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/*
* fs / dax . c - Direct Access filesystem code
* Copyright ( c ) 2013 - 2014 Intel Corporation
* Author : Matthew Wilcox < matthew . r . wilcox @ intel . com >
* Author : Ross Zwisler < ross . zwisler @ linux . intel . com >
*
* This program is free software ; you can redistribute it and / or modify it
* under the terms and conditions of the GNU General Public License ,
* version 2 , as published by the Free Software Foundation .
*
* This program is distributed in the hope it will be useful , but WITHOUT
* ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE . See the GNU General Public License for
* more details .
*/
# include <linux/atomic.h>
# include <linux/blkdev.h>
# include <linux/buffer_head.h>
# include <linux/fs.h>
# include <linux/genhd.h>
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# include <linux/highmem.h>
# include <linux/memcontrol.h>
# include <linux/mm.h>
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# include <linux/mutex.h>
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# include <linux/sched.h>
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# include <linux/uio.h>
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# include <linux/vmstat.h>
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int dax_clear_blocks ( struct inode * inode , sector_t block , long size )
{
struct block_device * bdev = inode - > i_sb - > s_bdev ;
sector_t sector = block < < ( inode - > i_blkbits - 9 ) ;
might_sleep ( ) ;
do {
void * addr ;
unsigned long pfn ;
long count ;
count = bdev_direct_access ( bdev , sector , & addr , & pfn , size ) ;
if ( count < 0 )
return count ;
BUG_ON ( size < count ) ;
while ( count > 0 ) {
unsigned pgsz = PAGE_SIZE - offset_in_page ( addr ) ;
if ( pgsz > count )
pgsz = count ;
if ( pgsz < PAGE_SIZE )
memset ( addr , 0 , pgsz ) ;
else
clear_page ( addr ) ;
addr + = pgsz ;
size - = pgsz ;
count - = pgsz ;
BUG_ON ( pgsz & 511 ) ;
sector + = pgsz / 512 ;
cond_resched ( ) ;
}
} while ( size ) ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( dax_clear_blocks ) ;
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static long dax_get_addr ( struct buffer_head * bh , void * * addr , unsigned blkbits )
{
unsigned long pfn ;
sector_t sector = bh - > b_blocknr < < ( blkbits - 9 ) ;
return bdev_direct_access ( bh - > b_bdev , sector , addr , & pfn , bh - > b_size ) ;
}
static void dax_new_buf ( void * addr , unsigned size , unsigned first , loff_t pos ,
loff_t end )
{
loff_t final = end - pos + first ; /* The final byte of the buffer */
if ( first > 0 )
memset ( addr , 0 , first ) ;
if ( final < size )
memset ( addr + final , 0 , size - final ) ;
}
static bool buffer_written ( struct buffer_head * bh )
{
return buffer_mapped ( bh ) & & ! buffer_unwritten ( bh ) ;
}
/*
* When ext4 encounters a hole , it returns without modifying the buffer_head
* which means that we can ' t trust b_size . To cope with this , we set b_state
* to 0 before calling get_block and , if any bit is set , we know we can trust
* b_size . Unfortunate , really , since ext4 knows precisely how long a hole is
* and would save us time calling get_block repeatedly .
