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/*
* " splice " : joining two ropes together by interweaving their strands .
*
* This is the " extended pipe " functionality , where a pipe is used as
* an arbitrary in - memory buffer . Think of a pipe as a small kernel
* buffer that you can use to transfer data from one end to the other .
*
* The traditional unix read / write is extended with a " splice() " operation
* that transfers data buffers to or from a pipe buffer .
*
* Named by Larry McVoy , original implementation from Linus , extended by
* Jens to support splicing to files and fixing the initial implementation
* bugs .
*
* Copyright ( C ) 2005 Jens Axboe < axboe @ suse . de >
* Copyright ( C ) 2005 Linus Torvalds < torvalds @ osdl . org >
*
*/
# include <linux/fs.h>
# include <linux/file.h>
# include <linux/pagemap.h>
# include <linux/pipe_fs_i.h>
# include <linux/mm_inline.h>
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# include <linux/swap.h>
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# include <linux/writeback.h>
# include <linux/buffer_head.h>
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# include <linux/module.h>
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# include <linux/syscalls.h>
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/*
* Passed to the actors
*/
struct splice_desc {
unsigned int len , total_len ; /* current and remaining length */
unsigned int flags ; /* splice flags */
struct file * file ; /* file to read/write */
loff_t pos ; /* file position */
} ;
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/*
* Attempt to steal a page from a pipe buffer . This should perhaps go into
* a vm helper function , it ' s already simplified quite a bit by the
* addition of remove_mapping ( ) . If success is returned , the caller may
* attempt to reuse this page for another destination .
*/
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static int page_cache_pipe_buf_steal ( struct pipe_inode_info * info ,
struct pipe_buffer * buf )
{
struct page * page = buf - > page ;
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struct address_space * mapping = page_mapping ( page ) ;
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WARN_ON ( ! PageLocked ( page ) ) ;
WARN_ON ( ! PageUptodate ( page ) ) ;
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if ( PagePrivate ( page ) )
try_to_release_page ( page , mapping_gfp_mask ( mapping ) ) ;
if ( ! remove_mapping ( mapping , page ) )
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return 1 ;
if ( PageLRU ( page ) ) {
struct zone * zone = page_zone ( page ) ;
spin_lock_irq ( & zone - > lru_lock ) ;
BUG_ON ( ! PageLRU ( page ) ) ;
__ClearPageLRU ( page ) ;
del_page_from_lru ( zone , page ) ;
spin_unlock_irq ( & zone - > lru_lock ) ;
}
return 0 ;
}
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static void page_cache_pipe_buf_release ( struct pipe_inode_info * info ,
struct pipe_buffer * buf )
{
page_cache_release ( buf - > page ) ;
buf - > page = NULL ;
}
static void * page_cache_pipe_buf_map ( struct file * file ,
struct pipe_inode_info * info ,
struct pipe_buffer * buf )
{
struct page * page = buf - > page ;
lock_page ( page ) ;
if ( ! PageUptodate ( page ) ) {
unlock_page ( page ) ;
return ERR_PTR ( - EIO ) ;
}
if ( ! page - > mapping ) {
unlock_page ( page ) ;
return ERR_PTR ( - ENODATA ) ;
}
return kmap ( buf - > page ) ;
}
static void page_cache_pipe_buf_unmap ( struct pipe_inode_info * info ,
struct pipe_buffer * buf )
{
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unlock_page ( buf - > page ) ;
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kunmap ( buf - > page ) ;
}
static struct pipe_buf_operations page_cache_pipe_buf_ops = {
. can_merge = 0 ,
. map = page_cache_pipe_buf_map ,
. unmap = page_cache_pipe_buf_unmap ,
. release = page_cache_pipe_buf_release ,
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. steal = page_cache_pipe_buf_steal ,
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} ;
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/*
* Pipe output worker . This sets up our pipe format with the page cache
* pipe buffer operations . Otherwise very similar to the regular pipe_writev ( ) .
