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/*
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* Copyright ( c ) 2000 - 2005 Silicon Graphics , Inc .
* All Rights Reserved .
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*
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* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation .
*
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* This program is distributed in the hope that it would be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
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*
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* You should have received a copy of the GNU General Public License
* along with this program ; if not , write the Free Software Foundation ,
* Inc . , 51 Franklin St , Fifth Floor , Boston , MA 02110 - 1301 USA
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*/
# include "xfs.h"
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# include "xfs_fs.h"
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# include "xfs_types.h"
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# include "xfs_bit.h"
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# include "xfs_log.h"
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# include "xfs_inum.h"
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# include "xfs_trans.h"
# include "xfs_sb.h"
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# include "xfs_ag.h"
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# include "xfs_mount.h"
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# include "xfs_buf_item.h"
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# include "xfs_trans_priv.h"
# include "xfs_error.h"
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# include "xfs_trace.h"
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kmem_zone_t * xfs_buf_item_zone ;
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static inline struct xfs_buf_log_item * BUF_ITEM ( struct xfs_log_item * lip )
{
return container_of ( lip , struct xfs_buf_log_item , bli_item ) ;
}
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# ifdef XFS_TRANS_DEBUG
/*
* This function uses an alternate strategy for tracking the bytes
* that the user requests to be logged . This can then be used
* in conjunction with the bli_orig array in the buf log item to
* catch bugs in our callers ' code .
*
* We also double check the bits set in xfs_buf_item_log using a
* simple algorithm to check that every byte is accounted for .
*/
STATIC void
xfs_buf_item_log_debug (
xfs_buf_log_item_t * bip ,
uint first ,
uint last )
{
uint x ;
uint byte ;
uint nbytes ;
uint chunk_num ;
uint word_num ;
uint bit_num ;
uint bit_set ;
uint * wordp ;
ASSERT ( bip - > bli_logged ! = NULL ) ;
byte = first ;
nbytes = last - first + 1 ;
bfset ( bip - > bli_logged , first , nbytes ) ;
for ( x = 0 ; x < nbytes ; x + + ) {
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chunk_num = byte > > XFS_BLF_SHIFT ;
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word_num = chunk_num > > BIT_TO_WORD_SHIFT ;
bit_num = chunk_num & ( NBWORD - 1 ) ;
wordp = & ( bip - > bli_format . blf_data_map [ word_num ] ) ;
bit_set = * wordp & ( 1 < < bit_num ) ;
ASSERT ( bit_set ) ;
byte + + ;
}
}
/*
* This function is called when we flush something into a buffer without
* logging it . This happens for things like inodes which are logged
* separately from the buffer .
*/
void
xfs_buf_item_flush_log_debug (
xfs_buf_t * bp ,
uint first ,
uint last )
{
xfs_buf_log_item_t * bip ;
uint nbytes ;
bip = XFS_BUF_FSPRIVATE ( bp , xfs_buf_log_item_t * ) ;
if ( ( bip = = NULL ) | | ( bip - > bli_item . li_type ! = XFS_LI_BUF ) ) {
return ;
}
ASSERT ( bip - > bli_logged ! = NULL ) ;
nbytes = last - first + 1 ;
bfset ( bip - > bli_logged , first , nbytes ) ;
}
/*
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* This function is called to verify that our callers have logged
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* all the bytes that they changed .
*
* It does this by comparing the original copy of the buffer stored in
* the buf log item ' s bli_orig array to the current copy of the buffer
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* and ensuring that all bytes which mismatch are set in the bli_logged
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* array of the buf log item .
*/
STATIC void
xfs_buf_item_log_check (
xfs_buf_log_item_t * bip )
{
char * orig ;
char * buffer ;
int x ;
xfs_buf_t * bp ;
ASSERT ( bip - > bli_orig ! = NULL ) ;
ASSERT ( bip - > bli_logged ! = NULL ) ;
bp = bip - > bli_buf ;
ASSERT ( XFS_BUF_COUNT ( bp ) > 0 ) ;
ASSERT ( XFS_BUF_PTR ( bp ) ! = NULL ) ;
orig = bip - > bli_orig ;
buffer = XFS_BUF_PTR ( bp ) ;
for ( x = 0 ; x < XFS_BUF_COUNT ( bp ) ; x + + ) {
if ( orig [ x ] ! = buffer [ x ] & & ! btst ( bip - > bli_logged , x ) )
cmn_err ( CE_PANIC ,
" xfs_buf_item_log_check bip %x buffer %x orig %x index %d " ,
bip , bp , orig , x ) ;
}
}
# else
# define xfs_buf_item_log_debug(x,y,z)
# define xfs_buf_item_log_check(x)
# endif
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STATIC void xfs_buf_do_callbacks ( struct xfs_buf * bp ) ;
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/*
* This returns the number of log iovecs needed to log the
* given buf log item .
*
* It calculates this as 1 iovec for the buf log format structure
* and 1 for each stretch of non - contiguous chunks to be logged .
* Contiguous chunks are logged in a single iovec .
*
* If the XFS_BLI_STALE flag has been set , then log nothing .
*/
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STATIC uint
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xfs_buf_item_size (
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struct xfs_log_item * lip )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
struct xfs_buf * bp = bip - > bli_buf ;
uint nvecs ;
int next_bit ;
int last_bit ;
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ASSERT ( atomic_read ( & bip - > bli_refcount ) > 0 ) ;
if ( bip - > bli_flags & XFS_BLI_STALE ) {
/*
* The buffer is stale , so all we need to log
* is the buf log format structure with the
* cancel flag in it .
