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/*
* fs / f2fs / inline . c
* Copyright ( c ) 2013 , Intel Corporation
* Authors : Huajun Li < huajun . li @ intel . com >
* Haicheng Li < haicheng . li @ intel . com >
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation .
*/
# include <linux/fs.h>
# include <linux/f2fs_fs.h>
# include "f2fs.h"
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# include "node.h"
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bool f2fs_may_inline_data ( struct inode * inode )
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{
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if ( f2fs_is_atomic_file ( inode ) )
return false ;
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if ( ! S_ISREG ( inode - > i_mode ) & & ! S_ISLNK ( inode - > i_mode ) )
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return false ;
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if ( i_size_read ( inode ) > MAX_INLINE_DATA )
return false ;
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if ( f2fs_encrypted_inode ( inode ) & & S_ISREG ( inode - > i_mode ) )
return false ;
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return true ;
}
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bool f2fs_may_inline_dentry ( struct inode * inode )
{
if ( ! test_opt ( F2FS_I_SB ( inode ) , INLINE_DENTRY ) )
return false ;
if ( ! S_ISDIR ( inode - > i_mode ) )
return false ;
return true ;
}
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void read_inline_data ( struct page * page , struct page * ipage )
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{
void * src_addr , * dst_addr ;
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if ( PageUptodate ( page ) )
return ;
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f2fs_bug_on ( F2FS_P_SB ( page ) , page - > index ) ;
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zero_user_segment ( page , MAX_INLINE_DATA , PAGE_CACHE_SIZE ) ;
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/* Copy the whole inline data block */
src_addr = inline_data_addr ( ipage ) ;
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dst_addr = kmap_atomic ( page ) ;
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memcpy ( dst_addr , src_addr , MAX_INLINE_DATA ) ;
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flush_dcache_page ( page ) ;
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kunmap_atomic ( dst_addr ) ;
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SetPageUptodate ( page ) ;
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}
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bool truncate_inline_inode ( struct page * ipage , u64 from )
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{
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void * addr ;
if ( from > = MAX_INLINE_DATA )
return false ;
addr = inline_data_addr ( ipage ) ;
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f2fs_wait_on_page_writeback ( ipage , NODE , true ) ;
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memset ( addr + from , 0 , MAX_INLINE_DATA - from ) ;
return true ;
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}
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int f2fs_read_inline_data ( struct inode * inode , struct page * page )
{
struct page * ipage ;
ipage = get_node_page ( F2FS_I_SB ( inode ) , inode - > i_ino ) ;
if ( IS_ERR ( ipage ) ) {
unlock_page ( page ) ;
return PTR_ERR ( ipage ) ;
}
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if ( ! f2fs_has_inline_data ( inode ) ) {
f2fs_put_page ( ipage , 1 ) ;
return - EAGAIN ;
}
if ( page - > index )
zero_user_segment ( page , 0 , PAGE_CACHE_SIZE ) ;
else
read_inline_data ( page , ipage ) ;
SetPageUptodate ( page ) ;
f2fs_put_page ( ipage , 1 ) ;
unlock_page ( page ) ;
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return 0 ;
}
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int f2fs_convert_inline_page ( struct dnode_of_data * dn , struct page * page )
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{
void * src_addr , * dst_addr ;
struct f2fs_io_info fio = {
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. sbi = F2FS_I_SB ( dn - > inode ) ,
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. type = DATA ,
. rw = WRITE_SYNC | REQ_PRIO ,
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. page = page ,
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. encrypted_page = NULL ,
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} ;
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int dirty , err ;
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f2fs_bug_on ( F2FS_I_SB ( dn - > inode ) , page - > index ) ;
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if ( ! f2fs_exist_data ( dn - > inode ) )
goto clear_out ;
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err = f2fs_reserve_block ( dn , 0 ) ;
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if ( err )
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return err ;
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f2fs_wait_on_page_writeback ( page , DATA , true ) ;
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if ( PageUptodate ( page ) )
goto no_update ;
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zero_user_segment ( page , MAX_INLINE_DATA , PAGE_CACHE_SIZE ) ;
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/* Copy the whole inline data block */
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src_addr = inline_data_addr ( dn - > inode_page ) ;
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dst_addr = kmap_atomic ( page ) ;