*/
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static ssize_t move_to_pipe ( struct inode * inode , struct page * * pages ,
int nr_pages , unsigned long offset ,
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unsigned long len , unsigned int flags )
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{
struct pipe_inode_info * info ;
int ret , do_wakeup , i ;
ret = 0 ;
do_wakeup = 0 ;
i = 0 ;
mutex_lock ( PIPE_MUTEX ( * inode ) ) ;
info = inode - > i_pipe ;
for ( ; ; ) {
int bufs ;
if ( ! PIPE_READERS ( * inode ) ) {
send_sig ( SIGPIPE , current , 0 ) ;
if ( ! ret )
ret = - EPIPE ;
break ;
}
bufs = info - > nrbufs ;
if ( bufs < PIPE_BUFFERS ) {
int newbuf = ( info - > curbuf + bufs ) & ( PIPE_BUFFERS - 1 ) ;
struct pipe_buffer * buf = info - > bufs + newbuf ;
struct page * page = pages [ i + + ] ;
unsigned long this_len ;
this_len = PAGE_CACHE_SIZE - offset ;
if ( this_len > len )
this_len = len ;
buf - > page = page ;
buf - > offset = offset ;
buf - > len = this_len ;
buf - > ops = & page_cache_pipe_buf_ops ;
info - > nrbufs = + + bufs ;
do_wakeup = 1 ;
ret + = this_len ;
len - = this_len ;
offset = 0 ;
if ( ! - - nr_pages )
break ;
if ( ! len )
break ;
if ( bufs < PIPE_BUFFERS )
continue ;
break ;
}
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if ( flags & SPLICE_F_NONBLOCK ) {
if ( ! ret )
ret = - EAGAIN ;
break ;
}
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if ( signal_pending ( current ) ) {
if ( ! ret )
ret = - ERESTARTSYS ;
break ;
}
if ( do_wakeup ) {
wake_up_interruptible_sync ( PIPE_WAIT ( * inode ) ) ;
kill_fasync ( PIPE_FASYNC_READERS ( * inode ) , SIGIO ,
POLL_IN ) ;
do_wakeup = 0 ;
}
PIPE_WAITING_WRITERS ( * inode ) + + ;
pipe_wait ( inode ) ;
PIPE_WAITING_WRITERS ( * inode ) - - ;
}
mutex_unlock ( PIPE_MUTEX ( * inode ) ) ;
if ( do_wakeup ) {
wake_up_interruptible ( PIPE_WAIT ( * inode ) ) ;
kill_fasync ( PIPE_FASYNC_READERS ( * inode ) , SIGIO , POLL_IN ) ;
}
while ( i < nr_pages )
page_cache_release ( pages [ i + + ] ) ;
return ret ;
}
static int __generic_file_splice_read ( struct file * in , struct inode * pipe ,
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size_t len , unsigned int flags )
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{
struct address_space * mapping = in - > f_mapping ;
unsigned int offset , nr_pages ;
struct page * pages [ PIPE_BUFFERS ] , * shadow [ PIPE_BUFFERS ] ;
struct page * page ;
pgoff_t index , pidx ;
int i , j ;
index = in - > f_pos > > PAGE_CACHE_SHIFT ;
offset = in - > f_pos & ~ PAGE_CACHE_MASK ;
nr_pages = ( len + offset + PAGE_CACHE_SIZE - 1 ) > > PAGE_CACHE_SHIFT ;
if ( nr_pages > PIPE_BUFFERS )
nr_pages = PIPE_BUFFERS ;
/*
* initiate read - ahead on this page range
*/
do_page_cache_readahead ( mapping , in , index , nr_pages ) ;
/*
* Get as many pages from the page cache as possible . .
* Start IO on the page cache entries we create ( we
* can assume that any pre - existing ones we find have
* already had IO started on them ) .