*/
static bool buffer_size_valid ( struct buffer_head * bh )
{
return bh - > b_state ! = 0 ;
}
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static ssize_t dax_io ( struct inode * inode , struct iov_iter * iter ,
loff_t start , loff_t end , get_block_t get_block ,
struct buffer_head * bh )
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{
ssize_t retval = 0 ;
loff_t pos = start ;
loff_t max = start ;
loff_t bh_max = start ;
void * addr ;
bool hole = false ;
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if ( iov_iter_rw ( iter ) ! = WRITE )
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end = min ( end , i_size_read ( inode ) ) ;
while ( pos < end ) {
unsigned len ;
if ( pos = = max ) {
unsigned blkbits = inode - > i_blkbits ;
sector_t block = pos > > blkbits ;
unsigned first = pos - ( block < < blkbits ) ;
long size ;
if ( pos = = bh_max ) {
bh - > b_size = PAGE_ALIGN ( end - pos ) ;
bh - > b_state = 0 ;
retval = get_block ( inode , block , bh ,
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iov_iter_rw ( iter ) = = WRITE ) ;
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if ( retval )
break ;
if ( ! buffer_size_valid ( bh ) )
bh - > b_size = 1 < < blkbits ;
bh_max = pos - first + bh - > b_size ;
} else {
unsigned done = bh - > b_size -
( bh_max - ( pos - first ) ) ;
bh - > b_blocknr + = done > > blkbits ;
bh - > b_size - = done ;
}
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hole = iov_iter_rw ( iter ) ! = WRITE & & ! buffer_written ( bh ) ;
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if ( hole ) {
addr = NULL ;
size = bh - > b_size - first ;
} else {
retval = dax_get_addr ( bh , & addr , blkbits ) ;
if ( retval < 0 )
break ;
if ( buffer_unwritten ( bh ) | | buffer_new ( bh ) )
dax_new_buf ( addr , retval , first , pos ,
end ) ;
addr + = first ;
size = retval - first ;
}
max = min ( pos + size , end ) ;
}
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if ( iov_iter_rw ( iter ) = = WRITE )
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len = copy_from_iter_nocache ( addr , max - pos , iter ) ;
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else if ( ! hole )
len = copy_to_iter ( addr , max - pos , iter ) ;
else
len = iov_iter_zero ( max - pos , iter ) ;
if ( ! len )
break ;
pos + = len ;
addr + = len ;
}
return ( pos = = start ) ? retval : pos - start ;
}
/**
* dax_do_io - Perform I / O to a DAX file
* @ iocb : The control block for this I / O
* @ inode : The file which the I / O is directed at
* @ iter : The addresses to do I / O from or to
* @ pos : The file offset where the I / O starts
* @ get_block : The filesystem method used to translate file offsets to blocks
* @ end_io : A filesystem callback for I / O completion
* @ flags : See below
*
* This function uses the same locking scheme as do_blockdev_direct_IO :
* If @ flags has DIO_LOCKING set , we assume that the i_mutex is held by the
* caller for writes . For reads , we take and release the i_mutex ourselves .
* If DIO_LOCKING is not set , the filesystem takes care of its own locking .
* As with do_blockdev_direct_IO ( ) , we increment i_dio_count while the I / O
* is in progress .
*/
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ssize_t dax_do_io ( struct kiocb * iocb , struct inode * inode ,
struct iov_iter * iter , loff_t pos , get_block_t get_block ,
dio_iodone_t end_io , int flags )
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{
struct buffer_head bh ;
ssize_t retval = - EINVAL ;
loff_t end = pos + iov_iter_count ( iter ) ;
memset ( & bh , 0 , sizeof ( bh ) ) ;
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if ( ( flags & DIO_LOCKING ) & & iov_iter_rw ( iter ) = = READ ) {
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struct address_space * mapping = inode - > i_mapping ;
mutex_lock ( & inode - > i_mutex ) ;
retval = filemap_write_and_wait_range ( mapping , pos , end - 1 ) ;
if ( retval ) {
mutex_unlock ( & inode - > i_mutex ) ;
goto out ;
}
}
/* Protects against truncate */
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if ( ! ( flags & DIO_SKIP_DIO_COUNT ) )
inode_dio_begin ( inode ) ;
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retval = dax_io ( inode , iter , pos , end , get_block , & bh ) ;
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if ( ( flags & DIO_LOCKING ) & & iov_iter_rw ( iter ) = = READ )
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mutex_unlock ( & inode - > i_mutex ) ;
if ( ( retval > 0 ) & & end_io )
end_io ( iocb , pos , retval , bh . b_private ) ;
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if ( ! ( flags & DIO_SKIP_DIO_COUNT ) )
inode_dio_end ( inode ) ;
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out :
return retval ;
}
EXPORT_SYMBOL_GPL ( dax_do_io ) ;
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/*
* The user has performed a load from a hole in the file . Allocating
* a new page in the file would cause excessive storage usage for
* workloads with sparse files . We allocate a page cache page instead .