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memcpy ( dst_addr , src_addr , MAX_INLINE_DATA ) ;
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flush_dcache_page ( page ) ;
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kunmap_atomic ( dst_addr ) ;
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SetPageUptodate ( page ) ;
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no_update :
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set_page_dirty ( page ) ;
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/* clear dirty state */
dirty = clear_page_dirty_for_io ( page ) ;
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/* write data page to try to make data consistent */
set_page_writeback ( page ) ;
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fio . blk_addr = dn - > data_blkaddr ;
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write_data_page ( dn , & fio ) ;
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set_data_blkaddr ( dn ) ;
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f2fs_update_extent_cache ( dn ) ;
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f2fs_wait_on_page_writeback ( page , DATA , true ) ;
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if ( dirty )
inode_dec_dirty_pages ( dn - > inode ) ;
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/* this converted inline_data should be recovered. */
set_inode_flag ( F2FS_I ( dn - > inode ) , FI_APPEND_WRITE ) ;
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/* clear inline data and flag after data writeback */
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truncate_inline_inode ( dn - > inode_page , 0 ) ;
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clear_inline_node ( dn - > inode_page ) ;
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clear_out :
stat_dec_inline_inode ( dn - > inode ) ;
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f2fs_clear_inline_inode ( dn - > inode ) ;
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sync_inode_page ( dn ) ;
f2fs_put_dnode ( dn ) ;
return 0 ;
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}
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int f2fs_convert_inline_inode ( struct inode * inode )
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{
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struct f2fs_sb_info * sbi = F2FS_I_SB ( inode ) ;
struct dnode_of_data dn ;
struct page * ipage , * page ;
int err = 0 ;
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if ( ! f2fs_has_inline_data ( inode ) )
return 0 ;
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page = grab_cache_page ( inode - > i_mapping , 0 ) ;
if ( ! page )
return - ENOMEM ;
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f2fs_lock_op ( sbi ) ;
ipage = get_node_page ( sbi , inode - > i_ino ) ;
if ( IS_ERR ( ipage ) ) {
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err = PTR_ERR ( ipage ) ;
goto out ;
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}
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set_new_dnode ( & dn , inode , ipage , ipage , 0 ) ;
if ( f2fs_has_inline_data ( inode ) )
err = f2fs_convert_inline_page ( & dn , page ) ;
f2fs_put_dnode ( & dn ) ;
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out :
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f2fs_unlock_op ( sbi ) ;
f2fs_put_page ( page , 1 ) ;
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f2fs_balance_fs ( sbi , dn . node_changed ) ;
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return err ;
}
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int f2fs_write_inline_data ( struct inode * inode , struct page * page )
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{
void * src_addr , * dst_addr ;
struct dnode_of_data dn ;
int err ;
set_new_dnode ( & dn , inode , NULL , NULL , 0 ) ;
err = get_dnode_of_data ( & dn , 0 , LOOKUP_NODE ) ;
if ( err )
return err ;
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if ( ! f2fs_has_inline_data ( inode ) ) {
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f2fs_put_dnode ( & dn ) ;
return - EAGAIN ;
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}
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f2fs_bug_on ( F2FS_I_SB ( inode ) , page - > index ) ;
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f2fs_wait_on_page_writeback ( dn . inode_page , NODE , true ) ;
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src_addr = kmap_atomic ( page ) ;
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dst_addr = inline_data_addr ( dn . inode_page ) ;
memcpy ( dst_addr , src_addr , MAX_INLINE_DATA ) ;
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kunmap_atomic ( src_addr ) ;
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set_inode_flag ( F2FS_I ( inode ) , FI_APPEND_WRITE ) ;
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set_inode_flag ( F2FS_I ( inode ) , FI_DATA_EXIST ) ;
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sync_inode_page ( & dn ) ;
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clear_inline_node ( dn . inode_page ) ;
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f2fs_put_dnode ( & dn ) ;
return 0 ;
}
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bool recover_inline_data ( struct inode * inode , struct page * npage )
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{
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struct f2fs_sb_info * sbi = F2FS_I_SB ( inode ) ;
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struct f2fs_inode * ri = NULL ;
void * src_addr , * dst_addr ;
struct page * ipage ;
/*
* The inline_data recovery policy is as follows .