*/
i = find_get_pages ( mapping , index , nr_pages , pages ) ;
/*
* common case - we found all pages and they are contiguous ,
* kick them off
*/
if ( i & & ( pages [ i - 1 ] - > index = = index + i - 1 ) )
goto splice_them ;
/*
* fill shadow [ ] with pages at the right locations , so we only
* have to fill holes
*/
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memset ( shadow , 0 , nr_pages * sizeof ( struct page * ) ) ;
for ( j = 0 ; j < i ; j + + )
shadow [ pages [ j ] - > index - index ] = pages [ j ] ;
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/*
* now fill in the holes
*/
for ( i = 0 , pidx = index ; i < nr_pages ; pidx + + , i + + ) {
int error ;
if ( shadow [ i ] )
continue ;
/*
* no page there , look one up / create it
*/
page = find_or_create_page ( mapping , pidx ,
mapping_gfp_mask ( mapping ) ) ;
if ( ! page )
break ;
if ( PageUptodate ( page ) )
unlock_page ( page ) ;
else {
error = mapping - > a_ops - > readpage ( in , page ) ;
if ( unlikely ( error ) ) {
page_cache_release ( page ) ;
break ;
}
}
shadow [ i ] = page ;
}
if ( ! i ) {
for ( i = 0 ; i < nr_pages ; i + + ) {
if ( shadow [ i ] )
page_cache_release ( shadow [ i ] ) ;
}
return 0 ;
}
memcpy ( pages , shadow , i * sizeof ( struct page * ) ) ;
/*
* Now we splice them into the pipe . .
*/
splice_them :
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return move_to_pipe ( pipe , pages , i , offset , len , flags ) ;
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}
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/**
* generic_file_splice_read - splice data from file to a pipe
* @ in : file to splice from
* @ pipe : pipe to splice to
* @ len : number of bytes to splice
* @ flags : splice modifier flags
*
* Will read pages from given file and fill them into a pipe .
*
*/
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ssize_t generic_file_splice_read ( struct file * in , struct inode * pipe ,
size_t len , unsigned int flags )
{
ssize_t spliced ;
int ret ;
ret = 0 ;
spliced = 0 ;
while ( len ) {
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ret = __generic_file_splice_read ( in , pipe , len , flags ) ;
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if ( ret < = 0 )
break ;
in - > f_pos + = ret ;
len - = ret ;
spliced + = ret ;
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if ( ! ( flags & SPLICE_F_NONBLOCK ) )
continue ;
ret = - EAGAIN ;
break ;
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}
if ( spliced )
return spliced ;
return ret ;
}
/*
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* Send ' sd - > len ' bytes to socket from ' sd - > file ' at position ' sd - > pos '
* using sendpage ( ) .
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*/
static int pipe_to_sendpage ( struct pipe_inode_info * info ,
struct pipe_buffer * buf , struct splice_desc * sd )
{
struct file * file = sd - > file ;
loff_t pos = sd - > pos ;
unsigned int offset ;
ssize_t ret ;
void * ptr ;
/*
* sub - optimal , but we are limited by the pipe - > map . we don ' t
* need a kmap ' ed buffer here , we just want to make sure we
* have the page pinned if the pipe page originates from the
* page cache
*/
ptr = buf - > ops - > map ( file , info , buf ) ;
if ( IS_ERR ( ptr ) )
return PTR_ERR ( ptr ) ;
offset = pos & ~ PAGE_CACHE_MASK ;
ret = file - > f_op - > sendpage ( file , buf - > page , offset , sd - > len , & pos ,
sd - > len < sd - > total_len ) ;
buf - > ops - > unmap ( info , buf ) ;
if ( ret = = sd - > len )
return 0 ;
return - EIO ;
}
/*
* This is a little more tricky than the file - > pipe splicing . There are
* basically three cases :
*
* - Destination page already exists in the address space and there
* are users of it . For that case we have no other option that
* copying the data . Tough luck .
* - Destination page already exists in the address space , but there
* are no users of it . Make sure it ' s uptodate , then drop it . Fall
* through to last case .