*/
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trace_xfs_buf_item_size_stale ( bip ) ;
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ASSERT ( bip - > bli_format . blf_flags & XFS_BLF_CANCEL ) ;
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return 1 ;
}
ASSERT ( bip - > bli_flags & XFS_BLI_LOGGED ) ;
nvecs = 1 ;
last_bit = xfs_next_bit ( bip - > bli_format . blf_data_map ,
bip - > bli_format . blf_map_size , 0 ) ;
ASSERT ( last_bit ! = - 1 ) ;
nvecs + + ;
while ( last_bit ! = - 1 ) {
/*
* This takes the bit number to start looking from and
* returns the next set bit from there . It returns - 1
* if there are no more bits set or the start bit is
* beyond the end of the bitmap .
*/
next_bit = xfs_next_bit ( bip - > bli_format . blf_data_map ,
bip - > bli_format . blf_map_size ,
last_bit + 1 ) ;
/*
* If we run out of bits , leave the loop ,
* else if we find a new set of bits bump the number of vecs ,
* else keep scanning the current set of bits .
*/
if ( next_bit = = - 1 ) {
last_bit = - 1 ;
} else if ( next_bit ! = last_bit + 1 ) {
last_bit = next_bit ;
nvecs + + ;
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} else if ( xfs_buf_offset ( bp , next_bit * XFS_BLF_CHUNK ) ! =
( xfs_buf_offset ( bp , last_bit * XFS_BLF_CHUNK ) +
XFS_BLF_CHUNK ) ) {
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last_bit = next_bit ;
nvecs + + ;
} else {
last_bit + + ;
}
}
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trace_xfs_buf_item_size ( bip ) ;
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return nvecs ;
}
/*
* This is called to fill in the vector of log iovecs for the
* given log buf item . It fills the first entry with a buf log
* format structure , and the rest point to contiguous chunks
* within the buffer .
*/
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STATIC void
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xfs_buf_item_format (
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struct xfs_log_item * lip ,
struct xfs_log_iovec * vecp )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
struct xfs_buf * bp = bip - > bli_buf ;
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uint base_size ;
uint nvecs ;
int first_bit ;
int last_bit ;
int next_bit ;
uint nbits ;
uint buffer_offset ;
ASSERT ( atomic_read ( & bip - > bli_refcount ) > 0 ) ;
ASSERT ( ( bip - > bli_flags & XFS_BLI_LOGGED ) | |
( bip - > bli_flags & XFS_BLI_STALE ) ) ;
/*
* The size of the base structure is the size of the
* declared structure plus the space for the extra words
* of the bitmap . We subtract one from the map size , because
* the first element of the bitmap is accounted for in the
* size of the base structure .
*/
base_size =
( uint ) ( sizeof ( xfs_buf_log_format_t ) +
( ( bip - > bli_format . blf_map_size - 1 ) * sizeof ( uint ) ) ) ;
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vecp - > i_addr = & bip - > bli_format ;
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vecp - > i_len = base_size ;
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vecp - > i_type = XLOG_REG_TYPE_BFORMAT ;
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vecp + + ;
nvecs = 1 ;
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/*
* If it is an inode buffer , transfer the in - memory state to the
* format flags and clear the in - memory state . We do not transfer
* this state if the inode buffer allocation has not yet been committed
* to the log as setting the XFS_BLI_INODE_BUF flag will prevent
* correct replay of the inode allocation .
*/
if ( bip - > bli_flags & XFS_BLI_INODE_BUF ) {
if ( ! ( ( bip - > bli_flags & XFS_BLI_INODE_ALLOC_BUF ) & &
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xfs_log_item_in_current_chkpt ( lip ) ) )
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bip - > bli_format . blf_flags | = XFS_BLF_INODE_BUF ;
bip - > bli_flags & = ~ XFS_BLI_INODE_BUF ;
}
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if ( bip - > bli_flags & XFS_BLI_STALE ) {
/*
* The buffer is stale , so all we need to log
* is the buf log format structure with the
* cancel flag in it .
*/
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trace_xfs_buf_item_format_stale ( bip ) ;
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ASSERT ( bip - > bli_format . blf_flags & XFS_BLF_CANCEL ) ;
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bip - > bli_format . blf_size = nvecs ;
return ;
}
/*
* Fill in an iovec for each set of contiguous chunks .
*/
first_bit = xfs_next_bit ( bip - > bli_format . blf_data_map ,
bip - > bli_format . blf_map_size , 0 ) ;
ASSERT ( first_bit ! = - 1 ) ;
last_bit = first_bit ;
nbits = 1 ;
for ( ; ; ) {
/*
* This takes the bit number to start looking from and
* returns the next set bit from there . It returns - 1
* if there are no more bits set or the start bit is
* beyond the end of the bitmap .
*/
next_bit = xfs_next_bit ( bip - > bli_format . blf_data_map ,
bip - > bli_format . blf_map_size ,
( uint ) last_bit + 1 ) ;
/*
* If we run out of bits fill in the last iovec and get
* out of the loop .
* Else if we start a new set of bits then fill in the
* iovec for the series we were looking at and start
* counting the bits in the new one .
* Else we ' re still in the same set of bits so just
* keep counting and scanning .