* We ' ll kick it out of the page cache if it ' s ever written to ,
* otherwise it will simply fall out of the page cache under memory
* pressure without ever having been dirtied .
*/
static int dax_load_hole ( struct address_space * mapping , struct page * page ,
struct vm_fault * vmf )
{
unsigned long size ;
struct inode * inode = mapping - > host ;
if ( ! page )
page = find_or_create_page ( mapping , vmf - > pgoff ,
GFP_KERNEL | __GFP_ZERO ) ;
if ( ! page )
return VM_FAULT_OOM ;
/* Recheck i_size under page lock to avoid truncate race */
size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > > PAGE_SHIFT ;
if ( vmf - > pgoff > = size ) {
unlock_page ( page ) ;
page_cache_release ( page ) ;
return VM_FAULT_SIGBUS ;
}
vmf - > page = page ;
return VM_FAULT_LOCKED ;
}
static int copy_user_bh ( struct page * to , struct buffer_head * bh ,
unsigned blkbits , unsigned long vaddr )
{
void * vfrom , * vto ;
if ( dax_get_addr ( bh , & vfrom , blkbits ) < 0 )
return - EIO ;
vto = kmap_atomic ( to ) ;
copy_user_page ( vto , vfrom , vaddr , to ) ;
kunmap_atomic ( vto ) ;
return 0 ;
}
static int dax_insert_mapping ( struct inode * inode , struct buffer_head * bh ,
struct vm_area_struct * vma , struct vm_fault * vmf )
{
struct address_space * mapping = inode - > i_mapping ;
sector_t sector = bh - > b_blocknr < < ( inode - > i_blkbits - 9 ) ;
unsigned long vaddr = ( unsigned long ) vmf - > virtual_address ;
void * addr ;
unsigned long pfn ;
pgoff_t size ;
int error ;
i_mmap_lock_read ( mapping ) ;
/*
* Check truncate didn ' t happen while we were allocating a block .
* If it did , this block may or may not be still allocated to the
* file . We can ' t tell the filesystem to free it because we can ' t
* take i_mutex here . In the worst case , the file still has blocks
* allocated past the end of the file .
*/
size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > > PAGE_SHIFT ;
if ( unlikely ( vmf - > pgoff > = size ) ) {
error = - EIO ;
goto out ;
}
error = bdev_direct_access ( bh - > b_bdev , sector , & addr , & pfn , bh - > b_size ) ;
if ( error < 0 )
goto out ;
if ( error < PAGE_SIZE ) {
error = - EIO ;
goto out ;
}
if ( buffer_unwritten ( bh ) | | buffer_new ( bh ) )
clear_page ( addr ) ;
error = vm_insert_mixed ( vma , vaddr , pfn ) ;
out :
i_mmap_unlock_read ( mapping ) ;
return error ;
}
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/**
* __dax_fault - handle a page fault on a DAX file
* @ vma : The virtual memory area where the fault occurred
* @ vmf : The description of the fault
* @ get_block : The filesystem method used to translate file offsets to blocks
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* @ complete_unwritten : The filesystem method used to convert unwritten blocks
* to written so the data written to them is exposed . This is required for
* required by write faults for filesystems that will return unwritten
* extent mappings from @ get_block , but it is optional for reads as
* dax_insert_mapping ( ) will always zero unwritten blocks . If the fs does
* not support unwritten extents , the it should pass NULL .
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*
* When a page fault occurs , filesystems may call this helper in their
* fault handler for DAX files . __dax_fault ( ) assumes the caller has done all
* the necessary locking for the page fault to proceed successfully .