* - Destination page does not exist , we can add the pipe page to
* the page cache and avoid the copy .
*
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* If asked to move pages to the output file ( SPLICE_F_MOVE is set in
* sd - > flags ) , we attempt to migrate pages from the pipe to the output
* file address space page cache . This is possible if no one else has
* the pipe page referenced outside of the pipe and page cache . If
* SPLICE_F_MOVE isn ' t set , or we cannot move the page , we simply create
* a new page in the output file page cache and fill / dirty that .
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*/
static int pipe_to_file ( struct pipe_inode_info * info , struct pipe_buffer * buf ,
struct splice_desc * sd )
{
struct file * file = sd - > file ;
struct address_space * mapping = file - > f_mapping ;
unsigned int offset ;
struct page * page ;
pgoff_t index ;
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char * src ;
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int ret , stolen ;
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/*
* after this , page will be locked and unmapped
*/
src = buf - > ops - > map ( file , info , buf ) ;
if ( IS_ERR ( src ) )
return PTR_ERR ( src ) ;
index = sd - > pos > > PAGE_CACHE_SHIFT ;
offset = sd - > pos & ~ PAGE_CACHE_MASK ;
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stolen = 0 ;
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/*
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* reuse buf page , if SPLICE_F_MOVE is set
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*/
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if ( sd - > flags & SPLICE_F_MOVE ) {
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/*
* If steal succeeds , buf - > page is now pruned from the vm
* side ( LRU and page cache ) and we can reuse it .
*/
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if ( buf - > ops - > steal ( info , buf ) )
goto find_page ;
page = buf - > page ;
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stolen = 1 ;
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if ( add_to_page_cache_lru ( page , mapping , index ,
mapping_gfp_mask ( mapping ) ) )
goto find_page ;
} else {
find_page :
ret = - ENOMEM ;
page = find_or_create_page ( mapping , index ,
mapping_gfp_mask ( mapping ) ) ;
if ( ! page )
goto out ;
/*
* If the page is uptodate , it is also locked . If it isn ' t
* uptodate , we can mark it uptodate if we are filling the
* full page . Otherwise we need to read it in first . . .
*/
if ( ! PageUptodate ( page ) ) {
if ( sd - > len < PAGE_CACHE_SIZE ) {
ret = mapping - > a_ops - > readpage ( file , page ) ;
if ( unlikely ( ret ) )
goto out ;
lock_page ( page ) ;
if ( ! PageUptodate ( page ) ) {
/*
* page got invalidated , repeat
*/
if ( ! page - > mapping ) {
unlock_page ( page ) ;
page_cache_release ( page ) ;
goto find_page ;
}
ret = - EIO ;
goto out ;
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}
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} else {
WARN_ON ( ! PageLocked ( page ) ) ;
SetPageUptodate ( page ) ;
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}
}
}
ret = mapping - > a_ops - > prepare_write ( file , page , 0 , sd - > len ) ;
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if ( ret = = AOP_TRUNCATED_PAGE ) {
page_cache_release ( page ) ;
goto find_page ;
} else if ( ret )
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goto out ;
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if ( ! stolen ) {
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char * dst = kmap_atomic ( page , KM_USER0 ) ;
memcpy ( dst + offset , src + buf - > offset , sd - > len ) ;
flush_dcache_page ( page ) ;
kunmap_atomic ( dst , KM_USER0 ) ;
}
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ret = mapping - > a_ops - > commit_write ( file , page , 0 , sd - > len ) ;
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if ( ret = = AOP_TRUNCATED_PAGE ) {
page_cache_release ( page ) ;
goto find_page ;
} else if ( ret )
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goto out ;
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balance_dirty_pages_ratelimited ( mapping ) ;
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out :
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if ( ! stolen ) {
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page_cache_release ( page ) ;
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unlock_page ( page ) ;
}
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buf - > ops - > unmap ( info , buf ) ;
return ret ;
}
typedef int ( splice_actor ) ( struct pipe_inode_info * , struct pipe_buffer * ,
struct splice_desc * ) ;
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/*
* Pipe input worker . Most of this logic works like a regular pipe , the
* key here is the ' actor ' worker passed in that actually moves the data
* to the wanted destination . See pipe_to_file / pipe_to_sendpage above .
