offset , len ) ;
return ;
}
while ( len > 0 ) {
dst_i = ( start_offset + dst_end ) > > PAGE_CACHE_SHIFT ;
src_i = ( start_offset + src_end ) > > PAGE_CACHE_SHIFT ;
dst_off_in_page = ( start_offset + dst_end ) &
( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
src_off_in_page = ( start_offset + src_end ) &
( ( unsigned long ) PAGE_CACHE_SIZE - 1 ) ;
cur = min_t ( unsigned long , len , src_off_in_page + 1 ) ;
cur = min ( cur , dst_off_in_page + 1 ) ;
move_pages ( extent_buffer_page ( dst , dst_i ) ,
extent_buffer_page ( dst , src_i ) ,
dst_off_in_page - cur + 1 ,
src_off_in_page - cur + 1 , cur ) ;
dst_end - = cur ;
src_end - = cur ;
len - = cur ;
}
}
EXPORT_SYMBOL ( memmove_extent_buffer ) ;