*/
int __dax_fault ( struct vm_area_struct * vma , struct vm_fault * vmf ,
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get_block_t get_block , dax_iodone_t complete_unwritten )
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{
struct file * file = vma - > vm_file ;
struct address_space * mapping = file - > f_mapping ;
struct inode * inode = mapping - > host ;
struct page * page ;
struct buffer_head bh ;
unsigned long vaddr = ( unsigned long ) vmf - > virtual_address ;
unsigned blkbits = inode - > i_blkbits ;
sector_t block ;
pgoff_t size ;
int error ;
int major = 0 ;
size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > > PAGE_SHIFT ;
if ( vmf - > pgoff > = size )
return VM_FAULT_SIGBUS ;
memset ( & bh , 0 , sizeof ( bh ) ) ;
block = ( sector_t ) vmf - > pgoff < < ( PAGE_SHIFT - blkbits ) ;
bh . b_size = PAGE_SIZE ;
repeat :
page = find_get_page ( mapping , vmf - > pgoff ) ;
if ( page ) {
if ( ! lock_page_or_retry ( page , vma - > vm_mm , vmf - > flags ) ) {
page_cache_release ( page ) ;
return VM_FAULT_RETRY ;
}
if ( unlikely ( page - > mapping ! = mapping ) ) {
unlock_page ( page ) ;
page_cache_release ( page ) ;
goto repeat ;
}
size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > > PAGE_SHIFT ;
if ( unlikely ( vmf - > pgoff > = size ) ) {
/*
* We have a struct page covering a hole in the file
* from a read fault and we ' ve raced with a truncate
*/
error = - EIO ;
goto unlock_page ;
}
}
error = get_block ( inode , block , & bh , 0 ) ;
if ( ! error & & ( bh . b_size < PAGE_SIZE ) )
error = - EIO ; /* fs corruption? */
if ( error )
goto unlock_page ;
if ( ! buffer_mapped ( & bh ) & & ! buffer_unwritten ( & bh ) & & ! vmf - > cow_page ) {
if ( vmf - > flags & FAULT_FLAG_WRITE ) {
error = get_block ( inode , block , & bh , 1 ) ;
count_vm_event ( PGMAJFAULT ) ;
mem_cgroup_count_vm_event ( vma - > vm_mm , PGMAJFAULT ) ;
major = VM_FAULT_MAJOR ;
if ( ! error & & ( bh . b_size < PAGE_SIZE ) )
error = - EIO ;
if ( error )
goto unlock_page ;
} else {
return dax_load_hole ( mapping , page , vmf ) ;
}
}
if ( vmf - > cow_page ) {
struct page * new_page = vmf - > cow_page ;
if ( buffer_written ( & bh ) )
error = copy_user_bh ( new_page , & bh , blkbits , vaddr ) ;
else
clear_user_highpage ( new_page , vaddr ) ;
if ( error )
goto unlock_page ;
vmf - > page = page ;
if ( ! page ) {
i_mmap_lock_read ( mapping ) ;
/* Check we didn't race with truncate */
size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > >
PAGE_SHIFT ;
if ( vmf - > pgoff > = size ) {
i_mmap_unlock_read ( mapping ) ;
error = - EIO ;
goto out ;
}
}
return VM_FAULT_LOCKED ;
}
/* Check we didn't race with a read fault installing a new page */
if ( ! page & & major )
page = find_lock_page ( mapping , vmf - > pgoff ) ;
if ( page ) {
unmap_mapping_range ( mapping , vmf - > pgoff < < PAGE_SHIFT ,
PAGE_CACHE_SIZE , 0 ) ;
delete_from_page_cache ( page ) ;
unlock_page ( page ) ;
page_cache_release ( page ) ;
}
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/*
* If we successfully insert the new mapping over an unwritten extent ,
* we need to ensure we convert the unwritten extent . If there is an
* error inserting the mapping , the filesystem needs to leave it as
* unwritten to prevent exposure of the stale underlying data to
* userspace , but we still need to call the completion function so
* the private resources on the mapping buffer can be released . We
* indicate what the callback should do via the uptodate variable , same
* as for normal BH based IO completions .