*/
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static ssize_t move_from_pipe ( struct inode * inode , struct file * out ,
size_t len , unsigned int flags ,
splice_actor * actor )
{
struct pipe_inode_info * info ;
int ret , do_wakeup , err ;
struct splice_desc sd ;
ret = 0 ;
do_wakeup = 0 ;
sd . total_len = len ;
sd . flags = flags ;
sd . file = out ;
sd . pos = out - > f_pos ;
mutex_lock ( PIPE_MUTEX ( * inode ) ) ;
info = inode - > i_pipe ;
for ( ; ; ) {
int bufs = info - > nrbufs ;
if ( bufs ) {
int curbuf = info - > curbuf ;
struct pipe_buffer * buf = info - > bufs + curbuf ;
struct pipe_buf_operations * ops = buf - > ops ;
sd . len = buf - > len ;
if ( sd . len > sd . total_len )
sd . len = sd . total_len ;
err = actor ( info , buf , & sd ) ;
if ( err ) {
if ( ! ret & & err ! = - ENODATA )
ret = err ;
break ;
}
ret + = sd . len ;
buf - > offset + = sd . len ;
buf - > len - = sd . len ;
if ( ! buf - > len ) {
buf - > ops = NULL ;
ops - > release ( info , buf ) ;
curbuf = ( curbuf + 1 ) & ( PIPE_BUFFERS - 1 ) ;
info - > curbuf = curbuf ;
info - > nrbufs = - - bufs ;
do_wakeup = 1 ;
}
sd . pos + = sd . len ;
sd . total_len - = sd . len ;
if ( ! sd . total_len )
break ;
}
if ( bufs )
continue ;
if ( ! PIPE_WRITERS ( * inode ) )
break ;
if ( ! PIPE_WAITING_WRITERS ( * inode ) ) {
if ( ret )
break ;
}
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if ( flags & SPLICE_F_NONBLOCK ) {
if ( ! ret )
ret = - EAGAIN ;
break ;
}
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if ( signal_pending ( current ) ) {
if ( ! ret )
ret = - ERESTARTSYS ;
break ;
}
if ( do_wakeup ) {
wake_up_interruptible_sync ( PIPE_WAIT ( * inode ) ) ;
kill_fasync ( PIPE_FASYNC_WRITERS ( * inode ) , SIGIO , POLL_OUT ) ;
do_wakeup = 0 ;
}
pipe_wait ( inode ) ;
}
mutex_unlock ( PIPE_MUTEX ( * inode ) ) ;
if ( do_wakeup ) {
wake_up_interruptible ( PIPE_WAIT ( * inode ) ) ;
kill_fasync ( PIPE_FASYNC_WRITERS ( * inode ) , SIGIO , POLL_OUT ) ;
}
mutex_lock ( & out - > f_mapping - > host - > i_mutex ) ;
out - > f_pos = sd . pos ;
mutex_unlock ( & out - > f_mapping - > host - > i_mutex ) ;
return ret ;
}
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/**
* generic_file_splice_write - splice data from a pipe to a file
* @ inode : pipe inode
* @ out : file to write to
* @ len : number of bytes to splice
* @ flags : splice modifier flags
*
* Will either move or copy pages ( determined by @ flags options ) from
* the given pipe inode to the given file .
