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/*
* linux / ipc / util . c
* Copyright ( C ) 1992 Krishna Balasubramanian
*
* Sep 1997 - Call suser ( ) last after " normal " permission checks so we
* get BSD style process accounting right .
* Occurs in several places in the IPC code .
* Chris Evans , < chris @ ferret . lmh . ox . ac . uk >
* Nov 1999 - ipc helper functions , unified SMP locking
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* Manfred Spraul < manfred @ colorfullife . com >
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* Oct 2002 - One lock per IPC id . RCU ipc_free for lock - free grow_ary ( ) .
* Mingming Cao < cmm @ us . ibm . com >
*/
# include <linux/config.h>
# include <linux/mm.h>
# include <linux/shm.h>
# include <linux/init.h>
# include <linux/msg.h>
# include <linux/smp_lock.h>
# include <linux/vmalloc.h>
# include <linux/slab.h>
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# include <linux/capability.h>
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# include <linux/highuid.h>
# include <linux/security.h>
# include <linux/rcupdate.h>
# include <linux/workqueue.h>
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# include <linux/seq_file.h>
# include <linux/proc_fs.h>
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# include <asm/unistd.h>
# include "util.h"
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struct ipc_proc_iface {
const char * path ;
const char * header ;
struct ipc_ids * ids ;
int ( * show ) ( struct seq_file * , void * ) ;
} ;
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/**
* ipc_init - initialise IPC subsystem
*
* The various system5 IPC resources ( semaphores , messages and shared
* memory are initialised
*/
static int __init ipc_init ( void )
{
sem_init ( ) ;
msg_init ( ) ;
shm_init ( ) ;
return 0 ;
}
__initcall ( ipc_init ) ;
/**
* ipc_init_ids - initialise IPC identifiers
* @ ids : Identifier set
* @ size : Number of identifiers
*
* Given a size for the ipc identifier range ( limited below IPCMNI )
* set up the sequence range to use then allocate and initialise the
* array itself .
*/
void __init ipc_init_ids ( struct ipc_ids * ids , int size )
{
int i ;
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mutex_init ( & ids - > mutex ) ;
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if ( size > IPCMNI )
size = IPCMNI ;
ids - > in_use = 0 ;
ids - > max_id = - 1 ;
ids - > seq = 0 ;
{
int seq_limit = INT_MAX / SEQ_MULTIPLIER ;
if ( seq_limit > USHRT_MAX )
ids - > seq_max = USHRT_MAX ;
else
ids - > seq_max = seq_limit ;
}
ids - > entries = ipc_rcu_alloc ( sizeof ( struct kern_ipc_perm * ) * size +
sizeof ( struct ipc_id_ary ) ) ;
if ( ids - > entries = = NULL ) {
printk ( KERN_ERR " ipc_init_ids() failed, ipc service disabled. \n " ) ;
size = 0 ;
ids - > entries = & ids - > nullentry ;
}
ids - > entries - > size = size ;
for ( i = 0 ; i < size ; i + + )
ids - > entries - > p [ i ] = NULL ;
}
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# ifdef CONFIG_PROC_FS
static struct file_operations sysvipc_proc_fops ;
/**
* ipc_init_proc_interface - Create a proc interface for sysipc types
* using a seq_file interface .
* @ path : Path in procfs
* @ header : Banner to be printed at the beginning of the file .
* @ ids : ipc id table to iterate .
* @ show : show routine .