*/
if ( next_bit = = - 1 ) {
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buffer_offset = first_bit * XFS_BLF_CHUNK ;
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vecp - > i_addr = xfs_buf_offset ( bp , buffer_offset ) ;
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vecp - > i_len = nbits * XFS_BLF_CHUNK ;
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vecp - > i_type = XLOG_REG_TYPE_BCHUNK ;
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nvecs + + ;
break ;
} else if ( next_bit ! = last_bit + 1 ) {
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buffer_offset = first_bit * XFS_BLF_CHUNK ;
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vecp - > i_addr = xfs_buf_offset ( bp , buffer_offset ) ;
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vecp - > i_len = nbits * XFS_BLF_CHUNK ;
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vecp - > i_type = XLOG_REG_TYPE_BCHUNK ;
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nvecs + + ;
vecp + + ;
first_bit = next_bit ;
last_bit = next_bit ;
nbits = 1 ;
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} else if ( xfs_buf_offset ( bp , next_bit < < XFS_BLF_SHIFT ) ! =
( xfs_buf_offset ( bp , last_bit < < XFS_BLF_SHIFT ) +
XFS_BLF_CHUNK ) ) {
buffer_offset = first_bit * XFS_BLF_CHUNK ;
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vecp - > i_addr = xfs_buf_offset ( bp , buffer_offset ) ;
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vecp - > i_len = nbits * XFS_BLF_CHUNK ;
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vecp - > i_type = XLOG_REG_TYPE_BCHUNK ;
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/* You would think we need to bump the nvecs here too, but we do not
* this number is used by recovery , and it gets confused by the boundary
* split here
* nvecs + + ;
*/
vecp + + ;
first_bit = next_bit ;
last_bit = next_bit ;
nbits = 1 ;
} else {
last_bit + + ;
nbits + + ;
}
}
bip - > bli_format . blf_size = nvecs ;
/*
* Check to make sure everything is consistent .
*/
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trace_xfs_buf_item_format ( bip ) ;
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xfs_buf_item_log_check ( bip ) ;
}
/*
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* This is called to pin the buffer associated with the buf log item in memory
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* so it cannot be written out .
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*
* We also always take a reference to the buffer log item here so that the bli
* is held while the item is pinned in memory . This means that we can
* unconditionally drop the reference count a transaction holds when the
* transaction is completed .
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*/
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STATIC void
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xfs_buf_item_pin (
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struct xfs_log_item * lip )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
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ASSERT ( XFS_BUF_ISBUSY ( bip - > bli_buf ) ) ;
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ASSERT ( atomic_read ( & bip - > bli_refcount ) > 0 ) ;
ASSERT ( ( bip - > bli_flags & XFS_BLI_LOGGED ) | |
( bip - > bli_flags & XFS_BLI_STALE ) ) ;
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trace_xfs_buf_item_pin ( bip ) ;
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atomic_inc ( & bip - > bli_refcount ) ;
atomic_inc ( & bip - > bli_buf - > b_pin_count ) ;
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}
/*
* This is called to unpin the buffer associated with the buf log
* item which was previously pinned with a call to xfs_buf_item_pin ( ) .
*
* Also drop the reference to the buf item for the current transaction .
* If the XFS_BLI_STALE flag is set and we are the last reference ,
* then free up the buf log item and unlock the buffer .
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*
* If the remove flag is set we are called from uncommit in the
* forced - shutdown path . If that is true and the reference count on
* the log item is going to drop to zero we need to free the item ' s
* descriptor in the transaction .
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*/
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STATIC void
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xfs_buf_item_unpin (
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struct xfs_log_item * lip ,
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int remove )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
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xfs_buf_t * bp = bip - > bli_buf ;
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struct xfs_ail * ailp = lip - > li_ailp ;
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int stale = bip - > bli_flags & XFS_BLI_STALE ;
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int freed ;
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ASSERT ( XFS_BUF_FSPRIVATE ( bp , xfs_buf_log_item_t * ) = = bip ) ;
ASSERT ( atomic_read ( & bip - > bli_refcount ) > 0 ) ;
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trace_xfs_buf_item_unpin ( bip ) ;
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freed = atomic_dec_and_test ( & bip - > bli_refcount ) ;
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if ( atomic_dec_and_test ( & bp - > b_pin_count ) )
wake_up_all ( & bp - > b_waiters ) ;
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if ( freed & & stale ) {
ASSERT ( bip - > bli_flags & XFS_BLI_STALE ) ;
ASSERT ( XFS_BUF_VALUSEMA ( bp ) < = 0 ) ;
ASSERT ( ! ( XFS_BUF_ISDELAYWRITE ( bp ) ) ) ;
ASSERT ( XFS_BUF_ISSTALE ( bp ) ) ;
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ASSERT ( bip - > bli_format . blf_flags & XFS_BLF_CANCEL ) ;
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trace_xfs_buf_item_unpin_stale ( bip ) ;
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if ( remove ) {
/*
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* If we are in a transaction context , we have to
* remove the log item from the transaction as we are
* about to release our reference to the buffer . If we
* don ' t , the unlock that occurs later in
* xfs_trans_uncommit ( ) will try to reference the
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* buffer which we no longer have a hold on .
*/
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if ( lip - > li_desc )
xfs_trans_del_item ( lip ) ;
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/*
* Since the transaction no longer refers to the buffer ,
* the buffer should no longer refer to the transaction .
*/
XFS_BUF_SET_FSPRIVATE2 ( bp , NULL ) ;
}
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/*
* If we get called here because of an IO error , we may
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* or may not have the item on the AIL . xfs_trans_ail_delete ( )
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* will take care of that situation .
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* xfs_trans_ail_delete ( ) drops the AIL lock .