* [ prev . ] [ next ] of inline_data flag
* o o - > recover inline_data
* o x - > remove inline_data , and then recover data blocks
* x o - > remove inline_data , and then recover inline_data
* x x - > recover data blocks
*/
if ( IS_INODE ( npage ) )
ri = F2FS_INODE ( npage ) ;
if ( f2fs_has_inline_data ( inode ) & &
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ri & & ( ri - > i_inline & F2FS_INLINE_DATA ) ) {
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process_inline :
ipage = get_node_page ( sbi , inode - > i_ino ) ;
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f2fs_bug_on ( sbi , IS_ERR ( ipage ) ) ;
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f2fs_wait_on_page_writeback ( ipage , NODE , true ) ;
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src_addr = inline_data_addr ( npage ) ;
dst_addr = inline_data_addr ( ipage ) ;
memcpy ( dst_addr , src_addr , MAX_INLINE_DATA ) ;
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set_inode_flag ( F2FS_I ( inode ) , FI_INLINE_DATA ) ;
set_inode_flag ( F2FS_I ( inode ) , FI_DATA_EXIST ) ;
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update_inode ( inode , ipage ) ;
f2fs_put_page ( ipage , 1 ) ;
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return true ;
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}
if ( f2fs_has_inline_data ( inode ) ) {
ipage = get_node_page ( sbi , inode - > i_ino ) ;
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f2fs_bug_on ( sbi , IS_ERR ( ipage ) ) ;
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if ( ! truncate_inline_inode ( ipage , 0 ) )
return false ;
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f2fs_clear_inline_inode ( inode ) ;
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update_inode ( inode , ipage ) ;
f2fs_put_page ( ipage , 1 ) ;
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} else if ( ri & & ( ri - > i_inline & F2FS_INLINE_DATA ) ) {
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if ( truncate_blocks ( inode , 0 , false ) )
return false ;
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goto process_inline ;
}
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return false ;
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}
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struct f2fs_dir_entry * find_in_inline_dir ( struct inode * dir ,
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struct f2fs_filename * fname , struct page * * res_page )
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{
struct f2fs_sb_info * sbi = F2FS_SB ( dir - > i_sb ) ;
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struct f2fs_inline_dentry * inline_dentry ;
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struct qstr name = FSTR_TO_QSTR ( & fname - > disk_name ) ;
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struct f2fs_dir_entry * de ;
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struct f2fs_dentry_ptr d ;
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struct page * ipage ;
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f2fs_hash_t namehash ;
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ipage = get_node_page ( sbi , dir - > i_ino ) ;
if ( IS_ERR ( ipage ) )
return NULL ;
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namehash = f2fs_dentry_hash ( & name ) ;
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inline_dentry = inline_data_addr ( ipage ) ;
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make_dentry_ptr ( NULL , & d , ( void * ) inline_dentry , 2 ) ;
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de = find_target_dentry ( fname , namehash , NULL , & d ) ;
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unlock_page ( ipage ) ;
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if ( de )
* res_page = ipage ;
else
f2fs_put_page ( ipage , 0 ) ;
/*
* For the most part , it should be a bug when name_len is zero .
* We stop here for figuring out where the bugs has occurred .
*/
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f2fs_bug_on ( sbi , d . max < 0 ) ;
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return de ;
}
struct f2fs_dir_entry * f2fs_parent_inline_dir ( struct inode * dir ,
struct page * * p )
{
struct f2fs_sb_info * sbi = F2FS_I_SB ( dir ) ;
struct page * ipage ;
struct f2fs_dir_entry * de ;
struct f2fs_inline_dentry * dentry_blk ;
ipage = get_node_page ( sbi , dir - > i_ino ) ;
if ( IS_ERR ( ipage ) )
return NULL ;
dentry_blk = inline_data_addr ( ipage ) ;
de = & dentry_blk - > dentry [ 1 ] ;
* p = ipage ;
unlock_page ( ipage ) ;
return de ;
}
int make_empty_inline_dir ( struct inode * inode , struct inode * parent ,
struct page * ipage )
{
struct f2fs_inline_dentry * dentry_blk ;
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struct f2fs_dentry_ptr d ;
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dentry_blk = inline_data_addr ( ipage ) ;
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make_dentry_ptr ( NULL , & d , ( void * ) dentry_blk , 2 ) ;
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do_make_empty_dir ( inode , parent , & d ) ;
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set_page_dirty ( ipage ) ;
/* update i_size to MAX_INLINE_DATA */
if ( i_size_read ( inode ) < MAX_INLINE_DATA ) {
i_size_write ( inode , MAX_INLINE_DATA ) ;
set_inode_flag ( F2FS_I ( inode ) , FI_UPDATE_DIR ) ;
}
return 0 ;
}
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/*
* NOTE : ipage is grabbed by caller , but if any error occurs , we should
* release ipage in this function .