*/
void __init ipc_init_proc_interface ( const char * path , const char * header ,
struct ipc_ids * ids ,
int ( * show ) ( struct seq_file * , void * ) )
{
struct proc_dir_entry * pde ;
struct ipc_proc_iface * iface ;
iface = kmalloc ( sizeof ( * iface ) , GFP_KERNEL ) ;
if ( ! iface )
return ;
iface - > path = path ;
iface - > header = header ;
iface - > ids = ids ;
iface - > show = show ;
pde = create_proc_entry ( path ,
S_IRUGO , /* world readable */
NULL /* parent dir */ ) ;
if ( pde ) {
pde - > data = iface ;
pde - > proc_fops = & sysvipc_proc_fops ;
} else {
kfree ( iface ) ;
}
}
# endif
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/**
* ipc_findkey - find a key in an ipc identifier set
* @ ids : Identifier set
* @ key : The key to find
*
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* Requires ipc_ids . mutex locked .
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* Returns the identifier if found or - 1 if not .
*/
int ipc_findkey ( struct ipc_ids * ids , key_t key )
{
int id ;
struct kern_ipc_perm * p ;
int max_id = ids - > max_id ;
/*
* rcu_dereference ( ) is not needed here
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* since ipc_ids . mutex is held
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*/
for ( id = 0 ; id < = max_id ; id + + ) {
p = ids - > entries - > p [ id ] ;
if ( p = = NULL )
continue ;
if ( key = = p - > key )
return id ;
}
return - 1 ;
}
/*
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* Requires ipc_ids . mutex locked
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*/
static int grow_ary ( struct ipc_ids * ids , int newsize )
{
struct ipc_id_ary * new ;
struct ipc_id_ary * old ;
int i ;
int size = ids - > entries - > size ;
if ( newsize > IPCMNI )
newsize = IPCMNI ;
if ( newsize < = size )
return newsize ;
new = ipc_rcu_alloc ( sizeof ( struct kern_ipc_perm * ) * newsize +
sizeof ( struct ipc_id_ary ) ) ;
if ( new = = NULL )
return size ;
new - > size = newsize ;
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memcpy ( new - > p , ids - > entries - > p , sizeof ( struct kern_ipc_perm * ) * size ) ;
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for ( i = size ; i < newsize ; i + + ) {
new - > p [ i ] = NULL ;
}
old = ids - > entries ;
/*
* Use rcu_assign_pointer ( ) to make sure the memcpyed contents
* of the new array are visible before the new array becomes visible .
*/
rcu_assign_pointer ( ids - > entries , new ) ;
ipc_rcu_putref ( old ) ;
return newsize ;
}
/**
* ipc_addid - add an IPC identifier
* @ ids : IPC identifier set
* @ new : new IPC permission set
* @ size : new size limit for the id array
*
* Add an entry ' new ' to the IPC arrays . The permissions object is
* initialised and the first free entry is set up and the id assigned
* is returned . The list is returned in a locked state on success .
* On failure the list is not locked and - 1 is returned .
*
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* Called with ipc_ids . mutex held .
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*/
int ipc_addid ( struct ipc_ids * ids , struct kern_ipc_perm * new , int size )
{
int id ;
size = grow_ary ( ids , size ) ;
/*
* rcu_dereference ( ) ( ) is not needed here since
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* ipc_ids . mutex is held
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*/
for ( id = 0 ; id < size ; id + + ) {
if ( ids - > entries - > p [ id ] = = NULL )
goto found ;
}
return - 1 ;
found :
ids - > in_use + + ;
if ( id > ids - > max_id )
ids - > max_id = id ;
new - > cuid = new - > uid = current - > euid ;
new - > gid = new - > cgid = current - > egid ;
new - > seq = ids - > seq + + ;
if ( ids - > seq > ids - > seq_max )
ids - > seq = 0 ;
spin_lock_init ( & new - > lock ) ;
new - > deleted = 0 ;
rcu_read_lock ( ) ;
spin_lock ( & new - > lock ) ;
ids - > entries - > p [ id ] = new ;
return id ;
}
/**
* ipc_rmid - remove an IPC identifier
* @ ids : identifier set
* @ id : Identifier to remove
*
* The identifier must be valid , and in use . The kernel will panic if
* fed an invalid identifier . The entry is removed and internal
* variables recomputed . The object associated with the identifier
* is returned .