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*/
if ( bip - > bli_flags & XFS_BLI_STALE_INODE ) {
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xfs_buf_do_callbacks ( bp ) ;
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XFS_BUF_SET_FSPRIVATE ( bp , NULL ) ;
XFS_BUF_CLR_IODONE_FUNC ( bp ) ;
} else {
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spin_lock ( & ailp - > xa_lock ) ;
xfs_trans_ail_delete ( ailp , ( xfs_log_item_t * ) bip ) ;
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xfs_buf_item_relse ( bp ) ;
ASSERT ( XFS_BUF_FSPRIVATE ( bp , void * ) = = NULL ) ;
}
xfs_buf_relse ( bp ) ;
}
}
/*
* This is called to attempt to lock the buffer associated with this
* buf log item . Don ' t sleep on the buffer lock . If we can ' t get
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* the lock right away , return 0. If we can get the lock , take a
* reference to the buffer . If this is a delayed write buffer that
* needs AIL help to be written back , invoke the pushbuf routine
* rather than the normal success path .
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*/
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STATIC uint
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xfs_buf_item_trylock (
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struct xfs_log_item * lip )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
struct xfs_buf * bp = bip - > bli_buf ;
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if ( XFS_BUF_ISPINNED ( bp ) )
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return XFS_ITEM_PINNED ;
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if ( ! XFS_BUF_CPSEMA ( bp ) )
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return XFS_ITEM_LOCKED ;
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/* take a reference to the buffer. */
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XFS_BUF_HOLD ( bp ) ;
ASSERT ( ! ( bip - > bli_flags & XFS_BLI_STALE ) ) ;
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trace_xfs_buf_item_trylock ( bip ) ;
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if ( XFS_BUF_ISDELAYWRITE ( bp ) )
return XFS_ITEM_PUSHBUF ;
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return XFS_ITEM_SUCCESS ;
}
/*
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* Release the buffer associated with the buf log item . If there is no dirty
* logged data associated with the buffer recorded in the buf log item , then
* free the buf log item and remove the reference to it in the buffer .
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*
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* This call ignores the recursion count . It is only called when the buffer
* should REALLY be unlocked , regardless of the recursion count .
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*
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* We unconditionally drop the transaction ' s reference to the log item . If the
* item was logged , then another reference was taken when it was pinned , so we
* can safely drop the transaction reference now . This also allows us to avoid
* potential races with the unpin code freeing the bli by not referencing the
* bli after we ' ve dropped the reference count .
*
* If the XFS_BLI_HOLD flag is set in the buf log item , then free the log item
* if necessary but do not unlock the buffer . This is for support of
* xfs_trans_bhold ( ) . Make sure the XFS_BLI_HOLD field is cleared if we don ' t
* free the item .
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*/
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STATIC void
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xfs_buf_item_unlock (
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struct xfs_log_item * lip )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
struct xfs_buf * bp = bip - > bli_buf ;
int aborted ;
uint hold ;
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/* Clear the buffer's association with this transaction. */
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XFS_BUF_SET_FSPRIVATE2 ( bp , NULL ) ;
/*
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* If this is a transaction abort , don ' t return early . Instead , allow
* the brelse to happen . Normally it would be done for stale
* ( cancelled ) buffers at unpin time , but we ' ll never go through the
* pin / unpin cycle if we abort inside commit .
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*/
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aborted = ( lip - > li_flags & XFS_LI_ABORTED ) ! = 0 ;
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/*
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* Before possibly freeing the buf item , determine if we should
* release the buffer at the end of this routine .
*/
hold = bip - > bli_flags & XFS_BLI_HOLD ;
/* Clear the per transaction state. */
bip - > bli_flags & = ~ ( XFS_BLI_LOGGED | XFS_BLI_HOLD ) ;
/*
* If the buf item is marked stale , then don ' t do anything . We ' ll
* unlock the buffer and free the buf item when the buffer is unpinned
* for the last time .
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*/
if ( bip - > bli_flags & XFS_BLI_STALE ) {
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trace_xfs_buf_item_unlock_stale ( bip ) ;
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ASSERT ( bip - > bli_format . blf_flags & XFS_BLF_CANCEL ) ;
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if ( ! aborted ) {
atomic_dec ( & bip - > bli_refcount ) ;
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return ;
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}
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}
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trace_xfs_buf_item_unlock ( bip ) ;
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/*
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* If the buf item isn ' t tracking any data , free it , otherwise drop the
* reference we hold to it .
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*/
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if ( xfs_bitmap_empty ( bip - > bli_format . blf_data_map ,
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bip - > bli_format . blf_map_size ) )
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xfs_buf_item_relse ( bp ) ;
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else
atomic_dec ( & bip - > bli_refcount ) ;
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if ( ! hold )
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xfs_buf_relse ( bp ) ;
}
/*
* This is called to find out where the oldest active copy of the
* buf log item in the on disk log resides now that the last log
* write of it completed at the given lsn .
* We always re - log all the dirty data in a buffer , so usually the
* latest copy in the on disk log is the only one that matters . For
* those cases we simply return the given lsn .
*
* The one exception to this is for buffers full of newly allocated
* inodes . These buffers are only relogged with the XFS_BLI_INODE_BUF
* flag set , indicating that only the di_next_unlinked fields from the
* inodes in the buffers will be replayed during recovery . If the
* original newly allocated inode images have not yet been flushed
* when the buffer is so relogged , then we need to make sure that we
* keep the old images in the ' active ' portion of the log . We do this
* by returning the original lsn of that transaction here rather than
* the current one .