*
*/
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ssize_t generic_file_splice_write ( struct inode * inode , struct file * out ,
size_t len , unsigned int flags )
{
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struct address_space * mapping = out - > f_mapping ;
ssize_t ret = move_from_pipe ( inode , out , len , flags , pipe_to_file ) ;
/*
* if file or inode is SYNC and we actually wrote some data , sync it
*/
if ( unlikely ( ( out - > f_flags & O_SYNC ) | | IS_SYNC ( mapping - > host ) )
& & ret > 0 ) {
struct inode * inode = mapping - > host ;
int err ;
mutex_lock ( & inode - > i_mutex ) ;
err = generic_osync_inode ( mapping - > host , mapping ,
OSYNC_METADATA | OSYNC_DATA ) ;
mutex_unlock ( & inode - > i_mutex ) ;
if ( err )
ret = err ;
}
return ret ;
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}
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/**
* generic_splice_sendpage - splice data from a pipe to a socket
* @ inode : pipe inode
* @ out : socket to write to
* @ len : number of bytes to splice
* @ flags : splice modifier flags
*
* Will send @ len bytes from the pipe to a network socket . No data copying
* is involved .
*
*/
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ssize_t generic_splice_sendpage ( struct inode * inode , struct file * out ,
size_t len , unsigned int flags )
{
return move_from_pipe ( inode , out , len , flags , pipe_to_sendpage ) ;
}
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EXPORT_SYMBOL ( generic_file_splice_write ) ;
EXPORT_SYMBOL ( generic_file_splice_read ) ;
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/*
* Attempt to initiate a splice from pipe to file .
*/
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static long do_splice_from ( struct inode * pipe , struct file * out , size_t len ,
unsigned int flags )
{
loff_t pos ;
int ret ;
if ( ! out - > f_op | | ! out - > f_op - > splice_write )
return - EINVAL ;
if ( ! ( out - > f_mode & FMODE_WRITE ) )
return - EBADF ;
pos = out - > f_pos ;
ret = rw_verify_area ( WRITE , out , & pos , len ) ;
if ( unlikely ( ret < 0 ) )
return ret ;
return out - > f_op - > splice_write ( pipe , out , len , flags ) ;
}
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/*
* Attempt to initiate a splice from a file to a pipe .
*/
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static long do_splice_to ( struct file * in , struct inode * pipe , size_t len ,
unsigned int flags )
{
loff_t pos , isize , left ;
int ret ;
if ( ! in - > f_op | | ! in - > f_op - > splice_read )
return - EINVAL ;
if ( ! ( in - > f_mode & FMODE_READ ) )
return - EBADF ;
pos = in - > f_pos ;
ret = rw_verify_area ( READ , in , & pos , len ) ;
if ( unlikely ( ret < 0 ) )
return ret ;
isize = i_size_read ( in - > f_mapping - > host ) ;
if ( unlikely ( in - > f_pos > = isize ) )
return 0 ;
left = isize - in - > f_pos ;
if ( left < len )
len = left ;
return in - > f_op - > splice_read ( in , pipe , len , flags ) ;
}
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/*
* Determine where to splice to / from .
*/
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static long do_splice ( struct file * in , struct file * out , size_t len ,
unsigned int flags )
{
struct inode * pipe ;
pipe = in - > f_dentry - > d_inode ;
if ( pipe - > i_pipe )
return do_splice_from ( pipe , out , len , flags ) ;
pipe = out - > f_dentry - > d_inode ;
if ( pipe - > i_pipe )
return do_splice_to ( in , pipe , len , flags ) ;
return - EINVAL ;
}
asmlinkage long sys_splice ( int fdin , int fdout , size_t len , unsigned int flags )
{
long error ;
struct file * in , * out ;
int fput_in , fput_out ;
if ( unlikely ( ! len ) )
return 0 ;
error = - EBADF ;
in = fget_light ( fdin , & fput_in ) ;
if ( in ) {
if ( in - > f_mode & FMODE_READ ) {
out = fget_light ( fdout , & fput_out ) ;
if ( out ) {
if ( out - > f_mode & FMODE_WRITE )
error = do_splice ( in , out , len , flags ) ;
fput_light ( out , fput_out ) ;
}
}
fput_light ( in , fput_in ) ;
}
return error ;
}