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* ipc_ids . mutex and the spinlock for this ID is hold before this function
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* is called , and remain locked on the exit .
*/
struct kern_ipc_perm * ipc_rmid ( struct ipc_ids * ids , int id )
{
struct kern_ipc_perm * p ;
int lid = id % SEQ_MULTIPLIER ;
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BUG_ON ( lid > = ids - > entries - > size ) ;
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/*
* do not need a rcu_dereference ( ) ( ) here to force ordering
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* on Alpha , since the ipc_ids . mutex is held .
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*/
p = ids - > entries - > p [ lid ] ;
ids - > entries - > p [ lid ] = NULL ;
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BUG_ON ( p = = NULL ) ;
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ids - > in_use - - ;
if ( lid = = ids - > max_id ) {
do {
lid - - ;
if ( lid = = - 1 )
break ;
} while ( ids - > entries - > p [ lid ] = = NULL ) ;
ids - > max_id = lid ;
}
p - > deleted = 1 ;
return p ;
}
/**
* ipc_alloc - allocate ipc space
* @ size : size desired
*
* Allocate memory from the appropriate pools and return a pointer to it .
* NULL is returned if the allocation fails
*/
void * ipc_alloc ( int size )
{
void * out ;
if ( size > PAGE_SIZE )
out = vmalloc ( size ) ;
else
out = kmalloc ( size , GFP_KERNEL ) ;
return out ;
}
/**
* ipc_free - free ipc space
* @ ptr : pointer returned by ipc_alloc
* @ size : size of block
*
* Free a block created with ipc_alloc . The caller must know the size
* used in the allocation call .
*/
void ipc_free ( void * ptr , int size )
{
if ( size > PAGE_SIZE )
vfree ( ptr ) ;
else
kfree ( ptr ) ;
}
/*
* rcu allocations :
* There are three headers that are prepended to the actual allocation :
* - during use : ipc_rcu_hdr .
* - during the rcu grace period : ipc_rcu_grace .
* - [ only if vmalloc ] : ipc_rcu_sched .
* Their lifetime doesn ' t overlap , thus the headers share the same memory .
* Unlike a normal union , they are right - aligned , thus some container_of
* forward / backward casting is necessary :
*/
struct ipc_rcu_hdr
{
int refcount ;
int is_vmalloc ;
void * data [ 0 ] ;
} ;
struct ipc_rcu_grace
{
struct rcu_head rcu ;
/* "void *" makes sure alignment of following data is sane. */
void * data [ 0 ] ;
} ;
struct ipc_rcu_sched
{
struct work_struct work ;
/* "void *" makes sure alignment of following data is sane. */
void * data [ 0 ] ;
} ;
# define HDRLEN_KMALLOC (sizeof(struct ipc_rcu_grace) > sizeof(struct ipc_rcu_hdr) ? \
sizeof ( struct ipc_rcu_grace ) : sizeof ( struct ipc_rcu_hdr ) )
# define HDRLEN_VMALLOC (sizeof(struct ipc_rcu_sched) > HDRLEN_KMALLOC ? \
sizeof ( struct ipc_rcu_sched ) : HDRLEN_KMALLOC )
static inline int rcu_use_vmalloc ( int size )
{
/* Too big for a single page? */
if ( HDRLEN_KMALLOC + size > PAGE_SIZE )
return 1 ;
return 0 ;
}
/**
* ipc_rcu_alloc - allocate ipc and rcu space
* @ size : size desired
*
* Allocate memory for the rcu header structure + the object .
* Returns the pointer to the object .
* NULL is returned if the allocation fails .
*/
void * ipc_rcu_alloc ( int size )
{
void * out ;
/*
* We prepend the allocation with the rcu struct , and
* workqueue if necessary ( for vmalloc ) .
