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/*
* linux / fs / pnode . c
*
* ( C ) Copyright IBM Corporation 2005.
* Released under GPL v2 .
* Author : Ram Pai ( linuxram @ us . ibm . com )
*
*/
# include <linux/namespace.h>
# include <linux/mount.h>
# include <linux/fs.h>
# include "pnode.h"
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/* return the next shared peer mount of @p */
static inline struct vfsmount * next_peer ( struct vfsmount * p )
{
return list_entry ( p - > mnt_share . next , struct vfsmount , mnt_share ) ;
}
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static inline struct vfsmount * first_slave ( struct vfsmount * p )
{
return list_entry ( p - > mnt_slave_list . next , struct vfsmount , mnt_slave ) ;
}
static inline struct vfsmount * next_slave ( struct vfsmount * p )
{
return list_entry ( p - > mnt_slave . next , struct vfsmount , mnt_slave ) ;
}
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static int do_make_slave ( struct vfsmount * mnt )
{
struct vfsmount * peer_mnt = mnt , * master = mnt - > mnt_master ;
struct vfsmount * slave_mnt ;
/*
* slave ' mnt ' to a peer mount that has the
* same root dentry . If none is available than
* slave it to anything that is available .
*/
while ( ( peer_mnt = next_peer ( peer_mnt ) ) ! = mnt & &
peer_mnt - > mnt_root ! = mnt - > mnt_root ) ;
if ( peer_mnt = = mnt ) {
peer_mnt = next_peer ( mnt ) ;
if ( peer_mnt = = mnt )
peer_mnt = NULL ;
}
list_del_init ( & mnt - > mnt_share ) ;
if ( peer_mnt )
master = peer_mnt ;
if ( master ) {
list_for_each_entry ( slave_mnt , & mnt - > mnt_slave_list , mnt_slave )
slave_mnt - > mnt_master = master ;
list_del ( & mnt - > mnt_slave ) ;
list_add ( & mnt - > mnt_slave , & master - > mnt_slave_list ) ;
list_splice ( & mnt - > mnt_slave_list , master - > mnt_slave_list . prev ) ;
INIT_LIST_HEAD ( & mnt - > mnt_slave_list ) ;
} else {
struct list_head * p = & mnt - > mnt_slave_list ;
while ( ! list_empty ( p ) ) {
slave_mnt = list_entry ( p - > next ,
struct vfsmount , mnt_slave ) ;
list_del_init ( & slave_mnt - > mnt_slave ) ;
slave_mnt - > mnt_master = NULL ;
}
}
mnt - > mnt_master = master ;
CLEAR_MNT_SHARED ( mnt ) ;
INIT_LIST_HEAD ( & mnt - > mnt_slave_list ) ;
return 0 ;
}
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void change_mnt_propagation ( struct vfsmount * mnt , int type )
{
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if ( type = = MS_SHARED ) {
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set_mnt_shared ( mnt ) ;
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return ;
}
do_make_slave ( mnt ) ;
if ( type ! = MS_SLAVE ) {
list_del_init ( & mnt - > mnt_slave ) ;
mnt - > mnt_master = NULL ;
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if ( type = = MS_UNBINDABLE )
mnt - > mnt_flags | = MNT_UNBINDABLE ;
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}
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}
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/*
* get the next mount in the propagation tree .
* @ m : the mount seen last
* @ origin : the original mount from where the tree walk initiated
*/
static struct vfsmount * propagation_next ( struct vfsmount * m ,
struct vfsmount * origin )
{
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/* are there any slaves of this mount? */
if ( ! IS_MNT_NEW ( m ) & & ! list_empty ( & m - > mnt_slave_list ) )
return first_slave ( m ) ;
while ( 1 ) {
struct vfsmount * next ;
struct vfsmount * master = m - > mnt_master ;
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if ( master = = origin - > mnt_master ) {
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next = next_peer ( m ) ;
return ( ( next = = origin ) ? NULL : next ) ;
} else if ( m - > mnt_slave . next ! = & master - > mnt_slave_list )
return next_slave ( m ) ;
/* back at master */
m = master ;
}
}
/*
* return the source mount to be used for cloning
*
* @ dest the current destination mount
* @ last_dest the last seen destination mount
* @ last_src the last seen source mount
* @ type return CL_SLAVE if the new mount has to be
* cloned as a slave .
*/
static struct vfsmount * get_source ( struct vfsmount * dest ,
struct vfsmount * last_dest ,
struct vfsmount * last_src ,
int * type )
{
struct vfsmount * p_last_src = NULL ;
struct vfsmount * p_last_dest = NULL ;
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* type = CL_PROPAGATION ;
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if ( IS_MNT_SHARED ( dest ) )
* type | = CL_MAKE_SHARED ;
while ( last_dest ! = dest - > mnt_master ) {
p_last_dest = last_dest ;
p_last_src = last_src ;
last_dest = last_dest - > mnt_master ;
last_src = last_src - > mnt_master ;
}
if ( p_last_dest ) {
do {
p_last_dest = next_peer ( p_last_dest ) ;
} while ( IS_MNT_NEW ( p_last_dest ) ) ;
}
if ( dest ! = p_last_dest ) {
* type | = CL_SLAVE ;
return last_src ;
} else
return p_last_src ;
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}
/*
* mount ' source_mnt ' under the destination ' dest_mnt ' at
* dentry ' dest_dentry ' . And propagate that mount to
* all the peer and slave mounts of ' dest_mnt ' .