*/
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STATIC xfs_lsn_t
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xfs_buf_item_committed (
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struct xfs_log_item * lip ,
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xfs_lsn_t lsn )
{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
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trace_xfs_buf_item_committed ( bip ) ;
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if ( ( bip - > bli_flags & XFS_BLI_INODE_ALLOC_BUF ) & & lip - > li_lsn ! = 0 )
return lip - > li_lsn ;
return lsn ;
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}
/*
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* The buffer is locked , but is not a delayed write buffer . This happens
* if we race with IO completion and hence we don ' t want to try to write it
* again . Just release the buffer .
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*/
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STATIC void
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xfs_buf_item_push (
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struct xfs_log_item * lip )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
struct xfs_buf * bp = bip - > bli_buf ;
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ASSERT ( ! ( bip - > bli_flags & XFS_BLI_STALE ) ) ;
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ASSERT ( ! XFS_BUF_ISDELAYWRITE ( bp ) ) ;
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trace_xfs_buf_item_push ( bip ) ;
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2010-02-02 02:13:42 +03:00
xfs_buf_relse ( bp ) ;
}
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2010-02-02 02:13:42 +03:00
/*
* The buffer is locked and is a delayed write buffer . Promote the buffer
* in the delayed write queue as the caller knows that they must invoke
* the xfsbufd to get this buffer written . We have to unlock the buffer
* to allow the xfsbufd to write it , too .
*/
STATIC void
xfs_buf_item_pushbuf (
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struct xfs_log_item * lip )
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{
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struct xfs_buf_log_item * bip = BUF_ITEM ( lip ) ;
struct xfs_buf * bp = bip - > bli_buf ;
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ASSERT ( ! ( bip - > bli_flags & XFS_BLI_STALE ) ) ;
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ASSERT ( XFS_BUF_ISDELAYWRITE ( bp ) ) ;
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trace_xfs_buf_item_pushbuf ( bip ) ;
xfs_buf_delwri_promote ( bp ) ;
xfs_buf_relse ( bp ) ;
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}
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STATIC void
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xfs_buf_item_committing (
struct xfs_log_item * lip ,
xfs_lsn_t commit_lsn )
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{
}
/*
* This is the ops vector shared by all buf log items .
*/
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static struct xfs_item_ops xfs_buf_item_ops = {
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. iop_size = xfs_buf_item_size ,
. iop_format = xfs_buf_item_format ,
. iop_pin = xfs_buf_item_pin ,
. iop_unpin = xfs_buf_item_unpin ,
. iop_trylock = xfs_buf_item_trylock ,
. iop_unlock = xfs_buf_item_unlock ,
. iop_committed = xfs_buf_item_committed ,
. iop_push = xfs_buf_item_push ,
. iop_pushbuf = xfs_buf_item_pushbuf ,
. iop_committing = xfs_buf_item_committing
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} ;
/*
* Allocate a new buf log item to go with the given buffer .
* Set the buffer ' s b_fsprivate field to point to the new
* buf log item . If there are other item ' s attached to the
* buffer ( see xfs_buf_attach_iodone ( ) below ) , then put the
* buf log item at the front .
*/
void
xfs_buf_item_init (
xfs_buf_t * bp ,
xfs_mount_t * mp )
{
xfs_log_item_t * lip ;
xfs_buf_log_item_t * bip ;
int chunks ;
int map_size ;
/*
* Check to see if there is already a buf log item for
* this buffer . If there is , it is guaranteed to be
* the first . If we do already have one , there is
* nothing to do here so return .
*/
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ASSERT ( bp - > b_target - > bt_mount = = mp ) ;
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if ( XFS_BUF_FSPRIVATE ( bp , void * ) ! = NULL ) {
lip = XFS_BUF_FSPRIVATE ( bp , xfs_log_item_t * ) ;
if ( lip - > li_type = = XFS_LI_BUF ) {
return ;
}
}
/*
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* chunks is the number of XFS_BLF_CHUNK size pieces
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* the buffer can be divided into . Make sure not to
* truncate any pieces . map_size is the size of the
* bitmap needed to describe the chunks of the buffer .
*/
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chunks = ( int ) ( ( XFS_BUF_COUNT ( bp ) + ( XFS_BLF_CHUNK - 1 ) ) > > XFS_BLF_SHIFT ) ;
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map_size = ( int ) ( ( chunks + NBWORD ) > > BIT_TO_WORD_SHIFT ) ;
bip = ( xfs_buf_log_item_t * ) kmem_zone_zalloc ( xfs_buf_item_zone ,
KM_SLEEP ) ;
2010-03-23 02:10:00 +03:00
xfs_log_item_init ( mp , & bip - > bli_item , XFS_LI_BUF , & xfs_buf_item_ops ) ;
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bip - > bli_buf = bp ;
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xfs_buf_hold ( bp ) ;
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bip - > bli_format . blf_type = XFS_LI_BUF ;
bip - > bli_format . blf_blkno = ( __int64_t ) XFS_BUF_ADDR ( bp ) ;
bip - > bli_format . blf_len = ( ushort ) BTOBB ( XFS_BUF_COUNT ( bp ) ) ;
bip - > bli_format . blf_map_size = map_size ;
# ifdef XFS_TRANS_DEBUG
/*
* Allocate the arrays for tracking what needs to be logged
* and what our callers request to be logged . bli_orig
* holds a copy of the original , clean buffer for comparison
* against , and bli_logged keeps a 1 bit flag per byte in
* the buffer to indicate which bytes the callers have asked
* to have logged .