*/
if ( rcu_use_vmalloc ( size ) ) {
out = vmalloc ( HDRLEN_VMALLOC + size ) ;
if ( out ) {
out + = HDRLEN_VMALLOC ;
container_of ( out , struct ipc_rcu_hdr , data ) - > is_vmalloc = 1 ;
container_of ( out , struct ipc_rcu_hdr , data ) - > refcount = 1 ;
}
} else {
out = kmalloc ( HDRLEN_KMALLOC + size , GFP_KERNEL ) ;
if ( out ) {
out + = HDRLEN_KMALLOC ;
container_of ( out , struct ipc_rcu_hdr , data ) - > is_vmalloc = 0 ;
container_of ( out , struct ipc_rcu_hdr , data ) - > refcount = 1 ;
}
}
return out ;
}
void ipc_rcu_getref ( void * ptr )
{
container_of ( ptr , struct ipc_rcu_hdr , data ) - > refcount + + ;
}
/**
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* ipc_schedule_free - free ipc + rcu space
* @ head : RCU callback structure for queued work
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*
* Since RCU callback function is called in bh ,
* we need to defer the vfree to schedule_work
*/
static void ipc_schedule_free ( struct rcu_head * head )
{
struct ipc_rcu_grace * grace =
container_of ( head , struct ipc_rcu_grace , rcu ) ;
struct ipc_rcu_sched * sched =
container_of ( & ( grace - > data [ 0 ] ) , struct ipc_rcu_sched , data [ 0 ] ) ;
INIT_WORK ( & sched - > work , vfree , sched ) ;
schedule_work ( & sched - > work ) ;
}
/**
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* ipc_immediate_free - free ipc + rcu space
* @ head : RCU callback structure that contains pointer to be freed
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*
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* Free from the RCU callback context
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*/
static void ipc_immediate_free ( struct rcu_head * head )
{
struct ipc_rcu_grace * free =
container_of ( head , struct ipc_rcu_grace , rcu ) ;
kfree ( free ) ;
}
void ipc_rcu_putref ( void * ptr )
{
if ( - - container_of ( ptr , struct ipc_rcu_hdr , data ) - > refcount > 0 )
return ;
if ( container_of ( ptr , struct ipc_rcu_hdr , data ) - > is_vmalloc ) {
call_rcu ( & container_of ( ptr , struct ipc_rcu_grace , data ) - > rcu ,
ipc_schedule_free ) ;
} else {
call_rcu ( & container_of ( ptr , struct ipc_rcu_grace , data ) - > rcu ,
ipc_immediate_free ) ;
}
}
/**
* ipcperms - check IPC permissions
* @ ipcp : IPC permission set
* @ flag : desired permission set .
*
* Check user , group , other permissions for access
* to ipc resources . return 0 if allowed
*/
int ipcperms ( struct kern_ipc_perm * ipcp , short flag )
{ /* flag will most probably be 0 or S_...UGO from <linux/stat.h> */
int requested_mode , granted_mode ;
requested_mode = ( flag > > 6 ) | ( flag > > 3 ) | flag ;
granted_mode = ipcp - > mode ;
if ( current - > euid = = ipcp - > cuid | | current - > euid = = ipcp - > uid )
granted_mode > > = 6 ;
else if ( in_group_p ( ipcp - > cgid ) | | in_group_p ( ipcp - > gid ) )
granted_mode > > = 3 ;
/* is there some bit set in requested_mode but not in granted_mode? */
if ( ( requested_mode & ~ granted_mode & 0007 ) & &
! capable ( CAP_IPC_OWNER ) )
return - 1 ;
return security_ipc_permission ( ipcp , flag ) ;
}
/*
* Functions to convert between the kern_ipc_perm structure and the
* old / new ipc_perm structures
*/
/**
* kernel_to_ipc64_perm - convert kernel ipc permissions to user
* @ in : kernel permissions
* @ out : new style IPC permissions
*
* Turn the kernel object ' in ' into a set of permissions descriptions
* for returning to userspace ( out ) .