* Link all the new mounts into a propagation tree headed at
* source_mnt . Also link all the new mounts using - > mnt_list
* headed at source_mnt ' s - > mnt_list
*
* @ dest_mnt : destination mount .
* @ dest_dentry : destination dentry .
* @ source_mnt : source mount .
* @ tree_list : list of heads of trees to be attached .
*/
int propagate_mnt ( struct vfsmount * dest_mnt , struct dentry * dest_dentry ,
struct vfsmount * source_mnt , struct list_head * tree_list )
{
struct vfsmount * m , * child ;
int ret = 0 ;
struct vfsmount * prev_dest_mnt = dest_mnt ;
struct vfsmount * prev_src_mnt = source_mnt ;
LIST_HEAD ( tmp_list ) ;
LIST_HEAD ( umount_list ) ;
for ( m = propagation_next ( dest_mnt , dest_mnt ) ; m ;
m = propagation_next ( m , dest_mnt ) ) {
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int type ;
struct vfsmount * source ;
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if ( IS_MNT_NEW ( m ) )
continue ;
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source = get_source ( m , prev_dest_mnt , prev_src_mnt , & type ) ;
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if ( ! ( child = copy_tree ( source , source - > mnt_root , type ) ) ) {
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ret = - ENOMEM ;
list_splice ( tree_list , tmp_list . prev ) ;
goto out ;
}
if ( is_subdir ( dest_dentry , m - > mnt_root ) ) {
mnt_set_mountpoint ( m , dest_dentry , child ) ;
list_add_tail ( & child - > mnt_hash , tree_list ) ;
} else {
/*
* This can happen if the parent mount was bind mounted
* on some subdirectory of a shared / slave mount .
*/
list_add_tail ( & child - > mnt_hash , & tmp_list ) ;
}
prev_dest_mnt = m ;
prev_src_mnt = child ;
}
out :
spin_lock ( & vfsmount_lock ) ;
while ( ! list_empty ( & tmp_list ) ) {
child = list_entry ( tmp_list . next , struct vfsmount , mnt_hash ) ;
list_del_init ( & child - > mnt_hash ) ;
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umount_tree ( child , 0 , & umount_list ) ;
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}
spin_unlock ( & vfsmount_lock ) ;
release_mounts ( & umount_list ) ;
return ret ;
}
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/*
* return true if the refcount is greater than count
*/
static inline int do_refcount_check ( struct vfsmount * mnt , int count )
{
int mycount = atomic_read ( & mnt - > mnt_count ) ;
return ( mycount > count ) ;
}
/*
* check if the mount ' mnt ' can be unmounted successfully .
* @ mnt : the mount to be checked for unmount
* NOTE : unmounting ' mnt ' would naturally propagate to all
* other mounts its parent propagates to .
* Check if any of these mounts that * * do not have submounts * *
* have more references than ' refcnt ' . If so return busy .
*/
int propagate_mount_busy ( struct vfsmount * mnt , int refcnt )
{
struct vfsmount * m , * child ;
struct vfsmount * parent = mnt - > mnt_parent ;
int ret = 0 ;
if ( mnt = = parent )
return do_refcount_check ( mnt , refcnt ) ;
/*
* quickly check if the current mount can be unmounted .
* If not , we don ' t have to go checking for all other
* mounts
*/
if ( ! list_empty ( & mnt - > mnt_mounts ) | | do_refcount_check ( mnt , refcnt ) )
return 1 ;
for ( m = propagation_next ( parent , parent ) ; m ;
m = propagation_next ( m , parent ) ) {
child = __lookup_mnt ( m , mnt - > mnt_mountpoint , 0 ) ;
if ( child & & list_empty ( & child - > mnt_mounts ) & &
( ret = do_refcount_check ( child , 1 ) ) )
break ;
}
return ret ;
}
/*
* NOTE : unmounting ' mnt ' naturally propagates to all other mounts its
* parent propagates to .
*/
static void __propagate_umount ( struct vfsmount * mnt )
{
struct vfsmount * parent = mnt - > mnt_parent ;
struct vfsmount * m ;
BUG_ON ( parent = = mnt ) ;
for ( m = propagation_next ( parent , parent ) ; m ;
m = propagation_next ( m , parent ) ) {
struct vfsmount * child = __lookup_mnt ( m ,
mnt - > mnt_mountpoint , 0 ) ;
/*
* umount the child only if the child has no
* other children
*/
if ( child & & list_empty ( & child - > mnt_mounts ) ) {
list_del ( & child - > mnt_hash ) ;
list_add_tail ( & child - > mnt_hash , & mnt - > mnt_hash ) ;
}
}
}
/*
* collect all mounts that receive propagation from the mount in @ list ,
* and return these additional mounts in the same list .
* @ list : the list of mounts to be unmounted .
*/
int propagate_umount ( struct list_head * list )
{
struct vfsmount * mnt ;
list_for_each_entry ( mnt , list , mnt_hash )
__propagate_umount ( mnt ) ;
return 0 ;
}