*/
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static int f2fs_convert_inline_dir ( struct inode * dir , struct page * ipage ,
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struct f2fs_inline_dentry * inline_dentry )
{
struct page * page ;
struct dnode_of_data dn ;
struct f2fs_dentry_block * dentry_blk ;
int err ;
page = grab_cache_page ( dir - > i_mapping , 0 ) ;
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if ( ! page ) {
f2fs_put_page ( ipage , 1 ) ;
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return - ENOMEM ;
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}
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set_new_dnode ( & dn , dir , ipage , NULL , 0 ) ;
err = f2fs_reserve_block ( & dn , 0 ) ;
if ( err )
goto out ;
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f2fs_wait_on_page_writeback ( page , DATA , true ) ;
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zero_user_segment ( page , MAX_INLINE_DATA , PAGE_CACHE_SIZE ) ;
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dentry_blk = kmap_atomic ( page ) ;
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/* copy data from inline dentry block to new dentry block */
memcpy ( dentry_blk - > dentry_bitmap , inline_dentry - > dentry_bitmap ,
INLINE_DENTRY_BITMAP_SIZE ) ;
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memset ( dentry_blk - > dentry_bitmap + INLINE_DENTRY_BITMAP_SIZE , 0 ,
SIZE_OF_DENTRY_BITMAP - INLINE_DENTRY_BITMAP_SIZE ) ;
/*
* we do not need to zero out remainder part of dentry and filename
* field , since we have used bitmap for marking the usage status of
* them , besides , we can also ignore copying / zeroing reserved space
* of dentry block , because them haven ' t been used so far .
*/
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memcpy ( dentry_blk - > dentry , inline_dentry - > dentry ,
sizeof ( struct f2fs_dir_entry ) * NR_INLINE_DENTRY ) ;
memcpy ( dentry_blk - > filename , inline_dentry - > filename ,
NR_INLINE_DENTRY * F2FS_SLOT_LEN ) ;
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kunmap_atomic ( dentry_blk ) ;
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SetPageUptodate ( page ) ;
set_page_dirty ( page ) ;
/* clear inline dir and flag after data writeback */
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truncate_inline_inode ( ipage , 0 ) ;
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stat_dec_inline_dir ( dir ) ;
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clear_inode_flag ( F2FS_I ( dir ) , FI_INLINE_DENTRY ) ;
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if ( i_size_read ( dir ) < PAGE_CACHE_SIZE ) {
i_size_write ( dir , PAGE_CACHE_SIZE ) ;
set_inode_flag ( F2FS_I ( dir ) , FI_UPDATE_DIR ) ;
}
sync_inode_page ( & dn ) ;
out :
f2fs_put_page ( page , 1 ) ;
return err ;
}
int f2fs_add_inline_entry ( struct inode * dir , const struct qstr * name ,
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struct inode * inode , nid_t ino , umode_t mode )
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{
struct f2fs_sb_info * sbi = F2FS_I_SB ( dir ) ;
struct page * ipage ;
unsigned int bit_pos ;
f2fs_hash_t name_hash ;
size_t namelen = name - > len ;
struct f2fs_inline_dentry * dentry_blk = NULL ;
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struct f2fs_dentry_ptr d ;
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int slots = GET_DENTRY_SLOTS ( namelen ) ;
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struct page * page = NULL ;
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int err = 0 ;
ipage = get_node_page ( sbi , dir - > i_ino ) ;
if ( IS_ERR ( ipage ) )
return PTR_ERR ( ipage ) ;
dentry_blk = inline_data_addr ( ipage ) ;
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bit_pos = room_for_filename ( & dentry_blk - > dentry_bitmap ,
slots , NR_INLINE_DENTRY ) ;
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if ( bit_pos > = NR_INLINE_DENTRY ) {
err = f2fs_convert_inline_dir ( dir , ipage , dentry_blk ) ;
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if ( err )
return err ;
err = - EAGAIN ;
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goto out ;
}
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if ( inode ) {
down_write ( & F2FS_I ( inode ) - > i_sem ) ;
page = init_inode_metadata ( inode , dir , name , ipage ) ;
if ( IS_ERR ( page ) ) {
err = PTR_ERR ( page ) ;
goto fail ;
}
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}
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f2fs_wait_on_page_writeback ( ipage , NODE , true ) ;
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name_hash = f2fs_dentry_hash ( name ) ;