*/
void kernel_to_ipc64_perm ( struct kern_ipc_perm * in , struct ipc64_perm * out )
{
out - > key = in - > key ;
out - > uid = in - > uid ;
out - > gid = in - > gid ;
out - > cuid = in - > cuid ;
out - > cgid = in - > cgid ;
out - > mode = in - > mode ;
out - > seq = in - > seq ;
}
/**
* ipc64_perm_to_ipc_perm - convert old ipc permissions to new
* @ in : new style IPC permissions
* @ out : old style IPC permissions
*
* Turn the new style permissions object in into a compatibility
* object and store it into the ' out ' pointer .
*/
void ipc64_perm_to_ipc_perm ( struct ipc64_perm * in , struct ipc_perm * out )
{
out - > key = in - > key ;
SET_UID ( out - > uid , in - > uid ) ;
SET_GID ( out - > gid , in - > gid ) ;
SET_UID ( out - > cuid , in - > cuid ) ;
SET_GID ( out - > cgid , in - > cgid ) ;
out - > mode = in - > mode ;
out - > seq = in - > seq ;
}
/*
* So far only shm_get_stat ( ) calls ipc_get ( ) via shm_get ( ) , so ipc_get ( )
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* is called with shm_ids . mutex locked . Since grow_ary ( ) is also called with
* shm_ids . mutex down ( for Shared Memory ) , there is no need to add read
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* barriers here to gurantee the writes in grow_ary ( ) are seen in order
* here ( for Alpha ) .
*
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* However ipc_get ( ) itself does not necessary require ipc_ids . mutex down . So
* if in the future ipc_get ( ) is used by other places without ipc_ids . mutex
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* down , then ipc_get ( ) needs read memery barriers as ipc_lock ( ) does .
*/
struct kern_ipc_perm * ipc_get ( struct ipc_ids * ids , int id )
{
struct kern_ipc_perm * out ;
int lid = id % SEQ_MULTIPLIER ;
if ( lid > = ids - > entries - > size )
return NULL ;
out = ids - > entries - > p [ lid ] ;
return out ;
}
struct kern_ipc_perm * ipc_lock ( struct ipc_ids * ids , int id )
{
struct kern_ipc_perm * out ;
int lid = id % SEQ_MULTIPLIER ;
struct ipc_id_ary * entries ;
rcu_read_lock ( ) ;
entries = rcu_dereference ( ids - > entries ) ;
if ( lid > = entries - > size ) {
rcu_read_unlock ( ) ;
return NULL ;
}
out = entries - > p [ lid ] ;
if ( out = = NULL ) {
rcu_read_unlock ( ) ;
return NULL ;
}
spin_lock ( & out - > lock ) ;
/* ipc_rmid() may have already freed the ID while ipc_lock
* was spinning : here verify that the structure is still valid
*/
if ( out - > deleted ) {
spin_unlock ( & out - > lock ) ;
rcu_read_unlock ( ) ;
return NULL ;
}
return out ;
}
void ipc_lock_by_ptr ( struct kern_ipc_perm * perm )
{
rcu_read_lock ( ) ;
spin_lock ( & perm - > lock ) ;
}
void ipc_unlock ( struct kern_ipc_perm * perm )
{
spin_unlock ( & perm - > lock ) ;
rcu_read_unlock ( ) ;
}
int ipc_buildid ( struct ipc_ids * ids , int id , int seq )
{
return SEQ_MULTIPLIER * seq + id ;
}
int ipc_checkid ( struct ipc_ids * ids , struct kern_ipc_perm * ipcp , int uid )
{
if ( uid / SEQ_MULTIPLIER ! = ipcp - > seq )
return 1 ;
return 0 ;
}
# ifdef __ARCH_WANT_IPC_PARSE_VERSION
/**
* ipc_parse_version - IPC call version
* @ cmd : pointer to command
*
* Return IPC_64 for new style IPC and IPC_OLD for old style IPC .