*/
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error = dax_insert_mapping ( inode , & bh , vma , vmf ) ;
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if ( buffer_unwritten ( & bh ) ) {
if ( complete_unwritten )
complete_unwritten ( & bh , ! error ) ;
else
WARN_ON_ONCE ( ! ( vmf - > flags & FAULT_FLAG_WRITE ) ) ;
}
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out :
if ( error = = - ENOMEM )
return VM_FAULT_OOM | major ;
/* -EBUSY is fine, somebody else faulted on the same PTE */
if ( ( error < 0 ) & & ( error ! = - EBUSY ) )
return VM_FAULT_SIGBUS | major ;
return VM_FAULT_NOPAGE | major ;
unlock_page :
if ( page ) {
unlock_page ( page ) ;
page_cache_release ( page ) ;
}
goto out ;
}
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EXPORT_SYMBOL ( __dax_fault ) ;
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/**
* dax_fault - handle a page fault on a DAX file
* @ vma : The virtual memory area where the fault occurred
* @ vmf : The description of the fault
* @ get_block : The filesystem method used to translate file offsets to blocks
*
* When a page fault occurs , filesystems may call this helper in their
* fault handler for DAX files .
*/
int dax_fault ( struct vm_area_struct * vma , struct vm_fault * vmf ,
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get_block_t get_block , dax_iodone_t complete_unwritten )
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{
int result ;
struct super_block * sb = file_inode ( vma - > vm_file ) - > i_sb ;
if ( vmf - > flags & FAULT_FLAG_WRITE ) {
sb_start_pagefault ( sb ) ;
file_update_time ( vma - > vm_file ) ;
}
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result = __dax_fault ( vma , vmf , get_block , complete_unwritten ) ;
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if ( vmf - > flags & FAULT_FLAG_WRITE )
sb_end_pagefault ( sb ) ;
return result ;
}
EXPORT_SYMBOL_GPL ( dax_fault ) ;
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# ifdef CONFIG_TRANSPARENT_HUGEPAGE
/*
* The ' colour ' ( ie low bits ) within a PMD of a page offset . This comes up
* more often than one might expect in the below function .
*/
# define PG_PMD_COLOUR ((PMD_SIZE >> PAGE_SHIFT) - 1)
int __dax_pmd_fault ( struct vm_area_struct * vma , unsigned long address ,
pmd_t * pmd , unsigned int flags , get_block_t get_block ,
dax_iodone_t complete_unwritten )
{
struct file * file = vma - > vm_file ;
struct address_space * mapping = file - > f_mapping ;
struct inode * inode = mapping - > host ;
struct buffer_head bh ;
unsigned blkbits = inode - > i_blkbits ;
unsigned long pmd_addr = address & PMD_MASK ;
bool write = flags & FAULT_FLAG_WRITE ;
long length ;
void * kaddr ;
pgoff_t size , pgoff ;
sector_t block , sector ;
unsigned long pfn ;
int result = 0 ;
/* Fall back to PTEs if we're going to COW */
if ( write & & ! ( vma - > vm_flags & VM_SHARED ) )
return VM_FAULT_FALLBACK ;
/* If the PMD would extend outside the VMA */
if ( pmd_addr < vma - > vm_start )
return VM_FAULT_FALLBACK ;
if ( ( pmd_addr + PMD_SIZE ) > vma - > vm_end )
return VM_FAULT_FALLBACK ;
pgoff = ( ( pmd_addr - vma - > vm_start ) > > PAGE_SHIFT ) + vma - > vm_pgoff ;
size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > > PAGE_SHIFT ;
if ( pgoff > = size )
return VM_FAULT_SIGBUS ;
/* If the PMD would cover blocks out of the file */
if ( ( pgoff | PG_PMD_COLOUR ) > = size )
return VM_FAULT_FALLBACK ;
memset ( & bh , 0 , sizeof ( bh ) ) ;
block = ( sector_t ) pgoff < < ( PAGE_SHIFT - blkbits ) ;
bh . b_size = PMD_SIZE ;
length = get_block ( inode , block , & bh , write ) ;
if ( length )
return VM_FAULT_SIGBUS ;
i_mmap_lock_read ( mapping ) ;
/*
* If the filesystem isn ' t willing to tell us the length of a hole ,
* just fall back to PTEs . Calling get_block 512 times in a loop
* would be silly .