*/
bip - > bli_orig = ( char * ) kmem_alloc ( XFS_BUF_COUNT ( bp ) , KM_SLEEP ) ;
memcpy ( bip - > bli_orig , XFS_BUF_PTR ( bp ) , XFS_BUF_COUNT ( bp ) ) ;
bip - > bli_logged = ( char * ) kmem_zalloc ( XFS_BUF_COUNT ( bp ) / NBBY , KM_SLEEP ) ;
# endif
/*
* Put the buf item into the list of items attached to the
* buffer at the front .
*/
if ( XFS_BUF_FSPRIVATE ( bp , void * ) ! = NULL ) {
bip - > bli_item . li_bio_list =
XFS_BUF_FSPRIVATE ( bp , xfs_log_item_t * ) ;
}
XFS_BUF_SET_FSPRIVATE ( bp , bip ) ;
}
/*
* Mark bytes first through last inclusive as dirty in the buf
* item ' s bitmap .
*/
void
xfs_buf_item_log (
xfs_buf_log_item_t * bip ,
uint first ,
uint last )
{
uint first_bit ;
uint last_bit ;
uint bits_to_set ;
uint bits_set ;
uint word_num ;
uint * wordp ;
uint bit ;
uint end_bit ;
uint mask ;
/*
* Mark the item as having some dirty data for
* quick reference in xfs_buf_item_dirty .
*/
bip - > bli_flags | = XFS_BLI_DIRTY ;
/*
* Convert byte offsets to bit numbers .
*/
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first_bit = first > > XFS_BLF_SHIFT ;
last_bit = last > > XFS_BLF_SHIFT ;
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/*
* Calculate the total number of bits to be set .
*/
bits_to_set = last_bit - first_bit + 1 ;
/*
* Get a pointer to the first word in the bitmap
* to set a bit in .
*/
word_num = first_bit > > BIT_TO_WORD_SHIFT ;
wordp = & ( bip - > bli_format . blf_data_map [ word_num ] ) ;
/*
* Calculate the starting bit in the first word .
*/
bit = first_bit & ( uint ) ( NBWORD - 1 ) ;
/*
* First set any bits in the first word of our range .
* If it starts at bit 0 of the word , it will be
* set below rather than here . That is what the variable
* bit tells us . The variable bits_set tracks the number
* of bits that have been set so far . End_bit is the number
* of the last bit to be set in this word plus one .
*/
if ( bit ) {
end_bit = MIN ( bit + bits_to_set , ( uint ) NBWORD ) ;
mask = ( ( 1 < < ( end_bit - bit ) ) - 1 ) < < bit ;
* wordp | = mask ;
wordp + + ;
bits_set = end_bit - bit ;
} else {
bits_set = 0 ;
}
/*
* Now set bits a whole word at a time that are between
* first_bit and last_bit .
*/
while ( ( bits_to_set - bits_set ) > = NBWORD ) {
* wordp | = 0xffffffff ;
bits_set + = NBWORD ;
wordp + + ;
}
/*
* Finally , set any bits left to be set in one last partial word .
*/
end_bit = bits_to_set - bits_set ;
if ( end_bit ) {
mask = ( 1 < < end_bit ) - 1 ;
* wordp | = mask ;
}
xfs_buf_item_log_debug ( bip , first , last ) ;
}
/*
* Return 1 if the buffer has some data that has been logged ( at any
* point , not just the current transaction ) and 0 if not .
*/
uint
xfs_buf_item_dirty (
xfs_buf_log_item_t * bip )
{
return ( bip - > bli_flags & XFS_BLI_DIRTY ) ;
}
2008-09-17 10:52:13 +04:00
STATIC void
xfs_buf_item_free (
xfs_buf_log_item_t * bip )
{
# ifdef XFS_TRANS_DEBUG
kmem_free ( bip - > bli_orig ) ;
kmem_free ( bip - > bli_logged ) ;
# endif /* XFS_TRANS_DEBUG */
kmem_zone_free ( xfs_buf_item_zone , bip ) ;
}
2005-04-17 02:20:36 +04:00
/*
* This is called when the buf log item is no longer needed . It should
* free the buf log item associated with the given buffer and clear
* the buffer ' s pointer to the buf log item . If there are no more
* items in the list , clear the b_iodone field of the buffer ( see
* xfs_buf_attach_iodone ( ) below ) .
*/
void
xfs_buf_item_relse (
xfs_buf_t * bp )
{
xfs_buf_log_item_t * bip ;
2009-12-15 02:14:59 +03:00
trace_xfs_buf_item_relse ( bp , _RET_IP_ ) ;
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bip = XFS_BUF_FSPRIVATE ( bp , xfs_buf_log_item_t * ) ;
XFS_BUF_SET_FSPRIVATE ( bp , bip - > bli_item . li_bio_list ) ;
if ( ( XFS_BUF_FSPRIVATE ( bp , void * ) = = NULL ) & &
( XFS_BUF_IODONE_FUNC ( bp ) ! = NULL ) ) {
XFS_BUF_CLR_IODONE_FUNC ( bp ) ;
}
2008-09-17 10:52:13 +04:00
xfs_buf_rele ( bp ) ;
xfs_buf_item_free ( bip ) ;
2005-04-17 02:20:36 +04:00
}
/*
* Add the given log item with its callback to the list of callbacks
* to be called when the buffer ' s I / O completes . If it is not set
* already , set the buffer ' s b_iodone ( ) routine to be
* xfs_buf_iodone_callbacks ( ) and link the log item into the list of
* items rooted at b_fsprivate . Items are always added as the second
* entry in the list if there is a first , because the buf item code
* assumes that the buf log item is first .