* The cmd value is turned from an encoding command and version into
* just the command code .
*/
int ipc_parse_version ( int * cmd )
{
if ( * cmd & IPC_64 ) {
* cmd ^ = IPC_64 ;
return IPC_64 ;
} else {
return IPC_OLD ;
}
}
# endif /* __ARCH_WANT_IPC_PARSE_VERSION */
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# ifdef CONFIG_PROC_FS
static void * sysvipc_proc_next ( struct seq_file * s , void * it , loff_t * pos )
{
struct ipc_proc_iface * iface = s - > private ;
struct kern_ipc_perm * ipc = it ;
loff_t p ;
/* If we had an ipc id locked before, unlock it */
if ( ipc & & ipc ! = SEQ_START_TOKEN )
ipc_unlock ( ipc ) ;
/*
* p = * pos - 1 ( because id 0 starts at position 1 )
* + 1 ( because we increment the position by one )
*/
for ( p = * pos ; p < = iface - > ids - > max_id ; p + + ) {
if ( ( ipc = ipc_lock ( iface - > ids , p ) ) ! = NULL ) {
* pos = p + 1 ;
return ipc ;
}
}
/* Out of range - return NULL to terminate iteration */
return NULL ;
}
/*
* File positions : pos 0 - > header , pos n - > ipc id + 1.
* SeqFile iterator : iterator value locked shp or SEQ_TOKEN_START .
*/
static void * sysvipc_proc_start ( struct seq_file * s , loff_t * pos )
{
struct ipc_proc_iface * iface = s - > private ;
struct kern_ipc_perm * ipc ;
loff_t p ;
/*
* Take the lock - this will be released by the corresponding
* call to stop ( ) .
*/
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mutex_lock ( & iface - > ids - > mutex ) ;
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/* pos < 0 is invalid */
if ( * pos < 0 )
return NULL ;
/* pos == 0 means header */
if ( * pos = = 0 )
return SEQ_START_TOKEN ;
/* Find the (pos-1)th ipc */
for ( p = * pos - 1 ; p < = iface - > ids - > max_id ; p + + ) {
if ( ( ipc = ipc_lock ( iface - > ids , p ) ) ! = NULL ) {
* pos = p + 1 ;
return ipc ;
}
}
return NULL ;
}
static void sysvipc_proc_stop ( struct seq_file * s , void * it )
{
struct kern_ipc_perm * ipc = it ;
struct ipc_proc_iface * iface = s - > private ;
/* If we had a locked segment, release it */
if ( ipc & & ipc ! = SEQ_START_TOKEN )
ipc_unlock ( ipc ) ;
/* Release the lock we took in start() */
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mutex_unlock ( & iface - > ids - > mutex ) ;
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}
static int sysvipc_proc_show ( struct seq_file * s , void * it )
{
struct ipc_proc_iface * iface = s - > private ;
if ( it = = SEQ_START_TOKEN )
return seq_puts ( s , iface - > header ) ;
return iface - > show ( s , it ) ;
}
static struct seq_operations sysvipc_proc_seqops = {
. start = sysvipc_proc_start ,
. stop = sysvipc_proc_stop ,
. next = sysvipc_proc_next ,
. show = sysvipc_proc_show ,
} ;
static int sysvipc_proc_open ( struct inode * inode , struct file * file ) {
int ret ;
struct seq_file * seq ;
ret = seq_open ( file , & sysvipc_proc_seqops ) ;
if ( ! ret ) {
seq = file - > private_data ;
seq - > private = PDE ( inode ) - > data ;
}
return ret ;
}
static struct file_operations sysvipc_proc_fops = {
. open = sysvipc_proc_open ,
. read = seq_read ,
. llseek = seq_lseek ,
. release = seq_release ,
} ;
# endif /* CONFIG_PROC_FS */