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make_dentry_ptr ( NULL , & d , ( void * ) dentry_blk , 2 ) ;
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f2fs_update_dentry ( ino , mode , & d , name , name_hash , bit_pos ) ;
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set_page_dirty ( ipage ) ;
/* we don't need to mark_inode_dirty now */
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if ( inode ) {
F2FS_I ( inode ) - > i_pino = dir - > i_ino ;
update_inode ( inode , page ) ;
f2fs_put_page ( page , 1 ) ;
}
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update_parent_metadata ( dir , inode , 0 ) ;
fail :
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if ( inode )
up_write ( & F2FS_I ( inode ) - > i_sem ) ;
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if ( is_inode_flag_set ( F2FS_I ( dir ) , FI_UPDATE_DIR ) ) {
update_inode ( dir , ipage ) ;
clear_inode_flag ( F2FS_I ( dir ) , FI_UPDATE_DIR ) ;
}
out :
f2fs_put_page ( ipage , 1 ) ;
return err ;
}
void f2fs_delete_inline_entry ( struct f2fs_dir_entry * dentry , struct page * page ,
struct inode * dir , struct inode * inode )
{
struct f2fs_inline_dentry * inline_dentry ;
int slots = GET_DENTRY_SLOTS ( le16_to_cpu ( dentry - > name_len ) ) ;
unsigned int bit_pos ;
int i ;
lock_page ( page ) ;
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f2fs_wait_on_page_writeback ( page , NODE , true ) ;
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inline_dentry = inline_data_addr ( page ) ;
bit_pos = dentry - inline_dentry - > dentry ;
for ( i = 0 ; i < slots ; i + + )
test_and_clear_bit_le ( bit_pos + i ,
& inline_dentry - > dentry_bitmap ) ;
set_page_dirty ( page ) ;
dir - > i_ctime = dir - > i_mtime = CURRENT_TIME ;
if ( inode )
f2fs_drop_nlink ( dir , inode , page ) ;
f2fs_put_page ( page , 1 ) ;
}
bool f2fs_empty_inline_dir ( struct inode * dir )
{
struct f2fs_sb_info * sbi = F2FS_I_SB ( dir ) ;
struct page * ipage ;
unsigned int bit_pos = 2 ;
struct f2fs_inline_dentry * dentry_blk ;
ipage = get_node_page ( sbi , dir - > i_ino ) ;
if ( IS_ERR ( ipage ) )
return false ;
dentry_blk = inline_data_addr ( ipage ) ;
bit_pos = find_next_bit_le ( & dentry_blk - > dentry_bitmap ,
NR_INLINE_DENTRY ,
bit_pos ) ;
f2fs_put_page ( ipage , 1 ) ;
if ( bit_pos < NR_INLINE_DENTRY )
return false ;
return true ;
}
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int f2fs_read_inline_dir ( struct file * file , struct dir_context * ctx ,
struct f2fs_str * fstr )
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{
struct inode * inode = file_inode ( file ) ;
struct f2fs_inline_dentry * inline_dentry = NULL ;
struct page * ipage = NULL ;
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struct f2fs_dentry_ptr d ;
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if ( ctx - > pos = = NR_INLINE_DENTRY )
return 0 ;
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ipage = get_node_page ( F2FS_I_SB ( inode ) , inode - > i_ino ) ;
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if ( IS_ERR ( ipage ) )
return PTR_ERR ( ipage ) ;
inline_dentry = inline_data_addr ( ipage ) ;
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make_dentry_ptr ( inode , & d , ( void * ) inline_dentry , 2 ) ;
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if ( ! f2fs_fill_dentries ( ctx , & d , 0 , fstr ) )
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ctx - > pos = NR_INLINE_DENTRY ;
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2014-10-16 08:29:51 +04:00
f2fs_put_page ( ipage , 1 ) ;
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return 0 ;
}
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int f2fs_inline_data_fiemap ( struct inode * inode ,
struct fiemap_extent_info * fieinfo , __u64 start , __u64 len )
{
__u64 byteaddr , ilen ;
__u32 flags = FIEMAP_EXTENT_DATA_INLINE | FIEMAP_EXTENT_NOT_ALIGNED |
FIEMAP_EXTENT_LAST ;
struct node_info ni ;
struct page * ipage ;
int err = 0 ;
ipage = get_node_page ( F2FS_I_SB ( inode ) , inode - > i_ino ) ;
if ( IS_ERR ( ipage ) )
return PTR_ERR ( ipage ) ;
if ( ! f2fs_has_inline_data ( inode ) ) {
err = - EAGAIN ;
goto out ;
}
ilen = min_t ( size_t , MAX_INLINE_DATA , i_size_read ( inode ) ) ;
if ( start > = ilen )
goto out ;
if ( start + len < ilen )
ilen = start + len ;
ilen - = start ;
get_node_info ( F2FS_I_SB ( inode ) , inode - > i_ino , & ni ) ;
byteaddr = ( __u64 ) ni . blk_addr < < inode - > i_sb - > s_blocksize_bits ;
byteaddr + = ( char * ) inline_data_addr ( ipage ) - ( char * ) F2FS_INODE ( ipage ) ;
err = fiemap_fill_next_extent ( fieinfo , start , byteaddr , ilen , flags ) ;
out :
f2fs_put_page ( ipage , 1 ) ;
return err ;
}