*/
void
xfs_buf_attach_iodone (
xfs_buf_t * bp ,
void ( * cb ) ( xfs_buf_t * , xfs_log_item_t * ) ,
xfs_log_item_t * lip )
{
xfs_log_item_t * head_lip ;
ASSERT ( XFS_BUF_ISBUSY ( bp ) ) ;
ASSERT ( XFS_BUF_VALUSEMA ( bp ) < = 0 ) ;
lip - > li_cb = cb ;
if ( XFS_BUF_FSPRIVATE ( bp , void * ) ! = NULL ) {
head_lip = XFS_BUF_FSPRIVATE ( bp , xfs_log_item_t * ) ;
lip - > li_bio_list = head_lip - > li_bio_list ;
head_lip - > li_bio_list = lip ;
} else {
XFS_BUF_SET_FSPRIVATE ( bp , lip ) ;
}
ASSERT ( ( XFS_BUF_IODONE_FUNC ( bp ) = = xfs_buf_iodone_callbacks ) | |
( XFS_BUF_IODONE_FUNC ( bp ) = = NULL ) ) ;
XFS_BUF_SET_IODONE_FUNC ( bp , xfs_buf_iodone_callbacks ) ;
}
2010-12-03 09:00:52 +03:00
/*
* We can have many callbacks on a buffer . Running the callbacks individually
* can cause a lot of contention on the AIL lock , so we allow for a single
* callback to be able to scan the remaining lip - > li_bio_list for other items
* of the same type and callback to be processed in the first call .
*
* As a result , the loop walking the callback list below will also modify the
* list . it removes the first item from the list and then runs the callback .
* The loop then restarts from the new head of the list . This allows the
* callback to scan and modify the list attached to the buffer and we don ' t
* have to care about maintaining a next item pointer .
*/
2005-04-17 02:20:36 +04:00
STATIC void
xfs_buf_do_callbacks (
2010-12-03 09:00:52 +03:00
struct xfs_buf * bp )
2005-04-17 02:20:36 +04:00
{
2010-12-03 09:00:52 +03:00
struct xfs_log_item * lip ;
2005-04-17 02:20:36 +04:00
2010-12-03 09:00:52 +03:00
while ( ( lip = XFS_BUF_FSPRIVATE ( bp , xfs_log_item_t * ) ) ! = NULL ) {
XFS_BUF_SET_FSPRIVATE ( bp , lip - > li_bio_list ) ;
2005-04-17 02:20:36 +04:00
ASSERT ( lip - > li_cb ! = NULL ) ;
/*
* Clear the next pointer so we don ' t have any
* confusion if the item is added to another buf .
* Don ' t touch the log item after calling its
* callback , because it could have freed itself .
*/
lip - > li_bio_list = NULL ;
lip - > li_cb ( bp , lip ) ;
}
}
/*
* This is the iodone ( ) function for buffers which have had callbacks
* attached to them by xfs_buf_attach_iodone ( ) . It should remove each
* log item from the buffer ' s list and call the callback of each in turn .
* When done , the buffer ' s fsprivate field is set to NULL and the buffer
* is unlocked with a call to iodone ( ) .
*/
void
xfs_buf_iodone_callbacks (
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
struct xfs_buf * bp )
2005-04-17 02:20:36 +04:00
{
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
struct xfs_log_item * lip = bp - > b_fspriv ;
struct xfs_mount * mp = lip - > li_mountp ;
static ulong lasttime ;
static xfs_buftarg_t * lasttarg ;
2005-04-17 02:20:36 +04:00
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
if ( likely ( ! XFS_BUF_GETERROR ( bp ) ) )
goto do_callbacks ;
2005-04-17 02:20:36 +04:00
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
/*
* If we ' ve already decided to shutdown the filesystem because of
* I / O errors , there ' s no point in giving this a retry .
*/
if ( XFS_FORCED_SHUTDOWN ( mp ) ) {
XFS_BUF_SUPER_STALE ( bp ) ;
trace_xfs_buf_item_iodone ( bp , _RET_IP_ ) ;
goto do_callbacks ;
}
2005-04-17 02:20:36 +04:00
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
if ( XFS_BUF_TARGET ( bp ) ! = lasttarg | |
time_after ( jiffies , ( lasttime + 5 * HZ ) ) ) {
lasttime = jiffies ;
cmn_err ( CE_ALERT , " Device %s, XFS metadata write error "
" block 0x%llx in %s " ,
XFS_BUFTARG_NAME ( XFS_BUF_TARGET ( bp ) ) ,
( __uint64_t ) XFS_BUF_ADDR ( bp ) , mp - > m_fsname ) ;
}
lasttarg = XFS_BUF_TARGET ( bp ) ;
2005-04-17 02:20:36 +04:00
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
/*
* If the write was asynchronous then noone will be looking for the
* error . Clear the error state and write the buffer out again .
*
* During sync or umount we ' ll write all pending buffers again
* synchronous , which will catch these errors if they keep hanging
* around .