*/
if ( ! buffer_size_valid ( & bh ) | | bh . b_size < PMD_SIZE )
goto fallback ;
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/*
* If a truncate happened while we were allocating blocks , we may
* leave blocks allocated to the file that are beyond EOF . We can ' t
* take i_mutex here , so just leave them hanging ; they ' ll be freed
* when the file is deleted .
*/
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size = ( i_size_read ( inode ) + PAGE_SIZE - 1 ) > > PAGE_SHIFT ;
if ( pgoff > = size ) {
result = VM_FAULT_SIGBUS ;
goto out ;
}
if ( ( pgoff | PG_PMD_COLOUR ) > = size )
goto fallback ;
if ( is_huge_zero_pmd ( * pmd ) )
unmap_mapping_range ( mapping , pgoff < < PAGE_SHIFT , PMD_SIZE , 0 ) ;
if ( ! write & & ! buffer_mapped ( & bh ) & & buffer_uptodate ( & bh ) ) {
bool set ;
spinlock_t * ptl ;
struct mm_struct * mm = vma - > vm_mm ;
struct page * zero_page = get_huge_zero_page ( ) ;
if ( unlikely ( ! zero_page ) )
goto fallback ;
ptl = pmd_lock ( mm , pmd ) ;
set = set_huge_zero_page ( NULL , mm , vma , pmd_addr , pmd ,
zero_page ) ;
spin_unlock ( ptl ) ;
result = VM_FAULT_NOPAGE ;
} else {
sector = bh . b_blocknr < < ( blkbits - 9 ) ;
length = bdev_direct_access ( bh . b_bdev , sector , & kaddr , & pfn ,
bh . b_size ) ;
if ( length < 0 ) {
result = VM_FAULT_SIGBUS ;
goto out ;
}
if ( ( length < PMD_SIZE ) | | ( pfn & PG_PMD_COLOUR ) )
goto fallback ;
if ( buffer_unwritten ( & bh ) | | buffer_new ( & bh ) ) {
int i ;
for ( i = 0 ; i < PTRS_PER_PMD ; i + + )
clear_page ( kaddr + i * PAGE_SIZE ) ;
count_vm_event ( PGMAJFAULT ) ;
mem_cgroup_count_vm_event ( vma - > vm_mm , PGMAJFAULT ) ;
result | = VM_FAULT_MAJOR ;
}
result | = vmf_insert_pfn_pmd ( vma , address , pmd , pfn , write ) ;
}
out :
i_mmap_unlock_read ( mapping ) ;
if ( buffer_unwritten ( & bh ) )
complete_unwritten ( & bh , ! ( result & VM_FAULT_ERROR ) ) ;
return result ;
fallback :
count_vm_event ( THP_FAULT_FALLBACK ) ;
result = VM_FAULT_FALLBACK ;
goto out ;
}
EXPORT_SYMBOL_GPL ( __dax_pmd_fault ) ;
/**
* dax_pmd_fault - handle a PMD fault on a DAX file
* @ vma : The virtual memory area where the fault occurred
* @ vmf : The description of the fault
* @ get_block : The filesystem method used to translate file offsets to blocks
*
* When a page fault occurs , filesystems may call this helper in their
* pmd_fault handler for DAX files .