*/
if ( XFS_BUF_ISASYNC ( bp ) ) {
XFS_BUF_ERROR ( bp , 0 ) ; /* errno of 0 unsets the flag */
if ( ! XFS_BUF_ISSTALE ( bp ) ) {
XFS_BUF_DELAYWRITE ( bp ) ;
2005-04-17 02:20:36 +04:00
XFS_BUF_DONE ( bp ) ;
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
XFS_BUF_SET_START ( bp ) ;
2005-04-17 02:20:36 +04:00
}
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
ASSERT ( XFS_BUF_IODONE_FUNC ( bp ) ) ;
trace_xfs_buf_item_iodone_async ( bp , _RET_IP_ ) ;
xfs_buf_relse ( bp ) ;
2005-04-17 02:20:36 +04:00
return ;
}
2009-12-15 02:14:59 +03:00
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
/*
* If the write of the buffer was synchronous , we want to make
* sure to return the error to the caller of xfs_bwrite ( ) .
*/
2005-04-17 02:20:36 +04:00
XFS_BUF_STALE ( bp ) ;
XFS_BUF_DONE ( bp ) ;
XFS_BUF_UNDELAYWRITE ( bp ) ;
2009-12-15 02:14:59 +03:00
trace_xfs_buf_error_relse ( bp , _RET_IP_ ) ;
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
xfs_force_shutdown ( mp , SHUTDOWN_META_IO_ERROR ) ;
2009-12-15 02:14:59 +03:00
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
do_callbacks :
2010-12-03 09:00:52 +03:00
xfs_buf_do_callbacks ( bp ) ;
2005-04-17 02:20:36 +04:00
XFS_BUF_SET_FSPRIVATE ( bp , NULL ) ;
XFS_BUF_CLR_IODONE_FUNC ( bp ) ;
xfs: fix error handling for synchronous writes
If we get an IO error on a synchronous superblock write, we attach an
error release function to it so that when the last reference goes away
the release function is called and the buffer is invalidated and
unlocked. The buffer is left locked until the release function is
called so that other concurrent users of the buffer will be locked out
until the buffer error is fully processed.
Unfortunately, for the superblock buffer the filesyetm itself holds a
reference to the buffer which prevents the reference count from
dropping to zero and the release function being called. As a result,
once an IO error occurs on a sync write, the buffer will never be
unlocked and all future attempts to lock the buffer will hang.
To make matters worse, this problems is not unique to such buffers;
if there is a concurrent _xfs_buf_find() running, the lookup will grab
a reference to the buffer and then wait on the buffer lock, preventing
the reference count from ever falling to zero and hence unlocking the
buffer.
As such, the whole b_relse function implementation is broken because it
cannot rely on the buffer reference count falling to zero to unlock the
errored buffer. The synchronous write error path is the only path that
uses this callback - it is used to ensure that the synchronous waiter
gets the buffer error before the error state is cleared from the buffer
by the release function.
Given that the only sychronous buffer writes now go through xfs_bwrite
and the error path in question can only occur for a write of a dirty,
logged buffer, we can move most of the b_relse processing to happen
inline in xfs_buf_iodone_callbacks, just like a normal I/O completion.
In addition to that we make sure the error is not cleared in
xfs_buf_iodone_callbacks, so that xfs_bwrite can reliably check it.
Given that xfs_bwrite keeps the buffer locked until it has waited for
it and checked the error this allows to reliably propagate the error
to the caller, and make sure that the buffer is reliably unlocked.
Given that xfs_buf_iodone_callbacks was the only instance of the
b_relse callback we can remove it entirely.
Based on earlier patches by Dave Chinner and Ajeet Yadav.
Signed-off-by: Christoph Hellwig <hch@lst.de>
Reported-by: Ajeet Yadav <ajeet.yadav.77@gmail.com>
Reviewed-by: Dave Chinner <dchinner@redhat.com>
Signed-off-by: Alex Elder <aelder@sgi.com>
2011-01-07 16:02:23 +03:00
xfs_buf_ioend ( bp , 0 ) ;
2005-04-17 02:20:36 +04:00
}
/*
* This is the iodone ( ) function for buffers which have been
* logged . It is called when they are eventually flushed out .
* It should remove the buf item from the AIL , and free the buf item .
* It is called by xfs_buf_iodone_callbacks ( ) above which will take
* care of cleaning up the buffer itself .
*/
void
xfs_buf_iodone (
2010-06-23 12:11:15 +04:00
struct xfs_buf * bp ,
struct xfs_log_item * lip )
2005-04-17 02:20:36 +04:00
{
2010-06-23 12:11:15 +04:00
struct xfs_ail * ailp = lip - > li_ailp ;
2005-04-17 02:20:36 +04:00
2010-06-23 12:11:15 +04:00
ASSERT ( BUF_ITEM ( lip ) - > bli_buf = = bp ) ;
2005-04-17 02:20:36 +04:00
2008-09-17 10:52:13 +04:00
xfs_buf_rele ( bp ) ;
2005-04-17 02:20:36 +04:00
/*
* If we are forcibly shutting down , this may well be
* off the AIL already . That ' s because we simulate the
* log - committed callbacks to unpin these buffers . Or we may never
* have put this item on AIL because of the transaction was
2008-10-30 09:39:58 +03:00
* aborted forcibly . xfs_trans_ail_delete ( ) takes care of these .
2005-04-17 02:20:36 +04:00
*
* Either way , AIL is useless if we ' re forcing a shutdown .
*/
2008-10-30 09:39:46 +03:00
spin_lock ( & ailp - > xa_lock ) ;
2010-06-23 12:11:15 +04:00
xfs_trans_ail_delete ( ailp , lip ) ;
xfs_buf_item_free ( BUF_ITEM ( lip ) ) ;
2005-04-17 02:20:36 +04:00
}