*/
int dax_pmd_fault ( struct vm_area_struct * vma , unsigned long address ,
pmd_t * pmd , unsigned int flags , get_block_t get_block ,
dax_iodone_t complete_unwritten )
{
int result ;
struct super_block * sb = file_inode ( vma - > vm_file ) - > i_sb ;
if ( flags & FAULT_FLAG_WRITE ) {
sb_start_pagefault ( sb ) ;
file_update_time ( vma - > vm_file ) ;
}
result = __dax_pmd_fault ( vma , address , pmd , flags , get_block ,
complete_unwritten ) ;
if ( flags & FAULT_FLAG_WRITE )
sb_end_pagefault ( sb ) ;
return result ;
}
EXPORT_SYMBOL_GPL ( dax_pmd_fault ) ;
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# endif /* CONFIG_TRANSPARENT_HUGEPAGE */
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/**
* dax_pfn_mkwrite - handle first write to DAX page
* @ vma : The virtual memory area where the fault occurred
* @ vmf : The description of the fault
*
*/
int dax_pfn_mkwrite ( struct vm_area_struct * vma , struct vm_fault * vmf )
{
struct super_block * sb = file_inode ( vma - > vm_file ) - > i_sb ;
sb_start_pagefault ( sb ) ;
file_update_time ( vma - > vm_file ) ;
sb_end_pagefault ( sb ) ;
return VM_FAULT_NOPAGE ;
}
EXPORT_SYMBOL_GPL ( dax_pfn_mkwrite ) ;
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/**
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* dax_zero_page_range - zero a range within a page of a DAX file
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* @ inode : The file being truncated
* @ from : The file offset that is being truncated to
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* @ length : The number of bytes to zero
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* @ get_block : The filesystem method used to translate file offsets to blocks
*
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* This function can be called by a filesystem when it is zeroing part of a
* page in a DAX file . This is intended for hole - punch operations . If
* you are truncating a file , the helper function dax_truncate_page ( ) may be
* more convenient .
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*
* We work in terms of PAGE_CACHE_SIZE here for commonality with
* block_truncate_page ( ) , but we could go down to PAGE_SIZE if the filesystem
* took care of disposing of the unnecessary blocks . Even if the filesystem
* block size is smaller than PAGE_SIZE , we have to zero the rest of the page
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* since the file might be mmapped .
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*/
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int dax_zero_page_range ( struct inode * inode , loff_t from , unsigned length ,
get_block_t get_block )
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{
struct buffer_head bh ;
pgoff_t index = from > > PAGE_CACHE_SHIFT ;
unsigned offset = from & ( PAGE_CACHE_SIZE - 1 ) ;
int err ;
/* Block boundary? Nothing to do */
if ( ! length )
return 0 ;
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BUG_ON ( ( offset + length ) > PAGE_CACHE_SIZE ) ;
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memset ( & bh , 0 , sizeof ( bh ) ) ;
bh . b_size = PAGE_CACHE_SIZE ;
err = get_block ( inode , index , & bh , 0 ) ;
if ( err < 0 )
return err ;
if ( buffer_written ( & bh ) ) {
void * addr ;
err = dax_get_addr ( & bh , & addr , inode - > i_blkbits ) ;
if ( err < 0 )
return err ;
memset ( addr + offset , 0 , length ) ;
}
return 0 ;
}
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EXPORT_SYMBOL_GPL ( dax_zero_page_range ) ;
/**
* dax_truncate_page - handle a partial page being truncated in a DAX file
* @ inode : The file being truncated
* @ from : The file offset that is being truncated to
* @ get_block : The filesystem method used to translate file offsets to blocks
*
* Similar to block_truncate_page ( ) , this function can be called by a
* filesystem when it is truncating a DAX file to handle the partial page .
*
* We work in terms of PAGE_CACHE_SIZE here for commonality with
* block_truncate_page ( ) , but we could go down to PAGE_SIZE if the filesystem
* took care of disposing of the unnecessary blocks . Even if the filesystem
* block size is smaller than PAGE_SIZE , we have to zero the rest of the page
* since the file might be mmapped .
*/
int dax_truncate_page ( struct inode * inode , loff_t from , get_block_t get_block )
{
unsigned length = PAGE_CACHE_ALIGN ( from ) - from ;
return dax_zero_page_range ( inode , from , length , get_block ) ;
}
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EXPORT_SYMBOL_GPL ( dax_truncate_page ) ;